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3900 Series Base Station
V100R009C00
eNodeBFunction Parameter
Reference
Issue
11
Date
2015/03/30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2015. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei
Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of
products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherw
specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties
guarantees or representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the preparation of this documen
ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty
any kind, express or implied.
Huawei Technologies Co., Ltd.
Address:
Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website:
http://www.huawei.com
Email:
support@huawei.com
rights reserved.
any form or by any means without prior written consent of Huawei
Technologies Co., Ltd.
ed in this document are the property of their respective holders.
by the contract made between Huawei and the customer. All or part of the
ay not be within the purchase scope or the usage scope. Unless otherwise
mmendations in this document are provided "AS IS" without warranties,
mplied.
notice. Every effort has been made in the preparation of this document to
on, and recommendations in this document do not constitute a warranty of
Purpose
This document describes the MO parameters of eNodeB For the details about the paramete
interconnection, see the eNodeB Parameter List.
Intended Audience
This document is intended for:
• Network planners
• System engineers
• Field engineers
• Shift operators
• Site maintainers
• Network operators
Parameter Attribute Description
The following table describes the attributes of each parameter.
Parameter Attribute
MO
Parameter ID
Parameter Name
NE
MML Command
Meaning
IsKey
Mandatory
Dynamic Attribute
Feature ID
Feature Name
Value Type
GUI Value Range
Enumeration Number/Bit
Unit
Actual Value Range
Default Value
Recommended Value
Initial Value Source
Impact
Parameter Relationship
Access
Service Interrupted After Modification
Interruption Scope
Interruption Duration (min)
Caution
Validation of Modification
Impact on Radio Network
Performance
Introduced in Version…
Attribute
Applicable Mode
Change History
For detailed parameter changes, see the release notes.
Issue
Date
11
2015/3/30
10
2015/1/29
09
2014/12/30
08
2014/11/13
07
2014/9/30
06
2014/8/30
05
2014/7/25
04
2014/6/30
03
2014/6/25
02
2014/5/27
01
2014/4/26
Draft C
2014/3/31
Draft B
2014/2/28
Draft A
2014/1/20
he MO parameters of eNodeB For the details about the parameters related to northbound interface
NodeB Parameter List.
scription
es the attributes of each parameter.
Description
Managed object of NE.
A simple character string used for identifying a parameter.
Name of a parameter.
NE Type of a product displayed on the OSS. The value can be BTS3900, BTS3900 WCDMA, or
BTS3900 LTE. BTS3900 indicates a co-MPT base station; BTS3900 WCDMA indicates a UMTS
base station; BTS3900 LTE indicates an LTE base station. These NE types are applicable to the
following base station models: DBS3900, BTS3900, BTS3900A, BTS3900L, BTS3900AL, and
BTS3900C.
Man Machine Language (MML) command related to the parameter.
Function of a parameter, protocol that defines the parameter, whether the parameter is an
advanced parameter.
Advanced parameters are not configured through northbound interfaces. To modify these
parameters, contact Huawei Customer Service Center for technical support.
If parameters meet one of the following conditions, they are treated as advanced parameters:
1. Parameters are temporarily introduced in a new feature or a customized feature to achieve
optimal network performance.
These parameters will have fixed values and will be deleted after the beta test or test at the
customized site.
2. Modifications to these parameters have a great impact on network KPIs or performance.
Normally, modifications of these parameters are not required for features. To achieve optimal
network performance, multiple parameters must be modified because modification of a single
parameter has little effect on the network and even may cause accidents, for example, service
interruption.
Whether the parameter is used to identify an MO instance.
Whether the parameter is mandatory for creating an MO instance.
Whether the parameter is dynamic for an MO. If the parameter is not dynamic, it can be added,
modified, or removed; if the parameter is dynamic, it cannot.
ID of the feature that uses the parameter.
Name of the feature that uses the parameter.
Type of a parameter value. For example, IP Address Type, Compound Type, Enumeration Type,
Interval Type, Bit Field Type, Character String Type, Wildcard Mask Type, Subnet Mask Type,
Password Type, Any Type, BCD Number Type, Struct.
Range of the parameter values displayed on the GUI.
Enumeration number corresponding to the GUI value of a parameter of the enumeration type, or
bit position corresponding to the GUI value of a parameter of the bit field type. N/A is filled if the
parameter value is not enumeration type or bit field type.
Unit of a parameter value displayed on the GUI.
Range of the actual values corresponding to the parameter values displayed on the GUI.
Initial value assigned by the system for a parameter. For a mandatory parameter, no default value
is available. For a bit field parameter, if the value of a sub-parameter is ON, the bit representing
the sub-parameter is set to 1; if the value of a sub-parameter is OFF, the bit representing the subparameter is set to 0. None indicates that no default value is available.
Generally, it is displayed on the configuration window of an ADD command but not displayed on
the configuration window of a MOD/RMV/DSP/LST/SET command.
Parameter values recommended for different scenarios.
Source for the initial configuration of a parameter. The initial value source can be:
Radio planning (Internal planning): The parameter value comes from the radio network plan,
facilitating resource management on the NE.
Radio planning (Negotiation with the peer): The parameter value comes from the radio network
plan. The NE negotiates this value with the peer device to ensure successful interworking.
Transport planning (Internal planning): The parameter value comes from the transport network
plan, facilitating resource management on the NE.
Transport planning (Negotiation with the peer): The parameter value comes from the transport
network plan. The NE negotiates this value with the peer device to ensure successful
interworking.
Equipment planning: The parameter value comes from the equipment plan.
Engineering design: The parameter value comes from the algorithm or function design.
Default/recommended value: The parameter value uses the default or recommended value,
where the recommended value is preferential. The default/recommended value can be used in
most scenarios and adjusted for a specific scenario.
N/A: The parameter value is not required.
Parameter impact scope.
Relationship with other parameters. For example, to use this parameter, you need to set related
Whether a parameter has one of the following properties:
Read/Write: The parameter can be added, deleted, or modified.
Read Only: The parameter can be added or deleted only.
Whether the parameter modification interrupts the ongoing services. One of the following
comments is provided:
Yes: The modification interrupts the ongoing services.
No (And no impact on the UE in idle mode): The modification does not interrupt the ongoing
services, and has no impact on the network access of UEs in idle mode.
No (For the UE in idle mode, ...): The modification does not interrupt the ongoing services, but
affects network access of UEs in idle mode...
N/A: This comment is used when a parameter cannot be modified.
Possible interruption scope.
Possible interruption duration (unit: minute).
Cautions to be taken during the modification.
How this parameter takes effect and whether the equipment needs to be restarted after the
modification. The parameter modification does not impact the equipment means that the
parameter takes effect immediately after the modification.
Impact of the parameter on radio network performance.
Product version in which the parameter is introduced.
Whether the parameter is a radio parameter, a transport parameter, or an equipment parameter.
Indicates the applicable mode of a parameter.
G:The parameter is valid for GSM mode.
U:The parameter is valid for UMTS mode.
L:The parameter is valid for LTE mode.
If the parameter is applicable to multiple modes, the modes are separated by commas. For
example, if the parameter is applicable to GSM and UMTS, the value is G,U.
If a parameter not applicable to a mode is used, the services of the mode will not be affected
irrespective of whether the parameter setting is successful.
nges, see the release notes.
Description
This is the eleventh official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the tenth official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the ninth official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the eighth official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the seventh official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the sixth official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the fifth official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the fourth official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the third official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the second official release.
For details about the changes, see appendix 2 in the
corresponding release note.
This is the first official release.
For details about the changes, see appendix 2 in the
corresponding release note.
Draft C
For details about the changes, see appendix 2 in the
corresponding release note.
Draft B.
For details about the changes, see appendix 2 in the
corresponding release note.
Draft A
rameters related to northbound interface
parameter.
e value can be BTS3900, BTS3900 WCDMA, or
ase station; BTS3900 WCDMA indicates a UMTS
ase station. These NE types are applicable to the
900, BTS3900A, BTS3900L, BTS3900AL, and
ed to the parameter.
he parameter, whether the parameter is an
gh northbound interfaces. To modify these
Center for technical support.
ns, they are treated as advanced parameters:
ew feature or a customized feature to achieve
ll be deleted after the beta test or test at the
eat impact on network KPIs or performance.
e not required for features. To achieve optimal
t be modified because modification of a single
ven may cause accidents, for example, service
O instance.
g an MO instance.
f the parameter is not dynamic, it can be added,
mic, it cannot.
dress Type, Compound Type, Enumeration Type,
ype, Wildcard Mask Type, Subnet Mask Type,
Struct.
e GUI.
value of a parameter of the enumeration type, or
parameter of the bit field type. N/A is filled if the
ield type.
.
e parameter values displayed on the GUI.
meter. For a mandatory parameter, no default value
e of a sub-parameter is ON, the bit representing
ub-parameter is OFF, the bit representing the subefault value is available.
ndow of an ADD command but not displayed on
LST/SET command.
cenarios.
er. The initial value source can be:
meter value comes from the radio network plan,
The parameter value comes from the radio network
r device to ensure successful interworking.
parameter value comes from the transport network
NE.
er): The parameter value comes from the transport
the peer device to ensure successful
mes from the equipment plan.
mes from the algorithm or function design.
value uses the default or recommended value,
The default/recommended value can be used in
ario.
e, to use this parameter, you need to set related
properties:
ted, or modified.
eted only.
he ongoing services. One of the following
rvices.
The modification does not interrupt the ongoing
cess of UEs in idle mode.
ation does not interrupt the ongoing services, but
cannot be modified.
e equipment needs to be restarted after the
es not impact the equipment means that the
odification.
rmance.
duced.
transport parameter, or an equipment parameter.
, the modes are separated by commas. For
and UMTS, the value is G,U.
, the services of the mode will not be affected
successful.
MO
Parameter ID
Parameter Name
CN Operator ID
CN Operator
extended QCI
ADD
CNOPERATOREXT
ENDEDQCI
LST
CNOPERATOREXT
ENDEDQCI
MOD
CNOPERATOREXT
ENDEDQCI
RMV
BTS3900, BTS3900 CNOPERATOREXT
LTE
ENDEDQCI
CnOperatorExtended
ExtendedQci
MML Command
ADD
CNOPERATOREXT
ENDEDQCI
LST
CNOPERATOREXT
ENDEDQCI
MOD
CNOPERATOREXT
ENDEDQCI
RMV
BTS3900, BTS3900 CNOPERATOREXT
LTE
ENDEDQCI
CnOperatorExtended
CnOperatorId
NE
ADD
CNOPERATOREXT
ENDEDQCI
MOD
CnOperatorExtended
CNOPERATOREXT
ENDEDQCI
Service-based interLST
ServiceIrHoCfgGro RAT handover
BTS3900, BTS3900 CNOPERATOREXT
upId
policy group ID
LTE
ENDEDQCI
ADD
CNOPERATOREXT
ENDEDQCI
MOD
CnOperatorExtended
CNOPERATOREXT
ENDEDQCI
Service-based interLST
ServiceIfHoCfgGrou Freq handover
BTS3900, BTS3900 CNOPERATOREXT
pId
policy group ID
LTE
ENDEDQCI
CnOperatorHoCfg
CnOperatorId
CN Operator ID
LST
CNOPERATORHO
CFG
MOD
BTS3900, BTS3900 CNOPERATORHO
LTE
CFG
CnOperatorHoCfg
FirstRatPri
First RAT Priority
MOD
CNOPERATORHO
CFG
LST
BTS3900, BTS3900 CNOPERATORHO
LTE
CFG
Second RAT
Priority
MOD
CNOPERATORHO
CFG
LST
BTS3900, BTS3900 CNOPERATORHO
LTE
CFG
CnOperatorHoCfg
SecondRatPri
CnOperatorHoCfg
MOD
CNOPERATORHO
CFG
LTE TDD inter-freq
LST
TddIfHoA2ThdRsrp A2 Threshold
BTS3900, BTS3900 CNOPERATORHO
Offset
RSRP Offset
LTE
CFG
CnOperatorHoCfg
MOD
CNOPERATORHO
CFG
LTE FDD inter-freq
LST
FddIfHoA2ThdRsrp A2 Threshold
BTS3900, BTS3900 CNOPERATORHO
Offset
RSRP Offset
LTE
CFG
CnOperatorHoCfg
UTRAN A2
UtranA2ThdRsrpOff Threshold RSRP
set
Offset
MOD
CNOPERATORHO
CFG
LST
BTS3900, BTS3900 CNOPERATORHO
LTE
CFG
CnOperatorHoCfg
GERAN A2
GeranA2ThdRsrpOf Threshold RSRP
fset
Offset
MOD
CNOPERATORHO
CFG
LST
BTS3900, BTS3900 CNOPERATORHO
LTE
CFG
CnOperatorId
ADD
CNOPERATORSPI
DCFG
LST
CNOPERATORSPI
DCFG
MOD
CNOPERATORSPI
DCFG
RMV
BTS3900, BTS3900 CNOPERATORSPI
LTE
DCFG
CnOperatorSpidCfg
CN Operator ID
Spid
ADD
CNOPERATORSPI
DCFG
LST
CNOPERATORSPI
DCFG
MOD
CNOPERATORSPI
DCFG
RMV
BTS3900, BTS3900 CNOPERATORSPI
LTE
DCFG
RAT frequency
priority indication
ADD
CNOPERATORSPI
DCFG
MOD
CNOPERATORSPI
DCFG
LST
BTS3900, BTS3900 CNOPERATORSPI
LTE
DCFG
CnOperatorSpidCfg
Spid
CnOperatorSpidCfg
RatFreqPriorityInd
RatFreqPriorityGrou RAT frequency
pId
priority group ID
ADD
CNOPERATORSPI
DCFG
MOD
CNOPERATORSPI
DCFG
LST
BTS3900, BTS3900 CNOPERATORSPI
LTE
DCFG
CnOperatorId
LST
CNOPERATORSTA
NDARDQCI
MOD
BTS3900, BTS3900 CNOPERATORSTA
LTE
NDARDQCI
CnOperatorSpidCfg
CnOperatorStandard
CN Operator ID
CnOperatorStandard
Qci
QoS Class
Indication
LST
CNOPERATORSTA
NDARDQCI
MOD
BTS3900, BTS3900 CNOPERATORSTA
LTE
NDARDQCI
MOD
CNOPERATORSTA
NDARDQCI
CnOperatorStandard
Service-based interLST
ServiceIrHoCfgGro RAT handover
BTS3900, BTS3900 CNOPERATORSTA
upId
policy group ID
LTE
NDARDQCI
MOD
CNOPERATORSTA
NDARDQCI
CnOperatorStandard
Service-based interLST
ServiceIfHoCfgGrou Freq handover
BTS3900, BTS3900 CNOPERATORSTA
pId
policy group ID
LTE
NDARDQCI
CnOperatorStandard
Service-based
ServiceHoBearerPo Handover Bearer
licy
Policy
MOD
CNOPERATORSTA
NDARDQCI
LST
BTS3900, BTS3900 CNOPERATORSTA
LTE
NDARDQCI
CSFallBackBlindHoC
CnOperatorId
CN Operator ID
LST
CSFALLBACKBLIN
DHOCFG
MOD
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFallBackBlindHoC
InterRatHighestPri
Highest priority
InterRat
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFallBackBlindHoC
InterRatSecondPri
Second priority
InterRat
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFallBackBlindHoC
InterRatLowestPri
Lowest priority
InterRat
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
UTRAN LCS
capability
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
GERAN LCS
capability
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFallBackBlindHoC
UtranLcsCap
CSFallBackBlindHoC
GeranLcsCap
CDMA2000 LCS
capability
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFB Highest
priority InterRat for
Idle UE
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFB Second
priority InterRat for
Idle UE
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
CSFallBackBlindHoC
CdmaLcsCap
CSFallBackBlindHoC
IdleCsfbHighestPri
CSFallBackBlindHoC
IdleCsfbSecondPri
CSFallBackBlindHoC
IdleCsfbLowestPri
CSFallBackPolicyCfg
CsfbHoPolicyCfg
CSFB Lowest
priority InterRat for
Idle UE
MOD
CSFALLBACKBLIN
DHOCFG
LST
BTS3900, BTS3900 CSFALLBACKBLIN
LTE
DHOCFG
MOD
CSFALLBACKPOLI
CYCFG
LST
CSFB handover
BTS3900, BTS3900 CSFALLBACKPOLI
policy Configuration LTE
CYCFG
MOD
CSFALLBACKPOLI
CYCFG
CSFallBackPolicyCfg
CSFB handover
LST
IdleModeCsfbHoPol policy Configuration BTS3900, BTS3900 CSFALLBACKPOLI
icyCfg
for idle ue
LTE
CYCFG
CSFallBackPolicyCfg
Csfb User Arp
CsfbUserArpCfgSwi Configuration
tch
Switch
MOD
CSFALLBACKPOLI
CYCFG
LST
BTS3900, BTS3900 CSFALLBACKPOLI
LTE
CYCFG
CSFallBackPolicyCfg
Normal Csfb User
NormalCsfbUserArp Arp
MOD
CSFALLBACKPOLI
CYCFG
LST
BTS3900, BTS3900 CSFALLBACKPOLI
LTE
CYCFG
EutranVoipHoBlkList
Mcc
ADD
EUTRANVOIPHOB
LKLIST
LST
EUTRANVOIPHOB
LKLIST
RMV
BTS3900, BTS3900 EUTRANVOIPHOB
Mobile country code LTE
LKLIST
Mnc
ADD
EUTRANVOIPHOB
LKLIST
LST
EUTRANVOIPHOB
LKLIST
RMV
BTS3900, BTS3900 EUTRANVOIPHOB
LTE
LKLIST
EutranVoipHoBlkList
Mobile network
code
EutranVoipHoBlkList
Tac
Tac
ADD
EUTRANVOIPHOB
LKLIST
LST
EUTRANVOIPHOB
LKLIST
RMV
BTS3900, BTS3900 EUTRANVOIPHOB
LTE
LKLIST
CN Operator ID
ADD
INTERPLMNHOLIS
T
LST
INTERPLMNHOLIS
T
RMV
BTS3900, BTS3900 INTERPLMNHOLIS
LTE
T
Target Mobile
country code
ADD
INTERPLMNHOLIS
T
LST
INTERPLMNHOLIS
T
RMV
BTS3900, BTS3900 INTERPLMNHOLIS
LTE
T
InterPlmnHoList
CnOperatorId
InterPlmnHoList
TarMcc
InterPlmnHoList
TarMnc
Target Mobile
network code
ADD
INTERPLMNHOLIS
T
LST
INTERPLMNHOLIS
T
RMV
BTS3900, BTS3900 INTERPLMNHOLIS
LTE
T
RatFreqPriorityGrou RAT frequency
pId
priority group ID
ADD
RATFREQPRIORIT
YGROUP
LST
RATFREQPRIORIT
YGROUP
MOD
RATFREQPRIORIT
YGROUP
RMV
BTS3900, BTS3900 RATFREQPRIORIT
LTE
YGROUP
RatType
ADD
RATFREQPRIORIT
YGROUP
LST
RATFREQPRIORIT
YGROUP
MOD
RATFREQPRIORIT
YGROUP
RMV
BTS3900, BTS3900 RATFREQPRIORIT
LTE
YGROUP
RatFreqPriorityGrou
RatFreqPriorityGrou
RAT Type
DL Earfcn or
Bandclass
ADD
RATFREQPRIORIT
YGROUP
LST
RATFREQPRIORIT
YGROUP
MOD
RATFREQPRIORIT
YGROUP
RMV
BTS3900, BTS3900 RATFREQPRIORIT
LTE
YGROUP
Priority
Priority
ADD
RATFREQPRIORIT
YGROUP
MOD
RATFREQPRIORIT
YGROUP
LST
BTS3900, BTS3900 RATFREQPRIORIT
LTE
YGROUP
BandIndicator
ADD
RATFREQPRIORIT
YGROUP
MOD
RATFREQPRIORIT
YGROUP
LST
GERAN Frequency BTS3900, BTS3900 RATFREQPRIORIT
Indicator
LTE
YGROUP
RatFreqPriorityGrou
DlEarfcn
RatFreqPriorityGrou
RatFreqPriorityGrou
ServiceIfDlEarfcnGrp
CnOperatorId
CN Operator ID
ADD
SERVICEIFDLEAR
FCNGRP
LST
SERVICEIFDLEAR
FCNGRP
MOD
SERVICEIFDLEAR
FCNGRP
RMV
BTS3900, BTS3900 SERVICEIFDLEAR
LTE
FCNGRP
ADD
SERVICEIFDLEAR
FCNGRP
LST
SERVICEIFDLEAR
ServiceIfDlEarfcnGrp
FCNGRP
MOD
SERVICEIFDLEAR
FCNGRP
RMV
ServiceIfHoCfgGrou Service Interfreq Ho BTS3900, BTS3900 SERVICEIFDLEAR
pId
Policy Group Id
LTE
FCNGRP
ServiceIfDlEarfcnGrp
DlEarfcnIndex
ServiceIfDlEarfcnGrp
DlEarfcn
ADD
SERVICEIFDLEAR
FCNGRP
LST
SERVICEIFDLEAR
FCNGRP
MOD
SERVICEIFDLEAR
FCNGRP
RMV
Downlink EARFCN BTS3900, BTS3900 SERVICEIFDLEAR
Index
LTE
FCNGRP
ADD
SERVICEIFDLEAR
FCNGRP
MOD
SERVICEIFDLEAR
FCNGRP
LST
BTS3900, BTS3900 SERVICEIFDLEAR
Downlink EARFCN LTE
FCNGRP
ServiceIfHoCfgGrou
CnOperatorId
CN Operator ID
ADD
SERVICEIFHOCFG
GROUP
LST
SERVICEIFHOCFG
GROUP
MOD
SERVICEIFHOCFG
GROUP
RMV
BTS3900, BTS3900 SERVICEIFHOCFG
LTE
GROUP
ADD
SERVICEIFHOCFG
GROUP
LST
SERVICEIFHOCFG
ServiceIfHoCfgGrou
GROUP
MOD
SERVICEIFHOCFG
GROUP
Service-based interRMV
ServiceIfHoCfgGrou Freq handover
BTS3900, BTS3900 SERVICEIFHOCFG
pId
policy group ID
LTE
GROUP
ServiceIfHoCfgGrou
InterFreqHoState
ADD
SERVICEIFHOCFG
GROUP
MOD
SERVICEIFHOCFG
GROUP
LST
Inter-Freq handover BTS3900, BTS3900 SERVICEIFHOCFG
state
LTE
GROUP
DlEarfcn
ADD
SERVICEIFHOCFG
GROUP
MOD
SERVICEIFHOCFG
GROUP
LST
BTS3900, BTS3900 SERVICEIFHOCFG
Downlink EARFCN LTE
GROUP
ServiceIfHoCfgGrou
ServiceIfHoCfgGrou
ADD
SERVICEIFHOCFG
GROUP
MOD
SERVICEIFHOCFG
GROUP
Service-based
LST
InterFreq A4 Report BTS3900, BTS3900 SERVICEIFHOCFG
A4RptWaitingTimer Waiting Timer
LTE
GROUP
ServiceIfHoCfgGrou
A4TimeToTriger
ADD
SERVICEIFHOCFG
GROUP
MOD
SERVICEIFHOCFG
GROUP
Service-based
LST
InterFreq A4 time to BTS3900, BTS3900 SERVICEIFHOCFG
trigger
LTE
GROUP
ServiceIrHoCfgGrou
CnOperatorId
CN Operator ID
ADD
SERVICEIRHOCF
GGROUP
LST
SERVICEIRHOCF
GGROUP
MOD
SERVICEIRHOCF
GGROUP
RMV
BTS3900, BTS3900 SERVICEIRHOCF
LTE
GGROUP
ADD
SERVICEIRHOCF
GGROUP
LST
SERVICEIRHOCF
ServiceIrHoCfgGrou
GGROUP
MOD
SERVICEIRHOCF
GGROUP
Service-based interRMV
ServiceIrHoCfgGro RAT handover
BTS3900, BTS3900 SERVICEIRHOCF
upId
policy group ID
LTE
GGROUP
ServiceIrHoCfgGrou
InterRatHoState
ADD
SERVICEIRHOCF
GGROUP
MOD
SERVICEIRHOCF
GGROUP
LST
Inter-RAT handover BTS3900, BTS3900 SERVICEIRHOCF
state
LTE
GGROUP
ServiceIrHoCfgGrou
Service-based
Inter-RAT HO
ServiceIrMeasMode Measure Mode
ADD
SERVICEIRHOCF
GGROUP
MOD
SERVICEIRHOCF
GGROUP
LST
BTS3900, BTS3900 SERVICEIRHOCF
LTE
GGROUP
Spid
ADD SPIDCFG
LST SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
LTE
RMV SPIDCFG
DrxStatus
Drx status
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
LTE
LST SPIDCFG
RatFreqPriorityInd
RAT frequency
priority indication
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
LTE
LST SPIDCFG
SpidCfg
Spid
SpidCfg
SpidCfg
SpidCfg
RatFreqPriorityGrou RAT frequency
pId
priority group ID
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
LTE
LST SPIDCFG
SpidCfg
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
PreallocationStatus PreallocationStatus LTE
LST SPIDCFG
SpidCfg
InterFreq Mlb
InterFreqMlbSwitch Switch
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
LTE
LST SPIDCFG
SpidCfg
InterRatMlbSwitch
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
InterRat Mlb Switch LTE
LST SPIDCFG
SpidCfg
SPID-based
HoBackToHPLMNS Handover Back To
witch
HPLMN Switch
UtranNetworkCapCf
Mcc
ADD SPIDCFG
BTS3900, BTS3900 MOD SPIDCFG
LTE
LST SPIDCFG
ADD
UTRANNETWORK
CAPCFG
LST
UTRANNETWORK
CAPCFG
MOD
UTRANNETWORK
CAPCFG
RMV
BTS3900, BTS3900 UTRANNETWORK
Mobile country code LTE
CAPCFG
Mobile network
code
ADD
UTRANNETWORK
CAPCFG
LST
UTRANNETWORK
CAPCFG
MOD
UTRANNETWORK
CAPCFG
RMV
BTS3900, BTS3900 UTRANNETWORK
LTE
CAPCFG
Rnc Id
ADD
UTRANNETWORK
CAPCFG
LST
UTRANNETWORK
CAPCFG
MOD
UTRANNETWORK
CAPCFG
RMV
BTS3900, BTS3900 UTRANNETWORK
LTE
CAPCFG
UtranNetworkCapCf
Mnc
UtranNetworkCapCf
RncId
UtranNetworkCapCf
NetworkCapCfg
Network Capability
Configuration
ADD
UTRANNETWORK
CAPCFG
MOD
UTRANNETWORK
CAPCFG
LST
BTS3900, BTS3900 UTRANNETWORK
LTE
CAPCFG
CN Operator ID
LST
ENBCNOPQCIRSV
DPARA
MOD
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
QoS Class
Indication
LST
ENBCNOPQCIRSV
DPARA
MOD
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
CnOperatorId
eNBCnOpQciRsvdPa
Qci
eNBCnOpQciRsvdPa
RsvdSwPara0
Reserved Switch
Parameter 0
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 2
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara2
eNBCnOpQciRsvdPa
RsvdPara3
Reserved
Parameter 3
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 4
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara4
eNBCnOpQciRsvdPa
RsvdPara5
Reserved
Parameter 5
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 6
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara6
eNBCnOpQciRsvdPa
RsvdPara7
Reserved
Parameter 7
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 8
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara8
eNBCnOpQciRsvdPa
RsvdPara9
Reserved
Parameter 9
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 10
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara10
eNBCnOpQciRsvdPa
RsvdPara11
Reserved
Parameter 11
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 12
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara12
eNBCnOpQciRsvdPa
RsvdPara13
Reserved
Parameter 13
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 14
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara14
eNBCnOpQciRsvdPa
RsvdPara15
Reserved
Parameter 15
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 16
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara16
eNBCnOpQciRsvdPa
RsvdPara17
Reserved
Parameter 17
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 18
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara18
eNBCnOpQciRsvdPa
RsvdPara19
Reserved
Parameter 19
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
Reserved
Parameter 20
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNBCnOpQciRsvdPa
RsvdPara20
eNBCnOpQciRsvdPa
RsvdPara21
Reserved
Parameter 21
MOD
ENBCNOPQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCNOPQCIRSV
LTE
DPARA
eNodeBFunction
eNodeBFunctionNa eNodeB Function
me
Name
ADD
ENODEBFUNCTIO
N
MOD
ENODEBFUNCTIO
N
RMV
ENODEBFUNCTIO
N
LST
BTS3900, BTS3900 ENODEBFUNCTIO
LTE
N
Application
Reference
ADD
ENODEBFUNCTIO
N
LST
BTS3900, BTS3900 ENODEBFUNCTIO
LTE
N
eNodeB ID
ADD
ENODEBFUNCTIO
N
MOD
ENODEBFUNCTIO
N
LST
BTS3900, BTS3900 ENODEBFUNCTIO
LTE
N
User Label
ADD
ENODEBFUNCTIO
N
MOD
ENODEBFUNCTIO
N
LST
BTS3900, BTS3900 ENODEBFUNCTIO
LTE
N
NeRM Version
LST
BTS3900, BTS3900 ENODEBFUNCTIO
LTE
N
Product Version
LST
BTS3900, BTS3900 ENODEBFUNCTIO
LTE
N
eNodeBFunction
ApplicationRef
eNodeBFunction
eNodeBId
eNodeBFunction
UserLabel
eNodeBFunction
NermVersion
eNodeBFunction
ProductVersion
ANRMeasureParam
A3TimeToTrigForA
NR
Intrafreq Measure
Time to Trigger for
ANR
MOD
ANRMEASUREPA
RAM
LST
BTS3900, BTS3900 ANRMEASUREPA
LTE
RAM
ANRMeasureParam
A3HystForANR
MOD
ANRMEASUREPA
RAM
LST
Intrafreq Hysteresis BTS3900, BTS3900 ANRMEASUREPA
for ANR
LTE
RAM
ANRMeasureParam
A3OffsetForANR
Intrafreq Measure
Offset for ANR
MOD
ANRMEASUREPA
RAM
LST
BTS3900, BTS3900 ANRMEASUREPA
LTE
RAM
ANRMeasureParam
A4TimeToTrigForA
NR
Interfreq Measure
Time to Trigger for
ANR
MOD
ANRMEASUREPA
RAM
LST
BTS3900, BTS3900 ANRMEASUREPA
LTE
RAM
ANRMeasureParam
A4HystForANR
MOD
ANRMEASUREPA
RAM
LST
Interfreq Hysteresis BTS3900, BTS3900 ANRMEASUREPA
for ANR
LTE
RAM
ANRMeasureParam
Interfreq RSRP
A4ThdRsrpForANR Threshold for ANR
MOD
ANRMEASUREPA
RAM
LST
BTS3900, BTS3900 ANRMEASUREPA
LTE
RAM
Counter check
CounterCheckTimer timer
MOD
COUNTERCHECK
PARA
LST
BTS3900, BTS3900 COUNTERCHECK
LTE
PARA
CounterCheckPara
CounterCheckPara
CounterCheckCoun Counter check
tNum
count number
MOD
COUNTERCHECK
PARA
LST
BTS3900, BTS3900 COUNTERCHECK
LTE
PARA
CounterCheckPara
MOD
COUNTERCHECK
PARA
LST
CounterCheckUser Counter check user BTS3900, BTS3900 COUNTERCHECK
RelSwitch
Release switch
LTE
PARA
ENodeBCipherCap
PrimaryCipherAlgo
Primary cipher
algorithm
MOD
ENODEBCIPHERC
AP
LST
BTS3900, BTS3900 ENODEBCIPHERC
LTE
AP
ENodeBCipherCap
SecondCipherAlgo
Second cipher
algorithm
MOD
ENODEBCIPHERC
AP
LST
BTS3900, BTS3900 ENODEBCIPHERC
LTE
AP
Third cipher
algorithm
MOD
ENODEBCIPHERC
AP
LST
BTS3900, BTS3900 ENODEBCIPHERC
LTE
AP
Fourth cipher
algorithm
MOD
ENODEBCIPHERC
AP
LST
BTS3900, BTS3900 ENODEBCIPHERC
LTE
AP
ENodeBCipherCap
ThirdCipherAlgo
ENodeBCipherCap
FourthCipherAlgo
ENodeBConnStateTi
S1MessageWaiting S1 Message
Timer
Waiting Timer
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
ENodeBConnStateTi
X2MessageWaiting X2 Message
Timer
Waiting Timer
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
ENodeBConnStateTi
UuMessageWaiting UU Message
Timer
Waiting Timer
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
CDMA2000 1xRTT
LST
Cdma1XrttHoUuPre HO Uu Prepare
BTS3900, BTS3900 ENODEBCONNST
pareTimer
Timer
LTE
ATETIMER
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
CDMA2000 1xRTT
LST
Cdma1XrttHoS1Wa HO S1 Waiting
BTS3900, BTS3900 ENODEBCONNST
itingTimer
Timer
LTE
ATETIMER
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
LST
Cdma1XrttHoCompl CDMA2000 1xRTT BTS3900, BTS3900 ENODEBCONNST
eteTimer
HO Complete Timer LTE
ATETIMER
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
LST
CdmaHrpdHoComp CDMA2000 HRPD BTS3900, BTS3900 ENODEBCONNST
leteTimer
HO Complete Timer LTE
ATETIMER
ENodeBConnStateTi
CDMA2000 HRPD
CdmaHrpdHoS1Wa HO S1 Waiting
itingTimer
Timer
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
CDMA2000 HRPD
CdmaHrpdHoUuPre HO Uu Prepare
pareTimer
Timer
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
ENodeBConnStateTi
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
LST
WaitRrcConnSetup RRCConnSetupCm BTS3900, BTS3900 ENODEBCONNST
CmpTimer
p Waiting Timer
LTE
ATETIMER
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
LST
SecCmpWaitingTim SecurityModeComp BTS3900, BTS3900 ENODEBCONNST
er
lete Waiting Timer LTE
ATETIMER
ENodeBConnStateTi
MOD
ENODEBCONNST
ATETIMER
Unprotected
LST
UpUeCapInfoWaitin UeCapInfo Waiting BTS3900, BTS3900 ENODEBCONNST
gTimer
Timer
LTE
ATETIMER
ENodeBConnStateTi
FirstForwardPacket First Forward
Timer
Packet Timer
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
ENodeBConnStateTi
EndMarkerTimer
End Marker Timer
ENodeBIntegrityCap
MOD
ENODEBCONNST
ATETIMER
LST
BTS3900, BTS3900 ENODEBCONNST
LTE
ATETIMER
PrimaryIntegrityAlg Primary integrity
o
algorithm
MOD
ENODEBINTEGRIT
YCAP
LST
BTS3900, BTS3900 ENODEBINTEGRIT
LTE
YCAP
Second integrity
SecondIntegrityAlgo algorithm
MOD
ENODEBINTEGRIT
YCAP
LST
BTS3900, BTS3900 ENODEBINTEGRIT
LTE
YCAP
ENodeBIntegrityCap
ENodeBIntegrityCap
ThirdIntegrityAlgo
Third integrity
algorithm
MOD
ENODEBINTEGRIT
YCAP
LST
BTS3900, BTS3900 ENODEBINTEGRIT
LTE
YCAP
ENodeBIntegrityCap
NullAlgo
NULL Algorithm
config switch
MOD
ENODEBINTEGRIT
YCAP
LST
BTS3900, BTS3900 ENODEBINTEGRIT
LTE
YCAP
ROHC switch
MOD
PDCPROHCPARA
BTS3900, BTS3900 LST
LTE
PDCPROHCPARA
PdcpRohcPara
RohcSwitch
PdcpRohcPara
HighestMode
ROHC Highest
mode
MOD
PDCPROHCPARA
BTS3900, BTS3900 LST
LTE
PDCPROHCPARA
PdcpRohcPara
Profiles
Compression
profiles
MOD
PDCPROHCPARA
BTS3900, BTS3900 LST
LTE
PDCPROHCPARA
Timer302
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
T302
RrcConnStateTimer
T320ForLoadBalan Timer320 for load
ce
balance
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
T304ForEutran
Timer304 for
EUTRAN
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
T304ForGeran
Timer304 for
GERAN
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
Timer320 for other
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
T320ForOther
RrcConnStateTimer
UeInactiveTimer
Ue inactive timer
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
UlSynTimer
Uplink Sync Timer
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
Filter Repeated
RRCConnReq
Timer
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
FilterReptRrcConn
ReqTimer
RrcConnStateTimer
UeInactivityTimerDy UE Inactivity Timer
nDrx
Dynamic DRX
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
RrcConnStateTimer
Uplink Sync Timer
UlSynTimerDynDrx Dynamic DRX
MOD
RRCCONNSTATET
IMER
LST
BTS3900, BTS3900 RRCCONNSTATET
LTE
IMER
TceId
TCE ID
ADD
TCEIPMAPPING
LST
TCEIPMAPPING
MOD
TCEIPMAPPING
BTS3900, BTS3900 RMV
LTE
TCEIPMAPPING
IP Mode
ADD
TCEIPMAPPING
MOD
TCEIPMAPPING
BTS3900, BTS3900 LST
LTE
TCEIPMAPPING
TceIpMapping
TceIpMapping
IPMode
TceIpMapping
TceIpV4Addr
TCE IPv4 Address
ADD
TCEIPMAPPING
MOD
TCEIPMAPPING
BTS3900, BTS3900 LST
LTE
TCEIPMAPPING
TCE IPv6 Address
ADD
TCEIPMAPPING
MOD
TCEIPMAPPING
BTS3900, BTS3900 LST
LTE
TCEIPMAPPING
TceIpMapping
TceIpV6Addr
X2AutoSetupOperato
Mcc
ADD
X2AUTOSETUPOP
ERATOR
RMV
X2AUTOSETUPOP
ERATOR
LST
BTS3900, BTS3900 X2AUTOSETUPOP
Mobile country code LTE
ERATOR
X2AutoSetupOperato
Mnc
Mobile network
code
ADD
X2AUTOSETUPOP
ERATOR
RMV
X2AUTOSETUPOP
ERATOR
LST
BTS3900, BTS3900 X2AUTOSETUPOP
LTE
ERATOR
CaMgtCfg
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CAMGTCFG
LTE
MOD CAMGTCFG
CaMgtCfg
CarrAggrA2ThdRsr Carrier Aggregation BTS3900, BTS3900 MOD CAMGTCFG
p
A2 RSRP threshold LTE
LST CAMGTCFG
CaMgtCfg
CarrAggrA4ThdRsr Carrier Aggregation BTS3900, BTS3900 MOD CAMGTCFG
p
A4 RSRP threshold LTE
LST CAMGTCFG
CaMgtCfg
CarrierMgtSwitch
Carrier
Management
Switch
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CaMgtCfg
CA Active Buffer
ActiveBufferLenThd Length Threshold
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CaMgtCfg
DeactiveBufferLenT CA Deactive Buffer BTS3900, BTS3900 MOD CAMGTCFG
hd
Length Threshold
LTE
LST CAMGTCFG
CaMgtCfg
ActiveBufferDelayT CA Active Buffer
hd
Delay Threshold
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CA Deactive
DeactiveThroughpu Throughput
tThd
Threshold
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CaMgtCfg
CaMgtCfg
CarrAggrA6Offset
Carrier Aggregation BTS3900, BTS3900 MOD CAMGTCFG
A6 Offset
LTE
LST CAMGTCFG
SCellAgingTime
SCell Aging Time
CaMgtCfg
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CaMgtCfg
CaA6ReportAmoun CA A6 Report
t
Amount
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CaMgtCfg
BTS3900, BTS3900 MOD CAMGTCFG
CaA6ReportInterval CaA6ReportInterval LTE
LST CAMGTCFG
CaMgtCfg
SccDeactCqiThd
SCC Deactive CQI
Threshold
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
CaMgtCfg
SccCfgInterval
SCC Configuration
Interval
BTS3900, BTS3900 MOD CAMGTCFG
LTE
LST CAMGTCFG
Local cell ID
LST
CELLBFMIMOPAR
ACFG
MOD
BTS3900, BTS3900 CELLBFMIMOPAR
LTE
ACFG
CellBfMimoParaCfg
LocalCellId
CellBfMimoParaCfg
BfMimoAdaptiveSwi BfMIMO adaptive
tch
switch
MOD
CELLBFMIMOPAR
ACFG
LST
BTS3900, BTS3900 CELLBFMIMOPAR
LTE
ACFG
CellBfMimoParaCfg
FixedBfMimoMode
Fixed BfMIMO
mode
MOD
CELLBFMIMOPAR
ACFG
LST
BTS3900, BTS3900 CELLBFMIMOPAR
LTE
ACFG
CellBfMimoParaCfg
BfMimoAdapWithou Bf Mimo Adaptive
tTm2
Without Tm2
MOD
CELLBFMIMOPAR
ACFG
LST
BTS3900, BTS3900 CELLBFMIMOPAR
LTE
ACFG
LocalCellId
LST
CELLDLCOMPALG
O
MOD
BTS3900, BTS3900 CELLDLCOMPALG
LTE
O
CellDlCompAlgo
Local cell ID
CellDlCompAlgo
DlCompA3Offset
DlCompA3Offset
MOD
CELLDLCOMPALG
O
LST
BTS3900, BTS3900 CELLDLCOMPALG
LTE
O
Local cell ID
LST
CELLDLPCPDSCH
PA
MOD
BTS3900, BTS3900 CELLDLPCPDSCH
LTE
PA
CellDlpcPdschPa
LocalCellId
CellDlpcPdschPa
MOD
CELLDLPCPDSCH
PA
LST
BTS3900, BTS3900 CELLDLPCPDSCH
PdschPaAdjSwitch PA adjusting switch LTE
PA
CellDlpcPdschPa
PaPcOff
PA for even power
distribution
MOD
CELLDLPCPDSCH
PA
LST
BTS3900, BTS3900 CELLDLPCPDSCH
LTE
PA
Local cell ID
LST
CELLDRXPARA
BTS3900, BTS3900 MOD
LTE
CELLDRXPARA
CellDrxPara
LocalCellId
CellDrxPara
FddEnterDrxThd
FDD enter DRX
threshold
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
FddExitDrxThd
FDD exit DRX
threshold
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
TddEnterDrxThdUl
TDD enter DRX
threshold Uplink
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
TDD exit DRX
threshold Uplink
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
TddExitDrxThdUl
CellDrxPara
TddEnterDrxThdDl
MOD
CELLDRXPARA
TDD enter DRX
BTS3900, BTS3900 LST
threshold Downlink LTE
CELLDRXPARA
TddExitDrxThdDl
MOD
CELLDRXPARA
TDD exit DRX
BTS3900, BTS3900 LST
threshold Downlink LTE
CELLDRXPARA
CellDrxPara
CellDrxPara
DataAmountStatTi
mer
Data amount
Statistic timer
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
MOD
DRX Power Saving
CELLDRXPARA
TddPowerSaveMea Measurement
BTS3900, BTS3900 LST
sSwitch
Switch
LTE
CELLDRXPARA
CellDrxPara
MOD
DRX Power Saving
CELLDRXPARA
TddPowerSaveStat Measurement
BTS3900, BTS3900 LST
Timer
Period
LTE
CELLDRXPARA
CellDrxPara
MOD
DRX Power Saving
CELLDRXPARA
TddPowerSavingEn Measurement Enter BTS3900, BTS3900 LST
terDrxThd
DRX Threshold
LTE
CELLDRXPARA
CellDrxPara
MOD
DRX Power Saving
CELLDRXPARA
TddPowerSavingEx Measurement Exit BTS3900, BTS3900 LST
itDrxThd
DRX Threshold
LTE
CELLDRXPARA
CellDrxPara
MOD
CELLDRXPARA
LongDrxCycleUnsy UnSync Long DRX BTS3900, BTS3900 LST
nc
Cycle
LTE
CELLDRXPARA
CellDrxPara
CqiMask
Cqi-Mask Config
Switch
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
OndurationTimerUn Onduration Timer
sync
Unsync
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
DrxInactivityTimerU DRX Inactivity
nsync
Timer Unsync
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
DrxPolicyMode
DRX Policy Mode
MOD
CELLDRXPARA
BTS3900, BTS3900 LST
LTE
CELLDRXPARA
CellDrxPara
MOD
CELLDRXPARA
DrxStartOffsetOptS DRX Start Offset
BTS3900, BTS3900 LST
witch
Optimization Switch LTE
CELLDRXPARA
CellHoParaCfg
LocalCellId
Local cell ID
LST
CELLHOPARACFG
BTS3900, BTS3900 MOD
LTE
CELLHOPARACFG
CellHoParaCfg
BlindHO A1A2
BlindHoA1A2ThdRs RSRP trigger
rp
threshold
MOD
CELLHOPARACFG
BTS3900, BTS3900 LST
LTE
CELLHOPARACFG
CellHoParaCfg
BlindHO A1A2
BlindHoA1A2ThdRs RSRQ trigger
rq
threshold
MOD
CELLHOPARACFG
BTS3900, BTS3900 LST
LTE
CELLHOPARACFG
LocalCellId
LST
CELLMIMOPARAC
FG
MOD
BTS3900, BTS3900 CELLMIMOPARAC
LTE
FG
CellMimoParaCfg
Local cell ID
CellMimoParaCfg
MimoAdaptiveSwitc MIMO Adaptive
h
Switch
MOD
CELLMIMOPARAC
FG
LST
BTS3900, BTS3900 CELLMIMOPARAC
LTE
FG
CellMimoParaCfg
FixedMimoMode
Fixed MIMO Mode
MOD
CELLMIMOPARAC
FG
LST
BTS3900, BTS3900 CELLMIMOPARAC
LTE
FG
CellMimoParaCfg
InitialMimoType
Initial Mimo Type
MOD
CELLMIMOPARAC
FG
LST
BTS3900, BTS3900 CELLMIMOPARAC
LTE
FG
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLMLBHO
LTE
MOD CELLMLBHO
CellMlbHo
CellMlbHo
IdleUeSelFreqStrat Idle UE Select
BTS3900, BTS3900 MOD CELLMLBHO
egy
Frequency Strategy LTE
LST CELLMLBHO
CellMlbHo
MlbHoInProtectMod Mlb Handover-in
e
Protect Mode
BTS3900, BTS3900 MOD CELLMLBHO
LTE
LST CELLMLBHO
CellMlbHo
MlbHoInProtectTim Mlb Handover-in
er
Protect Timer
BTS3900, BTS3900 MOD CELLMLBHO
LTE
LST CELLMLBHO
InterFreq Mlb
InterFreqMlbHoInA Handover-in A1
1ThdRsrp
RSRP Thd
BTS3900, BTS3900 MOD CELLMLBHO
LTE
LST CELLMLBHO
CellMlbHo
CellMlbHo
InterFreq Mlb
InterFreqMlbHoInA Handover-in A1
1ThdRsrq
RSRQ Thd
BTS3900, BTS3900 MOD CELLMLBHO
LTE
LST CELLMLBHO
InterFreq Mlb
InterFreqMlbHoInA Handover-in A2
2ThdRsrp
RSRP Thd
BTS3900, BTS3900 MOD CELLMLBHO
LTE
LST CELLMLBHO
CellMlbHo
CellMlbHo
InterFreq Mlb
InterFreqMlbHoInA Handover-in A2
2ThdRsrq
RSRQ Thd
BTS3900, BTS3900 MOD CELLMLBHO
LTE
LST CELLMLBHO
LocalCellId
ADD
CELLPREALLOCG
ROUP
LST
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
RMV
BTS3900, BTS3900 CELLPREALLOCG
LTE
ROUP
CellPreallocGroup
Local cell ID
CellPreallocGroup
Preallocation
PreallocationParaG Parameter Group
roupId
ID
ADD
CELLPREALLOCG
ROUP
LST
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
RMV
BTS3900, BTS3900 CELLPREALLOCG
LTE
ROUP
CellPreallocGroup
Preallocation
PreallocationSwitch Switch
ADD
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
LST
BTS3900, BTS3900 CELLPREALLOCG
LTE
ROUP
CellPreallocGroup
ADD
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
LST
SmartPreallocation Smart Preallocation BTS3900, BTS3900 CELLPREALLOCG
Switch
Switch
LTE
ROUP
CellPreallocGroup
PreallocationMinPer Minimal Period of
iod
Preallocation
ADD
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
LST
BTS3900, BTS3900 CELLPREALLOCG
LTE
ROUP
CellPreallocGroup
PreallocationSize
Data Size of
Preallocation
ADD
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
LST
BTS3900, BTS3900 CELLPREALLOCG
LTE
ROUP
CellPreallocGroup
ADD
CELLPREALLOCG
ROUP
MOD
CELLPREALLOCG
ROUP
LST
SmartPreallocation Smart Preallocation BTS3900, BTS3900 CELLPREALLOCG
Duration
Duration
LTE
ROUP
CellUlCompAlgo
LocalCellId
Local cell ID
LST
CELLULCOMPALG
O
MOD
BTS3900, BTS3900 CELLULCOMPALG
LTE
O
CellUlCompAlgo
UlCompA3Offset
MOD
CELLULCOMPALG
O
LST
BTS3900, BTS3900 CELLULCOMPALG
LTE
O
LocalCellId
Local cell ID
LST
CELLULPCDEDIC
BTS3900, BTS3900 MOD
LTE
CELLULPCDEDIC
DeltaMcsEnabled
MOD
CELLULPCDEDIC
Delta-MCS enable BTS3900, BTS3900 LST
or disable indication LTE
CELLULPCDEDIC
UlCompA3Offset
CellUlpcDedic
CellUlpcDedic
CellUlpcDedic
Power Offset of
SRS When
PSrsOffsetDeltaMc DeltaMcsEnabled
sDisable
Off
MOD
CELLULPCDEDIC
BTS3900, BTS3900 LST
LTE
CELLULPCDEDIC
Power Offset of
SRS When
PSrsOffsetDeltaMc DeltaMcsEnabled
sEnable
On
MOD
CELLULPCDEDIC
BTS3900, BTS3900 LST
LTE
CELLULPCDEDIC
CellUlpcDedic
CellUlpcDedic
FilterRsrp
RSRP filtering
coefficient
MOD
CELLULPCDEDIC
BTS3900, BTS3900 LST
LTE
CELLULPCDEDIC
Local cell ID
LST
DISTBASEDHO
BTS3900, BTS3900 MOD
LTE
DISTBASEDHO
DistBasedHO
LocalCellId
DistBasedHO
Distance-based
DistBasedMeasObj Measurement
Type
Object Type
MOD
DISTBASEDHO
BTS3900, BTS3900 LST
LTE
DISTBASEDHO
DistBasedHO
DistBasedHOThd
Distance-based
Handover
Threshold
MOD
DISTBASEDHO
BTS3900, BTS3900 LST
LTE
DISTBASEDHO
Local cell ID
ADD
DRXPARAGROUP
LST
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 RMV
LTE
DRXPARAGROUP
DRX parameter
group ID
ADD
DRXPARAGROUP
LST
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 RMV
LTE
DRXPARAGROUP
DrxParaGroup
LocalCellId
DrxParaGroup
DrxParaGroupId
DrxParaGroup
EnterDrxSwitch
Enter DRX Switch
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
DrxParaGroup
OnDurationTimer
On Duration Timer
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
DrxParaGroup
DrxInactivityTimer
DRX Inactivity
Timer
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
DrxParaGroup
DrxReTxTimer
DRX
Retransmission
Timer
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
DrxParaGroup
LongDrxCycle
Long DRX Cycle
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
Short-cycle DRX
supported
indication
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
DrxParaGroup
SupportShortDrx
DrxParaGroup
ShortDrxCycle
Short DRX Cycle
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
DrxParaGroup
DRX Short Cycle
DrxShortCycleTimer Timer
ADD
DRXPARAGROUP
MOD
DRXPARAGROUP
BTS3900, BTS3900 LST
LTE
DRXPARAGROUP
LocalCellId
ADD
GERANINTERFAR
FCN
LST
GERANINTERFAR
FCN
MOD
GERANINTERFAR
FCN
RMV
BTS3900, BTS3900 GERANINTERFAR
LTE
FCN
GeranInterfArfcn
Local cell ID
GeranInterfArfcn
Interference
InterfGeranCellBcc GERAN BCCH
hArfcn
ARFCN
ADD
GERANINTERFAR
FCN
LST
GERANINTERFAR
FCN
MOD
GERANINTERFAR
FCN
RMV
BTS3900, BTS3900 GERANINTERFAR
LTE
FCN
GeranInterfArfcn
ADD
GERANINTERFAR
FCN
MOD
GERANINTERFAR
FCN
Interference
LST
InterfGeranCarBan GERAN Frequency BTS3900, BTS3900 GERANINTERFAR
dInd
Band Indicator
LTE
FCN
InterRatHoCommGro
LocalCellId
Local cell ID
ADD
INTERRATHOCOM
MGROUP
LST
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
RMV
BTS3900, BTS3900 INTERRATHOCOM
LTE
MGROUP
ADD
INTERRATHOCOM
MGROUP
LST
INTERRATHOCOM
InterRatHoCommGro
MGROUP
MOD
INTERRATHOCOM
MGROUP
RMV
InterRatHoCommGr InterRAT handover BTS3900, BTS3900 INTERRATHOCOM
oupId
common group ID LTE
MGROUP
InterRatHoCommGro
InterRatHoA1A2Hy InterRAT A1A2
st
hysteresis
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
MGROUP
InterRatHoCommGro
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
InterRatHoA1A2Tim InterRAT A1A2 time BTS3900, BTS3900 INTERRATHOCOM
eToTrig
to trigger
LTE
MGROUP
InterRatHoCommGro
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
InterRatHoA1ThdR InterRAT A1 RSRP BTS3900, BTS3900 INTERRATHOCOM
srp
trigger threshold
LTE
MGROUP
InterRatHoCommGro
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
InterRatHoA1ThdR InterRAT A1 RSRQ BTS3900, BTS3900 INTERRATHOCOM
srq
trigger threshold
LTE
MGROUP
InterRatHoCommGro
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
InterRatHoA2ThdR InterRAT A2 RSRP BTS3900, BTS3900 INTERRATHOCOM
srp
trigger threshold
LTE
MGROUP
InterRatHoCommGro
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
InterRatHoA2ThdR InterRAT A2 RSRQ BTS3900, BTS3900 INTERRATHOCOM
srq
trigger threshold
LTE
MGROUP
InterRatHoCommGro
BlindHoA2ThdOffse Blind HO A2
t
Threshold Offset
InterRatHoCdma1xRt
LocalCellId
Local cell ID
ADD
INTERRATHOCOM
MGROUP
MOD
INTERRATHOCOM
MGROUP
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
MGROUP
ADD
INTERRATHOCDM
A1XRTTGROUP
LST
INTERRATHOCDM
A1XRTTGROUP
MOD
INTERRATHOCDM
A1XRTTGROUP
RMV
BTS3900, BTS3900 INTERRATHOCDM
LTE
A1XRTTGROUP
ADD
INTERRATHOCDM
A1XRTTGROUP
LST
INTERRATHOCDM
InterRatHoCdma1xRt
A1XRTTGROUP
MOD
INTERRATHOCDM
InterRAT handover
A1XRTTGROUP
to
RMV
InterRatHoCdma1x CDMA20001xRTT BTS3900, BTS3900 INTERRATHOCDM
RttGroupId
group ID
LTE
A1XRTTGROUP
InterRatHoCdma1xRt
ADD
INTERRATHOCDM
A1XRTTGROUP
MOD
INTERRATHOCDM
A1XRTTGROUP
LST
InterRatHoCdmaB1 CDMA20001XRTT BTS3900, BTS3900 INTERRATHOCDM
Hyst
handover hysteresis LTE
A1XRTTGROUP
InterRatHoCdma1xRt
CoverageBased
InterRatHoCdmaB1 CDMA20001XRTT
ThdPs
trigger threshold
ADD
INTERRATHOCDM
A1XRTTGROUP
MOD
INTERRATHOCDM
A1XRTTGROUP
LST
BTS3900, BTS3900 INTERRATHOCDM
LTE
A1XRTTGROUP
InterRatHoCdma1xRt
InterRatHoCdmaB1 CDMA20001XRTT
TimeToTrig
time to trigger
ADD
INTERRATHOCDM
A1XRTTGROUP
MOD
INTERRATHOCDM
A1XRTTGROUP
LST
BTS3900, BTS3900 INTERRATHOCDM
LTE
A1XRTTGROUP
InterRatHoCdma1xRt
Load Service
Based
LdSvBasedHoCdm CDMA20001XRTT
aB1ThdPs
trigger threshold
ADD
INTERRATHOCDM
A1XRTTGROUP
MOD
INTERRATHOCDM
A1XRTTGROUP
LST
BTS3900, BTS3900 INTERRATHOCDM
LTE
A1XRTTGROUP
RlfTimerConstGroup
LocalCellId
Local cell ID
ADD
RLFTIMERCONST
GROUP
LST
RLFTIMERCONST
GROUP
MOD
RLFTIMERCONST
GROUP
RMV
BTS3900, BTS3900 RLFTIMERCONST
LTE
GROUP
ADD
RLFTIMERCONST
GROUP
LST
RLFTIMERCONST
RlfTimerConstGroup
GROUP
MOD
RLFTIMERCONST
GROUP
RMV
RlfTimerConstGrou RLF timer and
BTS3900, BTS3900 RLFTIMERCONST
pId
constants group ID LTE
GROUP
RlfTimerConstGroup
T301
Timer 301
ADD
RLFTIMERCONST
GROUP
MOD
RLFTIMERCONST
GROUP
LST
BTS3900, BTS3900 RLFTIMERCONST
LTE
GROUP
RlfTimerConstGroup
T310
Timer 310
ADD
RLFTIMERCONST
GROUP
MOD
RLFTIMERCONST
GROUP
LST
BTS3900, BTS3900 RLFTIMERCONST
LTE
GROUP
Timer 311
ADD
RLFTIMERCONST
GROUP
MOD
RLFTIMERCONST
GROUP
LST
BTS3900, BTS3900 RLFTIMERCONST
LTE
GROUP
Constant N310
ADD
RLFTIMERCONST
GROUP
MOD
RLFTIMERCONST
GROUP
LST
BTS3900, BTS3900 RLFTIMERCONST
LTE
GROUP
RlfTimerConstGroup
T311
RlfTimerConstGroup
N310
Constant N311
ADD
RLFTIMERCONST
GROUP
MOD
RLFTIMERCONST
GROUP
LST
BTS3900, BTS3900 RLFTIMERCONST
LTE
GROUP
Extended QCI
ADD
CELLEXTENDEDQ
CI
LST
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
RMV
BTS3900, BTS3900 CELLEXTENDEDQ
LTE
CI
Local cell ID
ADD
CELLEXTENDEDQ
CI
LST
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
RMV
BTS3900, BTS3900 CELLEXTENDEDQ
LTE
CI
RlfTimerConstGroup
N311
CellExtendedQci
ExtendedQci
CellExtendedQci
LocalCellId
CellExtendedQci
Interfreq handover
InterFreqHoGroupId group ID
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
BTS3900, BTS3900 CELLEXTENDEDQ
LTE
CI
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
InterRAT handover
CI
to
LST
InterRatHoCdma1x CDMA20001xRTT BTS3900, BTS3900 CELLEXTENDEDQ
RttGroupId
group ID
LTE
CI
CellExtendedQci
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
InterRAT handover
CI
to
LST
InterRatHoCdmaHr CDMA2000HRPD BTS3900, BTS3900 CELLEXTENDEDQ
pdGroupId
group ID
LTE
CI
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
InterRatHoCommGr InterRAT handover BTS3900, BTS3900 CELLEXTENDEDQ
oupId
common group ID LTE
CI
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
InterRatHoGeranGr InterRAT handover BTS3900, BTS3900 CELLEXTENDEDQ
oupId
to GERAN group ID LTE
CI
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
InterRatHoUtranGro InterRAT handover BTS3900, BTS3900 CELLEXTENDEDQ
upId
to UTRAN Group ID LTE
CI
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
BTS3900, BTS3900 CELLEXTENDEDQ
LTE
CI
Intrafreq handover
IntraFreqHoGroupId group ID
CellExtendedQci
DrxParaGroupId
DRX parameter
group ID
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
BTS3900, BTS3900 CELLEXTENDEDQ
LTE
CI
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
RlfTimerConstCfgIn RLF timer and
BTS3900, BTS3900 CELLEXTENDEDQ
d
constants indication LTE
CI
CellExtendedQci
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
RlfTimerConstGrou RLF timer and
BTS3900, BTS3900 CELLEXTENDEDQ
pId
constants group ID LTE
CI
CellExtendedQci
TrafficRelDelay
Traffic Release
Delay
ADD
CELLEXTENDEDQ
CI
MOD
CELLEXTENDEDQ
CI
LST
BTS3900, BTS3900 CELLEXTENDEDQ
LTE
CI
Local cell ID
LST
CELLSTANDARDQ
CI
MOD
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
QoS Class
Indication
LST
CELLSTANDARDQ
CI
MOD
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
CellStandardQci
LocalCellId
CellStandardQci
Qci
CellStandardQci
Interfreq handover
InterFreqHoGroupId group ID
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
InterRAT handover
CI
to
LST
InterRatHoCdma1x CDMA20001xRTT BTS3900, BTS3900 CELLSTANDARDQ
RttGroupId
group ID
LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
InterRAT handover
CI
to
LST
InterRatHoCdmaHr CDMA2000HRPD BTS3900, BTS3900 CELLSTANDARDQ
pdGroupId
group ID
LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
CI
LST
InterRatHoCommGr InterRAT handover BTS3900, BTS3900 CELLSTANDARDQ
oupId
common group ID LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
CI
LST
InterRatHoGeranGr InterRAT handover BTS3900, BTS3900 CELLSTANDARDQ
oupId
to GERAN group ID LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
CI
LST
InterRatHoUtranGro InterRAT handover BTS3900, BTS3900 CELLSTANDARDQ
upId
to UTRAN Group ID LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
Intrafreq handover
IntraFreqHoGroupId group ID
DRX parameter
group ID
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
SRI Period
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
CellStandardQci
DrxParaGroupId
CellStandardQci
SriPeriod
CellStandardQci
MOD
CELLSTANDARDQ
CI
LST
RlfTimerConstCfgIn RLF timer and
BTS3900, BTS3900 CELLSTANDARDQ
d
constants indication LTE
CI
CellStandardQci
MOD
CELLSTANDARDQ
CI
LST
RlfTimerConstGrou RLF timer and
BTS3900, BTS3900 CELLSTANDARDQ
pId
constants group ID LTE
CI
CellStandardQci
TrafficRelDelay
Traffic Release
Delay
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
QCI priority for
handover
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
CellStandardQci
QciPriorityForHo
CellStandardQci
Mlb Qci Group ID
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
Preallocaiton
PreallocationParaG Parameter Group
roupId
ID
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
MlbQciGroupId
CellStandardQci
CellStandardQci
QciPriorityForDrx
QCI Priority For
DRX
MOD
CELLSTANDARDQ
CI
LST
BTS3900, BTS3900 CELLSTANDARDQ
LTE
CI
InterRatHoCdmaHrp
LocalCellId
Local cell ID
ADD
INTERRATHOCDM
AHRPDGROUP
LST
INTERRATHOCDM
AHRPDGROUP
MOD
INTERRATHOCDM
AHRPDGROUP
RMV
BTS3900, BTS3900 INTERRATHOCDM
LTE
AHRPDGROUP
ADD
INTERRATHOCDM
AHRPDGROUP
LST
INTERRATHOCDM
InterRatHoCdmaHrp
AHRPDGROUP
MOD
INTERRATHOCDM
InterRAT handover
AHRPDGROUP
to
RMV
InterRatHoCdmaHr CDMA2000HRPD BTS3900, BTS3900 INTERRATHOCDM
pdGroupId
group ID
LTE
AHRPDGROUP
InterRatHoCdmaHrp
ADD
INTERRATHOCDM
AHRPDGROUP
MOD
INTERRATHOCDM
AHRPDGROUP
LST
InterRatHoCdmaB1 CDMA2000HRPD BTS3900, BTS3900 INTERRATHOCDM
Hyst
handover hysteresis LTE
AHRPDGROUP
InterRatHoCdmaHrp
CoverageBased
InterRatHoCdmaB1 CDMA2000HRPD
ThdPs
trigger threshold
ADD
INTERRATHOCDM
AHRPDGROUP
MOD
INTERRATHOCDM
AHRPDGROUP
LST
BTS3900, BTS3900 INTERRATHOCDM
LTE
AHRPDGROUP
InterRatHoCdmaHrp
InterRatHoCdmaB1 CDMA2000HRPD
TimeToTrig
time to trigger
ADD
INTERRATHOCDM
AHRPDGROUP
MOD
INTERRATHOCDM
AHRPDGROUP
LST
BTS3900, BTS3900 INTERRATHOCDM
LTE
AHRPDGROUP
Load Service
Based
LdSvBasedHoCdm CDMA2000HRPD
aB1ThdPs
trigger threshold
ADD
INTERRATHOCDM
AHRPDGROUP
MOD
INTERRATHOCDM
AHRPDGROUP
LST
BTS3900, BTS3900 INTERRATHOCDM
LTE
AHRPDGROUP
InterRatHoCdmaHrp
ADD
INTERRATHOCDM
AHRPDGROUP
MOD
InterRatHoCdmaHrp
INTERRATHOCDM
AHRPDGROUP
Cdma2000 HRPD
LST
Cdma2000HrpdB2T Optimized handover BTS3900, BTS3900 INTERRATHOCDM
hd1Rsrp
B2 RSRP thld1
LTE
AHRPDGROUP
ADD
INTERRATHOCDM
AHRPDGROUP
MOD
InterRatHoCdmaHrp
INTERRATHOCDM
AHRPDGROUP
Cdma2000 HRPD
LST
Cdma2000HrpdB2T Optimized handover BTS3900, BTS3900 INTERRATHOCDM
hd1Rsrq
B2 RSRQ thld1
LTE
AHRPDGROUP
InterRatHoGeranGro
LocalCellId
Local cell ID
ADD
INTERRATHOGER
ANGROUP
LST
INTERRATHOGER
ANGROUP
MOD
INTERRATHOGER
ANGROUP
RMV
BTS3900, BTS3900 INTERRATHOGER
LTE
ANGROUP
ADD
INTERRATHOGER
ANGROUP
LST
INTERRATHOGER
InterRatHoGeranGro
ANGROUP
MOD
INTERRATHOGER
ANGROUP
RMV
InterRatHoGeranGr InterRAT handover BTS3900, BTS3900 INTERRATHOGER
oupId
to GERAN group ID LTE
ANGROUP
InterRatHoGeranGro
InterRatHoGeranB1 GERAN handover
Hyst
hysteresis
ADD
INTERRATHOGER
ANGROUP
MOD
INTERRATHOGER
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOGER
LTE
ANGROUP
CoverageBased
InterRatHoGeranB1 GERAN trigger
Thd
threshold
ADD
INTERRATHOGER
ANGROUP
MOD
INTERRATHOGER
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOGER
LTE
ANGROUP
InterRatHoGeranGro
InterRatHoGeranGro
InterRatHoGeranB1 GERAN time to
TimeToTrig
trigger
ADD
INTERRATHOGER
ANGROUP
MOD
INTERRATHOGER
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOGER
LTE
ANGROUP
Load Service
Based Geran
LdSvBasedHoGera EventB1 trigger
nB1Thd
threshold
ADD
INTERRATHOGER
ANGROUP
MOD
INTERRATHOGER
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOGER
LTE
ANGROUP
InterRatHoGeranGro
InterRatHoUtranGro
LocalCellId
Local cell ID
ADD
INTERRATHOUTR
ANGROUP
LST
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
RMV
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
ADD
INTERRATHOUTR
ANGROUP
LST
INTERRATHOUTR
InterRatHoUtranGro
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
RMV
InterRatHoUtranGro InterRAT handover BTS3900, BTS3900 INTERRATHOUTR
upId
to UTRAN Group ID LTE
ANGROUP
InterRatHoUtranGro
CoverageBased
InterRatHoUtranB1 UTRAN ECN0
ThdEcn0
trigger threshold
ADD
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
CoverageBased
InterRatHoUtranB1 UTRAN RSCP
ThdRscp
trigger threshold
ADD
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
InterRatHoUtranGro
InterRatHoUtranGro
InterRatHoUtranB1 UTRAN handover
Hyst
hysteresis
ADD
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
InterRatHoUtranGro
InterRatHoUtranB1 UTRAN time to
TimeToTrig
trigger
ADD
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
InterRatHoUtranGro
Load Service
LdSvBasedHoUtran Based UTRANB1
B1ThdEcn0
ECN0 threshold
ADD
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
Load Service
Based UTRAN
LdSvBasedHoUtran EventB1 RSCP
B1ThdRscp
trigger threshold
ADD
INTERRATHOUTR
ANGROUP
MOD
INTERRATHOUTR
ANGROUP
LST
BTS3900, BTS3900 INTERRATHOUTR
LTE
ANGROUP
InterRatHoUtranGro
CaGroupSCellCfg
LocalCellId
Local cell ID
ADD
CAGROUPSCELLC
FG
LST
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
RMV
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
SCell eNodeB ID
ADD
CAGROUPSCELLC
FG
LST
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
RMV
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
CaGroupSCellCfg
SCelleNodeBId
CaGroupSCellCfg
SCellLocalCellId
SCell Local Cell ID
ADD
CAGROUPSCELLC
FG
LST
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
RMV
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
CaGroupSCellCfg
SCellBlindCfgFlag
SCell Blind
Configuration Flag
ADD
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
LST
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
CaGroupSCellCfg
SCellPriority
SCell Priority
ADD
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
LST
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
SCell A4 Offset
ADD
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
LST
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
CaGroupSCellCfg
SCellA4Offset
CaGroupSCellCfg
SCellA2Offset
SCell A2 Offset
ADD
CAGROUPSCELLC
FG
MOD
CAGROUPSCELLC
FG
LST
BTS3900, BTS3900 CAGROUPSCELLC
LTE
FG
Local cell ID
LST CELLMCPARA
BTS3900, BTS3900 MOD
LTE
CELLMCPARA
A3 Offset
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
CellMcPara
LocalCellId
CellMcPara
A3Offset
CellMcPara
Hysteresis
Hysteresis
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
Time to Trigger
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
CellMcPara
TimetoTrigger
CellMcPara
MaxReportCells
Max Report Cell
Number
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
Report Amount
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
CellMcPara
ReportAmount
CellMcPara
ReportInterval
Report Interval
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
CellMcPara
ReportQuantity
Reoprt Quantity
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
Trigger Quantity
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
CellMcPara
TriggerQuantity
CellMcPara
A6Offset
A6 Offset
MOD
BTS3900, BTS3900 CELLMCPARA
LTE
LST CELLMCPARA
Local cell ID
ADD
INTERFREQHOGR
OUP
LST
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
RMV
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
LocalCellId
InterFreqHoGroup
Interfreq handover
InterFreqHoGroupId group ID
ADD
INTERFREQHOGR
OUP
LST
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
RMV
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
InterFreqHoA1A2H Interfreq A1A2
yst
hysteresis
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
InterFreqHoA1A2Ti Interfreq A1A2 time BTS3900, BTS3900 INTERFREQHOGR
meToTrig
to trigger
LTE
OUP
InterFreqHoGroup
InterFreqHoA1Thd
Rsrp
Interfreq A1 RSRP
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
InterFreqHoA1Thd
Rsrq
Interfreq A1 RSRQ
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
Interfreq A2 RSRP
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
InterFreqHoA2Thd
Rsrp
InterFreqHoGroup
Interfreq A2 RSRQ
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
Interfreq handover
InterFreqHoA4Hyst hysteresis
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoA2Thd
Rsrq
InterFreqHoGroup
InterFreqHoGroup
InterFreqHoA4Thd
Rsrp
CoverageBased
Interfreq RSRP
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
CoverageBased
Interfreq RSRQ
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
InterFreqHoA4Thd
Rsrq
InterFreqHoGroup
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
InterFreqHoA4Time Interfreq HandOver BTS3900, BTS3900 INTERFREQHOGR
ToTrig
Time to Trigger
LTE
OUP
InterFreqHoGroup
Load Based
InterFreqLoadBase Interfreq RSRP
dHoA4ThdRsrp
threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
Load Based
InterFreqLoadBase Interfreq RSRQ
dHoA4ThdRsrq
threshold
InterFreqHoGroup
InterFreqHoGroup
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
Freq Priority Based
LST
FreqPriInterFreqHo Interfreq A1 RSRP BTS3900, BTS3900 INTERFREQHOGR
A1ThdRsrp
threshold
LTE
OUP
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
Freq Priority Based
LST
FreqPriInterFreqHo Interfreq A1 RSRQ BTS3900, BTS3900 INTERFREQHOGR
A1ThdRsrq
threshold
LTE
OUP
InterFreqHoGroup
InterFreqHoA3Offse
t
Interfreq A3 offset
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
InterFreqHoGroup
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
A3InterFreqHoA1T A3 based interfreq BTS3900, BTS3900 INTERFREQHOGR
hdRsrp
A1 RSRP threshold LTE
OUP
InterFreqHoGroup
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
A3InterFreqHoA2T A3 based Interfreq BTS3900, BTS3900 INTERFREQHOGR
hdRsrp
A2 RSRP threshold LTE
OUP
InterFreqHoGroup
InterFreqHoGroup
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
Freq Priority Based
LST
FreqPriInterFreqHo Interfreq A2 RSRP BTS3900, BTS3900 INTERFREQHOGR
A2ThdRsrp
threshold
LTE
OUP
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
Freq Priority Based
LST
FreqPriInterFreqHo Interfreq A2 RSRQ BTS3900, BTS3900 INTERFREQHOGR
A2ThdRsrq
threshold
LTE
OUP
InterFreqHoGroup
InterFreq MLB
InterFreqMlbA1A2T A1A2 RSRP
hdRsrp
Threshold
ADD
INTERFREQHOGR
OUP
MOD
INTERFREQHOGR
OUP
LST
BTS3900, BTS3900 INTERFREQHOGR
LTE
OUP
LocalCellId
ADD
INTRAFREQHOGR
OUP
LST
INTRAFREQHOGR
OUP
MOD
INTRAFREQHOGR
OUP
RMV
BTS3900, BTS3900 INTRAFREQHOGR
LTE
OUP
IntraFreqHoGroup
Local cell ID
Intrafreq handover
IntraFreqHoGroupId group ID
ADD
INTRAFREQHOGR
OUP
LST
INTRAFREQHOGR
OUP
MOD
INTRAFREQHOGR
OUP
RMV
BTS3900, BTS3900 INTRAFREQHOGR
LTE
OUP
Intrafreq handover
IntraFreqHoA3Hyst hysteresis
ADD
INTRAFREQHOGR
OUP
MOD
INTRAFREQHOGR
OUP
LST
BTS3900, BTS3900 INTRAFREQHOGR
LTE
OUP
IntraFreqHoGroup
IntraFreqHoGroup
IntraFreqHoGroup
IntraFreqHoA3Offse Intrafreq handover
t
offset
ADD
INTRAFREQHOGR
OUP
MOD
INTRAFREQHOGR
OUP
LST
BTS3900, BTS3900 INTRAFREQHOGR
LTE
OUP
IntraFreqHoA3Time Intrafreq handover
ToTrig
time to trigger
ADD
INTRAFREQHOGR
OUP
MOD
INTRAFREQHOGR
OUP
LST
BTS3900, BTS3900 INTRAFREQHOGR
LTE
OUP
IntraFreqHoGroup
Local cell ID
LST
ENBCELLQCIRSV
DPARA
MOD
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
QoS Class
Indication
LST
ENBCELLQCIRSV
DPARA
MOD
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved Switch
Parameter 0
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
LocalCellId
eNBCellQciRsvdPar
Qci
eNBCellQciRsvdPar
RsvdSwPara0
eNBCellQciRsvdPar
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 2
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara2
eNBCellQciRsvdPar
RsvdPara3
Reserved
Parameter 3
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 4
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara4
eNBCellQciRsvdPar
RsvdPara5
Reserved
Parameter 5
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 6
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara6
eNBCellQciRsvdPar
RsvdPara7
Reserved
Parameter 7
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 8
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara8
eNBCellQciRsvdPar
RsvdPara9
Reserved
Parameter 9
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 10
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara10
eNBCellQciRsvdPar
RsvdPara11
Reserved
Parameter 11
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 12
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara12
eNBCellQciRsvdPar
RsvdPara13
Reserved
Parameter 13
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 14
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara14
eNBCellQciRsvdPar
RsvdPara15
Reserved
Parameter 15
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 16
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara16
eNBCellQciRsvdPar
RsvdPara17
Reserved
Parameter 17
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 18
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara18
eNBCellQciRsvdPar
RsvdPara19
Reserved
Parameter 19
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
Reserved
Parameter 20
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
eNBCellQciRsvdPar
RsvdPara20
eNBCellQciRsvdPar
Reserved
Parameter 21
MOD
ENBCELLQCIRSV
DPARA
LST
BTS3900, BTS3900 ENBCELLQCIRSV
LTE
DPARA
CnOperatorId
CN Operator ID
ADD
CNOPERATOR
LST
CNOPERATOR
MOD
CNOPERATOR
BTS3900, BTS3900 RMV
LTE
CNOPERATOR
CnOperatorName
ADD
CNOPERATOR
MOD
CNOPERATOR
BTS3900, BTS3900 LST
CN Operator name LTE
CNOPERATOR
RsvdPara21
CnOperator
CnOperator
CnOperator
ADD
CNOPERATOR
MOD
CNOPERATOR
BTS3900, BTS3900 LST
LTE
CNOPERATOR
CnOperatorType
CN Operator type
Mcc
ADD
CNOPERATOR
MOD
CNOPERATOR
BTS3900, BTS3900 LST
Mobile country code LTE
CNOPERATOR
Mnc
Mobile network
code
ADD
CNOPERATOR
MOD
CNOPERATOR
BTS3900, BTS3900 LST
LTE
CNOPERATOR
IP path ID
ADD
CNOPERATORIPP
ATH
LST
CNOPERATORIPP
ATH
MOD
CNOPERATORIPP
ATH
RMV
BTS3900, BTS3900 CNOPERATORIPP
LTE
ATH
CN Operator ID
ADD
CNOPERATORIPP
ATH
MOD
CNOPERATORIPP
ATH
LST
BTS3900, BTS3900 CNOPERATORIPP
LTE
ATH
CnOperator
CnOperator
CnOperatorIpPath
IpPathId
CnOperatorIpPath
CnOperatorId
CnOperatorTa
TrackingAreaId
ADD
CNOPERATORTA
LST
CNOPERATORTA
MOD
CNOPERATORTA
Local tracking area BTS3900, BTS3900 RMV
ID
LTE
CNOPERATORTA
CnOperatorTa
ADD
CNOPERATORTA
MOD
CNOPERATORTA
BTS3900, BTS3900 LST
LTE
CNOPERATORTA
CnOperatorId
CN Operator ID
Tac
ADD
CNOPERATORTA
MOD
CNOPERATORTA
BTS3900, BTS3900 LST
Tracking area code LTE
CNOPERATORTA
CnOperatorTa
CnOpSharingGroup
CnOpSharingGroup CN Operator
Id
Sharing Group ID
ADD
CNOPSHARINGGR
OUP
ADD
SECONDARYOP2
GROUP
LST
CNOPSHARINGGR
OUP
LST
SECONDARYOP2
GROUP
MOD
CNOPSHARINGGR
OUP
RMV
CNOPSHARINGGR
OUP
RMV
BTS3900, BTS3900 SECONDARYOP2
LTE
GROUP
CnOpSharingGroup
PrimaryOperatorId
ADD
CNOPSHARINGGR
OUP
MOD
CNOPSHARINGGR
OUP
LST
BTS3900, BTS3900 CNOPSHARINGGR
Primary Operator ID LTE
OUP
CnOpSharingGroup
SecondaryOperator Secondary
List
Operator List
LST
CNOPSHARINGGR
OUP
ADD
SECONDARYOP2
GROUP
LST
SECONDARYOP2
GROUP
RMV
BTS3900, BTS3900 SECONDARYOP2
LTE
GROUP
SecondaryOpIdTyp
e.SecondaryOperat Secondary
orId
Operator Id
ADD
SECONDARYOP2
GROUP
RMV
SECONDARYOP2
GROUP
LST
BTS3900, BTS3900 SECONDARYOP2
LTE
GROUP
CnOperatorId
CN Operator ID
BTS3900, BTS3900 LST EMC
LTE
MOD EMC
EmcEnable
Emergency call
enabled switch
BTS3900, BTS3900 MOD EMC
LTE
LST EMC
CnOpSharingGroup
Emc
Emc
Emc
Emergency call
EmcEnableInLimite enabled switch in
dMode
limited mode
BTS3900, BTS3900 MOD EMC
LTE
LST EMC
Emc
EmcDedicatedBear The ARP of EMC
erARP
dedicated bearer
BTS3900, BTS3900 MOD EMC
LTE
LST EMC
Emc
EmcDefaultBearerA The ARP of EMC
RP
default bearer
BTS3900, BTS3900 MOD EMC
LTE
LST EMC
eNodeBChrOutputCtr
OutPutMode
CHR Output Mode
MOD
ENODEBCHROUT
PUTCTRL
LST
BTS3900, BTS3900 ENODEBCHROUT
LTE
PUTCTRL
eNodeBChrOutputCtr
CallSampleRate
Sample Rate of
Abnormal Call
MOD
ENODEBCHROUT
PUTCTRL
LST
BTS3900, BTS3900 ENODEBCHROUT
LTE
PUTCTRL
eNodeBChrOutputCtr
MaxStoreCall
Max Store Call
MOD
ENODEBCHROUT
PUTCTRL
LST
BTS3900, BTS3900 ENODEBCHROUT
LTE
PUTCTRL
ENodeBSharingMod
ENodeBSharingMo eNodeB sharing
de
mode
MOD
ENODEBSHARING
MODE
LST
BTS3900, BTS3900 ENODEBSHARING
LTE
MODE
The Switch of X2
X2SonSetupSwitch setup by SON
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
GlobalProcSwitch
X2SonLinkSetupTy The method of X2
pe
setup by SON
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
SriAdaptiveSwitch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
SRI adaptive switch LTE
TCH
GlobalProcSwitch
LcgProfile
LCG Profile
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
RncPoolHoRimSwit RNC POOL HO
ch
RIM Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
UU Message
UuMsgSimulSendS Simultaneous
witch
Sending Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
Update eNB
X2BasedUptENode Configuration Via
BCfgSwitch
X2 Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
GlobalProcSwitch
X2 Auto Setup
TargetOpBasedX2S Switch Via Target
witch
Operator
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
LST
X2SonTNLSelectM X2 Son TNL Select BTS3900, BTS3900 GLOBALPROCSWI
ode
Mode
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
Choose UMTS Cell
LST
UtranLoadTransCh Load Info Trans
BTS3900, BTS3900 GLOBALPROCSWI
an
Channel
LTE
TCH
GlobalProcSwitch
S1 handover in
S1HoInDataFwdSwi data forwarding
tch
switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
LST
RrcReestProtectTh RRC Reest Protect BTS3900, BTS3900 GLOBALPROCSWI
d
Threshold
LTE
TCH
GlobalProcSwitch
The Timer of X2
X2SonDeleteTimer delete by SON
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
RimCodingPolicy
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
RIM Coding Policy
GlobalProcSwitch
L2GUHoWithLCap
Switch
MOD
GLOBALPROCSWI
TCH
L2GU Handover
LST
Required With LTE BTS3900, BTS3900 GLOBALPROCSWI
Cap Switch
LTE
TCH
GlobalProcSwitch
DiffOpWithSameM
mecSwitch
Different Operator
With Same MMEC
Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
Peer Request
PeerReqBasedX2D Based X2 Delete
elSwitch
Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
Receive status of
UlPdcpSduRcvStat UL PDCP SDUs
SendSwitch
sending switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
LST
ProtocolMsgOptSwi Protocol Message BTS3900, BTS3900 GLOBALPROCSWI
tch
Optimization Switch LTE
TCH
GlobalProcSwitch
Delete Ncell
X2BasedDelNcellCf Configuration Via
gSwitch
X2 Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
X2ServedCellType
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
X2 served cell type LTE
TCH
GlobalProcSwitch
eNB Triggered
EnbTrigMmeLoadR MME load reebalSwitch
balance switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
Ue Release
Resynchronization
UeRelReSynTimes Times
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
GlobalProcSwitch
UeRelChkLostSwitc Ue Release Check
h
Lost Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
UeLinkAbnormalDe UE Link Abnormal
tectSwitch
Detect Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
GlobalProcSwitch
S1DefaultPagingDr S1 Default Paging
xSelect
DRX Value Select
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
Enhanced PHR
EnhancedPhrRptCt Report Control
rlSw
Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
GlobalProcSwitch
EutranLoadTransS EUTRAN Load
witch
Transfer Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
LST
ProtocolSupportSwi Protocol Procedure BTS3900, BTS3900 GLOBALPROCSWI
tch
Support Switch
LTE
TCH
GlobalProcSwitch
CellTrafficTraceMsg Cell Traffic Trace
Switch
Message Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
PreferSigExtend
Prefer Signal
Extend Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
MmeSelectProcSwit MME Select
ch
Procedure Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
S1OfflineCommitSw S1 Offline Commit
itch
Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
LST
ProtocolCompatibilit Protocol
BTS3900, BTS3900 GLOBALPROCSWI
ySw
Compatibility Switch LTE
TCH
GlobalProcSwitch
X2SctpEstType
MOD
GLOBALPROCSWI
TCH
LST
X2 Sctp
BTS3900, BTS3900 GLOBALPROCSWI
Establishment Type LTE
TCH
GlobalProcSwitch
X2 SON Delete
X2SonDeleteSwitch Switch
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
X2SonDeleteTimerf X2 SON Delete
orX2Fault
Timer for X2 Fault
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
LST
X2SonDeleteTimerf X2 SON Delete
BTS3900, BTS3900 GLOBALPROCSWI
orX2Usage
Timer for X2 Usage LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
X2 SON Delete Ho
LST
X2SonDeleteHoInN In Number
BTS3900, BTS3900 GLOBALPROCSWI
umThd
Threshold
LTE
TCH
GlobalProcSwitch
MOD
GLOBALPROCSWI
TCH
X2 SON Delete Ho
LST
X2SonDeleteHoOut Out Number
BTS3900, BTS3900 GLOBALPROCSWI
NumThd
Threshold
LTE
TCH
GlobalProcSwitch
MaxSyncUserNum
PerBbi
Maximum SyncUser Number Per
BBI
MOD
GLOBALPROCSWI
TCH
LST
BTS3900, BTS3900 GLOBALPROCSWI
LTE
TCH
CN Operator ID
ADD
LICENSESHARING
POLICY
LST
LICENSESHARING
POLICY
MOD
LICENSESHARING
POLICY
RMV
BTS3900, BTS3900 LICENSESHARING
LTE
POLICY
LicenseSharingPolic
CnOperatorId
LicenseSharingPolic
MaxUserNumRate
LicenseSharingPolic
The proportion of
the maximum
number of users
ADD
LICENSESHARING
POLICY
MOD
LICENSESHARING
POLICY
LST
BTS3900, BTS3900 LICENSESHARING
LTE
POLICY
ADD
LICENSESHARING
POLICY
MOD
LICENSESHARING
POLICY
The proportion of
LST
UserNumSharingRa the sharing number BTS3900, BTS3900 LICENSESHARING
te
of users
LTE
POLICY
MBMSPara
MBSFNAreaId
MBSFN Area ID
BTS3900, BTS3900
LTE
DSP MBMSPARA
SyncPeriod
Synchronisation
Period
MOD MBMSPARA
BTS3900, BTS3900 DSP MBMSPARA
LTE
LST MBMSPARA
Cell Reservation
CellReservationInfo Info
BTS3900, BTS3900
LTE
DSP MBMSPARA
LocalCellId
BTS3900, BTS3900
LTE
DSP MBMSPARA
MBMSPara
MBMSPara
MBMSPara
Local Cell ID
Mlb Qci Group ID
ADD
MLBQCIGROUP
LST
MLBQCIGROUP
MOD
MLBQCIGROUP
BTS3900, BTS3900 RMV
LTE
MLBQCIGROUP
UlMinQoSBitRate
Uplink Minimum
Qos Bit Rate
ADD
MLBQCIGROUP
MOD
MLBQCIGROUP
BTS3900, BTS3900 LST
LTE
MLBQCIGROUP
DlMinQoSBitRate
ADD
MLBQCIGROUP
MOD
MLBQCIGROUP
Downlink Minimum BTS3900, BTS3900 LST
Qos Bit Rate
LTE
MLBQCIGROUP
S1ReestMinTimer
S1 reestablish min
timer length
MOD
S1REESTTIMER
BTS3900, BTS3900 LST
LTE
S1REESTTIMER
S1ReestMaxTimer
MOD
S1REESTTIMER
S1 reestablish max BTS3900, BTS3900 LST
timer length
LTE
S1REESTTIMER
MlbQciGroup
MlbQciGroupId
MlbQciGroup
MlbQciGroup
S1ReestTimer
S1ReestTimer
CN Operator ID
LST
ENBCNOPRSVDP
ARA
MOD
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved Switch
Parameter 0
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
CnOperatorId
eNBCnOpRsvdPara
RsvdSwPara0
eNBCnOpRsvdPara
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 2
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara2
eNBCnOpRsvdPara
RsvdPara3
Reserved
Parameter 3
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 4
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara4
eNBCnOpRsvdPara
RsvdPara5
Reserved
Parameter 5
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 6
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara6
eNBCnOpRsvdPara
RsvdPara7
Reserved
Parameter 7
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 8
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara8
eNBCnOpRsvdPara
RsvdPara9
Reserved
Parameter 9
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 10
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara10
eNBCnOpRsvdPara
RsvdPara11
Reserved
Parameter 11
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 12
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara12
eNBCnOpRsvdPara
RsvdPara13
Reserved
Parameter 13
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 14
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara14
eNBCnOpRsvdPara
RsvdPara15
Reserved
Parameter 15
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 16
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara16
eNBCnOpRsvdPara
RsvdPara17
Reserved
Parameter 17
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 18
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara18
eNBCnOpRsvdPara
RsvdPara19
Reserved
Parameter 19
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
Reserved
Parameter 20
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
eNBCnOpRsvdPara
RsvdPara20
eNBCnOpRsvdPara
RsvdPara21
Reserved
Parameter 21
ModeNo
Mode Number
ChrOutputMode
ChrOutputMode
CHR Detail Cause
ChrDetailCauseVal Value
MOD
ENBCNOPRSVDP
ARA
LST
BTS3900, BTS3900 ENBCNOPRSVDP
LTE
ARA
LST
CHROUTPUTMOD
E
MOD
CHROUTPUTMOD
E
RMV
BTS3900, BTS3900 CHROUTPUTMOD
LTE
E
ADD
CHROUTPUTMOD
E
MOD
CHROUTPUTMOD
E
LST
BTS3900, BTS3900 CHROUTPUTMOD
LTE
E
ChrOutputMode
ChrHierOutMode
CHR Hierarchical
Output Mode
ADD
CHROUTPUTMOD
E
MOD
CHROUTPUTMOD
E
LST
BTS3900, BTS3900 CHROUTPUTMOD
LTE
E
CHR Output
Sampling Indicator
ADD
CHROUTPUTMOD
E
MOD
CHROUTPUTMOD
E
LST
BTS3900, BTS3900 CHROUTPUTMOD
LTE
E
ChrOutputMode
SamplingEnable
ECO ID
ADD ECO
DSP ECO
LST ECO
BTS3900, BTS3900 MOD ECO
LTE
RMV ECO
End Point Group
Config Flag
ADD ECO
MOD ECO
BTS3900, BTS3900 DSP ECO
LTE
LST ECO
Control Plane End
Point Group ID
ADD ECO
MOD ECO
BTS3900, BTS3900 DSP ECO
LTE
LST ECO
User Plane End
Point Group ID
ADD ECO
MOD ECO
BTS3900, BTS3900 DSP ECO
LTE
LST ECO
UserLabel
User Label
ADD ECO
MOD ECO
BTS3900, BTS3900 DSP ECO
LTE
LST ECO
EcoCpBearerId
ECO Interface CP
Bearer ID
BTS3900, BTS3900
LTE
DSP ECO
EcoCpBearerState
ECO Interface CP
Bearer State
BTS3900, BTS3900
LTE
DSP ECO
IP Path ID
ADD
ENODEBPATH
LST ENODEBPATH
MOD
ENODEBPATH
BTS3900, BTS3900 RMV
LTE
ENODEBPATH
Application Type
ADD
ENODEBPATH
MOD
BTS3900, BTS3900 ENODEBPATH
LTE
LST ENODEBPATH
ECO
EcoId
ECO
EpGroupCfgFlag
ECO
CpEpGroupId
ECO
UpEpGroupId
ECO
ECO
ECO
eNodeBPath
IpPathId
eNodeBPath
AppType
eNodeBPath
S1 Interface ID
ADD
ENODEBPATH
MOD
BTS3900, BTS3900 ENODEBPATH
LTE
LST ENODEBPATH
X2 Interface ID
ADD
ENODEBPATH
MOD
BTS3900, BTS3900 ENODEBPATH
LTE
LST ENODEBPATH
M1Id
M1 ID
ADD M1
LST M1
BTS3900, BTS3900 MOD M1
LTE
RMV M1
M1EpGroupId
M1 End Point
Group ID
ADD M1
BTS3900, BTS3900 MOD M1
LTE
LST M1
User Label
ADD M1
BTS3900, BTS3900 MOD M1
LTE
LST M1
M2Id
M2 ID
ADD M2
DSP M2
LST M2
MOD M2
BTS3900, BTS3900 RMV M2
LTE
RST M2
M2EpGroupId
M2 End Point
Group ID
ADD M2
BTS3900, BTS3900 MOD M2
LTE
LST M2
UserLabel
User Label
ADD M2
BTS3900, BTS3900 MOD M2
LTE
LST M2
M2CpBearerId
M2 Interface CP
Bearer ID
BTS3900, BTS3900
LTE
DSP M2
S1InterfaceId
eNodeBPath
X2InterfaceId
M1
M1
M1
UserLabel
M2
M2
M2
M2
M2
M2CpBearerState
M2 Interface CP
Bearer State
BTS3900, BTS3900
LTE
DSP M2
M2InterfaceState
M2 Interface State
BTS3900, BTS3900
LTE
DSP M2
M2SessionNum
M2 Interface
Session Number
BTS3900, BTS3900
LTE
DSP M2
MceName
MCE Name
BTS3900, BTS3900
LTE
DSP M2
GlobalMceId
GlobalMceId
BTS3900, BTS3900
LTE
DSP M2
M2
M2
M2
M2
M2
M2InterfaceFaultRe M2InterfaceFaultRe BTS3900, BTS3900
ason
ason
LTE
DSP M2
M2
M2 Interface
Session TMGI
BTS3900, BTS3900
LTE
DSP M2
S1 ID
ADD S1
DSP S1
LST S1
BTS3900, BTS3900 MOD S1
LTE
RMV S1
CnOperatorId
CN Operator ID
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
CpEpGroupId
Control Plane End
Point Group ID
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
UpEpGroupId
User Plane End
Point Group ID
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
MME Release
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
M2SessionTMGI
S1
S1Id
S1
S1
S1
S1
MmeRelease
S1
UserLabel
User Label
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
EpGroupCfgFlag
End Point Group
Config Flag
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
Priority
MME Selection
Priority
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
S1
S1
S1
CnOpSharingGroup CN Operator
Id
Sharing Group ID
ADD S1
BTS3900, BTS3900 MOD S1
LTE
LST S1
S1
S1InterfaceId
S1 Interface ID
BTS3900, BTS3900
LTE
DSP S1
S1InterfaceState
S1 Interface State
BTS3900, BTS3900
LTE
DSP S1
S1InterfaceIsBlock
S1 Interface Is
Block
BTS3900, BTS3900
LTE
DSP S1
S1CpBearerId
S1 Interface CP
Bearer ID
BTS3900, BTS3900
LTE
DSP S1
S1CpBearerState
S1 Interface CP
Bearer State
S1InterfaceId
S1 Interface ID
BTS3900, BTS3900
LTE
DSP
S1
S1INTERFACE
BLK
S1INTERFACE
DSP
S1INTERFACE
MOD
S1INTERFACE
RMV
S1INTERFACE
RST
S1INTERFACE
BTS3900, BTS3900 UBL
LTE
S1INTERFACE
S1 Interface CP
Bearer ID
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1
S1
S1
S1
S1Interface
S1Interface
S1CpBearerId
CN Operator ID
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
MME Release
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1 Interface Is
Blocked
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1Interface
CnOperatorId
S1Interface
MmeRelease
S1Interface
S1InterfaceIsBlock
S1Interface
CtrlMode
Control Mode
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1Interface
AutoCfgFlag
Auto Config Flag
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
MME Selection
Priority
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1Interface
Priority
S1Interface
CnOpSharingGroup CN Operator
Id
Sharing Group ID
ADD
S1INTERFACE
MOD
S1INTERFACE
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1InterfaceState
S1 Interface State
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1CpBearerState
BTS3900, BTS3900 DSP
S1 CP Bearer State LTE
S1INTERFACE
MmeIsOverLoad
BTS3900, BTS3900 DSP
MME Is Overloaded LTE
S1INTERFACE
S1Interface
S1Interface
S1Interface
S1Interface
S1InterfaceUserNu S1 Interface User
m
Number
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1Interface
MmeName
MME Name
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
ServedPlmns
Served PLMNs
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
ServedGummeis
Served GUMMEIs
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1Interface
S1Interface
S1Interface
RelativeMmeCap
MME Relative
Capacity
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
S1Interface
S1 Interface Fault
S1LinkFaultReason Reason
BTS3900, BTS3900 DSP
LTE
S1INTERFACE
Interface Protocol
Name
ADD ABLMSG
BTS3900, BTS3900 LST ABLMSG
LTE
RMV ABLMSG
AblMsg
MsgItfType
AblMsg
MsgType
Message Type
ADD ABLMSG
BTS3900, BTS3900 LST ABLMSG
LTE
RMV ABLMSG
MsgOpType
Operate Type
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchCount
Match Count
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
AblMsg
AblMsg
MatchFieldOffSet1
Match Field Offset
1
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchLen1
Match Length 1
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchContent1
Match Content 1
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
AblMsg
AblMsg
MatchFieldOffSet2
Match Field Offset
2
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchLen2
Match Length 2
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchContent2
Match Content 2
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
AblMsg
AblMsg
MatchFieldOffSet3
Match Field Offset
3
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchLen3
Match Length 3
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
MatchContent3
Match Content 3
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
AblMsg
AblMsg
ModifyCount
Modify Count
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
Modify Field Offset
ModifyFieldOffSet1 1
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
ModifyLen1
Modify Length 1
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
ModifyContent1
Modify Content 1
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
AblMsg
Modify Field Offset
ModifyFieldOffSet2 2
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
ModifyLen2
Modify Length 2
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
ModifyContent2
Modify Content 2
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
AblMsg
Modify Field Offset
ModifyFieldOffSet3 3
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
ModifyLen3
Modify Length 3
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
ModifyContent3
Modify Content 3
BTS3900, BTS3900 ADD ABLMSG
LTE
LST ABLMSG
AblMsg
eNodeBFddBbRes
BLK
ENODEBFDDBBR
ES
DSP
ENODEBFDDBBR
ES
LST
ENODEBFDDBBR
ES
eNodeB FDD
UBL
eNodeBFddBbResI Baseband
BTS3900, BTS3900 ENODEBFDDBBR
d
Resource Identifier LTE
ES
eNodeBFddBbRes
CN
Cabinet Number
DSP
ENODEBFDDBBR
ES
LST
BTS3900, BTS3900 ENODEBFDDBBR
LTE
ES
eNodeBFddBbRes
SRN
Subrack Number
DSP
ENODEBFDDBBR
ES
LST
BTS3900, BTS3900 ENODEBFDDBBR
LTE
ES
Slot Number
DSP
ENODEBFDDBBR
ES
LST
BTS3900, BTS3900 ENODEBFDDBBR
LTE
ES
Capacity
DSP
ENODEBFDDBBR
ES
LST
BTS3900, BTS3900 ENODEBFDDBBR
LTE
ES
eNodeBFddBbRes
SN
eNodeBFddBbRes
Capacity
eNodeBFddBbRes
AdmState
DSP
ENODEBFDDBBR
ES
LST
BTS3900, BTS3900 ENODEBFDDBBR
Administrative State LTE
ES
eNodeBFddBbRes
OpState
Operational State
DSP
BTS3900, BTS3900 ENODEBFDDBBR
LTE
ES
eNodeBTddBbRes
BLK
ENODEBTDDBBR
ES
DSP
ENODEBTDDBBR
ES
LST
ENODEBTDDBBR
ES
eNodeB TDD
UBL
eNodeBTddBbResI Baseband
BTS3900, BTS3900 ENODEBTDDBBR
d
Resource Identifier LTE
ES
eNodeBTddBbRes
CN
Cabinet Number
DSP
ENODEBTDDBBR
ES
LST
BTS3900, BTS3900 ENODEBTDDBBR
LTE
ES
eNodeBTddBbRes
SRN
Subrack Number
DSP
ENODEBTDDBBR
ES
LST
BTS3900, BTS3900 ENODEBTDDBBR
LTE
ES
Slot Number
DSP
ENODEBTDDBBR
ES
LST
BTS3900, BTS3900 ENODEBTDDBBR
LTE
ES
Capacity
DSP
ENODEBTDDBBR
ES
LST
BTS3900, BTS3900 ENODEBTDDBBR
LTE
ES
eNodeBTddBbRes
SN
eNodeBTddBbRes
Capacity
eNodeBTddBbRes
AdmState
DSP
ENODEBTDDBBR
ES
LST
BTS3900, BTS3900 ENODEBTDDBBR
Administrative State LTE
ES
eNodeBTddBbRes
OpState
Operational State
DSP
BTS3900, BTS3900 ENODEBTDDBBR
LTE
ES
S1Interface ID
LST
MMEFEATURECF
G
MOD
BTS3900, BTS3900 MMEFEATURECF
LTE
G
MmeFeatureCfg
S1InterfaceId
MmeFeatureCfg
MME supporting
MDT or not
MOD
MMEFEATURECF
G
LST
BTS3900, BTS3900 MMEFEATURECF
LTE
G
X2 ID
ADD X2
DSP X2
LST X2
BTS3900, BTS3900 MOD X2
LTE
RMV X2
CnOperatorId
CN Operator ID
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
CpEpGroupId
Control Plane End
Point Group ID
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
MdtEnable
X2
X2Id
X2
X2
X2
UpEpGroupId
User Plane End
Point Group ID
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
X2
TargetENodeBRele Target eNodeB
ase
Release
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
UserLabel
User Label
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
EpGroupCfgFlag
End Point Group
Config Flag
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
X2
X2
X2
CnOpSharingGroup CN Operator
Id
Sharing Group ID
ADD X2
BTS3900, BTS3900 MOD X2
LTE
LST X2
X2
X2CpBearerState
X2 Interface CP
Bearer State
BTS3900, BTS3900
LTE
DSP X2
X2InterfaceId
X2 Interface ID
BTS3900, BTS3900
LTE
DSP X2
X2InterfaceState
X2 Interface State
BTS3900, BTS3900
LTE
DSP X2
X2CpBearerId
X2 Interface CP
Bearer ID
BTS3900, BTS3900
LTE
DSP X2
Mcc
ADD
X2BLACKWHITELI
ST
RMV
X2BLACKWHITELI
ST
LST
BTS3900, BTS3900 X2BLACKWHITELI
Mobile country code LTE
ST
Mnc
Mobile network
code
ADD
X2BLACKWHITELI
ST
RMV
X2BLACKWHITELI
ST
LST
BTS3900, BTS3900 X2BLACKWHITELI
LTE
ST
eNodeB ID
ADD
X2BLACKWHITELI
ST
RMV
X2BLACKWHITELI
ST
LST
BTS3900, BTS3900 X2BLACKWHITELI
LTE
ST
X2
X2
X2
X2BlackWhiteList
X2BlackWhiteList
X2BlackWhiteList
ENodeBId
X2BlackWhiteList
X2ListType
X2 Black or White
List Type
X2InterfaceId
X2Interface ID
ADD
X2BLACKWHITELI
ST
LST
BTS3900, BTS3900 X2BLACKWHITELI
LTE
ST
DSP
X2INTERFACE
MOD
X2INTERFACE
RMV
X2INTERFACE
BTS3900, BTS3900 RST
LTE
X2INTERFACE
X2 Interface CP
Bearer ID
ADD
X2INTERFACE
MOD
X2INTERFACE
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
CN Operator ID
ADD
X2INTERFACE
MOD
X2INTERFACE
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
TargetENodeBRele Target eNodeB
ase
release
ADD
X2INTERFACE
MOD
X2INTERFACE
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
X2Interface
X2Interface
X2CpBearerId
X2Interface
CnOperatorId
X2Interface
Automatic removal
flag
ADD
X2INTERFACE
MOD
X2INTERFACE
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
Control Mode
ADD
X2INTERFACE
MOD
X2INTERFACE
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
X2Interface
NoAutoRmvFlag
X2Interface
CtrlMode
X2Interface
AutoCfgFlag
Auto Config Flag
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
X2Interface
CnOpSharingGroup CN Operator
Id
Sharing Group ID
ADD
X2INTERFACE
MOD
X2INTERFACE
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
X2Interface
Neighbor eNodeB
ID
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
Neighbor eNodeB
NbrENodeBPlmnId PLMN ID
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
X2InterfaceState
X2Interface state
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
X2AbnormalReaso X2Interface state
n
abnormal reason
BTS3900, BTS3900 DSP
LTE
X2INTERFACE
NbrENodeBId
X2Interface
X2Interface
X2Interface
Drx
DrxAlgSwitch
DRX switch
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
ShortDrxSwitch
Short-cycle DRX
switch
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
Drx
Drx
LongDrxCycleSpeci Special long DRX
al
cycle
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
Drx
OnDurationTimerSp Special On
ecial
Duration timer
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
Drx
DrxInactivityTimerS Special DRX
pecial
inactivity timer
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
Drx
Special short-cycle
SupportShortDrxSp DRX supported
BTS3900, BTS3900 MOD DRX
ecial
indication
LTE
LST DRX
Drx
ShortDrxCycleSpeci Special short DRX
al
cycle
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
Drx
DrxShortCycleTimer Special DRX short
Special
cycle timer
BTS3900, BTS3900 MOD DRX
LTE
LST DRX
Drx
LongDrxCycleForA Long DRX Cycle for BTS3900, BTS3900 MOD DRX
nr
ANR
LTE
LST DRX
Drx
LongDRXCycleforI
RatAnr
ExtendedQci
Long DRX Cycle for BTS3900, BTS3900 MOD DRX
Inter-RAT ANR
LTE
LST DRX
ADD
EXTENDEDQCI
LST
EXTENDEDQCI
MOD
EXTENDEDQCI
Extended QoS
BTS3900, BTS3900 RMV
Class Identifier
LTE
EXTENDEDQCI
ServiceType
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
ExtendedQci
ExtendedQci
Service type
ExtendedQci
Uplink scheduling
UlschPriorityFactor priority factor
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
Downlink
scheduling priority
DlschPriorityFactor factor
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
UlMinGbr
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
ExtendedQci
ExtendedQci
Uplink MinGBR
ExtendedQci
DlMinGbr
Downlink MinGBR
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
ExtendedQci
PreAllocationWeigh Pre-allocation
t
weight
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
ExtendedQci
InterRatPolicyCfgGr InterRAT policy
oupId
config group ID
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
PrioritisedBitRate
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
ExtendedQci
Prioritised bit rate
ExtendedQci
ExtendedQci
ExtendedQci
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
LogicalChannelPrio Logical channel
BTS3900, BTS3900 LST
rity
priority
LTE
EXTENDEDQCI
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
RlcPdcpParaGroupI RLC PDCP
BTS3900, BTS3900 LST
EXTENDEDQCI
d
parameter group ID LTE
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
FreeUserFlag
Free user flag
LTE
EXTENDEDQCI
ExtendedQci
FlowCtrlType
Flow Control Type
InterRatPolicyCfgGr
InterRatPolicyCfgGr InterRAT policy
oupId
config group ID
ADD
EXTENDEDQCI
MOD
EXTENDEDQCI
BTS3900, BTS3900 LST
LTE
EXTENDEDQCI
ADD
INTERRATPOLICY
CFGGROUP
LST
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
RMV
BTS3900, BTS3900 INTERRATPOLICY
LTE
CFGGROUP
InterRatPolicyCfgGr
UtranHoCfg
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
LST
UTRAN handover BTS3900, BTS3900 INTERRATPOLICY
policy Configuration LTE
CFGGROUP
InterRatPolicyCfgGr
GeranGsmHoCfg
GERAN GSM
handover policy
Configuration
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
LST
BTS3900, BTS3900 INTERRATPOLICY
LTE
CFGGROUP
InterRatPolicyCfgGr
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
GERAN GPRS
LST
GeranGprsEdgeHo EDGE handover
BTS3900, BTS3900 INTERRATPOLICY
Cfg
policy Configuration LTE
CFGGROUP
InterRatPolicyCfgGr
Cdma1xRttHoCfg
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
CDMA2000 1XRTT
LST
handover policy
BTS3900, BTS3900 INTERRATPOLICY
Configuration
LTE
CFGGROUP
InterRatPolicyCfgGr
CdmaHrpdHoCfg
CDMA2000 HRPD
handover policy
Configuration
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
LST
BTS3900, BTS3900 INTERRATPOLICY
LTE
CFGGROUP
No handover flag
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
LST
BTS3900, BTS3900 INTERRATPOLICY
LTE
CFGGROUP
No fast ANR flag
ADD
INTERRATPOLICY
CFGGROUP
MOD
INTERRATPOLICY
CFGGROUP
LST
BTS3900, BTS3900 INTERRATPOLICY
LTE
CFGGROUP
InterRatPolicyCfgGr
NoHoFlag
InterRatPolicyCfgGr
NoFastAnrFlag
PuschParam
Delta Offset CQI
DeltaOffsetCqiIndex Index
MOD
PUSCHPARAM
BTS3900, BTS3900 LST
LTE
PUSCHPARAM
Delta Offset RI
DeltaOffsetRiIndex Index
MOD
PUSCHPARAM
BTS3900, BTS3900 LST
LTE
PUSCHPARAM
PuschParam
PuschParam
MOD
PUSCHPARAM
DeltaOffsetAckInde Delta Offset
BTS3900, BTS3900 LST
x
Acknowledge Index LTE
PUSCHPARAM
ADD
RLCPDCPPARAGR
OUP
LST
RLCPDCPPARAGR
RlcPdcpParaGroup
OUP
MOD
RLCPDCPPARAGR
OUP
RMV
RlcPdcpParaGroupI RLC PDCP
BTS3900, BTS3900 RLCPDCPPARAGR
d
parameter group ID LTE
OUP
RlcPdcpParaGroup
DiscardTimer
Discard timer
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RLC-UM or RLCAM mode
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
RlcMode
RlcPdcpParaGroup
UeMaxRetxThresho MaxretxThreshold
ld
for UE
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
ENodeBMaxRetxTh MaxRetxThreshold BTS3900, BTS3900 RLCPDCPPARAGR
reshold
for eNodeB
LTE
OUP
RlcPdcpParaGroup
UePollByte
PollByte for UE
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
ENodeBPollByte
PollByte for
eNodeB
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
UePollPdu
PollPdu for UE
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
ENodeBPollPdu
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
PollPdu for eNodeB LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
UePollRetransmitTi Poll retransmit timer BTS3900, BTS3900 RLCPDCPPARAGR
mer
for UE
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
ENodeBPollRetrans Poll retransmit timer BTS3900, BTS3900 RLCPDCPPARAGR
mitTimer
for eNodeB
LTE
OUP
RlcPdcpParaGroup
UeStatusProhibitTi
mer
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
Status prohibit timer BTS3900, BTS3900 RLCPDCPPARAGR
for UE
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
ENodeBStatusProhi Status prohibit timer BTS3900, BTS3900 RLCPDCPPARAGR
bitTimer
for eNodeB
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
UeAmReorderingTi AM reordering timer BTS3900, BTS3900 RLCPDCPPARAGR
mer
for UE
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
ENodeBAmReorder AM reordering timer BTS3900, BTS3900 RLCPDCPPARAGR
ingTimer
for eNodeB
LTE
OUP
RlcPdcpParaGroup
PdcpSnSize
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
UM PDCP-SN size LTE
OUP
UlRlcSnSize
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
Uplink RLC-Sn size LTE
OUP
DlRlcSnSize
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
RlcPdcpParaGroup
Downlink RLC-SN
size
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
UeUmReorderingTi UM reordering timer BTS3900, BTS3900 RLCPDCPPARAGR
mer
for UE
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
ENodeBUmReorder UM reordering timer BTS3900, BTS3900 RLCPDCPPARAGR
ingTimer
for eNodeB
LTE
OUP
RlcPdcpParaGroup
AM PDCP status
report required
PdcpStatusRptReq indication
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
RlcParaAdaptSwitc RLC Parameter
h
Adaptive Switch
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
eNodeBPollRtrTime Preset eNodeB Poll BTS3900, BTS3900 RLCPDCPPARAGR
rPreset
Retransmit Timer
LTE
OUP
RlcPdcpParaGroup
eNodeBStatProhTi
merPreset
Preset eNodeB
Status Prohibit
Timer
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
UePollRtrTimerPres Preset UE Poll
et
Retransmit Timer
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
RlcPdcpParaGroup
UeStatProhTimerPr Preset UE Status
eset
Prohibit Timer
ADD
RLCPDCPPARAGR
OUP
MOD
RLCPDCPPARAGR
OUP
LST
BTS3900, BTS3900 RLCPDCPPARAGR
LTE
OUP
StandardQci
Qci
QoS Class
Indication
LST
STANDARDQCI
BTS3900, BTS3900 MOD
LTE
STANDARDQCI
StandardQci
MOD
STANDARDQCI
BTS3900, BTS3900 LST
UlschPriorityFactor Ulsch priority factor LTE
STANDARDQCI
StandardQci
MOD
STANDARDQCI
BTS3900, BTS3900 LST
DlschPriorityFactor Dlsch priority factor LTE
STANDARDQCI
StandardQci
UlMinGbr
Uplink MinGBR
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
StandardQci
DlMinGbr
Downlink MinGBR
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
StandardQci
PreAllocationWeigh Pre-allocation
t
weight
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
StandardQci
InterRatPolicyCfgGr InterRAT policy
oupId
config group ID
StandardQci
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
MOD
STANDARDQCI
RlcPdcpParaGroupI RLC PDCP
BTS3900, BTS3900 LST
d
parameter group ID LTE
STANDARDQCI
StandardQci
PrioritisedBitRate
Prioritised bit rate
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
StandardQci
LogicalChannelPrio Logical channel
rity
priority
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
FlowCtrlType
MOD
STANDARDQCI
BTS3900, BTS3900 LST
LTE
STANDARDQCI
StandardQci
Flow control type
eNBQciRsvdPara
Qci
QoS Class
Indication
LST
ENBQCIRSVDPAR
A
MOD
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved Switch
Parameter 0
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdSwPara0
eNBQciRsvdPara
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 2
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara2
eNBQciRsvdPara
RsvdPara3
Reserved
Parameter 3
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 4
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara4
eNBQciRsvdPara
RsvdPara5
Reserved
Parameter 5
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 6
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara6
eNBQciRsvdPara
RsvdPara7
Reserved
Parameter 7
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 8
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara8
eNBQciRsvdPara
RsvdPara9
Reserved
Parameter 9
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 10
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara10
eNBQciRsvdPara
RsvdPara11
Reserved
Parameter 11
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 12
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara12
eNBQciRsvdPara
RsvdPara13
Reserved
Parameter 13
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 14
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara14
eNBQciRsvdPara
RsvdPara15
Reserved
Parameter 15
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 16
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara16
eNBQciRsvdPara
RsvdPara17
Reserved
Parameter 17
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 18
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara18
eNBQciRsvdPara
RsvdPara19
Reserved
Parameter 19
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Reserved
Parameter 20
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
eNBQciRsvdPara
RsvdPara20
eNBQciRsvdPara
RsvdPara21
Reserved
Parameter 21
MOD
ENBQCIRSVDPAR
A
LST
BTS3900, BTS3900 ENBQCIRSVDPAR
LTE
A
Default doppler
level
MOD
ALGODEFAULTPA
RA
LST
BTS3900, BTS3900 ALGODEFAULTPA
LTE
RA
AlgoDefaultPara
DefDopplerLevel
BfMimoAdaptivePara
BfMimoAdaptiveSwi BfMIMO adaptive
tch
switch
MOD
BFMIMOADAPTIVE
PARACFG
LST
BTS3900, BTS3900 BFMIMOADAPTIVE
LTE
PARACFG
BfMimoAdaptivePara
FixedBfMimoMode
Fixed BfMIMO
mode
MOD
BFMIMOADAPTIVE
PARACFG
LST
BTS3900, BTS3900 BFMIMOADAPTIVE
LTE
PARACFG
CqiAdaptiveCfg
CqiPeriodAdaptive
MOD
CQIADAPTIVECFG
CQI period adaptive BTS3900, BTS3900 LST
switch
LTE
CQIADAPTIVECFG
UserCqiPeriodCfg
MOD
CQIADAPTIVECFG
BTS3900, BTS3900 LST
LTE
CQIADAPTIVECFG
CqiAdaptiveCfg
User CQI period
config
CqiAdaptiveCfg
MOD
SimultaneousAckN
CQIADAPTIVECFG
SimulAckNackAndC ackAndCQI config BTS3900, BTS3900 LST
qiSwitch
switch
LTE
CQIADAPTIVECFG
CqiAdaptiveCfg
PUCCH Periodic
PucchPeriodicCqiO CQI Optimize
ptSwitch
Switch
MOD
CQIADAPTIVECFG
BTS3900, BTS3900 LST
LTE
CQIADAPTIVECFG
CqiAdaptiveCfg
MOD
CQIADAPTIVECFG
HoAperiodicCqiCfg Handover Aperiodic BTS3900, BTS3900 LST
Switch
Cqi Config Switch LTE
CQIADAPTIVECFG
MimoAdaptiveParaCf
MimoAdaptiveSwitc MIMO adaptive
h
switch
MOD
MIMOADAPTIVEPA
RACFG
LST
BTS3900, BTS3900 MIMOADAPTIVEPA
LTE
RACFG
MimoAdaptiveParaCf
FixedMimoMode
Fixed MIMO mode
MOD
MIMOADAPTIVEPA
RACFG
LST
BTS3900, BTS3900 MIMOADAPTIVEPA
LTE
RACFG
MimoAdaptiveParaCf
InitialMimoType
Initial Mimo Type
MOD
MIMOADAPTIVEPA
RACFG
LST
BTS3900, BTS3900 MIMOADAPTIVEPA
LTE
RACFG
SRS period
adaptive switch
MOD
SRSADAPTIVECF
G
LST
BTS3900, BTS3900 SRSADAPTIVECF
LTE
G
SrsAdaptiveCfg
SrsPeriodAdaptive
SrsAdaptiveCfg
MOD
SRSADAPTIVECF
G
LST
BTS3900, BTS3900 SRSADAPTIVECF
LTE
G
UserSrsPeriodCfg
User SRS period
config
Qci
BTS3900, BTS3900 LST TYPDRBBSR
QoS Class Identifier LTE
MOD TYPDRBBSR
TypDrbBsr
TypDrbBsr
BTS3900, BTS3900 MOD TYPDRBBSR
TPerodicBSRTimer Periodic BSR Timer LTE
LST TYPDRBBSR
TypDrbBsr
RetxBsrTimer
BSR
Retransmission
Timer
BTS3900, BTS3900 MOD TYPDRBBSR
LTE
LST TYPDRBBSR
HoMeasComm
GapPatternType
MOD
HOMEASCOMM
GAP measurement BTS3900, BTS3900 LST
pattern
LTE
HOMEASCOMM
HoMeasComm
EutranFilterCoeffRs EUTRAN RSRP
rp
filter coefficient
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
EutranFilterCoeffRs EUTRAN RSRQ
rq
filter coefficient
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
GeranFilterCoeff
GERAN filter
coefficient
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
SMeasureInd
SMeasureInd
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
SMeasure
SMeasure
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
SpeedDepParaInd
SpeedDependInd
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
TcrMaxConnMode
TCRmax in
connected mode
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
TcrMaxHystConnM TCRmaxHyst in
ode
connected mode
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
NcrMediumConnMo NCR Medium in
de
connected mode
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
NCR High in
NcrHighConnMode connected mode
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
TttSfMedium
TTT Scaling factor
for Medium mobility
state in connected BTS3900, BTS3900
mode
LTE
MOD
HOMEASCOMM
LST
HOMEASCOMM
HoMeasComm
TttSfHigh
TTT Scaling factor
for High mobility
state in connected
mode
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
HoMeasComm
MOD
HOMEASCOMM
UtranFilterCoeffRsc UTRAN RSCP filter BTS3900, BTS3900 LST
p
coefficient
LTE
HOMEASCOMM
HoMeasComm
MOD
HOMEASCOMM
UtranFilterCoeffEcn UTRAN ECN0 filter BTS3900, BTS3900 LST
0
coefficient
LTE
HOMEASCOMM
HoMeasComm
Optimized
OptHoPreFailPunis Handover Prepare
hTimer
Fail Punish Timer
MOD
HOMEASCOMM
BTS3900, BTS3900 LST
LTE
HOMEASCOMM
InterRatHoComm
InterRatHoMaxRprt Max report cell
Cell
number
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
InterRatHoComm
InterRatHoRprtAmo Measurement
unt
report amount
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
Geran
InterRatHoGeranRp measurement
rtInterval
report interval
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
InterRatHoComm
InterRatHoComm
MOD
INTERRATHOCOM
M
LST
InterRatHoUtranB1 Utran measurement BTS3900, BTS3900 INTERRATHOCOM
MeasQuan
trigger quantity
LTE
M
InterRatHoComm
UTRAN FDD
InterRatHoUtranRpr measurement
tInterval
report interval
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
CDMA20001XRTT
InterRatHoCdma1x measurement
RttB1MeasQuan
trigger quantity
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
InterRatHoComm
InterRatHoComm
CDMA20001XRTT
InterRatCdma1xRtt measurement
RprtInterval
report interval
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
CDMA2000HRPD
InterRatHoCdmaHr measurement
pdB1MeasQuan
trigger quantity
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
CDMA2000HRPD
InterRatCdmaHrpd measurement
RprtInterval
report interval
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
InterRatHoComm
InterRatHoComm
InterRatHoComm
InterRat A1A2
InterRatHoA1A2Tri measurement
gQuan
trigger quantity
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
InterRatHoComm
MOD
INTERRATHOCOM
M
LST
InterRatHoEventTy Inter RAT HO
BTS3900, BTS3900 INTERRATHOCOM
pe
Trigger Event Type LTE
M
InterRatHoComm
InterRatHoComm
MOD
INTERRATHOCOM
M
LST
Cdma20001XrttMe CDMA2000 1xRTT BTS3900, BTS3900 INTERRATHOCOM
asTimer
Measure Timer
LTE
M
MOD
INTERRATHOCOM
M
LST
Cdma20001XrttJud CDMA2000 1xRTT BTS3900, BTS3900 INTERRATHOCOM
gePnNum
Judge PN Number LTE
M
InterRatHoComm
CDMA2000 HRPD
Cdma2000HrpdFre Frequency Select
qSelMode
Mode
InterRatHoComm
MOD
INTERRATHOCOM
M
CDMA2000 1xRTT
LST
Cdma20001XrttFre Frequency Select
BTS3900, BTS3900 INTERRATHOCOM
qSelMode
Mode
LTE
M
InterRatHoComm
CdmaEcsfbPsConc eCSFB PS
urrentMode
Concurrent Mode
InterRatHoComm
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
MOD
INTERRATHOCOM
M
LST
Cdma20001XrttMe eCSFB
BTS3900, BTS3900 INTERRATHOCOM
asMode
Measurement Mode LTE
M
InterRatHoComm
Cdma1XrttSectorId eCSFB SectorID
SelMode
Select Mode
MOD
INTERRATHOCOM
M
LST
BTS3900, BTS3900 INTERRATHOCOM
LTE
M
InterRatHoComm
InterRatHoComm
MOD
INTERRATHOCOM
M
LST
CellInfoMaxUtranC Max Utran cell num BTS3900, BTS3900 INTERRATHOCOM
ellNum
in redirection
LTE
M
MOD
INTERRATHOCOM
M
LST
CellInfoMaxGeranC Max Geran cell num BTS3900, BTS3900 INTERRATHOCOM
ellNum
in redirection
LTE
M
InterRatHoComm
MOD
INTERRATHOCOM
M
Max Geran cell num
LST
GeranCellNumForE in CSFB EMC
BTS3900, BTS3900 INTERRATHOCOM
mcRedirect
redirection
LTE
M
InterRatHoComm
MOD
INTERRATHOCOM
M
Max Utran cell num
LST
UtranCellNumForE in CSFB EMC
BTS3900, BTS3900 INTERRATHOCOM
mcRedirect
redirection
LTE
M
InterRatHoComm
MOD
INTERRATHOCOM
M
CDMA2000 eHRPD
LST
CdmaHrpdSectorId SectorID Select
BTS3900, BTS3900 INTERRATHOCOM
SelMode
Mode
LTE
M
IntraRatHoComm
IntraRatHoMaxRprt Max report cell
Cell
number
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoRprtAmo Measurement
unt
report amount
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoComm
IntraRatHoComm
IntraFreqHoA3Trig
Quan
A3 measurement
trigger quantity
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoComm
IntraFreqHoA3Rprt A3 measurement
Quan
report quantity
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraFreqHoRprtInte A3 measurement
rval
report interval
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoComm
IntraRatHoComm
InterFreqHoA4Rprt Measurement A4
Quan
report quantity
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
Interfreq
InterFreqHoRprtInte measurement
rval
report interval
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoComm
IntraRatHoComm
InterFreq A1A2
InterFreqHoA1A2Tri Measurement
gQuan
trigger quantity
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoComm
MOD
INTRARATHOCOM
M
A1A2 Measurement
LST
FreqPriInterFreqHo trigger quantity of
BTS3900, BTS3900 INTRARATHOCOM
A1TrigQuan
Freq Priority
LTE
M
IntraRatHoComm
InterFreqHoA4Trig
Quan
A4 Measurement
Trigger Quantity
MOD
INTRARATHOCOM
M
LST
BTS3900, BTS3900 INTRARATHOCOM
LTE
M
IntraRatHoComm
MOD
INTRARATHOCOM
M
Coverage Based
LST
CovBasedIfHoWaiti Inter Frequency HO BTS3900, BTS3900 INTRARATHOCOM
ngTimer
Waiting Timer
LTE
M
CSFallBackHo
LocalCellId
Local cell ID
LST
CSFALLBACKHO
BTS3900, BTS3900 MOD
LTE
CSFALLBACKHO
CSFallBackHo
CSFB Utran
CsfbHoUtranTimeT EventB1 Time To
oTrig
Trig
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFallBackHo
CSFB Geran
CsfbHoGeranTimeT EventB1 Time To
oTrig
Trig
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFallBackHo
CSFB CDMA
CsfbHoCdmaTimeT EventB1 Time To
oTrig
Trig
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFallBackHo
CSFB UTRAN
CsfbHoUtranB1Thd EventB1 RSCP
Rscp
Trigger Threshold
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFallBackHo
CSFB UTRAN
CsfbHoUtranB1Thd EventB1 ECN0
Ecn0
Trigger Threshold
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFB GERAN
CsfbHoGeranB1Th EventB1 Trigger
d
Threshold
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFallBackHo
CSFallBackHo
CSFB CDMA2000
CsfbHoCdmaB1Th EventB1 Trigger
dPs
Threshold
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFB Adaptive
Blind Ho A1 RSRP
BlindHoA1ThdRsrp Trigger Threshold
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
CSFallBackHo
CSFallBackHo
CsfbProtectionTime CSFB Protection
r
Timer
MOD
CSFALLBACKHO
BTS3900, BTS3900 LST
LTE
CSFALLBACKHO
LocalCellId
BTS3900, BTS3900 LST CELLACBAR
LTE
MOD CELLACBAR
CellAcBar
Local cell ID
CellAcBar
AC barring
AcBarringInfoCfgIn information
d
configure indicator
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
AcBarringForEmerg Emergency call
ency
barring state
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC barring for
AcBarringForMoDat mobile data
aCfgInd
configure indicator
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
Access probability
AcBarringFactorFor factor for originating BTS3900, BTS3900 MOD CELLACBAR
Call
call
LTE
LST CELLACBAR
CellAcBar
AcBarTimeForCall
Mean access
barring time for
originating call
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
AC11BarforCall
AC11 barring state
for originating call
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC12BarforCall
AC12 barring state
for originating call
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AC13BarforCall
AC13 barring state
for originating call
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC14BarforCall
AC14 barring state
for originating call
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AC15 barring state
for originating call
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC barring for
AcBarringForMoSig mobile signal
CfgInd
configure indicator
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC15BarforCall
CellAcBar
CellAcBar
AcBarringFactorFor Access probability
Sig
factor for signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
AcBarTimeForSig
Mean access
barring time for
signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
AC11BarForSig
AC11 barring state
for signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC12BarForSig
AC12 barring state
for signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AC13BarForSig
AC13 barring state
for signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC14BarForSig
AC14 barring state
for signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AC15 barring state
for signaling
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC barring for
AcBarForMVoiceCf MMTEL voice
gInd
configure indicator
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC15BarForSig
CellAcBar
CellAcBar
Access probability
AcBarFactorForMV factor for MMTEL
oice
voice
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
Mean access
AcBarTimeForMVoi barring time for
ce
MMTEL voice
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AC 11-15 barring
SpecialACBarForM state for MMTEL
Voice
voice
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC barring for
AcBarForMVideoCf MMTEL video
gInd
configure indicator
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
Access probability
AcBarFactorForMVi factor for MMTEL
deo
video
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
Mean access
AcBarTimeForMVid barring time for
eo
MMTEL video
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AC 11-15 barring
SpecialACBarForM state for MMTEL
Video
video
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
AC barring for
AcBarForCsfbCfgIn CSFB configure
d
indicator
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
AcBarFactorForCsf Access probability
b
factor for CSFB
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
Mean access
barring time for
AcBarTimeForCsfb CSFB
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
CellAcBar
CellAcBar
SpecialACBarForCs AC 11-15 barring
fb
state for CSFB
BTS3900, BTS3900 MOD CELLACBAR
LTE
LST CELLACBAR
LocalCellId
Local cell ID
LST CELLACCESS
BTS3900, BTS3900 MOD
LTE
CELLACCESS
Cell barring state
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
CellAccess
CellAccess
CellBarred
CellAccess
CellReservedExt
Cell reserved for
extension
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
IntraFreqResel
Intra-frequency
reselection
indication
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
CellAccess
CellAccess
BroadcastMode
Plmn Broadcast
Mode
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
RoundPeriod
Plmn Round
Broadcast Period
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
RoundActionTime
MOD
Plmn Round Action BTS3900, BTS3900 CELLACCESS
Time
LTE
LST CELLACCESS
CellAccess
CellAccess
CellAccess
ReptSyncAvoidInd
Repeat
Synchronization
Avoid Indication
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
CellAccess
Repeat
ReptSyncAvoidTim Synchronization
e
Avoid Time
MOD
BTS3900, BTS3900 CELLACCESS
LTE
LST CELLACCESS
LocalCellId
Local cell ID
ADD CELLOP
DSP
CELLBROADCAST
CNOPERATOR
LST CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
RMV CELLOP
TrackingAreaId
ADD CELLOP
LST CELLOP
Local tracking area BTS3900, BTS3900 MOD CELLOP
ID
LTE
RMV CELLOP
CellOp
CellOp
CellOp
Cell reserved for
CellReservedForOp operator
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
OpUlRbUsedRatio
ADD CELLOP
Operator uplink RB BTS3900, BTS3900 MOD CELLOP
used ratio
LTE
LST CELLOP
CellOp
OpDlRbUsedRatio
Operator downlink
RB used ratio
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMECfgNum
MME configure
number
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMEGI1
First MME group
identity
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMEC1
First MME code
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMEGI2
ADD CELLOP
Second MME group BTS3900, BTS3900 MOD CELLOP
identity
LTE
LST CELLOP
CellOp
MMEC2
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
Second MME code LTE
LST CELLOP
CellOp
MMEGI3
Third MME group
identity
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMEC3
Third MME code
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMEGI4
Fourth MME group
identity
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
MMEC4
Fourth MME code
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
OpUeNumRatio
Operator Ue
Number Ratio
ADD CELLOP
BTS3900, BTS3900 MOD CELLOP
LTE
LST CELLOP
CellOp
CellOp
BroadcastCnOperat Broadcast CN
orId
operator ID
DSP
BTS3900, BTS3900 CELLBROADCAST
LTE
CNOPERATOR
CellResel
BTS3900, BTS3900 LST CELLRESEL
LTE
MOD CELLRESEL
LocalCellId
Local cell ID
Qhyst
Hysteresis value for BTS3900, BTS3900 MOD CELLRESEL
ranking criteria
LTE
LST CELLRESEL
CellResel
CellResel
Speed-dependent
reselection
SpeedDepReselCfg parameter
Ind
configure indicator
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
TEvaluation
The duration for
evaluating criteria to BTS3900, BTS3900 MOD CELLRESEL
enter mobility states LTE
LST CELLRESEL
THystNormal
Additional time
hysteresis for
normal speed
CellResel
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
The number of cell
changes to enter
NCellChangeMediu medium mobility
m
state
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
The number of cell
changes to enter
high mobility state
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
NCellChangeHigh
CellResel
QHystSfMedium
Additional
hysteresis for
medium speed
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
QHystSfHigh
Additional
hysteresis for high
speed
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
Threshold for nonintra freq
SNonIntraSearchCf measurements
gInd
configure indicator
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
CellResel
CellResel
SNonIntraSearch
Threshold for nonintra frequency
measurements
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
ThrshServLow
Serving frequency
lower priority
threshold
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellReselPriority
Cell reselection
priority
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
CellResel
QRxLevMin
Minimum required
RX level
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
PMaxCfgInd
Ue max power
allowed configure
indicator
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
CellResel
PMax
Max transmit power BTS3900, BTS3900 MOD CELLRESEL
allowed
LTE
LST CELLRESEL
CellResel
Threshold for intra
freq measurements BTS3900, BTS3900 MOD CELLRESEL
SIntraSearchCfgInd configure indicator LTE
LST CELLRESEL
CellResel
Threshold for intra
frequency
measurements
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
Measurement
MeasBandWidthCfg bandwidth
Ind
configure indicator
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
SIntraSearch
CellResel
CellResel
MeasBandWidth
Measurement
bandwidth
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
TReselEutran
Cell reselection
timer value for
EUTRAN
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
CellResel
Speed state scale
SpeedStateSfCfgIn factor configure
d
indicator
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
Scaling factor of
TReselEutran in
TReselEutranSfMe medium mobility
dium
state
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
Scaling factor of
TReselEutranSfHig TReselEutran in
h
high mobility state
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
CellResel
NeighCellConfig
BTS3900, BTS3900 MOD CELLRESEL
Neighbor cell config LTE
LST CELLRESEL
CellResel
PresenceAntennaP Presence antenna
ort1
port1
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
RSRQ Threshold
for intra frequency
measurements
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
SIntraSearchQ
CellResel
RSRQ Threshold
for non-intra
frequency
SNonIntraSearchQ measurements
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
Serving frequency
lower priority RSRQ
ThrshServLowQCfg threshold configure BTS3900, BTS3900 MOD CELLRESEL
Ind
indicator
LTE
LST CELLRESEL
CellResel
ThrshServLowQ
Serving frequency
lower priority RSRQ BTS3900, BTS3900 MOD CELLRESEL
threshold
LTE
LST CELLRESEL
QQualMinCfgInd
Minimum required
quality level
configure indicator
CellResel
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
CellResel
QQualMin
Minimum required
quality level
BTS3900, BTS3900 MOD CELLRESEL
LTE
LST CELLRESEL
Local cell ID
ADD
CELLRESELCDMA
2000
LST
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
RMV
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
System time
information
configure indicator
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
LocalCellId
CellReselCdma2000
SysTimeCfgInd
CellReselCdma2000
CdmaEutraSyn
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
CDMA and EUTRA
2000
network
LST
synchronised
BTS3900, BTS3900 CELLRESELCDMA
indicator
LTE
2000
CellReselCdma2000
CDMA search
SearchWndSizeCfg window size
Ind
configure indicator
CellReselCdma2000
SearchWndSize
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
Search window size LTE
2000
CellReselCdma2000
HRPD parameters
configure indicator
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
HRPD cell
HrpdCellReselectP reselection
aramCfgInd
configure indicator
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
HrpdParaCfgInd
CellReselCdma2000
CellReselCdma2000
TreselectionHrpd
Cell reselection
timer for HRPD
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
Speed state scale
SpeedStateSfCfgIn factor configure
d
indicator
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
Scaling factor of
TReselCdmaHrpd
TReselCdmaHrpdS in high mobility
fHigh
state
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
CellReselCdma2000
Scaling factor of
TReselCdmaHrpd
TReselCdmaHrpdS in medium mobility
fMedium
state
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
Cdma1XrttParaCfgI 1XRTT parameters BTS3900, BTS3900 CELLRESELCDMA
nd
configure indicator LTE
2000
CellReselCdma2000
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
1XRTT state of long
2000
code generation
LST
Cdma1XrttLongCod registers configure BTS3900, BTS3900 CELLRESELCDMA
eStateCfgInd
indicator
LTE
2000
CellReselCdma2000
1XRTT cell
Cdma1XrttCellRese reselection
lCfgInd
configure indicator
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
Cdma1XrttTreselect Cell reselection
ion
timer for 1XRTT
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
1XRTT speed state
LST
Cdma1XrttSpeedSt scale factors
BTS3900, BTS3900 CELLRESELCDMA
ateCfgInd
configure indicator LTE
2000
CellReselCdma2000
Cdma1XrttSfMediu 1XRTT medium
m
speed scale factor
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
1XRTT high speed
scale factor
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
SupportDualRxCsfb Dual Rx CSFB
CfgInd
configure indicator
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
CellReselCdma2000
Cdma1XrttSfHigh
CellReselCdma2000
CellReselCdma2000
Dual Rx CSFB
supported
SupportDualRxCsfb indication
ADD
CELLRESELCDMA
2000
MOD
CELLRESELCDMA
2000
LST
BTS3900, BTS3900 CELLRESELCDMA
LTE
2000
LocalCellId
Local cell ID
ADD
CELLRESELGERA
N
LST
CELLRESELGERA
N
MOD
CELLRESELGERA
N
RMV
BTS3900, BTS3900 CELLRESELGERA
LTE
N
Cell reselection
timer value for
GERAN
ADD
CELLRESELGERA
N
MOD
CELLRESELGERA
N
LST
BTS3900, BTS3900 CELLRESELGERA
LTE
N
CellReselGeran
CellReselGeran
TReselGeran
Speed state scale
SpeedStateSfCfgIn factor configure
d
indicator
ADD
CELLRESELGERA
N
MOD
CELLRESELGERA
N
LST
BTS3900, BTS3900 CELLRESELGERA
LTE
N
Scaling factor of
TReselGeran in
TReselGeranSfMed medium mobility
ium
state
ADD
CELLRESELGERA
N
MOD
CELLRESELGERA
N
LST
BTS3900, BTS3900 CELLRESELGERA
LTE
N
Scaling factor of
TReselGeranSfHig TReselGeran in
h
high mobility state
ADD
CELLRESELGERA
N
MOD
CELLRESELGERA
N
LST
BTS3900, BTS3900 CELLRESELGERA
LTE
N
LocalCellId
ADD
CELLRESELUTRA
N
LST
CELLRESELUTRA
N
MOD
CELLRESELUTRA
N
RMV
BTS3900, BTS3900 CELLRESELUTRA
LTE
N
CellReselGeran
CellReselGeran
CellReselGeran
CellReselUtran
Local cell ID
CellReselUtran
TReselUtran
Cell reselection
timer value for
UTRAN
ADD
CELLRESELUTRA
N
MOD
CELLRESELUTRA
N
LST
BTS3900, BTS3900 CELLRESELUTRA
LTE
N
Speed state scale
SpeedStateSfCfgIn factor configure
d
indicator
ADD
CELLRESELUTRA
N
MOD
CELLRESELUTRA
N
LST
BTS3900, BTS3900 CELLRESELUTRA
LTE
N
Scaling factor of
TReselUtran in
TReselUtranSfMedi medium mobility
um
state
ADD
CELLRESELUTRA
N
MOD
CELLRESELUTRA
N
LST
BTS3900, BTS3900 CELLRESELUTRA
LTE
N
CellReselUtran
CellReselUtran
CellReselUtran
ADD
CELLRESELUTRA
N
MOD
CELLRESELUTRA
N
Scaling factor of
LST
TReselUtran in high BTS3900, BTS3900 CELLRESELUTRA
TReselUtranSfHigh mobility state
LTE
N
CellSel
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLSEL
LTE
MOD CELLSEL
QRxLevMin
Minimum required
RX level
BTS3900, BTS3900 MOD CELLSEL
LTE
LST CELLSEL
CellSel
CellSel
QRxLevMinOffset
Minimum required
RX level offset
BTS3900, BTS3900 MOD CELLSEL
LTE
LST CELLSEL
QQualMin
Minimum required
RX quality level
BTS3900, BTS3900 MOD CELLSEL
LTE
LST CELLSEL
Minimum required
RX quality level
QQualMinOffsetCfg offset configure
Ind
indicator
BTS3900, BTS3900 MOD CELLSEL
LTE
LST CELLSEL
CellSel
CellSel
CellSel
QQualMinOffset
Minimum required
RX quality level
offset
BTS3900, BTS3900 MOD CELLSEL
LTE
LST CELLSEL
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLSIMAP
LTE
MOD CELLSIMAP
SiMapSwitch
SIB mapping SI
algorithm switch
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
CellSiMap
CellSiMap
CellSiMap
Sib2Period
SIB2 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib3Period
SIB3 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib4Period
SIB4 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
CellSiMap
CellSiMap
CellSiMap
Sib5Period
SIB5 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib6Period
SIB6 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib7Period
SIB7 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
CellSiMap
CellSiMap
CellSiMap
Sib8Period
SIB8 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib10Period
SIB10 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib11Period
SIB11 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
CellSiMap
CellSiMap
CellSiMap
EtwsPnDuration
ETWS PN message BTS3900, BTS3900 MOD CELLSIMAP
duration time
LTE
LST CELLSIMAP
CellSiMap
EtwsSnOverlapPoli ETWS SN message BTS3900, BTS3900 MOD CELLSIMAP
cy
overlap policy
LTE
LST CELLSIMAP
CellSiMap
EtwsPnOverlapPoli ETWS PN message BTS3900, BTS3900 MOD CELLSIMAP
cy
overlap policy
LTE
LST CELLSIMAP
CellSiMap
Sib12Period
SIB12 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
CellSiMap
SiTransEcr
Effective code rate
for SI transmission
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Sib13Period
SIB13 period
BTS3900, BTS3900 MOD CELLSIMAP
LTE
LST CELLSIMAP
Local cell ID
LST
CELLULPCCOMM
BTS3900, BTS3900 MOD
LTE
CELLULPCCOMM
CellSiMap
CellUlpcComm
LocalCellId
CellUlpcComm
PassLossCoeff
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
Path loss coefficient LTE
CELLULPCCOMM
CellUlpcComm
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
P0NominalPUCCH P0 nominal PUCCH LTE
CELLULPCCOMM
CellUlpcComm
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
P0NominalPUSCH P0 nominal PUSCH LTE
CELLULPCCOMM
CellUlpcComm
DeltaFPUCCHForm DeltaF for PUCCH
at1
format 1
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
LTE
CELLULPCCOMM
DeltaFPUCCHForm DeltaF for PUCCH
at1b
format 1b
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
LTE
CELLULPCCOMM
CellUlpcComm
CellUlpcComm
DeltaFPUCCHForm DeltaF for PUCCH
at2
format 2
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
LTE
CELLULPCCOMM
DeltaFPUCCHForm DeltaF for PUCCH
at2a
format 2a
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
LTE
CELLULPCCOMM
DeltaFPUCCHForm DeltaF for PUCCH
at2b
format 2b
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
LTE
CELLULPCCOMM
CellUlpcComm
CellUlpcComm
CellUlpcComm
DeltaPreambleMsg Delta preamble
3
value for msg3
eNBCellOpRsvdPara
LocalCellId
Local cell ID
MOD
CELLULPCCOMM
BTS3900, BTS3900 LST
LTE
CELLULPCCOMM
LST
ENBCELLOPRSVD
PARA
MOD
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
TrackingAreaId
LST
ENBCELLOPRSVD
PARA
MOD
Local tracking area BTS3900, BTS3900 ENBCELLOPRSVD
ID
LTE
PARA
eNBCellOpRsvdPara
RsvdSwPara0
Reserved Switch
Parameter 0
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 2
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara2
eNBCellOpRsvdPara
RsvdPara3
Reserved
Parameter 3
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 4
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara4
eNBCellOpRsvdPara
RsvdPara5
Reserved
Parameter 5
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 6
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara6
eNBCellOpRsvdPara
RsvdPara7
Reserved
Parameter 7
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 8
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara8
eNBCellOpRsvdPara
RsvdPara9
Reserved
Parameter 9
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 10
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara10
eNBCellOpRsvdPara
RsvdPara11
Reserved
Parameter 11
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 12
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara12
eNBCellOpRsvdPara
RsvdPara13
Reserved
Parameter 13
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 14
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara14
eNBCellOpRsvdPara
RsvdPara15
Reserved
Parameter 15
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 16
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara16
eNBCellOpRsvdPara
RsvdPara17
Reserved
Parameter 17
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 18
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara18
eNBCellOpRsvdPara
RsvdPara19
Reserved
Parameter 19
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Reserved
Parameter 20
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
eNBCellOpRsvdPara
RsvdPara20
eNBCellOpRsvdPara
RsvdPara21
Reserved
Parameter 21
MOD
ENBCELLOPRSVD
PARA
LST
BTS3900, BTS3900 ENBCELLOPRSVD
LTE
PARA
Local cell ID
ADD
EUCELLPRIBBEQ
M
LST
EUCELLPRIBBEQ
M
MOD
EUCELLPRIBBEQ
M
RMV
BTS3900, BTS3900 EUCELLPRIBBEQ
LTE
M
EuCellPriBBEqm
LocalCellId
EuCellPriBBEqm
Primary Baseband
PriBaseBandEqmId Equipment ID
ADD
EUCELLPRIBBEQ
M
MOD
EUCELLPRIBBEQ
M
LST
BTS3900, BTS3900 EUCELLPRIBBEQ
LTE
M
LocalCellId
ADD
EUCELLSECTORE
QM
LST
EUCELLSECTORE
QM
MOD
EUCELLSECTORE
QM
RMV
EUCELLSECTORE
BTS3900, BTS3900 QM
LTE
DSP EURTWP
eUCellSectorEqm
Local cell ID
eUCellSectorEqm
SectorEqmId
Sector equipment
ID
ADD
EUCELLSECTORE
QM
DSP EURTWP
LST
EUCELLSECTORE
QM
MOD
EUCELLSECTORE
QM
RMV
BTS3900, BTS3900 EUCELLSECTORE
LTE
QM
eUCellSectorEqm
ReferenceSignalPw Reference signal
r
power
ADD
EUCELLSECTORE
QM
MOD
EUCELLSECTORE
QM
LST
BTS3900, BTS3900 EUCELLSECTORE
LTE
QM
eUCellSectorEqm
BaseBandEqmId
Baseband
equipment ID
ADD
EUCELLSECTORE
QM
MOD
EUCELLSECTORE
QM
LST
BTS3900, BTS3900 EUCELLSECTORE
LTE
QM
CN
RRU Cabinet No.
BTS3900, BTS3900
LTE
DSP EURTWP
SRN
RRU Subrack No.
BTS3900, BTS3900
LTE
DSP EURTWP
SN
RRU Slot No.
BTS3900, BTS3900
LTE
DSP EURTWP
eUCellSectorEqm
eUCellSectorEqm
eUCellSectorEqm
eUCellSectorEqm
EuRTWP
Received total
wideband power
BTS3900, BTS3900
LTE
DSP EURTWP
RXNO
RX Channels No.
BTS3900, BTS3900
LTE
DSP EURTWP
eUCellSectorEqm
eUCellSectorEqm
ReferenceSignalPw Reference Signal
rMargin
Power Margin
ADD
EUCELLSECTORE
QM
MOD
EUCELLSECTORE
QM
LST
BTS3900, BTS3900 EUCELLSECTORE
LTE
QM
eUCellSectorEqm
SectorCpriCompres Sector CPRI
sion
Compression
ADD
EUCELLSECTORE
QM
MOD
EUCELLSECTORE
QM
LST
BTS3900, BTS3900 EUCELLSECTORE
LTE
QM
LocalCellId
ADD
EUSECTOREQMG
ROUP
ADD
EUSECTOREQMID
2GROUP
LST
EUSECTOREQMG
ROUP
LST
EUSECTOREQMID
2GROUP
MOD
EUSECTOREQMG
ROUP
RMV
EUSECTOREQMG
ROUP
RMV
BTS3900, BTS3900 EUSECTOREQMID
LTE
2GROUP
EuSectorEqmGroup
Local cell ID
Sector Equipment
SectorEqmGroupId Group ID
ADD
EUSECTOREQMG
ROUP
ADD
EUSECTOREQMID
2GROUP
LST
EUSECTOREQMG
ROUP
LST
EUSECTOREQMID
2GROUP
MOD
EUSECTOREQMG
ROUP
RMV
EUSECTOREQMG
ROUP
RMV
BTS3900, BTS3900 EUSECTOREQMID
LTE
2GROUP
Sector Equipment
Reference
ADD
EUSECTOREQMID
2GROUP
LST
EUSECTOREQMID
2GROUP
RMV
BTS3900, BTS3900 EUSECTOREQMID
LTE
2GROUP
SectorEqmRefType Sector equipment
.SectorEqmId
ID
ADD
EUSECTOREQMID
2GROUP
RMV
EUSECTOREQMID
2GROUP
LST
BTS3900, BTS3900 EUSECTOREQMID
LTE
2GROUP
EuSectorEqmGroup
EuSectorEqmGroup
SectorEqmRef
EuSectorEqmGroup
EuSectorEqmGroup
BaseBandEqmId
Baseband
equipment ID
ADD
EUSECTOREQMG
ROUP
MOD
EUSECTOREQMG
ROUP
LST
BTS3900, BTS3900 EUSECTOREQMG
LTE
ROUP
EuSectorEqmGroup
ReferenceSignalPw Reference signal
r
power
ADD
EUSECTOREQMG
ROUP
MOD
EUSECTOREQMG
ROUP
LST
BTS3900, BTS3900 EUSECTOREQMG
LTE
ROUP
EuSectorEqmGroup
ADD
EUSECTOREQMG
ROUP
MOD
EUSECTOREQMG
ROUP
LST
SectorGroupCpriCo Sector Group CPRI BTS3900, BTS3900 EUSECTOREQMG
mpression
Compression
LTE
ROUP
IbdlInfo
BTS3900, BTS3900
LTE
DSP IBDLINFO
LocalCellId
Local cell ID
eNodeBId
BTS3900, BTS3900
Connect eNodeB ID LTE
DSP IBDLINFO
CN
RRU/RFU Cabinet
No.
SRN
RRU/RFU Subrack BTS3900, BTS3900
No.
LTE
DSP IBDLINFO
SN
RRU/RFU Slot No.
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
BTS3900, BTS3900
LTE
DSP IBDLINFO
BTS3900, BTS3900
LTE
DSP IBDLINFO
IbdlInfo
IBDLNum
Number of LBBP
Data Links
BTS3900, BTS3900
LTE
DSP IBDLINFO
IBDLId
LBBP Data Link ID
BTS3900, BTS3900
LTE
DSP IBDLINFO
IBDLStatus
LBBP Data Link
Status
BTS3900, BTS3900
LTE
DSP IBDLINFO
OdiId
ODI ID
BTS3900, BTS3900
LTE
DSP IBDLINFO
IBDLInPortId
LBBP Data Link
Input Port No.
BTS3900, BTS3900
LTE
DSP IBDLINFO
IBDLOutPortId
LBBP Data Link
Output Port No.
BTS3900, BTS3900
LTE
DSP IBDLINFO
IBDLLoopbackDela LBBP Data Link
y
Loopback Delay
BTS3900, BTS3900
LTE
DSP IBDLINFO
LBBP Data Link
IBDLLoopbackTime Loopback Timeout
outNum
Counter
BTS3900, BTS3900
LTE
DSP IBDLINFO
BoardCabinetNo
Board Cabinet No.
BTS3900, BTS3900
LTE
DSP IBDLINFO
BoardSubrackNo
BTS3900, BTS3900
Board Subrack No. LTE
DSP IBDLINFO
BoardSlotNo
Board Slot No.
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
IbdlInfo
BTS3900, BTS3900
LTE
DSP IBDLINFO
IbdlInfo
BbpDataLinkType
BTS3900, BTS3900
BBP Data Link Type LTE
DSP IBDLINFO
LocalCellId
Local cell ID
TimeAlignmentTimer
BTS3900, BTS3900 LST TATIMER
LTE
MOD TATIMER
TimeAlignmentTimer
TimeAlignmentTime Uplink time
r
alignment timer
BTS3900, BTS3900 MOD TATIMER
LTE
LST TATIMER
TimeAlignmentTimer
Uplink timing
TimingAdvCmdOpt advance command BTS3900, BTS3900 MOD TATIMER
Switch
optimization switch LTE
LST TATIMER
TimeAlignmentTimer
TimingMeasMode
Timing
BTS3900, BTS3900 MOD TATIMER
Measurement Mode LTE
LST TATIMER
TimeAlignmentTimer
TA Command
TACmdSendPeriod Sending Period
BTS3900, BTS3900 MOD TATIMER
LTE
LST TATIMER
TimeAlignmentTimer
TimingResOptSwitc Timing Resource
BTS3900, BTS3900 MOD TATIMER
h
Optimization Switch LTE
LST TATIMER
UeTimerConst
LocalCellId
Local cell ID
LST
UETIMERCONST
BTS3900, BTS3900 MOD
LTE
UETIMERCONST
UeTimerConst
T300
Timer 300
MOD
UETIMERCONST
BTS3900, BTS3900 LST
LTE
UETIMERCONST
Timer 301
MOD
UETIMERCONST
BTS3900, BTS3900 LST
LTE
UETIMERCONST
UeTimerConst
T301
UeTimerConst
T310
Timer 310
MOD
UETIMERCONST
BTS3900, BTS3900 LST
LTE
UETIMERCONST
Timer 311
MOD
UETIMERCONST
BTS3900, BTS3900 LST
LTE
UETIMERCONST
UeTimerConst
T311
UeTimerConst
N311
Constant N311
MOD
UETIMERCONST
BTS3900, BTS3900 LST
LTE
UETIMERCONST
Constant N310
MOD
UETIMERCONST
BTS3900, BTS3900 LST
LTE
UETIMERCONST
Local Cell ID
ACT CELL
ADD CELL
ADD CELLBAND
BLK CELL
DEA CELL
DSP CELL
DSP
CELLPHYTOPO
DSP
CELLULCOMPCLU
STER
DSP
PRIBBPADJUST
LST CELL
LST CELLBAND
MOD CELL
RMV CELL
RMV CELLBAND
STR
CELLRFLOOPBAC
K
STR
CELLSELFTEST
STR
PRIBBPADJUST
UBL CELL
BTS3900, BTS3900 DSP
LTE
PRIBBPRESINFO
UeTimerConst
N310
Cell
LocalCellId
Cell
CellName
Cell Name
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Csg indicator
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
CsgInd
Cell
UlCyclicPrefix
Uplink cyclic prefix
length
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
DlCyclicPrefix
Downlink cyclic
prefix length
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
FreqBand
Frequency band
ADD CELL
ADD CELLBAND
LST CELLBAND
MOD CELL
BTS3900, BTS3900 RMV CELLBAND
LTE
LST CELL
UlEarfcnCfgInd
Uplink EARFCN
indication
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
Cell
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
UlEarfcn
Uplink EARFCN
DlEarfcn
ADD CELL
BTS3900, BTS3900 MOD CELL
Downlink EARFCN LTE
LST CELL
Cell
Cell
UlBandWidth
Uplink bandwidth
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
DlBandWidth
ADD CELL
BTS3900, BTS3900 MOD CELL
Downlink bandwidth LTE
LST CELL
Cell
CellId
Cell ID
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
PhyCellId
Physical cell ID
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
ADD CELL
AdditionalSpectrum Additional spectrum BTS3900, BTS3900 MOD CELL
Emission
emission
LTE
LST CELL
Cell
CellActiveState
Cell active state
BTS3900, BTS3900
LTE
LST CELL
Cell
CellAdminState
Cell admin state
BTS3900, BTS3900 BLK CELL
LTE
LST CELL
CellMidBlkTimer
Cell middle block
timer
BTS3900, BTS3900 BLK CELL
LTE
LST CELL
Cell
Cell
FddTddInd
Cell FDD TDD
indication
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
SubframeAssignme Subframe
nt
assignment
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
SpecialSubframePa Special subframe
tterns
patterns
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
CellSpecificOffset
Cell specific offset
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
QoffsetFreq
Frequency offset
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
RootSequenceIdx
Root sequence
index
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
HighSpeedFlag
High speed flag
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
PreambleFmt
Preamble format
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
CellRadius
Cell radius
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
Customized
CustomizedBandWi bandwidth
dthCfgInd
configure indicator
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
CustomizedULBand Customized uplink
Width
bandwidth
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
ADD CELL
CustomizedDLBand Customized
BTS3900, BTS3900 MOD CELL
Width
downlink bandwidth LTE
LST CELL
Cell
ADD CELL
EmergencyAreaIdC Emergency Area Id BTS3900, BTS3900 MOD CELL
fgInd
indicator
LTE
LST CELL
Cell
EmergencyAreaId
ADD CELL
BTS3900, BTS3900 MOD CELL
Emergency Area ID LTE
LST CELL
Cell
Ue max power
allowed configure
UePowerMaxCfgInd indicator
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
UePowerMax
ADD CELL
Max transmit power BTS3900, BTS3900 MOD CELL
allowed
LTE
LST CELL
Cell
MultiRruCellFlag
Flag of Multi-RRU
Cell
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
MultiRruCellMode
ADD CELL
Mode of Multi-RRU BTS3900, BTS3900 MOD CELL
Cell
LTE
LST CELL
Cell
CPRICompression
ADD CELL
BTS3900, BTS3900 MOD CELL
CPRI Compression LTE
LST CELL
SectorEqmNum
ADD CELL
Sector equipment
BTS3900, BTS3900 MOD CELL
number of SFN cell LTE
LST CELL
Cell
Cell
AirCellFlag
Air Cell Flag
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
CrsPortNum
CRS Port Number
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
TxRxMode
ADD CELL
Cell transmission
BTS3900, BTS3900 MOD CELL
and reception mode LTE
LST CELL
UserLabel
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
User label
Cell
WorkMode
Work mode
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
ADD CELL
EuCellStandbyMod
BTS3900, BTS3900 MOD CELL
e
Cell Standby Mode LTE
LST CELL
Cell
CrsPortMap
CRS Antenna Port
Mapping
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
ADD CELL
CpriEthCompressio CPRI Ethernet
BTS3900, BTS3900 MOD CELL
nRatio
Compression Ratio LTE
LST CELL
Cell
CellState
Cell instance state
BTS3900, BTS3900
LTE
DSP CELL
Cell
Cell
Reason for latest
CellLatestAvailState state change
DSP CELL
BTS3900, BTS3900 STR
LTE
PRIBBPADJUST
CellLatestSetupTim Cell latest setup
e
time
BTS3900, BTS3900
LTE
DSP CELL
Cell
Cell
CellLatestSetupTyp Cell latest setup
e
operate type
BTS3900, BTS3900
LTE
DSP CELL
CellLatestRemoveT Cell latest remove
ime
time
BTS3900, BTS3900
LTE
DSP CELL
Cell
CellLatestRemoveT Cell latest remove
ype
operate type
BTS3900, BTS3900
LTE
DSP CELL
Cell
CellPowerSaveStat Cell power save
e
state
Cell
MainBbpInfo
Primary LBBP
information
BTS3900, BTS3900
LTE
DSP CELL
DSP CELL
BTS3900, BTS3900 DSP
LTE
PRIBBPADJUST
Cell
BTS3900, BTS3900
LTE
DSP CELL
CellTopoType
Cell topology type
CabinetNo
STR
RF module cabinet BTS3900, BTS3900 CELLRFLOOPBAC
number
LTE
K
SubrackNo
STR
RF module subrack BTS3900, BTS3900 CELLRFLOOPBAC
number
LTE
K
SlotNo
RF module slot
number
Cell
Cell
Cell
STR
BTS3900, BTS3900 CELLRFLOOPBAC
LTE
K
Cell
SymbolShutdownSt Symbol shutdown
ate
state
BTS3900, BTS3900
LTE
DSP CELL
Cell
Maximum transmit
power
BTS3900, BTS3900
LTE
DSP CELL
eNodeBId
eNodeB ID
DSP CELL
DSP
CELLPHYTOPO
DSP
BTS3900, BTS3900 CELLULCOMPCLU
LTE
STER
BbpCabinetNo
LBBP Cabinet No.
BTS3900, BTS3900 DSP
LTE
PRIBBPRESINFO
BbpSubrackNo
LBBP Subrack No.
BTS3900, BTS3900 DSP
LTE
PRIBBPRESINFO
BbpSlotNo
LBBP Slot No.
BTS3900, BTS3900 DSP
LTE
PRIBBPRESINFO
MaxTxPower
Cell
Cell
Cell
Cell
Cell
Status
Work Status
BTS3900, BTS3900
LTE
DSP CELL
CoLocalCellId
Coordinating local
cell ID
DSP
BTS3900, BTS3900 CELLULCOMPCLU
LTE
STER
Cell
Cell
Cell Slave Band
ADD CELLBAND
BTS3900, BTS3900 LST CELLBAND
LTE
RMV CELLBAND
MultiBand.FreqBan
d
Frequency band
ADD CELLBAND
BTS3900, BTS3900 LST CELLBAND
LTE
RMV CELLBAND
CellSlaveBand
Cell
Cell
CnOpSharingGroup CN Operator
Id
Sharing Group ID
Cell
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
RfModuleInfo
RF Module
Information
DSP CELL
BTS3900, BTS3900 DSP
LTE
CELLPHYTOPO
ServedBbpInfo
Served BBP
Information
DSP CELL
BTS3900, BTS3900 DSP
LTE
CELLPHYTOPO
OneRruCellNum
BTS3900, BTS3900 DSP
1 RRU Cell Number LTE
PRIBBPRESINFO
TwoRruCellNum
BTS3900, BTS3900 DSP
2 RRU Cell Number LTE
PRIBBPRESINFO
Cell
Cell
Cell
Cell
ThreeRruCellNum
BTS3900, BTS3900 DSP
3 RRU Cell Number LTE
PRIBBPRESINFO
FourRruCellNum
BTS3900, BTS3900 DSP
4 RRU Cell Number LTE
PRIBBPRESINFO
FiveRruCellNum
BTS3900, BTS3900 DSP
5 RRU Cell Number LTE
PRIBBPRESINFO
SixRruCellNum
BTS3900, BTS3900 DSP
6 RRU Cell Number LTE
PRIBBPRESINFO
SevenRruCellNum
BTS3900, BTS3900 DSP
7 RRU Cell Number LTE
PRIBBPRESINFO
Cell
Cell
Cell
Cell
Cell
eUCellSectorEqm(E
eUCellSectorEqmN uSectorEqmGroup) BTS3900, BTS3900 DSP
um
Number
LTE
PRIBBPRESINFO
Cell
OpFailCellNum
Number of Cells
Where Adjustment
Fails
BTS3900, BTS3900 STR
LTE
PRIBBPADJUST
OpSuccCellNum
Number of Cells
Where Adjustment
Succeeds
BTS3900, BTS3900 STR
LTE
PRIBBPADJUST
CsiRsPeriod
CSI Reference
Signals Period
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
Cell
Cell
ConnectedBbpPortI Connected BBP
nfo
Port Information
BTS3900, BTS3900 DSP
LTE
CELLPHYTOPO
TxNo
BTS3900, BTS3900
LTE
DSP CELL
Cell
TX Channel No.
Cell
RxNo
RX Channel No.
BTS3900, BTS3900
LTE
DSP CELL
Cell
BbpPrimarySecond Served Bbp Primary BTS3900, BTS3900 DSP
aryMode
Secondary Mode
LTE
CELLPHYTOPO
Cell
IntraFreqAnrInd
IntraFreq ANR
Indication
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Cell
FreqPriorityForAnr
ANR Frequency
Priority
ADD CELL
BTS3900, BTS3900 MOD CELL
LTE
LST CELL
Sector equipment
ID
ADD
SFNAUXRESBIND
LST
SFNAUXRESBIND
MOD
SFNAUXRESBIND
BTS3900, BTS3900 RMV
LTE
SFNAUXRESBIND
Main eNodeB ID
ADD
SFNAUXRESBIND
MOD
SFNAUXRESBIND
RMV
SFNAUXRESBIND
BTS3900, BTS3900 LST
LTE
SFNAUXRESBIND
SfnAuxResBind
SectorEqmId
SfnAuxResBind
eNodeBId
SfnAuxResBind
LocalCellId
ADD
SFNAUXRESBIND
MOD
SFNAUXRESBIND
RMV
SFNAUXRESBIND
Main eNodeB Local BTS3900, BTS3900 LST
cell ID
LTE
SFNAUXRESBIND
SfnAuxResBind
BaseBandEqmId
Baseband
equipment ID
ADD
SFNAUXRESBIND
MOD
SFNAUXRESBIND
BTS3900, BTS3900 LST
LTE
SFNAUXRESBIND
SfnAuxResBind
ReferenceSignalPw Reference signal
r
power
ADD
SFNAUXRESBIND
MOD
SFNAUXRESBIND
BTS3900, BTS3900 LST
LTE
SFNAUXRESBIND
ReferenceSignalPw Reference Signal
rMargin
Power Margin
ADD
SFNAUXRESBIND
MOD
SFNAUXRESBIND
BTS3900, BTS3900 LST
LTE
SFNAUXRESBIND
SfnAuxResBind
SfnAuxResBind
LocalCellId
Local cell ID
eNodeBId
Slave site eNodeB
ID
ADD
SFNAUXRESBIND
MOD
SFNAUXRESBIND
BTS3900, BTS3900 LST
LTE
SFNAUXRESBIND
ADD
SFNCELLBIND
LST
SFNCELLBIND
BTS3900, BTS3900 RMV
LTE
SFNCELLBIND
ADD
SFNCELLBIND
RMV
SFNCELLBIND
BTS3900, BTS3900 LST
LTE
SFNCELLBIND
Local cell ID
DSP
CELLCALIBRATIO
N
BTS3900, BTS3900 LST CELLBF
LTE
MOD CELLBF
SectorCpriCompres Sector CPRI
sion
Compression
SfnCellBind
SfnCellBind
CellBf
LocalCellId
CellBf
MaxBfRankPara
Beamforming
maximum number
of layers
BTS3900, BTS3900 MOD CELLBF
LTE
LST CELLBF
Latest operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
CellBf
LatestOperation
CellBf
CellBf
CellBf
CellBf
CellBf
SecondLatestOpera Second latest
tion
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
ThirdLatestOperatio Third latest
n
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
FourthLatestOperati Fourth latest
on
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
FifthLatestOperatio Fifth latest
n
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SixthLatestOperatio Sixth latest
n
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SeventhLatestOper Seventh latest
ation
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
EighthLatestOperati Eighth latest
on
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
CellBf
CellBf
CellBf
CellBf
NinthLatestOperatio Ninth latest
n
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
TenthLatestOperati Tenth latest
on
operation
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
LatestOpTime
Latest operation
time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SecondOpTime
Second latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
ThirdOpTime
Third latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
FourthOpTime
Fourth latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
FifthOpTime
Fifth latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SixthOpTime
Sixth latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SeventhOpTime
Seventh latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
EighthOpTime
Eighth latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
NinthOpTime
Ninth latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
TenthOpTime
Tenth latest
operation time
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
LatestOpType
Latest operation
type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
SecondOpType
Second latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
ThirdOpType
Third latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
FourthOpType
Fourth latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
FifthOpType
Fifth latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SixthOpType
Sixth latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
SeventhOpType
Seventh latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
EighthOpType
Eighth latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
NinthOpType
Ninth latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
TenthOpType
Tenth latest
operation type
DSP
BTS3900, BTS3900 CELLCALIBRATIO
LTE
N
Local cell ID
DSP
CELLCSPCSTATU
S
LST
CELLCSPCPARA
BTS3900, BTS3900 MOD
LTE
CELLCSPCPARA
Cell CSPC Switch
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellBf
CellCspcPara
LocalCellId
CellCspcPara
CellCspcSwitch
CellCspcPara
CSPC UE SRS
CspcRapidRptSwitc Config Rapid
h
Report Switch
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
CSPC UE SRS
CspcUeSrsCfgRptP Config Report
eriod
Period
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
CellCspcPara
CellCspcPara
UlRsrpRptPeriod
Uplink RSRP
Measurement
Report Period
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
CellCspcPara
CspcCqiFilterCoeff
CSPC CQI Filter
Coefficient
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
CellCspcPara
UlRsrpPhyFilterCoe Uplink RSRP PHY
ff
Filter Coefficient
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
UlRsrpRrmFilterCo Uplink RSRP RRM
eff
Filter Coefficient
MOD
CELLCSPCPARA
BTS3900, BTS3900 LST
LTE
CELLCSPCPARA
CellCspcStatus
DSP
BTS3900, BTS3900 CELLCSPCSTATU
LTE
S
CellCspcPara
CellCspcPara
Cell CSPC Status
CellCspcPara
Remarks
Remarks
DSP
BTS3900, BTS3900 CELLCSPCSTATU
LTE
S
Local cell ID
LST
CELLDLICICMCPA
RA
MOD
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
LocalCellId
CellDLIcicMcPara
ReportInterval
Downlink ICIC
measurement
report interval
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
Downlink ICIC
measurement max
MaxReportCellNum report cell number
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
ReportAmount
DownLink ICIC
measurement
report amount
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
ReportQuantity
DownLink ICIC
measurement
report quantity
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
DownLink ICIC
measurement
trigger quantity
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
TriggerQuantity
CellDLIcicMcPara
Hysteresis
DownLink ICIC
measurement
hysteresis
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
DownLink ICIC
measurement time
to trigger
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
TimeToTrigger
CellDLIcicMcPara
A3Offset
Downlink ICIC A3
offset
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
CellDLIcicMcPara
A6Offset
Downlink ICIC A6
offset
MOD
CELLDLICICMCPA
RA
LST
BTS3900, BTS3900 CELLDLICICMCPA
LTE
RA
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLDSS
LTE
MOD CELLDSS
CellDss
CellDss
HighFreqShareRbN Shared RB Number BTS3900, BTS3900 MOD CELLDSS
um
in High Frequency LTE
LST CELLDSS
CellDss
LowFreqShareRbN Shared RB Number BTS3900, BTS3900 MOD CELLDSS
um
in Low Frequency LTE
LST CELLDSS
CellDss
ReMuteSwitch
Mute RE Switch
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
CellDss
UL Narrowband
UlInterfRestrictionM Interference
ode
Restriction Mode
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
CellDss
A3Offset
A3 Offset
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
CellDss
A6Offset
A6 Offset
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
CellDss
NearAreaSinrThd
Near Area Sinr
Threshold
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
CellDss
Middle Area Sinr
MiddleAreaSinrThd Threshold
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
CellDss
FarAreaSinrThd
Far Area Sinr
Threshold
BTS3900, BTS3900 MOD CELLDSS
LTE
LST CELLDSS
Local Cell ID
LST
CELLDYNACBARA
LGOPARA
MOD
BTS3900, BTS3900 CELLDYNACBARA
LTE
LGOPARA
CellDynAcBarAlgoPa
LocalCellId
CellDynAcBarAlgoPa
Dynamic AC
DynAcBarStatPerio Barring Control
d
Statistic Period
MOD
CELLDYNACBARA
LGOPARA
LST
BTS3900, BTS3900 CELLDYNACBARA
LTE
LGOPARA
CellDynAcBarAlgoPa
Dynamic AC
DynAcBarTriggerTh Barring Control
d
Trigger Threshold
MOD
CELLDYNACBARA
LGOPARA
LST
BTS3900, BTS3900 CELLDYNACBARA
LTE
LGOPARA
CellDynAcBarAlgoPa
Dynamic AC
DynAcBarCancelTh Barring Control
d
Cancel Threshold
MOD
CELLDYNACBARA
LGOPARA
LST
BTS3900, BTS3900 CELLDYNACBARA
LTE
LGOPARA
CellEicic
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLEICIC
LTE
MOD CELLEICIC
AbsPattern
Abs pattern
BTS3900, BTS3900 MOD CELLEICIC
LTE
LST CELLEICIC
CellEicic
CellEicic
EicicMeasureEnabl Eicic Measure
e
Enable
BTS3900, BTS3900 MOD CELLEICIC
LTE
LST CELLEICIC
CellEicic
A3Offset
eICIC A3 Offset
BTS3900, BTS3900 MOD CELLEICIC
LTE
LST CELLEICIC
Local cell ID
LST
CELLIICSPARA
BTS3900, BTS3900 MOD
LTE
CELLIICSPARA
CellIIcsPara
LocalCellId
CellIIcsPara
IicsUserAttrA3Offse IICS User Attribute
t
A3 offset
MOD
CELLIICSPARA
BTS3900, BTS3900 LST
LTE
CELLIICSPARA
CellIIcsPara
IICS User Attribute
threshold
MOD
CELLIICSPARA
BTS3900, BTS3900 LST
LTE
CELLIICSPARA
LocalCellId
Local cell ID
LST
CELLLOWPOWER
BTS3900, BTS3900 MOD
LTE
CELLLOWPOWER
LowPwrSwitch
MOD
Low power
CELLLOWPOWER
consumption mode BTS3900, BTS3900 LST
switch
LTE
CELLLOWPOWER
IicsUserAttrThd
CellLowPower
CellLowPower
CellLowPower
LowPwrOrder
MOD
Low power
CELLLOWPOWER
consumption mode BTS3900, BTS3900 LST
order
LTE
CELLLOWPOWER
CellLowPower
StartTime
Start time
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
Stop time
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
CellLowPower
StopTime
CellLowPower
CellUsedPwrReduc Cell used power
eTimeLen
reduce time length
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
Reference signal
RsPwrReduceTime power reduce time
Len
length
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
RfShutDownTimeLe RF shutdown time
n
length
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
CellLowPower
CellLowPower
CellLowPower
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
CellUsedPwrRatio
Cell used power
ratio
RsPwrAdjOffset
MOD
CELLLOWPOWER
Reference signal
BTS3900, BTS3900 LST
power adjust offset LTE
CELLLOWPOWER
CellLowPower
CellLowPower
EnterTimeLen
Time length for
entering the low
power consumption BTS3900, BTS3900
mode
LTE
MOD
CELLLOWPOWER
LST
CELLLOWPOWER
CellLowPower
Back power save
policy
MOD
CELLLOWPOWER
BTS3900, BTS3900 LST
LTE
CELLLOWPOWER
LocalCellId
Local cell ID
ADD
SERVICEAREAID2
LIST
DSP
CELLMBMSCFG
LST
CELLMBMSCFG
LST
SERVICEAREAID2
LIST
MOD
CELLMBMSCFG
RMV
BTS3900, BTS3900 SERVICEAREAID2
LTE
LIST
MBSFNAreaId
MBSFN Area ID
BTS3900, BTS3900 DSP
LTE
CELLMBMSCFG
BakPwrSavPolicy
CellMBMSCfg
CellMBMSCfg
CellMBMSCfg
MBSFN
synchronization
MBSFNSyncAreaId Area ID
MOD
CELLMBMSCFG
BTS3900, BTS3900 LST
LTE
CELLMBMSCFG
MBMSSessionTMG MBMS Session
I
TMGI
BTS3900, BTS3900 DSP
LTE
CELLMBMSCFG
MBMSSwitch
MBMS switch
MOD
CELLMBMSCFG
BTS3900, BTS3900 LST
LTE
CELLMBMSCFG
ServiceAreaIdList
ADD
SERVICEAREAID2
LIST
LST
SERVICEAREAID2
LIST
RMV
BTS3900, BTS3900 SERVICEAREAID2
Service Area ID List LTE
LIST
CellMBMSCfg
CellMBMSCfg
CellMBMSCfg
ServiceAreaIdRef.S
erviceAreaId
Service Area ID
ADD
SERVICEAREAID2
LIST
LST
SERVICEAREAID2
LIST
RMV
BTS3900, BTS3900 SERVICEAREAID2
LTE
LIST
LocalCellId
BTS3900, BTS3900 LST CELLMRO
LTE
MOD CELLMRO
CellMBMSCfg
CellMro
Local cell ID
CellMro
CioAdjLimitCfgInd
CIO adjustment
range configuration BTS3900, BTS3900 MOD CELLMRO
indicator
LTE
LST CELLMRO
CellMro
CioAdjUpperLimit
CIO adjustment
upper limit
BTS3900, BTS3900 MOD CELLMRO
LTE
LST CELLMRO
CellMro
CioAdjLowerLimit
CIO adjustment
lower limit
BTS3900, BTS3900 MOD CELLMRO
LTE
LST CELLMRO
Local Cell ID
LST CELLPCALGO
BTS3900, BTS3900 MOD
LTE
CELLPCALGO
CellPcAlgo
LocalCellId
CellPcAlgo
SrsPcStrategy
Srs Power Control
Strategy
MOD
BTS3900, BTS3900 CELLPCALGO
LTE
LST CELLPCALGO
CellPcAlgo
MOD
PucchCloseLoopPc PUCCH Close Loop BTS3900, BTS3900 CELLPCALGO
Type
Power Control Type LTE
LST CELLPCALGO
CellPcAlgo
PucchPcPeriod
Pucch Power
Control Period
MOD
BTS3900, BTS3900 CELLPCALGO
LTE
LST CELLPCALGO
CellPcAlgo
Pucch Power
PucchPcTargetSinr Control Target Sinr
Offset
Offset
MOD
BTS3900, BTS3900 CELLPCALGO
LTE
LST CELLPCALGO
CellPcAlgo
MOD
PUSCH RSRP High BTS3900, BTS3900 CELLPCALGO
PuschRsrpHighThd Threshold
LTE
LST CELLPCALGO
CellPcAlgo
PuschIoTCtrlA3Offs Pusch IoT Control
et
A3Offset
MOD
BTS3900, BTS3900 CELLPCALGO
LTE
LST CELLPCALGO
LocalCellId
LST
CELLPRBVALMLB
BTS3900, BTS3900 MOD
LTE
CELLPRBVALMLB
CellPrbValMlb
Loacal Cell ID
CellPrbValMlb
PrbValMlbTrigThd
MOD
CELLPRBVALMLB
PRB Valuation MLB BTS3900, BTS3900 LST
Trigger Threshold
LTE
CELLPRBVALMLB
CellPrbValMlb
MOD
CELLPRBVALMLB
PRB Valuation MLB BTS3900, BTS3900 LST
PrbValMlbAdmitThd Admit Threshold
LTE
CELLPRBVALMLB
CellPrbValMlb
Mlb UE Selection
MlbUeSelectPrbVal PRB Valuation
Thd
Threshold
MOD
CELLPRBVALMLB
BTS3900, BTS3900 LST
LTE
CELLPRBVALMLB
CellRachAlgo
LocalCellId
Local cell ID
LST
CELLRACHALGO
BTS3900, BTS3900 MOD
LTE
CELLRACHALGO
CellRachAlgo
PRACH False
PrachFalseAlarmDe Alarm Detect
tRadThd
Radius Threshold
MOD
CELLRACHALGO
BTS3900, BTS3900 LST
LTE
CELLRACHALGO
CellRachAlgo
RachThdBoostRati RACH Threshold
o
Boosting Ratio
MOD
CELLRACHALGO
BTS3900, BTS3900 LST
LTE
CELLRACHALGO
LocalCellId
LST CELLRACTHD
BTS3900, BTS3900 MOD
LTE
CELLRACTHD
CellRacThd
Local cell ID
CellRacThd
Gold service arp
GoldServiceArpThd threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
SilverServiceArpTh Silver service arp
d
threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Qci1HoThd
MOD
QCI1 handover
BTS3900, BTS3900 CELLRACTHD
admission threshold LTE
LST CELLRACTHD
CellRacThd
Qci2HoThd
MOD
QCI2 handover
BTS3900, BTS3900 CELLRACTHD
admission threshold LTE
LST CELLRACTHD
Qci3HoThd
MOD
QCI3 handover
BTS3900, BTS3900 CELLRACTHD
admission threshold LTE
LST CELLRACTHD
CellRacThd
CellRacThd
Qci4HoThd
MOD
QCI4 handover
BTS3900, BTS3900 CELLRACTHD
admission threshold LTE
LST CELLRACTHD
CellRacThd
Gold new service
MOD
NewGoldServiceOff admission threshold BTS3900, BTS3900 CELLRACTHD
set
offset
LTE
LST CELLRACTHD
CellRacThd
Silver new service
MOD
NewSilverServiceOf admission threshold BTS3900, BTS3900 CELLRACTHD
fset
offset
LTE
LST CELLRACTHD
CellRacThd
Bronze new service
MOD
NewCopperService admission threshold BTS3900, BTS3900 CELLRACTHD
Offset
offset
LTE
LST CELLRACTHD
CellRacThd
Qci1CongThd
QCI1 congest
threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Qci2CongThd
QCI2 congest
threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Qci3CongThd
QCI3 congest
threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Qci4CongThd
QCI4 congest
threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Gold-level GBR
service congest
GoldGbrCongPropo scheduler
rtion
proportion
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Silver-level GBR
service congest
SilverGbrCongProp scheduler
ortion
proportion
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
Bronze-level GBR
service congest
CopperGbrCongPro scheduler
portion
proportion
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
CellRacThd
GBR used resource
MOD
GbrRbUsedHighTh high proportion
BTS3900, BTS3900 CELLRACTHD
d
threshold
LTE
LST CELLRACTHD
CellRacThd
GBR used resource
MOD
low proportion
BTS3900, BTS3900 CELLRACTHD
GbrRbUsedLowThd threshold
LTE
LST CELLRACTHD
CellRacThd
LdcMeaArpThd
ARP threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CongRelOffset
Offset for service
congest relieving
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
CellRacThd
Preemption ARP
PreemptionArpThd threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
UlRbHighThd
MOD
Uplink RB used
BTS3900, BTS3900 CELLRACTHD
ratio high threshold LTE
LST CELLRACTHD
CellRacThd
DlRbHighThd
MOD
Downlink RB used BTS3900, BTS3900 CELLRACTHD
ratio high threshold LTE
LST CELLRACTHD
UlRbLowThd
Uplink RB used
ratio low threshold
CellRacThd
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
DlRbLowThd
Downlink RB used
ratio low threshold
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
MaxNonGbrBearer Non-GBR max
Num
bearer number
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
CellRacThd
Admission Control
AcReservedUserNu Reserved User
mber
Number
MOD
BTS3900, BTS3900 CELLRACTHD
LTE
LST CELLRACTHD
LocalCellId
DSP
CELLRFSHUTDO
WN
LST
CELLRFSHUTDO
WN
MOD
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
CellRfShutdown
Local cell ID
CellRfShutdown
RF intelligent
RfShutdownSwitch shutdown switch
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
StartTime
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
CellRfShutdown
Start time
CellRfShutdown
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
StopTime
Stop time
RsPwrAdjOffset
MOD
CELLRFSHUTDO
WN
LST
Reference signal
BTS3900, BTS3900 CELLRFSHUTDO
power adjust offset LTE
WN
CellRfShutdown
CellRfShutdown
DlPrbThd
Downlink PRB
threshold
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
CellRfShutdown
UlPrbThd
Uplink PRB
threshold
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
CellRfShutdown
DlPrbOffset
Downlink PRB
offset
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
CellRfShutdown
UlPrbOffset
Uplink PRB offset
MOD
CELLRFSHUTDO
WN
LST
BTS3900, BTS3900 CELLRFSHUTDO
LTE
WN
CellRfShutdown
CurrentStatus
Current status
DSP
about RF intelligent BTS3900, BTS3900 CELLRFSHUTDO
shutdown
LTE
WN
CellRfShutdown
CellRicAlgo
Latest exiting cause
DSP
about RF intelligent BTS3900, BTS3900 CELLRFSHUTDO
LatestExitingCause shutdown
LTE
WN
CELLRICDATA
LST
CELLRICALGO
MOD
CELLRICALGO
BTS3900, BTS3900 SND
LocalCellId
Local cell ID
LTE
CELLRICPCISEQ
CellRicAlgo
RicAlgoSwitch
RIC algorithm
switch
MOD
CELLRICALGO
BTS3900, BTS3900 LST
LTE
CELLRICALGO
CellRicAlgo
MuteUpPTSSymNu Mute UpPTS
m
Symbol Number
MOD
CELLRICALGO
BTS3900, BTS3900 LST
LTE
CELLRICALGO
Whether to mute
UL symbol
MOD
CELLRICALGO
BTS3900, BTS3900 LST
LTE
CELLRICALGO
Local cell ID
LST
CELLSERVICEDIF
FCFG
MOD
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
CellRicAlgo
MuteULSym
CellServiceDiffCfg
LocalCellId
CellServiceDiffCfg
ServiceDiffSwitch
Service
differentiation
switch
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
CellServiceDiffCfg
QueueServiceWeig
ht0
Weight of queue 0
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
CellServiceDiffCfg
QueueServiceWeig
ht1
Weight of queue 1
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
CellServiceDiffCfg
QueueServiceWeig
ht2
Weight of queue 2
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
QueueServiceWeig
ht3
Weight of queue 3
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
CellServiceDiffCfg
CellServiceDiffCfg
QueueServiceWeig
ht4
Weight of queue 4
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
QueueServiceWeig
ht5
Weight of queue 5
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
CellServiceDiffCfg
CellServiceDiffCfg
QueueServiceWeig
ht6
Weight of queue 6
MOD
CELLSERVICEDIF
FCFG
LST
BTS3900, BTS3900 CELLSERVICEDIF
LTE
FCFG
LocalCellId
LST
CELLSHUTDOWN
BTS3900, BTS3900 MOD
LTE
CELLSHUTDOWN
CellShutdown
Local cell ID
CellShutdown
MOD
CELLSHUTDOWN
CellShutdownSwitc Intelligent power-off BTS3900, BTS3900 LST
h
of carriers switch
LTE
CELLSHUTDOWN
Start time
MOD
CELLSHUTDOWN
BTS3900, BTS3900 LST
LTE
CELLSHUTDOWN
Stop time
MOD
CELLSHUTDOWN
BTS3900, BTS3900 LST
LTE
CELLSHUTDOWN
Downlink PRB
threshold
MOD
CELLSHUTDOWN
BTS3900, BTS3900 LST
LTE
CELLSHUTDOWN
Downlink PRB
offset
MOD
CELLSHUTDOWN
BTS3900, BTS3900 LST
LTE
CELLSHUTDOWN
Uplink PRB
threshold
MOD
CELLSHUTDOWN
BTS3900, BTS3900 LST
LTE
CELLSHUTDOWN
CellShutdown
StartTime
CellShutdown
StopTime
CellShutdown
DlPrbThd
CellShutdown
DlPrbOffset
CellShutdown
UlPrbThd
CellShutdown
UlPrbOffset
Uplink PRB offset
MOD
CELLSHUTDOWN
BTS3900, BTS3900 LST
LTE
CELLSHUTDOWN
Local cell ID
LST
CELLULICICMCPA
RA
MOD
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
Uplink ICIC
measurement
report interval
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
CellULIcicMcPara
LocalCellId
CellULIcicMcPara
ReportInterval
CellULIcicMcPara
Uplink ICIC
measurement max
MaxReportCellNum report cell number
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
CellULIcicMcPara
ReportAmount
Uplink ICIC
measurement
report amount
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
CellULIcicMcPara
ReportQuantity
Uplink ICIC
measurement
report quantity
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
Uplink ICIC
measurement
trigger quantity
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
CellULIcicMcPara
TriggerQuantity
CellULIcicMcPara
Hysteresis
Uplink ICIC
measurement
hysteresis
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
Uplink ICIC
measurement time
to trigger
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
CellULIcicMcPara
TimeToTrigger
CellULIcicMcPara
A3Offset
Uplink ICIC A3
offset
MOD
CELLULICICMCPA
RA
LST
BTS3900, BTS3900 CELLULICICMCPA
LTE
RA
Local cell ID
LST
CELLULSCHALGO
BTS3900, BTS3900 MOD
LTE
CELLULSCHALGO
CellUlschAlgo
LocalCellId
CellUlschAlgo
UlschStrategy
Uplink Scheduling
Strategy
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
AdaptHarqSwitch
adaptive HARQ
switch
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
MOD
CELLULSCHALGO
SinrAdjustTargetIble SINR target IBLER BTS3900, BTS3900 LST
r
adjustment
LTE
CELLULSCHALGO
CellUlschAlgo
System Bandwidth
Ratio Used By PrePreAllocationBandw schedule user per BTS3900, BTS3900
idthRatio
TTI
LTE
MOD
CELLULSCHALGO
LST
CELLULSCHALGO
CellUlschAlgo
PreAllocationMinPe minimal period of
riod
pre-allocation
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
PreAllocationSize
data size of preallocation
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
UlHoppingType
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
Uplink hopping type LTE
CELLULSCHALGO
CellUlschAlgo
FreeUserUlRbUsed Free Users Uplink
Ratio
RB Ratio
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
UlSrSchDateLen
UL scheduling
request user data
length
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
SpsRelThd
Semi-persistent
resource implicit
release threshold
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
CellUlschAlgo
SmartPreAllocation Smart preDuration
allocation duration
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
MOD
CELLULSCHALGO
UlEpfCapacityFacto Uplink EPF capacity BTS3900, BTS3900 LST
r
factor
LTE
CELLULSCHALGO
CellUlschAlgo
Uplink Resource
UlRbAllocationStrat Block Allocation
egy
Strategy
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
DopMeasLevel
MOD
CELLULSCHALGO
Doppler
BTS3900, BTS3900 LST
Measurement Level LTE
CELLULSCHALGO
CellUlschAlgo
UlHarqMaxTxNum
Uplink HARQ
Maximum
Transmission
Number
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
SmartPreAllocDura Sparse Smart PreForSparse
allocation Duration
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
UlSpsInterval
MOD
Uplink SemiCELLULSCHALGO
persistent
BTS3900, BTS3900 LST
Scheduling Interval LTE
CELLULSCHALGO
CellUlschAlgo
SriFalseDetThdSwit Sri False Detect
ch
Threshold Switch
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
No UL Scheduling
NoUlSchTtiNumAfft TTI Number After
erGap
GAP
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
CellUlschAlgo
MOD
CELLULSCHALGO
Uplink Delay-based BTS3900, BTS3900 LST
UlDelaySchStrategy Scheduling Strategy LTE
CELLULSCHALGO
CellUlschAlgo
UlSchAbnUeThd
Uplink Schedule
Abnormal Ue
Threshold
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
Specific Packet
SpecificPktSizeThd Size Threshold
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
CellUlschAlgo
MOD
CELLULSCHALGO
PuschDtxSchStrate PUSCH DTX
BTS3900, BTS3900 LST
gy
Scheduling Strategy LTE
CELLULSCHALGO
CellUlschAlgo
Ulplink Voip Rlc
Maximum
UlVoipRlcMaxSegN Segmentation
um
Number
MOD
CELLULSCHALGO
BTS3900, BTS3900 LST
LTE
CELLULSCHALGO
LocalCellId
LST
ENBCELLRSVDPA
RA
MOD
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
Local cell ID
eNBCellRsvdPara
RsvdSwPara0
Reserved Switch
Parameter 0
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 2
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara2
eNBCellRsvdPara
RsvdPara3
Reserved
Parameter 3
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 4
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara4
eNBCellRsvdPara
RsvdPara5
Reserved
Parameter 5
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 6
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara6
eNBCellRsvdPara
RsvdPara7
Reserved
Parameter 7
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 8
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara8
eNBCellRsvdPara
RsvdPara9
Reserved
Parameter 9
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 10
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara10
eNBCellRsvdPara
RsvdPara11
Reserved
Parameter 11
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 12
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara12
eNBCellRsvdPara
RsvdPara13
Reserved
Parameter 13
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 14
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara14
eNBCellRsvdPara
RsvdPara15
Reserved
Parameter 15
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 16
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara16
eNBCellRsvdPara
RsvdPara17
Reserved
Parameter 17
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 18
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara18
eNBCellRsvdPara
RsvdPara19
Reserved
Parameter 19
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 20
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara20
eNBCellRsvdPara
RsvdPara21
Reserved
Parameter 21
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 22
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara22
eNBCellRsvdPara
RsvdPara23
Reserved
Parameter 23
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 24
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara24
eNBCellRsvdPara
RsvdPara25
Reserved
Parameter 25
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 26
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara26
eNBCellRsvdPara
RsvdPara27
Reserved
Parameter 27
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 28
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara28
eNBCellRsvdPara
RsvdPara29
Reserved
Parameter 29
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 30
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara30
eNBCellRsvdPara
RsvdPara31
Reserved
Parameter 31
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 32
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara32
eNBCellRsvdPara
RsvdPara33
Reserved
Parameter 33
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 34
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara34
eNBCellRsvdPara
RsvdPara35
Reserved
Parameter 35
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 36
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara36
eNBCellRsvdPara
RsvdPara37
Reserved
Parameter 37
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 38
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara38
eNBCellRsvdPara
RsvdPara39
Reserved
Parameter 39
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 40
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara40
eNBCellRsvdPara
RsvdPara41
Reserved
Parameter 41
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 42
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara42
eNBCellRsvdPara
RsvdPara43
Reserved
Parameter 43
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 44
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara44
eNBCellRsvdPara
RsvdPara45
Reserved
Parameter 45
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 46
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara46
eNBCellRsvdPara
RsvdPara47
Reserved
Parameter 47
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 48
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara48
eNBCellRsvdPara
RsvdPara49
Reserved
Parameter 49
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 50
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara50
eNBCellRsvdPara
RsvdPara51
Reserved
Parameter 51
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 52
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara52
eNBCellRsvdPara
RsvdPara53
Reserved
Parameter 53
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 54
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara54
eNBCellRsvdPara
RsvdPara55
Reserved
Parameter 55
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 56
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara56
eNBCellRsvdPara
RsvdPara57
Reserved
Parameter 57
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 58
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara58
eNBCellRsvdPara
RsvdPara59
Reserved
Parameter 59
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 60
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara60
eNBCellRsvdPara
RsvdPara61
Reserved
Parameter 61
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 62
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara62
eNBCellRsvdPara
RsvdPara63
Reserved
Parameter 63
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 64
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara64
eNBCellRsvdPara
RsvdPara65
Reserved
Parameter 65
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 66
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara66
eNBCellRsvdPara
RsvdPara67
Reserved
Parameter 67
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Reserved
Parameter 68
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
eNBCellRsvdPara
RsvdPara68
eNBCellRsvdPara
RsvdPara69
Reserved
Parameter 69
MOD
ENBCELLRSVDPA
RA
LST
BTS3900, BTS3900 ENBCELLRSVDPA
LTE
RA
Local cell ID
LST
INTERRATCELLSH
UTDOWN
MOD
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
LocalCellId
ForceShutdownSwit Inter-RAT cell
ch
shutdown switch
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
StartTime
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
InterRatCellShutdow
Start time
InterRatCellShutdow
StopTime
Stop time
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
UE number
threshold
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
BearNumThd
InterRatCellShutdow
DlPrbThd
Downlink PRB
threshold
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
UlPrbThd
Uplink PRB
threshold
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
ShutDownType
Shut Down Type
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
High Priority ARP
Threshold
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
HighPriArpThd
InterRatCellShutdow
UTRAN Cell
UtranCellDlLoadTh Downlink Load
d
Threshold
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
UTRAN Cell
UtranCellDlLoadOff Downlink Load
set
Offset
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
MOD
INTERRATCELLSH
UTDOWN
LST
UtranCellUlLoadTh UTRAN Cell Uplink BTS3900, BTS3900 INTERRATCELLSH
d
Load Threshold
LTE
UTDOWN
InterRatCellShutdow
MOD
INTERRATCELLSH
UTDOWN
LST
UtranCellUlLoadOff UTRAN Cell Uplink BTS3900, BTS3900 INTERRATCELLSH
set
Load Offset
LTE
UTDOWN
InterRatCellShutdow
GERAN Cell Load
GeranCellLoadThd Threshold
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
InterRatCellShutdow
GeranCellLoadOffs GERAN Cell Load
et
Offset
MOD
INTERRATCELLSH
UTDOWN
LST
BTS3900, BTS3900 INTERRATCELLSH
LTE
UTDOWN
LocalCellId
LST
RRUJOINTCALPA
RACFG
MOD
BTS3900, BTS3900 RRUJOINTCALPA
LTE
RACFG
RruJointCalParaCfg
Local cell ID
RruJointCalParaCfg
TxChnCalSwitch
Tx Channel
Calibration Switch
MOD
RRUJOINTCALPA
RACFG
LST
BTS3900, BTS3900 RRUJOINTCALPA
LTE
RACFG
Tx Channel
Calibration Time
MOD
RRUJOINTCALPA
RACFG
LST
BTS3900, BTS3900 RRUJOINTCALPA
LTE
RACFG
RruJointCalParaCfg
TxChnCalTime
RruJointCalParaCfg
MOD
RRUJOINTCALPA
RACFG
LST
BTS3900, BTS3900 RRUJOINTCALPA
LTE
RACFG
TxChnCalPeriod
Tx Channel
Calibration Period
TxChnAntSpacing
MOD
RRUJOINTCALPA
RACFG
LST
Physical Antenna
BTS3900, BTS3900 RRUJOINTCALPA
Horizontal Spacing LTE
RACFG
RruJointCalParaCfg
Local cell ID
LST
CELLALGOSWITC
H
MOD
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
RACH algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
LocalCellId
CellAlgoSwitch
RachAlgoSwitch
CellAlgoSwitch
SrsAlgoSwitch
SoundingRS
algorithm switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
PucchAlgoSwitch
PUCCH algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
AqmAlgoSwitch
AQM algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
CQI adjust
algorithm switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
RlfDetectAlgoSwitc RLF detection
h
algorithm switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CqiAdjAlgoSwitch
CellAlgoSwitch
CellAlgoSwitch
DynAdjVoltSwitch
Dynamic adjust
voltage algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
RAC algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
RacAlgoSwitch
CellAlgoSwitch
MlbAlgoSwitch
Load balancing
algorithm switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
DlPcAlgoSwitch
Downlink power
control algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
UlPcAlgoSwitch
Uplink power
control algorithm
switch
BfAlgoSwitch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
BF algorithm switch LTE
H
CellAlgoSwitch
CellAlgoSwitch
DlSchSwitch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
DL schedule switch LTE
H
CellAlgoSwitch
UlSchSwitch
CellAlgoSwitch
Uplink schedule
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
MOD
CELLALGOSWITC
H
LST
RanShareModeSwit RAN Sharing Mode BTS3900, BTS3900 CELLALGOSWITC
ch
Switch
LTE
H
CellAlgoSwitch
Based on
FreqPriorityHoSwitc Frequency Priority
h
HO Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
MuBfAlgoSwitch
MUBF algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
Distance-based
DistBasedHoSwitch Handover Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
AcBarAlgoSwitch
AcBar algorithms
switch
UlCompSwitch
MOD
CELLALGOSWITC
H
LST
UlCoMP algorithms BTS3900, BTS3900 CELLALGOSWITC
switch
LTE
H
CellAlgoSwitch
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
MrcIrcAdptSwitch
MRC/IRC
adaptation switch
SfnUlSchSwitch
MOD
CELLALGOSWITC
H
LST
SFN UL Scheduling BTS3900, BTS3900 CELLALGOSWITC
Switch
LTE
H
SfnDlSchSwitch
MOD
CELLALGOSWITC
H
LST
SFN DL Scheduling BTS3900, BTS3900 CELLALGOSWITC
Switch
LTE
H
CellAlgoSwitch
CellAlgoSwitch
CellAlgoSwitch
IrcSwitch
IRC Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
DynDrxSwitch
Dynamic DRX
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
High Mobility
LST
HighMobiTrigIdleMo Triggered Idle Mode BTS3900, BTS3900 CELLALGOSWITC
deSwitch
Switch
LTE
H
CellAlgoSwitch
AvoidInterfSwitch
Interference
avoidance switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
GLPwrShare
GL power share
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
EicicSwitch
eIcic switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
PUCCH resource
LST
PUSCHMaxRBPUC switch based on UL BTS3900, BTS3900 CELLALGOSWITC
CHAdjSwitch
peak rate
LTE
H
Downlink CoMP
algorithms switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
PSIC algorithm
switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
Load Balancing
Handover Policy
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
DlCompSwitch
CellAlgoSwitch
PsicSwitch
CellAlgoSwitch
MlbHoMode
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
UplinkCompSwitch Uplink Comp Switch LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
AntCalibrationAlgoS Antenna calibration BTS3900, BTS3900 CELLALGOSWITC
witch
algorithm switch
LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
DynSpectrumShare Dynamic Spectrum BTS3900, BTS3900 CELLALGOSWITC
Switch
Share Switch
LTE
H
CellAlgoSwitch
SfnLoadBasedAdpt SFN Load-based
Switch
Adaptive Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
PUSCH IRC
PuschIrcAlgoSwitch algorithm switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
MOD
CELLALGOSWITC
H
LST
ReselecPriAdaptSw Reselection Priority BTS3900, BTS3900 CELLALGOSWITC
itch
Adaptive Switch
LTE
H
CellAlgoSwitch
SfnAlgoSwitch
SFN Algorithm
Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
Prach Interference
PrachIntrfRejSwitch Rejection Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
EnhMIMOSwitch
Enhanced MIMO
Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
InterfRandSwitch
Interference
Randomize
Algorithm Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
Repeater Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
RepeaterSwitch
CellAlgoSwitch
Multi Frequency
MultiFreqPriControl Priority Control
Switch
Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
HarqAlgoSwitch
Harq Algorithm
Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
Coverage Based
CovBasedInterFreq Inter Frequency
HoMode
Handover Mode
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
CellAlgoSwitch
CellSchStrategySwi Cell Schedule
tch
Strategy Switch
MOD
CELLALGOSWITC
H
LST
BTS3900, BTS3900 CELLALGOSWITC
LTE
H
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLDLICIC
LTE
MOD CELLDLICIC
BandMode
Downlink band
division scheme
BTS3900, BTS3900 MOD CELLDLICIC
LTE
LST CELLDLICIC
CellDlIcic
CellDlIcic
CellDlIcic
DlIcicUserAttrGfact User Attribution
orThd
Gfactor Threshold
BTS3900, BTS3900 MOD CELLDLICIC
LTE
LST CELLDLICIC
CellDlIcic
DlIcicNoiseUserRsr Noise User RSRP
pThd
Threshold
BTS3900, BTS3900 MOD CELLDLICIC
LTE
LST CELLDLICIC
LocalCellId
LST
CELLDLPCPDCCH
BTS3900, BTS3900 MOD
LTE
CELLDLPCPDCCH
CellDlpcPdcch
Local cell ID
CellDlpcPdcch
DediDciPwrOffset
MOD
CELLDLPCPDCCH
DCI power offset for BTS3900, BTS3900 LST
dedicated control
LTE
CELLDLPCPDCCH
CellDlpcPdsch
LocalCellId
Local cell ID
LST
CELLDLPCPDSCH
BTS3900, BTS3900 MOD
LTE
CELLDLPCPDSCH
CellDlpcPdsch
CcuPa
Center UE PA
MOD
CELLDLPCPDSCH
BTS3900, BTS3900 LST
LTE
CELLDLPCPDSCH
CellDlpcPdsch
CeuPa
Edge UE PA
MOD
CELLDLPCPDSCH
BTS3900, BTS3900 LST
LTE
CELLDLPCPDSCH
Local cell ID
LST
CELLDLPCPHICH
BTS3900, BTS3900 MOD
LTE
CELLDLPCPHICH
CellDlpcPhich
LocalCellId
CellDlpcPhich
PwrOffset
MOD
CELLDLPCPHICH
Phich Pc Off Power BTS3900, BTS3900 LST
Offset
LTE
CELLDLPCPHICH
CellDlschAlgo
LocalCellId
Local cell ID
LST
CELLDLSCHALGO
BTS3900, BTS3900 MOD
LTE
CELLDLSCHALGO
CellDlschAlgo
DlschStrategy
MOD
CELLDLSCHALGO
Downlink
BTS3900, BTS3900 LST
scheduling Strategy LTE
CELLDLSCHALGO
CellDlschAlgo
FreeUserDlRbUsed Free Users
Ratio
Downlink RB Ratio
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
BtServiceWeight
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
P2P Service Weight LTE
CELLDLSCHALGO
CellDlschAlgo
OtherServiceWeigh Other Service
t
Weight
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
maximum number
MaxMimoRankPara of MIMO layers
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
CellDlschAlgo
CaSchStrategy
Downlink CA
Schedule Strategy
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
MOD
Reserved resource
CELLDLSCHALGO
NonGbrResourceR ratio for non-GBR
BTS3900, BTS3900 LST
atio
services
LTE
CELLDLSCHALGO
CellDlschAlgo
DlEpfCapacityFacto Downlink EPF
r
capacity factor
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
RB Priority MCS
RBPriMcsSelectRat Select Ratio
ioThd
Threshold
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
CellDlschAlgo
MOD
CELLDLSCHALGO
CellEdgeUserRbAll Cell Edge User RB BTS3900, BTS3900 LST
ocMode
Allocation Mode
LTE
CELLDLSCHALGO
CellDlschAlgo
DlIcicSchMode
Downlink ICIC
Schedule Mode
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
RbgAllocStrategy
RBG Resource
Allocation Strategy
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
DlHarqMaxTxNum
Dowlink HARQ
Maximum
Transmission
Number
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
CellDlschAlgo
NonGbrSchDelayW NonGBR Traffic
eight
Delay Weight
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
HoStaticMcsTimer
MOD
Handover UE Static
CELLDLSCHALGO
MCS Scheduling
BTS3900, BTS3900 LST
Timer
LTE
CELLDLSCHALGO
CellDlschAlgo
DlRankOptimizeSwi Downlink Rank
tch
Optimize Switch
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CaSccDopMeas
Ca Scc Doppler
Measurement
DlSpsInterval
MOD
Downlink SemiCELLDLSCHALGO
persistent
BTS3900, BTS3900 LST
Scheduling Interval LTE
CELLDLSCHALGO
CellDlschAlgo
CellDlschAlgo
RBPriMcsSelectStr RB Priority MCS
ategy
Select Strategy
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
DlRankDetectSwitc Dl Rank Detect
h
Switch
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
TDD Special
TddSpecSubfSchS Subframe
witch
Scheduling Switch
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
CellDlschAlgo
Data Threshold In
DataThdInPdcchPd Pdcch And Pdsch
schBal
Balance
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
MOD
Ue Num Threshold
CELLDLSCHALGO
UeNumThdInPdcch In Pdcch And
BTS3900, BTS3900 LST
PdschBal
Pdsch Balance
LTE
CELLDLSCHALGO
CellDlschAlgo
MOD
eNodeB
CELLDLSCHALGO
Interference
BTS3900, BTS3900 LST
EnbInterfRandMod Randomize Modular LTE
CELLDLSCHALGO
CellDlschAlgo
TxdDci1aSwitch
TxD DCI1A
Scheduling Switch
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
CellDlschAlgo
DlSchAbnUeThd
MOD
Downlink Schedule
CELLDLSCHALGO
Abnormal Ue
BTS3900, BTS3900 LST
Threshold
LTE
CELLDLSCHALGO
CellDlschAlgo
RarAndPagingCR
Code Rate for
Random Access
Response and
Paging Message
MOD
CELLDLSCHALGO
BTS3900, BTS3900 LST
LTE
CELLDLSCHALGO
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLMLB
LTE
MOD CELLMLB
CellMLB
CellMLB
IntraFreqMlbThd
Intra-Frequency
Mobility Load
Balancing
Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
InterFreqMlbThd
Inter-Frequency
Mobility Load
Balancing
Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
CellMLB
InterRatMlbThd
Inter-RAT Mobility
Load Balancing
Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
LoadExchangePeri Load Information
od
Exchange Period
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
LoadOffset
Load Offset
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
LoadDiffThd
Load Difference
Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
Inter-RAT Mobility
InterRatMlbUeNum Load Balancing UE BTS3900, BTS3900 MOD CELLMLB
Thd
Number Threshold LTE
LST CELLMLB
CellMLB
InitValidPeriod
UTRAN Idle Mode
Mobility Load
Balancing Initial
Valid Period
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
Load Transfer
LoadTransferFactor Factor
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
MlbTriggerMode
Mobility Load
Balancing Trigger
Mode
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
InterFreqMlbUeNu
mThd
Inter-frequency
Mobility Load
Balancing UE
Number Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
MlbUeNumOffset
Mobility Load
Balancing UE
Number Offset
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
MlbMaxUeNum
Mobility Load
Balancing Max UE
Number
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
Mobility Load
Balancing UE
MlbUeSelectPrbTh Selection PRB
d
Usage Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
DlDataMlbMode
Downlink DataBTS3900, BTS3900 MOD CELLMLB
transfer MLB mode LTE
LST CELLMLB
CellMLB
Inter-Frequency
InterFreqMLBRanS MLB RAN Sharing
hareMode
Mode
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
UeNumDiffThd
Ue Number
Difference
Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
HotSpotUeMode
Hot Spot UE Mode
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
CellMLB
Inter-Frequency Idle
InterFreqIdleMlbMo Load Balancing
BTS3900, BTS3900 MOD CELLMLB
de
Mode
LTE
LST CELLMLB
CellMLB
MlbMinUeNumThd
MLB Minimum UE
Number Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
MlbMinUeNumOffs MLB Minimum UE
et
Number Offset
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
InterFreqUeTrsfTyp InterFreq MLB
e
Transfer Type
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
Inter-Freq Idle MLB
InterFreqIdleMlbUe UE Number
BTS3900, BTS3900 MOD CELLMLB
NumThd
Threshold
LTE
LST CELLMLB
CellMLB
Inter-RAT Idle MLB
InterRatIdleMlbUeN UE Number
BTS3900, BTS3900 MOD CELLMLB
umThd
Threshold
LTE
LST CELLMLB
CellMLB
Inter-frequency
InterFreqLoadEvalP Load Evaluate
rd
Period
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
InterRatLoadEvalPr Inter-Rat Load
d
Evaluate Period
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
Load Balancing
Frequency Select
FreqSelectStrategy Strategy
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
LoadBalanceNCell
Scope
Load Balancing
Neighbor Cell
Scope
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
InterRatMlbUeNum Inter-RAT Mlb UE
Offset
Number Offset
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
IdleUeSelFreqScop Idle UE Select
e
Frequency Scope
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
InterRatMlbUeSelSt InterRAT MLB UE
rategy
Select Strategy
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
CellMLB
InterRAT MLB UE
InterRatMlbUeSelPr Select PRB
bThd
Threshold
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
PrbLoadCalcMetho Prb Load
BTS3900, BTS3900 MOD CELLMLB
d
Calculation Method LTE
LST CELLMLB
CellMLB
MlbUeSelectPunish MLB UE Selection
Timer
Punish Timer
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
CellMLB
MlbHoCellSelectStr Mlb Ho Cell select
ategy
Strategy
BTS3900, BTS3900 MOD CELLMLB
LTE
LST CELLMLB
LocalCellId
LST
CELLPDCCHALGO
BTS3900, BTS3900 MOD
LTE
CELLPDCCHALGO
CellPdcchAlgo
Local cell ID
CellPdcchAlgo
MOD
CELLPDCCHALGO
SignalCongregateL BTS3900, BTS3900 LST
ComSigCongregLv evel
LTE
CELLPDCCHALGO
CellPdcchAlgo
Cce Ratio Adjust
CceRatioAdjSwitch Switch
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
SFN Pdcch DCS
Threshold
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
SfnPdcchDcsThd
CellPdcchAlgo
InitPdcchSymNum
PDCCH Initial
Symbol Number
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
VirtualLoadPro
MOD
CELLPDCCHALGO
PDCCH Virtual
BTS3900, BTS3900 LST
Loading Proportion LTE
CELLPDCCHALGO
CellPdcchAlgo
PDCCH Symbol
PdcchSymNumSwit Number Adjust
ch
Switch
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
CceUseRatio
CCE use ratio
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
PDCCH
PdcchAggLvlCLAdj Aggregation Level
ustSwitch
CL Switch
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
DPDVirtualLoadSwi DPD Virtual Load
tch
Switch
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
DPDVirtualLoadTyp DPD Virtual Load
e
Type
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
CellPdcchAlgo
Aggregation Level
AggLvlSelStrageFor Strategy for Dual
DualCW
Codewords
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
PdcchCapacityImpr PDCCH Capacity
oveSwitch
Improve Switch
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
MOD
CELLPDCCHALGO
PdcchMaxCodeRat PDCCH Max Code BTS3900, BTS3900 LST
e
Rate
LTE
CELLPDCCHALGO
CellPdcchAlgo
Uplink and
Downlink PDCCH
ULDLPdcchSymNu Symbols
m
Configuration
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
The Strategy Of
PDCCH
PDCCHAggLvlAdap Aggregation Level
tStrage
Adaptation
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
CellPdcchAlgo
Hysteresis for CFI
HysForCfiBasedPre increase based on
Sch
PreSch
MOD
CELLPDCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPDCCHALGO
LocalCellId
LST
CELLPUCCHALGO
BTS3900, BTS3900 MOD
LTE
CELLPUCCHALGO
CellPucchAlgo
Local cell ID
CellPucchAlgo
SriLowLoadThd
SRI Low Load
Threshold
MOD
CELLPUCCHALGO
BTS3900, BTS3900 LST
LTE
CELLPUCCHALGO
Local cell ID
ADD
TDDCELLFRAMEO
FFSET
LST
TDDCELLFRAMEO
FFSET
MOD
TDDCELLFRAMEO
FFSET
RMV
BTS3900, BTS3900 TDDCELLFRAMEO
LTE
FFSET
TddCellFrameOffset
LocalCellId
TddCellFrameOffset
FrameOffsetMode
ADD
TDDCELLFRAMEO
FFSET
MOD
TDDCELLFRAMEO
FFSET
LST
BTS3900, BTS3900 TDDCELLFRAMEO
Frame Offset Mode LTE
FFSET
Cell Frame Offset
ADD
TDDCELLFRAMEO
FFSET
MOD
TDDCELLFRAMEO
FFSET
LST
BTS3900, BTS3900 TDDCELLFRAMEO
LTE
FFSET
Local cell ID
LST
CELLNOACCESSA
LMPARA
MOD
BTS3900, BTS3900 CELLNOACCESSA
LTE
LMPARA
TddCellFrameOffset
CellFrameOffset
CellNoAccessAlmPa
LocalCellId
CellNoAccessAlmPa
NoAccessStartDete No access detect
ctTime
start time
MOD
CELLNOACCESSA
LMPARA
LST
BTS3900, BTS3900 CELLNOACCESSA
LTE
LMPARA
NoAccessStopDete No access detect
ctTime
stop time
MOD
CELLNOACCESSA
LMPARA
LST
BTS3900, BTS3900 CELLNOACCESSA
LTE
LMPARA
CellNoAccessAlmPa
CellNoAccessAlmPa
NoAccessDetectTi
mer
No access detect
timer
MOD
CELLNOACCESSA
LMPARA
LST
BTS3900, BTS3900 CELLNOACCESSA
LTE
LMPARA
LocalCellId
Local cell ID
BTS3900, BTS3900 LST CELLULICIC
LTE
MOD CELLULICIC
BandMode
Uplink band division BTS3900, BTS3900 MOD CELLULICIC
scheme
LTE
LST CELLULICIC
CellUlIcic
CellUlIcic
GeranInterfCfg
LST
GERANINTERFCF
G
MOD
BTS3900, BTS3900 GERANINTERFCF
LTE
G
LocalCellId
Local cell ID
DlGeranIntefRbNu
m
MOD
GERANINTERFCF
G
Number of DL RBs
LST
interfered by
BTS3900, BTS3900 GERANINTERFCF
GERAN
LTE
G
GeranInterfCfg
GeranInterfCfg
DlRbAvailSinrThd
SINR threshold for
available DL RBs
MOD
GERANINTERFCF
G
LST
BTS3900, BTS3900 GERANINTERFCF
LTE
G
Local cell ID
ADD
CELLSIMULOAD
DSP
CELLSIMULOAD
LST
CELLSIMULOAD
MOD
CELLSIMULOAD
BTS3900, BTS3900 RMV
LTE
CELLSIMULOAD
CellSimuLoad
LocalCellId
CellSimuLoad
SimLoadCfgIndex
Configure Index
ADD
CELLSIMULOAD
MOD
CELLSIMULOAD
BTS3900, BTS3900 LST
LTE
CELLSIMULOAD
CellSimuLoad
ADD
CELLSIMULOAD
MOD
CELLSIMULOAD
SimuLoadTransMo SimuLoad
BTS3900, BTS3900 LST
de
transmission mode LTE
CELLSIMULOAD
CellSimuLoad
SimuLoadRbNum
SimuLoad allocated BTS3900, BTS3900 DSP
RB Number
LTE
CELLSIMULOAD
CommercRbNum
Commercial service BTS3900, BTS3900 DSP
RB number
LTE
CELLSIMULOAD
SimuLoadPower
SimuLoad allocated BTS3900, BTS3900 DSP
power
LTE
CELLSIMULOAD
CommercPower
Commercial service BTS3900, BTS3900 DSP
power
LTE
CELLSIMULOAD
CellSimuLoad
CellSimuLoad
CellSimuLoad
CellSimuLoad
SimuLoad allocated BTS3900, BTS3900 DSP
SimuLoadUserNum user Number
LTE
CELLSIMULOAD
CellSimuLoad
Commercial service BTS3900, BTS3900 DSP
CommercUserNum user number
LTE
CELLSIMULOAD
BcchCfg
BTS3900, BTS3900 LST BCCHCFG
LTE
MOD BCCHCFG
LocalCellId
Local cell ID
ModifyPeriodCoeff
Modification period BTS3900, BTS3900 MOD BCCHCFG
coefficient
LTE
LST BCCHCFG
BcchCfg
CellChPwrCfg
LocalCellId
Local cell ID
LST
CELLCHPWRCFG
BTS3900, BTS3900 MOD
LTE
CELLCHPWRCFG
CellChPwrCfg
PcfichPwr
PCFICH power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
CellChPwrCfg
PbchPwr
PBCH power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
CellChPwrCfg
SchPwr
SCH power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
CellChPwrCfg
DbchPwr
DBCH power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
CellChPwrCfg
PchPwr
PCH power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
CellChPwrCfg
RaRspPwr
Rach response
power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
CellChPwrCfg
Prs power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
AntOutputPwr
Antenna Output
Power
MOD
CELLCHPWRCFG
BTS3900, BTS3900 LST
LTE
CELLCHPWRCFG
LocalCellId
Local cell ID
BTS3900, BTS3900 LST PDSCHCFG
LTE
MOD PDSCHCFG
PrsPwr
CellChPwrCfg
PDSCHCfg
PDSCHCfg
ReferenceSignalPw Reference signal
r
power
BTS3900, BTS3900 MOD PDSCHCFG
LTE
LST PDSCHCFG
PDSCHCfg
Pb
PB
BTS3900, BTS3900 MOD PDSCHCFG
LTE
LST PDSCHCFG
PDSCHCfg
ReferenceSignalPw Reference Signal
rMargin
Power Margin
BTS3900, BTS3900 MOD PDSCHCFG
LTE
LST PDSCHCFG
LocalCellId
DSP RACHCFG
BTS3900, BTS3900 LST RACHCFG
LTE
MOD RACHCFG
RACHCfg
Local cell ID
RACHCfg
PwrRampingStep
BTS3900, BTS3900 MOD RACHCFG
Power ramping step LTE
LST RACHCFG
RACHCfg
Preamble initial
PreambInitRcvTarg received target
etPwr
power
BTS3900, BTS3900 MOD RACHCFG
LTE
LST RACHCFG
RACHCfg
ZeroCorrelationZon Zero correlation
eConf
zone config
BTS3900, BTS3900
LTE
DSP RACHCFG
MessageSizeGroup Message size of
A
select group A
BTS3900, BTS3900 MOD RACHCFG
LTE
LST RACHCFG
RACHCfg
RACHCfg
PrachFreqOffset
PRACH Frequency BTS3900, BTS3900 MOD RACHCFG
Offset
LTE
LST RACHCFG
RACHCfg
Indication of
PrachConfigIndexC PRACH
BTS3900, BTS3900 MOD RACHCFG
fgInd
Configuration Index LTE
LST RACHCFG
RACHCfg
PrachConfigIndex
PRACH
BTS3900, BTS3900 MOD RACHCFG
Configuration Index LTE
LST RACHCFG
RACHCfg
Maximum number
of preamble
PreambleTransMax transmission
BTS3900, BTS3900 MOD RACHCFG
LTE
LST RACHCFG
RACHCfg
ContentionResoluti Timer for contention BTS3900, BTS3900 MOD RACHCFG
onTimer
resolution
LTE
LST RACHCFG
RACHCfg
Maximum number
of Msg3 HARQ
transmissions
BTS3900, BTS3900 MOD RACHCFG
LTE
LST RACHCFG
LocalCellId
Local cell ID
DSP SRSCFG
BTS3900, BTS3900 LST SRSCFG
LTE
MOD SRSCFG
SrsSubframeCfg
SRS subframe
configuration
BTS3900, BTS3900 MOD SRSCFG
LTE
LST SRSCFG
MaxHarqMsg3Tx
SRSCfg
SRSCfg
SRSCfg
AnSrsSimuTrans
SRS ACK/NACK
simultaneous
transmission
BTS3900, BTS3900 MOD SRSCFG
LTE
LST SRSCFG
SRSCfg
SrsCfgInd
SRS Configuration
Indicator
BTS3900, BTS3900 MOD SRSCFG
LTE
LST SRSCFG
SRSCfg
TddSrsCfgMode
TDD SRS
BTS3900, BTS3900 MOD SRSCFG
Configuration Mode LTE
LST SRSCFG
SRSCfg
FddSrsCfgMode
FDD SRS
BTS3900, BTS3900 MOD SRSCFG
Configuration Mode LTE
LST SRSCFG
SRSCfg
CellSrsBandwidthCf Cell srs bandwidth
g
configuration
BTS3900, BTS3900
LTE
DSP SRSCFG
LocalCellId
BTS3900, BTS3900 LST PHICHCFG
LTE
MOD PHICHCFG
PHICHCfg
Local cell ID
PHICHCfg
PhichDuration
PHICH duration
BTS3900, BTS3900 MOD PHICHCFG
LTE
LST PHICHCFG
PhichResource
PHICH resource
BTS3900, BTS3900 MOD PHICHCFG
LTE
LST PHICHCFG
LocalCellId
Local cell ID
BTS3900, BTS3900 LST PCCHCFG
LTE
MOD PCCHCFG
PHICHCfg
PCCHCfg
PCCHCfg
Default paging
DefaultPagingCycle cycle
BTS3900, BTS3900 MOD PCCHCFG
LTE
LST PCCHCFG
Nb
BTS3900, BTS3900 MOD PCCHCFG
LTE
LST PCCHCFG
PCCHCfg
NB
PCCHCfg
PagingSentNum
Paging Sent
Number
BTS3900, BTS3900 MOD PCCHCFG
LTE
LST PCCHCFG
PCCHCfg
MaxPagingRecords Maximum Number
Num
of Paging Records
BTS3900, BTS3900 MOD PCCHCFG
LTE
LST PCCHCFG
LocalCellId
BTS3900, BTS3900 LST PUSCHCFG
LTE
MOD PUSCHCFG
PUSCHCfg
Local cell ID
PUSCHCfg
Nsb
Subband number
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
HoppingMode
Hopping mode
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
PUSCHCfg
PUSCHCfg
HoppingOffset
Hopping offset
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
PUSCHCfg
GroupHoppingEnab Group hopping
led
enabled
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
PUSCHCfg
GroupAssignPUSC Group assignment
H
PUSCH
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
PUSCHCfg
SeqHoppingEnable Sequence hopping
d
enabled
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
CyclicShift
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
PUSCHCfg
Cyclic shift
PUSCHCfg
Qam64 enabled
BTS3900, BTS3900 MOD PUSCHCFG
LTE
LST PUSCHCFG
LocalCellId
Local cell ID
DSP PUCCHCFG
BTS3900, BTS3900 LST PUCCHCFG
LTE
MOD PUCCHCFG
DeltaShift
Delta shift
BTS3900, BTS3900 MOD PUCCHCFG
LTE
LST PUCCHCFG
Qam64Enabled
PUCCHCfg
PUCCHCfg
PUCCHCfg
NaSriChNum
ACK/SRI Channel
Number
BTS3900, BTS3900 MOD PUCCHCFG
LTE
LST PUCCHCFG
CqiRbNum
CQI RB number
BTS3900, BTS3900 MOD PUCCHCFG
LTE
LST PUCCHCFG
PUCCHCfg
PUCCHCfg
PucchExtendedRB PUCCH Extended
Num
RB Number
BTS3900, BTS3900 MOD PUCCHCFG
LTE
LST PUCCHCFG
Semi-persistent
ACK and SRI Sub
Channel
BTS3900, BTS3900
LTE
DSP PUCCHCFG
Local cell ID
ADD
CDMA20001XRTT
PREREG
LST
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
PUCCHCfg
N1PucchAn
Cdma20001XrttPreR
LocalCellId
Mcc
ADD
CDMA20001XRTT
PREREG
LST
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
RMV
BTS3900, BTS3900 CDMA20001XRTT
Mobile country code LTE
PREREG
Mnc
ADD
CDMA20001XRTT
PREREG
LST
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
Mobile network
code
Cdma20001XrttPreR
Cdma20001XrttCell CDMA20001XRTT
Id
cell ID
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttSec CDMA20001XRTT
torId
sector ID
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Sid
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
System ID
Cdma20001XrttPreR
Nid
Network ID
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
MscId
MSC ID
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Band class include
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
BandClassInclude
Cdma20001XrttPreR
BandClass
Band class
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
CSFB-registration
parameters
configure indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Multiple system ID
storage indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
CsfbRegCfgInd
Cdma20001XrttPreR
MultiSidInd
Cdma20001XrttPreR
MultiNidInd
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
Multiple network ID BTS3900, BTS3900 CDMA20001XRTT
storage indicator
LTE
PREREG
Cdma20001XrttPreR
HomeRegInd
Home rgistration
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
ForeignSidRegInd
System ID roamer
registration
indicator
ForeignNidRegInd
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Network ID roamer
LST
registration
BTS3900, BTS3900 CDMA20001XRTT
indicator
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
ParamRegInd
Parameter change
registration
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Power up
registration
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
PowerUpRegInd
Cdma20001XrttPreR
RegPeriod
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
Registration period LTE
PREREG
Cdma20001XrttPreR
RegZone
Registration zone
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
TotalZone
Number of
registration zones
to be retained
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
ZoneTimer
Zone timer length
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
ADD
CDMA20001XRTT
PREREG
MOD
Cdma20001XrttPreR
CDMA20001XRTT
PREREG
Power-down
LST
registration include BTS3900, BTS3900 CDMA20001XRTT
PowerDownInclude indicator
LTE
PREREG
Cdma20001XrttPreR
AcBarCfgInd
AC barring
information
configure indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
AcBar0to9
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
classes 0 to 9
LTE
PREREG
AcBar10
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
class 10
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
AcBar11
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
class 11
LTE
PREREG
AcBar12
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
class 12
LTE
PREREG
AcBar13
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
class 13
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
Cdma20001XrttPreR
AcBar14
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
class 14
LTE
PREREG
AcBar15
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
Persistence value
LST
for access overload BTS3900, BTS3900 CDMA20001XRTT
class 15
LTE
PREREG
AcBarMsg
ADD
CDMA20001XRTT
PREREG
MOD
Persistence
CDMA20001XRTT
Modifier For Access
PREREG
barring factor for
LST
message
BTS3900, BTS3900 CDMA20001XRTT
transmissions
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
AcBarReg
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
Persistence
PREREG
modifier For Access
LST
barring factor for
BTS3900, BTS3900 CDMA20001XRTT
registrations
LTE
PREREG
AcBarEmg
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
Persistence
PREREG
modifier For Access
LST
barring factor for
BTS3900, BTS3900 CDMA20001XRTT
emergency service LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
Cdma20001XrttPreR
ProtocolRevInc
Protocol revision
level include
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Protocol revision
level
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Min protocol
revision level
MinProtocolRevInc include indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
ProtocolRev
Cdma20001XrttPreR
Min protocol
revision level
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Authentication
include indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Authentication
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
MinProtocolRev
Cdma20001XrttPreR
AuthInclude
Cdma20001XrttPreR
Auth
Cdma20001XrttPreR
Max number of
alternative service
MaxNumAltSoInclu options include
de
indicator
Cdma20001XrttPreR
MaxNumAltSo
Max number of
alternative srvice
options
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Preferred ACH MS
PrefMsIdTypeInclud ID type include
e
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Preferred ACH MS
ID type
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
PrefMsIdType
MccInclude
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
Mobile country code BTS3900, BTS3900 CDMA20001XRTT
include indicator
LTE
PREREG
MncInclude
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
Mobile network
BTS3900, BTS3900 CDMA20001XRTT
code send indicator LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
Cdma20001XrttPreR
ImsiTSupportedIncl IMSI_T supported
ude
include indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
ImsiTSupported
IMSI_T support
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Forward power
control parameter
of FCH include
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
FpcFchCfgInclude
RC3 initial setpoint
of forward power
FpcFchInitSteptRc3 control parameter
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
RC4 initial setpoint
of forward power
FpcFchInitSteptRc4 control parameter
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
Cdma20001XrttPreR
RC5 initial setpoint
of forward power
FpcFchInitSteptRc5 control parameter
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
ADD
CDMA20001XRTT
PREREG
MOD
Cdma20001XrttPreR
CDMA20001XRTT
PREREG
RC11 initial setpoint
LST
FpcFchInitSteptRc1 of forward power
BTS3900, BTS3900 CDMA20001XRTT
1
control parameter
LTE
PREREG
ADD
CDMA20001XRTT
PREREG
MOD
Cdma20001XrttPreR
CDMA20001XRTT
PREREG
RC12 initial setpoint
LST
FpcFchInitSteptRc1 of forward power
BTS3900, BTS3900 CDMA20001XRTT
2
control parameter
LTE
PREREG
Cdma20001XrttPreR
PilotIncrInclude
Pilot PN sequence
offset index
increment include
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
PilotIncr
Pilot PN sequence
offset index
increment
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Leap seconds
include indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Time zone include
indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
LpSecInclude
Cdma20001XrttPreR
LtmOffInclude
Cdma20001XrttPreR
DayltInclude
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
Daylight flag include BTS3900, BTS3900 CDMA20001XRTT
indicator
LTE
PREREG
GCSNA layer2
GcsnaL2AckTimerI acknowledge timer
nclude
include indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
GCSNA layer2
acknowledge timer
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
GcsnaL2AckTimer
GCSNA sequence
GcsnaSeqContextT context timer
Include
include indicator
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
GcsnaSeqContextTi GCSNA sequence
mer
context timer
ADD
CDMA20001XRTT
PREREG
MOD
CDMA20001XRTT
PREREG
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
PREREG
Cdma20001XrttPreR
Cdma20001XrttPreR
Cdma2000HrpdNCell
LocalCellId
Local cell ID
ADD
CDMA2000HRPDN
CELL
LST
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
RMV
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
SectorId104
SectorID104
ADD
CDMA2000HRPDN
CELL
LST
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
RMV
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
SectorId24
SectorID24
ADD
CDMA2000HRPDN
CELL
LST
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
RMV
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Band class
ADD
CDMA2000HRPDN
CELL
LST
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
RMV
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
BandClass
Frequency
ADD
CDMA2000HRPDN
CELL
LST
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
RMV
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
No handover
indicator
ADD
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
LST
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
Frequency
Cdma2000HrpdNCell
NoHoFlag
Cdma2000HrpdNCell
NoRmvFlag
ADD
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
LST
BTS3900, BTS3900 CDMA2000HRPDN
No remove indicator LTE
CELL
Cdma2000HrpdNCell
AnrFlag
ANR flag
LST
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
LocalCellName
Local cell name
ADD
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
LST
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
NeighbourCellNam Neighbour cell
e
name
ADD
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
LST
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Cdma2000HrpdNCell
CtrlMode
Control Mode
ADD
CDMA2000HRPDN
CELL
MOD
CDMA2000HRPDN
CELL
LST
BTS3900, BTS3900 CDMA2000HRPDN
LTE
CELL
Local cell ID
ADD
CDMA2000HRPDP
REREG
LST
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
REREG
RMV
BTS3900, BTS3900 CDMA2000HRPDP
LTE
REREG
Cdma2000HrpdPreR
LocalCellId
Cdma2000HrpdPreR
Mcc
ADD
CDMA2000HRPDP
REREG
LST
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
REREG
RMV
BTS3900, BTS3900 CDMA2000HRPDP
Mobile country code LTE
REREG
Mnc
ADD
CDMA2000HRPDP
REREG
LST
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
REREG
RMV
BTS3900, BTS3900 CDMA2000HRPDP
LTE
REREG
Cdma2000HrpdPreR
Mobile network
code
Cdma2000HrpdPreR
ADD
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
REREG
SIB8 PreLST
Sib8PreRegistration registration allowed BTS3900, BTS3900 CDMA2000HRPDP
Allowed
indicator
LTE
REREG
ADD
CDMA2000HRPDP
REREG
MOD
Cdma2000HrpdPreR
CDMA2000HRPDP
PreRegistrationInfo
REREG
HRPD configure
LST
McPreRegParaCfgI indicator in
BTS3900, BTS3900 CDMA2000HRPDP
nd
MeasConfig
LTE
REREG
ADD
CDMA2000HRPDP
Cdma2000HrpdPreR
REREG
MOD
CDMA2000HRPDP
REREG
Pre-registration
LST
McPreRegistrationA allowed indicator in BTS3900, BTS3900 CDMA2000HRPDP
llowed
MeasConfig
LTE
REREG
Cdma2000HrpdPreR
PreRegistrationZon Pre-registration
eId
zone ID
Cdma2000HrpdPreR
ADD
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
REREG
LST
BTS3900, BTS3900 CDMA2000HRPDP
LTE
REREG
ADD
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
Secondary preREREG
registration zone ID
LST
SecondaryPreRegZ 0 configure
BTS3900, BTS3900 CDMA2000HRPDP
oneId0Ind
indicator
LTE
REREG
ADD
CDMA2000HRPDP
Cdma2000HrpdPreR
REREG
MOD
CDMA2000HRPDP
REREG
Secondary preLST
SecondaryPreRegZ registration zone ID BTS3900, BTS3900 CDMA2000HRPDP
oneId0
0
LTE
REREG
Cdma2000HrpdPreR
ADD
CDMA2000HRPDP
REREG
MOD
CDMA2000HRPDP
Secondary preREREG
registration zone ID
LST
SecondaryPreRegZ 1 configure
BTS3900, BTS3900 CDMA2000HRPDP
oneId1Ind
indicator
LTE
REREG
ADD
CDMA2000HRPDP
Cdma2000HrpdPreR
REREG
MOD
CDMA2000HRPDP
REREG
Secondary preLST
SecondaryPreRegZ registration zone ID BTS3900, BTS3900 CDMA2000HRPDP
oneId1
1
LTE
REREG
Cdma2000HrpdRefCe
LocalCellId
Local cell ID
ADD
CDMA2000HRPDR
EFCELL
LST
CDMA2000HRPDR
EFCELL
MOD
CDMA2000HRPDR
EFCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDR
LTE
EFCELL
Cdma2000HrpdRefCe
Mcc
ADD
CDMA2000HRPDR
EFCELL
LST
CDMA2000HRPDR
EFCELL
MOD
CDMA2000HRPDR
EFCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDR
Mobile country code LTE
EFCELL
Cdma2000HrpdRefCe
Mnc
Mobile network
code
ADD
CDMA2000HRPDR
EFCELL
LST
CDMA2000HRPDR
EFCELL
MOD
CDMA2000HRPDR
EFCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDR
LTE
EFCELL
Cdma2000HrpdRefCe
SectorId104
SectorID104
ADD
CDMA2000HRPDR
EFCELL
LST
CDMA2000HRPDR
EFCELL
MOD
CDMA2000HRPDR
EFCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDR
LTE
EFCELL
Cdma2000HrpdRefCe
SectorId24
SectorID24
ADD
CDMA2000HRPDR
EFCELL
LST
CDMA2000HRPDR
EFCELL
MOD
CDMA2000HRPDR
EFCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDR
LTE
EFCELL
Cdma2000HrpdRefCe
SelectedRatio
Selected ratio
ADD
CDMA2000HRPDR
EFCELL
MOD
CDMA2000HRPDR
EFCELL
LST
BTS3900, BTS3900 CDMA2000HRPDR
LTE
EFCELL
Local cell ID
ADD
CDMA2000NFREQ
LST
CDMA2000NFREQ
MOD
CDMA2000NFREQ
BTS3900, BTS3900 RMV
LTE
CDMA2000NFREQ
Band class
ADD
CDMA2000NFREQ
LST
CDMA2000NFREQ
MOD
CDMA2000NFREQ
BTS3900, BTS3900 RMV
LTE
CDMA2000NFREQ
Cdma2000Nfreq
LocalCellId
Cdma2000Nfreq
BandClass
Frequency
ADD
CDMA2000NFREQ
LST
CDMA2000NFREQ
MOD
CDMA2000NFREQ
BTS3900, BTS3900 RMV
LTE
CDMA2000NFREQ
Frequency offset
ADD
CDMA2000NFREQ
MOD
CDMA2000NFREQ
BTS3900, BTS3900 LST
LTE
CDMA2000NFREQ
Cdma2000Nfreq
Frequency
Cdma2000Nfreq
OffsetFreq
Cdma2000Nfreq
ADD
CDMA2000NFREQ
MOD
CDMA2000NFREQ
SearchWindowSize Search window size BTS3900, BTS3900 LST
CfgInd
configure indicator LTE
CDMA2000NFREQ
Cdma2000Nfreq
ADD
CDMA2000NFREQ
MOD
CDMA2000NFREQ
BTS3900, BTS3900 LST
SearchWindowSize Search window size LTE
CDMA2000NFREQ
Cdma2000Nfreq
FrequencyPri
Frequency priority
ADD
CDMA2000NFREQ
MOD
CDMA2000NFREQ
BTS3900, BTS3900 LST
LTE
CDMA2000NFREQ
CspcCellSrsMeasNCe
Mcc
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
Mobile country code LTE
ASNCELL
CspcCellSrsMeasNCe
Mnc
Mobile network
code
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
eNodeB ID
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
CspcCellSrsMeasNCe
eNodeBId
CspcCellSrsMeasNCe
CellId
Cell ID
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
Neighbor mobile
country code
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
CspcCellSrsMeasNCe
NCellMcc
CspcCellSrsMeasNCe
NCellMnc
Neighbor mobile
network code
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
Neighbor eNodeB
ID
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
CspcCellSrsMeasNCe
NCellENodeBId
CspcCellSrsMeasNCe
NCellId
Neighbor Cell ID
ADD
CSPCCELLSRSME
ASNCELL
LST
CSPCCELLSRSME
ASNCELL
RMV
BTS3900, BTS3900 CSPCCELLSRSME
LTE
ASNCELL
CSPC Cluster ID
ADD
CSPCCLUSTER
LST
CSPCCLUSTER
BTS3900, BTS3900 RMV
LTE
CSPCCLUSTER
CSPC Cluster ID
ADD
CSPCCLUSTERCE
LL
LST
CSPCCLUSTERCE
LL
RMV
BTS3900, BTS3900 CSPCCLUSTERCE
LTE
LL
CspcCluster
CspcClusterId
CspcClusterCell
CspcClusterId
CspcClusterCell
Mcc
ADD
CSPCCLUSTERCE
LL
LST
CSPCCLUSTERCE
LL
RMV
BTS3900, BTS3900 CSPCCLUSTERCE
Mobile country code LTE
LL
Mnc
ADD
CSPCCLUSTERCE
LL
LST
CSPCCLUSTERCE
LL
RMV
BTS3900, BTS3900 CSPCCLUSTERCE
LTE
LL
CspcClusterCell
Mobile network
code
CspcClusterCell
eNodeBId
eNodeB ID
ADD
CSPCCLUSTERCE
LL
LST
CSPCCLUSTERCE
LL
RMV
BTS3900, BTS3900 CSPCCLUSTERCE
LTE
LL
Cell ID
ADD
CSPCCLUSTERCE
LL
LST
CSPCCLUSTERCE
LL
RMV
BTS3900, BTS3900 CSPCCLUSTERCE
LTE
LL
CspcClusterCell
CellId
Mcc
ADD
EUTRANEXTERNA
LCELLPLMN
LST
EUTRANEXTERNA
LCELLPLMN
RMV
BTS3900, BTS3900 EUTRANEXTERNA
Mobile country code LTE
LCELLPLMN
Mnc
Mobile network
code
ADD
EUTRANEXTERNA
LCELLPLMN
LST
EUTRANEXTERNA
LCELLPLMN
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLPLMN
eNodeB ID
ADD
EUTRANEXTERNA
LCELLPLMN
LST
EUTRANEXTERNA
LCELLPLMN
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLPLMN
EutranExternalCellP
EutranExternalCellP
EutranExternalCellP
eNodeBId
EutranExternalCellP
CellId
Cell ID
ADD
EUTRANEXTERNA
LCELLPLMN
LST
EUTRANEXTERNA
LCELLPLMN
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLPLMN
Share mobile
country code
ADD
EUTRANEXTERNA
LCELLPLMN
LST
EUTRANEXTERNA
LCELLPLMN
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLPLMN
EutranExternalCellP
ShareMcc
EutranExternalCellP
Share mobile
network code
ADD
EUTRANEXTERNA
LCELLPLMN
LST
EUTRANEXTERNA
LCELLPLMN
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLPLMN
GeranCellId
GERAN cell ID
ADD
GERANEXTERNAL
CELLPLMN
LST
GERANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELLPLMN
Lac
ADD
GERANEXTERNAL
CELLPLMN
LST
GERANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 GERANEXTERNAL
Location area code LTE
CELLPLMN
Mcc
ADD
GERANEXTERNAL
CELLPLMN
LST
GERANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 GERANEXTERNAL
Mobile country code LTE
CELLPLMN
ShareMnc
GeranExternalCellP
GeranExternalCellP
GeranExternalCellP
Mobile network
code
ADD
GERANEXTERNAL
CELLPLMN
LST
GERANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELLPLMN
Share mobile
country code
ADD
GERANEXTERNAL
CELLPLMN
LST
GERANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELLPLMN
Share mobile
network code
ADD
GERANEXTERNAL
CELLPLMN
LST
GERANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELLPLMN
GeranExternalCellP
Mnc
GeranExternalCellP
ShareMcc
GeranExternalCellP
ShareMnc
UtranExternalCellPl
Mcc
ADD
UTRANEXTERNAL
CELLPLMN
LST
UTRANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 UTRANEXTERNAL
Mobile country code LTE
CELLPLMN
Mnc
Mobile network
code
ADD
UTRANEXTERNAL
CELLPLMN
LST
UTRANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLPLMN
RNC ID
ADD
UTRANEXTERNAL
CELLPLMN
LST
UTRANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLPLMN
UtranExternalCellPl
UtranExternalCellPl
RncId
UtranExternalCellPl
CellId
RNC cell ID
ADD
UTRANEXTERNAL
CELLPLMN
LST
UTRANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLPLMN
Share mobile
country code
ADD
UTRANEXTERNAL
CELLPLMN
LST
UTRANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLPLMN
UtranExternalCellPl
ShareMcc
UtranExternalCellPl
ShareMnc
Share mobile
network code
ADD
UTRANEXTERNAL
CELLPLMN
LST
UTRANEXTERNAL
CELLPLMN
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLPLMN
SectorID104
ADD
CDMA2000HRPDE
XTCELL
LST
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Cdma2000HrpdExtCe
SectorId104
Cdma2000HrpdExtCe
SectorId24
SectorID24
ADD
CDMA2000HRPDE
XTCELL
LST
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Band class
ADD
CDMA2000HRPDE
XTCELL
LST
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Cdma2000HrpdExtCe
BandClass
Cdma2000HrpdExtCe
Frequency
Frequency
ADD
CDMA2000HRPDE
XTCELL
LST
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
RMV
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Cdma2000HrpdExtCe
Mcc
ADD
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
LST
BTS3900, BTS3900 CDMA2000HRPDE
Mobile country code LTE
XTCELL
Cdma2000HrpdExtCe
Mnc
Mobile network
code
ADD
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
LST
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Physical cell ID
ADD
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
LST
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Cell name
ADD
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
LST
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
Cdma2000HrpdExtCe
PnOffset
Cdma2000HrpdExtCe
CellName
Cdma2000HrpdExtCe
CtrlMode
Control Mode
Cdma20001XrttExtCe
Cdma20001XrttCell CDMA20001XRTT
Id
cell ID
ADD
CDMA2000HRPDE
XTCELL
MOD
CDMA2000HRPDE
XTCELL
LST
BTS3900, BTS3900 CDMA2000HRPDE
LTE
XTCELL
ADD
CDMA20001XRTT
EXTCELL
LST
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cdma20001XrttExtCe
Cdma20001XrttSec CDMA20001XRTT
torId
sector ID
Band class
ADD
CDMA20001XRTT
EXTCELL
LST
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Frequency
ADD
CDMA20001XRTT
EXTCELL
LST
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
System ID
ADD
CDMA20001XRTT
EXTCELL
LST
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cdma20001XrttExtCe
BandClass
Cdma20001XrttExtCe
Frequency
Cdma20001XrttExtCe
Sid
ADD
CDMA20001XRTT
EXTCELL
LST
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cdma20001XrttExtCe
Nid
Network ID
ADD
CDMA20001XRTT
EXTCELL
LST
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cdma20001XrttExtCe
Mcc
ADD
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
Mobile country code LTE
EXTCELL
Cdma20001XrttExtCe
Mnc
Mobile network
code
ADD
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
MSC ID
ADD
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cdma20001XrttExtCe
MscId
Physical cell ID
ADD
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cell name
ADD
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Control Mode
ADD
CDMA20001XRTT
EXTCELL
MOD
CDMA20001XRTT
EXTCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
EXTCELL
Cdma20001XrttExtCe
PnOffset
Cdma20001XrttExtCe
CellName
Cdma20001XrttExtCe
CtrlMode
Cdma20001XrttNCell
LocalCellId
Local cell ID
Cdma20001XrttNCell
Cdma20001XrttCell CDMA20001XRTT
Id
cell ID
Cdma20001XrttNCell
Cdma20001XrttSec CDMA20001XRTT
torId
sector ID
Cdma20001XrttNCell
BandClass
Band class
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Frequency
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
System ID
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Network ID
ADD
CDMA20001XRTT
NCELL
LST
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
RMV
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
No handover
indicator
ADD
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Cdma20001XrttNCell
Frequency
Cdma20001XrttNCell
Sid
Cdma20001XrttNCell
Nid
Cdma20001XrttNCell
NoHoFlag
Cdma20001XrttNCell
NoRmvFlag
ADD
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
No remove indicator LTE
NCELL
ANR flag
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Local cell name
ADD
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Cdma20001XrttNCell
AnrFlag
Cdma20001XrttNCell
LocalCellName
Cdma20001XrttNCell
NeighbourCellNam Neighbour cell
e
name
ADD
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Cdma20001XrttNCell
CtrlMode
Control Mode
ADD
CDMA20001XRTT
NCELL
MOD
CDMA20001XRTT
NCELL
LST
BTS3900, BTS3900 CDMA20001XRTT
LTE
NCELL
Local cell ID
ADD
CDMA2000BANDC
LASS
LST
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
RMV
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
Cdma2000BandClas
LocalCellId
Cdma2000BandClas
BandClass
Band class
ADD
CDMA2000BANDC
LASS
LST
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
RMV
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
CDMA20001XRTT
Cdma20001XrttCell cell reselection
ReselInd
indicator
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
CDMA20001XRTT
Cdma20001XrttCell cell reselection
ReselPri
priority
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
Cdma2000BandClas
Cdma2000BandClas
Cdma2000BandClas
CDMA20001XRTT
Cdma20001XrttThr high priority
eshXHigh
threshold
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
CDMA20001XRTT
Cdma20001XrttThr lower priority
eshXLow
threshold
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
Cdma2000BandClas
CDMA2000HRPD
Cdma2000HrpdCell cell reselection
ReselInd
indicator
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
CDMA2000HRPD
Cdma2000HrpdCell cell reselection
ReselPri
priority
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
CDMA2000HRPD
Cdma2000HrpdThr high priority
eshXHigh
threshold
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
Cdma2000BandClas
Cdma2000BandClas
Cdma2000BandClas
Cdma2000BandClas
CDMA2000HRPD
Cdma2000HrpdThr lower priority
eshXLow
threshold
ADD
CDMA2000BANDC
LASS
MOD
CDMA2000BANDC
LASS
LST
BTS3900, BTS3900 CDMA2000BANDC
LTE
LASS
Mcc
ADD
GERANEXTERNAL
CELL
LST
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
RMV
BTS3900, BTS3900 GERANEXTERNAL
Mobile country code LTE
CELL
Mnc
ADD
GERANEXTERNAL
CELL
LST
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
RMV
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
GeranExternalCell
GeranExternalCell
Mobile network
code
GeranExternalCell
ADD
GERANEXTERNAL
CELL
LST
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
RMV
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
GeranCellId
GERAN cell ID
Lac
ADD
GERANEXTERNAL
CELL
LST
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
RMV
BTS3900, BTS3900 GERANEXTERNAL
Location area code LTE
CELL
GeranExternalCell
Routing area code
configure indicator
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
Routing area code
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
GeranExternalCell
RacCfgInd
GeranExternalCell
Rac
GeranExternalCell
BandIndicator
Band indicator
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
GERAN ARFCN
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
GeranExternalCell
GeranArfcn
GeranExternalCell
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
NetworkColourCod
BTS3900, BTS3900 GERANEXTERNAL
e
Network color code LTE
CELL
GeranExternalCell
BaseStationColour
Code
Base station color
code
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
DTM indication
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
GeranExternalCell
DtmInd
GeranExternalCell
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
CellName
Cell name
CsPsHOInd
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
CS and PS
BTS3900, BTS3900 GERANEXTERNAL
handover indication LTE
CELL
GeranExternalCell
GeranExternalCell
CtrlMode
Control Mode
ADD
GERANEXTERNAL
CELL
MOD
GERANEXTERNAL
CELL
LST
BTS3900, BTS3900 GERANEXTERNAL
LTE
CELL
Local cell ID
ADD
GERANNCELL
DSP
GERANRIMINFO
LST GERANNCELL
MOD
GERANNCELL
BTS3900, BTS3900 RMV
LTE
GERANNCELL
GeranNcell
LocalCellId
Mcc
ADD
GERANNCELL
LST GERANNCELL
MOD
GERANNCELL
RMV
GERANNCELL
BTS3900, BTS3900 DSP
Mobile country code LTE
GERANRIMINFO
Mnc
Mobile network
code
ADD
GERANNCELL
LST GERANNCELL
MOD
GERANNCELL
RMV
GERANNCELL
BTS3900, BTS3900 DSP
LTE
GERANRIMINFO
Lac
ADD
GERANNCELL
LST GERANNCELL
MOD
GERANNCELL
RMV
GERANNCELL
BTS3900, BTS3900 DSP
Location area code LTE
GERANRIMINFO
GeranNcell
GeranNcell
GeranNcell
GeranNcell
GeranCellId
GERAN cell ID
ADD
GERANNCELL
LST GERANNCELL
MOD
GERANNCELL
RMV
GERANNCELL
BTS3900, BTS3900 DSP
LTE
GERANRIMINFO
GeranNcell
NoRmvFlag
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
No remove indicator LTE
LST GERANNCELL
No handover
indicator
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
LTE
LST GERANNCELL
BlindHoPriority
Blind handover
priority
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
LTE
LST GERANNCELL
AnrFlag
ANR flag
BTS3900, BTS3900
LTE
LST GERANNCELL
GeranNcell
NoHoFlag
GeranNcell
GeranNcell
GeranNcell
LocalCellName
Local cell name
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
LTE
LST GERANNCELL
GeranNcell
NeighbourCellNam Neighbour cell
e
name
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
LTE
LST GERANNCELL
GeranNcell
OverlapInd
Overlap Indicator
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
LTE
LST GERANNCELL
Control Mode
ADD
GERANNCELL
MOD
BTS3900, BTS3900 GERANNCELL
LTE
LST GERANNCELL
GeranNcell
CtrlMode
GeranNcell
eNodeBId
eNodeB ID
BTS3900, BTS3900 DSP
LTE
GERANRIMINFO
GeranNcell
GRimBeginningTim
BTS3900, BTS3900 DSP
e
Rim latest start time LTE
GERANRIMINFO
GeranNcell
GLastRimUpdating Rim latest update
Time
time
BTS3900, BTS3900 DSP
LTE
GERANRIMINFO
LocalCellId
Local cell ID
ADD
GERANNFREQGR
OUP
LST
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
RMV
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
BCCH group ID
ADD
GERANNFREQGR
OUP
LST
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
RMV
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
GeranNfreqGroup
BcchGroupId
GERAN version
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
Starting ARFCN
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
Band indicator
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
GeranVersion
GeranNfreqGroup
StartingArfcn
GeranNfreqGroup
BandIndicator
GeranNfreqGroup
Cell reselection
CellReselPriorityCfg priority configure
Ind
indicator
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
CellReselPriority
Cell reselection
priority
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
PMAX configure
indicator
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
PMAX
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
PmaxGeranCfgInd
GeranNfreqGroup
PmaxGeran
GeranNfreqGroup
QRxLevMin
Minimum required
RX level
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
ThreshXHigh
High priority
threshold
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
ThreshXLow
Lower priority
threshold
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
Frequency offset
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
OffsetFreq
NCC monitoring
permitted
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
Frequency Priority
for Connected
Mode
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
NccPermitted
GeranNfreqGroup
ConnFreqPriority
GeranNfreqGroup
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
ContinuCoverageIn Continuous
BTS3900, BTS3900 GERANNFREQGR
dication
Coverage Indication LTE
OUP
GeranNfreqGroup
AnrInd
ANR Indication
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
GeranNfreqGroup
FreqPriorityForAnr
ANR Frequency
Priority
ADD
GERANNFREQGR
OUP
MOD
GERANNFREQGR
OUP
LST
BTS3900, BTS3900 GERANNFREQGR
LTE
OUP
Local cell ID
ADD
GERANNFREQGR
OUPARFCN
LST
GERANNFREQGR
OUPARFCN
RMV
BTS3900, BTS3900 GERANNFREQGR
LTE
OUPARFCN
BCCH group ID
ADD
GERANNFREQGR
OUPARFCN
LST
GERANNFREQGR
OUPARFCN
RMV
BTS3900, BTS3900 GERANNFREQGR
LTE
OUPARFCN
GeranNfreqGroupArf
LocalCellId
GeranNfreqGroupArf
BcchGroupId
GERAN ARFCN
ADD
GERANNFREQGR
OUPARFCN
LST
GERANNFREQGR
OUPARFCN
RMV
BTS3900, BTS3900 GERANNFREQGR
LTE
OUPARFCN
Local cell ID
ADD
INTRAFREQBLKC
ELL
LST
INTRAFREQBLKC
ELL
MOD
INTRAFREQBLKC
ELL
RMV
BTS3900, BTS3900 INTRAFREQBLKC
LTE
ELL
Start physical cell
ID
ADD
INTRAFREQBLKC
ELL
LST
INTRAFREQBLKC
ELL
MOD
INTRAFREQBLKC
ELL
RMV
BTS3900, BTS3900 INTRAFREQBLKC
LTE
ELL
Cell name
ADD
INTRAFREQBLKC
ELL
MOD
INTRAFREQBLKC
ELL
LST
BTS3900, BTS3900 INTRAFREQBLKC
LTE
ELL
GeranNfreqGroupArf
GeranArfcn
IntraFreqBlkCell
LocalCellId
IntraFreqBlkCell
PhyCellId
IntraFreqBlkCell
CellName
Physical cell ID
range
ADD
INTRAFREQBLKC
ELL
MOD
INTRAFREQBLKC
ELL
LST
BTS3900, BTS3900 INTRAFREQBLKC
LTE
ELL
LocalCellId
Local cell ID
ADD
EUTRANINTRAFR
EQNCELL
LST
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
Mcc
ADD
EUTRANINTRAFR
EQNCELL
LST
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTRAFR
Mobile country code LTE
EQNCELL
Mnc
ADD
EUTRANINTRAFR
EQNCELL
LST
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
IntraFreqBlkCell
PhyCellIdRange
EutranIntraFreqNCel
EutranIntraFreqNCel
EutranIntraFreqNCel
Mobile network
code
EutranIntraFreqNCel
eNodeBId
eNodeB ID
ADD
EUTRANINTRAFR
EQNCELL
LST
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
Cell ID
ADD
EUTRANINTRAFR
EQNCELL
LST
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
EutranIntraFreqNCel
CellId
EutranIntraFreqNCel
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
CellIndividualOffset Cell individual offset LTE
EQNCELL
EutranIntraFreqNCel
Cell offset
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
NoHoFlag
No handover
indicator
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
NoRmvFlag
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
No remove indicator LTE
EQNCELL
CellQoffset
EutranIntraFreqNCel
EutranIntraFreqNCel
EutranIntraFreqNCel
AnrFlag
ANR flag
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
EutranIntraFreqNCel
LocalCellName
Local cell name
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
EutranIntraFreqNCel
NeighbourCellNam Neighbour cell
e
name
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
EutranIntraFreqNCel
CellMeasPriority
Cell Measure
Priority
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
EutranIntraFreqNCel
CellRangeExpansio Cell Range
n
Expansion
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
EutranIntraFreqNCel
CtrlMode
Control Mode
ADD
EUTRANINTRAFR
EQNCELL
MOD
EUTRANINTRAFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTRAFR
LTE
EQNCELL
Local cell ID
ADD
EUTRANINTERNF
REQ
LST
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
RMV
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
LocalCellId
EutranInterNFreq
DlEarfcn
ADD
EUTRANINTERNF
REQ
LST
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
RMV
BTS3900, BTS3900 EUTRANINTERNF
Downlink EARFCN LTE
REQ
Uplink EARFCN
configure indicator
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
Uplink EARFCN
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
UlEarfcnCfgInd
EutranInterNFreq
UlEarfcn
EutranInterNFreq
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Inter frequency cell
LST
CellReselPriorityCfg resel priority
BTS3900, BTS3900 EUTRANINTERNF
Ind
configure indicator LTE
REQ
EutranInterNFreq
CellReselPriority
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
Inter frequency cell BTS3900, BTS3900 EUTRANINTERNF
resel priority
LTE
REQ
EutranInterNFreq
EutranReselTime
EutranInterNFreq
EUTRAN
reselection time
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Speed dependent
LST
SpeedDependSPCf resel parameter
BTS3900, BTS3900 EUTRANINTERNF
gInd
configuring indicator LTE
REQ
EutranInterNFreq
Scaling factor of
treseleutran in
TReselEutranSfMe medium mobility
dium
state
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Scaling factor of
LST
TReselEutranSfHig treseleutran in high BTS3900, BTS3900 EUTRANINTERNF
h
mobility state
LTE
REQ
EutranInterNFreq
MeasBandWidth
Measurement
bandwidth
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
Frequency offset
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
QoffsetFreq
EutranInterNFreq
ThreshXhigh
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
Inter frequency high BTS3900, BTS3900 EUTRANINTERNF
priority threshold
LTE
REQ
EutranInterNFreq
ThreshXlow
Inter frequency
lower priority
threshold
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
QRxLevMin
Minimum required
RX level
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
PMAX configure
indicator
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
PmaxCfgInd
EutranInterNFreq
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
Pmax
PMAX
NeighCellConfig
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
Neighbor cell config LTE
REQ
EutranInterNFreq
EutranInterNFreq
PresenceAntennaP Presence antenna
ort1
port1
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
InterFreqHoEventTy Inter-Freq HO
pe
trigger Event Type
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
EutranInterNFreq
ThreshXhighQ
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Inter frequency high
LST
priority RSRQ
BTS3900, BTS3900 EUTRANINTERNF
threshold
LTE
REQ
EutranInterNFreq
ThreshXlowQ
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Inter frequency low
LST
priority RSRQ
BTS3900, BTS3900 EUTRANINTERNF
threshold
LTE
REQ
QqualMinCfgInd
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Minimum RX signal
LST
quality configuration BTS3900, BTS3900 EUTRANINTERNF
indicator
LTE
REQ
EutranInterNFreq
EutranInterNFreq
QqualMin
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
Minimum RX signal BTS3900, BTS3900 EUTRANINTERNF
quality
LTE
REQ
EutranInterNFreq
ConnFreqPriority
Frequency Priority
for Connected
Mode
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
MlbTargetInd
Mobility Load
Balancing Target
Indicator
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Frequency Priority
LST
FreqPriBasedHoMe Based Ho Measure BTS3900, BTS3900 EUTRANINTERNF
asFlag
Flag
LTE
REQ
EutranInterNFreq
IdleMlbUERelease
Ratio
Idle MLB UE
Release Ratio
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
MLB Frequency
Priority
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
MlbFreqPriority
EutranInterNFreq
QoffsetFreqConn
Frequency Offset
for Connected
Mode
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
Measurement
Frequency Priority
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
MeasFreqPriority
EutranInterNFreq
IfHoThdRsrpOffset
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
Cov-based InterLST
Freq HO Thd RSRP BTS3900, BTS3900 EUTRANINTERNF
Offset
LTE
REQ
EutranInterNFreq
Inter-Freq Mlb
Threshold RSRP
IfMlbThdRsrpOffset Offset
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
MasterBandFlag
Master Band Flag
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
ANR Indication
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
AnrInd
EutranInterNFreq
FreqPriorityForAnr
ANR Frequency
Priority
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
EutranInterNFreq
CtrlMode
Control Mode
ADD
EUTRANINTERNF
REQ
MOD
EUTRANINTERNF
REQ
LST
BTS3900, BTS3900 EUTRANINTERNF
LTE
REQ
Local cell ID
ADD
INTERFREQBLKC
ELL
LST
INTERFREQBLKC
ELL
MOD
INTERFREQBLKC
ELL
RMV
BTS3900, BTS3900 INTERFREQBLKC
LTE
ELL
InterFreqBlkCell
LocalCellId
InterFreqBlkCell
DlEarfcn
ADD
INTERFREQBLKC
ELL
LST
INTERFREQBLKC
ELL
MOD
INTERFREQBLKC
ELL
RMV
BTS3900, BTS3900 INTERFREQBLKC
Downlink EARFCN LTE
ELL
Start physical cell
ID
ADD
INTERFREQBLKC
ELL
LST
INTERFREQBLKC
ELL
MOD
INTERFREQBLKC
ELL
RMV
BTS3900, BTS3900 INTERFREQBLKC
LTE
ELL
Cell name
ADD
INTERFREQBLKC
ELL
MOD
INTERFREQBLKC
ELL
LST
BTS3900, BTS3900 INTERFREQBLKC
LTE
ELL
Physical cell ID
range
ADD
INTERFREQBLKC
ELL
MOD
INTERFREQBLKC
ELL
LST
BTS3900, BTS3900 INTERFREQBLKC
LTE
ELL
InterFreqBlkCell
PhyCellId
InterFreqBlkCell
CellName
InterFreqBlkCell
PhyCellIdRange
EutranInterFreqNCel
ADD
EUTRANINTERFR
EQNCELL
LST
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
LocalCellId
Local cell ID
Mcc
ADD
EUTRANINTERFR
EQNCELL
LST
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTERFR
Mobile country code LTE
EQNCELL
Mnc
ADD
EUTRANINTERFR
EQNCELL
LST
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
EutranInterFreqNCel
Mobile network
code
EutranInterFreqNCel
eNodeBId
eNodeB ID
ADD
EUTRANINTERFR
EQNCELL
LST
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
Cell ID
ADD
EUTRANINTERFR
EQNCELL
LST
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
RMV
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
CellId
EutranInterFreqNCel
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
CellIndividualOffset Cell individual offset LTE
EQNCELL
EutranInterFreqNCel
Cell offset
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
NoHoFlag
No handover
indicator
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
NoRmvFlag
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
No remove indicator LTE
EQNCELL
CellQoffset
EutranInterFreqNCel
EutranInterFreqNCel
EutranInterFreqNCel
BlindHoPriority
Blind handover
Priority
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
ANR flag
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
AnrFlag
EutranInterFreqNCel
LocalCellName
Local cell name
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
NeighbourCellNam Neighbour cell
e
name
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
CellMeasPriority
Cell Measure
Priority
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
OverlapInd
Overlap Indicator
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
Overlap Range
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
EutranInterFreqNCel
OverlapRange
EutranInterFreqNCel
ADD
EUTRANINTERFR
EQNCELL
MOD
EUTRANINTERFR
EQNCELL
LST
BTS3900, BTS3900 EUTRANINTERFR
LTE
EQNCELL
CtrlMode
Control Mode
Mcc
ADD
EUTRANEXTERNA
LCELL
ADD
EUTRANEXTERNA
LCELLBAND
LST
EUTRANEXTERNA
LCELL
LST
EUTRANEXTERNA
LCELLBAND
MOD
EUTRANEXTERNA
LCELL
RMV
EUTRANEXTERNA
LCELL
RMV
BTS3900, BTS3900 EUTRANEXTERNA
Mobile country code LTE
LCELLBAND
EutranExternalCell
Mobile network
code
ADD
EUTRANEXTERNA
LCELL
ADD
EUTRANEXTERNA
LCELLBAND
LST
EUTRANEXTERNA
LCELL
LST
EUTRANEXTERNA
LCELLBAND
MOD
EUTRANEXTERNA
LCELL
RMV
EUTRANEXTERNA
LCELL
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLBAND
eNodeB ID
ADD
EUTRANEXTERNA
LCELL
ADD
EUTRANEXTERNA
LCELLBAND
LST
EUTRANEXTERNA
LCELL
LST
EUTRANEXTERNA
LCELLBAND
MOD
EUTRANEXTERNA
LCELL
RMV
EUTRANEXTERNA
LCELL
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLBAND
EutranExternalCell
Mnc
EutranExternalCell
eNodeBId
EutranExternalCell
ADD
EUTRANEXTERNA
LCELL
ADD
EUTRANEXTERNA
LCELLBAND
LST
EUTRANEXTERNA
LCELL
LST
EUTRANEXTERNA
LCELLBAND
MOD
EUTRANEXTERNA
LCELL
RMV
EUTRANEXTERNA
LCELL
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLBAND
CellId
Cell ID
DlEarfcn
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
Downlink EARFCN LTE
LCELL
EutranExternalCell
EutranExternalCell
UlEarfcnCfgInd
Uplink EARFCN
indicator
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELL
EutranExternalCell
Uplink EARFCN
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELL
PhyCellId
Physical cell ID
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELL
Tac
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
Tracking area code LTE
LCELL
UlEarfcn
EutranExternalCell
EutranExternalCell
EutranExternalCell
CellName
Cell name
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELL
EutranExternalCell
EutranExternalCell
SlaveBand
ADD
EUTRANEXTERNA
LCELLBAND
LST
EUTRANEXTERNA
LCELLBAND
RMV
External E-UTRAN BTS3900, BTS3900 EUTRANEXTERNA
Cell Slave Band
LTE
LCELLBAND
EutranExternalCell
MultiBand.FreqBan
d
Frequency band
ADD
EUTRANEXTERNA
LCELLBAND
LST
EUTRANEXTERNA
LCELLBAND
RMV
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELLBAND
EutranExternalCell
CtrlMode
Control Mode
ADD
EUTRANEXTERNA
LCELL
MOD
EUTRANEXTERNA
LCELL
LST
BTS3900, BTS3900 EUTRANEXTERNA
LTE
LCELL
Local cell ID
ADD
CDMA2000BCSCE
LLOP
LST
CDMA2000BCSCE
LLOP
MOD
CDMA2000BCSCE
LLOP
RMV
BTS3900, BTS3900 CDMA2000BCSCE
LTE
LLOP
Cdma2000BcSCellO
LocalCellId
Band class
ADD
CDMA2000BCSCE
LLOP
LST
CDMA2000BCSCE
LLOP
MOD
CDMA2000BCSCE
LLOP
RMV
BTS3900, BTS3900 CDMA2000BCSCE
LTE
LLOP
Cn operator ID
ADD
CDMA2000BCSCE
LLOP
LST
CDMA2000BCSCE
LLOP
MOD
CDMA2000BCSCE
LLOP
RMV
BTS3900, BTS3900 CDMA2000BCSCE
LTE
LLOP
Cdma2000BcSCellO
BandClass
Cdma2000BcSCellO
CnOperatorID
ADD
CDMA2000BCSCE
LLOP
MOD
Cdma2000BcSCellO
CDMA2000BCSCE
LLOP
CDMA2000 1xRTT
LST
Cdma1XrttCellRese dedicated priority
BTS3900, BTS3900 CDMA2000BCSCE
lPriInd
configure indicator LTE
LLOP
Cdma2000BcSCellO
ADD
CDMA2000BCSCE
LLOP
MOD
CDMA2000BCSCE
LLOP
CDMA2000 1xRTT
LST
Cdma1XrttCellRese Cell Reselection
BTS3900, BTS3900 CDMA2000BCSCE
lDediPri
Dedicated Priority LTE
LLOP
Cdma2000BcSCellO
CDMA2000 HRPD
HrpdCellReselDedi dedicated priority
PriCfgInd
configure indicator
ADD
CDMA2000BCSCE
LLOP
MOD
CDMA2000BCSCE
LLOP
LST
BTS3900, BTS3900 CDMA2000BCSCE
LTE
LLOP
Cdma2000BcSCellO
CDMA2000 HRPD
HrpdCellReselDedi Cell Reselection
Pri
Dedicated Priority
ADD
CDMA2000BCSCE
LLOP
MOD
CDMA2000BCSCE
LLOP
LST
BTS3900, BTS3900 CDMA2000BCSCE
LTE
LLOP
LocalCellId
ADD
EUTRANNFREQR
ANSHARE
LST
EUTRANNFREQR
ANSHARE
MOD
EUTRANNFREQR
ANSHARE
RMV
BTS3900, BTS3900 EUTRANNFREQR
LTE
ANSHARE
EutranNFreqRanSha
Local cell ID
DlEarfcn
ADD
EUTRANNFREQR
ANSHARE
LST
EUTRANNFREQR
ANSHARE
MOD
EUTRANNFREQR
ANSHARE
RMV
BTS3900, BTS3900 EUTRANNFREQR
Downlink EARFCN LTE
ANSHARE
Mcc
ADD
EUTRANNFREQR
ANSHARE
LST
EUTRANNFREQR
ANSHARE
MOD
EUTRANNFREQR
ANSHARE
RMV
BTS3900, BTS3900 EUTRANNFREQR
Mobile country code LTE
ANSHARE
Mnc
ADD
EUTRANNFREQR
ANSHARE
LST
EUTRANNFREQR
ANSHARE
MOD
EUTRANNFREQR
ANSHARE
RMV
BTS3900, BTS3900 EUTRANNFREQR
LTE
ANSHARE
EutranNFreqRanSha
EutranNFreqRanSha
EutranNFreqRanSha
Mobile network
code
EutranNFreqRanSha
Cell reselection
CellReselPriorityCfg priority configure
Ind
indicator
ADD
EUTRANNFREQR
ANSHARE
MOD
EUTRANNFREQR
ANSHARE
LST
BTS3900, BTS3900 EUTRANNFREQR
LTE
ANSHARE
EutranNFreqRanSha
CellReselPriority
Cell reselection
priority
ADD
EUTRANNFREQR
ANSHARE
MOD
EUTRANNFREQR
ANSHARE
LST
BTS3900, BTS3900 EUTRANNFREQR
LTE
ANSHARE
Local cell ID
ADD
EUTRANNFREQS
CELLOP
LST
EUTRANNFREQS
CELLOP
MOD
EUTRANNFREQS
CELLOP
RMV
BTS3900, BTS3900 EUTRANNFREQS
LTE
CELLOP
EutranNFreqSCellOp
LocalCellId
EutranNFreqSCellOp
DlEarfcn
ADD
EUTRANNFREQS
CELLOP
LST
EUTRANNFREQS
CELLOP
MOD
EUTRANNFREQS
CELLOP
RMV
BTS3900, BTS3900 EUTRANNFREQS
Downlink EARFCN LTE
CELLOP
EutranNFreqSCellOp
CnOperatorID
Cn operator ID
EutranNFreqSCellOp
Cell reselection
CellReselDediPriCf dedicated priority
gInd
configure indicator
ADD
EUTRANNFREQS
CELLOP
LST
EUTRANNFREQS
CELLOP
MOD
EUTRANNFREQS
CELLOP
RMV
BTS3900, BTS3900 EUTRANNFREQS
LTE
CELLOP
ADD
EUTRANNFREQS
CELLOP
MOD
EUTRANNFREQS
CELLOP
LST
BTS3900, BTS3900 EUTRANNFREQS
LTE
CELLOP
EutranNFreqSCellOp
CellReselDediPri
Cell reselection
dedicated priority
ADD
EUTRANNFREQS
CELLOP
MOD
EUTRANNFREQS
CELLOP
LST
BTS3900, BTS3900 EUTRANNFREQS
LTE
CELLOP
Local cell ID
ADD
GERANNFGROUP
SCELLOP
LST
GERANNFGROUP
SCELLOP
MOD
GERANNFGROUP
SCELLOP
RMV
BTS3900, BTS3900 GERANNFGROUP
LTE
SCELLOP
GeranNFGroupSCell
LocalCellId
BCCH group ID
ADD
GERANNFGROUP
SCELLOP
LST
GERANNFGROUP
SCELLOP
MOD
GERANNFGROUP
SCELLOP
RMV
BTS3900, BTS3900 GERANNFGROUP
LTE
SCELLOP
Cn operator ID
ADD
GERANNFGROUP
SCELLOP
LST
GERANNFGROUP
SCELLOP
MOD
GERANNFGROUP
SCELLOP
RMV
BTS3900, BTS3900 GERANNFGROUP
LTE
SCELLOP
GeranNFGroupSCell
BcchGroupId
GeranNFGroupSCell
CnOperatorID
GeranNFGroupSCell
Cell reselection
CellReselDediPriCf dedicated priority
gInd
configure indicator
ADD
GERANNFGROUP
SCELLOP
MOD
GERANNFGROUP
SCELLOP
LST
BTS3900, BTS3900 GERANNFGROUP
LTE
SCELLOP
GeranNFGroupSCell
CellReselDediPri
Cell reselection
dedicated priority
ADD
GERANNFGROUP
SCELLOP
MOD
GERANNFGROUP
SCELLOP
LST
BTS3900, BTS3900 GERANNFGROUP
LTE
SCELLOP
Local cell ID
ADD
GERANRANSHAR
E
LST
GERANRANSHAR
E
MOD
GERANRANSHAR
E
RMV
BTS3900, BTS3900 GERANRANSHAR
LTE
E
GeranRanShare
LocalCellId
GeranRanShare
ADD
GERANRANSHAR
E
LST
GERANRANSHAR
E
MOD
GERANRANSHAR
E
RMV
BTS3900, BTS3900 GERANRANSHAR
LTE
E
BcchGroupId
BCCH group ID
Mcc
ADD
GERANRANSHAR
E
LST
GERANRANSHAR
E
MOD
GERANRANSHAR
E
RMV
BTS3900, BTS3900 GERANRANSHAR
Mobile country code LTE
E
GeranRanShare
GeranRanShare
Mnc
Mobile network
code
GeranRanShare
Cell reselection
CellReselPriorityCfg priority configure
Ind
indicator
ADD
GERANRANSHAR
E
LST
GERANRANSHAR
E
MOD
GERANRANSHAR
E
RMV
BTS3900, BTS3900 GERANRANSHAR
LTE
E
ADD
GERANRANSHAR
E
MOD
GERANRANSHAR
E
LST
BTS3900, BTS3900 GERANRANSHAR
LTE
E
GeranRanShare
CellReselPriority
Cell reselection
priority
LocalCellId
Local cell ID
UtranNCell
ADD
GERANRANSHAR
E
MOD
GERANRANSHAR
E
LST
BTS3900, BTS3900 GERANRANSHAR
LTE
E
ADD
UTRANNCELL
DSP
UTRANRIMINFO
DSP
UTRANRIMLOADI
NFO
LST UTRANNCELL
MOD
UTRANNCELL
BTS3900, BTS3900 RMV
LTE
UTRANNCELL
Mcc
ADD
UTRANNCELL
LST UTRANNCELL
MOD
UTRANNCELL
RMV
UTRANNCELL
DSP
UTRANRIMINFO
DSP
BTS3900, BTS3900 UTRANRIMLOADI
Mobile country code LTE
NFO
Mnc
Mobile network
code
ADD
UTRANNCELL
LST UTRANNCELL
MOD
UTRANNCELL
RMV
UTRANNCELL
DSP
UTRANRIMINFO
DSP
BTS3900, BTS3900 UTRANRIMLOADI
LTE
NFO
RNC ID
ADD
UTRANNCELL
LST UTRANNCELL
MOD
UTRANNCELL
RMV
UTRANNCELL
DSP
UTRANRIMINFO
DSP
BTS3900, BTS3900 UTRANRIMLOADI
LTE
NFO
UtranNCell
UtranNCell
UtranNCell
RncId
UtranNCell
RNC cell ID
ADD
UTRANNCELL
LST UTRANNCELL
MOD
UTRANNCELL
RMV
UTRANNCELL
DSP
UTRANRIMINFO
DSP
BTS3900, BTS3900 UTRANRIMLOADI
LTE
NFO
NoHoFlag
No handover
indicator
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
NoRmvFlag
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
No remove indicator LTE
LST UTRANNCELL
AnrFlag
ANR flag
CellId
UtranNCell
UtranNCell
UtranNCell
BTS3900, BTS3900
LTE
LST UTRANNCELL
UtranNCell
BlindHoPriority
Blind handover
priority
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
Cell Measure
Priority
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
UtranNCell
CellMeasPriority
UtranNCell
OverlapInd
Overlap Indicator
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
Local cell name
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
UtranNCell
LocalCellName
UtranNCell
NeighbourCellNam Neighbour cell
e
name
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
UtranNCell
CtrlMode
Control Mode
ADD
UTRANNCELL
MOD
BTS3900, BTS3900 UTRANNCELL
LTE
LST UTRANNCELL
eNodeB ID
DSP
UTRANRIMINFO
DSP
BTS3900, BTS3900 UTRANRIMLOADI
LTE
NFO
UtranNCell
eNodeBId
UtranNCell
URimBeginningTim
BTS3900, BTS3900 DSP
e
Rim latest start time LTE
UTRANRIMINFO
UtranNCell
ULastRimUpdating RIM latest update
Time
time
BTS3900, BTS3900 DSP
LTE
UTRANRIMINFO
UtranNCell
DSP
ULastRimLoadUpd cell load RIM latest BTS3900, BTS3900 UTRANRIMLOADI
atingTime
update time
LTE
NFO
UtranNCell
DSP
URimLoadStartTim Cell load Rim latest BTS3900, BTS3900 UTRANRIMLOADI
e
start time
LTE
NFO
UtranNCell
UMTS cell load
status
DSP
BTS3900, BTS3900 UTRANRIMLOADI
LTE
NFO
LocalCellId
Local cell ID
ADD
UTRANNFREQSC
ELLOP
LST
UTRANNFREQSC
ELLOP
MOD
UTRANNFREQSC
ELLOP
RMV
BTS3900, BTS3900 UTRANNFREQSC
LTE
ELLOP
UtranDlArfcn
ADD
UTRANNFREQSC
ELLOP
LST
UTRANNFREQSC
ELLOP
MOD
UTRANNFREQSC
ELLOP
RMV
BTS3900, BTS3900 UTRANNFREQSC
Downlink UARFCN LTE
ELLOP
URimLoadStatus
UtranNFreqSCellOp
UtranNFreqSCellOp
UtranNFreqSCellOp
CnOperatorID
Cn operator ID
UtranNFreqSCellOp
Cell reselection
CellReselDediPriCf dedicated priority
gInd
configure indicator
ADD
UTRANNFREQSC
ELLOP
LST
UTRANNFREQSC
ELLOP
MOD
UTRANNFREQSC
ELLOP
RMV
BTS3900, BTS3900 UTRANNFREQSC
LTE
ELLOP
ADD
UTRANNFREQSC
ELLOP
MOD
UTRANNFREQSC
ELLOP
LST
BTS3900, BTS3900 UTRANNFREQSC
LTE
ELLOP
UtranNFreqSCellOp
CellReselDediPri
Cell reselection
dedicated priority
ADD
UTRANNFREQSC
ELLOP
MOD
UTRANNFREQSC
ELLOP
LST
BTS3900, BTS3900 UTRANNFREQSC
LTE
ELLOP
UtranRanShare
LST
UTRANRANSHAR
E
MOD
UTRANRANSHAR
E
RMV
BTS3900, BTS3900 UTRANRANSHAR
LTE
E
LocalCellId
Local cell ID
UtranDlArfcn
ADD
UTRANRANSHAR
E
LST
UTRANRANSHAR
E
MOD
UTRANRANSHAR
E
RMV
BTS3900, BTS3900 UTRANRANSHAR
Downlink UARFCN LTE
E
UtranRanShare
UtranRanShare
Mcc
ADD
UTRANRANSHAR
E
LST
UTRANRANSHAR
E
MOD
UTRANRANSHAR
E
RMV
BTS3900, BTS3900 UTRANRANSHAR
Mobile country code LTE
E
UtranRanShare
Mnc
Mobile network
code
UtranRanShare
Cell reselection
CellReselPriorityCfg priority configure
Ind
indicator
ADD
UTRANRANSHAR
E
LST
UTRANRANSHAR
E
MOD
UTRANRANSHAR
E
RMV
BTS3900, BTS3900 UTRANRANSHAR
LTE
E
ADD
UTRANRANSHAR
E
MOD
UTRANRANSHAR
E
LST
BTS3900, BTS3900 UTRANRANSHAR
LTE
E
UtranRanShare
CellReselPriority
Cell reselection
priority
LocalCellId
Local cell ID
UtranNFreq
ADD
UTRANRANSHAR
E
MOD
UTRANRANSHAR
E
LST
BTS3900, BTS3900 UTRANRANSHAR
LTE
E
ADD
UTRANNFREQ
LST
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 RMV
LTE
UTRANNFREQ
UtranNFreq
UtranDlArfcn
UtranNFreq
UtranVersion
UtranNFreq
UtranFddTddType
ADD
UTRANNFREQ
LST
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 RMV
Downlink UARFCN LTE
UTRANNFREQ
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
UTRAN version
LTE
UTRANNFREQ
ADD
UTRANNFREQ
MOD
UTRANNFREQ
UTRAN cell type
BTS3900, BTS3900 LST
indicator
LTE
UTRANNFREQ
UtranNFreq
Uplink UARFCN
UtranUlArfcnCfgInd indicator
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
UtranUlArfcn
UtranNFreq
Uplink UARFCN
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
ADD
UTRANNFREQ
MOD
UTRANNFREQ
CellReselPriorityCfg Reselection priority BTS3900, BTS3900 LST
Ind
configure indicator LTE
UTRANNFREQ
UtranNFreq
CellReselPriority
Cell reselection
priority
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
PMAX
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
PmaxUtran
UtranNFreq
OffsetFreq
Frequency offset
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
Minimum required
quality level
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
Qqualmin
UtranNFreq
QRxLevMin
Minimum required
RX level
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
ThreshXHigh
ADD
UTRANNFREQ
MOD
UTRANNFREQ
UTRAN high priority BTS3900, BTS3900 LST
threshold
LTE
UTRANNFREQ
UtranNFreq
ThreshXLow
UTRAN lower
priority threshold
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
ThreshXHighQ
ADD
UTRANNFREQ
MOD
UTRANNFREQ
UTRAN high priority BTS3900, BTS3900 LST
RSRQ threshold
LTE
UTRANNFREQ
UtranNFreq
ThreshXLowQ
ADD
UTRANNFREQ
MOD
UTRANNFREQ
UTRAN low priority BTS3900, BTS3900 LST
RSRQ threshold
LTE
UTRANNFREQ
UtranNFreq
PsPriority
PS service priority
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
CsPriority
CS service priority
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
ConnFreqPriority
Frequency Priority
for Connected
Mode
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
CsPsMixedPriority
CS and PS mixed
priority
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
ADD
UTRANNFREQ
MOD
UTRANNFREQ
ContinuCoverageIn Continuous
BTS3900, BTS3900 LST
dication
Coverage Indication LTE
UTRANNFREQ
UtranNFreq
MlbFreqPriority
MLB Frequency
Priority
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
MasterBandFlag
Master Band Flag
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
ANR Indication
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
UtranNFreq
AnrInd
UtranNFreq
ADD
UTRANNFREQ
MOD
UTRANNFREQ
BTS3900, BTS3900 LST
LTE
UTRANNFREQ
FreqPriorityForAnr
ANR Frequency
Priority
Mcc
ADD
UTRANEXTERNAL
CELL
ADD
UTRANEXTERNAL
CELLBAND
LST
UTRANEXTERNAL
CELL
LST
UTRANEXTERNAL
CELLBAND
MOD
UTRANEXTERNAL
CELL
RMV
UTRANEXTERNAL
CELL
RMV
BTS3900, BTS3900 UTRANEXTERNAL
Mobile country code LTE
CELLBAND
UtranExternalCell
Mobile network
code
ADD
UTRANEXTERNAL
CELL
ADD
UTRANEXTERNAL
CELLBAND
LST
UTRANEXTERNAL
CELL
LST
UTRANEXTERNAL
CELLBAND
MOD
UTRANEXTERNAL
CELL
RMV
UTRANEXTERNAL
CELL
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLBAND
RNC ID
ADD
UTRANEXTERNAL
CELL
ADD
UTRANEXTERNAL
CELLBAND
LST
UTRANEXTERNAL
CELL
LST
UTRANEXTERNAL
CELLBAND
MOD
UTRANEXTERNAL
CELL
RMV
UTRANEXTERNAL
CELL
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLBAND
UtranExternalCell
Mnc
UtranExternalCell
RncId
UtranExternalCell
CellId
RNC cell ID
ADD
UTRANEXTERNAL
CELL
ADD
UTRANEXTERNAL
CELLBAND
LST
UTRANEXTERNAL
CELL
LST
UTRANEXTERNAL
CELLBAND
MOD
UTRANEXTERNAL
CELL
RMV
UTRANEXTERNAL
CELL
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLBAND
UtranExternalCell
UtranDlArfcn
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
Downlink UARFCN LTE
CELL
UtranExternalCell
Uplink UARFCN
UtranUlArfcnCfgInd configure indicator
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
UtranExternalCell
UtranUlArfcn
Uplink UARFCN
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
UTRAN cell type
indicator
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
UtranExternalCell
UtranFddTddType
Routing area code
configure indicator
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
Rac
Routing area code
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
PScrambCode
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
Primary scrambling BTS3900, BTS3900 UTRANEXTERNAL
code
LTE
CELL
Lac
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
Location area code LTE
CELL
UtranExternalCell
RacCfgInd
UtranExternalCell
UtranExternalCell
UtranExternalCell
UtranExternalCell
CellName
Cell name
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
CS and PS
handover indicator
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
UtranExternalCell
CsPsHOInd
UtranExternalCell
UtranExternalCellSl External UTRAN
aveBand
Cell Slave Band
ADD
UTRANEXTERNAL
CELLBAND
LST
UTRANEXTERNAL
CELLBAND
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLBAND
MultiBand.FreqBan
d
Frequency band
ADD
UTRANEXTERNAL
CELLBAND
LST
UTRANEXTERNAL
CELLBAND
RMV
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELLBAND
UtranExternalCell
UtranExternalCell
CtrlMode
Control Mode
ADD
UTRANEXTERNAL
CELL
MOD
UTRANEXTERNAL
CELL
LST
BTS3900, BTS3900 UTRANEXTERNAL
LTE
CELL
FddResMode
BbCapabilityMode
MOD
FDDRESMODE
BbResCapacityMod BTS3900, BTS3900 LST
e
LTE
FDDRESMODE
FddResMode
SFN Capability
SfnCapabilityMode Mode
MOD
FDDRESMODE
BTS3900, BTS3900 LST
LTE
FDDRESMODE
PccFreqCfg
PccDlEarfcn
PCC Downlink
EARFCN
ADD
PCCFREQCFG
DSP
PCCSCELLLIST
LST
PCCFREQCFG
MOD
PCCFREQCFG
BTS3900, BTS3900 RMV
LTE
PCCFREQCFG
PccFreqCfg
Preferred PCC
PreferredPccPriority Priority
ADD
PCCFREQCFG
MOD
PCCFREQCFG
BTS3900, BTS3900 LST
LTE
PCCFREQCFG
PCC A4 RSRP
Threshold
ADD
PCCFREQCFG
MOD
PCCFREQCFG
BTS3900, BTS3900 LST
LTE
PCCFREQCFG
PccFreqCfg
PccA4RsrpThd
PccFreqCfg
PccA4RsrqThd
PCC A4 RSRQ
Threshold
ADD
PCCFREQCFG
MOD
PCCFREQCFG
BTS3900, BTS3900 LST
LTE
PCCFREQCFG
PCC Downlink
EARFCN
ADD
SCCFREQCFG
LST
SCCFREQCFG
MOD
SCCFREQCFG
BTS3900, BTS3900 RMV
LTE
SCCFREQCFG
SccFreqCfg
PccDlEarfcn
SccFreqCfg
SccDlEarfcn
SCC Downlink
EARFCN
ADD
SCCFREQCFG
LST
SCCFREQCFG
MOD
SCCFREQCFG
BTS3900, BTS3900 RMV
LTE
SCCFREQCFG
SCC Priority
ADD
SCCFREQCFG
MOD
SCCFREQCFG
BTS3900, BTS3900 LST
LTE
SCCFREQCFG
SccFreqCfg
SccPriority
SccFreqCfg
SCC A2 Offset
ADD
SCCFREQCFG
MOD
SCCFREQCFG
BTS3900, BTS3900 LST
LTE
SCCFREQCFG
SccA4Offset
SCC A4 Offset
ADD
SCCFREQCFG
MOD
SCCFREQCFG
BTS3900, BTS3900 LST
LTE
SCCFREQCFG
AddCellThd
ANR add cell
threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
SccA2Offset
SccFreqCfg
ANR
ANR
DelCellThd
ANR delete cell
threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
NcellHoStatNum
Least Handover
Num for Statistic
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
ANR
Statistic cycle
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
Fast ANR PCI
FastAnrRprtAmount report amount
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
Fast ANR PCI
FastAnrRprtInterval report interval
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
StatisticPeriod
ANR
ANR
ANR
FastAnrCheckPerio Fast ANR checking BTS3900, BTS3900 MOD ANR
d
period
LTE
LST ANR
ANR
FastAnrRsrpThd
Fast ANR
measurement
RSRP threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
IntraRat Fast ANR
FastAnrIntraRatMe measurement UE
asUeNum
number
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
InterRat Fast ANR
FastAnrInterRatMe measurement UE
asUeNum
number
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
FastAnrIntraRatUe
NumThd
IntraRat Fast ANR
valid measurement BTS3900, BTS3900 MOD ANR
min UE number
LTE
LST ANR
FastAnrInterRatUe
NumThd
InterRat Fast ANR
valid measurement BTS3900, BTS3900 MOD ANR
min UE number
LTE
LST ANR
ANR
ANR
Optimization Mode
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
StatisticPeriodForN Statistic Cycle For
RTDel
Delete NRT
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
OptMode
ANR
ANR
StatisticNumForNR Statistic Number
TDel
For Delete NRT
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
ANR Active PCI
ActivePciConflictSw Conflict Detection
itch
Switch
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
StartTime
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
Start time
ANR
StopTime
Stop time
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
FastAnrRscpThd
UTRAN Fast ANR
RSCP threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
ANR
FastAnrRssiThd
GERAN Fast ANR
RSSI threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
CDMA2000 1XRTT
FastAnrCdma1xrttP Fast ANR Pilot
BTS3900, BTS3900 MOD ANR
ilotThd
threshold
LTE
LST ANR
ANR
CDMA2000 HRPD
FastAnrCdmahrpdP Fast ANR Pilot
ilotThd
threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
NoHoSetThd
Set not handover
attribute threshold
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
NcellHoForNRTDel Handover threshold BTS3900, BTS3900 MOD ANR
Thd
for delete NRT
LTE
LST ANR
ANR
FastAnrMode
Fast ANR Mode
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
EventAnrMode
Event ANR Mode
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
CaUeChoseMode
BTS3900, BTS3900 MOD ANR
CA UE Chose Mode LTE
LST ANR
ANR
NrtDelMode
NRT Delete Mode
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
Utran Handover
UtranNcellHoForNR Threshold for
TDelThd
Delete NRT
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
ANR
Geran Handover
GeranNcellHoForN Threshold for
RTDelThd
Delete NRT
BTS3900, BTS3900 MOD ANR
LTE
LST ANR
DEVICENO
ADD BFANT
DSP BFANT
LST BFANT
MOD BFANT
BTS3900, BTS3900 RMV BFANT
LTE
DSP BFANTDB
BfAnt
Device No.
BfAnt
Manufactory
Manufactory
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Connect RRU
cabinet No.
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Connect RRU
subrack No.
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
BfAnt
CONNCN
BfAnt
CONNSRN
BfAnt
CONNSN
Connect RRU slot
No.
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Antenna model
number
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Tilt
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Beamwidth
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Band
ADD BFANT
MOD BFANT
DSP BFANT
BTS3900, BTS3900 DSP BFANTDB
LTE
LST BFANT
Antenna Type
ADD BFANT
BTS3900, BTS3900 MOD BFANT
LTE
LST BFANT
BfAnt
MODELNO
BfAnt
TILT
BfAnt
BEAMWIDTH
BfAnt
Band
BfAnt
TYPE
BfAnt
BFANTBEARING
BFANTBEARING
ADD BFANT
BTS3900, BTS3900 MOD BFANT
LTE
LST BFANT
POLARMODE
Polar Mode
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
ELMTBMWTH
Element Beamform BTS3900, BTS3900 DSP BFANT
Width
LTE
DSP BFANTDB
AntPortNum
Number of Port
BfAnt
BfAnt
BfAnt
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Amplitude Offset of
Crs2PortPhyPort1A Physical Port 1 for BTS3900, BTS3900 DSP BFANT
mp
CRS2
LTE
DSP BFANTDB
BfAnt
Crs2PortPhyPort1P Phase of Physical
ha
Port 1 for CRS2
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Amplitude Offset of
Crs2PortPhyPort2A Physical Port 2 for BTS3900, BTS3900 DSP BFANT
mp
CRS2
LTE
DSP BFANTDB
BfAnt
Crs2PortPhyPort2P Phase of Physical
ha
Port 2 for CRS2
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Amplitude Offset of
Crs2PortPhyPort3A Physical Port 3 for BTS3900, BTS3900 DSP BFANT
mp
CRS2
LTE
DSP BFANTDB
BfAnt
Crs2PortPhyPort3P Phase of Physical
ha
Port 3 for CRS2
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Amplitude Offset of
Crs2PortPhyPort4A Physical Port 4 for BTS3900, BTS3900 DSP BFANT
mp
CRS2
LTE
DSP BFANTDB
BfAnt
Crs2PortPhyPort4P Phase of Physical
ha
Port 4 for CRS2
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Amplitude Offset of
Crs4PortPhyPort1A Physical Port 1 for BTS3900, BTS3900 DSP BFANT
mp
CRS4
LTE
DSP BFANTDB
BfAnt
Crs4PortPhyPort1P Phase of Physical
ha
Port 1 for CRS4
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Amplitude Offset of
Crs4PortPhyPort2A Physical Port 2 for BTS3900, BTS3900 DSP BFANT
mp
CRS4
LTE
DSP BFANTDB
BfAnt
Crs4PortPhyPort2P Phase of Physical
ha
Port 2 for CRS4
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
SE
BTS3900, BTS3900 DSP BFANT
LTE
DSP BFANTDB
BfAnt
Session ID
BlindNcellOpt
StatisticPeriod
Statistic Period
MOD
BLINDNCELLOPT
BTS3900, BTS3900 LST
LTE
BLINDNCELLOPT
Sample Number
Threshold
MOD
BLINDNCELLOPT
BTS3900, BTS3900 LST
LTE
BLINDNCELLOPT
BlindNcellOpt
SampleNumThd
BlindNcellOpt
HoSuccRateThd
MOD
BLINDNCELLOPT
Handover Success BTS3900, BTS3900 LST
Ratio Threshold
LTE
BLINDNCELLOPT
BlindNcellOpt
CSFB Handover
CsfbHoAttempRatio Attemption Ratio
Thd
Threshold
MOD
BLINDNCELLOPT
BTS3900, BTS3900 LST
LTE
BLINDNCELLOPT
BlindNcellOpt
Blind Handover
BlindHoSuccRateT Success Ratio
hd
Threshold
MOD
BLINDNCELLOPT
BTS3900, BTS3900 LST
LTE
BLINDNCELLOPT
BlindNcellOpt
OptMode
Optimization Mode
MOD
BLINDNCELLOPT
BTS3900, BTS3900 LST
LTE
BLINDNCELLOPT
PrtNodeBaseBand
EqmId
Cluster Partition
Node Base Band
Equipment Id
MOD
EUCOSCHCFG
BTS3900, BTS3900 LST
LTE
EUCOSCHCFG
EuCoSchCfg
CaGroup
CaGroupId
CA Group Identity
ADD CAGROUP
LST CAGROUP
BTS3900, BTS3900 MOD CAGROUP
LTE
RMV CAGROUP
CA Group Type
ADD CAGROUP
BTS3900, BTS3900 MOD CAGROUP
LTE
LST CAGROUP
CaGroup
CaGroupType
CaGroup
CaGroupTypeInd
CA Group Type
Indication
ADD CAGROUP
BTS3900, BTS3900 MOD CAGROUP
LTE
LST CAGROUP
CA Group Identity
ADD
CAGROUPCELL
DSP
CAGROUPCELL
LST
CAGROUPCELL
MOD
CAGROUPCELL
BTS3900, BTS3900 RMV
LTE
CAGROUPCELL
Local Cell ID
ADD
CAGROUPCELL
LST
CAGROUPCELL
MOD
CAGROUPCELL
RMV
CAGROUPCELL
BTS3900, BTS3900 DSP
LTE
CAGROUPCELL
CaGroupCell
CaGroupId
CaGroupCell
LocalCellId
CaGroupCell
eNodeBId
eNodeB ID
ADD
CAGROUPCELL
LST
CAGROUPCELL
MOD
CAGROUPCELL
RMV
CAGROUPCELL
BTS3900, BTS3900 DSP
LTE
CAGROUPCELL
CaGroupCell
PreferredPCellPriori Preferred PCell
ty
Priority
ADD
CAGROUPCELL
MOD
CAGROUPCELL
BTS3900, BTS3900 LST
LTE
CAGROUPCELL
CaGroupCell
PCellA4RsrpThd
PCell A4 RSRP
Threshold
ADD
CAGROUPCELL
MOD
CAGROUPCELL
BTS3900, BTS3900 LST
LTE
CAGROUPCELL
PCell A4 RSRQ
Threshold
ADD
CAGROUPCELL
MOD
CAGROUPCELL
BTS3900, BTS3900 LST
LTE
CAGROUPCELL
CaGroupCell
PCellA4RsrqThd
CellIdPrdUpt
PrdUptSwitch
Period update
switch
MOD
CELLIDPRDUPT
BTS3900, BTS3900 LST
LTE
CELLIDPRDUPT
Action time
MOD
CELLIDPRDUPT
BTS3900, BTS3900 LST
LTE
CELLIDPRDUPT
Period
MOD
CELLIDPRDUPT
BTS3900, BTS3900 LST
LTE
CELLIDPRDUPT
CSPC Algorithm
Switch
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
CellIdPrdUpt
ActionTime
CellIdPrdUpt
Period
CspcAlgoPara
CspcAlgoSwitch
CspcAlgoPara
MOD
CSPCALGOPARA
CspcRsrpMeasMod CSPC RSRP
BTS3900, BTS3900 LST
e
Measurement Mode LTE
CSPCALGOPARA
CspcAlgoPara
CspcClusterMode
CSPC Cluster
Mode
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
CspcAlgoPara
CspcClusterPartPer CSPC Cluster
iod
Partition Period
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
CspcComputeSwitc CSPC Compute
h
Switch
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
CspcAlgoPara
CspcAlgoPara
CspcFullPowerSubf CSPC Full Power
rameRatio
Subframe Ratio
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
CspcPowerConfigD CSPC Power
elay
Config Delay
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
CspcAlgoPara
CspcAlgoPara
MOD
CSPCALGOPARA
CspcScheduleUeS CSPC Schedule UE BTS3900, BTS3900 LST
pec
Specification
LTE
CSPCALGOPARA
CspcAlgoPara
CSPC Enable
CspcEnableDlPrbR Downlink PRB
atioThd
Ratio Threshold
MOD
CSPCALGOPARA
BTS3900, BTS3900 LST
LTE
CSPCALGOPARA
ENodeBAlgoSwitch
HoAlgoSwitch
Handover Algo
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
HoModeSwitch
Handover Mode
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
DlIcicSwitch
DlIcic algorithm
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
AnrSwitch
ANR algorithm
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
RedirectSwitch
Redirection switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
MroSwitch
MRO algorithm
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
TPE switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
TpeSwitch
ENodeBAlgoSwitch
UlIcicTimeSwitch
UlIcic time switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
UlIcic freq switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
UlIcicFreqSwitch
ENodeBAlgoSwitch
LcsSwitch
LCS switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
TRM switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
TrmSwitch
ENodeBAlgoSwitch
PciConflictAlmSwitc PCI conflict alarm
h
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
PowerSaveSwitch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
Power save switch
ENodeBAlgoSwitch
RimSwitch
RIM switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
ANR Under RAN
RanSharingAnrSwit Sharing Algorithm
ch
Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
FreqLayerSwtich
Frequency Layer
Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
Cmas Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
CmasSwitch
ENodeBAlgoSwitch
VQMAlgoSwitch
Voice quality
monitoring algo
switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
UeNumPreemptSwi UE number
tch
preemption switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
MultiOpCtrlSwitch
Multi-Operater
Control Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
OverBBUsSwitch
OverBBUsSwitch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
OperatorSpecificAlg Operator Specific
oSwitch
Algorithm Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
MOD
ENODEBALGOSWI
TCH
LST
HoSignalingOptSwit Handover Signaling BTS3900, BTS3900 ENODEBALGOSWI
ch
Optimized Switch
LTE
TCH
ENodeBAlgoSwitch
CompatibilityCtrlSwi Compatibility
tch
Control Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
MOD
ENODEBALGOSWI
TCH
ENodeBAlgoSwitch
LST
BlindNcellOptSwitc Blind Ncell
BTS3900, BTS3900 ENODEBALGOSWI
h
Optimization Switch LTE
TCH
ENodeBAlgoSwitch
Cluster Partition
ClusterPartitionNod Node Deployment
eFlag
Flag
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
Support RIM by
eCoordinator
Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
EutranVoipSupport Eutran Voip
Switch
Support Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
RimOnEcoSwitch
ENodeBAlgoSwitch
ENodeBAlgoSwitch
CaAlgoSwitch
CA Algorithm
Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
MlbAlgoSwitch
MLB Algorithm
Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
ENodeBAlgoSwitch
MOD
ENODEBALGOSWI
TCH
LST
Handover Common BTS3900, BTS3900 ENODEBALGOSWI
HoCommOptSwitch Optimized Switch
LTE
TCH
ENodeBAlgoSwitch
MOD
ENODEBALGOSWI
TCH
LST
HighLoadNetOptSw High Load Network BTS3900, BTS3900 ENODEBALGOSWI
itch
Optimized Switch
LTE
TCH
ENodeBAlgoSwitch
SchOptSwitch
MOD
ENODEBALGOSWI
TCH
LST
Scheduling optimize BTS3900, BTS3900 ENODEBALGOSWI
Switch
LTE
TCH
ENodeBAlgoSwitch
High Speed Root
HighSpeedRootSeq Sequence Cycle
CSSwitch
Shift Switch
MOD
ENODEBALGOSWI
TCH
LST
BTS3900, BTS3900 ENODEBALGOSWI
LTE
TCH
eNodeBMlb
InterFreqIdleMlbMo Inter Frequency Idle BTS3900, BTS3900 MOD ENODEBMLB
de
MLB Mode
LTE
LST ENODEBMLB
eNodeBMlb
InterFreqIdleMlbInte Inter Frequency Idle BTS3900, BTS3900 MOD ENODEBMLB
rval
MLB Interval
LTE
LST ENODEBMLB
eNodeBMlb
Inter Frequency Idle
InterFreqIdleMlbSta MLB Statistic
BTS3900, BTS3900 MOD ENODEBMLB
Thd
Threshold
LTE
LST ENODEBMLB
LicRatio
UpLicRatio
Uplink Traffic
License Ratio
BTS3900, BTS3900 MOD LICRATIO
LTE
LST LICRATIO
LicRatio
TrafficSharingType
BTS3900, BTS3900 MOD LICRATIO
Traffic Sharing Type LTE
LST LICRATIO
LicRatioSharePolicy
CnOperatorId
CN Operator ID
ADD
LICRATIOSHAREP
OLICY
LST
LICRATIOSHAREP
OLICY
MOD
LICRATIOSHAREP
OLICY
RMV
BTS3900, BTS3900 LICRATIOSHAREP
LTE
OLICY
LicRatioSharePolicy
TrfRatio
TrfRatio
ADD
LICRATIOSHAREP
OLICY
MOD
LICRATIOSHAREP
OLICY
LST
BTS3900, BTS3900 LICRATIOSHAREP
LTE
OLICY
TrfSharingRatio
ADD
LICRATIOSHAREP
OLICY
MOD
LICRATIOSHAREP
OLICY
LST
BTS3900, BTS3900 LICRATIOSHAREP
LTE
OLICY
LicRatioSharePolicy
TrfSharingRatio
MRO
OptPeriod
MRO optimization
period
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
NcellOptThd
Ncell optimization
threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
MRO
StatNumThd
MRO statistics
number threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
PingpongTimeThd
Pingpong handover BTS3900, BTS3900 MOD MRO
threshold
LTE
LST MRO
PingpongRatioThd
Pingpong ratio
threshold
MRO
MRO
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
Abnormal coverage BTS3900, BTS3900 MOD MRO
CoverAbnormalThd threshold
LTE
LST MRO
MRO
ServingRsrpThd
Serving cell RSRP
threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
NeighborRsrpThd
Neighbour cell
RSRP threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
UePingPongNumTh UE PingPong
d
Number Threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
Inter frequency
measurement too
InterFreqMeasTooL late handover
ateHoThd
threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
InterFreqA2RollBac Inter frequency A2
kThd
rollback threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
MRO
MRO Optimization
Mode
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
Unnecessary IRAT
UnnecInterRatHoO Ho Optimize
ptThd
Threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MroOptMode
MRO
MRO
Unnecessary
UnnecInterRatHoRs InterRAT Ho RSRP BTS3900, BTS3900 MOD MRO
rpThd
Threshold
LTE
LST MRO
MRO
InterRAT A2 RSRP
InterRatA2RsrpMin Adjustment Lower BTS3900, BTS3900 MOD MRO
Thd
Limit
LTE
LST MRO
MRO
InterRAT MRO
InterRatStatNumTh Statistics Number
d
Threshold
BTS3900, BTS3900 MOD MRO
LTE
LST MRO
MRO
IntraRatTooEarlyHo IntraRat Too Early BTS3900, BTS3900 MOD MRO
RatioThd
HO Ratio Threshold LTE
LST MRO
MRO
IntraRatTooLateHo IntraRat Too Late
BTS3900, BTS3900 MOD MRO
RatioThd
HO Ratio Threshold LTE
LST MRO
MRO
IntraRatAbnormalR IntraRat Abnormal BTS3900, BTS3900 MOD MRO
atioThd
HO Ratio Threshold LTE
LST MRO
SimuLoad
BTS3900, BTS3900 LST SIMULOAD
SimuLoadCfgIndex configuration index LTE
MOD SIMULOAD
SimuLoad
SimuLoadRbThd
BTS3900, BTS3900 MOD SIMULOAD
RB usage threshold LTE
LST SIMULOAD
SimuLoadPwrThd
Power usage
threshold
SimuLoad
BTS3900, BTS3900 MOD SIMULOAD
LTE
LST SIMULOAD
SimuLoad
SimuLoadReportPe
riod
Report period
BTS3900, BTS3900 MOD SIMULOAD
LTE
LST SIMULOAD
SimuLoadStatPerio
d
Statistic period
BTS3900, BTS3900 MOD SIMULOAD
LTE
LST SIMULOAD
SimuLoad
SimuLoad
FreqSelSwitch
Frequency selective BTS3900, BTS3900 MOD SIMULOAD
switch
LTE
LST SIMULOAD
TcpAckCtrlAlgo
MOD
TCPACKCTRLALG
O
LST
BTS3900, BTS3900 TCPACKCTRLALG
LTE
O
AckCtrlSwitch
TCP ACK Control
Switch
DlMaxThroughput
MOD
TCPACKCTRLALG
O
LST
BTS3900, BTS3900 TCPACKCTRLALG
DL Max Throughput LTE
O
TcpAckCtrlAlgo
TcpAckCtrlAlgo
CtrlTimerLength
Control Timer
Length
MOD
TCPACKCTRLALG
O
LST
BTS3900, BTS3900 TCPACKCTRLALG
LTE
O
TcpMssCtrl
TcpMssCtrlSwitch
TCP MSS Control
Switch
MOD
BTS3900, BTS3900 TCPMSSCTRL
LTE
LST TCPMSSCTRL
TcpMssThd
TCP MSS
Threshold
MOD
BTS3900, BTS3900 TCPMSSCTRL
LTE
LST TCPMSSCTRL
TcpMssCtrl
TddFrameOffset
TimeOffset
TDD time offset
MOD
TDDFRAMEOFFSE
T
LST
BTS3900, BTS3900 TDDFRAMEOFFSE
LTE
T
TddResModeSwitch
Clock-Unavailable
ClkResExcludeSwit Cell Activation
ch
Switch
MOD
TDDRESMODESW
BTS3900, BTS3900 LST
LTE
TDDRESMODESW
TddResModeSwitch
Baseband
BbResExclusiveSwi Equipment
tch
Exclusive Switch
MOD
TDDRESMODESW
BTS3900, BTS3900 LST
LTE
TDDRESMODESW
PortListNum
TCP Port Number
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port1
TCP Port 1
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port2
TCP Port 2
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port3
TCP Port 3
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port4
TCP Port 4
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
Port5
TCP Port 5
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port6
TCP Port 6
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port7
TCP Port 7
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port8
TCP Port 8
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port9
TCP Port 9
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port10
TCP Port 10
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port11
TCP Port 11
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port12
TCP Port 12
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port13
TCP Port 13
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port14
TCP Port 14
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port15
TCP Port 15
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port16
TCP Port 16
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port17
TCP Port 17
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
TpeAlgo
Port18
TCP Port 18
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port19
TCP Port 19
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
Port20
TCP Port 20
BTS3900, BTS3900 MOD TPEALGO
LTE
LST TPEALGO
ULDelayJitter
UL Delay Jitter
BTS3900, BTS3900 MOD VQMALGO
LTE
LST VQMALGO
OPRD
SET
ENBLICENSEALM
THD
LST
BTS3900, BTS3900 ENBLICENSEALM
LTE
THD
TpeAlgo
TpeAlgo
VQMAlgo
eNBLicenseAlmThd
OPRD
eNBLicenseAlmThd
OTHD
OTHD
SET
ENBLICENSEALM
THD
LST
BTS3900, BTS3900 ENBLICENSEALM
LTE
THD
RPRD
SET
ENBLICENSEALM
THD
LST
BTS3900, BTS3900 ENBLICENSEALM
LTE
THD
RTHD
SET
ENBLICENSEALM
THD
LST
BTS3900, BTS3900 ENBLICENSEALM
LTE
THD
eNBLicenseAlmThd
RPRD
eNBLicenseAlmThd
RTHD
eNBRsvdPara
RsvdSwPara0
Reserved Switch
Parameter 0
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdSwPara1
Reserved Switch
Parameter 1
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdSwPara2
Reserved Switch
Parameter 2
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 2
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara2
eNBRsvdPara
RsvdPara3
Reserved
Parameter 3
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 4
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara4
eNBRsvdPara
RsvdPara5
Reserved
Parameter 5
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 6
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara6
eNBRsvdPara
RsvdPara7
Reserved
Parameter 7
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 8
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara8
eNBRsvdPara
RsvdPara9
Reserved
Parameter 9
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 10
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara10
eNBRsvdPara
RsvdPara11
Reserved
Parameter 11
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 12
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara12
eNBRsvdPara
RsvdPara13
Reserved
Parameter 13
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 14
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara14
eNBRsvdPara
RsvdPara15
Reserved
Parameter 15
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 16
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara16
eNBRsvdPara
RsvdPara17
Reserved
Parameter 17
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 18
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara18
eNBRsvdPara
RsvdPara19
Reserved
Parameter 19
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 20
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara20
eNBRsvdPara
RsvdPara21
Reserved
Parameter 21
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 22
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara22
eNBRsvdPara
RsvdPara23
Reserved
Parameter 23
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 24
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara24
eNBRsvdPara
RsvdPara25
Reserved
Parameter 25
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 26
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara26
eNBRsvdPara
RsvdPara27
Reserved
Parameter 27
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 28
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara28
eNBRsvdPara
RsvdPara29
Reserved
Parameter 29
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 30
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara30
eNBRsvdPara
RsvdPara31
Reserved
Parameter 31
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 32
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara32
eNBRsvdPara
RsvdPara33
Reserved
Parameter 33
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 34
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara34
eNBRsvdPara
RsvdPara35
Reserved
Parameter 35
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 36
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara36
eNBRsvdPara
RsvdPara37
Reserved
Parameter 37
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 38
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara38
eNBRsvdPara
RsvdPara39
Reserved
Parameter 39
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 40
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara40
eNBRsvdPara
RsvdPara41
Reserved
Parameter 41
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 42
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara42
eNBRsvdPara
RsvdPara43
Reserved
Parameter 43
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 44
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara44
eNBRsvdPara
RsvdPara45
Reserved
Parameter 45
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 46
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara46
eNBRsvdPara
RsvdPara47
Reserved
Parameter 47
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 48
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara48
eNBRsvdPara
RsvdPara49
Reserved
Parameter 49
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 50
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara50
eNBRsvdPara
RsvdPara51
Reserved
Parameter 51
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
Reserved
Parameter 52
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNBRsvdPara
RsvdPara52
eNBRsvdPara
RsvdPara53
Reserved
Parameter 53
MOD
ENBRSVDPARA
BTS3900, BTS3900 LST
LTE
ENBRSVDPARA
eNodeBAutoPowerOf
AutoPowerOffSwitc RF module sleep
h
switch
MOD
ENODEBAUTOPO
WEROFF
LST
BTS3900, BTS3900 ENODEBAUTOPO
LTE
WEROFF
eNodeBAutoPowerOf
PowerOffTime
RF module sleep
start time
MOD
ENODEBAUTOPO
WEROFF
LST
BTS3900, BTS3900 ENODEBAUTOPO
LTE
WEROFF
RF module sleep
stop time
MOD
ENODEBAUTOPO
WEROFF
LST
BTS3900, BTS3900 ENODEBAUTOPO
LTE
WEROFF
eNodeBAutoPowerOf
PowerOnTime
eNodeBAutoPowerOf
RF module sleep
AutoPoweroffStatus status
DSP
BTS3900, BTS3900 ENODEBAUTOPO
LTE
WEROFF
eNodeBFlowCtrlPara
Adaptive
AdaptUnsyncTimer Unsynchronized
Len
Timer Length
MOD
ENODEBFLOWCT
RLPARA
LST
BTS3900, BTS3900 ENODEBFLOWCT
LTE
RLPARA
eNodeBFlowCtrlPara
Adaptive
Unsynchronized
AdaptUnsyncUserN User Num
umThd
Threshold
MOD
ENODEBFLOWCT
RLPARA
LST
BTS3900, BTS3900 ENODEBFLOWCT
LTE
RLPARA
Meaning
IsKey
Mandatory
Dynamic Attribute
Feature ID
Indicates the index
of the operator.
YES
YES
NO
LBFD-002032
Indicates the
extended QoS
Class Identifier
(QCI), which is
required by the
operator for user
differentiation.
YES
YES
NO
LBFD-002032
Indicates the ID of
the service-based
inter-RAT handover
policy group.
NO
NO
NO
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
Indicates the ID of
the service-based
inter-frequency
handover policy
group.
NO
NO
NO
LBFD-00201805
Indicates the ID of
the operator.
YES
YES
NO
None
Indicates the
priorities of EUTRAN TDD and
E-UTRAN FDD. To
prioritize E-UTRAN
TDD and E-UTRAN
FDD, set this
parameter to
EUTRAN_TDD or
EUTRAN_FDD. To
treat E-UTRAN
TDD and E-UTRAN
FDD equally, set
this parameter to
EUTRAN.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the
priorities of EUTRAN TDD and
E-UTRAN FDD. To
prioritize E-UTRAN
TDD or E-UTRAN
FDD, set this
parameter to
EUTRAN_TDD or
EUTRAN_FDD. If
the FirstRatPri
parameter is set to
EUTRAN, the
SecondRatPri
parameter must be
set to NULL,
indicating that EUTRAN TDD and
E-UTRAN FDD are
not prioritized. Note
that the value
EUTRAN will be
removed in later
versions.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Offset are set to
-100, LTE TDD
measurement and
LTE FDD
measurement are
not prioritized, and
the RSRP threshold
delivered by the
eNodeB is the
RSRP threshold for
inter-frequency
measurement event
A2 (which is
specified by
A3InterFreqHoA2T
hdRsrp/InterFreqHo
A2ThdRSRP).
If only
TddIfHoA2ThdRsrp
Offset is set to
-100, LTE TDD
measurement is not
performed and the
RSRP threshold
delivered by the
eNodeB is the sum
of the value of
FddIfHoA2ThdRsrp
Offset and the
RSRP threshold for
inter-frequency
measurement event
A2 (which is
specified by
A3InterFreqHoA2T
hdRsrp/InterFreqHo
A2ThdRSRP).
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Offset are set to
-100, LTE TDD
measurement and
LTE FDD
measurement are
not prioritized, and
the RSRP threshold
delivered by the
eNodeB is the
RSRP threshold for
inter-frequency
measurement event
A2 (which is
specified by
A3InterFreqHoA2T
hdRsrp/InterFreqHo
A2ThdRSRP).
If only
FddIfHoA2ThdRsrp
Offset is set to
-100, LTE FDD
measurement is not
performed and the
RSRP threshold
delivered by the
eNodeB is the sum
of the value of
TddIfHoA2ThdRsrp
Offset and the
RSRP threshold for
inter-frequency
measurement event
A2 (which is
specified by
A3InterFreqHoA2T
hdRsrp/InterFreqHo
A2ThdRSRP).
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
eNodeB is the sum
of the value of this
parameter and the
RSRP threshold for
inter-RAT
measurement event
A2. If both
UtranA2ThdRsrpOff
set and
GeranA2ThdRsrpOf
fset are set to -100,
UTRAN
measurement and
GERAN
measurement are
not prioritized, and
the RSRP threshold
delivered by the
eNodeB is the
RSRP threshold for
inter-RAT
measurement event
A2. If only
UtranA2ThdRsrpOff
set is set to -100,
UTRAN
measurement is not
performed and the
RSRP threshold
delivered by the
eNodeB is the sum
of the value of
GeranA2ThdRsrpOf
fset and the RSRP
threshold for interRAT measurement
event A2.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
eNodeB is the sum
of the value of this
parameter and the
RSRP threshold for
inter-RAT
measurement event
A2. If both
UtranA2ThdRsrpOff
set and
GeranA2ThdRsrpOf
fset are set to -100,
UTRAN
measurement and
GERAN
measurement are
not prioritized, and
the RSRP threshold
delivered by the
eNodeB is the
RSRP threshold for
inter-RAT
measurement event
A2. If only
GeranA2ThdRsrpOf
fset is set to -100,
GERAN
measurement is not
performed and the
RSRP threshold
delivered by the
eNodeB is the sum
of the value of
UtranA2ThdRsrpOff
set and the RSRP
threshold for interRAT measurement
event A2.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
This parameter
indicates the ID of
the operator.
YES
NO
LOFD-001133 /
TDLOFD-001133
YES
Indicates the
dedicated SPID for
an
operator.Operators
can define the
RatFreqPriorityGrou
pId MO
corresponding to
the dedicated SPID.
Each operator can
be configured with
a maximum of 256
dedicated SPIDs.
YES
Indicates whether
to set a
RAT/frequency
priority. If this
parameter is set to
CFG, UEs
preferentially camp
on the RAT or
frequency. If this
parameter is set to
NOT_CFG, UEs do
not preferentially
camp on the RAT or
frequency.
NO
YES
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
LOFD-001054 /
TDLOFD-001054
LOFD-00105401 /
TDLOFD-00105401
LOFD-001059 /
TDLOFD-001059
LOFD-070210 /
TDLOFD-001133
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
LOFD-070210 /
TDLOFD-001133
Indicates the ID of a
RAT/frequency
priority group.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
LOFD-001054 /
TDLOFD-001054
LOFD-00105401 /
TDLOFD-00105401
LOFD-001059 /
TDLOFD-001059
LOFD-070210 /
TDLOFD-001133
Indicates the index
of the operator.
YES
NO
None
YES
Indicates the QoS
Class Identifier
(QCI) of an EPS
bearer. Different
QCIs represent
different QoS
specifications such
as the packet delay
budget, packet
error loss rate, and
resource type
(whether the
service is a GBR
service or not). For
details, see Table
6.1.7 in 3GPP TS
23.203.
YES
YES
NO
None
Indicates the ID of
the service-based
inter-RAT handover
policy group.
NO
NO
NO
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
Indicates the ID of
the service-based
inter-frequency
handover policy
group.
NO
NO
LBFD-00201805
NO
bearer with the
corresponding QCI.
If the
ServiceBasedInterF
reqHoSwitch,
UtranServiceHoSwit
ch,
GeranServiceHoSw
itch,
CdmaHrpdServiceH
oSwitch,
Cdma1xRttService
HoSwitch, or
ServiceReqInterFre
qHoSwitch check
box is selected, and
a UE hand-in
process is
triggered, the target
eNodeB reads the
ServiceHoBearerPo
licy value of the UE
bearers with each
QCI. If this
parameter is set to
SERVICE_HO_QCI
_BEAR_NOT_ALL
OWED, the target
eNodeB rejects the
handover request to
the source eNodeB,
and the UE fails to
be handed over to
the target eNodeB.
This parameter is
dedicated to LTE
TDD cells.
NO
Indicates the index
of the operator.
YES
NO
YES
NO
TDLBFD-00201805
TDLOFD-001043
TDLOFD-001046
TDLOFD-070228
NO
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
TDLOFD-001052
TDLOFD-001053
TDLOFD-001035
TDLOFD-001090
Indicates the
highest-priority RAT
for handovers. It is
UTRAN by default.
If this parameter is
set to UTRAN,
GERAN, or
CDMA2000, the
highest-priority RAT
is UTRAN, GERAN,
or CDMA2000,
respectively.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
LOFD-001035 /
TDLOFD-001035
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021
TDLOFD-001052
TDLOFD-001053
TDLOFD-001090
TDLOFD-001043
TDLOFD-001072
TDLOFD-001046
TDLOFD-001073
Indicates the
medium-priority
RAT for handovers.
It is GERAN by
default. If this
parameter is set to
UTRAN, GERAN,
or CDMA2000, the
medium-priority
RAT is UTRAN,
GERAN, or
CDMA2000,
respectively. If this
parameter is set to
NULL, no mediumpriority RAT is
specified and only
the highest-priority
RAT can be
selected for
handovers.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
LOFD-001035 /
TDLOFD-001035
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021
TDLOFD-001052
TDLOFD-001053
TDLOFD-001090
TDLOFD-001043
TDLOFD-001072
TDLOFD-001046
TDLOFD-001073
Indicates the
lowest-priority RAT
for handovers. It is
CDMA2000 by
default. If this
parameter is set to
UTRAN, GERAN,
or CDMA2000, the
lowest-priority RAT
is UTRAN, GERAN,
or CDMA2000,
respectively. If this
parameter is set to
NULL, no lowestpriority RAT is
specified and only
the highest- or
medium-priority
RAT can be
selected for
handovers.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
LOFD-001035 /
TDLOFD-001035
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021
TDLOFD-001052
TDLOFD-001053
TDLOFD-001090
TDLOFD-001043
TDLOFD-001072
TDLOFD-001046
TDLOFD-001073
Indicates the LCS
capability of the
UTRAN. If this
parameter is set to
ON, the UTRAN
supports LCS. If
this parameter is
set to OFF, the
UTRAN does not
support LCS.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
Indicates the LCS
capability of the
GERAN. If this
parameter is set to
ON, the GERAN
supports LCS. If
this parameter is
set to OFF, the
GERAN does not
support LCS.
NO
NO
NO
LOFD-001034 /
TDLOFD-001034
Indicates the LCS
capability of the
CDMA2000. If this
parameter is set to
ON, the CDMA2000
supports LCS. If
this parameter is
set to OFF, the
CDMA2000 does
not support LCS.
NO
Indicates the
highest-priority RAT
for CSFB initiated
by a UE in idle
mode. It is UTRAN
by default. If this
parameter is set to
UTRAN, GERAN,
or CDMA2000, the
highest-priority RAT
is UTRAN, GERAN,
or CDMA2000,
respectively.
NO
Indicates the
medium-priority
RAT for CSFB
initiated by a UE in
idle mode. It is
GERAN by default.
If this parameter is
set to UTRAN,
GERAN, or
CDMA2000, the
medium-priority
RAT is UTRAN,
GERAN, or
CDMA2000,
respectively. If this
parameter is set to
NULL, no mediumpriority RAT is
specified and only
the highest-priority
RAT can be
selected for CSFB
initiated by a UE in
idle mode.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001088 /
TDLOFD-001088
LOFD-001089 /
TDLOFD-001089
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001088 /
TDLOFD-001088
LOFD-001089 /
TDLOFD-001089
TDLOFD-001090
Indicates the
lowest-priority RAT
for CSFB initiated
by a UE in idle
mode. It is
CDMA2000 by
default. If this
parameter is set to
UTRAN, GERAN,
or CDMA2000, the
lowest-priority RAT
is UTRAN, GERAN,
or CDMA2000,
respectively. If this
parameter is set to
NULL, no lowestpriority RAT is
specified and only
the highest- or
medium-priority
RAT can be
selected for CSFB
initiated by a UE in
idle mode.
NO
Indicates the CSFB
policy for a UE in
connected mode. If
the CSFB steering
function is disabled,
this parameter also
applies to UEs in
idle mode. The
policy can be PS
handover, CCO, or
redirection.
NO
Indicates the CSFB
policy for a UE in
idle mode. The
policy can be PS
handover, CCO, or
redirection.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001088 /
TDLOFD-001088
LOFD-001089 /
TDLOFD-001089
TDLOFD-001090
NO
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
LOFD-001088 /
TDLOFD-001088
LOFD-001089 /
TDLOFD-001089
NO
LOFD-001088 /
TDLOFD-001088
LOFD-001089 /
TDLOFD-001089
Indicates whether
allocation/retention
priorities (ARPs)
can be configured
for CSFB services
triggered by
common calls. For
details about ARPs,
see 3GPP TS
23.401.
NO
NO
NO
LBFD-002023
/TDLBFD-002023
Indicates the
allocation/retention
priority (ARP) of a
CSFB service
triggered by a
common call. When
this parameter is
set to 1, the service
priority is the same
as that of an
emergency call. For
details about the
ARP, see 3GPP TS
23.401.
NO
NO
NO
LBFD-002023
/TDLBFD-002023
Indicates the mobile
country code (MCC)
of a target eNodeB.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC). The MCC
consists of three
digits. The MNC
consists of two or
three digits. For
example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LBFD-002018 /
TDLBFD-002018
Indicates the mobile
network code
(MNC) of a target
eNodeB. A public
land mobile network
(PLMN) ID is
comprised of a
mobile country
code (MCC) and a
MNC. The MCC
consists of three
digits. The MNC
consists of two or
three digits. For
example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LBFD-002018 /
TDLBFD-002018
Indicates the
tracking area code
(TAC), which is
used by the EPC to
determine the area
within which paging
messages are sent.
One tracking area is
comprised of one or
more cells. Two
TAC values
0x0000(0) and
0xFFFE(65534) are
reserved according
to the protocol and
will not be used in
future versions.
Therefore, do not
use 0 or 65534 as a
TAC value in TAC
planning or
configuration.
YES
YES
NO
LBFD-002018 /
TDLBFD-002018
Indicates the index
of the operator.
YES
NO
None
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLOFD-001033
YES
Indicates the mobile
country code of the
target PLMN.
YES
YES
Indicates the mobile
network code of the
target PLMN.
YES
YES
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLOFD-001033
Indicates the ID of
the RAT/frequency
priority group.
YES
NO
LOFD-00105401 /
TDLOFD-00105401
NO
LOFD-00105401 /
TDLOFD-00105401
TDLOFD-001090
LOFD-001021 /
TDLOFD-001021
YES
Indicates the Radio
Access Technology
(RAT).
YES
YES
Indicates the
downlink frequency.
In CDMA2000, this
parameter indicates
the bandclass.
Before configuring
a priority for a
frequency specified
by this parameter,
ensure that an
external or local cell
operating on this
frequency has been
configured.
YES
YES
NO
LOFD-00105401 /
TDLOFD-00105401
Indicates the priority
of the intra-RAT
frequency band or
frequency. The
value 0 indicates
the lowest priority.
The value of this
parameter must be
determined
together with the
priorities of other
frequencies during
the network
planning. Cell
reselection priorities
in different RATs
cannot be the
same.
NO
NO
NO
LOFD-00105401 /
TDLOFD-00105401
Indicates the
GERAN frequency
band.
NO
NO
LOFD-00105401 /
TDLOFD-00105401
NO
LBFD00201805/TDLBFD
-00201805
TDLOFD-070228
Indicates the ID of
the operator.
NO
YES
YES
Indicates the ID of
the service-based
inter-frequency
handover policy
group.
YES
Indicates the index
of a DL EARFCN in
a DL EARFCN
group for servicebased interfrequency
handover.
YES
YES
YES
NO
LBFD00201805/TDLBFD
-00201805
TDLOFD-070228
NO
LBFD00201805/TDLBFD
-00201805
TDLOFD-070228
Indicates a DL
EARFCN for
service-based interfrequency
handover. Only the
value with
DlEarfcnIndex 0 in
the DL EARFCN
group is valid for
LTE FDD cells. All
values of this
parameter are valid
and have the same
priority for LTE TDD
cells.
NO
NO
NO
LBFD00201805/TDLBFD
-00201805
TDLOFD-070228
Indicates the ID of
the operator.
YES
NO
LBFD-00201805
YES
Indicates the ID of
the service-based
inter-frequency
handover policy
group.
YES
NO
LBFD-00201805 /
TDLBFD-00201805
Indicates whether
UEs of an operator
in this policy group
can be handed over
to a specified
frequency during
service-based interfrequency
handovers.
NO
NO
NO
LBFD-00201805 /
TDLBFD-00201805
Indicates the
frequency to which
a service with a
specified QCI is
preferentially
handed over during
a service-based
inter-frequency
handover.
NO
NO
NO
LBFD-00201805 /
TDLBFD-00201805
YES
Indicates the
service-based interfrequency A4
measurement
report waiting timer.
If the interfrequency
measurement is
triggered due to
service- or service
request-based interfrequency
handover, the time
for a UE performing
inter-frequency
measurement must
be restricted. This
prevents the UE
from performing
repeated GAP
measurements
when it does not
receive
measurement
reports in a period,
ensuring that data
transmission will not
be affected. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLBFD-00201805
TDLOFD-070228
serving cell and that
in at least one interfrequency
neighboring cell
meet the entering
condition for a
service- or service
request-based
handover, it does
not immediately
send a
measurement
report to the
eNodeB. Instead,
the UE sends a
report only when
the signal quality
meets the entering
condition
throughout the
hysteresis.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of incorrect
handovers,
preventing
unnecessary
handovers.
This parameter is
dedicated to LTE
TDD cells.
NO
Indicates the index
of the operator.
YES
NO
YES
NO
TDLBFD-00201805
TDLOFD-070228
NO
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
Indicates the ID of
the service-based
inter-RAT handover
policy group.
YES
Indicates whether
service-based interRAT handovers are
required, allowed,
or not allowed for a
QCI.
NO
delivers the
configuration for
service-based interfrequency handover
measurement if the
following
requirements are
met:
InterRatHoState of
at least one bearer
of the UE is set to
MUST_HO.
ServiceIrMeasMode
is set to
SERVIC_IR_MEAS
_ ORDER. After the
service-based interfrequency handover
measurement times
out, the eNodeB
delivers the
configuration for
service-based interRAT handover
measurement. If
any of the
preceding
requirements are
not met, the
eNodeB delivers
the configuration for
service-based interRAT handover
measurement. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
NO
NO
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
NO
NO
TDLOFD-001043
TDLOFD-001046
YES
Indicates the
subscriber profile ID
(SPID).
YES
YES
NO
LOFD-00105401 /
TDLOFD-00105401
LOFD-001059 /
TDLOFD-001059
Indicates whether
to use normal or
special DRX. If this
parameter is set to
TRUE, ordinary
DRX parameters
are applied to UEs
with the SPID. If
this parameter is
set to FALSE,
special DRX
parameters are
applied to UEs with
the SPID.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates whether
to set the priority for
the intra-RAT
frequency group. If
this parameter is
set to CFG(CFG),
UEs select the
target frequency
based on the
priority setting. If
this parameter is
set to
NOT_CFG(NOT_C
FG), UEs do not
select the target
frequency based on
the priority setting. NO
NO
NO
LOFD-00105401 /
TDLOFD-00105401
Indicates the ID of
the intra-RAT
frequency priority
group.
NO
NO
LOFD-00105401 /
TDLOFD-00105401
NO
Indicates whether
to support
preallocation. If this
parameter is set to
TRUE and
PreAllocationSwitch
under the
UlSchSwitch
parameter in the
CellAlgoSwitch MO
is set to On,
resources can be
preallocated to
UEs. Otherwise,
resources are not
preallocated to
UEs.
NO
Indicates whether
to enable or disable
inter-frequency load
balancing for the
SPID. The values
TRUE or FALSE
indicate that interfrequency load
balancing is allowed
or prohibited for
UEs with the SPID,
respectively.
NO
Indicates whether
to enable or disable
inter-RAT load
sharing for the
SPID. The values
TRUE or FALSE
indicate that interRAT load sharing is
allowed or
prohibited for UEs
with the SPID,
respectively.
NO
NO
NO
NO
NO
LOFD-001059 /
TDLOFD-001059
NO
LOFD-00105401 /
TDLOFD-00105401
LOFD-001032 /
TDLOFD-001032
NO
LOFD-00105401 /
TDLOFD-00105401
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
Indicates whether
to allow SPIDbased handovers
back to the home
public land mobile
network (HPLMN).
If this parameter is
set to
TRUE(TRUE), a
roaming UE can be
handed over to the
HPLMN network
when it moves back
to the coverage of
the HPLMN network
based on the SPID.
If this parameter is
set to
FALSE(FALSE),
this UE cannot be
handed over to the
HPLMN network
based on the SPID. NO
NO
NO
LOFD-00105401 /
TDLOFD-00105401
Indicates the mobile
country code (MCC)
of a target radio
network controller
(RNC).
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
None
Indicates the mobile
network code
(MNC) of a target
radio network
controller (RNC).
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
None
Indicates the RNC
ID of the UTRAN
cell. The 28-bit
UTRAN cell ID is
comprised of the
RNC cell ID and the
RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. The value range
of RNC ID is
(0~4095,
4294967295).
0~4095 indicates
the actual RNC ID
on the network.
4294967295
indicates the
special ID of all
RNCs under the
same PLMN.
YES
YES
NO
None
VoipCapCfg
indicates the VoIP
capability of the
UTRAN. If this
option is selected,
the VoIP is
supported. VoIP
services
established in the
LTE network can be
transferred to the
UTRAN using PS
handovers so that
UEs can perform
voice services in
the UTRAN. If this
option is cleared,
VoIP is not
supported. VoIP
services
established in the
LTE network cannot
be transferred to
the UTRAN using
PS handovers.
UltraFlashCsfbCap
Cfg indicates the
SRVCC capability.
If this option is
selected, SRVCC is
supported and
voice services can
continue in the
UTRAN by SRVCC.
If this option is not
selected, SRVCC is
not supported.
NO
NO
NO
LOFD-001022 /
TDLOFD-001022
LOFD-001033 /
TDLOFD-001033
LOFD-001052 /
TDLOFD-001052
LOFD-001068 /
TDLOFD-001068
LOFD-001088 /
TDLOFD-001088
LOFD-001019 /
TDLOFD-001019
LOFD-001043 /
TDLOFD-001043
LOFD-001072 /
TDLOFD-001072
LOFD-070202 /
TDLOFD-070202
Indicates the ID of
the operator.
YES
YES
NO
None
Indicates the QoS
class identifier
(QCI) of an evolved
packet system
(EPS) bearer.
Different QCIs
indicate different
QoS requirements,
such as the packet
delay budget,
packet error loss
rate, and resource
type. For details,
see Table 6.1.7 in
3GPP TS 23.203.
YES
YES
NO
None
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates the name
of an eNodeB
function, which
uniquely identifies
the eNodeB
function.
YES
YES
NO
None
Indicates the ID of
the application
referenced by an
eNodeB function.
The application
provides an
operating
environment for the
eNodeB function.
NO
NO
NO
None
Indicates the
eNodeB ID defined
in the service
protocol interface,
which uniquely
identifies an
eNodeB within a
PLMN. For details,
see 3GPP TS
36.300.
NO
NO
NO
None
Indicates userdefined remarks.
NO
NO
NO
None
Indicates model
definition version of
eNodeB resources,
including the
management object
(MO) definition,
attribute definition,
and configuration
rules.
NO
NO
NO
None
Indicates the
version of the
product. This
parameter is valid
for version query.
NO
NO
None
NO
neighboring cell
meet the entering
condition, it does
not immediately
send an ANRbased
measurement
report to the
eNodeB. Instead,
the UE sends a
report only when
the signal quality
meets the entering
condition
throughout the
hysteresis.
This parameter
helps decrease the
number of
occasionally
triggered event
reports and invalid
decisions on
triggering intrafrequency ANR.
This parameter
must be set to a
value smaller than
or equal to that of
the
IntraFreqHoA3Time
ToTrig parameter.
In the current
version, this
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-002001
Indicates the
hysteresis for the
ANR-based intrafrequency
measurement
event. This
parameter is used
to decrease the
number of invalid
decisions on
triggering intrafrequency ANR due
to radio signal
fluctuations. This
parameter must be
set to a value
smaller than or
equal to that of the
IntraFreqHoA3Hyst
parameter.
In the current
version, this
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-002001
Indicates the offset
for the signal quality
in an neighboring
cell against that in
the serving cell in
the ANR-based
intra-frequency
measurement. A
large value
indicates that a
neighboring cell
must have a better
quality than the
serving cell for
reporting the ANR
measurement
report. This
parameter must be
set to a value
smaller than or
equal to that of the
IntraFreqHoA3Offse
t parameter.
In the current
version, this
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-002001
frequency
neighboring cell
meet the entering
condition, it does
not immediately
send an ANRbased
measurement
report to the
eNodeB. Instead,
the UE sends a
report only when
the signal quality
meets the entering
condition
throughout the
hysteresis.
This parameter
helps decrease the
number of
occasionally
triggered event
reports and invalid
decisions on
triggering interfrequency ANR.
This parameter
must be set to a
value smaller than
or equal to the
InterFreqHoA4Time
ToTrig parameter.
In the current
version, this
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-002001
Indicates the
hysteresis for the
ANR-based interfrequency
measurement
event. This
parameter is used
to decrease the
number of invalid
decisions on
triggering interfrequency ANR due
to radio signal
fluctuations. This
parameter must be
set to a value
smaller than or
equal to the
InterFreqHoA4Hyst
parameter.
In the current
version, this
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-002001
Indicates the RSRP
threshold for
triggering the ANRbased interfrequency
measurement
event. When the
measured RSRP
value exceeds the
threshold, an ANRbased interfrequency
measurement
report is sent. This
parameter must be
set to a value
smaller than or
equal to that of the
InterFreqHoA4Thd
Rsrp parameter.
In the current
version, this
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-002001
Indicates the length
of the counter
check timer. When
the timer expires, a
counter check
procedure is
initiated. After the
procedure is
complete, the timer
is restarted. A
length of 0 indicates
that the timer is
invalid. In this case,
the eNodeB cannot
initiate periodic
counter check
procedures.
NO
NO
NO
LBFD-002004 /
TDLBFD-002004
Indicates the
COUNT value for
initiating counter
check procedures.
When the COUNT
value (used at the
PDCP layer) of any
DRB for a UE is a
multiple of the value
of this parameter,
the eNodeB
initiates a counter
check procedure.
The value 0
indicates that the
eNodeB does not
initiate a counter
check procedure
based on the
COUNT value.
NO
NO
NO
LBFD-002004 /
TDLBFD-002004
Indicates whether
to release a DRB
when the counter
check detects an
unexpected result
in the DRB.
NO
NO
LBFD-002004 /
TDLBFD-002004
NO
LOFD-00101001 /
TDLOFD-00101001
LOFD-00101002 /
TDLOFD-00101002
LOFD-00101003 /
TDLOFD-00101003
NO
Indicates the
highest-priority
ciphering algorithm
supported by the
eNodeB. The value
NULL indicates that
ciphering is not
applied.
NO
NO
Indicates the
second-priority
ciphering algorithm
supported by the
eNodeB. The value
NULL indicates that
ciphering is not
applied.
NO
Indicates the thirdpriority ciphering
algorithm supported
by the eNodeB. The
value NULL
indicates that
ciphering is not
applied.
NO
Indicates the fourthpriority ciphering
algorithm supported
by the eNodeB. The
value NULL
indicates that
ciphering is not
applied.
NO
NO
NO
NO
NO
LOFD-00101001 /
TDLOFD-00101001
LOFD-00101002 /
TDLOFD-00101002
LOFD-00101003 /
TDLOFD-00101003
NO
LOFD-00101001 /
TDLOFD-00101001
LOFD-00101002 /
TDLOFD-00101002
LOFD-00101003 /
TDLOFD-00101003
NO
LOFD-00101001 /
TDLOFD-00101001
LOFD-00101002 /
TDLOFD-00101002
LOFD-00101003 /
TDLOFD-00101003
Indicates the timer
governing the
period the eNodeB
will wait for a
response message
from the MME.
NO
NO
NO
None
Indicates the timer
governing the
period the eNodeB
will wait for a
response message
from the
neighboring
eNodeB.
NO
NO
NO
None
Indicates the timer
governing the
period the eNodeB
will wait for a
response message
from a UE.
NO
NO
NO
None
Indicates the timer
for the eNodeB to
wait for a handover
preparation
completion
message when a
UE is handed over
to a CDMA2000
1xRTT cell. The
eNodeB starts the
timer after sending
a Handover From
EUTRA Preparation
Request message
to the UE and stops
the timer after
receiving a UL
Handover
Preparation
Transfer message
from the UE.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the timer
for the eNodeB to
wait for a Downlink
S1 CDMA2000
Tunneling message
when a UE is
handed over to a
CDMA2000 1xRTT
cell. The eNodeB
starts the timer after
sending an UPLINK
S1 CDMA2000
TUNNELING
message to the
MME and stops the
timer after receiving
a Downlink S1
CDMA2000
Tunneling message
containing
CDMA2000 HO
Status.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the timer
for the eNodeB to
release resources
for a UE after the
UE is handed over
to a CDMA2000
1xRTT cell. The
eNodeB starts the
timer after sending
a
MobilityFromEUTR
ACommand
message.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the timer
for the eNodeB to
release resources
for a UE after the
UE is handed over
to a CDMA2000
HRPD cell. The
eNodeB starts the
timer after sending
a
MobilityFromEUTR
ACommand
message.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the timer
for the eNodeB to
wait for a Downlink
S1 CDMA2000
Tunneling message
when a UE is
handed over to a
CDMA2000 HRPD
cell. The eNodeB
starts the timer after
sending an UPLINK
S1 CDMA2000
TUNNELING
message to the
MME and stops the
timer after receiving
a Downlink S1
CDMA2000
Tunneling message
containing
CDMA2000 HO
Status.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the timer
for the eNodeB to
wait for a handover
preparation
completion
message when a
UE is handed over
to a CDMA2000
HRPD cell. The
eNodeB starts the
timer after sending
a Handover From
EUTRA Preparation
Request message
to the UE and stops
the timer after
receiving a UL
Handover
Preparation
Transfer message
from the UE.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the timer
for the eNodeB to
wait for an RRC
Connection Setup
Complete.
NO
NO
NO
None
Indicates the timer
for the eNodeB to
wait for a Security
Mode Complete
message.
NO
NO
NO
None
Indicates the timer
for the eNodeB to
wait for an
unprotected UE
Capability
Information
message.
NO
NO
NO
None
Indicates the timer
for the eNodeB to
wait for the first
forwarded packet.
NO
NO
NO
None
Indicates the timer
for the eNodeB to
wait for the
endmarker packet.
NO
NO
NO
None
Indicates the
highest-priority
integrity protection
algorithm supported
by the eNodeB.
NO
NO
NO
LBFD-002004 /
TDLBFD-002004
Indicates the
second-priority
integrity protection
algorithm supported
by the eNodeB.
NO
NO
NO
LBFD-002004 /
TDLBFD-002004
Indicates the thirdpriority integrity
protection algorithm
supported by the
eNodeB.
NO
NO
NO
LBFD-002004 /
TDLBFD-002004
Indicates whether
the eNodeB can
use the null
algorithm for
integrity protection.
If this switch is
turned off, the null
algorithm cannot be
used for integrity
protection. When
this switch is turned
off, the eNodeB
selects an integrity
protection algorithm
based on the
algorithm priorities
specified by
PrimaryIntegrityAlg
o,
SecondIntegrityAlgo
, and
ThirdIntegrityAlgo,
but skips the null
algorithm.
NO
NO
NO
LBFD-002004 /
TDLBFD-002004
Indicates whether
to enable ROHC.
Set this parameter
to ON if the
eNodeB is
expected to support
VoIP or video
services.
NO
NO
NO
LOFD-001017 /
TDLOFD-001017
Bidirectional
Reliable Mode (RMode), but its
feedback-induced
overhead is
minimum compared
with the overhead in
O-Mode and RMode. In O-Mode,
the decompressor
can send feedback
messages to the
compressor to
indicate
decompression
failures or
successful context
updates. O-Mode is
more reliable than
U-Mode and
requires a smaller
amount of feedback
than R-Mode. In RMode, the reliability
of context
synchronization
between the
compressor and the
decompressor is
higher than that in
any other mode.
However, because
of frequent
feedback, R-Mode
causes the largest
amount of link
overhead.
NO
NO
NO
LOFD-001017 /
TDLOFD-001017
framework, header
compression
algorithms vary with
protocols. Profiles
define the header
compression
protocols (such as
RTP/UDP/IP or
TCP/IP), which are
under the same
ROHC framework,
for specific types of
packet streams.
Each profile has a
unique identifier.
As defined by LTE
specifications, the
eNodeB supports
the following
profiles: profile
0x0001 (usage:
RTP/UDP/IP;
reference: RFC
3095 and RFC
4815), profile
0x0002 (usage:
UDP/IP; reference:
RFC 3095 and RFC
4815), profile
0x0003 (usage:
ESP/IP; reference:
RFC 3095 and RFC
4815), and profile
0x0004 (usage: IP;
reference: RFC
3843 and RFC
4815).
NO
NO
NO
LOFD-001017 /
TDLOFD-001017
Indicates the length
of timer T302.
T302 specifies the
time during which a
UE whose RRC
connection request
is rejected has to
wait before the UE
can initiate a
request again.
This timer is started
when the UE
receives an
RRCConnectionRej
ect message and
stopped when the
UE enters the
RRC_CONNECTE
D mode or performs
cell reselection.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the length
of timer T320 for
load balancing.
T320 specifies the
time period during
which the dedicated
priorities (used for
cell reselection)
retain valid. The
time period is
contained in the
RRCConnectionRel
ease message that
is received by the
UE. After T320
expires, the
dedicated priorities
become invalid.
This timer is started
when the UE
receives an
RRCConnectionRel
ease message
containing the t320
IE.
This timer is
stopped when the
UE enters the
RRC_CONNECTE
D mode.
NO
NO
NO
None
Indicates the length
of timer T304 for
intra-RAT handover.
If the UE does not
complete the
handover before
this timer expires,
the UE reverts back
to the associated
configuration and
initiates an RRC
connection
reestablishment
procedure.
NO
NO
NO
None
Indicates the length
of timer T304 for
inter-RAT handover
to GERAN. If the
UE does not
complete the
handover before
this timer expires,
the UE reverts back
to the associated
configuration and
initiates an RRC
connection reestablishment
procedure.
NO
NO
NO
None
Indicates the length
of timer T320 to be
contained in
RRCConnectionRel
ease messages
sent for reasons
other than load
balancing. T320
specifies the time
period during which
the dedicated
priorities (used for
cell reselection) are
valid. After T320
expires, the
dedicated priorities
become invalid.
This parameter is
invalid for UEs to
be redirected based
on the subscriber
profile ID (SPID).
This timer is started
when the UE
receives an
RRCConnectionRel
ease message
containing the t320
IE. It is stopped
when the UE enters
the
RRC_CONNECTE
D mode.
NO
NO
NO
None
Indicates the length
of the UE inactivity
timer. If the eNodeB
detects that a UE
has neither
received nor sent
data for a duration
exceeding the value
of this parameter,
the eNodeB
releases the RRC
connection for the
UE. If this
parameter is set to
0, the UE inactivity
timer is not used. If
this parameter is
modified, the
modified value
applies only to UEs
that access the
network later.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the timer
used to govern the
period in which the
eNodeB maintains
uplink
synchronization for
a UE. After this
timer expires, the
eNodeB does not
send Timing
Advance Command
to the UE. This
parameter does not
take effect if it is set
to 0. That is, the
eNodeB will
constantly send
Timing Advance
Command to the
UE to maintain
uplink
synchronization for
the UE.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the length
of the timer for the
eNodeB to filter
repeated RRC
Connection
Request messages.
The actually used
timer length is the
sum of T300 length
and the value of
this parameter.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
eNodeB detects
that a UE has
neither received nor
sent data for a
duration exceeding
the value of this
parameter, the
eNodeB releases
the RRC
connection for the
UE. A large value of
this parameter
reduces the amount
of signaling but
increase UE power
consumption.You
are advised to set
this parameter to a
value greater than
the value of
UlSynTimerDynDrx.
In power saving
mode, you are
advised to set this
parameter
significantly
different to the
value of the
UlSynTimerDynDrx
parameter, for
example a gap of
10 seconds, to
avoid power
consumption
increase due to the
increase of
signaling.
NO
NO
NO
LOFD-00110501 /
TDLOFD-00110501
LOFD-00110502 /
TDLOFD-00110502
Indicates the timer
used to govern the
period in which the
eNodeB maintains
uplink
synchronization for
a DRX UE when
dynamic DRX is
enabled. After this
timer expires, the
eNodeB does not
send Timing
Advance Command
to the UE. You are
advised to set this
parameter to a
value smaller than
the value of
UeInactivityTimerDy
nDrx.In power
saving mode, you
are advised to set
this parameter
significantly
different to the
value of the
UeInactivityTimerDy
nDrx parameter, for
example a gap of
10 seconds, to
avoid power
consumption
increase due to the
increase of
signaling.
NO
NO
NO
LOFD-00110501 /
TDLOFD-00110501
LOFD-00110502 /
TDLOFD-00110502
Indicates the ID of
the TCE for MDT.
YES
NO
None
NO
NO
None
YES
Indicates the IP
address version.
IPv4~0 indicates
that the IP version
is IPv4. IPv6~1
indicates that the IP
version is IPv6.
NO
Indicates the IPv4
address of the TCE. NO
NO
NO
None
Indicates the IPv6
address of the TCE. NO
NO
NO
None
NO
LOFD002004/TDLOFD002004
NO
LOFD002004/TDLOFD002004
Indicates the mobile
country code (MCC)
of an operator that
the target eNodeB
supporting X2 selfsetup belongs to.
YES
Indicates the mobile
network code
(MNC) of an
operator that the
target eNodeB
supporting X2 selfsetup belongs to.
The value of this
parameter is a
string of two or
three characters,
each of which must
be a digit in the
range of 0 to 9.
YES
YES
YES
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
Indicates the
Reference Signal
Received Power
(RSRP) threshold
for reporting event
A2 in a secondary
cell. When the
RSRP of a UE is
lower than this
threshold, event A2
is reported.
NO
YES
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the
Reference Signal
Received Power
(RSRP) threshold
for a UE to report
event A4 of a
secondary cell.
When the RSRP of
the UE is greater
than the threshold,
event A4 is
reported.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates whether
to enable carrier
management. If this
parameter is set to
ON(On), the
eNodeB
deactivates the
secondary
component carrier
(SCC) for a CA UE
when the traffic
volume of the CA
UE is small or the
channel quality of
the SCC is poor. If
this parameter is
set to OFF(Off), the
SCC is always
active after being
activated, unless a
radio link failure
(RLF) is detected
on the SCC.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the
threshold for a CA
UE to activate an
SCell. A CA UE can
active an SCell only
when its buffered
data on the eNodeB
exceeds this
threshold.
NO
Indicates the
threshold for a CA
UE to deactivate an
SCell. A CA UE can
deactivate an SCell
only when its
buffered data on
the eNodeB is
smaller than this
threshold.
NO
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the
threshold for a CA
UE to activate an
SCell. A CA UE can
activate an SCell
only when its buffer
delay on the
eNodeB exceeds
this threshold.
NO
Indicates the
threshold for a CA
UE to deactivate an
SCell. A CA UE can
deactivate an SCell
only when its
throughput is
smaller than the
value of this
parameter.
NO
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the offset
for secondary cell
event A6. This
offset is the
difference between
the quality of a
neighboring cell and
that of the serving
cell. A large value
indicates that a
neighboring cell
must have a better
quality than the
serving cell for
reporting the event
A6.
NO
Indicates the length
of aging time of the
secondary serving
cells (SCells) that
are dynamically
configured for CA
UEs in a cell in
frequency-based
CA configuration
scenarios.If no CA
UE is performing
carrier aggregation
between an SCell
and the PCell within
the aging time, the
eNodeB cancels
the association
between the SCell
and the PCell.This
parameter applies
only to LTE FDD
cells.
NO
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100102
LAOFD-070201
LAOFD-070202
Indicates the
number of periodic
measurement
reports that are
sent after event A6
for the SCell is
triggered. For
details, see 3GPP
TS 36.331.
NO
NO
NO
TDLAOFD00100111
TDLAOFD00100201
TDLAOFD00100102
TDLAOFD-070201
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the
interval between
periodic
measurement
reports that are
sent after event A6
for the SCell is
triggered. For
details, see 3GPP
TS 36.331.
NO
NO
NO
TDLAOFD00100111
TDLAOFD00100201
TDLAOFD00100102
TDLAOFD-070201
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the CQI
threshold for
deactivating the
secondary
component carrier
(SCC) for a CA UE
based on the
channel quality.
When the channel
quality for a CA UE
is worse than that
indicated by this
threshold in singlecodeword
transmission, the
eNodeB
deactivates the
SCC for the CA UE.
If this parameter is
set to 0, the
eNodeB does not
deactivate the SCC
for a CA UE based
on channel quality
of the SCC. This
parameter specifies
the CQI threshold
for deactivating the
SCell that the local
cell acts as, and
takes effect only
when the
CarrierMgtSwitch
parameter on the
associated PCell is
set to ON.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100102
LAOFD-070201
LAOFD-070202
TDLAOFD00100111
TDLAOFD00100201
TDLAOFD00100102
TDLAOFD-070201
Indicates the
minimum interval at
which an eNodeB
attempts to
configure a
secondary
component carrier
(SCC) for a CA UE.
The actual interval
at which an
eNodeB attempts to
configure a
secondary
component carrier
(SCC) for a CA UE
must be larger than
this value.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100102
LAOFD-070201
LAOFD-070202
TDLAOFD00100111
TDLAOFD00100201
TDLAOFD00100102
TDLAOFD-070201
Indicates the local
cell ID. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
YES
MIMO for a multiantenna eNodeB.
The values are
described as
follows:
NO_ADAPTIVE: A
fixed beamforming
or MIMO
transmission mode
is used. That is,
transition between
the beamforming
and MIMO
transmission mode
is not supported.
TxD_BF_ADAPTIV
E: The transmission
mode changes
adaptively between
TM2 and TM7 or
between TM2 and
TM8, depending on
the protocol release
with which UEs
comply.
MIMO_BF_ADAPTI
VE: The
transmission mode
changes adaptively
between TM2, TM3,
and TM7, or
between TM2, TM3,
and TM8,
depending on the
protocol release
with which UEs
comply.
NO
NO
NO
TDLOFD-001001
TDLOFD-001003
TDLOFD-001060
TDLOFD-001049
TDLOFD-001061
only when
BfMimoAdaptiveSwi
tch is set to
NO_ADAPTIVE.
The values are
described as
follows:
TM2: Transmission
mode 2 is always
used for UEs.
TM3: Transmission
mode 3 is always
used for UEs.
TM7: Transmission
mode 7 is always
used for UEs.
TM8: Transmission
mode 8 is always
used for UEs.
TM4: Transmission
mode 4 is always
used for UEs.
TM9 w/o PMI:
Open-loop
transmission mode
9 is always used for
UEs. This
parameter is
unavailable in this
version.
TM9 w PMI: Closeloop transmission
mode 9 is always
used for UEs. This
parameter is
unavailable in this
version.
NO
NO
NO
TDLOFD-001001
TDLOFD-001003
TDLOFD-001060
TDLOFD-001049
TDLOFD-001061
modes are
adaptively selected
between TM3 and
TM7, TM3 and
TM8, or TM3, TM8,
and TM9 based on
the protocols that
UEs comply with. If
TM9 needs to be
adaptively selected,
the TM9Switch
check box must be
selected. If this
parameter is set to
OFF and the
BfMIMO adaptive
switch parameter is
set to
MIMO_BF_ADAPTI
VE, TM2 is initially
used for inter-cell
handovers, and
then handover
modes are
adaptively selected
between TM2, TM3,
and TM7, TM2,
TM3, and TM8, or
TM2, TM3, TM8,
and TM9 based on
the protocols that
UEs comply with. If
TM9 needs to be
adaptively selected,
the TM9Switch
check box must be
selected.
NO
NO
NO
TDLOFD-001001
TDLOFD-001060
TDLOFD-001049
TDLOFD-001061
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the offset
for reporting the DL
CoMP
measurement
event. This offset is
the difference
between the signal
quality of a
neighboring cell and
that of the serving
cell. A larger value
indicates that a
neighboring cell
must have better
quality for reporting
the event. For
details, see 3GPP
TS 36.331.
NO
NO
NO
TDLOFD-001136
TDLAOFD00100103
TDLAOFD-003002
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the switch
for adjusting the PA
through power
control on the
PDSCH. If this
parameter is set to
ON, the PA is
adjusted
dynamically when
the channel quality
is extremely good
or bad.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
Indicates the PA to
be used when PA
adjustment for
PDSCH power
control is disabled,
DL ICIC is disabled,
and the even power
distribution is used
for the PDSCH.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
intervals (TTIs) with
data transmission
to the total TTIs. If
the measurement
result of UE traffic
is equal to or lower
than this threshold,
the eNodeB
determines that the
UE should remain
in DRX mode or the
UE should be
triggered to enter
DRX mode. If both
the values of the
FddExitDrxThd and
FddEnterDrxThd
parameters are
small and close to
each other, the UE
frequently enters
and exits the DRX
mode. When both
the
FddEnterDrxThd
parameter and the
FddExitDrxThd
parameter are set
to 1000 and DRX is
enabled, the
eNodeB directly
determines that the
UE should enter or
exit the DRX mode,
but not according to
the measurement
result of UE traffic. NO
NO
NO
LBFD-002017 /
TDLBFD-002017
DRX mode. If the
value of the
FddExitDrxThd
parameter is set to
1000 and the value
of the
FddEnterDrxThd
parameter is set to
a value smaller
than 1000, the UE
will not exit the DRX
mode once entering
the DRX mode. If
both the values of
the FddExitDrxThd
and
FddEnterDrxThd
parameters are
small and close to
each other, the UE
frequently enters
and exits the DRX
mode. When both
the
FddEnterDrxThd
parameter and the
FddExitDrxThd
parameter are set
to 1000 and DRX is
enabled, the
eNodeB directly
determines that the
UE should enter or
exit the DRX mode,
but not according to
the measurement
result of UE traffic. NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the uplink
traffic volume
threshold for UEs to
enter DRX in the
cell that operates in
TDD mode. This
threshold is used in
the DRX algorithm.
It is expressed as a
proportion of the
transmission time
intervals (TTIs) with
uplink data
transmission to the
total TTIs. If the
traffic volume at a
UE is equal to or
lower than this
threshold, the
eNodeB decides
that the UE should
retain its DRX state
or enter DRX.
NO
NO
NO
TDLBFD-002017
Indicates the uplink
traffic volume
threshold for UEs to
exit DRX in the cell
that operates in
TDD mode. This
threshold is used in
the DRX algorithm.
It is expressed as a
proportion of the
transmission time
intervals (TTIs) with
uplink data
transmission to the
total TTIs. If the
traffic volume at a
UE is equal to or
higher than this
threshold, the
eNodeB decides
that the UE should
retain its non-DRX
state or exit DRX.
NO
NO
NO
TDLBFD-002017
Indicates the
downlink traffic
volume threshold
for UEs to enter
DRX in the cell that
operates in TDD
mode. This
threshold is used in
the DRX algorithm.
It is expressed as a
proportion of the
transmission time
intervals (TTIs) with
downlink data
transmission to the
total TTIs. If the
traffic volume at a
UE is equal to or
lower than this
threshold, the
eNodeB decides
that the UE should
retain its DRX state
or enter DRX.
NO
NO
NO
TDLBFD-002017
Indicates the
downlink traffic
volume threshold
for UEs to exit DRX
in the cell that
operates in TDD
mode. This
threshold is used in
the DRX algorithm.
It is expressed as a
proportion of the
transmission time
intervals (TTIs) with
downlink data
transmission to the
total TTIs. If the
traffic volume at a
UE is equal to or
higher than this
threshold, the
eNodeB decides
that the UE should
retain its non-DRX
state or exit DRX.
NO
NO
NO
TDLBFD-002017
Indicates the length
of the UE traffic
measurement
period. The traffic
volume of a UE
during this period is
measured. Based
on the
measurement
result, the DRX
algorithm decides
whether the UE
should enter or exit
DRX.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates whether
DRX active-time
measurement is
supported in the
cell that operates in
TDD mode. If this
parameter is set to
ON, DRX activetime measurement
is supported in the
cell that operates in
TDD mode. If this
parameter is set to
OFF, DRX activetime measurement
is not supported in
the cell that
operates in TDD
mode.
NO
NO
NO
None
Indicates the length
of the UE DRX
power saving
measurement
period for cells that
operate in TDD
mode. The power
saving volume of a
UE during this
period is measured.
Based on the
measurement
result, the DRX
algorithm decides
whether the UE
should enter or exit
DRX.
NO
NO
NO
None
Indicates the activetime measurement
threshold for UEs to
enter DRX in the
cell that operates in
TDD mode. This
threshold is used in
the DRX algorithm.
If the measurement
result of a UE is
lower than this
threshold, the
eNodeB decides
that the UE should
retain its DRX state
or enter DRX.
NO
NO
NO
None
Indicates the activetime measurement
threshold for UEs to
exit DRX in the cell
that operates in
TDD mode. This
threshold is used in
the DRX algorithm.
If the measurement
result of a UE is
higher than this
threshold, the
eNodeB decides
that the UE should
retain its non-DRX
state or exit DRX.
NO
NO
NO
None
Indicates the length
of the long DRX
cycle for a UE in
the uplink out-ofsynchronization
state. Set this
parameter to a
value greater than
the value of
LongDrxCycle;
otherwise, the
power saving gain
of the DRX for UEs
in the uplink out-ofsynchronization
state decreases.
NO
NO
NO
LOFD-001105
TDLBFD-002017
Indicates whether
the cqi-Mask IE can
be set. The cqiMask IE is an
optional IE
introduced in 3GPP
Release 9. If the
cqi-Mask IE is set to
Setup, the UE can
send
CQI/PMI/RI/PTI
reports on PUCCH
only in the
onDuration period
of discontinuous
reception (DRX). If
the cqi-Mask IE is
not set, the UE can
send
CQI/PMI/RI/PTI
reports on PUCCH
in the active period
of DRX.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the DRX
onduration timer for
UEs when the
eNodeB does not
maintain
synchronization for
UEs.
NO
NO
NO
LOFD-00110501 /
TDLOFD-00110501
LOFD-00110502 /
TDLOFD-00110502
Indicates the DRX
inactivity timer for
UEs when the
eNodeB does not
maintain
synchronization for
UEs.
NO
NO
NO
LOFD-001105 /
TDLOFD-001105
this parameter is
set to
DEFAULT(Default),
the DRX parameter
group with the
shortest long DRX
cycle is
preferentially
selected for the UE.
If the lengths of
long DRX cycle for
multiple QCIs are
the same, the DRX
parameter group
with the highestpriority QCI is
selected for the UE.
The QCI priorities
are defined in
3GPP
specifications. If
this parameter is
set to
QCIPRIORITY(QCI
priority), the DRX
parameter group
with the highestpriority QCI is
selected for the UE.
If no DRX
parameter group is
configured for the
highest-priority QCI,
the eNodeB does
not configure the
DRX parameter
group for the UE.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
CqiOffset, or 0
when a UE is
configured with only
SRS resources, or
periodic CQI, or
neither,
respectively. This
prevents
DrxStartOffset
values from being
randomly
distributed within
the range of 0 to
(LongDrxCycle - 1).
If this parameter is
set to ON,
DrxStartOffset
values can be
randomly
distributed within
the range of 0 to
(LongDrxCycle - 1)
for UEs that are
configured with only
SRS resources, or
periodic CQI, or
neither. This
parameter applies
only to LTE FDD
eNodeBs and is
recommended to be
set to ON when
SRS resources are
not allocated for
UEs or there is a
large number of
UEs in the cell.
NO
NO
NO
LBFD-002017
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the RSRP
threshold for events
A1 and A2 that are
used for interfrequency and interRAT blind
handovers based
on coverage. If the
RSRP
measurement result
of the serving cell is
higher than the sum
of this threshold
and the hysteresis
throughout the
time-to-trigger,
event A1 is
reported. If the
RSRP
measurement result
of the serving cell is
lower than this
threshold minus the
hysteresis
throughout the
time-to-trigger,
event A2 is
reported.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
Indicates the RSRQ
threshold for events
A1 and A2 that are
used for interfrequency and interRAT blind
handovers based
on coverage. If the
RSRQ
measurement result
of the serving cell is
higher than the sum
of this threshold
and the hysteresis
throughout the
time-to-trigger,
event A1 is
reported. If the
RSRQ
measurement result
of the serving cell is
lower than this
threshold minus the
hysteresis
throughput the
time-to-trigger,
event A2 is
reported.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
Indicates the local
cell ID. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
YES
values are
described as
follows:
NO_ADAPTIVE: A
fixed MIMO
transmission mode
is used. That is,
transition between
MIMO transmission
modes is not
supported.
OL_ADAPTIVE:
The open-loop
adaptive MIMO
transmission mode
is used. In this
mode, UEs report
RANK and CQI
values but do not
report PMI values to
the eNodeB.
CL_ADAPTIVE:
The closed-loop
adaptive MIMO
transmission mode
is used. In this
mode, UEs report
RANK, CQI, and
PMI values to the
eNodeB.
OC_ADAPTIVE:
UEs switch
between the openloop and closedloop adaptive MIMO
transmission modes
automatically.
NO
NO
NO
LOFD-001001
LOFD-001003
LOFD-001060 /
TDLOFD-001060
TDLOFD-001001
Indicates the fixed
MIMO transmission
mode configured by
a multi-antenna
eNodeB for UEs.
This parameter is
valid only when
MimoAdaptiveSwitc
h is set to
NO_ADAPTIVE.
There are four
values.
TM2: Transmission
mode 2 is
permanently
applied to UEs.
TM3: Transmission
mode 3 is
permanently
applied to UEs.
TM4: Transmission
mode 4 is
permanently
applied to UEs.
TM6: Transmission
mode 6 is
permanently
applied to UEs.
NO
NO
NO
LOFD-001001
LOFD-001003
LOFD-001060 /
TDLOFD-001060
TDLOFD-001001
network access is
TM2.
If this parameter is
set to
ADAPTIVE(ADAPTI
VE), the MIMO
transmission mode
used during initial
network access is
determined by the
settings of the
MimoAdaptiveSwitc
h and
FixedMimoMode
parameters. If the
MimoAdaptiveSwitc
h parameter is set
to NO_ADAPTIVE,
the initial MIMO
transmission mode
is determined by
the setting of the
FixedMimoMode
parameter. If the
MimoAdaptiveSwitc
h parameter is set
to OL_ADAPTIVE
or OC_ADAPTIVE,
the initial MIMO
transmission mode
is TM3. If the
MimoAdaptiveSwitc
h parameter is set
to CL_ADAPTIVE,
the initial MIMO
transmission mode
is TM4.
NO
NO
NO
LOFD-001001 /
TDLOFD-001001
LOFD-001003
LOFD-001060 /
TDLOFD-001060
Indicates the local
ID of the cell, which
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
frequency selection
strategy of MLB for
UEs in idle mode.
The value
RESELPRIOBASE
D indicates that the
target frequency for
MLB is selected for
UEs in idle mode
based on cell
reselection priorities
of frequencies. The
value
MLBPRIOBASED
indicates that the
target frequency for
MLB is selected for
UEs in idle mode
based on MLB
priorities of
frequencies.
NO
NO
NO
TDLOFD-070215
Indicates the
protection mode of
hand-in UEs
triggered by MLB
algorithms. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
TDLOFD-070215
Indicates the period
within which an
MLB-based hand-in
UE cannot perform
MLB-based
handovers. If this
parameter is set to
0, the UE inactivity
timer is not used. If
this parameter is
modified, the
modified value
applies only to UEs
that access the
network after the
modification. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
TDLOFD-070215
Indicates the RSRP
threshold for interfrequency MLBbased hand-in UEs
to perform
measurement event
A1. This parameter
is dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
TDLOFD-070215
Indicates the RSRQ
threshold for interfrequency MLBbased hand-in UEs
to perform
measurement event
A1. This parameter
is dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
TDLOFD-070215
Indicates the RSRP
threshold for interfrequency MLBbased hand-in UEs
to perform
measurement event
A1. This parameter
is dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
TDLOFD-070215
Indicates the RSRQ
threshold for interfrequency MLBbased hand-in UEs
to perform
measurement event
A1. This parameter
is dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
TDLOFD-070215
Indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the ID of
the parameter
group related to
preallocations.
YES
NO
None
YES
Indicates whether
to enable or disable
preallocation for a
bearer with a
specified
preallocation
parameter group
ID. If this parameter
is set to ON(On),
preallocation is
enabled for this
bearer. If this
parameter is set to
OFF(Off),
preallocation is
disabled for this
bearer. This switch
is a bearer-level
switch and takes
effect when the celllevel switch
PreAllocationSwitch
in the
CellAlgoSwitch MO
is turned on.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates whether
smart preallocation
is enabled or
disabled for a
bearer with a
specified
preallocation
parameter group ID
when
PreAllocationSwitch
is turned on. If both
PreAllocationSwitch
and
SmartPreAllocation
Switch are turned
on, and
SmartPreAllocation
Duration is set to a
value greater than
0, uplink smart
preallocation is
enabled; otherwise,
uplink smart
preallocation is
disabled. This
switch is a bearerlevel switch and
takes effect when
the cell-level switch
PreAllocationSwitch
in the
CellAlgoSwitch MO
is turned on.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
minimum interval
between two
preallocations, that
is, the interval
between two times
that a UE is
preallocated must
be larger than this
parameter value.
When the DRX
algorithm switch is
on and the UE is in
DRX mode, the
actual value of this
parameter cannot
be greater than the
DrxInactivityTimer
parameter value.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the data
amount
preallocated to
each UE.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
duration of each
smart preallocation. NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the offset
for UL CoMP event
A3. A larger value
indicates that a
neighboring cell
must have better
quality for the
reporting of the
event. For details,
see 3GPP TS
36.331.
NO
NO
NO
LOFD-001066 /
TDLOFD-001066
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates whether a
UE needs to adjust
the transmit power
based on the MCS.
The indication is
sent to the UE
through an RRC
message. The
indication is
denoted by a bit. Bit
0 indicates that
both Ks and ΔTF
are equal to 0. Bit 1
indicates that Ks is
equal to 1.25 and
ΔTF is calculated.
For details, see
3GPP TS 36.213.
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
Indicates the power
offset of the
sounding reference
signal to the
PUSCH when
DeltaMcsEnabled is
set to
UU_DISABLE.
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
Indicates the power
offset of the
sounding reference
signal to the
PUSCH when
DeltaMcsEnabled is
set to
UU_ENABLE.
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
Indicates the alpha
filtering coefficient
used by the UE
during RSRP
measurement for
path loss
estimation.
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
NO
LOFD-001072 /
TDLOFD-001072
LOFD-001073 /
TDLOFD-001073
LBFD-00201804 /
TDLBFD-00201804
Indicates the
measurement
object type for
distance-based
handovers. The
measurement
object type can be
E-UTRAN, UTRAN,
or GERAN.
NO
NO
Indicates the
threshold for
distance-based
handovers. If the
distance between a
UE and the cell
center is greater
than this threshold,
a distance-based
handover is
triggered for this
UE.
NO
NO
NO
LBFD-00201804 /
TDLBFD-00201804
LOFD-001072 /
TDLOFD-001072
LOFD-001073 /
TDLOFD-001073
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the DRX parameter
group.
YES
YES
NO
LBFD-002017 /
TDLBFD-002017
Indicates whether
bearers to which
the parameter
group applies
support DRX. The
value ON indicates
that the bearers
support DRX. The
value OFF indicates
that the bearers do
not support DRX.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the On Duration
Timer. Because of
the impact of CQI
reporting intervals
and SRS
transmission
intervals, the actual
value of this
parameter assigned
to a UE may be
greater than the
configured value.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the DRX
inactivity timer.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the DRX
Retransmission
Timer.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
the LongDrxCycle
parameter be set to
a value smaller
than or equal to 320
ms. Otherwise, the
uplink time
alignment
performance of UEs
is affected. If the
TimingAdvCmdOpt
Switch parameter is
set to ON, it is
recommended that
the
TimeAlignmentTime
r parameter be set
to sf10240. A
smaller value of the
TimeAlignmentTime
r parameter, such
as sf5120,
increases the
probability that UEs
in DRX mode
become uplink
asynchronized. The
length of the long
DRX cycle must be
smaller than the
length of the PDCP
packet discarding
timer for the
corresponding QCI.
Otherwise, packet
loss occurs during a
ping operation or
low-traffic service. NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates whether
short DRX cycles
are enabled.
NO
NO
LBFD-002017 /
TDLBFD-002017
NO
Indicates the length
of the short DRX
cycle. According to
3GPP
specifications, the
length of a long
DRX cycle must be
an integer multiple
of that of a short
DRX cycle. In
addition, the actual
value of
LongDrxCycle
assigned to a UE
may be less than
the configured
value because of
the impact of the
SRS bandwidth and
TA period specified
by the
TimeAlignmentTime
r parameter.
Therefore, the
actual value of
ShortDrxCycle
assigned to a UE
may be less than
the configured
value.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the DRX Short
Cycle Timer. If this
parameter is set to
1, the length of this
timer is one short
DRX cycle. If this
parameter is set to
2, the length of this
timer is two short
DRX cycles. If this
parameter is set to
a large value, a UE
for which short DRX
cycles are enabled
stays in short-cycle
DRX for a long
time. For details,
see 3GPP TS
36.321 5.7.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
received signal
strength indicator
(RSSI) of the
GERAN BCCH
ARFCN that a UE
needs to measure
to determine
whether it is tolerant
of the interference
from the cells
working on this
frequency.
YES
YES
NO
MRFD-231808
Indicates the
GERAN band to
which the absolute
radio frequency
channel number
(ARFCN) that the
UE needs to
measure belongs. If
the GERAN ARFCN
is in the range of
512 to 810, the
value of this
parameter is used
to indicate whether
the GERAN ARFCN
is in the DCS 1800
MHz band or the
PCS 1900 MHz
band. If the GERAN
ARFCN is in neither
band, this
parameter does not
take effect and can
be set to either
value. For details,
see 3GPP TS
36.331.
NO
NO
NO
MRFD-231808
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the common
parameter group
related to inter-RAT
handover.
YES
Indicates the
hysteresis for interRAT measurement
events A1 and A2.
This parameter is
used to prevent
frequent triggering
of event evaluation
caused by radio
signal fluctuation. In
this way, the
probability of pingpong handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability. NO
YES
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
Indicates the timeto-trigger for interRAT measurement
event A1 or A2.
When detecting
that the signal
quality in the
serving cell meets
the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of wrong
handovers. In
summary, it helps
prevent
unnecessary
handovers.
NO
Indicates the RSRP
threshold for interRAT measurement
event A1.
When the
measured RSRP
value of the serving
cell exceeds this
threshold, an event
A1 report will be
sent.
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
Indicates the RSRQ
threshold for interRAT measurement
event A1.
When the
measured RSRQ
value of the serving
cell exceeds this
threshold, an event
A1 report will be
sent.
NO
Indicates the RSRP
threshold for interRAT measurement
event A2.
When the
measured RSRP
value of the serving
cell is below this
threshold, an event
A2 report will be
sent.
NO
Indicates the RSRQ
threshold for interRAT measurement
event A2.
When the
measured RSRQ
value of the serving
cell is below this
threshold, an event
A2 report will be
sent.
NO
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
Indicates the offset
of the event A2
threshold for interRAT blind
redirections relative
to the event A2
threshold for
handovers.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the parameter
group related to
inter-RAT handover
to CDMA2000
1xRTT.
YES
YES
NO
None
Indicates the
hysteresis for event
B1 for inter-RAT
handover to
CDMA2000 1xRTT.
This parameter is
used to prevent
frequent triggering
of event evaluation
caused by radio
signal fluctuation. In
this way, the
probability of pingpong handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability
of ping-pong
handovers or
handover decision
errors.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the pilot
strength threshold
for event B1 related
to coverage-based
inter-RAT handover
to CDMA2000
1xRTT. When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
None
Indicates the timeto-trigger for event
B1 related to interRAT handover to
CDMA2000 1xRTT.
When detecting
that the signal
quality in at least
one neighboring cell
meets the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers and the
number of wrong
handovers,
preventing
unnecessary
handovers.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the pilot
strength threshold
for event B1 related
to load- or servicebased inter-RAT
handover to
CDMA2000 1xRTT.
When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the RLF
timer and constants
group ID.
YES
YES
NO
LBFD-002007 /
TDLBFD-002007
Indicates the length
of the timer T301.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the length
of the timer T310.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the length
of the timer T311.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the
maximum number
of successive "out
of sync" indications
received from L1.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the
maximum number
of successive "in
sync" indications
received from L1.
For details, see
3GPP TS 36.331.
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the
extended QoS
Class Identifier
(QCI), which is
required by the
operator for service
differentiation.
YES
YES
NO
LBFD-002032
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
NO
Indicates the ID of a
parameter group
related to interfrequency
handover.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the ID of a
parameter group
related to inter-RAT
handover to
CDMA2000 1xRTT. NO
NO
NO
LOFD-001035
LOFD-001021
Indicates the ID of a
parameter group
related to inter-RAT
handover to
CDMA2000 HRPD. NO
NO
NO
LOFD-001021
Indicates the ID of a
group of common
parameters related
to inter-RAT
handover.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
Indicates the ID of a
parameter group
related to inter-RAT
handover to
GERAN.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
Indicates the ID of a
parameter group
related to inter-RAT
handover to
UTRAN.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
Indicates the ID of a
parameter group
related to intrafrequency
handover.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the ID of a
DRX parameter
group.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the RLF
timer and constants
indication.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the RLF
timer and constants
group ID.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the
waiting duration for
the eNodeB to
release services
with a specific QCI
after the eNodeB
detects that the
radio link is
abnormal. When
the eNodeB detects
that the radio link is
abnormal, the
eNodeB waits for
the UE to initiate an
RRC connection
reestablishment
procedure to
restore services. If
the waiting duration
times out, the
eNodeB releases
the services.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates the QoS
class identifier
(QCI) of an evolved
packet system
(EPS) bearer.
Different QCIs
indicate different
QoS requirements,
such as the packet
delay budget,
packet error loss
rate, and resource
type. For details,
see Table 6.1.7 in
3GPP TS 23.203.
YES
Indicates the ID of a
parameter group
related to interfrequency
handovers.
NO
YES
YES
NO
NO
None
NO
LBFD-002025 /
TDLBFD-002025
LOFD-00101502 /
TDLOFD-00101502
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the ID of a
parameter group
related to inter-RAT
handover to
CDMA2000 1xRTT. NO
NO
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
Indicates the ID of a
parameter group
related to inter-RAT
handover to
CDMA2000 HRPD. NO
NO
NO
LOFD-001021 /
TDLOFD-001021
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
Indicates the ID of a
common parameter
group related to
inter-RAT handover. NO
NO
Indicates the ID of a
parameter group
related to inter-RAT
handover to
GERAN.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
Indicates the ID of a
parameter group
related to inter-RAT
handover to
UTRAN.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
Indicates the ID of a
parameter group
related to intrafrequency
handover.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the ID of a
DRX parameter
group.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the
interval at which
scheduling request
indicators are sent. NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the RLF
timer and constants
indication.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the RLF
timer and constants
group ID.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the
waiting duration for
the eNodeB to
release services
with a specific QCI
after the eNodeB
detects that the
radio link is
abnormal. When
the eNodeB detects
that the radio link is
abnormal, the
eNodeB waits for
the UE to initiate an
RRC connection
reestablishment
procedure to
restore services. If
the waiting duration
times out, the
eNodeB releases
the services.
NO
Indicates the QCI
priority used by
each QCI-based
handover algorithm.
A larger value of
this parameter
indicates a lower
priority. This
parameter applies
to handover
parameter selection
based on QCI
priorities, target
frequency selection
in service-based
inter-frequency
handovers, and
inter-RAT handover
policy selection. For
a service that
involves all the
preceding selection,
the setting of this
parameter
determines the
handover
parameter, target
frequency, and
handover policy
corresponding to a
QCI.
NO
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
NO
LBFD-00201801
LBFD-00201802
LBFD-00201804
LBFD-00201805
LOFD-001072
LOFD-001073
Indicates the ID of a
mobility load
balancing (MLB)
parameter group for
a QCI. The value
255 is invalid. If this
parameter is set to
a value ranging
from 0 to 9, the ID
must be set in the
associated
MlbQciGroup MO.
This parameter is
valid only when the
Qci parameter in
the
CellStandardQci
MO is set to 6, 7, 8,
or 9. This
parameter is valid
only for LTE TDD
cells.
NO
NO
NO
TDLOFD-001032
Indicates the ID of
the parameter
group related to
preallocations. The
value 255 indicates
an invalid
preallocation
parameter group.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the QCIspecific priority for
selecting a DRX
parameter group.A
larger value of this
parameter indicates
a lower priority. If
the bearers for a
UE have multiple
QCIs and the
DrxPolicyMode
parameter is set to
QCIPRIORITY(QCI
priority), the
eNodeB selects the
DRX parameter
group for the UE
based on the QCIspecific priorities.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the parameter
group related to
inter-RAT handover
to CDMA2000
HRPD.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the
hysteresis for event
B1 related to interRAT handover to
CDMA2000 HRPD.
This parameter is
used to prevent
frequent triggering
of event evaluation
caused by radio
signal fluctuation. In
this way, the
probability of pingpong handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability
of ping-pong
handovers or
handover decision
errors.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the pilot
strength threshold
for event B1 related
to load- or servicebased inter-RAT
handover to
CDMA2000 HRPD.
When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the timeto-trigger for event
B1 related to interRAT handover to
CDMA2000 HRPD.
When detecting
that the signal
quality in at least
one neighboring cell
meets the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers and the
number of wrong
handovers,
preventing
unnecessary
handovers.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the pilot
strength threshold
for event B1 related
to load- or servicebased inter-RAT
handover to
CDMA2000 HRPD.
When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LOFD-001035 /
TDLOFD-001035
Indicates the B2
RSRP threshold 1
used during
optimized
handovers from EUTRAN to
CDMA2000
eHRPD.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the B2
RSRQ threshold 1
used during
optimized
handovers from EUTRAN to
CDMA2000
eHRPD.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
YES
NO
None
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates the ID of
the parameter
group related to
inter-RAT handover
to GERAN.
YES
YES
Indicates the
hysteresis for event
B1 related to interRAT handover to
GERAN. This
parameter is used
to prevent frequent
triggering of event
evaluation caused
by radio signal
fluctuation. In this
way, the probability
of ping-pong
handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability
of ping-pong
handovers or
handover decision
errors.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
Indicates the RSSI
threshold for event
B1 related to
coverage-based
inter-RAT handover
to GERAN.
A UE sends a
measurement
report related to
event B1 to the
eNodeB when the
RSSI in at least one
GERAN cell
exceeds this
threshold and other
triggering conditions
are met. For details,
see 3GPP TS
36.331.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
Indicates the timeto-trigger for event
B1 related to interRAT handover to
GERAN. When
detecting that the
signal quality in at
least one
neighboring cell
meets the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers and the
number of wrong
handovers,
preventing
unnecessary
handovers.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
Indicates the RSSI
threshold for event
B1 related to loador service-based
inter-RAT handover
to GERAN.
When the
measured RSSI
value exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LOFD-001046 /
TDLOFD-001046
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates the ID of
the parameter
group related to
inter-RAT handover
to UTRAN.
YES
YES
YES
NO
None
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
Indicates the Ec/N0
threshold for event
B1 related to
coverage-based
inter-RAT handover
to UTRAN. This
parameter specifies
the requirement for
Ec/N0 of the target
UTRAN cell. For a
cell with large signal
fading variance, set
this parameter to a
large value to
prevent
unnecessary
handovers. For a
cell with small
signal fading
variance, set this
parameter to a
small value to
ensure timely
handovers. A large
value of this
parameter results in
a low probability of
handover to the
UTRAN cell, and a
small value leads to
a high probability.
When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
Indicates the RSCP
threshold for event
B1 related to
coverage-based
inter-RAT handover
to UTRAN.
This parameter
specifies the
requirement for
RSCP of the target
UTRAN cell.
When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
Indicates the
hysteresis for event
B1 related to interRAT handover to
UTRAN. This
parameter is used
to prevent frequent
triggering of event
evaluation caused
by radio signal
fluctuation. In this
way, the probability
of ping-pong
handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability
of ping-pong
handovers or
handover decision
errors.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
Indicates the timeto-trigger for event
B1 related to interRAT handover to
UTRAN. When
detecting that the
signal quality in at
least one
neighboring cell
meets the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers and the
number of wrong
handovers,
preventing
unnecessary
handovers.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
Indicates the Ec/N0
threshold for event
B1 related to loador service-based
inter-RAT handover
to UTRAN.
This parameter
specifies the
requirement for
Ec/N0 of the target
UTRAN cell. When
the measurement
value exceeds this
threshold, a
measurement
report may be sent.
For a cell with large
signal fading
variance, set this
parameter to a
large value to
prevent
unnecessary
handovers. For a
cell with small
signal fading
variance, set this
parameter to a
small value to
ensure timely
handovers.
NO
NO
NO
LOFD-001043
TDLOFD-001022
Indicates the RSCP
threshold for event
B1 related to loador service-based
inter-RAT handover
to UTRAN.
This parameter
specifies the
requirement for
RSCP of the target
UTRAN cell.
When the
measurement value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LOFD-001043
TDLOFD-001022
Indicates the local
ID of the cell, which
uniquely identifies a
cell within an
eNodeB.
YES
Indicates the ID of
the eNodeB to
which the candidate
secondary serving
cell (SCell) belongs. YES
YES
YES
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100102 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the local
cell ID of the
candidate
secondary serving
cell (SCell).
YES
YES
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
valid only when
SccBlindCfgSwitch
option in the
CaAlgoSwitch
parameter is set to
ON.
If this parameter is
set to
TRUE(TRUE), the
eNodeB can
configure this
candidate SCell as
an SCell for CA
UEs in a blind
manner, without
delivering A4related
measurement
configurations to
CA UEs. If this
parameter is set to
FALSE(FALSE), the
eNodeB cannot
configure this
candidate SCell as
an SCell for CA
UEs. When the
eNodeB configures
an SCell for CA
UEs, the eNodeB
need to deliver A4related
measurement
configurations on
the frequency on
which the SCell
operates.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the priority
of the candidate
secondary serving
cell (SCell). A larger
value of this
parameter indicates
a higher priority and
results in a higher
probability of being
configured as an
SCell for carrier
aggregation (CA)
UEs.The value 0
indicates that this
cell cannot be
configured as an
SCell for CA UEs. NO
Indicates the offset
to the RSRP
threshold for event
A4 on the candidate
SCell specified by
the SCelleNodeBId
and
SCellLocalCellId
parameters in the
CaGroupSCellCfg
MO, when the CA
UE uses the cell
specified by the
LocalCellId
parameter in the
local eNodeB as its
primary serving cell
(PCell). This RSRP
threshold is
specified by the
CarrAggrA4ThdRsr
p parameter in the
CaMgtCfg MO.
NO
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the offset
to the RSRP
threshold for event
A2 on the candidate
SCell specified by
the SCelleNodeBId
and
SCellLocalCellId
parameters in the
CaGroupSCellCfg
MO, when the CA
UE uses the cell
specified by the
LocalCellId
parameter in the
local eNodeB as its
primary serving cell
(PCell). This RSRP
threshold is
specified by the
CarrAggrA2ThdRsr
p parameter in the
CaMgtCfg MO.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the local
ID of the cell, which
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the offset
for event A3. This
offset is the
difference between
the signal quality of
a neighboring cell
and that of the
serving cell. A larger
value indicates a
higher requirement
on neighboring cell
quality for reporting
event A3.
NO
NO
NO
None
Indicates the
hysteresis for
reporting event A3
or A6. This
parameter is used
to prevent frequent
entering or leaving
of event A3 or A6
and decision errors
due to radio signal
fluctuation. For
details, see 3GPP
TS 36.331.
NO
NO
NO
None
Indicates the timeto-trigger for
reporting event A3
or A6. When
detecting that the
signal quality in the
serving cell and that
in at least one
neighboring cell
meet the entering
condition, the UE
does not report the
event to the
eNodeB
immediately.
Instead, the UE
reports the event
only when the
signal quality
continuously meets
the entering
condition during the
time-to-trigger.
NO
NO
NO
None
Indicates the
maximum number
of cells to be
included in each
measurement
report after event
A3 or A6 is
triggered. For
details, see 3GPP
TS 36.331.
NO
NO
NO
None
Indicates the
number of periodic
measurement
reports that are
sent after event A3
or A6 is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
None
Indicates the
interval between
periodic
measurement
reports that are
sent after event A3
or A6 is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
None
SAME_AS_TRIG_
QUAN(Same as
Trig Quan) or
BOTH(Both). The
value
SAME_AS_TRIG_
QUAN(Same as
Trig Quan)
indicates that the
type of the value to
be included in the
measurement
report is the same
as that specified by
the TriggerQuantity
parameter. The
value BOTH(Both)
indicates that both
RSRP and RSRQ
values are included
in the measurement
report. The
measured RSRP
values are stable,
slightly varying with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
NO
NO
None
Indicates whether
event A3 or A6 is
triggered based on
RSRP or RSRQ
values. The
measured RSRP
values are stable,
slightly varying with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time.
NO
NO
NO
None
Indicates the offset
for event A6. This
offset is the
difference between
the signal quality of
a neighboring cell
and that of the
serving cell. A larger
value indicates a
higher requirement
on neighboring cell
quality for reporting
event A6.
NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the parameter
group related to
inter-frequency
handover.
YES
NO
None
YES
Indicates the
hysteresis for interfrequency
measurement
events A1 and A2.
This parameter is
used to prevent
frequent triggering
of event evaluation
caused by radio
signal fluctuation. In
this way, the
probability of pingpong handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the timeto-trigger for interfrequency
measurement event
A1 or A2.
When detecting
that the signal
quality in the
serving cell meets
the triggering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger. This
parameter helps
decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of wrong
handovers. In
summary, it helps
prevent
unnecessary
handovers.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRP
threshold for interfrequency
measurement event
A1.
When the
measured RSRP
value exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRQ
threshold for interfrequency
measurement event
A1.
When the
measured RSRQ
value exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRP
threshold for interfrequency
measurement event
A2.
When the
measured RSRP
value is below the
threshold, a
measurement
report will be sent. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRQ
threshold for interfrequency
measurement event
A2.
When the
measured RSRQ
value is below this
threshold, a
measurement
report will be sent. NO
Indicates the
hysteresis for event
A4. This parameter
is used to prevent
frequent triggering
of event evaluation
caused by radio
signal fluctuation. In
this way, the
probability of pingpong handovers or
handover decision
errors is reduced. A
larger value of this
parameter results in
a lower probability. NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the RSRP
threshold for event
A4 related to
coverage-based
inter-frequency
handover. When
the measured
RSRP value
exceeds this
threshold, event A4
is reported. The
value of this
parameter is also
used as the RSRP
threshold for event
A4 related to
distance-based,
UL-power-based, or
SPID-based interfrequency handover
back to the
HPLMN.
NO
Indicates the RSRQ
threshold for event
A4 related to
coverage-based
inter-frequency
handover. When
the measured
RSRQ value
exceeds this
threshold, event A4
is reported. The
value of this
parameter is also
used as the RSRQ
threshold for event
A4 related to
distance-based,
UL-power-based, or
SPID-based interfrequency handover
back to the
HPLMN.
NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
Indicates the timeto-trigger for event
A4 for the interfrequency
handover. When
detecting that the
signal quality in at
least one
neighboring cell
meets the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of wrong
handovers. In
summary, it helps
prevent
unnecessary
handovers.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the RSRP
threshold for event
A4 related to loadbased interfrequency
handover. When
the measured
RSRP value
exceeds this
threshold, event A4
is reported. The
value of this
parameter is also
used as the RSRP
threshold for event
A4 related to
frequency-prioritybased or servicebased interfrequency
handover.
NO
NO
NO
LBFD-00201805 /
TDLBFD-00201805
Indicates the RSRQ
threshold for event
A4 related to loadbased interfrequency
handover. When
the measured
RSRQ value
exceeds this
threshold, event A4
is reported. The
value of this
parameter is also
used as the RSRQ
threshold for event
A4 related to
frequency-prioritybased or servicebased interfrequency
handover.
NO
NO
NO
LBFD-00201805 /
TDLBFD-00201805
Indicates the RSRP
threshold for
frequency-prioritybased interfrequency
measurement event
A1. When the
measured RSRP
value exceeds this
threshold, an event
A1 report will be
sent.
NO
NO
NO
None
Indicates the RSRQ
threshold for
frequency-prioritybased interfrequency
measurement event
A1.
When the
measured RSRQ
value exceeds this
threshold, an event
A1 report will be
sent.
NO
NO
NO
None
Indicates the offset
for event A3
associated with
inter-frequency
handover. This
parameter
determines the
border between the
serving cell and the
neighboring cell. If
the parameter is set
to a large value, an
inter-frequency
handover is
performed only
when the signal
quality of the
neighboring cell is
significantly better
than that of the
serving cell and
other triggering
conditions are met.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRP
threshold for event
A1 associated with
event-A3-triggered
inter-frequency
handover. When
the measured
RSRP value
exceeds this
threshold, a
measurement
report will be sent. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRP
threshold for event
A2 associated with
event-A3-triggered
inter-frequency
handover. When
the measured
RSRP value is
below the
threshold, a
measurement
report will be sent. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the RSRP
threshold for
frequency-prioritybased interfrequency
measurement event
A2.
If the measured
RSRP value is less
than this threshold,
an event A2 report
will be sent.
NO
NO
NO
None
Indicates the RSRQ
threshold for interfrequency
measurement event
A2.
When the
measured RSRQ
value is below this
threshold, a
measurement
report will be sent. NO
NO
NO
None
Indicates the RSRP
threshold for the
A1/A2 event that is
used for locationbased UE priority
selection during
MLB that is based
on the number of
UEs performing
downlink data
transmission. If cell
center users are
preferably selected,
the UEs whose
RSRP values are
higher than this
threshold and
reports A1 events
are selected to
perform MLB. If cell
edge users are
preferably selected,
the UEs whose
RSRP values are
lower than this
threshold and
reports A2 events
are selected to
perform MLB. This
parameter is set
only for TDD cells. NO
NO
NO
TDLOFD-001033
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the parameter
group related to
intra-frequency
handover.
YES
Indicates the
hysteresis for intrafrequency handover
event A3. This
parameter
decreases frequent
event triggering due
to radio signal
fluctuations and
reduces the
probability of
handover decision
errors and pingpong handovers. A
larger value of this
parameter results in
a lower probability.
The hysteresis for
event interfrequency handover
event A3 is the
same as the value
of this parameter.
For details, see
3GPP TS 36.331.
NO
YES
NO
None
NO
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the offset
for event A3. If the
parameter is set to
a large value, an
intra-frequency
handover is
performed only
when the signal
quality of the
neighboring cell is
significantly better
than that of the
serving cell and
other triggering
conditions are met.
For details, see
3GPP
TS 36.331.
signal quality
in the NO
serving cell and that
in at least one
neighboring cell
meet the entering
condition, it does
not immediately
send a
measurement
report to the
eNodeB. Instead,
the UE sends a
report only when
the signal quality
meets the entering
condition
throughout the
time-to-trigger.
This parameter
helps decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of incorrect
handovers,
preventing
unnecessary
handovers. The
time-to-trigger for
inter-frequency
handover event A3
is the same as the
value of this
parameter.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
NO
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the QoS
class identifier
(QCI) of an evolved
packet system
(EPS) bearer.
Different QCIs
indicate different
QoS requirements,
such as the packet
delay budget,
packet error loss
rate, and resource
type. For details,
see Table 6.1.7 in
3GPP TS 23.203.
YES
YES
NO
None
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
Indicates the index
of the operator.
YES
Indicates the name
of the operator. The
name is a string of
a maximum of 32
characters. The
string cannot be all
null characters or
contain any of the
following
characters: double
quotation marks ("),
commas (,),
semicolons (;),
equal signs (=),
single quotation
marks ('), three
consecutive plus
signs (+++), two or
more consecutive
spaces, and two or
more consecutive
percent signs (%). NO
NO
YES
YES
NO
None
NO
LOFD-001036
LOFD-001037
LOFD-001086
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-001086 /
TDLOFD-001086
TDLOFD-001112
LOFD-070206
Indicates the type
of the operator. The
operator can be the
primary operator or
a secondary
operator. For each
eNodeB, only one
primary operator
but more than one
secondary operator
can be configured. NO
Indicates the mobile
country code (MCC)
of the operator.
NO
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-001086 /
TDLOFD-001086
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-001086 /
TDLOFD-001086
TDLOFD-001112
LOFD-070206
Indicates the mobile
network code
(MNC) of the
operator. The value
of this parameter is
a string of two or
three characters,
each of which must
be a digit in the
range from 0 to 9. NO
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-001086 /
TDLOFD-001086
TDLOFD-001112
LOFD-070206
Indicates the ID of
the IP path.
YES
NO
None
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
Indicates the ID of
the operator.
YES
NO
YES
Indicates the
tracking area ID,
which uniquely
identifies an entry
of tracking area
information. This
parameter is used
only within the
eNodeB and is not
used during the
information
exchange with the
EPC. This is
different from the
TAI configured in
the EPC TAL.
Indicates the index
of the operator.
YES
NO
Indicates the
tracking area code
(TAC), which is
used by the EPC to
determine the area
within which paging
messages are sent.
One tracking area is
comprised of one or
more cells. Two
TAC values
0x0000(0) and
0xFFFE(65534) are
reserved according
to the protocol and
will not be used in
future versions.
Therefore, do not
use 0 or 65534 as a
TAC value in TAC
planning or
configuration.
NO
YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the ID of a
carrier-sharing
operator group.
This parameter
uniquely specifies a
carrier-sharing
operator group.
YES
YES
NO
LOFD-070206
Indicates the ID of
the primary
operator in a
carrier-sharing
operator group.
NO
YES
NO
LOFD-070206
Indicates the list of
secondary
operators in a
carrier-sharing
operator group.
NO
YES
NO
LOFD-070206
Indicates the ID of a
secondary operator
in a carrier-sharing
operator group.
YES
Indicates the id of
the operator.
YES
Indicates whether
to enable or disable
emergency calls. It
is recommended
that this parameter
be set to a value in
accordance with the
actual emergency
call capability of the
operator.
NO
YES
NO
LOFD-070206
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
NO
LBFD-002028 /
TDLBFD-002028
Indicates whether
the operator
supports
emergency calls
initiated by UEs in
the limited service
state.
NO
NO
NO
LBFD-002028 /
TDLBFD-002028
Indicates the
Allocation and
Retention Priority
(ARP) value of the
dedicated
emergency call
bearer.
NO
NO
NO
LBFD-002028 /
TDLBFD-002028
Indicates the
Allocation and
Retention Priority
(ARP) value of the
default emergency
call bearer.
NO
NO
NO
LBFD-002028 /
TDLBFD-002028
Indicates the mode
of outputting call
history records
(CHRs).ALL_OUTP
UT means both
normal and
abnormal calls are
output. When there
is no storage space
for new CHRs, a
new record will
cover the beginning
one.ABNORMAL_N
ORMAL_SAMPLE
means calls are
output based on the
storage space and
the proportion of
normalcalls to
abnormal calls.
Ensure that CHR
recording time
meets the
requirement.ABNO
RMAL_ALL_NORM
AL_SAMPLE
means all abnormal
calls are output and
the normal calls are
output based on the
proportion of
normal calls to
abnormal calls.
NO
NO
NO
None
Indicates the
percentage of
CHRs for abnormal
calls in the CHR
output. For
example, if this
parameter is set to
90, the percentage
of CHRs for
abnormal calls in
the CHR output is
90%, and that of
CHRs for normal
calls is 10%. This
parameter is invalid
when the
OutPutMode
parameter is set to
ALL_OUTPUT(All
Output). This
parameter takes
effect immediately
after being set or
modified, and the
CHR output will be
refreshed.
NO
NO
NO
None
Indicates the
maximum number
of call history
records (CHRs) that
can be stored. For
example, if this
parameter is set to
4000, 4000 CHRs
can be stored. (The
size of a CHR for
one call is about 6
KB, and the storage
space is 24 MB.)
This parameter is
invalid if the
OutPutMode
parameter is set to
ALL_OUTPUT or
ABNORMAL_ALL_
NORMAL_SAMPLE
. If the OutPutMode
parameter is set to
ABNORMAL_NOR
MAL_SAMPLE, the
value of this
parameter indicates
the expected
number of CHRs
that can be stored,
which should be set
based on the actual
storage space and
the size of a CHR. NO
NO
NO
None
Indicates the
eNodeB sharing
mode, which can be
independent mode,
RAN sharing with
common carriers,
RAN sharing with
dedicated carriers,
or hybrid RAN
sharing.
NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates whether
to enable or disable
X2 setup by SON. NO
NO
NO
None
Indicates the
method of X2 setup
by SON, that is, the
method of
automatically
setting up X2
interfaces. The
value
X2_OVER_OSS
can be set only for
Huawei eNodeBs,
and the value
X2_OVER_S1 can
be set for eNodeBs
of any vendor.
NO
NO
NO
None
Indicates whether
to enable
scheduling request
indication (SRI)
adaptation. If this
switch is turned on,
the SRI period
adaptively changes
based on the SRI
algorithm. If this
switch is turned off,
the SRI period is
the value of the
SriPeriod
parameter in the
CellStandardQci
MO.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates whether
to set a logical
channel group
profile.
Currently, two
logical channel
group profiles are
available:
LCG_PROFILE_0
and
LCG_PROFILE_1.
If LCG_PROFILE_0
is used, only one
logical channel
group is assigned to
non-GBR services.
If LCG_PROFILE_1
is used, two logical
channel groups are
assigned to nonGBR services: one
to high-priority nonGBR services and
the other to lowpriority non-GBR
services.
NO
NO
NO
LBFD-002025 /
TDLBFD-002025
LOFD-00101502 /
TDLOFD-00101502
Indicates whether
to enable or disable
RAN information
management (RIM)
for handovers within
an RNC pool. An
RNC pool can be
used for load
balancing between
RNCs. An RNC can
take over a cell that
was controlled by
another RNC in the
pool.
NO
NO
NO
None
Indicates whether
the eNodeB
simultaneously
sends Uu
messages during
security mode
activation and
reconfiguration. If
this switch is turned
on, the eNodeB
simultaneously
sends Uu
messages. If this
switch is turned off,
the eNodeB sends
Uu messages one
by one.
NO
CME
and
modifications to the
parameters of a
neighboring
eNodeB will be
updated on the
local eNodeB
through messages
over the X2
interface. These
parameters include
eNodeBId, CellId,
LocalCellId,
CnOperator,
CnOperatorTa,
CellOp, PhyCellId,
and DlEarfcn. This
prevents the
configuration data
from being lost or
abnormal during the
automatic update.
This switch must be
turned on if the
interlocking
modification
function on the
CME is not used
and the eNodeB
configuration data
on a network is to
be modified by
using the automatic
eNodeB
configuration
update over the X2
interface.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates whether
to enable the X2
interface self-setup
function for the
target operator.
NO
NO
NO
None
Indicates whether
to select transport
network layer (TNL)
parameters based
on the primary
PLMN ID or
selected PLMN ID
that contained in
the SON
configuration
message. This
parameter is used
for X2 self-setup in
RAN sharing
scenarios. Selecting
TNL parameters
based on the
primary PLMN ID
applies to X2 selfsetup between
eNodeBs provided
by different
suppliers. For X2
self-setup between
Huawei eNodeBs,
selecting TNL
parameters based
on the selected
PLMN ID is used in
preference.
NO
NO
NO
None
Indicates the UMTS
load transmission
channel. The
eNodeB sends
RANINFORMATIONREQUEST PDUs to
UTRAN cells to
request multiple
reports on the load
status of UTRAN
cells only when the
parameter is set to
BASED_ON_RIM.T
he function
specified by the
parameter value
BASED_ON_ECO
is temporarily
unavailable.
NO
destination
addresses, not
send the uplink and
downlink
destination
addresses, or send
only the uplink or
downlink
destination address
to the source
eNodeB.
If the switch is
turned on, uplink
data forwarding and
downlink data
forwarding are
determined
together. The target
eNodeB can
choose to send
both the uplink and
downlink
destination
addresses, not
send the uplink and
downlink
destination
addresses, or send
only the downlink
destination address
to the source
eNodeB. The target
eNodeB cannot
send only the uplink
destination address
to the source
eNodeB.
NO
NO
NO
None
NO
NO
None
fail again. As a
result, the UE
initiates an RRC
connection
reestablishment
procedure again. If
this repeatedly
happens, the UE
repeatedly initiates
RRC connection
reestablishment. If
this parameter is
set to 0, the
function of RRC
connection
reestablishment
protection is not
used. If this
parameter is set to
a value other than
0, the eNodeB
rejects the RRC
connection
reestablishment
request due to
reconfigurationFailu
re from a UE when
the number of RRC
connection
reestablishment
requests initiated by
the UE served by
the eNodeB due to
reconfigurationFailu
re has exceeded
the parameter value
within 1 minute.
NO
NO
NO
None
Indicates the time
during which the X2
interface
configuration is
retained for a local
eNodeB and a peer
eNodeB when the
two eNodeBs do
not have a neighbor
relationship with
each other. If the
local eNodeB
determines that a
neighbor
relationship is not
configured for the
local and peer
eNodeBs, the local
eNodeB starts the
timer and removes
the X2 interface
configuration when
the timer expires. If
this parameter is
set to 0, the X2
automatic removal
function is disabled. NO
NO
NO
LOFD-002001 /
TDLBFD-002001
Indicates the
eNodeB coding
scheme for Global
eNodeB ID IE and
Reporting Cell ID IE
in the RIM
message. If the
EPC devices that
exchange RIM
messages with
eNodeBs are
provided by Huawei
and the peer
devices adopt the
private coding
scheme, set this
parameter to
Private Coding. In
other cases, set this
parameter to
Standard Coding.
NO
NO
NO
None
Indicates whether
the handover
request message
for a handover from
E-UTRAN to
UTRAN or GERAN
contains the UEEUTRA-Capability
information element
(IE).
NO
NO
NO
LOFD-001019
Indicates whether
MMEs of operators
that share the
eNodeB can be
configured with the
same mobility
management entity
code (MMEC). If
this parameter is
set to OFF(Off),
MMEs of operators
that share the
eNodeB cannot be
configured with the
same MMEC. If this
parameter is set to
ON(On), MMEs of
operators that
share the eNodeB
can be configured
with the same
MMEC.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
Indicates whether
to enable the X2
automatic removal
based on a request
from the peer
eNodeB. If this
parameter is set to
ON(On), this
function is enabled.
If this parameter is
set to OFF(Off), this
function is disabled.
When the
parameter is set to
ON(On), the local
eNodeB removes
the X2 interface
configuration if the
local eNodeB
receives a RESET
REQUEST
message from the
peer eNodeB and
determines that the
X2 interface is
unavailable.
NO
NO
NO
None
or X2-based
outgoing handover.
When this
parameter is set to
OFF(Off), the SN
STATUS
TRANSFER
message contains
the IE Receive
Status Of UL PDCP
SDUs if the
eNodeB receives
out-of-order uplink
PDCP packets for
bearers in
acknowledge mode.
When this
parameter is set to
ON(On), the SN
STATUS
TRANSFER
message contains
the IE Receive
Status Of UL PDCP
SDUs if the
following conditions
are met: (1) The
source eNodeB
receives out-oforder uplink PDCP
packets for bearers
in acknowledge
mode. (2) The
target eNodeB
returns the uplink
data forwarding
address.
NO
NO
NO
LBFD-002018 /
TDLBFD-002018
switch will not take
effect on the
interaction between
RRC connection
reestablishment
and other signaling
procedure.
RrcRecfgMcOptSwi
tch: If this option is
selected, the cell
measurement
configurations with
the CIO of dB0
(indicated by
cellIndividualOffset)
are no longer
included in the
measurement
configurations
delivered to the UE.
IdleCsfbRedirectOp
tSwitch: In CSFB
for UEs in idle
mode, if this option
is selected and the
preferred CSFB
policy is redirection,
the eNodeB no
longer activate
security mode or
perform RRC
connection
reconfiguration, but
sends the RRC
connection
redirection
message.
NO
NO
NO
None
tables (NRTs)
based on the ENB
CONFIGURATION
UPDATE message.
If this parameter is
set to ON, this
function is enabled.
If this parameter is
set to OFF, this
function is disabled.
If both the
X2BasedUptENode
BCfgSwitch
parameter and this
parameter are set
to ON, the eNodeB
removes external
cell and neighboring
cell configurations
from NCLs and
NRTs if the
following conditions
are met: (1) The
ENB
CONFIGURATION
UPDATE message
received over the
X2 interface
contains the IE
"Served Cells To
Delete" (identified
by the IE ID 27); (2)
The No Remove
attribute for the
neighbor
relationship is set to
permit removals.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the type
of served cells,
which is contained
in protocol-defined
messages
exchanged in X2
Setup and eNB
Configuration
Update procedures.
If this parameter is
set to
ACTIVE_CELL(Acti
ve Cell), the serving
cells include all the
activated cells. If
this parameter is
set to
CONFIGURED_CE
LL(Configured Cell),
the serving cells
include all the
configured cells.
NO
NO
NO
None
Indicates whether
to enable eNodeBtriggered MME load
rebalancing. When
this parameter is
set to ON(On), the
eNodeB releases
the RRC
connection for a UE
with the cause
value
"loadBalancingTAUr
equired" if the UE
accesses the cell
using an S-TMSI
that is associated
with an overloaded
MME. This ensures
that the UE can be
routed to a lightly
loaded MME if it
initiates another
access request.
When this
parameter is set to
OFF(Off), the
eNodeB sends an
RRCConnectionRel
ease message with
the cause value
"other" to the UE to
release its RRC
connection.
NO
NO
NO
None
Indicates after
which times of
resynchronization
failures the UE
release timer is
started in scenarios
where the RRC
connection is
released for a UE
caused by
resynchronization
failure.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates whether
to perform the radio
link failure (RLF)
detection for a UE
when the RRC
connection for the
UE is released
because of UE
inactivity.
NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the UE
link fault detection
switch. If this switch
is turned on, link
fault detection is
enabled for
synchronized UEs.
If this switch is
turned off, link fault
detection is not
enabled for
synchronized UEs. NO
NO
NO
LBFD-002007 /
TDLBFD-002007
Indicates the value
of the IE Default
paging DRX
contained in the S1
SETUP REQUEST
and ENB
CONFIGURATION
UPDATE messages
that the eNodeB
sends over the S1
interface. For
details, see 3GPP
TS 36.413.
NO
NO
NO
LBFD-002011 /
TDLBFD-002011
Indicates whether
the
RRCConnectionRe
configuration
message sent from
the source eNodeB
to a UE contains
the power
headroom
configuration during
a handover where
the eNodeB works
as the target
eNodeB. If this
parameter is set to
ON(On), the
RRCConnectionRe
configuration
message must
contain the power
headroom
configuration. If this
parameter is set to
OFF(Off), the power
headroom
configuration is
optional in the
RRCConnectionRe
configuration
message.
NO
NO
NO
LBFD-002026
/TDLBFD-002026
UTRAN cell load
information through
RAN information
management (RIM)
procedures to the
UTRAN. This option
applies only to LTE
FDD. If the
RimUtranSwitch
option is selected,
the eNodeB sends
cell load information
through RIM
procedures to the
UTRAN and notifies
the UTRAN of cell
load changes
through RIM
procedures.
The EcoSwitch
option controls
whether to send cell
load information to
the eCoordinator.
This option applies
to both LTE FDD
and LTE TDD. If the
EcoSwitch option is
selected, the
eNodeB sends load
information to the
eCoordinator and
notifies the
eCoordinator of cell
load changes
through RIM
procedures.
NO
NO
NO
LOFD-070203
SEFD-090205
SEFD-090206
Indicates whether
the eNodeB
supports some
protocol-defined
procedures.
If the
SupportS1UeCapM
atchMsg(SupportS1
UeCapMatchMsg)
option is selected,
the eNodeB can
process and
respond to the UE
RADIO
CAPABILITY
MATCH REQUEST
message over the
S1 interface. For
details about the
message, see
3GPP TS 36.413. If
the
SupportS1UeCapM
atchMsg(SupportS1
UeCapMatchMsg)
option is cleared,
the eNodeB cannot
process the UE
RADIO
CAPABILITY
MATCH REQUEST
message and
responds with an
error indication
message.
NO
NO
NO
None
Indicates whether
the eNodeB is
allowed to send a
CellTrafficTrace
message to the
MME over the S1
interface after a cell
tracing task is
started. If this
parameter is set to
ON, the eNodeB
can send the
CellTrafficTrace
message to the
MME after the cell
tracing task is
started. If this
parameter is set to
OFF, the eNodeB
does not send the
message in this
scenario. For
details about the
mechanism for
sending the
CellTrafficTrace
message, see
3GPP TS 32.422.
NO
NO
NO
None
This switch is only
valid when a UMPT
and an LMPT are in
one BBU, with the
UMPT as the main
control board and
the LMPT as the
extended
board.The LMPT
can be configured
with a maximum of
18 cells. This switch
should be off if the
eNodeB needs to
be configured more
than 18 cells.
NO
NO
NO
None
Bit 0 of the
MmeSelectProcSwit
ch parameter is
used to control the
policy based on
which the eNodeB
selects a mobility
management entity
(MME) for a UE in
cell reselection from
a GERAN or
UTRAN cell to an
E-UTRAN cell. If
this bit is set to 0,
the eNodeB
preferentially
chooses the MME
which stores the UE
context. If this bit is
set to 1, the
eNodeB
preferentially
chooses the lowly
loaded MME. The
setting of this bit
only takes effect on
UEs that report the
globally unique
MME identifier
(GUMMEI)
information within
which the highest
bit of the MME
group identifier
(MMEGI) is 0.
NO
NO
NO
LOFD-001018 /
TLOFD-001018
Indicates whether
to enable software
commissioning over
the S1 interface. If
all S1 links are
unavailable in the
initial engineering
stage, this
parameter enables
cells to be activated
for cell signal
coverage tests. It is
recommended that
this parameter be
used only in the
engineering
commissioning
stage.
NO
NO
NO
None
when the UE
reports event A4 for
configuring an SCC.
If this switch is off,
the eNodeB
preferentially sends
the SCC
configuration
message to the UE
when the UE
reports event A4 for
configuring an SCC
and then sends an
A4-related
measurement
configuration
deletion message
to the UE to delete
the measurement
configuration.
CaHoReqWithR9C
onfigSwitch:
Indicates whether
the handover
request message
sent from the
source eNodeB
during a handover
for a UE carries the
IEs
sourceOtherConfigr9 and ueConfigRelease-r9.
The message
carries these IEs
only when this
switch is on.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the
triggering type for
establishing an
SCTP link for an X2
interface. If this
parameter is set to
BASED_TNL, the
establishment can
be triggered based
on transport
resources. When
the CP bearer is
subscribed, the
eNodeB initiates
the establishment
of an SCTP link
with the peer
eNodeB. If this
parameter is set to
BASED_X2INTERF
ACE, the SCTP
establishment can
be triggered based
on the X2 interface.
When the
conditions for
setting up an X2
interface are met,
the eNodeB
initiates the
establishment of an
SCTP link with the
peer eNodeB.
NO
NO
NO
None
T: If this option is
selected, X2
automatic removal
based on X2 fault is
enabled.
BASED_ON_X2US
AGE_WITH_NEGO
: If this option is
selected, X2
automatic removal
based on X2 usage
through negotiation
between the local
and peer eNodeBs
is enabled.This
option applies to
the scenarios where
the X2 interface is
normal and the
peer eNodeB is a
Huawei eNodeB.
BASED_ON_X2US
AGE__WITHOUT_
NEGO: If this option
is selected, X2
automatic removal
based on X2 usage
without negotiation
between the local
and peer eNodeBs
is enabled.This
option applies to
the scenarios where
the X2 interface is
normal and the
peer eNodeB is not
a Huawei eNodeB. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the length
of the timer for
automatically
removing X2
interfaces based on
X2 fault. If an X2
interface is faulty
throughout the time
specified by this
timer, the eNodeB
automatically
removes the X2
interface.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Ndicates the length
of the timer for
automatically
removing X2
interfaces based on
X2 usage. If the
number of
handovers from a
peer eNodeB to a
local eNodeB within
the time specified
by this timer is less
than the
X2SonDeleteHoInN
umThd parameter
value and the
number of
handovers from the
local eNodeB to the
peer eNodeB within
the time specified
by this timer is also
less than the
X2SonDeleteHoOut
NumThd parameter
value, the local
eNodeB
automatically
removes the X2
interface between
the eNodeBs.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
threshold of the
number of incoming
handovers for
automatically
removing X2
interfaces based on
X2 usage. If the
number of
handovers from a
peer eNodeB to a
local eNodeB within
the time specified
by the
X2SonDeleteTimerf
orX2Usage
parameter is less
than this parameter
value and the
number of
handovers from the
local eNodeB to the
peer eNodeB within
the time specified
by the
X2SonDeleteTimerf
orX2Usage
parameter is also
less than the
X2SonDeleteHoOut
NumThd parameter
value, the local
eNodeB
automatically
removes the X2
interface between
the eNodeBs.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
threshold of the
number of outgoing
handovers for
automatically
removing X2
interfaces based on
X2 usage. If the
number of
handovers from a
local eNodeB to a
peer eNodeB within
the time specified
by the
X2SonDeleteTimerf
orX2Usage
parameter is less
than this parameter
value and the
number of
handovers from the
peer eNodeB to the
local eNodeB within
the time specified
by the
X2SonDeleteTimerf
orX2Usage
parameter is also
less than the
X2SonDeleteHoInN
umThd parameter
value, the local
eNodeB
automatically
removes the X2
interface between
the eNodeBs.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
maximum number
of synchronized
UEs supported by a
baseband
processing unit
(BBP). This
parameter currently
applies only to
LBBPd boards in
LTE FDD macro
eNodeBs. If the
PucchPeriodicCqiO
ptSwitch parameter
is set to OFF or at
least one cell
established in the
LBBPd is
configured with
extended cyclic
prefix (CP), the
parameter value
MAX_SYNC_USER
_1200 takes effect
irrespective of the
actual parameter
setting.
NO
Indicates the index
of the operator.
YES
NO
YES
NO
None
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the
proportion of the
number of UEs in
RRC_CONNECTE
D mode of the
operator when the
eNodeB is shared
among operators.
This parameter
must be set based
on the contract
signed with
operators.
NO
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the
proportion of users
that the operator
can share to other
operators when the
eNodeB is shared
among operators.
This parameter
must be set based
on the contract
signed by
operators. This
parameter applies
only to LTE FDD.
NO
NO
NO
LOFD-001113
TDLBFD-004014
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the ID of a
Multimedia
Broadcast Single
Frequency Network
(MBSFN) area to
which a cell
belongs.
NO
NO
YES
None
Indicates the
synchronization
period of the SYNC
protocol.
NO
NO
NO
LOFD-070220
Indicates whether
the cell is a
reserved cell for
Multimedia
Broadcast Multicast
Service (MBMS)
services.
NO
NO
YES
None
This parameter
indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
NO
NO
YES
None
Indicates the ID of a
mobility load
balancing (MLB)
parameter group for
a QCI. This
parameter is valid
only for LTE TDD
cells.
YES
YES
NO
TDLOFD-001032
Indicates the uplink
minimum
guaranteed bit rate.
This parameter is
valid only for LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
Indicates the
downlink minimum
guaranteed bit rate.
This parameter is
valid only for LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
Indicates the
minimum length of
the S1 reestablishment timer. NO
NO
NO
None
Indicates the
maximum length of
the S1 reestablishment timer. NO
NO
NO
None
Indicates the ID of
the operator.
YES
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
YES
NO
None
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates the
number of a
specific call history
record (CHR)
hierarchical
classification output
mode.
YES
YES
NO
None
Indicates the call
history record
(CHR) generating
cause value
corresponding to a
specific CHR
hierarchical
classification mode. NO
YES
NO
None
Indicates the call
history record
(CHR) hierarchical
output mode. If the
parameter is set to
Level_1_Output,
level-1 CHRs, that
is, only typical
records, are
outputted. If the
parameter is set to
Level_2_Output,
level-2 CHRs, that
is, all records, are
outputted. If level-2
CHRs are started to
be outputted, the
number of
outputted records
increases, thereby
decreasing the
duration that the
local logs can be
recorded.
NO
YES
NO
None
Indicates whether
CHRs are outputted
after being
sampled. If this
parameter is set to
SamplingEnable,
specific CHRs are
outputted after
being sampled. If
this parameter is
set to
SamplingUnable,
the specific CHRs
are all outputted
without being
sampled. If the
value of this
parameter is
changed from
SamplingEnable to
SamplingUnable,
the amount of
records increases,
thereby decreasing
the duration that the
local logs can be
recorded.
NO
YES
NO
None
Indicates the ID of
the ECO MO.
YES
NO
None
Indicates whether
to configure the
control-plane end
point group, userplane end point
group, or both end
point groups for the
ECO MO.
NO
NO
NO
None
Indicates the ID of
the control-plane
end point group
used by the ECO
MO.
NO
YES
NO
None
Indicates the ID of
the user-plane end
point group used by
the ECO MO.
NO
YES
NO
None
Indicates the
descriptions of the
ECO MO.
NO
NO
NO
None
Indicates the ID of
the control port
(CP) bearer for the
ECO interface.
NO
NO
YES
None
Indicates the status
of the control port
(CP) bearer for the
ECO interface.
NO
NO
YES
None
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the ID of
the IP path.
Indicates the
application type of
the IP path.
YES
YES
NO
YES
YES
Indicates the S1
interface ID of the
IP path. This
parameter is
unavilable in this
version, it is
recommended to be
set as 0.
NO
YES
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the X2
interface ID of the
IP path.
NO
YES
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the M1
object ID.
YES
YES
NO
LOFD-070220
Indicates the ID of
the end point group
used by the M1
MO.
NO
YES
NO
LOFD-070220
Indicates the userdefined information. NO
NO
NO
None
Indicates the M2
object ID.
YES
NO
LOFD-070220
Indicates the ID of
the end point group
used by the M2
MO.
NO
YES
NO
LOFD-070220
Indicates the userdefined information. NO
NO
NO
None
Indicates the
control port (CP)
bearer ID of the M2
interface.
NO
NO
YES
None
YES
Indicates the
control port bearer
status of the M2
interface.
NO
NO
YES
None
Indicates the M2
interface status.
NO
NO
YES
None
Indicates the
number of sessions
on the M2 interface. NO
NO
YES
None
Indicates the name
of the Multicell/multicast
Coordination Entity
(MCE) to which the
eNodeB is
connected over the
M2 interface.
NO
NO
YES
None
Indicates the global
unique ID of the
Multi-cell/multicast
Coordination Entity
(MCE) connected to
the eNodeB
through the M2
interface. The
global unique ID of
the MCE is
represented as
"MCC-MNC-MCE
ID". MCC is short
for mobile country
code and MNC is
short for mobile
network code.
NO
NO
YES
None
Indicates the fault
reason of the M2
link.
NO
YES
None
NO
Indicates the
temporary mobile
group identities
(TMGIs) of all
incoming sessions
over the M2
interface.
Indicates the S1
object ID.
NO
YES
Indicates the ID of
the operator that
owns the S1 object. NO
Indicates the ID of
the control-plane
end point group
used by the S1
object.
NO
Indicates the ID of
the user-plane end
point group used by
the S1 object.
NO
Indicates the
compliance protocol
release of the
MMEs to which the
eNodeB is
connected through
the S1 interfaces
under this S1
object.
NO
NO
YES
YES
YES
YES
NO
YES
None
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates the
description of the
S1 object.
Indicates whether
to configure the
control-plane or
user-plane end
point group.
NO
NO
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the priority
of an MME to which
the eNodeB is
connected through
the S1 interface. A
large parameter
value indicates a
high priority. After
this parameter is
set for MMEs, the
eNodeB can select
a high-priority MME
for UEs attempting
to access the
network.
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the ID of a
carrier-sharing
operator group that
shares the S1 MO.
If the eNodeB
works in hybrid
RAN sharing mode,
set this parameter
to a value within the
range from 1 to 5. If
the eNodeB works
in independent
mode, RAN sharing
with common
carriers mode, or
RAN sharing with
dedicated carriers
mode, retain the
default value 255,
which is an invalid
value.
NO
NO
NO
LOFD-070206
Indicates the S1
interface ID.
NO
NO
YES
None
Indicates the status
of the S1 interface. NO
NO
YES
None
Indicates whether
the S1 interface is
blocked. An S1
interface is blocked
after the execution
of BLK
S1INTERFACE and
is unblocked after
the execution of
UBL
S1INTERFACE.
NO
NO
YES
None
Indicates the ID of
the control port
bearer for the S1
interface.
NO
NO
YES
None
Indicates the status
of the control port
(CP) bearer for the
S1 interface.
NO
NO
YES
None
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the ID of
the S1 interface.
Indicates the ID of
the control port
bearer for the S1
interface.
YES
NO
YES
YES
Indicates the ID of
the operator that
owns the S1
interface.
NO
Indicates the
compliance protocol
release of the MME
to which the
eNodeB is
connected through
the S1 interface.
The eNodeB sends
S1 messages
complying with the
protocol release
specified by this
parameter. The
value of this
parameter must be
the same as the
MME-complied
protocol release. If
the parameter value
is different from the
MME-complied
protocol release,
the way in which
the MME handles
these message is
subject to the MME
implementation.
NO
Indicates whether
the S1 interface is
blocked. An S1
interface is blocked
after the execution
of BLK
S1INTERFACE and
is unblocked after
the execution of
UBL
S1INTERFACE.
NO
YES
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
LOFD-070206
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the
control mode of the
S1 interface, which
determines the
control policies of
users and the SON
function on the S1
interface. When it is
set to
MANUAL_MODE,
only users can
control the S1
interface. When it is
set to
AUTO_MODE, both
users and the SON
function can control
the S1 interface.
The control policies
set in this
parameter also
apply to the
MmeFeatureCfg
MO. When the SON
function
automatically sets
up an S1 interface,
this parameter is
set to
AUTO_MODE by
default. When
users add or modify
an S1 interface,
users can set this
parameter to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates whether
the S1 interface is
created
automatically or
manually. This
parameter is set by
the system. Users
cannot modify the
parameter setting.
The system sets
this parameter to
AUTO_CREATE
when the S1
interface is created
automatically using
the SON function
and to
MANUAL_CREATE
when the S1
interface is created
manually by using
the CME or running
an MML command. NO
Indicates the priority
of an MME to which
the eNodeB is
connected through
the S1 interface. A
large parameter
value indicates a
high priority. After
this parameter is
set for MMEs, the
eNodeB can select
a high-priority MME
for UEs attempting
to access the
network.
NO
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-001018 /
TDLOFD-001018
Indicates the ID of a
carrier-sharing
operator group that
shares the
S1Interface MO. If
the eNodeB works
in hybrid RAN
sharing mode, set
this parameter to a
value within the
range from 1 to 5. If
the eNodeB works
in independent
mode, RAN sharing
with common
carriers mode, or
RAN sharing with
dedicated carriers
mode, retain the
default value 255,
which is an invalid
value.
NO
NO
NO
LOFD-070206
Indicates the status
of the S1 interface. NO
NO
YES
None
Indicates the status
of the control port
bearer for the S1
interface.
NO
NO
YES
None
Indicates whether
the MME connected
to the eNodeB over
the S1 interface is
overloaded. This
parameter is valid
after the S1
interface is
established. Before
the S1 interface is
established, the
MME load status is
NULL. For details
about the MME
load status after the
S1 interface is
established, see
3GPP TS 36.413.
NO
NO
YES
None
Indicates the
number of users
that have accessed
the S1 interface.
NO
NO
YES
None
Indicates the name
of the MME to
which the eNodeB
is connected
through the S1
interface. This
parameter is valid
after the S1
interface is
established and the
MME name is
contained in the S1
interface
establishing
response message
or the MME
configuration
update message. In
other conditions,
the parameter value
is NULL. For
details, see 3GPP
TS 36.413.
NO
NO
YES
None
Indicates the IDs of
all served PLMNs of
the MME to which
the eNodeB is
connected. The ID
of a served PLMN
consists of the
MCC and MNC.
PLMN IDs are
separated by
commas (,).
NO
NO
YES
None
Indicates the Global
Unique MME
Identifiers
(GUMMEIs) of all
MME to which the
eNodeB is
connected. A
GUMMEI of a
serving MME
consists of the
MCC, MNC, MME
group ID, and MME
code. GUMMEIs
are separated by
commas (,).
NO
NO
NO
None
Indicates the
capacity of the
connected MME
relative to that of
other MMEs. A
larger value of this
parameter indicates
a larger capacity
allowing UE access. NO
NO
YES
None
Indicates the
reason of the fault
on the S1 link.
NO
NO
YES
None
Indicates the
interface protocol
type of the
debugging
message. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
YES
YES
NO
None
Indicates the
number of the
message
transmitted over
3GPP-specific
interfaces. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
YES
Indicates the
operation
performed by the
eNodeB on a
matched message.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service
Center.
NO
and
matching
content. The value
ZERO indicates
that the eNodeB
discards or modifies
the messages with
a specific ID. The
value ONE
indicates that the
eNodeB discards or
modifies the
messages with the
matching result of
one matching item
to be positive. The
value TWO
indicates that the
eNodeB discards or
modifies the
messages with the
matching result of
two matching items
to be positive. The
value THREE
indicates that the
eNodeB discards or
modifies the
messages with the
result of three
matching items to
be positive. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
YES
NO
None
YES
NO
None
YES
NO
None
Indicates the
matching offset
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching length
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching content
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. The
matching content
consists of 0 to 100
hexadecimal digits.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching offset
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching length
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching content
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. The
matching content
consists of 0 to 100
hexadecimal digits.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching offset
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching length
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
matching content
used when the
eNodeB compares
a debugging
message with a
message received
or to be sent by the
eNodeB. The
matching content
consists of 0 to 100
hexadecimal digits.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
modification item
contains the
modification offset,
modification length,
and modification
content. The value
ZERO indicates
that the eNodeB
does not modify the
messages with
positive matching
result. The value
ONE indicates that
the eNodeB makes
one modification to
the messages with
positive matching
result. The value
TWO indicates that
the eNodeB makes
two modifications to
the messages with
positive matching
result. The value
THREE indicates
that the eNodeB
makes three
modifications to the
messages with
positive matching
result. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification offset
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification length
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification content
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. The
modification content
consists of 0 to 100
hexadecimal digits.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification offset
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification length
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification content
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. The
modification content
consists of 0 to 100
hexadecimal digits.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification offset
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification length
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. Do not
change the setting
of this parameter
without the
guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the
modification content
used when the
eNodeB modifies a
message received
or to be sent by the
eNodeB. The
modification content
consists of 0 to 100
hexadecimal digits.
Do not change the
setting of this
parameter without
the guidance from
Huawei Customer
Service Center.
NO
NO
NO
None
Indicates the ID of
an eNodeB FDD
baseband resource.
The ID uniquely
identifies an
eNodeB FDD
baseband resource
within an eNodeB.
If the
LTE_FDD(LTE
FDD) option of the
Base Band Work
Standard parameter
in a BBP MO is
selected, the
eNodeB
automatically adds
an
eNodeBFddBbRes
MO for this
baseband
processing unit
(BBP) and allocates
a unique eNodeB
FDD baseband
resource ID for the
BBP MO.
YES
YES
NO
None
Indicates the
number of the
cabinet housing the
baseband
processing unit that
provides the
baseband
resource.When the
eNodeBFddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the
Cabinet No.
parameter in the
BBP MO.
NO
NO
NO
None
Indicates the
number of the
subrack housing
the baseband
processing unit that
provides the
baseband
resource.When the
eNodeBFddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the
Subrack No.
parameter in the
BBP MO.
NO
NO
NO
None
Indicates the
number of the slot
housing the
baseband
processing unit that
provides the
baseband resource.
When the
eNodeBFddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the Slot
No. parameter in
the BBP MO.
NO
YES
NO
None
Indicates the
capacity of the
baseband resource
used for LTE FDD
services. When the
eNodeBFddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the Base
Band Work
Standard parameter
in the BBP MO.
NO
NO
NO
None
Indicates the
administrative state
of the baseband
resource.
BLOCKED means
that the baseband
resource cannot be
used to provide LTE
FDD services.
UNBLOCKED
means that the
baseband resource
can be used to
provide LTE FDD
services.
NO
NO
NO
None
Indicates the
operational state of
the baseband
resource.
ENABLED means
that the baseband
resource is
available.
DISABLED means
that the baseband
resource is
unavailable. If the
setting of the Base
Band Work
Standard parameter
for the
corresponding
baseband
processing unit
(BBP) and the BBP
capability are
mismatched, the
setting of this
parameter does not
take effect.
NO
NO
YES
None
Indicates the ID of
an eNodeB TDD
baseband resource.
The ID uniquely
identifies an
eNodeB TDD
baseband resource
within an eNodeB.
If the
LTE_TDD(LTE
TDD) option of the
Base Band Work
Standard parameter
in a BBP MO is
selected, the
eNodeB
automatically adds
an
eNodeBTddBbRes
MO for this
baseband
processing unit
(BBP) and allocates
a unique eNodeB
TDD baseband
resource ID for the
BBP MO.
YES
YES
NO
None
Indicates the
number of the
cabinet housing the
baseband
processing unit that
provides the
baseband resource.
When the
eNodeBTddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the
Cabinet No.
parameter in the
BBP MO.
NO
NO
NO
None
Indicates the
number of the
subrack housing
the baseband
processing unit that
provides the
baseband resource.
When the
eNodeBTddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the
Subrack No.
parameter in the
BBP MO.
NO
NO
NO
None
Indicates the
number of the slot
housing the
baseband
processing unit that
provides the
baseband resource.
When the
eNodeBTddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the Slot
No. parameter in
the BBP MO.
NO
YES
NO
None
Indicates the
capacity of the
baseband resource
used for LTE TDD
services. When the
eNodeBTddBbRes
MO is automatically
added, the eNodeB
automatically
assigns a value to
this parameter
based on the
setting of the Base
Band Work
Standard parameter
in the BBP MO.
NO
NO
NO
None
Indicates the
administrative state
of the baseband
resource object.
BLOCKED means
that the baseband
resource cannot be
used to provide LTE
TDD services.
UNBLOCKED
means that the
baseband resource
can be used to
provide LTE TDD
services.
NO
NO
NO
None
Indicates the
operational state of
the baseband
resource.
ENABLED means
that the baseband
resource is
available.
DISABLED means
that the baseband
resource is
unavailable. If the
setting of the Base
Band Work
Standard parameter
for the
corresponding
baseband
processing unit
(BBP) and the BBP
capability are
mismatched, the
setting of this
parameter does not
take effect.
NO
NO
YES
None
Indicates the ID of
an S1 interface.
YES
NO
None
YES
Indicates whether
the MME at the
other end of the S1
interface supports
Huawei-proprietary
positioning
procedures, which
are included in
minimization of
drive tests (MDT).
The value
DISABLE(disable)
indicates that the
MME does not
support the
procedures and
therefore the
eNodeB cannot
obtain UE location
information from the
MME through the
procedures. The
value
ENABLE(enable)
indicates the
opposite.
NO
Indicates the X2
object ID.
Indicates the ID of
the operator to
which the X2 MO
belongs.
Indicates the ID of
the control-plane
end point group
used by the X2
object.
YES
NO
NO
NO
YES
YES
YES
NO
None
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates the ID of
the user-plane end
point group used by
the X2 object.
NO
YES
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates the
compliance protocol
release of the
neighboring
eNodeBs to which
the local eNodeB
are connected
through the X2
interfaces managed
by the X2 MO.
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates the
description of the
X2 object.
NO
NO
None
NO
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates the ID of a
carrier-sharing
operator group that
shares the X2 MO.
If the eNodeB
works in hybrid
RAN sharing mode,
set this parameter
to a value within the
range from 1 to 5. If
the eNodeB works
in independent
mode, RAN sharing
with common
carriers mode, or
RAN sharing with
dedicated carriers
mode, retain the
default value 255,
which is an invalid
value.
NO
NO
NO
LOFD-070206
Indicates whether
to configure the
control-plane or
user-plane end
point group.
Indicates the status
of the CP bearer for
the X2 interface.
NO
NO
YES
None
Indicates the X2
interface ID.
NO
NO
YES
None
Indicates the status
of the X2 interface. NO
NO
YES
None
Indicates the ID of
the CP bearer for
the X2 interface.
NO
YES
None
Indicates the mobile
country code of the
neighboring
eNodeB to be
added to the list.
The value of this
parameter is a
string of three
characters, each of
which must be a
digit in the range of
0 to 9.
YES
YES
NO
None
Indicates the mobile
network code of the
neighboring
eNodeB to be
added to the list.
The value of this
parameter is a
string of two or
three characters,
each of which must
be a digit in the
range of 0 to 9.
YES
YES
NO
None
Indicates the ID of
the neighboring
eNodeB to be
added to the list.
YES
NO
None
NO
YES
Indicates whether
the X2 list is a
blacklist or whitelist.
If a neighboring
eNodeB is added to
the X2 blacklist, an
X2 interface
between the local
eNodeB and this
neighboring
eNodeB cannot be
automatically set up
or the X2 interface
set up between the
local eNodeB and
this neighboring
eNodeB is
abnormal. If a
neighboring
eNodeB is added to
the X2 whitelist, the
X2 interface
between the local
eNodeB and this
neighboring
eNodeB cannot be
automatically
removed.
NO
Indicates the X2
interface ID.
Indicates the ID of
the control port
bearer for the X2
interface.
Indicates the ID of
the operator that
owns the X2
interface.
YES
NO
NO
Indicates the
protocol release
with which the peer
eNodeB complies. NO
NO
YES
YES
YES
NO
NO
None
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
LOFD-070206
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates whether
the X2 interface can
be automatically
removed.
NO
Indicates the
control mode of the
X2 interface, which
determines the
control policies of
users and the SON
function on the X2
interface. When it is
set to
MANUAL_MODE,
only users can
control the X2
interface. When it is
set to
AUTO_MODE, both
users and the SON
function can control
the X2 interface.
When the SON
function
automatically sets
up an X2 interface,
this parameter is
set to
AUTO_MODE by
default. When
users add or modify
an X2 interface,
users can set this
parameter to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates whether
the X2 interface is
created
automatically or
manually. This
parameter is set by
the system. Users
cannot modify the
parameter setting.
The system sets
this parameter to
AUTO_CREATE
when the X2
interface is created
automatically using
the SON function
and to
MANUAL_CREATE
when the X2
interface is created
manually by using
the CME or running
an MML command. NO
NO
NO
LBFD-00300101 /
TDLBFD-00300101
LBFD-00300102 /
TDLBFD-00300102
LBFD-00300103 /
TDLBFD-00300103
Indicates the ID of a
carrier-sharing
operator group that
shares the X2
Interface MO. If the
eNodeB works in
hybrid RAN sharing
mode, set this
parameter to a
value within the
range from 1 to 5. If
the eNodeB works
in independent
mode, RAN sharing
with common
carriers mode, or
RAN sharing with
dedicated carriers
mode, retain the
default value 255,
which is an invalid
value.
NO
NO
NO
LOFD-070206
Indicates the ID of
the neighboring
eNodeB to which
the local eNodeB is
connected through
the X2 interface.
The combination of
this parameter and
NbrEnbPlmnId
uniquely identifies
the neighboring
eNodeB around the
globe.
NO
NO
YES
None
Indicates the PLMN
ID of the
neighboring
eNodeB to which
the local eNodeB is
connected through
the X2 interface.
NO
NO
YES
None
Indicates the status
of the X2 interface.
If the status is
normal, the X2
interface has been
successfully
established. If the
status is abnormal,
the X2 interface
establishment fails. NO
NO
YES
None
Indicates the
reason why the X2
interface is
abnormal.
NO
YES
None
NO
Indicates whether
to enable DRX. The
setting of this
parameter has no
effect on dynamic
DRX. DRX applies
to a CA UE only
when this
parameter is set to
ON(On) on both
eNodeBs to which
the PCell and SCell
of the CA UE
belong.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates whether
to enable or disable
short DRX cycles.
Short DRX cycles
reduce the traffic
delay.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
set the
TimeAlignmentTime
r parameter to a
value equal to or
greater than 10240
ms. If the
TimingAdvCmdOpt
Switch parameter is
set to ON, it is
recommended that
the
LongDrxCycleSpeci
al parameter be set
to a value smaller
than or equal to 320
ms. Otherwise, the
uplink time
alignment
performance of UEs
is affected. If the
TimingAdvCmdOpt
Switch parameter is
set to ON, it is
recommended that
the
TimeAlignmentTime
r parameter be set
to sf10240. A
smaller value of the
TimeAlignmentTime
r parameter, such
as sf5120,
increases the
probability that UEs
in DRX mode
become uplink
asynchronized.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the On Duration
Timer that applies
only to non-powersaving UEs whose
RFSP indexes are
contained in the
RFSP index set.
For details about
this timer, see
3GPP TS 36.321.
Because of the
impact of CQI
reporting intervals
and SRS
transmission
intervals, the actual
value of this
parameter assigned
to a UE may be
greater than the
configured value.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the DRX
Inactivity Timer that
applies only to nonpower-saving UEs
whose RFSP
indexes are
contained in the
RFSP index set.
For details about
this timer, see
3GPP TS 36.321.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates whether
to enable or disable
short DRX cycles
for non-powersaving UEs whose
RFSP indexes are
contained in the
RFSP index set.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
of a short DRX
cycle that is applied
only to non-powersaving UEs whose
subscriber profile ID
for RAT/frequency
priority (RFSP)
indexes are
contained in the
RFSP index set.
According to 3GPP
specifications, the
length of a long
DRX cycle must be
an integer multiple
of that of a short
DRX cycle. In
addition, the actual
value of
LongDrxCycleSpeci
al assigned to a UE
may be less than
the configured
value because of
the impact of the
SRS bandwidth and
TA period specified
by the
TimeAlignmentTime
r parameter.
Therefore, the
actual value of
ShortDrxCycleSpeci
al assigned to a UE
may be less than
the configured
value.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the length
of the DRX Short
Cycle Timer that
applies only to nonpower-saving UEs
whose RFSP
indexes are
contained in the
RFSP index set.
The length of this
timer is expressed
in the number of
short DRX cycles. If
this parameter is
set to 1, the length
of this timer is one
short DRX cycle. If
this parameter is
set to 2, the length
of this timer is two
short DRX cycles.
For details, see
3GPP TS 36.321
5.7.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the long
DRX cycle for intraRAT ANR. If intraRAT ANR is
enabled, this
parameter is valid
regardless of
whether DRX is
enabled. If a long
DRX cycle is
configured for ANR
measurement, it is
recommended that
this parameter be
set to a value equal
to or greater than
256 ms to ensure
that the UE can
successfully obtain
the CGI of a cell.
However, if this
parameter is set to
a large value, the
delay of obtaining
the CGI is large,
and therefore the
system delay
increases.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the long
DRX cycle for interRAT ANR. If interRAT ANR is
enabled, this
parameter is valid
regardless of
whether DRX is
enabled. If there
are multiple interRAT systems, and
all of them require
inter-RAT ANR
measurements, it is
recommended that
this parameter be
set to the maximum
value of the long
DRX cycle
configured for interRAT ANR
measurements.
Otherwise, the
success rate for
inter-RAT ANR
measurements may
be affected.
NO
NO
NO
LBFD-002017 /
TDLBFD-002017
Indicates the
extended QoS
Class Identifier
(QCI), which is
required by the
operator for user
differentiation.
YES
YES
NO
LBFD-002032
LOFD-00101502 /
TDLOFD-00101502
Indicates the
service type
corresponding to
the extended QCI.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the weight
factor used in the
calculation of
connection priorities
during uplink
scheduling.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LOFD-00301102 /
TDLOFD-00301102
Indicates the weight
factor used in the
calculation of
connection priorities
during downlink
scheduling.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
NO
LOFD-00101502 /
TDLOFD-00101502
LOFD-00301101
LOFD-00301102 /
TDLOFD-00301102
LOFD-00301103
Indicates the uplink
minimum
guaranteed bit rate
of the non-GBR
service.
NO
NO
Indicates the
downlink minimum
guaranteed bit rate
of the non-GBR
service.
NO
Indicates the preallocation weight.
The pre-allocation
weight of a UE is
the pre-allocation
weight of services
carried by the
highest-priority
logical channel. If
services carried by
highest-priority
logical channels
have different preallocation weights,
the UE takes the
highest preallocation weight.
When resources
are insufficient, preallocation weights
affect the preallocation
probabilities of
users. The preallocation
probability has a
positive correlation
with the preallocation weight.
This parameter is
QCI-specific.
NO
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LOFD-00301101 /
TDLOFD-00301101
LOFD-00301103 /
TDLOFD-00301103
LOFD-003016 /
TDLOFD-003016
NO
TDLOFD-001015
LOFD-00101502 /
TDLOFD-00101502
Indicates the group
ID of the
parameters related
to the inter-RAT
handover with the
extended QCI.
NO
Indicates the
prioritized bit rate of
the logical channel.
The UE scheduler
guarantees
prioritized bit rates
of logical channels
in descending order
of logical channel
priority. For details,
see 3GPP TS
36.321.
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
TDLOFD-001035
NO
LOFD-00101502 /
TDLOFD-00101502
TDLOFD-001015
Indicates the priority
of the logical
channel. The UE
scheduler
guarantees
prioritized bit rates
of logical channels
in descending order
of logical channel
priority. Resources
are allocated in
descending order of
logical channel
priority after the
prioritized bit rates
of all services are
guaranteed. For
details, see 3GPP
TS 36.321.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
TDLOFD-001015
Indicates the ID of
an RLC/PDCP
parameter group.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates whether
the extended QCI is
specific to free
users or paid users. NO
NO
NO
TDLOFD-001015
TDLOFD-00101502
Indicates whether
to enable flow
control for the QCI. NO
Indicates the group
ID of the
parameters related
to the inter-RAT
handover with a
specific QCI.
YES
NO
YES
NO
LOFD-00301101 /
TDLOFD-00301101
LOFD-00301102 /
TDLOFD-00301102
LOFD-00301103 /
TDLOFD-00301103
LOFD-003016 /
TDLOFD-003016
NO
LOFD-001022 /
TDLOFD-001022
LOFD-001023 /
TDLOFD-001023
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
Indicates the policy
of handovers to
UTRAN.
PS_HO: indicates
whether to allow PS
handovers to
UTRAN.
SRVCC: indicates
whether to allow
transfers to UTRAN
in SRVCC mode.
REDIRECTION:
indicates whether to
allow redirection to
UTRAN.
NO
Indicates the switch
used to enable or
disable the single
radio voice call
continuity (SRVCC)
handover to
GERAN GSM.
If this switch is set
to On, the UE can
perform the SRVCC
handover to the
GERAN GSM cell.
If this switch is set
to Off, the UE
cannot perform the
SRVCC handover
to the GERAN GSM
cell.
NO
NO
NO
NO
LOFD-001022 /
TDLOFD-001022
LOFD-001019 /
TDLOFD-001019
NO
LOFD-001023 /
TDLOFD-001023
LOFD-001020 /
TDLOFD-001020
Indicates the policy
of handovers to
GPRS/EDGE.
PS_HO: Indicates
whether PS
handovers to
neighboring
GPRS/EDGE cells
are allowed.
NACC_HO:
Indicates whether
NACC handovers to
neighboring
GPRS/EDGE cells
are allowed.
CCO_HO: Indicates
whether CCO
handovers to
neighboring
GPRS/EDGE cells
are allowed.
SRVCC: Indicates
whether SRVCC
handovers to
neighboring
GPRS/EDGE cells
are allowed.
REDIRECTION:
Indicates whether
redirections to
neighboring
GPRS/EDGE cells
are allowed.
NO
NO
NO
TDLOFD-001023
LOFD-001020 /
TDLOFD-001020
Indicates the switch
used to enable or
disable QCI-specific
SRVCC to
CDMA2000 1xRTT.
If this switch is
turned on, UEs can
perform SRVCC to
CDMA2000 1xRTT
cells.
If this switch is
turned off, UEs
cannot perform
SRVCC to
CDMA2000 1xRTT
cells.
NO
NO
NO
None
Indicates the policy
of handovers to
CDMA2000 HRPD
networks.
NON_OPT_HO:
Indicates whether
to allow nonoptimized
handovers to
neighboring
CDMA2000 HRPD
cells.
OPT_HO:
Indicates whether
to allow optimized
handovers to
neighboring
CDMA2000 HRPD
cells.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether
to permit or forbid
the inter-RAT
handover under the
QCI.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLBFD-00201801
TDLOFD-001022
TDLOFD-001023
TDLOFD-001033
TDLOFD-001034
Indicates whether
to allow the fast
ANR under the
QCI. The function
specified by this
parameter is an
extended function
and is reserved.
The current version
does not support
this function.
NO
NO
NO
None
Indicates the index
mapped to the MCS
offset for channel
quality indicators
(CQIs) transmitted
with data on
PUSCH. For
details, see 3GPP
TS 36.213. Some
values are
reserved, for
example, values 0
and 1 are reserved
in 3GPP TS 36.213
Release 9. When
this parameter is
set to a reserved
value, a UE initiates
an RRC connection
reestablishment or
fails to access the
network.
NO
NO
NO
None
Indicates the index
mapped to the MCS
offset for rank
indications (RIs)
transmitted with
data on PUSCH.
For details, see
3GPP TS 36.213.
Some values are
reserved, for
example, values 13,
14, and 15 are
reserved in 3GPP
TS 36.213 Release
9. When this
parameter is set to
a reserved value, a
UE initiates an RRC
connection
reestablishment or
fails to access the
network.
NO
NO
NO
None
Indicates the index
mapped to the MCS
offset for
acknowledgments
(ACKs) transmitted
with data on
PUSCH. For
details, see 3GPP
TS 36.213. Some
values are
reserved, for
example, value 15
is reserved in 3GPP
TS 36.213 Release
9. When this
parameter is set to
a reserved value, a
UE initiates an RRC
connection
reestablishment or
fails to access the
network.
NO
NO
NO
None
Indicates the ID of
the RLC/PDCP
parameter group.
YES
NO
LBFD-002008 /
TDLBFD-002008
YES
Indicates the length
of the PDCP
discard timer.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the RLC
transmission mode.
Only the AM and
UM modes are
available.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the UEspecific maximum
number of RLC
ARQ
retransmissions,
namely the
maximum number
of AM PDU
retransmissions.
When the number
of retransmissions
reaches the value
of this parameter,
RRC connection reestablishment is
initiated.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the
eNodeB-specific
maximum number
of RLC ARQ
retransmissions,
namely the
maximum number
of AM PDU
retransmissions.
When the number
of retransmissions
reaches the value
of this parameter,
eNodeB will release
the user.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the UEspecific data
volume threshold of
PDUs to trigger
polling. When the
transmitted data
volume reaches the
value of this
parameter, the Poll
flag is set in the
PDU header.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the
eNodeB-specific
data volume
threshold of PDUs
to trigger polling.
When the
transmitted data
volume reaches the
value of this
parameter, the Poll
flag is set in the
PDU header.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the UEspecific number of
PDUs to trigger
polling. When the
transmitted number
of PDUs reaches
the value of this
parameter, the Poll
flag is set in the
PDU header.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the
eNodeB-specific
number of PDUs to
trigger polling.
When the
transmitted number
of PDUs reaches
the value of this
parameter, the Poll
flag is set in the
PDU header.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the Polling PDU
retransmission
timer for the UE.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the Polling PDU
retransmission
timer for the
eNodeB.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the UE-specific
timer for prohibiting
status reporting
from the receiver in
AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the eNodeBspecific timer for
prohibiting status
reporting from the
receiver in AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the UE-specific
timer for reordering
at the receiver in
AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the eNodeBspecific timer for
reordering at the
receiver in AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of a PDCP
sequence number
of a UL DRB in RLC
UM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of a UL RLC
sequence number
in UM. The length is
permanently 10 bits
in AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of a DL RLC
sequence number
in UM. The length is
permanently 10 bits
in AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the UE-specific
timer for reordering
at the receiver in
UM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the eNodeBspecific timer for
reordering at the
receiver in UM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates whether a
PDCP status report
is required upon
handover in AM.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates whether
to enable the
adaptive
configuration of
parameters related
to Radio Link
Control (RLC). If
this parameter is
set to ON(On), the
eNodeB adaptively
configures the
lengths of the
following timers
according to the
number of UEs in
the cell when new
UEs access the
cell:
(1) The polling PDU
retransmission
timer for the UE
(2) The polling PDU
retransmission
timer for the
eNodeB
(3) The UE-specific
timer for prohibiting
status reporting
from the receiver
(4) The eNodeBspecific timer for
prohibiting status
reporting from the
receiver
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the polling PDU
retransmission
timer for the
eNodeB, which is
used when the
RlcParaAdaptSwitc
h parameter is set
to ON(On) and the
number of UEs in
the cell is large.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the eNodeBspecific timer for
prohibiting status
reporting from the
receiver, which is
used when the
RlcParaAdaptSwitc
h parameter is set
to ON(On) and the
number of UEs in
the cell is large.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the polling PDU
retransmission
timer for the UE,
which is used when
the
RlcParaAdaptSwitc
h parameter is set
to ON(On) and the
number of UEs in
the cell is large.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates the length
of the UE-specific
timer for prohibiting
status reporting
from the receiver,
which is used when
the
RlcParaAdaptSwitc
h parameter is set
to ON(On) and the
number of UEs in
the cell is large.
NO
Indicates the QoS
Class Identifier
(QCI) of an EPS
bearer. Different
QCIs represent
different QoS
specifications such
as the packet delay
budget, packet
error loss rate, and
resource type
(whether the
service is a GBR
service or not). For
details, see Table
6.1.7 in 3GPP TS
23.203.
YES
NO
YES
NO
LBFD-002008 /
TDLBFD-002008
NO
LOFD-00101502 /
TDLOFD-00101502
TDLBFD-002025
TDLOFD-001015
Indicates the weight
factor used in the
calculation of
connection priorities
during uplink
scheduling.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LOFD-00301102 /
TDLOFD-00301102
Indicates the weight
factor used in the
calculation of
connection priorities
during downlink
scheduling.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
NO
LOFD-00101502 /
TDLOFD-00101502
LOFD-00301101
LOFD-00301102
LOFD-00301103
TDLBFD-002025
TDLOFD-001015
Indicates the uplink
minimum
guaranteed bit rate
of the non-GBR
service.
NO
NO
Indicates the
downlink minimum
guaranteed bit rate
of the non-GBR
service.
NO
Indicates the preallocation weight.
The pre-allocation
weight of a UE is
the pre-allocation
weight of services
carried by the
highest-priority
logical channel. If
services carried by
highest-priority
logical channels
have different preallocation weights,
the UE takes the
highest preallocation weight.
When resources
are insufficient, preallocation weights
affect the preallocation
probabilities of
users. The preallocation
probability has a
positive correlation
with the preallocation weight.
This parameter is
QCI-specific.
NO
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LOFD-00301101
LOFD-00301103
LOFD-003016 /
TDLOFD-003016
NO
LOFD-00101502 /
TDLOFD-00101502
TDLOFD-001015
Indicates the ID of a
parameter group
related to inter-RAT
handover.
NO
Indicates the ID of
an RLC/PDCP
parameter group.
NO
Indicates the
prioritized bit rate of
the logical channel.
The UE scheduler
guarantees
prioritized bit rates
of logical channels
in descending order
of logical channel
priority. For details,
see 3GPP TS
36.321.
NO
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
NO
LOFD-00101502 /
TDLOFD-00101502
TDLBFD-002025
TDLOFD-001015
NO
LOFD-00101502 /
TDLOFD-00101502
TDLBFD-002025
TDLOFD-001015
Indicates the priority
of the logical
channel. The UE
scheduler
guarantees
prioritized bit rates
of logical channels
in descending order
of logical channel
priority. Resources
are allocated in
descending order of
logical channel
priority after the
prioritized bit rates
of all services are
guaranteed. For
details, see 3GPP
TS 36.321.
NO
Indicates whether
to enable flow
control for the QCI. NO
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
TDLBFD-002025
TDLOFD-001015
NO
LOFD-00301101 /
TDLOFD-00301101
LOFD-00301102 /
TDLOFD-00301102
LOFD-00301103 /
TDLOFD-00301103
LOFD-003016 /
TDLOFD-003016
Indicates the QoS
class identifier
(QCI) of an evolved
packet system
(EPS) bearer.
Different QCIs
indicate different
QoS requirements,
such as the packet
delay budget,
packet error loss
rate, and resource
type. For details,
see Table 6.1.7 in
3GPP TS 23.203.
YES
YES
NO
None
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates the
default Doppler shift
level. This is the
default parameter
used when Doppler
shift measurement
is not required.
NO
NO
NO
None
MIMO for a multiantenna eNodeB.
The values are
described as
follows:
NO_ADAPTIVE: A
fixed beamforming
or MIMO
transmission mode
is used. That is,
transition between
the beamforming
and MIMO
transmission mode
is not supported.
TxD_BF_ADAPTIV
E: The transmission
mode changes
adaptively between
TM2 and TM7 or
between TM2 and
TM8, depending on
the protocol release
with which UEs
comply.
MIMO_BF_ADAPTI
VE: The
transmission mode
changes adaptively
between TM2, TM3,
and TM7, or
between TM2, TM3,
and TM8,
depending on the
protocol release
with which UEs
comply.
NO
NO
NO
TDLOFD-001001
TDLOFD-001003
TDLOFD-001060
TDLOFD-001049
TDLOFD-001061
beamforming or
MIMO transmission
mode configured for
a multi-antenna
eNodeB. This
parameter is valid
only when
BfMimoAdaptiveSwi
tch is set to
NO_ADAPTIVE.
The values are
described as
follows:
TM2: Transmission
mode 2 is always
used for UEs.
TM3: Transmission
mode 3 is always
used for UEs.
TM7: Transmission
mode 7 is always
used for UEs.
TM8: Transmission
mode 8 is always
used for UEs.
TM4: Transmission
mode 4 is always
used for UEs.
TM9 w/o PMI:
Open-loop
transmission mode
9 is always used for
UEs.
TM9 w PMI: Closeloop transmission
mode 9 is always
used for UEs.
NO
NO
NO
TDLOFD-001001
TDLOFD-001003
TDLOFD-001060
TDLOFD-001049
TDLOFD-001061
Indicates whether
to enable or disable
adaptive CQI
reporting. If this
parameter is set to
ON, the CQI period
adaptively changes
based on the air
interface load of the
cell. If this
parameter is set to
OFF, the CQI period
is the specified by
the
UserCqiPeriodCfg
parameter. This
parameter is valid
only for FDD cells. NO
Indicates the fixed
CQI period. A fixed
CQI period is used
when CQI period
adaptation is
disabled. This
parameter is valid
only for FDD cells.
NO
NO
NO
NO
LBFD-002025
LOFD-00101502
TDLOFD-001049
TDLOFD-001061
NO
LBFD-002025 /
TDLBFD-002025
LOFD-00101502 /
TDLOFD-00101502
Indicates whether
CQI and Ack or
Nack can be
concurrently sent
over the PUCCH.
For details, see the
contents related to
PUCCH format in
3GPP TS36.213.
When this
parameter is set to
OFF, the value of
simultaneousAckNa
ckAndCQI becomes
False, that is, CQI
and Ack or Nack
cannot be sent
simultaneously over
the PUCCH. When
this parameter is
set to ON, the value
of
simultaneousAckNa
ckAndCQI becomes
True, that is, CQI
and Ack or Nack
can be sent
simultaneously over
the PUCCH.
NO
NO
NO
LBFD-001006 /
TDLBFD-001006
LOFD-00101501 /
TDLOFD-00101501
TDLOFD-001015
Indicates whether
to enable the
optimization on CQI
reporting periods
and PUCCH
resources for CQI
reporting. If this
switch is turned on,
the eNodeB
configures less UEs
with a short CQI
reporting period,
decreasing PUCCH
resources to be
used and
increasing available
PUSCH resources.
If this switch is
turned off, the
eNodeB configures
more UEs with a
short CQI reporting
period, increasing
PUCCH resources
to be used and
decreasing
available PUSCH
resources.
NO
NO
NO
LBFD-002003
Indicates the
aperiodic CQI
reporting
configurations and
the trigger condition
of aperiodic CQI
reporting during
handovers. When
this switch is turned
on, the aperiodic
CQI reporting
configurations are
included in
handover
commands. If no
periodic CQI
reporting
configurations is
configured for a UE,
an aperiodic CQI
reporting is
triggered after the
UE is handed over
and then has data
to transmit. When
this switch is turned
off, the aperiodic
CQI reporting
configurations are
not included in
handover
commands but are
configured after the
UE is handed over. NO
NO
NO
LBFD-002025 /
TDLBFD-002025
LOFD-00101502 /
TDLOFD-00101502
values are
described as
follows:
NO_ADAPTIVE: A
fixed MIMO
transmission mode
is used. That is,
transition between
MIMO transmission
modes is not
supported.
OL_ADAPTIVE:
The open-loop
adaptive MIMO
transmission mode
is used. In this
mode, UEs report
RI and CQI values
but do not report
PMI values to the
eNodeB.
CL_ADAPTIVE:
The closed-loop
adaptive MIMO
transmission mode
is used. In this
mode, UEs report
RI, CQI, and PMI
values to the
eNodeB.
OC_ADAPTIVE:
UEs switch
between the openloop and closedloop adaptive MIMO
transmission modes
automatically.
NO
NO
NO
LOFD-001001
LOFD-001003
LOFD-001060 /
TDLOFD-001060
TDLOFD-001001
Indicates the fixed
MIMO transmission
mode configured by
a multi-antenna
eNodeB for UEs.
This parameter is
valid only when
MimoAdaptiveSwitc
h is set to
NO_ADAPTIVE.
There are four
values.
TM2: Transmission
mode 2 is
permanently
applied to UEs.
TM3: Transmission
mode 3 is
permanently
applied to UEs.
TM4: Transmission
mode 4 is
permanently
applied to UEs.
TM6: Transmission
mode 6 is
permanently
applied to UEs.
NO
NO
NO
LOFD-001001
LOFD-001003
LOFD-001060 /
TDLOFD-001060
TDLOFD-001001
used during initial
network access is
TM2.
If this parameter is
set to
ADAPTIVE(ADAPTI
VE), the MIMO
transmission mode
used during initial
network access is
determined by the
ADAPTIVE_MIMO_
TYPE and
FIXED_MIMO_TYP
E settings. If the
MimoAdaptiveSwitc
h parameter is set
to NO_ADAPTIVE,
the initial MIMO
transmission mode
is determined by
the setting of the
FixedMimoMode
parameter. If the
MimoAdaptiveSwitc
h parameter is set
to OL_ADAPTIVE
or OC_ADAPTIVE,
the initial MIMO
transmission mode
is TM3. If the
MimoAdaptiveSwitc
h parameter is set
to CL_ADAPTIVE,
the initial MIMO
transmission mode
is TM4.
NO
NO
NO
LOFD-001001 /
TDLOFD-001001
LOFD-001003
LOFD-001060 /
TDLOFD-001060
Indicates whether
to enable or disable
SRS period
adaptation. If this
parameter is set to
ON, the SRS period
adaptively changes
based on the SRS
algorithm. If this
parameter is set to
OFF, the SRS
period is the
specified by the
UserSrsPeriodCfg
parameter.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the fixed
SRS period. A fixed
SRS period is used
when SRS period
adaptation is
disabled.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the QoS
class identifier
(QCI).
QCI 1 indicates
voice services.
QCI 2 indicates
video (live
streaming) services.
QCI 3 indicates
real-time gaming
services.
QCI 4 indicates
video (buffered
streaming) services.
QCI 5 indicates IMS
signaling.
QCI 7 indicates
voice, video, and
interactive gaming
services.
QCIs 6, 8, and 9
indicate video
services and TCPbased services.
YES
YES
NO
None
Indicates the length
of the timer for
periodic
transmission of
buffer status reports
(BSRs).
BSRs are sent
periodically or as
triggered by events.
Periodic
transmission of
BSRs uses the
timer specified by
this parameter.
When the timer
expires, a BSR is
sent.
After the BSR is
sent, the timer is
restarted.
NO
NO
NO
None
Indicates the length
of the BSR (Buffer
Status Report)
retransmission
timer. This timer is
started after a BSR
is sent.
NO
NO
NO
None
Indicates the
measurement gap
pattern.
The eNodeB
defines
measurement gaps
for UEs in
connected mode.
During the
measurement gaps,
a UE measures the
signal quality of the
cells on a specific
frequency.
There are two gap
patterns: pattern 1
and pattern 2. In
pattern 1, the gap
width is 6 ms and
the repetition period
is 40 ms. In pattern
2, the gap width is 6
ms and the
repetition period is
80 ms. For details,
see 3GPP TS
36.331. Pattern 1
and pattern 2
correspond to Gap
Pattern Id 0 and
Gap Pattern Id 1 in
3GPP TS 36.331,
respectively.
NO
Indicates the upperlayer filtering
coefficient for
RSRP
measurements on
E-UTRAN.
A larger value of
this parameter
indicates a stronger
smoothing effect
and higher
resistance to fast
fading, but it may
weaken the tracing
capability towards
varying signals. For
details, see 3GPP
TS 36.331.
NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLBFD-002018
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001022
TDLOFD-001023
TDLOFD-001033
TDLOFD-001034
TDLOFD-001035
TDLOFD-001043
TDLOFD-001072
TDLOFD-001046
TDLOFD-001073
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the upperlayer filtering
coefficient for
RSRQ
measurements on
E-UTRAN.
A larger value of
this parameter
indicates a stronger
smoothing effect
and higher
resistance to fast
fading, but it may
weaken the tracing
capability towards
varying signals. For
details, see 3GPP
TS 36.331.
NO
Indicates the L3
filtering coefficient
used for the
measurement
quantity in interRAT measurements
of GERAN.
A great value of this
parameter indicates
a strong smoothing
effect and a high
anti-fast-fading
capability, but a low
signal change
tracing capability.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
TDLOFD-001034
TDLOFD-001053
Indicates whether
the measurement
threshold needs to
be set.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021
TDLBFD-002018
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001022
TDLOFD-001023
TDLOFD-001043
TDLOFD-001072
TDLOFD-001046
TDLOFD-001073
Indicates the
threshold below
which
measurements on
neighboring cells
are started. If the
signal quality of the
serving cell
exceeds this
threshold, the UE is
not required to
perform intrafrequency, interfrequency, or interRAT
measurements,
leading to reduced
power
consumption.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021
TDLBFD-002018
TDLBFD-001022
TDLBFD-001023
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates whether
mobility-based cell
handover
measurement
parameters need to
be set.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
TDLBFD-00201804
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the cycle
during which
evaluations of the
UE medium and
high mobility states
in
RRC_CONNECTE
D mode are
performed. It is one
of the key
parameters in
deciding on a UE's
mobility state. If this
parameter is set to
a small value,
switchings among
mobility states may
be frequent and the
decision precision
may be relatively
low. If this
parameter is set to
a large value,
switchings among
mobility states are
less frequent and
the decision
precision is
relatively high.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the cycle
during which
evaluations of the
UE normal mobility
state in
RRC_CONNECTE
D mode are
performed. It is one
of the key
parameters in
deciding on a UE's
mobility state. If this
parameter is set to
a small value,
switchings among
mobility states may
be frequent and the
decision precision
may be relatively
low. If this
parameter is set to
a large value,
switchings among
mobility states are
less frequent and
the decision
precision is
relatively high.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the
handover number
threshold used in
the UE medium
mobility state
evaluation. If the
number of
handovers
performed during a
period of time
specified by the
TcrMaxConnMode
parameter exceeds
the value of this
parameter, the UE
is considered to be
in medium mobility
state and its
handover-related
parameters are
adjusted.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
TDLBFD-00201804
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the
handover number
threshold used in
the UE high mobility
state evaluation. If
the number of
handovers
performed during a
period of time
specified by the
TcrMaxConnMode
parameter exceeds
the value of this
parameter, the UE
is considered to be
in high mobility
state and its
handover-related
parameters are
adjusted.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the
scaling factor for
the time-to-trigger
defined for mediummobility UEs. For a
UE in medium
mobility, the time-totrigger used in
event evaluation is
multiplied by this
scaling factor, to
facilitate triggering
of the handover.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
TDLBFD-00201804
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the
scaling factor for
the time-to-trigger
defined for highmobility UEs. For a
UE in high mobility,
the time-to-trigger
used in event
evaluation is
multiplied by this
scaling factor, to
facilitate triggering
of the handover.
NO
Indicates the
filtering coefficient
for RSCP
measurements on
UTRAN.
A larger value of
this parameter
indicates a stronger
smoothing effect
and higher
resistance to fast
fading, but it may
weaken the tracing
capability towards
varying signals. For
details, see 3GPP
TS 36.331.
NO
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
TDLBFD-002018
TDLBFD-00201804
TDLBFD-00201805
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
TDLOFD-001033
Indicates the upperlayer filtering
coefficient for
Ec/No
measurements on
UTRAN.
A larger value of
this parameter
indicates a stronger
smoothing effect
and higher
resistance to fast
fading, but it may
weaken the tracing
capability towards
varying signals. For
details, see 3GPP
TS 36.331.
NO
Indicates the punish
time of handover
preparation failures
in optimized
handovers,
including frequencypriority-based
handovers, servicebased handovers,
and SPID-based
handovers back to
the HPLMN.
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
TDLOFD-001033
NO
LBFD-00201805 /
TDLBFD-00201805
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
LOFD-00105401 /
TDLOFD-00105401
Indicates the
maximum number
of cells to be
included in the
measurement
report after an interRAT handover
event or a periodic
inter-RAT
measurement for
ANR purposes is
triggered. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLBFD-001022
TDLBFD-001023
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
Indicates the
number of
periodical
measurement
reports to be sent
after an inter-RAT
handover event is
triggered. It is used
to prevent the
impact of
measurement
report loss and
internal processing
failure on the
handover. For
details, see 3GPP
TS 36.331.
NO
Indicates the
interval at which
periodic
measurement
reports are sent to
the eNodeB after
the event for interRAT handover to
GERAN is
triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLBFD-001022
TDLBFD-001023
TDLBFD-001043
TDLBFD-001072
TDLBFD-001046
TDLBFD-001073
NO
LOFD-001020 /
TDLOFD-001020
LOFD-001021
TDLOFD-001023
TDLOFD-001033
TDLOFD-001034
TDLOFD-001035
TDLOFD-001019
TDLOFD-001046
TDLOFD-001073
Indicates the
quantity to be
included in the
measurements for
handovers to
UTRAN. For details,
see 3GPP TS
36.331. This
parameter is
dedicated to
UTRAN FDD. The
RSCP values are
relatively stable,
while the Ec/No
values may vary
with the network
load. The value
BOTH applies only
to UEs complying
with 3GPP Release
10. For UEs
complying with
3GPP Release 8 or
9, the value BOTH
takes the same
effect as the value
RSCP.
NO
Indicates the
interval at which
periodical
measurement
reports are sent
after the event for
the handover to
UTRAN is triggered.
For details, see
3GPP TS 36.331.
NO
Indicates the
measurement
quantity required for
the inter-RAT
handover to
CDMA2000 1xRTT.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001022 /
TDLOFD-001022
LOFD-001033 /
TDLOFD-001033
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
TDLOFD-001033
NO
LOFD-001090 /
TDLOFD-001090
LOFD-001021 /
TDLOFD-001021
Indicates the
interval at which
periodic
measurement
reports are sent to
the eNodeB after
the event for interRAT handover to
CDMA2000 1xRTT
is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
LOFD-001021 /
TDLOFD-001021
Indicates the
measurement
quantity required for
the inter-RAT
handover to
CDMA2000 HRPD.
For details, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the
interval at which
periodic
measurement
reports are sent to
the eNodeB after
the event for interRAT handover to
CDMA2000 HRPD
is triggered.
For details, see
3GPP TS 36.331.
NO
NO
LOFD-001021 /
TDLOFD-001021
NO
Indicates the
triggering quantity
for the inter-RAT
measurement event
A1 or A2 report.
The quantity can be
RSRP, RSRQ, or
both RSRP and
RSRQ. The
measured RSRP
values are stable,
varying little with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
Indicates the type
of the inter-RAT
handover event.
The event type can
be B1 or B2. This
parameter applies
only to coveragebased handovers.
For details, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001022
TDLOFD-001023
Indicates the timer
for measurements
on CDMA2000
1xRTT cells.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
number of
CDMA2000 1xRTT
cells whose
reference signal
strength is used to
calculate the target
reference signal
strength.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the mode
of selecting a
CDMA2000 HRPD
frequency.
NO
NO
NO
LOFD-001111
TDLOFD-001090
TDLOFD-001021
Indicates the mode
of selecting a
CDMA2000 1xRTT
frequency.
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001091
Indicates whether
eCSFB is based on
redirection.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
measurement mode
for eCSFB.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the mode
of selecting a sector
ID during eCSFB.
NO
NO
Indicates the
maximum number
of UTRAN cell
system information
messages that can
be transmitted
during a flash
redirection
procedure.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001052
Indicates the
maximum number
of GERAN cell
system information
messages that can
be transmitted
during a flash
redirection
procedure.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001053
Indicates the
maximum number
of GERAN cell
system information
messages that can
be transmitted
during a CSFB
emergency
redirection
procedure.
NO
NO
NO
LOFD-001034 /
TDLOFD-001034
NO
LOFD-001033 /
TDLOFD-001033
TDLOFD-001052
Indicates the
maximum number
of UTRAN cell
system information
messages that can
be transmitted
during a CSFB
emergency
redirection
procedure.
NO
NO
Indicates the
method of selecting
reference cells
during an optimized
handover from the
E-UTRAN to the
CDMA2000 eHRPD
network. One
method is selecting
reference cells
configured on the
eNodeB. The other
method is selecting
CDMA2000 eHRPD
neighboring cells
with the best signal
quality. The signal
quality is included in
the measurement
report.
NO
NO
NO
LBFD-002018 /
TDLBFD-002018
Indicates the
maximum number
of cells to be
included in the
measurement
report after an intraRAT inter-frequency
or intra-RAT intrafrequency
measurement event
for handover
purposes or a
periodic intra-RAT
measurement for
ANR purposes is
triggered. For
details, see 3GPP
TS 36.331.
NO
Indicates the
number of
periodical
measurement
reports to be sent
after an event for
the intra- or interfrequency handover
within the E-UTRAN
is triggered.
It is used to prevent
the impact of
measurement
report loss and
internal processing
failure on the
handover. For
details, see 3GPP
TS 36.331.
NO
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLBFD-002018
TDLBFD-001022
TDLBFD-001023
TDLBFD-001033
TDLBFD-001034
TDLBFD-001035
TDLBFD-001019
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201801
LBFD-00201804 /
TDLBFD-00201801
LBFD-00201804 /
TDLBFD-00201801
TDLBFD-002018
TDLBFD-001022
TDLBFD-001023
TDLBFD-001033
TDLBFD-001034
TDLBFD-001035
TDLBFD-001019
Indicates the
quantity used to
evaluate the
triggering condition
for the intrafrequency handover
event. The quantity
can be RSRP or
RSRQ.
The measured
RSRP values are
stable, varying little
with the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
can be RSRP,
RSRQ, or both.
The measured
RSRP values are
stable, varying little
with the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. Even
when this
parameter is set to
BOTH, the eNodeB
triggers a handover
based on the
setting of the
IntraFreqHoA3Trig
Quan
parameter.The
value of this
parameter is also
used as the
quantity to be
included in the
measurement
report between A3related interfrequency
measurement
reports.
For details, see
3GPP TS 36.331.
NO
Indicates the
interval between
periodic
measurement
reports that are
sent after an intrafrequency handover
is triggered. The
value of this
parameter is also
used as the interval
between A3-related
inter-frequency
measurement
reports.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
NO
LBFD-00201801 /
TDLBFD-00201801
LOFD-001032 /
TDLOFD-001032
Indicates the
measurement
quantity included in
the measurement
report for event A4.
The quantity can be
RSRP, RSRQ, or
both.
The measured
RSRP values are
stable, slightly
varying with the
load, and therefore
there is little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
Indicates the
interval at which
periodical
measurement
reports are sent
after an interfrequency handover
event is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the
quantity used in the
evaluation for interfrequency
measurement event
A1 or A2. The
quantity can be
RSRP, RSRQ, or
both. The
measured RSRP
values are stable,
varying little with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the
triggering quantity
for frequencypriority-based interfrequency
measurement
events A1 and A2.
The quantity can be
either RSRP or
RSRQ. The
measured RSRP
values are stable,
varying little with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
NO
NO
None
Indicates the
triggering quantity
for frequencypriority- and loadbased interfrequency handover
event A4 and PCellcamping-prioritybased interfrequency handover
event A4 in carrier
aggregation (CA)
scenarios.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-00109804 /
TDLAOFD00100306
Indicates the timer
for the eNodeB to
wait for more
measurement
reports to
determine whether
to perform a
coverage-based
inter-frequency
handover after the
eNodeB receives a
measurement
report.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
the evaluation of
whether to trigger
event B1. When
detecting that the
signal quality in at
least one UTRAN
cell meets the
entering condition,
the UE does not
send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger. This
parameter helps
decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of wrong
handovers, and
thus helps to
prevent
unnecessary
handovers. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
the evaluation of
whether to trigger
event B1. When
detecting that the
signal quality in at
least one GERAN
cell meets the
entering condition,
the UE does not
send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger. This
parameter helps
decrease the
number of
occasionally
triggered event
reports, the average
number of
handovers, and the
number of wrong
handovers, and
thus helps to
prevent
unnecessary
handovers. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LOFD-001034 /
TDLOFD-001034
UEs and used in
the evaluation of
whether to trigger
event B1. When
detecting that the
signal quality in at
least one
CDMA2000 cell
meets the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger. This
parameter helps
reduce the number
of occasionally
triggered event
reports, the average
number of
handovers, and the
number of wrong
handovers, and
hence helps to
prevent
unnecessary
handovers. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
TDLOFD-001088
Indicates the RSCP
threshold for event
B1, which is used in
CS fallback to
UTRAN. When CS
fallback to UTRAN
is applicable, this
parameter is set for
UEs and used in
the evaluation
about whether to
trigger event B1.
This parameter
indicates the RSCP
requirement for the
UTRAN cells to be
included in the
measurement
report. A UE sends
a measurement
report related to
event B1 to the
eNodeB when the
RSCP in at least
one UTRAN cell
exceeds this
threshold and other
triggering conditions
are met. For details,
see 3GPP TS
36.331.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
UEs and used in
the evaluation
about whether to
trigger event B1.
This parameter
indicates the Ec/N0
requirement for the
UTRAN cells to be
included in the
measurement
report. A UE sends
a measurement
report related to
event B1 to the
eNodeB when the
Ec/N0 in at least
one UTRAN cell
exceeds this
threshold and other
triggering conditions
are met. For a cell
with large signal
fading variance, set
this parameter to a
large value to
prevent
unnecessary
handovers. For a
cell with small
signal fading
variance, set this
parameter to a
small value to
ensure timely
handovers. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
Indicates the RSSI
threshold for event
B1 that is used in
CS fallback to
GERAN. A UE
sends a
measurement
report related to
event B1 to the
eNodeB when the
RSSI in at least one
GERAN cell
exceeds this
threshold and other
triggering conditions
are met. For details,
see 3GPP TS
36.331.
NO
NO
NO
LOFD-001034 /
TDLOFD-001034
Indicates the pilot
strength threshold
related to event B1,
which is used in CS
fallback to
CDMA2000. A UE
sends a
measurement
report related to
event B1 to the
eNodeB when the
pilot strength in at
least one
CDMA2000 cell
exceeds this
threshold and other
triggering conditions
are met. For details,
see 3GPP TS
36.331.
NO
Indicates the
reference signal
received power
(RSRP) threshold
for event A1
associated with
CSFB-triggered
adaptive blind
handovers. This
parameter is set for
a UE as a triggering
condition of event
A1 measurement
related to a CSFBtriggered adaptive
blind handover. This
parameter specifies
the RSRP threshold
of the serving cell
above which a
CSFB-triggered
adaptive blind
handover is
triggered. If the
RSRP value
measured by a UE
exceeds this
threshold, the UE
submits a
measurement
report related to
event A1.
NO
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
TDLOFD-001088
NO
LOFD-001052 /
TDLOFD-001052
LOFD-001053 /
TDLOFD-001053
Indicates the timer
governing the
period in which only
CSFB can be
performed . After
the timer expires,
the eNodeB
performs a blind
redirection for the
UE.
NO
NO
NO
LOFD-001033 /
TDLOFD-001033
LOFD-001033 /
TDLOFD-001034
LOFD-001033 /
TDLOFD-001090
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates whether
to configure the
access barring
information.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
emergency call
barring status of
access class 10,
indicating whether
UEs of access
class 10 can initiate
emergency calls.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
classes 0 to 9 or
those without IMSIs
cannot initiate
emergency calls. If
this parameter is
set to
BOOLEAN_FALSE,
UEs of access
classes 0 to 9 and
those without IMSIs
can initiate
emergency calls.
A UE in access
classes 11 to 15
cannot initiate
emergency calls
only when its
access class and
access class 10 are
both barred. If its
access class or
access class 10 is
not barred,
emergency calls
initiated by the UE
are granted access. NO
NO
NO
LBFD-002028 /
TDLBFD-002028
Indicates whether
to configure the
access barring
information for
mobile-originated
calls.
NO
NO
LBFD-002009 /
TDLBFD-002009
NO
Indicates the
access probability
factor for mobileoriginated calls. A
mobile-originated
call is granted
access if the
random number
generated by the
UE is less than this
access probability
factor; otherwise,
the access request
is rejected.
According to 3GPP
TS 36.331, if any of
the parameters
AC11BarforCall,
AC12BarforCall,
AC13BarforCall,
AC14BarforCall,
and AC15BarforCall
is set to
BOOLEAN_TRUE,
the eNodeB sends
UEs P00 as the
access probability
factor for mobileoriginated calls in
the system
information block
type 2 (SIB2),
regardless of the
actual setting of the
AcBarringFactorFor
Call parameter.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
average access
barring duration for
mobile-originated
calls.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
mobile-originated
call barring status
of access class 11,
indicating whether
UEs of access
class 11 can initiate
mobile-originated
calls.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 11 cannot
initiate mobileoriginated calls. If
this parameter is
set to
BOOLEAN_FALSE,
UEs of access
class 11 can initiate
mobile-originated
calls.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
mobile-originated
call barring status
of access class 12,
indicating whether
UEs of access
class 12 can initiate
mobile-originated
calls.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 12 cannot
initiate mobileoriginated calls. If
this parameter is
set to
BOOLEAN_FALSE,
UEs of access
class 12 can initiate
mobile-originated
calls.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
mobile-originated
call barring status
of access class 13,
indicating whether
UEs of access
class 13 can initiate
mobile-originated
calls.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 13 cannot
initiate mobileoriginated calls. If
this parameter is
set to
BOOLEAN_FALSE,
UEs of access
class 13 can initiate
mobile-originated
calls.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
mobile-originated
call barring status
of access class 14,
indicating whether
UEs of access
class 14 can initiate
mobile-originated
calls.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 14 cannot
initiate mobileoriginated calls. If
this parameter is
set to
BOOLEAN_FALSE,
UEs of access
class 14 can initiate
mobile-originated
calls.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
mobile-originated
call barring status
of access class 15,
indicating whether
UEs of access
class 15 can initiate
mobile-originated
calls.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 15 cannot
initiate mobileoriginated calls. If
this parameter is
set to
BOOLEAN_FALSE,
UEs of access
class 15 can initiate
mobile-originated
calls.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
to configure the
access barring
information for
signaling.
NO
NO
LBFD-002009 /
TDLBFD-002009
NO
Indicates the
access probability
factor for signaling.
Signaling from a UE
is granted access if
the random number
generated by the
UE is less than this
access probability
factor; otherwise,
the access request
is rejected.
According to 3GPP
TS 36.331, if any of
the parameters
AC11BarForSig,
AC12BarForSig,
AC13BarForSig,
AC14BarForSig,
and AC15BarForSig
is set to
BOOLEAN_TRUE,
the eNodeB sends
UEs P00 as the
access probability
factor for signaling
in the system
information block
type 2 (SIB2),
regardless of the
actual setting of the
AcBarringFactorFor
Sig parameter.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
average access
barring duration for
signaling.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
signaling barring
status of access
class 11, indicating
whether UEs of
access class 11 can
initiate signaling
access.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 11 cannot
initiate signaling
access. If this
parameter is set to
BOOLEAN_FALSE,
UEs of access
class 11 can initiate
signaling access.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
signaling barring
status of access
class 12, indicating
whether UEs of
access class 12
can initiate
signaling access.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 12 cannot
initiate signaling
access. If this
parameter is set to
BOOLEAN_FALSE,
UEs of access
class 12 can initiate
signaling access.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
signaling barring
status of access
class 13, indicating
whether UEs of
access class 13
can initiate
signaling access.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 13 cannot
initiate signaling
access. If this
parameter is set to
BOOLEAN_FALSE,
UEs of access
class 13 can initiate
signaling access.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
signaling barring
status of access
class 14, indicating
whether UEs of
access class 14
can initiate
signaling access.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 14 cannot
initiate signaling
access. If this
parameter is set to
BOOLEAN_FALSE,
UEs of access
class 14 can initiate
signaling access.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
signaling barring
status of access
class 15, indicating
whether UEs of
access class 15
can initiate
signaling access.
If this parameter is
set to
BOOLEAN_TRUE,
UEs of access
class 15 cannot
initiate signaling
access. If this
parameter is set to
BOOLEAN_FALSE,
UEs of access
class 15 can initiate
signaling access.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
to configure the
access barring
information for
multimedia
telephony (MMTEL)
voice services.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
access probability
factor for
multimedia
telephony (MMTEL)
voice services. An
MMTEL voice
service is granted
access if the
random number
generated by the
UE is less than this
access probability
factor; otherwise,
the access request
is barred.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
average access
barring time of
multimedia
telephony (MMTEL)
voice services.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
AC 11 to AC 15 are
granted access.
AC11BARSTATE: If
this option is
selected, the
MMTEL voice
services initiated by
UEs of AC 11 in idle
mode are barred.
AC12BARSTATE: If
this option is
selected, the
MMTEL voice
services initiated by
UEs of AC 12 in idle
mode are barred.
AC13BARSTATE: If
this option is
selected, the
MMTEL voice
services initiated by
UEs of AC 13 in idle
mode are barred.
AC14BARSTATE: If
this option is
selected, the
MMTEL voice
services initiated by
UEs of AC 14 in idle
mode are barred.
AC15BARSTATE: If
this option is
selected, the
MMTEL voice
services initiated by
UEs of AC 15 in idle
mode are barred.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
to configure the
access barring
information for
multimedia
telephony (MMTEL)
video services.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
access probability
factor for
multimedia
telephony (MMTEL)
video services. An
MMTEL video
service is granted
access if the
random number
generated by the
UE is less than this
access probability
factor; otherwise,
the access request
is barred.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
average access
barring time of
multimedia
telephony (MMTEL)
video services.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
AC 11 to AC 15 are
granted access.
AC11BARSTATE: If
this option is
selected, the
MMTEL video
services initiated by
UEs of AC 11 in idle
mode are barred.
AC12BARSTATE: If
this option is
selected, the
MMTEL video
services initiated by
UEs of AC 12 in idle
mode are barred.
AC13BARSTATE: If
this option is
selected, the
MMTEL video
services initiated by
UEs of AC 13 in idle
mode are barred.
AC14BARSTATE: If
this option is
selected, the
MMTEL video
services initiated by
UEs of AC 14 in idle
mode are barred.
AC15BARSTATE: If
this option is
selected, the
MMTEL video
services initiated by
UEs of AC 15 in idle
mode are barred.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
to configure the
access barring
information for CS
fallback (CSFB)
services.
NO
NO
LBFD-002009 /
TDLBFD-002009
NO
Indicates the
access probability
factor for CS
fallback (CSFB)
services. If the
random number
generated by a UE
is less than the
parameter value,
the eNodeB
accepts the CSFB
service access
request; otherwise,
the eNodeB rejects
the access request. NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
average access
barring time of CS
fallback (CSFB)
services.
NO
NO
LBFD-002009 /
TDLBFD-002009
NO
Indicates whether
CS fallback (CSFB)
services initiated by
UEs of AC 11 to AC
15 are granted
access.
AC11BARSTATE: If
this option is
selected, the CSFB
services initiated by
UEs of AC 11 in idle
mode are barred.
AC12BARSTATE: If
this option is
selected, the CSFB
services initiated by
UEs of AC 12 in idle
mode are barred.
AC13BARSTATE: If
this option is
selected, the CSFB
services initiated by
UEs of AC 13 in idle
mode are barred.
AC14BARSTATE: If
this option is
selected, the CSFB
services initiated by
UEs of AC 14 in idle
mode are barred.
AC15BARSTATE: If
this option is
selected, the CSFB
services initiated by
UEs of AC 15 in idle
mode are barred.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
NO
LOFD-002012 /
TDLOFD-002012
LBFD-002009 /
TDLBFD-002009
Indicates whether
the cell is barred. If
the cell is barred,
the UE cannot
camp on the
serving cell. During
cell reselection, the
serving cell is not
selected as a
candidate cell.
NO
NO
Indicates whether
the cell is reserved
for future extension.
If the cell is
reserved, whether a
UE can access the
cell depends on the
access class of the
UE and its serving
PLMN. Details are
described as
follows: (1) A UE of
access class 11 or
15 treats the cell as
a candidate if the
UE is served by its
home PLMN
(HPLMN) or
equivalent home
PLMN (EHPLMN);
(2) A UE of access
class 11 or 15 treats
the cell as a barred
cell if it is not
served by its
HPLMN or
EHPLMN; (3) A UE
of an access class
within the two
ranges of 0-9 and
12-14 treats the cell
as a barred cell.
NO
Indicates whether
the cell can initiate
the intra-frequency
cell reselection
when the cell is
barred.
NOT_ALLOWED
means that the UE
cannot initiate the
intra-frequency cell
reselection, and
ALLOWED means
that the UE can
initiate the intrafrequency cell
reselection.
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002009 /
TDLBFD-002009
LBFD00201803/TDLBFD
-00201803
mode or in hybrid
RAN sharing mode
and at least one of
these cells uses the
round robin mode,
NBSLTEPLMNRou
ndSwitch under the
RanSharingAnrSwit
ch parameter must
be selected for
eNodeBs whose
cells are configured
as neighboring cells
for the local cell.
Otherwise, the local
eNodeB may
experience failures
in handing over
UEs from the local
cell to an ANRestablished
neighboring cell that
is in round robin
mode. If this
parameter is set to
NORMAL_MODE,
the cell does not
broadcast PLMNspecific information
in round robin
mode. If this
parameter is set to
RR_MODE, the cell
broadcasts PLMNspecific information
in round robin
mode.
NO
Indicates the
changing period of
cell PLMN.
NO
Indicates the start
time for
broadcasting
PLMN-specific
information in round
robin mode.
NO
NO
NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LBFD-002009 /
TDLBFD-002009
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LBFD-002009 /
TDLBFD-002009
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-070206
Indicates whether
all synchronization
procedures
repeatedly initiated
by a UE having
compatibility
problems can
trigger the RRC
connection
reconfiguration
procedure. If this
parameter is set to
CFG, all
synchronization
procedures
repeatedly initiated
by a UE having
compatibility
problems do not
trigger the RRC
connection
reconfiguration
procedure. If this
parameter is set to
NOT_CFG, all
synchronization
procedures
repeatedly initiated
by a UE having
compatibility
problems trigger the
RRC connection
reconfiguration
procedure.
NO
NO
NO
LOFD-001105 /
TDLOFD-001105
Indicates the period
during which
synchronization
procedures
repeatedly initiated
by a UE having
compatibility
problems do not
trigger the RRC
connection
reconfiguration
procedure. Multiple
synchronization
procedures initiated
by a UE having
compatibility
problems within the
period specified by
this parameter
trigger only one
RRC connection
reconfiguration
procedure.
NO
NO
NO
LOFD-001105 /
TDLOFD-001105
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a base
station.
YES
YES
NO
None
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates the local
tracking area
identity of the cell,
which uniquely
identifies an
operator's record of
tracking area
information within a
cell. This parameter
is used only in the
eNodeB and is
different from the
tracking area
identity configured
in the tracking area
list on the MME.
YES
YES
Indicates whether
the cell is reserved
for operator use.
If this parameter is
set to
CELL_RESERVED
_FOR_OP, the cell
is reserved for
operator use. UEs
of AC11 or AC15 in
their HPLMN or
EHPLMN can
consider this cell as
a candidate cell for
cell selection or
reselection. UEs of
AC11 or AC15
outside their
HPLMN/EHPLMN
and UEs of AC09/AC12-14 consider
this cell as a barred
cell during cell
selection or
reselection.
If this parameter is
set to
CELL_NOT_RESE
RVED_FOR_OP,
the cell is not
reserved for
operator use. All
UEs can consider
this cell as a
candidate cell for
cell selection or
reselection.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
percentage of
resource blocks
(RBs) occupied by
the operator on the
physical uplink
shared channel
(PUSCH) when
radio access
network (RAN)
sharing is enabled
on the eNodeB and
the cell-level RAN
sharing switch is
turned on. If the
data volume is
sufficient, the
percentage of RBs
occupied by each
operator will reach
the preset value.
Modifications on
this parameter
affect the
percentage of RBs
occupied by
operators on the
PUSCH. This
parameter takes
effect only in RAN
sharing with
common carriers
mode or in hybrid
RAN sharing mode
with more than one
CellOp MO being
configured.
NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LBFD-002009 /
TDLBFD-002009
LOFD-070206
Indicates the
percentage of
resource blocks
(RBs) occupied by
the operator on the
physical downlink
shared channel
(PDSCH) when
RAN sharing is
enabled on the
eNodeB and the
cell-level RAN
sharing switch is
turned on. If the
data volume is
sufficient, the
percentage of RBs
occupied by each
operator will reach
the preset value.
Modifications on
this parameter
affect the
percentage of RBs
occupied by
operators on the
PDSCH. This
parameter takes
effect only in RAN
sharing with
common carriers
mode or in hybrid
RAN sharing mode
with more than one
CellOp MO being
configured.
NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LBFD-002009 /
TDLBFD-002009
LOFD-070206
cell. This parameter
specifies whether to
support the
TDD/FDD cell
configured with
dedicated MME
scenario.
When this
parameter is set to
0, the TDD/FDD cell
configured with
dedicated MME
scenario is not
supported, and no
MME can be
configured for a
cell.
When this
parameter is set to
a value between 1
and 4, the
TDD/FDD cell
configured with
dedicated MME
scenario is
supported, and the
number of MMEs
for a cell can be
configured
according to the
parameter value.
An MME is uniquely
specified by the
MME group
identifier (MMEGI)
and MME code
(MMEC).
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
MMECfgNum
parameter is
greater than or
equal to 1.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
MMECfgNum
parameter is
greater than or
equal to 1.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
MMECfgNum
parameter is
greater than or
equal to 2.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
MMECfgNum
parameter is
greater than or
equal to 2.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
MMECfgNum
parameter is
greater than or
equal to 3.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
MMECfgNum
parameter is
greater than or
equal to 3.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
only when the
MMECfgNum
parameter is equal
to 4.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
when the
MMECfgNum
parameter is equal
to 4.
When setting this
parameter, ensure
that the globally
unique MME
identifier
(GUMMEI),
consisting of the
PLMN, MMEGI, and
MMEC, must be
unique.
The S1 link
between an MME
configured for a cell
and the eNodeB
supporting the cell
must be available,
and the GUMMEI of
the MME must be
specified in the
ServedGummeis
parameter of the
S1Interface MO.
Otherwise, the cell
cannot broadcast
the PLMN in system
information.
If all MMEs
configured for a cell
cannot establish S1
links to the eNodeB
supporting the cell,
the cell cannot be
established.
NO
Indicates the
percentage of
activated UEs
served by the
operator in a cell
when interfrequency load
balancing and RAN
sharing are
enabled.
Modifications on
this parameter
affect the
percentage of
activated UEs
served by
operators.
NO
Indicates the
operator index that
is broadcast in the
cell system
information.
NO
NO
NO
LOFD-001018 /
TDLOFD-001018
NO
NO
LOFD-001032 /
TDLOFD-001032
NO
YES
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates the
hysteresis for cell
reselection when
RSRP values are
used in the
evaluation. This
parameter must be
set based on the
slow fading
characteristic of the
area covered by the
cell. The greater the
slow fading
variance is, the
larger the value of
this parameter must
be set to. A larger
value of the
hysteresis results in
a larger boundary
of the serving cell
and a higher
probability of cell
reselection to
neighboring cells.
NO
Indicates whether
to set the
parameters related
to speed-dependent
cell reselection.
NO
YES
NO
NO
NO
None
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
duration in which
the mobility status
of the UE is
evaluated. This
parameter is one of
the key parameters
in deciding on the
UE mobility. A
smaller value of this
parameter may lead
to more frequent
switching among
mobility status and
lower decision
accuracy. A larger
value of this
parameter leads to
the opposite effect. NO
Indicates the extra
duration required in
the evaluation
before the UE can
enter the normalmobility state. This
parameter can
prevent UEs from
frequently switching
from the high- or
medium-mobility
state to the normalmobility state, and
is one of the key
parameters in
deciding on the UE
mobility. A larger
value of this
parameter leads to
a lower probability
of transition from
the high- or
medium-mobility
state to the normalmobility state but
higher decision
accuracy. A smaller
value of this
parameter leads to
the opposite effect. NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates the
threshold of the
number of cell
reselections, which
is used for a UE to
enter the medium
mobility state. This
parameter is one of
the key parameters
in determining the
mobility state of the
UE. During the UE
mobility evaluation,
if the number of cell
reselections is
greater than this
parameter value
and is less than or
equal to the
NCellChangeHigh
parameter value,
the UE enters the
medium mobility
state.
NO
Indicates the
threshold of the
number of cell
reselections, which
is used for a UE to
enter the high
mobility state. This
parameter is one of
the key parameters
in determining the
mobility state of the
UE. During the UE
mobility evaluation,
if the number of cell
reselections is
greater than this
parameter value,
the UE enters the
high mobility state. NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
scaling factor (or
known as additional
hysteresis) applied
to Qhyst for
medium-mobility
UEs. For details,
see 3GPP TS
36.304 and 3GPP
TS 36.331.
NO
Indicates the
scaling factor (or
known as additional
hysteresis) applied
to Qhyst for highmobility UEs. For
details, see 3GPP
TS 36.304 and
3GPP TS 36.331.
NO
Indicates whether
to set the
measurement
triggering threshold
for reselection to
inter-frequency or
inter-RAT cells. If
this parameter is
set to NOT_CFG,
the UE continuously
measures intrafrequency or interRAT cells,
irrespective of the
signal quality of the
serving cell.
NO
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
measurement
triggering threshold
for reselection to
inter-frequency or
inter-RAT cells. If
the cell reselection
priority of a
frequency or RAT is
higher than that of
the serving
frequency, the UEs
always start interfrequency or interRAT
measurements. If
the cell reselection
priority of a
frequency is lower
than or equal to that
of the serving
frequency or if the
cell reselection
priority of an RAT is
lower than that of
the serving
frequency, the UEs
start inter-frequency
or inter-RAT
measurements only
when the value of
Cell selection RX
level value (dB) is
lower than or equal
to the value of this
parameter.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
threshold used in
the evaluation of
reselection to a cell
on a lower priority
E-UTRAN
frequency or on an
inter-RAT
frequency. Cell
reselection to a cell
on a lower priority
E-UTRAN
frequency or on an
inter-RAT frequency
is performed if no
cell on the serving
frequency or on a
higher priority EUTRAN frequency
fulfills criteria 1 for
inter-frequency and
inter-RAT
reselections. For
details, see 3GPP
TS 36.304.
NO
Indicates the cell
reselection priority
of the serving
frequency. 0
indicates the lowest
priority. The value
of this parameter
must be determined
together with the
priorities of other
frequencies during
the network
planning.
Frequencies used
for different RATs
must be assigned
different cell
reselection
priorities.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
minimum required
RX level used in
intra-frequency EUTRAN cell
reselection, which
corresponds to the
IE q-RxLevMin in
SIB3. This value is
included in the cell
reselection criteria
and used in the
evaluation of cell
reselection. For
details, see 3GPP
TS 36.304.
NO
Indicates whether
to configure the
maximum TX power
of the UE in the
intra-frequency
neighboring cell. If
the value of this
parameter is not
specified, the
maximum power is
subject to the UE
capability.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
maximum power
that the UE can
apply to
transmission in the
intra-frequency
neighboring cell. It
is used in cell
reselection criteria
to calculate the
compensated
power. If the value
of this parameter is
not specified, the
maximum power is
subject to the UE
capability. For
details, see 3GPP
TS 36.304.
NO
Indicates whether
to set the
measurement
triggering threshold
for reselection to
intra-frequency
cells.
NO
Indicates the
measurement
triggering threshold
for reselection to
intra-frequency
cells.
The UEs start intrafrequency
measurements only
if the value of Cell
selection RX level
value (dB) is lower
than or equal to the
value of this
parameter.
NO
Indicates whether
to set the
measurement
bandwidth.
NO
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
measurement
bandwidth on the
serving frequency
on which the UE
camps. It is used in
intra-frequency
measurements for
cell reselection and
those by UEs in
RRC_CONNECTE
D mode. This
parameter is
optional; if it is not
set, the downlink
bandwidth of the
serving cell is used
by default.
NO
Indicates the
evaluation period
for a UE to
determine whether
to perform cell
reselections to a
new E-UTRAN cell.
If the signal quality
of a new E-UTRAN
cell is better than
that of the serving
cell within the
period specified by
this parameter and
a UE camps on the
serving cell for
more than 1s, the
UE initiates cell
reselections to the
new E-UTRAN cell. NO
Indicates whether
to set the scaling
parameters for
speed-dependent
cell reselection
within E-UTRAN.
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
scaling factor
applied to
TReselEutra for
medium-mobility
UEs. The actual
duration of cell
reselection for
medium-mobility
UEs to E-UTRAN is
equal to the product
of TReselEutra and
TReselEutranSfMe
dium.
NO
Indicates the
scaling factor
applied to
TReselEutran for
high-mobility UEs.
The actual duration
of cell reselection of
high-mobility UEs to
E-UTRAN is equal
to TReselEutran
multiplied by
TReselEutranSfHig
h.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
information related
to MBSFN and TDD
UL/DL
configurations of
intra-frequency
neighboring cells of
the serving cell.
BitString00:
Indicates that some
neighboring cells
have the same
MBSFN subframe
configuration as the
serving cell.
BitString01:
Indicates that none
of the neighboring
cells is configured
with MBSFN
subframes.
BitString10:
Indicates that the
MBSFN subframe
configurations of all
neighboring cells
are the same as or
subsets of that of
the serving cell.
BitString11:
Indicates that some
neighboring cells
have different ULDL configurations
from the serving
TDD cell.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates whether
all the intrafrequency
neighboring cells
are configured with
at least two
antenna ports.
Set this parameter
to
BOOLEAN_TRUE
when all the intrafrequency
neighboring cells
are configured with
at least two
antenna ports.
Set this parameter
to
BOOLEAN_FALSE
when one of the
intra-frequency
neighboring cells is
configured with only
one antenna port. NO
Indicates the RSRQ
threshold for
starting intrafrequency
measurements. It
determines the
probability of
triggering cell
reselection to an
intra-frequency
neighboring cell.
For details, see
3GPP TS 36.304.
NO
Indicates the RSRQ
threshold for
starting interfrequency or interRAT
measurements. It
determines the
probability of
triggering cell
reselection to an
inter-frequency or
inter-RAT
neighboring cell.
For details, see
3GPP TS 36.304.
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates whether
to set the RSRQ
threshold for
reselection to cells
on the serving
frequency.
NO
Indicates the RSRQ
threshold for cell
reselection to cells
on lower-priority
frequencies. It
determines the
probability of
triggering cell
reselection to interfrequency or interRAT neighboring
cells on lowerpriority frequencies.
For details, see
3GPP TS 36.304.
NO
Indicates whether
to set cell
reselection
parameters in
compliance with
3GPP Release 9 in
SIB3.
NO
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates the
minimum required
RX signal quality
used in intrafrequency EUTRAN cell
reselection, which
corresponds to the
IE q-QualMin in
SIB3. This value is
included in criteria
R and used in the
evaluation of cell
reselection. For
details, see 3GPP
TS 36.304.
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates whether
to configure the
CDMA2000 system
time information.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
YES
NO
None
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
NO
Indicates the
network
synchronization
status. If this
parameter is set to
BOOLEAN_TRUE,
the E-UTRAN and
the CDMA2000
RAN are
synchronized
without drifts. If this
parameter is set to
BOOLEAN_FALSE,
the E-UTRAN and
the CDMA2000
RAN are not
synchronized. For
details, see 3GPP
TS 36.331.
NO
Indicates whether
to set the search
window size. For
details, see 3GPP
TS 36.331.
NO
Indicates the size of
the CDMA2000
search window, and
can be used to
assist in searching
for the neighboring
pilots. For details,
see 3GPP TS
36.331.
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001090 /
TDLOFD-001090
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
Indicates whether
the eNodeB
contains the
information about
CDMA2000 HRPD
in SIB8. If this
parameter is set to
CFG, the eNodeB
contains the
parametersHRPD
field in SIB8. If this
parameter is set to
NOT_CFG, the
eNodeB does not
contain the
parametersHRPD
field in SIB8. For
details, see 3GPP
TS 36.331.
NO
Indicates whether
to set the
parameters related
to cell reselection to
CDMA2000 HRPD. NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
Indicates the
evaluation period
for a UE to
determine whether
to reselect a
neighboring
CDMA2000 HRPD
cell to camp on.
During the
evaluation period, if
the signal quality in
a neighboring
CDMA2000 HRPD
cell is better than
that in the serving
cell and a UE
camps on the
serving cell for
more than 1s, the
UE attempts to
reselect the
neighboring
CDMA2000 HRPD
cell to camp on. For
details about this
parameter, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
Indicates whether
to set the speeddependent scaling
parameters related
to cell reselection to
CDMA2000 HRPD.
For details, see
3GPP TS 36.331.
NO
Indicates the
scaling factor
applied to
TReselCdmaHrpd
for high-mobility
UEs. The actual
duration of cell
reselection of highmobility UEs to
CDMA2000 HRPD
is equal to
TReselCdmaHrpd
multiplied by
TReselCdmaHrpdS
fHigh. For details,
see 3GPP TS
36.331.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
Indicates the
scaling factor
applied to
TReselCdmaHrpd
for medium-mobility
UEs. The actual
duration of cell
reselection of
medium-mobility
UEs to CDMA2000
HRPD is equal to
TReselCdmaHrpd
multiplied by
TReselCdmaHrpdS
fMedium. For
details, see 3GPP
TS 36.331.
NO
Indicates whether
the eNodeB
contains the
information about
CDMA2000 1xRTT
in SIB8. If this
parameter is set to
CFG, the eNodeB
contains the
parameters1xRTT
field in SIB8. If this
parameter is set to
NOT_CFG, the
eNodeB does not
contain the
parameters1xRTT
field in SIB8. For
details, see 3GPP
TS 36.331.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
LOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
Indicates whether
the information
element (IE)
longCodeState1XR
TT is contained in
system information
message 8 (SIB8).
When this
parameter is set to
CFG(Configure),
the IE
longCodeState1XR
TT is contained in
SIB 8. When this
parameter is set to
NOT_CFG(Not
configure), the IE
longCodeState1XR
TT is not contained
in SIB 8. The
CDMA2000 1xRTTspecific long code
state is
automatically
generated based on
system time. For
details, see 3GPP
TS 36.331.
NO
Indicates whether
the parameters
applicable only for
cell reselection to
CDMA2000 1xRTT
need to be set.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001090 /
TDLOFD-001090
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
Indicates the
evaluation period
for a UE to
determine whether
to reselect a
neighboring
CDMA2000 1xRTT
cell to camp on.
During the
evaluation period, if
the signal quality in
a neighboring
CDMA2000 1xRTT
cell is better than
that in the serving
cell and a UE
camps on the
serving cell for
more than 1s, the
UE attempts to
reselect the
neighboring
CDMA2000 1xRTT
cell to camp on. For
details about this
parameter, see
3GPP TS 36.331.
NO
Indicates whether
speed-dependent
scaling parameters
need to be set for
cell reselection to
CDMA2000 1xRTT. NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
Indicates the
scaling factor
applicable to cell
reselection of
medium-mobility
UEs to CDMA2000
1xRTT. For details,
see 3GPP TS
36.331.
NO
Indicates the
scaling factor
applicable to cell
reselection of highmobility UEs to
CDMA2000 1xRTT.
For details, see
3GPP TS 36.331.
NO
Indicates whether
to configure the
network capability
of dual-receiver
enhanced circuit
switched fallback
(CSFB). For details,
see 3GPP TS
36.331.
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
LBFD-002009 /
TDLBFD-002009
TDLOFD-001090
NO
LOFD001035/TDLOFD001035
Indicates whether
the network
supports dualreceiver enhanced
circuit switched
fallback (CSFB) to
CDMA2000 1xRTT.
If this parameter is
set to
BOOLEAN_TRUE,
the network
supports dualreceiver enhanced
CSFB to
CDMA2000 1xRTT.
For details, see
3GPP TS 36.331.
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates the
evaluation period
for a UE to
determine whether
to reselect a
neighboring
GERAN cell to
camp on. During
the evaluation
period, if the signal
quality in a
neighboring
GERAN cell is
better than that in
the serving cell and
a UE camps on the
serving cell for
more than 1s, the
UE attempts to
reselect the
neighboring
GERAN cell to
NO
camp on.
NO
NO
LOFD001035/TDLOFD001035
YES
NO
None
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
Indicates whether
to set the speeddependent scaling
parameters related
to cell reselection to
GERAN.
NO
Indicates the
scaling factor
applied to
TReselGeran for
medium-mobility
UEs. The actual
duration of cell
reselection of
medium-mobility
UEs to GERAN is
equal to
TReselGeran
multiplied by
TReselGeranSfMed
ium.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
scaling factor
applied to
TReselGeran for
high-mobility UEs.
The actual duration
of cell reselection of
high-mobility UEs to
GERAN is equal to
TReselGeran
multiplied by
TReselGeranSfHig
h.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
evaluation period
for a UE to
determine whether
to reselect a
neighboring UTRAN
cell to camp on.
During the
evaluation period, if
the signal quality in
a neighboring
UTRAN cell is
better than that in
the serving cell and
a UE camps on the
serving cell for
more than 1s, the
UE attempts to
reselect the
neighboring UTRAN
cell to camp on.
NO
Indicates whether
to set the speeddependent scaling
parameters related
to cell reselection to
UTRAN.
NO
Indicates the
scaling factor
applied to
TReselUtran for
medium-mobility
UEs. The actual
duration of cell
reselection of
medium-mobility
UEs to UTRAN is
equal to
TReselUtran
multiplied by
TReselUtranSfMedi
um.
The value
T_RESEL_SF_0DO
T25 means a
scaling factor of
0.25,
T_RESEL_SF_0DO
T5 means 0.5, and
so on.
NO
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
scaling factor
applied to
TReselUtran for
high-mobility UEs.
The actual duration
of cell reselection of
high-mobility UEs to
UTRAN is equal to
TReselUtran
multiplied by
TReselUtranSfHigh.
The value
T_RESEL_SF_0DO
T25 means a
scaling factor of
0.25,
T_RESEL_SF_0DO
T5 means 0.5, and
so on.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the
minimum required
RX level for the cell
to become a
candidate for cell
selection. This
value is included in
criteria S and used
in the evaluation of
cell selection. For
details, see 3GPP
TS 36.304.
NO
NO
Indicates the offset
to the minimum
required RX level.
This value is
included in criteria
S and used in the
evaluation of cell
selection. This
parameter is valid
only when the cell
selection is
triggered by
periodic searches
for higher-priority
PLMNs and the UE
is served by a
Visited Public Land
Mobile Network
(VPLMN). For
details, see 3GPP
TS 36.304.
NO
Indicates the
minimum required
RX signal quality for
the cell to become
a candidate for cell
selection, which
corresponds to the
IE q-QualMin in
SIB1. This value is
included in criteria
S and used in the
evaluation of cell
selection. For
details, see 3GPP
TS 36.304.
NO
Indicates whether
to set the offset to
the minimum
required RX level
for the cell.
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates the offset
to the minimum
required RX level
for the cell. It is
included in criteria
S and used in the
evaluation of cell
selection. This
parameter is
required only when
the cell selection is
triggered by
periodic searches
for higher-priority
PLMNs and the UE
is served by a
Visited Public Land
Mobile Network
(VPLMN). For
details, see 3GPP
TS 36.304.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates whether
the mapping from
SIBs to SI
messages is
enabled. If it is
disabled, a fixed
configuration is
used for the
mapping from SIBs
to SI messages and
the SI window size.
If it is enabled, the
mapping from SIBs
to SI messages and
the SI window size
are determined
based on the
transmission
period, quantity,
and data traffic of
SIBs.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 2 (SIB2). For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 3 (SIB3). For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 4 (SIB4). For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 5 (SIB5). For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 6 (SIB6). For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 7 (SIB7). For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 8 (SIB8). For
details, see 3GPP
TS 36.331.
NO
Indicates the
transmission period
for system
information block
type 10 (SIB10).
For details, see
3GPP TS 36.331.
NO
Indicates the
transmission period
for system
information block
type 11 (SIB11). For
details, see 3GPP
TS 36.331.
NO
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002029 /
TDLBFD-002029
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002029 /
TDLBFD-002029
LBFD-002009 /
TDLBFD-002009
Indicates the
duration of the
primary notification
(PN) broadcast for
the Earthquake and
Tsunami Warning
System (ETWS).
NO
NO
NO
LBFD-002029 /
TDLBFD-002029
Indicates the policy
of processing
repeated secondary
notification (SN)
broadcast for the
Earthquake and
Tsunami Warning
System (ETWS). A
repeated SN is a
second SN that has
the same IEs
Message Identifier
and Serial Number
as those in the first
SN. The value
MERGE indicates
that the cell stops
broadcasting the
first SN and then
broadcasts the
second SN. The
value DISCARD
indicates that the
cell ignores the
second SN and
continues
broadcasting the
first SN.
NO
NO
NO
LBFD-002029 /
TDLBFD-002029
Indicates the policy
of processing
repeated primary
notification (PN)
broadcast for the
Earthquake and
Tsunami Warning
System (ETWS). A
repeated PN is a
second PN that has
the same Message
Identifier and Serial
Number IEs as
those in the first
PN. If this
parameter is set to
MERGE, the
eNodeB stops
broadcasting the
first PN and starts
broadcasting the
second PN. If this
parameter is set to
DISCARD, the
eNodeB discards
the second PN and
continues
broadcasting the
first PN.
NO
Indicates the
transmission period
for system
information block
type 12 (SIB12).
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LBFD-002029 /
TDLBFD-002029
NO
LOFD-001092 /
TDLOFD-001092
LBFD-002009 /
TDLBFD-002009
Indicates the code
rate of system
information
transmission. For
details about this
parameter, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
transmission period
for system
information block
type 13 (SIB13).
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-001001 /
TDLBFD-001001
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
compensation
factor for path loss.
It is used in UL
power control. For
details, see 3GPP
TS 36.213.
NO
Indicates the target
UE transmit power
for the PUCCH
expected by the
eNodeB on
condition that
normal
demodulation can
be performed. For
details, see 3GPP
TS 36.213.
NO
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
Indicates the
nominal P0 value of
the PUSCH. It is
used in UL power
control. For details,
see 3GPP TS
36.213.
NO
Indicates the Delta
value
corresponding to
PUCCH format 1.
For details, see
3GPP TS 36.213.
Indicates the Delta
value
corresponding to
PUCCH format 1b.
For details, see
3GPP TS 36.213.
NO
NO
NO
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
Indicates the Delta
value
corresponding to
PUCCH format 2.
For details, see
3GPP TS 36.213.
Indicates the Delta
value
corresponding to
PUCCH format 2a.
For details, see
3GPP TS 36.213.
Indicates the Delta
value
corresponding to
PUCCH format 2b.
For details, see
3GPP TS 36.213.
NO
NO
NO
NO
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
Indicates the power
offset (delta value)
of message 3
relative to the
preamble. This
power offset has a
step size of 2. For
details, see 3GPP
TS 36.213.
NO
NO
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the local
tracking area
identity of the cell,
which uniquely
identifies an
operator's record of
tracking area
information within a
cell. This parameter
is used only in the
eNodeB and is
different from the
TAI configured in
the TAL on the
MME.
YES
YES
NO
None
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the ID of
the primary
baseband
equipment that
serves a cell.
If the primary
baseband
equipment is not
configured for a
cell, the eNodeB
selects baseband
processing units for
the cell among all
baseband
processing units
that have not been
bound to cells.
If this parameter is
normally
configured, the cell
uses specified
primary baseband
equipment. In this
case, the cell can
use only the
baseband
processing units
included in the
primary baseband
equipment.
NO
YES
NO
None
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the ID of
the sector device
that serves the
cell,it uniquely
identifies a sector
device within an
eNodeB.
YES
Indicates the
reference signal
power of the cell
sector device. The
value 32767
indicates that this
reference signal
power parameter is
invalid. In this case,
the reference signal
power of the cell
equals the value of
the PDSCHCfg
parameter. For
details, see 3GPP
TS 36.213.This
parameter is valid
only when a multiRRU cell works in
SFN,MPRU_AGGR
EGATION or cell
combination mode. NO
YES
NO
None
NO
NO
None
Indicates the ID of
the baseband
equipment serving
a cell.
When this
parameter is set to
255, the baseband
equipment serving
a cell is not
specified. In this
scenario, the LTE
baseband
processing units
(LBBPs) serving a
cell are selected
among all LBBPs in
the eNodeB, and
the LBBPs to which
the cell's serving
RRU is connected
are preferentially
selected.
When this
parameter is set to
a value other than
255, the cell is
served by LBBPs in
the specified
baseband
equipment, and the
LBBPs to which the
cell's serving RRU
is connected are
preferentially
selected.
NO
NO
NO
None
Indicates the
cabinet number of
the RRU.
NO
NO
YES
None
Indicates the
subrack number of
the RRU.
NO
NO
YES
None
Indicates the slot
number of the RRU. NO
NO
YES
None
Indicates the
received total
wideband power
(RTWP) for the
carrier. The normal
value range is from
-110 dBm to -40
dBm. The RRU
cannot work
properly if the value
is out of range.
NO
Indicates the RX
channel number of
the RRU. An RRU
is configured with
multiple RX
channels.
cell. This parameter NO
takes effect only
when the
MultiRruCellFlag
parameter is set to
BOOLEAN_TRUE
and the
MultiRruCellMode
parameter is set to
SFN or
CELL_COMBINATI
ON.
If this parameter is
set to 0, the
reference signal
power headroom
for the sector
device serving the
cell is subject to the
power headroom
configured in the
PDSCHCFG MO
rather than the
parameter setting. If
this parameter is
set to a non-zero
value, the reference
signal power
headroom for the
sector device
serving the cell is
subject to the
parameter setting
rather than the
power headroom
configured in the
PDSCHCFG MO.
NO
NO
YES
None
NO
YES
None
NO
NO
None
compression types
can be used for
sectors using the
same RRU chain
that is connected to
UBBPd boards.
When the value of
this parameter is
changed, the cell
corresponding to
this sector are
automatically
reactivated.
This parameter is
used only when
MultiRruCellMode is
set to SFN or
CELL_COMBINATI
ON, and the value
of this parameter
depends on the
sector. When this
parameter is set to
NULL, the CPRI
compression type
of carriers depends
on the value of
CPRICompression.
When this
parameter is set to
any other value, the
sector CPRI
compression type
of carriers depends
on the value of
SectorCpriCompres
sion.
NO
NO
NO
TDLOFD-001076
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the group
ID of the sector
devices that serve
the cell,it uniquely
identifies a group of
sector devices
within an eNodeB. YES
YES
NO
None
Indicates the list of
the sector devices
that serve the cell.
YES
NO
None
YES
NO
None
NO
Indicates the ID of
the sector device
that serves the cell. YES
Indicates the ID of
the baseband
equipment serving
a cell.
When this
parameter is set to
255, the baseband
equipment serving
a cell is not
specified. In this
scenario, the LTE
baseband
processing units
(LBBPs) serving a
cell are selected
among all LBBPs in
the eNodeB, and
the LBBPs to which
the cell's serving
RRU is connected
are preferentially
selected.
When this
parameter is set to
a value other than
255, the cell is
served by LBBPs in
the specified
baseband
equipment, and the
LBBPs to which the
cell's serving RRU
is connected are
preferentially
selected.
NO
NO
NO
None
Indicates the
reference signal
power of a sector
equipment group
for a cell (all sets of
sector equipment in
the sector
equipment group
have the same
reference signal
power). If this
parameter is set to
32767, the
parameter value is
invalid, and the cell
uses the reference
signal power
specified by the
ReferenceSignalPw
r parameter in the
PDSCHCfg MO.
For details, see
3GPP TS 36.213.
This parameter
takes effect only
when parameters
MultiRruCellFlag
and
MultiRruCellMode
are set to
BOOLEAN_TRUE
and
MPRU_AGGREGA
TION, respectively. NO
NO
NO
None
compression types
can be used for
sectors using the
same RRU chain
that is connected to
UBBPd boards.
When the value of
this parameter is
changed, the cell
corresponding to
this sector are
automatically
reactivated.
This parameter is
used only when
MultiRruCellMode is
set to SFN or
CELL_COMBINATI
ON, and the value
of this parameter
depends on the
sector. When this
parameter is set to
NULL, the CPRI
compression type
of carriers depends
on the value of
CPRICompression.
When this
parameter is set to
any other value, the
sector CPRI
compression type
of carriers depends
on the value of
SectorGroupCpriCo
mpression.
NO
NO
NO
TDLOFD-001076
YES
YES
NO
None
NO
NO
YES
None
Indicates the
cabinet number of
the RRU/RFU.
NO
NO
YES
None
Indicates the
subrack number of
the RRU/RFU.
NO
NO
YES
None
Indicates the slot
number of the
RRU/RFU.
NO
NO
YES
None
Indicates the local
cell identity of the
cell. It uniquely
identifies a cell
within an eNodeB.
Indicates the ID of
the eNodeB to
which the
RRU/RFU
connected.
Indicates the
number of LBBP
data links.
NO
NO
YES
None
Indicates the LBBP
data link ID.
NO
NO
YES
None
Indicates the status
of the LBBP data
link.
NO
NO
YES
None
Indicates the open
DU interface (ODI)
ID.
NO
NO
YES
None
Indicates the input
port number of the
LBBP data link.
NO
NO
YES
None
Indicates the output
port number of the
LBBP data link.
NO
NO
YES
None
Indicates the
loopback delay on
the LBBP data link. NO
NO
YES
None
Indicates the
number of loopback
timeouts on the
LBBP data link.
NO
NO
YES
None
Indicates the
cabinet number of
the board involved
in data link
transmission.
NO
NO
YES
None
NO
NO
YES
None
NO
NO
YES
None
Indicates the
subrack number of
the board involved
in data link
transmission.
Indicates the slot
number of the
board involved in
data link
transmission.
value
BIDIRECTIONAL
indicates that a
data link is
bidirectional, that is,
the BBP data can
be transmitted
between the input
port of the BBP
data link (source
port) and the output
port of the BBP
data link (target
port). The
parameter value
FORWARD_DIREC
TION indicates that
the BBP data can
be transmitted only
from the input port
of the BBP data link
(source port) to the
output port of the
BBP data link
(target port). The
parameter value
BACKWARD_DIRE
CTION indicates
that the BBP data
can be transmitted
only from the input
port of the BBP
data link (target
port) to the output
port of the BBP
data link (source
port).
NO
NO
YES
None
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the length
of the uplink time
alignment timer for
UEs in the cell. A
UE is considered
not time-aligned in
the uplink if the
timer expires.
NO
NO
NO
None
This ensures the
uplink time
alignment
performance if the
length of the uplink
time alignment
timer is set to a
large value.
If this parameter is
set to ON, it is
recommended that
the
TimeAlignmentTime
r parameter be set
to SF10240. A
smaller value of the
TimeAlignmentTime
r parameter, such
as SF5120, leads to
a higher probability
of becoming out-ofsynchronization in
the uplink for UEs
in DRX mode.
If this parameter is
set to ON, it is
recommended that
the LongDrxCycle
parameter be
smaller than or
equal to SF320.
Otherwise, the
uplink time
alignment
performance of UEs
in DRX mode is
affected.
NO
NO
NO
None
regardless of the
actual parameter
setting. That is, the
eNodeB always
sends the Timing
Advance Command
to UEs. In this case,
it is recommended
that the
TimeAlignmentTime
r parameter be set
to SF10240. The
value
ALLMEASMODE
applies only to LTE
FDD cells. The
parameter value
INVALID takes
effect in a cell
regardless of the
actual parameter
setting in any of the
following scenarios:
(1) The cell is
established on an
LBBPc; (2) The
UlCyclicPrefix
parameter is set to
EXTENDED_CP;
(3) The
HighSpeedFlag
parameter is set to
HIGH_SPEED,
ULTRA_HIGH_SPE
ED or
EXTRA_HIGH_SPE
ED.
NO
NO
NO
LBFD-070101
Indicates the
interval for sending
the Timing Advance
Command to UEs.
This parameter
needs to be set
only when the
TimingAdvCmdOpt
Switch parameter is
set to ON. If this
parameter is set to
Invalid, none of
parameter settings
in the MML
Command window
takes effect.
NO
NO
NO
None
for uplink timing. If
this parameter is
set to ON, the value
ON of the
TimingAdvCmdOpt
Switch parameter in
the
TimeAlignmentTime
r MO always takes
effect. Therefore, it
is recommended
that the
TimeAlignmentTime
r parameter in the
TimeAlignmentTime
r MO be set to
SF10240. If the
TimeAlignmentTime
r parameter is set to
any other values,
the mechanism of
optimized DMRS
scheduling for
uplink timing does
not take effect or
does not meet
expectations. This
parameter applies
only to LTE FDD
cells. The
parameter value
ON is
recommended in
heavily loaded cells
where there is a
large number of
UEs.
NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the timer
value of Timer 300.
For details, see
3GPP TS 36.331.
This timer is started
when the UE sends
RRCConnectionRe
quest.
Before the timer
expires, it is
stopped if the UE
receives
RRCConnectionSet
up or
RRCConnectionRej
ect.
After the timer
expires, the UE
enters the
RRC_IDLE state.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the length
of timer 301. For
details, see 3GPP
TS 36.331.
This timer is started
when the UE sends
an RRC Connection
Reestablishment
Request message.
The timer is
stopped if, before it
expires, the UE
receives an RRC
Connection
Reestablishment or
RRC Connection
Reestablishment
Reject message.
The timer is also
stopped if the
selected cell
becomes an
unsuitable cell. For
the definition of a
suitable cell, see
3GPP TS 36.331.
After the timer
expires, the UE
enters the
RRC_IDLE mode. NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the length
of timer 310. For
details, see 3GPP
TS 36.331.
This timer is started
when the UE
detects any fault at
the physical layer.
The timer is
stopped if the UE
detects one of the
following before the
timer expires: (1)
The physical-layer
fault is rectified; (2)
A handover is
triggered; (3) The
UE initiates an RRC
connection
reestablishment
procedure.
After the timer
expires, the UE
enters the
RRC_IDLE mode if
the security mode is
not activated. If the
security mode is
activated, the UE
initiates an RRC
connection
reestablishment
procedure.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the length
of timer 311. For
details, see 3GPP
TS 36.331.
This timer is started
when the UE starts
the RRC
connection
reestablishment
procedure.
The timer is
stopped if, before
the timer expires,
the UE selects an
E-UTRAN or interRAT cell to camp
on.
After the timer
expires, the UE
enters the
RRC_IDLE mode. NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
maximum number
of successive "in
sync" indications
received from L1.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
maximum number
of successive "out
of sync" indications
received from L1.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the name
of the cell.
NO
Indicates whether
the cell is a closed
subscriber group
(CSG) cell. A CSG
cell has restrictions
on UE access. It
broadcasts a
specific CSG ID in
the SIB and only
those UEs of the
group can access
the CSG cell.
BOOLEAN_FALSE
indicates that the
cell is not a CSG
cell, and
BOOLEAN_TRUE
indicates that the
cell is a CSG cell.
Currently, Huawei
eNodeBs do not
support CSG cells. NO
YES
NO
NO
None
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201803 /
TDLBFD-00201803
Indicates the UL
cyclic prefix length
of a cell. A cyclic
prefix can be a
common or
extended cyclic
prefix. An extended
cyclic prefix is
generally used in a
complex
environment with a
strong multi-path
effect and long
delay. In a cell, the
UL cyclic prefix
length can be
different from the
DL one. In addition,
the UL or DL cyclic
prefix length of a
cell must be the
same as that of the
cell using the same
LBBP. For details,
see 3GPP TS
36.211.
NO
NO
NO
LBFD-00100401 /
TDLBFD-00100401
LOFD-001031 /
TDLOFD-001031
LBFD-002009 /
TDLBFD-002009
Indicates the length
of the DL cyclic
prefix of a cell. A DL
cyclic prefix can be
a common or
extended cyclic
prefix. An extended
cyclic prefix is
generally used in a
complex
environment with a
strong multi-path
effect and long
delay. In a cell, the
UL cyclic prefix
length can be
different from the
DL one. In addition,
the UL or DL cyclic
prefix length of a
cell must be the
same as that of the
cell using the same
LBBP. For details,
see 3GPP TS
36.211.
NO
NO
NO
LBFD-00100401 /
TDLBFD-00100401
LOFD-001031 /
TDLOFD-001031
Indicates the
frequency band in
which the cell
operates. For
details about this
parameter, see
3GPP TS 36.104.
Indicates whether
to configure the
uplink EARFCN of
the cell.
NO
NO
YES
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
LBFD-070103 /
TDLBFD-00201806
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
Indicates the UL
EARFCN of the
cell. It is optional,
depending on the
setting of the UL
EARFCN
configuration
indicator
(UlEarfcnCfgInd). If
the value of this
parameter is not
specified, the
default UL EARFCN
is used, which is
calculated based on
the DL EARFCN.
For details, see
3GPP TS 36.104.
NO
Indicates the DL
EARFCN of the
cell. For details, see
the 3GPP TS
36.104.
NO
NO
YES
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201803 /
TDLBFD-00201803
Indicates the UL
bandwidth of the
cell, which is based
on the number of
resource blocks
(RBs). The value
CELL_BW_N25
indicates a cell
bandwidth of 25
RBs. The value
CELL_BW_N50
indicates a cell
bandwidth of 50
RBs. The mapping
between the
parameter value
and the actual cell
bandwidth (that is,
the number of RBs)
can be deduced
similarly. For
details, see 3GPP
TS 36.104.
NO
YES
NO
LOFD-001051
LBFD-002009 /
TDLBFD-002009
TDLBFD-001003
Indicates the DL
bandwidth of the
cell, which is based
on the number of
resource blocks
(RBs). The value
CELL_BW_N25
indicates a cell
bandwidth of 25
RBs. The value
CELL_BW_N50
indicates a cell
bandwidth of 50
RBs. The mapping
between the
parameter value
and the actual cell
bandwidth (that is,
the number of RBs)
can be deduced
similarly. For
details, see 3GPP
TS 36.104.
NO
YES
NO
LOFD-001051
LBFD-002009 /
TDLBFD-002009
TDLBFD-001003
Indicates the ID of
the E-UTRAN cell.
The combination of
this parameter and
the eNodeB ID
forms the E-UTRAN
cell identity. The
combination of the
E-UTRAN cell
identity and the
PLMN identity
forms the ECGI.
For details, see
3GPP TS 36.413.
NO
YES
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
physical cell ID. For
details, see 3GPP
TS 36.331.
NO
YES
NO
LOFD-001051
LBFD-002009 /
TDLBFD-002009
Indicates the
additional spectrum
emission, which
restricts the
emission power of
the UEs in the cell.
For details, see the
3GPP TS 36.101.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the active
state of the cell. It
consists of the
activated and
deactivated states. NO
NO
NO
None
Indicates the
administrative state
of the cell. If this
parameter is set to
CELL_HIGH_BLOC
K, the cell is
deactivated
immediately. If this
parameter is set to
CELL_MIDDLE_BL
OCK, the cell is
deactivated when it
has no user to
serve during the
period specified by
the CellMidBlkTimer
parameter, or is
deactivated when
the timer expires
irrespective of
whether it has users
to serve. If this
parameter is set to
CELL_LOW_BLOC
K, the cell is
deactivated only
when the cell has
no user to serve.
NO
NO
NO
None
Indicates the length
of the timer used to
determine whether
to block a middleblocking-priority
cell. If
CellAdminState is
set to
CELL_MIDDLE_BL
OCK, the cell is
deactivated when
no user accesses
the cell during the
period of time
specified by this
parameter. The cell
is also deactivated
if the timer expires. NO
NO
NO
None
Indicates the duplex
mode of the cell.
CELL_FDD
indicates the FDD
mode, and
CELL_TDD
indicates the TDD
mode.
NO
YES
NO
LBFD-002009
TDLBFD-001007
TDLBFD-00100701
TDLBFD-00100702
TDLOFD-001026
TDLOFD-00102601
TDLOFD-00102602
TDLOFD-00102603
Indicates the ratio
of UL subframes to
DL subframes in a
TDD cell. For
details, see 3GPP
TS 36.211.
NO
NO
NO
LBFD-002009
TDLBFD-001007
TDLBFD-00100701
TDLBFD-00100702
TDLOFD-001026
TDLOFD-00102601
TDLOFD-00102602
TDLOFD-00102603
Indicates the ratio
of special UL
subframes to
special DL
subframes in a TDD
cell. For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009
TDLBFD-001007
TDLBFD-00100701
TDLBFD-00100702
TDLOFD-001026
TDLOFD-00102601
TDLOFD-00102602
TDLOFD-00102603
Indicates the cell
specific offset for
the serving cell. It
affects the
probability of
triggering
handovers from the
serving cell to its
neighboring cells. A
smaller value of this
parameter leads to
a higher probability.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
TDLBFD-002018
TDLBFD-00201802
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001019
TDLOFD-001043
TDLOFD-001072
TDLOFD-001020
TDLOFD-001046
TDLOFD-001073
Indicates the
specific frequency
offset of the serving
cell. This parameter
is contained in the
measurement
control information
and is related to the
handover difficulty
between the serving
cell and the
neighboring cell.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201801
LBFD-00201803
TDLBFD-002018
TDLBFD-00201802
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001019
TDLOFD-001043
TDLOFD-001072
TDLOFD-001020
TDLOFD-001046
TDLOFD-001073
Indicates the first
logical root
sequence, which is
used to generate
the preamble
sequence. Each
logical root
sequence
corresponds to a
physical root
sequence. For the
mapping between
logical root
sequences and
physical root
sequences, see
3GPP TS 36.211.
NO
YES
NO
LBFD-002010 /
TDLBFD-002010
Indicates the speed
flag of the cell. Set
this parameter to
ULTRA_HIGH_SPE
ED if the cell is
used to provide
coverage for an
ultra-high-speed
railway. Set this
parameter to
HIGH_SPEED if the
cell is used to
provide coverage
for a high way. Set
this parameter to
LOW_SPEED in
other
scenarios.TDD cells
with a bandwidth of
5 MHz or in 8T8R
mode can only be
configured as low
speed cells.
NO
NO
NO
LOFD-001007 /
TDLOFD-001007
LOFD-001008
Indicates the
preamble format
used in the cell. For
details, see 3GPP
TS 36.211.
NO
NO
NO
LBFD-002010 /
TDLBFD-002010
Indicates the radius
of the cell.
NO
NO
NO
LBFD-002010 /
TDLBFD-002010
Indicates whether
to configure
bandwidth
customization for
the cell. Bandwidth
customization is
available only when
the bandwidth is 5
MHz, 10 MHz, 15
MHz, or 20 MHz.
NO
NO
NO
LOFD-001051
Indicates the
customized UL cell
bandwidth.
Bandwidth
customization is
available only when
the bandwidth is 5
MHz, 10 MHz, 15
MHz, or 20 MHz.
NO
NO
NO
LOFD-001051
Indicates the
customized DL cell
bandwidth.
Bandwidth
customization is
available only when
the bandwidth is 5
MHz, 10 MHz, 15
MHz, or 20 MHz.
NO
Indicates whether
to set an
emergency area ID. NO
NO
NO
NO
LOFD-001051
NO
LBFD-002029 /
TDLBFD-002029
LOFD-001092 /
TDLOFD-001092
LBFD-002009 /
TDLBFD-002009
Indicates the ID of
the notification area
within which a
warning notification
is broadcast. The
area consists of
one or more cells
and can be
customized by
operators. For
details about this
parameter, see
3GPP TS 36.413.
NO
Indicates whether
to configure the
maximum TX power
of the UE in the
cell. If the value of
this parameter is
not specified, the
maximum power is
subject to the UE
capability.
NO
Indicates the
maximum transmit
power that a UE
can apply to uplink
transmission in the
cell. It is used in cell
selection criterion S
to calculate the
compensated
power. If the value
of this parameter is
not specified, the
maximum power is
subject to the UE
capability. For
details, see 3GPP
TS 36.304.
NO
NO
NO
NO
NO
LBFD-002029 /
TDLBFD-002029
LOFD-001092 /
TDLOFD-001092
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
NO
LBFD-002026 /
TDLBFD-002026
LBFD-002009 /
TDLBFD-002009
Indicates whether
to enable or disable
the multi-RRU cell
feature.
NO
NO
NO
LOFD-003029 /
TDLOFD-001075
TDLOFD-002008
TDLOFD-001098
TDLOFD-001080
TDLOFD-001081
TDLOFD-001082
Indicates the type
of the multi-RRU
cell.
NO
NO
NO
LOFD-003029 /
TDLOFD-001075
TDLOFD-001075
TDLOFD-002008
TDLOFD-001098
TDLOFD-001080
TDLOFD-001081
TDLOFD-001082
indicates that
enhanced CPRI
compression is
used(Enhanced
CPRI compression
does not take effect
in V100R007C00. If
this parameter is
set to
ENHANCED_COM
PRESSION in
V100R007C00,
CPRI compression
takes effect in the
same way as when
this parameter is
set to
NORMAL_COMPR
ESSION.). This
parameter must be
set to the same
value for all cells
served by RRUs on
an RRU chain or
ring. Before
changing the value
of this parameter
for a cell served by
an RRU chain or
ring, ensure that all
cells served by the
RRU chain or ring
are deactivated.
Activate the cells
after you change
the parameter
value.
NO
NO
NO
LOFD-001076 /
TDLOFD-001076
Indicates the
number of sector
devices that serve
an SFN cell.
NO
NO
None
NO
Indicates whether
the cell is an air
cell.
NO
NO
NO
None
Indicates the
number of ports for
transmitting
reference signals in
a cell. As specified
in protocols, the
CRS Port Number
parameter can be
set to 1, 2, or 4.
(CRS is short for
Cell Reference
Signal.) The value 1
indicates that one
CRS port (port 0) is
configured. The
value 2 indicates
that two CRS ports
(port 0 and port 1)
are configured. The
value 4 indicates
that four CRS ports
(port 0, port 1, port
2, and port 3) are
configured.
NO
NO
NO
None
Indicates the
transmission and
reception mode of
the cell.
NO
YES
NO
None
Indicates the user
label of the cell.
NO
NO
NO
None
Indicates the work
mode of the cell.
The DL_ONLY
mode applies only
to the carrier
aggregation
scenario.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
TDLAOFD-001003
TDLAOFD-001002
Indicates the active
or standby mode of
the cell. A cell is in
active mode by
default. The
standby mode
applies to LTE TDD.
If this parameter is
set to STANDBY, an
inter-BBU SFN
auxiliary cell can roll
back to the standby
mode to provide
services if interBBU faults occur.
Only common or
SFN cells support
the standby mode. NO
NO
NO
LBFD-002009 /
TDLBFD-002009
over CRS port 0 are
mapped to TX
channels 1 and 3 in
an RRU, and
reference signals
transmitted over
CRS port 1 are
mapped to TX
channels 2 and 4 in
an RRU. The
parameter value
NOT_CFG
indicates that the
mapping between a
CRS port and a TX
channel in an RRU
is not configured,
and reference
signals transmitted
over CRS ports are
mapped to TX
channels in an RRU
in a one-to-one
manner in order. In
TDD cells, "n" in
mTnP must be
equal to the
CrsPortNum
parameter value.
For cells
established on
LBBPc boards, the
parameter value
NOT_CFG takes
effect regardless of
the actual
parameter setting. NO
NO
NO
LOFD-001003 /
TDLOFD-001003
LOFD-001060 /
TDLOFD-001060
Indicates the
compression ratio
of data transmitted
on the CPRI port
over Ethernet for an
MPRU aggregation
cell. Data
compression on the
CPRI port over
Ethernet reduces
the bandwidth of
LTE data on the
Ethernet cable
between the RHUB
and MPRUs, and
therefore the
Ethernet cable
supports more
carriers of different
RATs. The
parameter values
2_TO_1 and
3_TO_1 indicate
ratios of 2:1 and
3:1, respectively.
NO
NO
NO
None
Indicates the state
of the cell instance. NO
NO
YES
None
Indicates the
reason that causes
the latest state
change of the cell,
which can be a cell
activation success
or a cell setup
failure.
NO
NO
YES
None
Indicates the latest
setup time of the
cell.
NO
YES
None
NO
Indicates the latest
setup type of the
cell.
NO
NO
YES
None
Indicates the latest
remove time of the
cell.
NO
NO
YES
None
Indicates the latest
remove type of the
cell.
NO
NO
YES
None
Indicates the
energy
conservation and
emission reduction
mode of the cell.
The energy
conservation and
emission reduction
mode of the cell
can be set to RF
intelligent shutdown
mode, intelligent
power-off of carriers
mode, low power
consumption mode,
RF module regular
time sleep mode,
inter-RAT cell
shutdown mode, or
dynamic adjust
voltage mode.
NO
NO
YES
None
Indicates the
cabinet number,
subrack number
and slot number of
the primary LBBP
that serves the cell. NO
NO
YES
None
Indicates the
topology of the cell. NO
NO
YES
None
Indicates the
cabinet number of
the RF module that
serves the cell.
NO
NO
YES
None
Indicates the
subrack number of
the RF module that
serves the cell.
NO
NO
YES
None
Indicates the slot
number of the RF
module that serves
the cell.
NO
NO
YES
None
Indicates whether
the cell is in the
symbol power
saving state.
NO
YES
None
NO
Indicates the
maximum transmit
power of the cell in
theory. The value
65535 indicates
that this parameter
is invalid, which can
be changed by
modifying the
physical downlink
shared channel
(PDSCH)
configuration or the
PA parameter
related to power
control for the
PDSCH.
NO
NO
YES
None
Indicates the ID of
the eNodeB.
NO
NO
YES
None
Indicates the
cabinet number of
the LBBP that
serves the cell.
NO
NO
YES
None
Indicates the
subrack number of
the LBBP that
serves the cell.
NO
NO
YES
None
Indicates the slot
number of the
LBBP that serves
the cell.
NO
NO
YES
None
Indicates the work
status of the RF
module and LBBP
that serves the cell. NO
NO
YES
None
Indicates the local
cell identity of the
uplink coordinating
cell.
NO
YES
None
NO
Indicates slave
frequency bands of
a cell. If the
operating frequency
of a cell belongs to
multiple frequency
bands, the
frequency band with
the highest priority
is configured by the
FreqBand
parameter, and
frequency bands
with other priorities
are configured by
the CellSlaveBand
parameter and
added in
descending order
based on frequency
band priorities. The
frequency band
priorities of a cell
are determined in
network planning. It
is recommended
that the frequency
bands supporting
UEs that comply
with 3GPP TS
36.331 V8.16.0,
3GPP TS 36.331
V9.1.0, 3GPP TS
36.331 V10.5.0, or
a later vision be
configured as slave
frequency bands.
NO
YES
NO
LBFD-070103 /
TDLBFD-00201806
Indicates the
frequency band in
which the cell
operates. For
details about this
parameter, see
3GPP TS 36.104.
YES
NO
None
YES
Indicates the ID of
the eNodeB
operator group that
shares the cell. This
parameter must be
set to a value within
the range of 0 and
5 if the eNodeB
works in hybrid
RAN sharing mode.
This parameter
must be set to 255
(indicating an
invalid value) in
independent RAN
sharing mode, RAN
sharing with
dedicated carriers,
or RAN sharing with
common carriers.
NO
NO
NO
LOFD-070206
Indicates the
cabinet, subrack,
and slot where the
RF module serves
the cell is located.
NO
NO
YES
None
Indicates the
cabinet, subrack,
and slot of the
baseband
processing unit on
which the cell is set
up is located.
NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by one RRU)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by two RRUs)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by three RRUs)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by four RRUs)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by five RRUs)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by six RRUs)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
number of cells
(each cell is served
by seven RRUs)
supported by the
remaining
resources on the
primary baseband
processing board. NO
NO
YES
None
Indicates the
quantity of
resources occupied
by the cell on the
primary baseband
processing board.
The resource
quantity is indicated
by the number of
RRUs.
NO
NO
YES
None
Indicates the
number of cells for
which the
adjustment fails in
the one-click
manner.
NO
NO
YES
None
Indicates the
number of cells for
which the
adjustment is
successful in the
one-click manner.
NO
NO
YES
None
Indicates the pilot
period of CSI
reference signals.
This parameter is
unavailable in this
version.
NO
NO
NO
None
Indicates the
information about
the CPRI port on
the baseband
processing board
that is directly
connected to the
RF unit serving a
cell. The
information includes
the cabinet,
subrack, slot, and
CPRI port numbers. NO
NO
YES
None
Indicates the TX
channel information
about the RF unit
that serves a cell.
NO
NO
YES
None
Indicates the RX
channel information
about the RF unit
that serves a cell.
NO
NO
YES
None
Indicates the IDs of
the primary and
secondary
baseband
processing boards
that serve a cell.
NO
NO
YES
None
Indicates whether
information about
intra-frequency
neighboring cells
and external cells of
the serving cell can
be maintained by
ANR. If this
parameter is set to
ALLOWED, the
information can be
maintained by ANR.
If this parameter is
set to
NOT_ALLOWED,
the information
cannot be
maintained by ANR. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
removed, ANR
removes the intraRAT neighboring
relationship with the
cell that operates
on this frequency
and to which the
number of UEs
handed over from
the local cell is the
smallest.
Otherwise, the
intra-RAT neighbor
relationship with the
cell to which the
number of UEs
handed over from
the local cell is the
smallest is
removed.
If not all values of
this parameter for
all E-UTRAN
frequencies are the
same, the eNodeB
removes the
candidate neighbor
relationship with the
cell that operates
on a frequency and
to which the
number of UEs
handed over from
the local cell is the
smallest based on
frequency priories
in ascending order. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the ID of
the sector device,it
uniquely identifies a
sector device within
an eNodeB.
YES
YES
NO
TDLOFD-001080
TDLOFD-001082
Indicates the ID of
the main eNodeB.
YES
NO
None
YES
Indicates the local
cell identity of a cell
of the main
eNodeB,it uniquely
identifies a cell
within the main
eNodeB.
YES
YES
NO
None
Indicates the ID of
the baseband
equipment serving
a cell.
When this
parameter is set to
255, the baseband
equipment serving
a cell is not
specified. In this
scenario, the LTE
baseband
processing units
(LBBPs) serving a
cell are selected
among all LBBPs in
the eNodeB, and
the LBBPs to which
the cell's serving
RRU is connected
are preferentially
selected.
When this
parameter is set to
a value other than
255, the cell is
served by LBBPs in
the specified
baseband
equipment, and the
LBBPs to which the
cell's serving RRU
is connected are
preferentially
selected.
NO
NO
NO
TDLOFD-001080
TDLOFD-001082
Indicates the
reference signal
power of the single
frequency network
(SFN) auxiliary
eNodeB resource.
The value 32767
indicates that this
reference signal
power parameter is
invalid. In this case,
the reference signal
power of the cell
refers to the value
of the PDSCHCfg
parameter. For
details, see 3GPP
TS 36.213.
NO
NO
NO
TDLOFD-001080
TDLOFD-001082
Indicates the
reference signal
power headroom of
each physical
antenna.
If this parameter is
set to 0, the
parameter does not
take effect. That is,
the reference signal
power headroom of
the cell equals the
value of Reference
Signal Power
Margin in the
PDSCHCfg MO. If
this parameter is
set to a non-zero
value, the reference
signal power
headroom of the
cell equals this
value.
NO
NO
NO
None
compression types
can be used for
sectors using the
same RRU chain
that is connected to
UBBPd boards.
When the value of
this parameter is
changed, the cell
corresponding to
this sector are
automatically
reactivated.
This parameter is
used only when
MultiRruCellMode is
set to SFN or
CELL_COMBINATI
ON, and the value
of this parameter
depends on the
sector. When this
parameter is set to
NULL, the CPRI
compression type
of carriers depends
on the value of
CPRICompression.
When this
parameter is set to
any other value, the
sector CPRI
compression type
of carriers depends
on the value of
SectorCpriCompres
sion.
NO
NO
NO
TDLOFD-001076
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the ID of
the auxiliary
eNodeB.
YES
YES
NO
None
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
maximum number
of beamforming
layers, that is, the
rank of
beamforming. The
value
SINGLE_LAYER_B
F indicates singlestream
beamforming (that
is, beamforming
with the rank of 1),
and the value
DUAL_LAYER_BF
indicates dualstream
beamforming (that
is, beamforming
with the rank of 2). NO
NO
NO
TDLOFD-001049
TDLOFD-001061
Indicates the result
after the last cell
channel
rectification.
NO
NO
YES
None
Indicates the result
after the second
from the last cell
channel
rectification.
NO
NO
YES
None
Indicates the result
after the third from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the result
after the fourth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the result
after the fifth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the result
after the sixth from
the last cell channel
rectification.
NO
NO
YES
None
NO
YES
None
NO
YES
None
Indicates the result
after the seventh
from the last cell
channel
rectification.
NO
Indicates the result
after the eighth
from the last cell
channel
rectification.
NO
Indicates the result
after the ninth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the result
after the tenth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the time
after the last cell
channel
rectification.
NO
NO
YES
None
Indicates the time
after the second
from the last cell
channel
rectification.
NO
NO
YES
None
Indicates the time
after the third from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the time
after the fourth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the time
after the fifth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the time
after the sixth from
the last cell channel
rectification.
NO
NO
YES
None
NO
NO
YES
None
NO
NO
YES
None
Indicates the time
after the ninth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the time
after the tenth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the type
after the last cell
channel
rectification.
NO
YES
None
Indicates the time
after the seventh
from the last cell
channel
rectification.
Indicates the time
after the eighth
from the last cell
channel
rectification.
NO
Indicates the type
after the second
from the last cell
channel
rectification.
NO
NO
YES
None
Indicates the type
after the third from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the type
after the fourth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the type
after the fifth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the type
after the sixth from
the last cell channel
rectification.
NO
NO
YES
None
NO
NO
YES
None
NO
NO
YES
None
Indicates the type
after the ninth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the type
after the tenth from
the last cell channel
rectification.
NO
NO
YES
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates whether
to enable CSPC in
the cell.
NO
NO
LOFD-070208
Indicates the type
after the seventh
from the last cell
channel
rectification.
Indicates the type
after the eighth
from the last cell
channel
rectification.
NO
Indicates whether
to report the
updated UEspecific sounding
reference signal
(SRS)
configurations to
the centralized
control node
immediately after
the configurations
are changed.
NO
NO
NO
LOFD-070208
Indicates the period
that sounding
reference signal
(SRS)
configurations of
UEs in the serving
cell are reported to
the centralized
control node.
NO
NO
NO
LOFD-070208
Indicates the period
that the uplink
reference signal
received power
(RSRP)
measurements on a
neighboring cell
with CSPC applied
are reported.
NO
NO
NO
LOFD-070208
Indicates the
filtering coefficient
for channel quality
indicators (CQIs) in
CSPC-based power
optimization. This
filtering makes the
reported CQIs more
stable.
NO
NO
NO
LOFD-070208
Indicates the
physical layer
filtering coefficient
for uplink reference
signal received
power (RSRP)
measurements.
This filtering
coefficient is used
to report stable
RSRPs after
filtering.
NO
NO
NO
LOFD-070208
Indicates the RRM
filtering coefficient
for uplink reference
signal received
power (RSRP)
measurements.
This filtering
coefficient is used
to report stable
RSRPs after
filtering.
NO
NO
NO
LOFD-070208
Indicates whether
CSPC has been
enabled in the cell.
NO
YES
None
NO
Indicates the
reason why CSPC
is disabled in a cell. NO
NO
YES
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
interval between
periodic
measurement
reports that are
sent after a DL ICIC
measurement event
is triggered. For
details, see 3GPP
TS 36.331.
NO
Indicates the
maximum number
of cells to be
included in each
measurement
report after a DL
ICIC measurement
event is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the
number of periodic
measurement
reports after a DL
ICIC measurement
event is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
quantity to be
included in the
measurement
report after a DL
ICIC measurement
event is triggered,
which can be set to
SAME_AS_TRIG_
QUAN or BOTH.
The value
SAME_AS_TRIG_
QUAN indicates
that the quantity to
be included is the
same as that
specified by the
TriggerQuantity
parameter. The
value BOTH
indicates that both
RSRP and RSRQ
values are included.
The measured
RSRP values are
stable, varying little
with the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
Indicates the
quantity used in the
evaluation of a DL
ICIC measurement
event. The quantity
can be RSRP or
RSRQ. The
measured RSRP
values are stable,
varying little with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load but are likely to
reflect the signal
quality of the cell in
real time.
NO
NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the
hysteresis for the
DL ICIC
measurement
event. This
parameter is used
to decrease
frequent triggering
of event evaluations
due to radio signal
fluctuations. For
details, see 3GPP
TS 36.331.
NO
Indicates the timeto-trigger for the DL
ICIC measurement
event. When
detecting that the
signal quality in the
serving cell and that
in at least one
neighboring cell
meet the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
NO
NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the offset
for DL ICIC event
A3. This offset is
the difference
between the quality
of a neighboring
cell and that of the
serving cell. A larger
value indicates that
a neighboring cell
must have better
quality for the
reporting of the
event.
NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the offset
for DL ICIC event
A6. This offset is
the difference
between the quality
of a neighboring
cell and that of the
serving cell. A larger
value indicates that
a neighboring cell
must have better
quality for the
reporting of the
event.
NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
number of highband resource
blocks (RBs) that
the E-UTRAN cell
can share with
GERAN cells in
GSM and LTE
dynamic spectrum
sharing. The gains
that an E-UTRAN
cell can obtain have
a positive
correlation with the
number of RBs that
the E-UTRAN cell
shares with GERAN
cells. Currently,
GSM and LTE
dynamic spectrum
sharing supports
one third of the EUTRAN cell
bandwidth to be
shared with GERAN
cells. However, to
mitigate the
interference from
GERAN cells, it is
recommended that
the shared
bandwidth should
not exceed one fifth
of the E-UTRAN
cell bandwidth.
NO
NO
NO
MRFD-090202
Indicates the
number of low-band
resource blocks
(RBs) that the EUTRAN cell can
share with GERAN
cells in GSM and
LTE dynamic
spectrum sharing.
The gains that an
E-UTRAN cell can
obtain have a
positive correlation
with the number of
RBs that the EUTRAN cell shares
with GERAN cells.
Currently, GSM and
LTE dynamic
spectrum sharing
supports one third
of the E-UTRAN
cell bandwidth to be
shared with GERAN
cells. However, to
mitigate the
interference from
GERAN cells, it is
recommended that
the shared
bandwidth should
not exceed one fifth
of the E-UTRAN
cell bandwidth.
NO
NO
NO
MRFD-090202
Indicates whether
PDCCH resource
elements (REs) are
transmitted in the
shared spectrum
when the spectrum
is being occupied
by the GERAN cell
in GSM and LTE
dynamic spectrum
sharing. If this
parameter is set to
ON, PDCCH REs
are not transmitted
in the shared
spectrum when the
spectrum is being
occupied by the
GERAN cell. If this
parameter is set to
OFF, PDCCH REs
are always
transmitted in the
shared spectrum
regardless of
whether the shared
spectrum is being
occupied by the
GERAN cell.
NO
NO
NO
MRFD-090202
parameter is set to
NONE, uplink
narrowband
interference
suppression is
disabled. If this
parameter is set to
BASEBANDPROC
ESS, uplink
narrowband
interference
suppression is
enabled, which
achieves
interference
suppression by
shrinking the
interfering GSM
spectrum through
baseband
processing. With
uplink narrowband
interference
suppression, only
RBs near the
interfering GSM
spectrum
experience
interference, and
RBs far away from
the interfering GSM
spectrum (including
RBs in the shared
spectrum and RBs
in the dedicated EUTRAN bandwidth)
can work properly. NO
NO
NO
MRFD-090202
Indicates the offset
of a neighboring
cell's signal level
that triggers event
A3 used in GSM
and LTE dynamic
spectrum sharing.
Measurement
reports for this
event A3 are
reported only if the
signal level of at
least one
neighboring cell is
better than that of
the local cell by this
offset. If this
parameter is set to
a larger value, the
probability of UEs
reporting this event
A3 is lower.
NO
NO
NO
MRFD-090202
Indicates the offset
of a neighboring
cell's signal level
that triggers event
A6 used in GSM
and LTE dynamic
spectrum sharing.
Measurement
reports for this
event A6 are
reported only if the
signal quality of at
least one
neighboring cell is
better than that of
the secondary
serving cell (SCell)
in carrier
aggregation (CA) by
a quantity of this
offset. If this
parameter is set to
a larger value, the
probability of UEs
reporting this event
A6 is lower.
NO
NO
NO
MRFD-090202
Indicates the signal
to interference plus
noise ratio (SINR)
threshold for
determining that
UEs located at
short distances
away from the cell
center can use
resource blocks
(RBs) in the shared
spectrum when GL
dynamic spectrum
sharing is enabled.
If the SINR of RBs
in the shared
spectrum is greater
than or equal to the
NearAreaSinrThd
parameter value,
the RBs can be
scheduled by UEs
located at short
distances away
from the cell center. NO
NO
NO
MRFD-090202
Indicates the signal
to interference plus
noise ratio (SINR)
threshold for
determining that
UEs located at
medium distances
away from the cell
center can use
resource blocks
(RBs) in the shared
spectrum when GL
dynamic spectrum
sharing is enabled.
If the SINR of RBs
in the shared
spectrum is greater
than or equal to the
MiddleAreaSinrThd
parameter value,
the RBs can be
scheduled by UEs
located at medium
distances away
from the cell center. NO
NO
NO
MRFD-090202
Indicates the signal
to interference plus
noise ratio (SINR)
threshold for
determining that
UEs located at far
distances away
from the cell center
can use resource
blocks (RBs) in the
shared spectrum
when GL dynamic
spectrum sharing is
enabled. If the
SINR of RBs in the
shared spectrum is
greater than or
equal to the
FarAreaSinrThd
parameter value,
the RBs can be
scheduled by UEs
located at far
distances away
from the cell center. NO
NO
NO
MRFD-090202
Indicates the local
cell ID. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
NO
NO
LOFD-070207 /
TDLOFD-070207
YES
Indicates the
statistic period of
dynamic access
class (AC) barring
in a cell, during
which the
proportion of time
that the cell is in the
congestion state is
exported.
NO
Indicates the
threshold for
triggering dynamic
access class (AC)
barring in the cell.
This threshold
specifies the
proportion of time
that the cell is in the
congestion state. If
the proportion of
time that the cell is
in the congestion
state is greater than
or equal to this
parameter value
within a statistic
period (specified by
the
DynAcBarStatPerio
d parameter), the
conditions for
triggering dynamic
AC barring are met. NO
NO
NO
LOFD-070207 /
TDLOFD-070207
Indicates the
threshold for
canceling dynamic
access class (AC)
barring in the cell.
This threshold
specifies the
proportion of time
that the cell is in the
congestion state. If
the proportion of
time that the cell is
in the congestion
state is less than or
equal to this
parameter value
within a statistic
period (specified by
the
DynAcBarStatPerio
d parameter), the
conditions for
canceling dynamic
AC barring are met. NO
NO
NO
LOFD-070207 /
TDLOFD-070207
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the ABS
pattern after the
TDM eICIC is
enabled. This
parameter is valid
only when the
eICIC is enabled.
Different ABS
pattern settings
indicate
configurations with
different ABS
numbers in the
same period. For
example, the value
SUBFRAME_ONE_
PER_FIVE
indicates that One
ABS per 5 ms. The
ABS pattern is a
bitmap with a bit
string of 40 bits. For
details, see the
definition of ABS
Pattern Info in
3GPP TS 36.423.
This parameter is
valid only when all
the ABS patterns
for all cells are the
same.
NO
NO
NO
LAOFD-002001
Indicates whether
UEs are allowed to
send measurement
reports for event A3
during enhanced
inter-cell
interference
coordination
(eICIC). The
parameter value
ENABLE indicates
that UEs are
allowed to send
measurement
reports for event A3
during eICIC. The
parameter value
DISABLE indicates
that UEs are not
allowed to send
measurement
reports for event A3
during eICIC, and in
this case the
eNodeB cannot
determine whether
to enable eICIC in
different scenarios. NO
NO
NO
LAOFD-002001
Indicates the offset
for event A3 during
enhanced inter-cell
interference
coordination
(eICIC). This offset
is the difference
between the signal
quality of a
neighboring cell and
that of the serving
cell. A larger value
indicates that a
neighboring cell
must have better
signal quality for the
reporting of event
A3. A smaller value
indicates that the
requirement on the
neighboring cell
signal quality for
reporting event A3
can be met easier.
For details, see
3GPP TS 36.331.
NO
NO
NO
LAOFD-002001
Indicates the local
cell ID. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
YES
Indicates the offset
for reporting the
measurement event
for IICS UE
attribute calculation.
This offset is the
difference between
the signal quality of
a neighboring cell
and that of the
serving cell. A larger
value indicates that
a neighboring cell
must have better
quality for the
reporting of the
event.
NO
NO
NO
None
Indicates the
threshold of user
attribute
determination in the
UL IICS algorithm.
If a UE-reported
value is greater
than or equal to this
parameter value,
the UE has strong
interference to
neighboring cells. If
a UE-reported value
is less than this
parameter value,
the UE has weak
interference to
neighboring cells.
NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the switch
for the functionality
of the low power
consumption mode.
The cell can enter
the low power
consumption mode
only when this
parameter is set to
ON and specific
conditions are met. NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the switch
for forcibly entering
the low power
consumption mode.
When both this
switch and the
functionality switch
are set to ON, the
cell enters the low
power consumption
mode as soon as
the wait time for
entering the mode
elapses, regardless
of whether it is
within the low
power consumption
period. When the
functionality switch
is set to ON but this
switch is set to OFF,
the cell enters the
low power
consumption mode
as soon as the wait
time for entering the
mode elapses, if a
mains input out of
range(Specific
Problem: AC
Failure) alarm is
reported within the
low power
consumption
period.
NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the start
time of the low
power consumption
mode.
NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the stop
time of the low
power consumption
mode. If the stop
time is earlier than
or the same as the
start time, the stop
time is assumed to
be a time of the
next day.
NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the
duration in which
the transmit power
for services is
reduced in the cell
in low power
consumption mode. NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the
duration in which
the reference signal
transmit power is
reduced in the cell
in low power
consumption mode. NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the
duration in which
RF channels are
shut down in the
cell in low power
consumption mode. NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the
percentage of the
transmit power for
services to the total
transmit power for
services when the
low power
consumption mode
is implemented by
means of reducing
the transmit power
for services.
NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the
amount by which
the reference signal
transmit power is
reduced in the cell
in low power
consumption mode. NO
NO
NO
LOFD-001040 /
TDLOFD-001040
power consumption
mode. In low power
consumption mode,
a cell automatically
takes the following
actions in
sequence: 1. lowers
the transmit power
for services; 2.
lowers the transmit
power for reference
signals; 3. shuts
down some RF
channels in the cell;
4. shuts down the
cell. This duration
smooths the
transition from the
normal mode to the
low power
consumption mode
for the cell. If the
conditions for the
cell to enter the low
power consumption
mode are no longer
met during this
period of time, the
cell will not enter
the low power
consumption mode;
otherwise, it enters
the low power
consumption mode
and takes the
preceding actions in
sequence.
NO
NO
NO
LOFD-001040 /
TDLOFD-001040
that of reference
signal power
degradation, and
that of RF channel
intelligent shutdown
are all 0 minutes. If
this parameter is
set to POLICY1,
POLICY2 or
POLICY3, the ratio
of available service
power to total
service power is
50%, the
adjustment offset
for reference signal
power is -1 dB, and
the wait time for
entering the low
power consumption
mode is 5 minutes.
If this parameter is
set to
CUSTOMIZED, you
can customize the
duration of power
degradation, the
ratio of available
service power to
total service power,
the adjustment
offset for reference
signal power, and
the wait time for
entering the low
power consumption
mode.
NO
NO
NO
LOFD-001040 /
TDLOFD-001040
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the ID of
an MBSFN area to
which a cell
belongs.
NO
YES
None
NO
Indicates the ID of
an MBSFN
synchronization
area to which a cell
belongs.
NO
NO
NO
LOFD-070220 /
TDLOFD-070220
Indicates the TMGI
of an MBMS
session. The TMGI
consists of the
MCC, MNC, and
ServiceID with each
two parts
connected by a
hyphen (-). TMGIs
are separated by
comma (,).
NO
NO
YES
None
Indicates the switch
that is used to
enable and disable
the MBMS function.
If this switch is set
to ON, the MBMS
function is enabled,
and the cell
supports the MBMS
service. If this
switch is set to OFF,
the MBMS function
is disabled.
NO
NO
NO
LOFD-070220 /
TDLOFD-070220
Indicates the list of
MBMS service
areas to which cells
belong.
NO
YES
NO
None
Indicates the ID of
MBMS service area
to which a cell
belongs.
YES
YES
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
- Ofn + Hys, where
thresh is the RSRP
threshold for
triggering a
coverage-based
inter-frequency
handover and Hys
is the hysteresis for
inter-frequency
handover.
If this parameter is
set to
NOT_CFG(Not
configure) and the
Inter-Freq HO
trigger Event Type
parameter is set to
EventA3(EventA3),
the upper and lower
limits of the CIO
adjustment range
for the cell in interfrequency MRO are
calculated by using
the following
formulas: Lower
limit = Off + Ofs +
Ocs - Ofn + Hys - 5,
Upper limit = Off +
Ofs + Ocs - Ofn +
Hys - 2, where Off
is the interfrequency A3 offset,
and Hys is the
hysteresis for intrafrequency
handover.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the upper
limit of cell
individual offset
(CIO) adjustment
range for the cell in
mobility robustness
optimization (MRO).
This parameter
needs to be set
only when the
CioAdjLimitCfgInd
parameter is set to
CFG.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the lower
limit of cell
individual offset
(CIO) adjustment
range for the cell in
mobility robustness
optimization (MRO).
This parameter
needs to be set
only when the
CioAdjLimitCfgInd
parameter is set to
CFG.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the local
cell ID. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
YES
Indicates the SRS
power control
algorithm, which
can be SINR-based
SRS power control
algorithm or the
SRS power control
algorithm based on
the converged
SINR and RSRP.
This parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLBFD-002026
Indicates whether
the
P0NominalPUCCH
parameter affects
closed-loop power
control (CL PC) for
the PUCCH. If this
parameter is set to
NOT_USE_P0NOM
INALPUCCH, the
P0NominalPUCCH
parameter does not
affect CL PC for the
PUCCH. If this
parameter is set to
USE_P0NOMINAL
PUCCH, the
reference signal
received power
(RSRP) cannot
exceed the
P0NominalPUCCH
parameter value in
CL PC for the
PUCCH.
NO
NO
NO
LBFD-002026
Indicates the period
of power control for
the PUCCH.
NO
NO
NO
LBFD-002026
Indicates the offset
to the target signal
to interference plus
noise ratio (SINR)
in power control for
the PUCCH.
NO
NO
NO
LBFD-002026
Indicates the upper
limit of RSRP in
closed-loop power
control for the
PUSCH. This
parameter applies
only to LTE FDD
cells. This
parameter takes
effect only when
PuschRsrpHighThd
Switch of the
UlPcAlgoSwitch
parameter in the
CellAlgoSwitch MO
is on.
NO
NO
NO
LBFD-002026
Indicates the offset
for reporting the
uplink PUSCH IoTbased power
control
measurement
event. This offset is
the difference
between the signal
quality of a
neighboring cell and
that of the serving
cell. A larger value
indicates that a
neighboring cell
must have better
quality for reporting
the event. A smaller
value indicates that
the event can be
reported when a
neighboring cell has
worse quality. For
details, see 3GPP
TS 36.331. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
None
Indicates the local
cell ID. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
YES
takes effect only
when Mobility Load
Balancing Trigger
Mode is set to
PRB_ONLY(PrbMo
de) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode) and Prb
Load Calculation
Method is set to
PRB_VALUATION_
WITH_CTRL. If the
number of uplink
synchronized UEs
in a cell is greater
than or equal to the
sum of the
MlbMinUeNumThd
parameter value
and the
MlbMinUeNumOffs
et parameter value,
and the cell load is
higher than the
threshold, MLB is
triggered. If the
number of uplink
synchronized UEs
in a cell is smaller
than the
MlbMinUeNumThd
parameter value
and the cell load is
lower than the
threshold, MLB is
stopped.
NO
NO
NO
TDLOFD-001032
threshold for
allowing interfrequency MLB
based on the PRB
evaluation value in
the target cell. This
parameter takes
effect only when
Mobility Load
Balancing Trigger
Mode is set to
PRB_ONLY(PrbMo
de) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode) and Prb
Load Calculation
Method is set to
PRB_VALUATION_
WITH_CTRL. If the
PRB evaluation
value of a
neighboring cell is
smaller than this
threshold, the load
from the cell can be
transferred to the
neighboring cell. If
the PRB evaluation
value of a
neighboring cell is
greater than or
equal to this
threshold, the load
from the cell cannot
be transferred to
the neighboring cell. NO
NO
NO
TDLOFD-001032
Indicates the
threshold of UEspecific PRB
evaluation for
selecting UEs for
MLB. A UE is
transferred for MLB
based on PRB
evaluation only
when the downlink
or uplink PRB
evaluation of the
UE is higher than
the value of this
parameter. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
Indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
threshold of the
distance between a
UE and the eNodeB
for determining
whether a
contention-based
preamble sent by
the UE is a PRACH
false alarm. If this
parameter is set to
0, the eNodeB does
not consider a
preamble as a false
alarm based on the
distance. If this
parameter is set to
a non-zero value
and the eNodeB
detects that the
distance is longer
than this parameter
value, the preamble
is considered as a
false alarm. The
distance is
calculated based on
the timing advance
(TA) of the
contention-based
preamble that the
eNodeB received
for the first time
from a UE.
NO
NO
NO
LBFD-002010 /
TDLBFD-002010
Indicates the
percentage by
which the physical
random access
channel (PRACH)
false alarm
detection threshold
increases. For
example, the value
x indicates that the
system-defined
PRACH false alarm
detection threshold
increases by x%,
and the value -x
indicates that the
system-defined
PRACH false alarm
detection threshold
decreases by x%. NO
NO
NO
LBFD-002010 /
TDLBFD-002010
Indicates the local
cell ID. It uniquely
identifies a cell
within a BS.
YES
NO
None
NO
NO
LBFD-002023 /
TDLBFD-002023
YES
Indicates the
Allocation and
Retention Priority
(ARP) threshold for
the Golden-level
services. A service
is defined as a
Golden-level
service if its ARP
value is smaller
than or equal to this
threshold. The
service priority has
a negative
correlation with the
ARP value.
NO
Indicates the
Allocation and
Retention Priority
(ARP) threshold for
the Silver-level
services. A service
is defined as a
Silver-level service
if its ARP value is
smaller than or
equal to the value
of this parameter
and is larger than
the value of
GoldServiceArpThd
. A service is
defined as a
Bronze-level
service if its ARP
value is larger than
the value of this
parameter. The
service priority has
a negative
correlation with the
ARP value.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
admission threshold
for the handed-over
service with QCI of
1. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 1 is above or
equal to this
threshold, the
handed-over
service with QCI of
1 can be admitted.
If the satisfaction
rate of services with
QCI of 1 is below
this threshold, the
handed-over
service with QCI of
1 cannot be
admitted.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
admission threshold
for the handed-over
service with QCI of
2. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 2 is above or
equal to this
threshold, the
handed-over
service with QCI of
2 can be admitted.
If the satisfaction
rate of services with
QCI of 2 is below
this threshold, the
handed-over
service with QCI of
2 cannot be
admitted.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
admission threshold
for the handed-over
service with QCI of
3. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 3 is above or
equal to this
threshold, the
handed-over
service with QCI of
3 can be admitted.
If the satisfaction
rate of services with
QCI of 3 is below
this threshold, the
handed-over
service with QCI of
3 cannot be
admitted.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
admission threshold
for the handed-over
service with QCI of
4. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 4 is above or
equal to this
threshold, the
handed-over
service with QCI of
4 can be admitted.
If the satisfaction
rate of services with
QCI of 4 is below
this threshold, the
handed-over
service with QCI of
4 cannot be
admitted.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the offset
for admission of
new gold-level
services. This
parameter applies
to both downlink
and uplink. New
gold-level services
and handed-over
services with QCI N
are admitted if both
the following
conditions are met:
(1) The satisfaction
rate of services with
QCI N is higher
than or equal to the
sum of this offset
and the admission
threshold for the
handed-over
services with QCI
N. (2) The
satisfaction rate of
services with any
other QCI is higher
than or equal to the
corresponding
admission threshold
for the handed-over
services with that
QCI.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the offset
for admission of
new silver-level
services. This
parameter applies
to both downlink
and uplink. New
silver-level services
and handed-over
services with QCI N
are admitted if both
the following
conditions are met:
(1) The satisfaction
rate of services with
QCI N is higher
than or equal to the
sum of this offset
and the admission
threshold for the
handed-over
services with QCI
N. (2) The
satisfaction rate of
services with any
other QCI is higher
than or equal to the
corresponding
admission threshold
for the handed-over
services with that
QCI.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the offset
for admission of
new bronze-level
services. This
parameter applies
to both downlink
and uplink. New
bronze-level
services and
handed-over
services with QCI N
are admitted if both
the following
conditions are met:
(1) The satisfaction
rate of services with
QCI N is higher
than or equal to the
sum of this offset
and the admission
threshold for the
handed-over
services with QCI
N. (2) The
satisfaction rate of
services with any
other QCI is higher
than or equal to the
corresponding
admission threshold
for the handed-over
services with that
QCI.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
congestion
threshold for
services with QCI of
1. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 1 in the cell
becomes lower
than this threshold,
the services with
QCI of 1 enter the
congested state.
If the satisfaction
rate of services with
QCI of 1 in the cell
becomes higher
than the sum of this
threshold and the
congestion relief
offset, the services
with QCI of 1 leave
the congested
state.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the
congestion
threshold for
services with QCI of
2. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 2 in the cell
becomes lower
than this threshold,
the services with
QCI of 2 enter the
congested state.
If the satisfaction
rate of services with
QCI of 2 in the cell
becomes higher
than the sum of this
threshold and the
congestion relief
offset, the services
with QCI of 2 leave
the congested
state.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the
congestion
threshold for
services with QCI of
3. This threshold
applies to both UL
and DL.
If the satisfaction
rate of the services
with QCI of 3 in the
cell becomes lower
than this threshold,
the services with
QCI of 3 enter the
congested state.
If the satisfaction
rate of services with
QCI of 3 in the cell
becomes higher
than the sum of this
threshold and the
congestion relief
offset, the services
with QCI of 3 leave
the congested
state.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the
congestion
threshold for
services with QCI of
4. This threshold
applies to both UL
and DL.
If the satisfaction
rate of services with
QCI of 4 in the cell
becomes lower
than this threshold,
the services with
QCI of 4 enter the
congested state.
If the satisfaction
rate of services with
QCI of 4 in the cell
becomes higher
than the sum of this
threshold and the
congestion relief
offset, the services
with QCI of 4 leave
the congested
state.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the rate
reduction proportion
for Gold-level GBR
services. When
congestion occurs,
the rate that the
scheduling
algorithm provides
for Gold-level GBR
services (except
VoIP services) is
the product of GBR
and this proportion. NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the rate
reduction proportion
for Silver-level GBR
services. When
congestion occurs,
the rate that the
scheduling
algorithm provides
for Silver-level GBR
services (except
VoIP services) is
the product of the
GBR and this
proportion.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the rate
reduction proportion
for Bronze-level
GBR services.
When congestion
occurs, the rate that
the scheduling
algorithm provides
for Bronze-level
GBR services
(except VoIP
services) is the
product of GBR and
this proportion.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the
threshold for high
resource usage by
guaranteed bit rate
(GBR) services.
This parameter is
expressed in
percentage and
applies to both
uplink and
downlink. If the
MAC layer detects
that the resource
usage by GBR
services exceeds
the threshold, the
usage is high. In
this situation, new
GBR services are
not admitted if
GbrUsageSwitch
under the
RacAlgoSwitch
parameter is turned
on.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
threshold for low
resource usage by
guaranteed bit rate
(GBR) services.
This parameter is
expressed in
percentage and
applies to both
uplink and
downlink. If the
MAC layer detects
that the resource
usage by GBR
services falls below
the threshold, the
usage is low.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the
Allocation and
Retention Priority
(ARP) threshold for
low Energy
Efficiency Ratio
(EER) services. If
the ARP value of a
service is less than
the value of this
parameter, the
service will not be
released for
congestion control. NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the
congestion release
offset. The service
of a specific QCI
exits the congestion
state if the
satisfaction rate of
the service exceeds
the sum of this
congestion release
offset and the
congestion
threshold for the
QCI. The service
retains the
congestion state if
the satisfaction rate
is below or equal to
the sum of this
congestion release
offset and the
congestion
threshold for the
QCI.
NO
NO
NO
LBFD-002024 /
TDLBFD-002024
Indicates the
Allocation and
Retention Priority
(ARP) threshold for
preemption. The
services that have
ARP values larger
than or equal to the
value of this
parameter are
preemptible.
NO
Indicates the
threshold for
deciding on whether
the UL RB usage is
high. This threshold
applies to UL
admission decision.
If the UL RB usage
reported by the
MAC layer is above
this threshold, the
UL RB usage is
assumed to be
high.
NO
NO
NO
NO
LOFD-00102901 /
TDLOFD-00102901
NO
LBFD-002023 /
TDLBFD-002023
LBFD-002024 /
TDLBFD-002024
Indicates the
threshold for high
downlink RB usage.
This parameter is
used for downlink
admission decision.
If the downlink RB
usage reported by
the MAC layer is
greater than the
value of this
parameter, the
downlink RB usage
is high.
NO
Indicates the
threshold for
deciding on whether
the UL RB usage is
low. It applies to UL
admission decision.
If the UL RB usage
reported by the
MAC layer is below
this threshold, the
UL RB usage is
assumed to be low. NO
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
LBFD-002024 /
TDLBFD-002024
NO
LBFD-002023 /
TDLBFD-002023
LBFD-002024 /
TDLBFD-002024
Indicates the
threshold for low
downlink RB usage.
This parameter is
used for downlink
admission decision.
If the downlink RB
usage reported by
the MAC layer is
less than the value
of this parameter,
the downlink RB
usage is low.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
LBFD-002024 /
TDLBFD-002024
Indicates the
maximum number
of non-GBR
bearers (excluding
bearers of IP
Multimedia
Subsystem [IMS]
services) that can
be provided by a
cell. This parameter
applies to both
uplink and
downlink.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the UE
numbers reserved
for UEs initiating
emergency calls
and high-priority
UEs. If this
parameter is set to
0, no UE number is
reserved for UEs
initiating emergency
calls and highpriority UEs. A nonzero value of this
parameter
represents the
maximum UE
number reserved
for UEs initiating
emergency calls
and high-priority
UEs.
NO
NO
NO
LBFD-002023 /
TDLBFD-002023
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates whether
to enable or disable
RF channel
intelligent shutdown
for the cell. RF
channel intelligent
shutdown can be
performed in the
cell only when this
parameter is set to
ON and certain
conditions are met. NO
NO
NO
LOFD-001039 /
TDLOFD-001039
Indicates the start
time of the cell RF
channel intelligent
shutdown.
NO
NO
LOFD-001039 /
TDLOFD-001039
NO
Indicates the stop
time of RF channel
intelligent shutdown
for the cell. If the
stop time is earlier
than or the same as
the start time, the
stop time is
assumed to be a
time of the next day. NO
NO
NO
LOFD-001039 /
TDLOFD-001039
Indicates the value
by which the
reference signal
power is increased
during the RF
channel intelligent
shutdown period.
The reference
signal power
increases by the
value specified by
this parameter to
ensure coverage of
the cell. If this
parameter is set to
a value greater than
3, the value 3
applies in effect.
Otherwize,the
configuration value
applies in effect.
NO
NO
NO
LOFD-001039 /
TDLOFD-001039
usage threshold,
the cell enters the
RF channel
intelligent shutdown
mode. If the current
cell load is greater
than or equal to the
total value of the
uplink PRB usage
threshold and the
uplink PRB offset or
the total value of
the downlink PRB
usage threshold
and the downlink
PRB offset, the cell
exits the RF
channel intelligent
shutdown mode.
If this parameter is
set to a smaller
value, the cell is
harder to enter the
RF channel
intelligent shutdown
mode, which does
not facilitate
eNodeB power
saving. If this
parameter is set to
a larger value, the
cell is easier to
enter the RF
channel intelligent
shutdown mode,
which affects user
services.
NO
NO
NO
TDLOFD-001039
usage threshold,
the cell enters the
RF channel
intelligent shutdown
mode. If the current
cell load is greater
than or equal to the
total value of the
uplink PRB usage
threshold and the
uplink PRB offset or
the total value of
the downlink PRB
usage threshold
and the downlink
PRB offset, the cell
exits the RF
channel intelligent
shutdown mode.
If this parameter is
set to a smaller
value, the cell is
harder to enter the
RF channel
intelligent shutdown
mode, which does
not facilitate
eNodeB power
saving. If this
parameter is set to
a larger value, the
cell is easier to
enter the RF
channel intelligent
shutdown mode,
which affects user
services.
NO
NO
NO
TDLOFD-001039
channel intelligent
shutdown.
The cell exits the
RF channel
intelligent shutdown
mode when the
current cell load is
greater than or
equal to the sum of
the UlPrbThd
parameter value
and the UlPrbOffset
parameter value or
the sum of the
DlPrbThd
parameter value
and the DlPrbOffset
parameter value.
A smaller value of
this parameter
leads to less
difficulty for the cell
in exiting the RF
channel intelligent
shutdown mode
and a higher
probability of pingpong RF channel
shutdown. A larger
value of this
parameter leads to
more difficulty for
the cell in exiting
the RF channel
intelligent shutdown
mode, which affects
services.
NO
NO
NO
TDLOFD-001039
intelligent
shutdown.
The cell exits the
RF channel
intelligent shutdown
mode when the
current cell load is
greater than or
equal to the sum of
the UlPrbThd
parameter value
and the UlPrbOffset
parameter value or
the sum of the
DlPrbThd
parameter value
and the DlPrbOffset
parameter value.
A smaller value of
this parameter
leads to less
difficulty for the cell
in exiting the RF
channel intelligent
shutdown mode
and a higher
probability of pingpong RF channel
shutdown. A larger
value of this
parameter leads to
more difficulty for
the cell in exiting
the RF channel
intelligent shutdown
mode, which affects
services.
NO
NO
NO
TDLOFD-001039
Indicates the
current status about
RF channel
intelligent shutdown
for a cell.
NO
NO
YES
None
Indicates the latest
exiting cause about
RF channel
intelligent shutdown
for a cell.
NO
NO
YES
None
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the switch
for the remote
interference
cancellation
algorithm. If this
switch is turned on,
the eNodeB
performs remote
interference
detection and
records in call
history record
(CHR) logs if any
interference is
detected. If this
switch is turned off,
the eNodeB does
not perform remote
interference
detection.
NO
NO
NO
None
Indicates the
number of empty
symbols in an
uplink pilot timeslot
(UpPTS). If this
parameter is set to
a non-zero value N,
then no data is
transmitted within
the N symbols
starting from the
first symbol in the
UpPTS. Note that,
for any given
special subframe
configuration, the
value of this
parameter cannot
be greater than the
total number of
symbols contained
in the UpPTS.
NO
NO
NO
TDLBFD-001007
TDLBFD-00100701
TDLBFD-00100702
TDLOFD-001026
TDLOFD-00102601
TDLOFD-00102602
TDLOFD-00102603
Indicates whether
to empty the last
symbol in each
uplink subframe.If
this parameter is
set to ON(On), the
last symbol in each
uplink subframe is
emptied. If this
parameter is set to
OFF(Off), the last
symbol in each
uplink subframe is
not emptied.
NO
NO
NO
TDLBFD-001007
TDLBFD-00100701
TDLBFD-00100702
TDLOFD-001026
TDLOFD-00102601
TDLOFD-00102602
TDLOFD-00102603
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates whether
to enable the
service
differentiation
feature using the
extended GTP-U
header containing
the FPI value. The
guideline can be
found in documents
related to the EPC
feature, which is
Wireless
Optimization Based
on Flow Priority.
DSCPRemarkSwitc
h: Indicates
whether to enable
the DSCP Remarkbased service
differentiation
feature. If
DSCPRemarkSwitc
h is set to On, the
eNodeB guarantees
differentiated quality
of service (QoS)
based on the
service type
specified by the
DSCP field in the IP
packet sent by the
PDN gateway to the
eNodeB. This
parameter is
dedicated to LTE
FDD cells.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) or
DSCPRemarkSwitc
h(DSCPRemarkSwi
tch) is turned on.
When
DSCPRemarkSwitc
h is turned on, this
parameter indicates
the weight of
nonP2P service
queue.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) or
DSCPRemarkSwitc
h(DSCPRemarkSwi
tch) is turned on.
When
DSCPRemarkSwitc
h is turned on, this
parameter indicates
the weight of P2P
service queue.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) is
turned on.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) is
turned on.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) is
turned on.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) is
turned on.
NO
NO
NO
None
Indicates the weight
of the queue, which
is used in service
differentiation
scheduling. The
value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
scheduling
probability of this
UE. The scheduling
probability and
priority of services
in a queue has a
positive correlation
with the value of
this parameter. This
parameter is valid
only if
FPIGTPUSwitch(FP
IGTPUSwitch) is
turned on.
NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates whether
to enable or disable
intelligent power-off
of carriers in the
same coverage.
Intelligent power-off
of carriers in the
same coverage can
be performed only
when this
parameter is set to
ON and specific
conditions are met.
For intelligent
power-off of carriers
in the same
coverage, each
basic cell must
have its intelligent
power-off of carriers
switch enabled and
the UL or DL PRB
usage threshold set
to 0.
NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the start
time of intelligent
power-off of carriers
in the same
coverage.
NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the stop
time of intelligent
power-off of carriers
in the same
coverage. If the
stop time is earlier
than or the same as
the start time, the
stop time is
assumed to be a
time of the next day. NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the
downlink PRB
threshold for
starting intelligent
power-off of carriers
in the same
coverage for the
cell.
NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the
downlink PRB offset
for stopping
intelligent power-off
of carriers in the
same coverage for
the cell. The
downlink PRB
threshold for
stopping intelligent
power-off of carriers
in the same
coverage for the
cell is equal to the
sum of the downlink
PRB threshold for
starting intelligent
power-off of carriers
in the same
coverage and the
value of this
parameter.
NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the uplink
PRB threshold for
starting intelligent
power-off of carriers
in the same
coverage for the
cell.
NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the uplink
PRB offset for
stopping intelligent
power-off of carriers
in the same
coverage for the
cell. The uplink
PRB threshold for
stopping intelligent
power-off of carriers
in the same
coverage for the
cell is equal to the
sum of the uplink
PRB threshold for
starting intelligent
power-off of carriers
in the same
coverage and the
value of this
parameter.
NO
NO
NO
LOFD-001042 /
TDLOFD-001042
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the
interval between
periodic
measurement
reports that are
sent after a UL ICIC
measurement event
is triggered. For
details, see 3GPP
TS 36.331.
NO
NO
Indicates the
maximum number
of cells to be
included in each
measurement
report after a UL
ICIC measurement
event is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the
number of periodic
measurement
reports after a UL
ICIC measurement
event is triggered.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
quantity to be
included in the
measurement
report after a UL
ICIC measurement
event is triggered,
which can be set to
SAME_AS_TRIG_
QUAN or BOTH.
The value
SAME_AS_TRIG_
QUAN indicates
that the quantity to
be included is the
same as that
specified by the
TriggerQuantity
parameter. The
value BOTH
indicates that both
RSRP and RSRQ
values are included.
The measured
RSRP values are
stable, varying little
with the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time. For
details, see 3GPP
TS 36.331.
NO
Indicates the
quantity used in the
evaluation of a UL
ICIC measurement
event. The quantity
can be RSRP or
RSRQ. The
measured RSRP
values are stable,
varying little with
the load, and
therefore there is
little signal
fluctuation. The
measured RSRQ
values vary with the
load and are likely
to reflect the signal
quality of the cell in
real time.
NO
NO
NO
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the
hysteresis for the
UL ICIC
measurement
event. This
parameter is used
to decrease
frequent triggering
of event evaluations
due to radio signal
fluctuations. For
details, see 3GPP
TS 36.331.
NO
Indicates the timeto-trigger for the UL
ICIC measurement
event. When
detecting that the
signal quality in the
serving cell and that
in at least one
neighboring cell
meet the entering
condition, the UE
does not send a
measurement
report to the
eNodeB
immediately.
Instead, the UE
sends a report only
when the signal
quality continuously
meets the entering
condition during the
time-to-trigger.
NO
NO
NO
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the offset
for the UL ICIC
measurement
event. If this
parameter is set to
a large value, the
signal quality of the
neighboring cell
must be
significantly better
than that of the
serving cell before a
UL ICIC
measurement event
is triggered. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
noise ratio (SINR).
The PF policy
schedules UEs in
ascending order of
ratio of the data
rate to the SINR.
The RR policy
schedules each UE
in sequence, and
therefore each UE
has an equal
opportunity to be
scheduled. The
EPF policy
schedules UEs in
ascending order of
priority. In EPF, the
priority of an UE is
calculated based on
the following
factors: the data
rate, average SINR,
QoS-satisfying data
rate for each
service, and service
differentiation
requirements of the
UE. The MAX C/I,
PF, and RR policies
are basic UL
scheduling policies
and supported by
the eNodeB by
default, whereas
the EPF policy is
intended for
commercial use.
NO
NO
NO
LBFD-002025 /
TDLBFD-002025
TDLOFD-001015
TDLOFD-00101502
is retransmitted by
adaptive
synchronous
HARQ. If this switch
is set to
ADAPTIVE_HARQ
_SW_SEMION,
adaptive HARQ is
triggered when a
UL grant is
delivered to an
HARQ process that
is previously
suspended due to
reasons such as
resource collision,
activation of a
measurement gap,
and PDCCH
congestion. Setting
this parameter to
ADAPTIVE_HARQ
_SW_ON helps
reduce resource
consumption due to
retransmission,
increase the cell
throughput, and
prevent
retransmission
conflicts. This, on
the other hand, will
increase signaling
overhead and
therefore consume
more PDCCH
resources.
NO
NO
NO
LBFD-002006 /
TDLBFD-002006
TDLBFD-002025
TDLOFD-001015
TDLOFD-00101502
Indicates the target
IBLER of the SINR
adjustment
algorithm. A greater
parameter value
indicates a greater
SINR adjustment
value, and thus a
higher-level MCS is
used.
NO
NO
NO
LBFD-001006 /
TDLBFD-001006
TDLOFD-001006
Indicates the ratio
of the maximum
bandwidth
resources that the
uplink scheduler
can allocate to
preallocation UEs
to the total system
bandwidth.
NO
NO
LOFD-00101502 /
TDLOFD-00101502
NO
Indicates the
minimum interval
between two preallocations. That is,
the actual interval
between two preallocations of one
UE must be longer
than or equal to the
value of this
parameter.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the data
amount preallocated to each
user.
NO
NO
LOFD-00101502 /
TDLOFD-00101502
NO
Indicates whether
frequency hopping
(FH) is enabled or
disabled and which
FH type is used.
Hopping_OFF:
indicates that FH is
disabled.
Hopping_Type1:
indicates that
adaptive FH is
enabled and FH
type 1 is used. In
this scenario, UEs
in the cell can
determine whether
to use FH based on
the actual situation.
Hopping_Type2:
indicates that
adaptive FH is
enabled and FH
type 2 is used. In
this scenario, UEs
in the cell can
determine whether
to use FH based on
the actual situation.
Hopping_Type2_RA
NDOM: indicates
that random FH is
enabled and FH
type 2 is used. In
this scenario, all
UEs in the cell use
FH.
NO
NO
NO
LBFD-002025 /
TDLBFD-002025
LOFD-001015 /
TDLOFD-001015
Indicates the
percentage of free
shared RBs on the
PUSCH in
scheduling based
on free users and
subscribers. The
other RBs on the
PUSCH are
allocated to
subscribers. When
sufficient capacity is
available, the
percentage of RBs
occupied by free
users and that
occupied by
subscribers will
reach the preset
values. Changes in
this parameter
affect the
percentage of RBs
for free users and
that for subscribers.
The value of this
parameter cannot
be changed when
the cell is active.
NO
NO
NO
TDLBFD-002023
TDLBFD-002024
Indicates the data
length that the UL
scheduler assigns
to UEs that have
sent scheduling
requests. Within the
data length, the
UEs reports their
buffer status and
transmit certain
data.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
threshold for the
number of
consecutive zeropayload packets
received by the
eNodeB. After
receiving
consecutive zeropayload packets of
a number that is
equal to the value
of this parameter,
the eNodeB
performs implicit
release of semipersistent
resources.
NO
NO
LOFD-00101502 /
TDLOFD-00101502
NO
Indicates the
duration of uplink
smart preallocation
triggered by
downlink
scheduling. If
SmartPreAllocation
Switch is set to On
and this parameter
is set to 0, neither
smart preallocation
nor preallocation
takes effect. If
SmartPreAllocation
Switch is set to Off,
this parameter is
invalid.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
TDLOFD-001015
Indicates the
capacity factor for
uplink enhanced
proportional fair
(EPF) scheduling.
When the eNodeB
schedules UEs with
unsatisfied GBR,
this factor affects
the scheduling
priorities of UEs
running services
with the QCI of 1, 2,
3, or 4. When the
eNodeB schedules
UEs running NonGBR services, this
factor affects the
scheduling priorities
of UEs running
services with the
QCI of 6, 7, 8, or 9.
In this way, this
factor can be used
to adjust the cell
capacity and
fairness among
UEs.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
strategy for
allocating resource
blocks (RBs) in the
uplink of the cell. If
this parameter is
set to
FS_NONFS_ADAP
TIVE, this strategy
adaptively switches
between frequency
selective scheduling
and non-frequency
selective
scheduling. If this
parameter is set to
FS_INRANDOM_A
DAPTIVE, this
strategy adaptively
switches between
frequency selective
scheduling and
interferencerandomizationbased scheduling. NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
Doppler
measurement level,
which is used for
selecting a Doppler
measurement
policy. If this
parameter is set to
CLASS_0, the
demodulation
reference signal
(DMRS) whose
signal to
interference plus
noise ratio (SINR) is
greater than or
equal to 5 dB is
used in Doppler
measurement. If
this parameter is
set to CLASS_1,
the DMRS whose
SINR is greater
than or equal to –5
dB is used in
Doppler
measurement. This
parameter does not
take effect on cells
established on an
LBBPc.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
maximum number
of uplink hybrid
automatic repeat
request (HARQ)
transmissions,
excluding the
HARQ
transmissions
based on TTI
bundling. For
details, see 3GPP
TS 36.331. When
the UE runs
services with a QCI
of 1, the smaller
value between the
parameter value
and 5 is used as
the maximum
number of uplink
HARQ
transmissions.
When the UE does
not run services
with a QCI of 1, the
parameter value is
used as the
maximum number
of uplink HARQ
transmissions.
NO
NO
NO
LBFD002025/TDLBFD002025
Indicates the smart
preallocation
duration for sparse
packets. The larger
value between this
parameter and the
SmartPreAllocation
Duration parameter
is selected as the
actual smart
preallocation
duration for sparse
packets.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the semipersistent
scheduling period in
the uplink. This
parameter applies
only to LTE TDD
cells. In FDD mode,
the uplink semipersistent
scheduling period is
20 ms and cannot
be configured. If
this parameter is
set to ADAPTIVE,
the system
adaptively selects
an uplink semipersistent
scheduling period
of 20 ms or 40 ms.
If this parameter is
set to ms20 or
ms40, the downlink
semi-persistent
scheduling period is
20 ms or 40 ms,
respectively.
NO
NO
NO
TDLOFD-001016
Indicates whether
to increase the
scheduling request
indicator (SRI) false
detection threshold
for UEs in the
discontinuous
reception (DRX)
state. If this
parameter is set to
ON, the threshold
increases and the
SRI false detection
probability
decreases. If this
parameter is set to
OFF, both the
threshold and the
probability remain
unchanged.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the
number of
consecutive
transmission time
intervals (TTIs)
within which the
eNodeB does not
perform uplink
scheduling after a
measurement gap.
NO
NO
LOFD-00101502 /
TDLOFD-00101502
NO
Indicates whether
to enable delaybased dynamic
scheduling
prioritization for
VoIP services. If
this parameter is
set to
NO_DELAYSCH,
delay-based
dynamic scheduling
prioritization for
VoIP services is
disabled. If this
parameter is set to
VOIP_DELAYSCH,
delay-based
dynamic scheduling
prioritization for
VoIP services is
enabled.
Scheduling
priorities are
dynamically
adjusted based on
VoIP packet delays
during uplink
dynamic
scheduling, thereby
increasing the
mean opinion score
(MOS) and system
capacity for VoIP
services when the
cell is heavily
loaded with VoIP
services.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
threshold of
consecutive cyclic
redundancy check
(CRC) errors in the
uplink above which
the eNodeB stops
scheduling the
abnormal UE. The
parameter value
range is from 6 to
120.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LBFD-002025 /
TDLBFD-002025
Indicates the size
threshold for
determining
whether a packet is
a special packet.
This parameter can
be set based on the
size of special small
packets, such as
heartbeat packets.
This parameter is
used to reduce the
impact of services
with small packets
on the calculation of
performance
counters related to
uplink throughput.
Changing this
parameter value
affects values of
counters
L.Thrp.Time.UE.UL.
RmvSpecificTTI
and
L.Thrp.bits.UE.UL.S
pecificTTI. For
details about the
impact, see the
"Measurement
Point" of the
counters in eNodeB
Performance
Counter Reference. NO
NO
NO
None
Indicates the
scheduling policy
for the initial
PUSCH
transmission that is
detected as
discontinuous
transmission (DTX)
when
PuschDtxSwitch of
the UlSchSwitch
parameter is on. If
the
PuschDtxSchStrate
gy parameter is set
to NEW_TX, initial
transmission
instead of
retransmission is
performed when the
initial PUSCH
transmission is
detected as DTX. If
the
PuschDtxSchStrate
gy parameter is set
to
ADAPTIVE_RETX,
adaptive
retransmission is
performed when the
initial PUSCH
transmission is
detected as
DTX.This
parameter does not
apply to LTE TDD. NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
to apply upper limit
control on service
data unit (SDU)
segmentation at the
radio link control
(RLC) layer in the
uplink for VoIP
services scheduled
in non-TTI bundling
mode and the
maximum SDU
segments at the
RLC layer.
If this parameter is
set to 0, the upper
limit control on SDU
segmentation at the
RLC layer is
disabled in the
uplink for VoIP
services scheduled
in non-TTI bundling
mode.
If this parameter is
set to a non-zero
value X, upper limit
control on SDU
segmentation at the
RLC layer is
enabled and a
maximum of X SDU
segments that can
be divided for VoIP
services in uplink
dynamic scheduling
in non-TTI bundling
mode.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 22 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 23 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 24 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 25 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 26 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 27 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 28 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 29 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 30 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 31 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 32 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 33 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 34 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 35 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 36 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 37 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 38 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 39 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 40 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 41 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 42 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 43 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 44 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 45 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 46 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 47 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 48 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 49 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 50 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 51 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 52 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 53 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 54 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 55 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 56 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 57 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 58 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 59 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 60 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 61 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 62 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 63 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 64 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 65 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 66 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 67 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 68 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 69 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the switch
used to enable or
disable inter-RAT
joint shutdown.
NO
NO
NO
LOFD-001074
MRFD-231901
Indicates the start
time of inter-RAT
cell shutdown. If the
switch for inter-RAT
cell shutdown is
turned on, interRAT cell shutdown
can be performed
during the period
specified by the
start time and stop
time of inter-RAT
cell shutdown.
NO
NO
NO
LOFD-001074
MRFD-231901
Indicates the stop
time of inter-RAT
cell shutdown. If the
stop time is earlier
than or the same as
the start time, the
stop time is
assumed to be the
time of the next day.
If the switch for
inter-RAT cell
shutdown is turned
on, inter-RAT cell
shutdown can be
performed during
the period specified
by the start time
and stop time of
inter-RAT cell
shutdown.
NO
(2) The inter-RAT
cell shutdown
switch is enabled,
the ShutDownType
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the shutdown
conditions including
the specified interRAT cell shutdown
duration, uplink and
downlink RB
usages in the EUTRAN cell,
allocation/retention
priorities (ARPs) of
services in the EUTRAN cell, and
load status of the
neighboring UTRAN
cell are met, and
the number of UEs
served by the EUTRAN cell is less
than or equal to this
parameter value.
After all UEs in the
E-UTRAN cell are
transferred to the
neighboring UTRAN
cell, the eNodeB
shuts down the
carrier of the EUTRAN cell.
NO
NO
NO
LOFD-001074
MRFD-231901
NO
NO
LOFD-001074
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the shutdown
conditions including
the specified interRAT cell shutdown
duration, the
number of UEs
served by the EUTRAN cell,
allocation/retention
priorities (ARPs) of
services in the EUTRAN cell, and
load status of the
neighboring UTRAN
cell are met, and
uplink and downlink
resource block (RB)
usages in the EUTRAN cell are
less than or equal
to the UlPrbThd
and DlPrbThd
parameter values,
respectively. After
all UEs in the EUTRAN cell are
transferred to the
neighboring UTRAN
cell, the eNodeB
shuts down the
carrier of the EUTRAN cell.
NO
NO
NO
LOFD-001074
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the shutdown
conditions including
the specified interRAT cell shutdown
duration, the
number of UEs
served by the EUTRAN cell,
allocation/retention
priorities (ARPs) of
services in the EUTRAN cell, and
load status of the
neighboring UTRAN
cell are met, and
uplink and downlink
resource block (RB)
usages in the EUTRAN cell are
less than or equal
to the UlPrbThd
and DlPrbThd
parameter values,
respectively. After
all UEs in the EUTRAN cell are
transferred to the
neighboring UTRAN
cell, the eNodeB
shuts down the
carrier of the EUTRAN cell.
NO
NO
NO
LOFD-001074
UTRAN cell.
If this parameter is
set to
BY_GERAN_WITH
_LOAD, the
eNodeB obtains the
load status of the
co-coverage
neighboring
GERAN cell, and
shuts down the
carrier of the EUTRAN cell based
on the load status
of both the EUTRAN cell and the
neighboring
GERAN cell.
If this parameter is
set to
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the eNodeB
obtains the load
status of cocoverage
neighboring UTRAN
and GERAN cells,
and shuts down the
carrier of the EUTRAN cell based
on the load status
of the E-UTRAN
cell, neighboring
UTRAN cell, and
neighboring
GERAN cell.
NO
NO
NO
LOFD-001074
MRFD-231901
Indicates the
allocation/retention
priority (ARP)
threshold for highpriority services. If
the ShutDownType
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the eNodeB
does not shut down
the carrier of the EUTRAN cell when
the cell has a
service whose ARP
is lower than or
equal to this
parameter value.
NO
NO
NO
MRFD-231901
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the shutdown
conditions including
the specified interRAT cell shutdown
duration, the
number of UEs
served by the EUTRAN cell, uplink
and downlink RB
usages in the EUTRAN cell,
allocation/retention
priorities (ARPs) of
services in the EUTRAN cell are
met, and uplink and
downlink load of the
neighboring UTRAN
cell are less than
values of
UtranCellUlLoadTh
d and
UtranCellDlLoadTh
d, respectively. After
all UEs in the EUTRAN cell are
transferred to the
neighboring UTRAN
cell, the eNodeB
shuts down the
carrier of the EUTRAN cell.
NO
NO
NO
MRFD-231901
Indicates the
downlink load offset
of a co-coverage
neighboring UTRAN
cell for enabling the
carrier of the EUTRAN cell that
has been shut
down.
A shutdown EUTRAN cell is
enabled when the
following conditions
are met: (1) The
ShutDownType
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD. (2) The load of
a co-coverage
neighboring UTRAN
cell is larger than or
equal to the sum of
this parameter
value and the
UtranCellDlLoadTh
d parameter value. NO
NO
NO
MRFD-231901
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the shutdown
conditions including
the specified interRAT cell shutdown
duration, the
number of UEs
served by the EUTRAN cell, uplink
and downlink RB
usages in the EUTRAN cell,
allocation/retention
priorities (ARPs) of
services in the EUTRAN cell are
met, and uplink and
downlink load of the
neighboring UTRAN
cell are less than
values of
UtranCellUlLoadTh
d and
UtranCellDlLoadTh
d, respectively. After
all UEs in the EUTRAN cell are
transferred to the
neighboring UTRAN
cell, the eNodeB
shuts down the
carrier of the EUTRAN cell.
NO
NO
NO
MRFD-231901
Indicates the uplink
load offset of a cocoverage
neighboring UTRAN
cell for enabling the
carrier of the EUTRAN cell that
has been shut
down.
A shutdown EUTRAN cell is
enabled when the
following conditions
are met: (1) The
ShutDownType
parameter is set to
BY_UTRAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD. (2) The load of
a co-coverage
neighboring UTRAN
cell is larger than or
equal to the sum of
this parameter
value and the
UtranCellUlLoadTh
d parameter value. NO
NO
NO
MRFD-231901
threshold of a cocoverage
neighboring
GERAN cell for the
E-UTRAN cell to
enter inter-RAT cocoverage cell
shutdown mode.
In inter-RAT cell
shutdown, the
eNodeB shuts
down the carrier of
the E-UTRAN cell
when related
conditions are met:
The inter-RAT cell
shutdown switch is
enabled, the
ShutDownType
parameter is set to
BY_GERAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD, the shutdown
conditions including
the specified interRAT cell shutdown
duration and no UE
served by the EUTRAN cell are
met, and the load of
a co-coverage
neighboring
GERAN cell is less
than this parameter
value.
NO
NO
NO
MRFD-231901
Indicates the load
offset of a cocoverage
neighboring
GERAN cell for
enabling the carrier
of the E-UTRAN
cell that has been
shut down.
A shutdown EUTRAN cell is
enabled when the
following conditions
are met: (1) The
ShutDownType
parameter is set to
BY_GERAN_WITH
_LOAD or
BY_UTRAN_AND_
GERAN_WITH_LO
AD. (2) The load of
a co-coverage
neighboring
GERAN cell is
larger than or equal
to the sum of this
parameter value
and the
GeranCellLoadThd
parameter value.
NO
NO
NO
MRFD-231901
Indicates the local
ID of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates whether
TX channel
calibration is
enabled in a cell
with combined
RRUs and four TX
antennas.
NO
NO
NO
LOFD-001003
LOFD-001060
Indicates the local
time to perform
periodic TX channel
calibration in a cell
with combined
RRUs and four TX
antennas. This
parameter works
together with the
TxChnCalPeriod
parameter to
determine the time
to perform periodic
TX channel
calibration. For
details, see
descriptions of the
TxChnCalPeriod
parameter.
NO
NO
NO
LOFD-001003
LOFD-001060
the TX channel
calibration period is
24 hours), periodic
TX channel
calibration is
performed at
03:00:00 every day.
(2) If the
TxChnCalTime
parameter is set to
03:00:00 and the
TxChnCalPeriod
parameter is set to
24 (indicating that
the TX channel
calibration period is
12 hours), periodic
TX channel
calibration is
performed at
03:00:00 and
15:00:00 every day.
(3) If the
TxChnCalTime
parameter is set to
03:00:00 and the
TxChnCalPeriod
parameter is set to
96 (indicating that
the TX channel
calibration period is
48 hours), periodic
TX channel
calibration is
performed at
03:00:00 every
other day.
NO
NO
NO
LOFD-001003
LOFD-001060
Indicates the
horizontal distance
between two
combined physical
antennas. The
horizontal distance
is used for TX
channel calibration
in a cell with
combined RRUs.
NO
NO
LOFD-001003
LOFD-001060
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell parameters
within a BS.
YES
the
related to power
control for the
RACH based on the
number of random
access preambles,
probability of
successful random
accesses, and
target probability of
successful random
accesses. If either
this switch or
UeRaInforInqSwitch
is off, power
adjustment for the
RACH is disabled.
ForbidAcByRadiusS
witch: Indicates
whether the
eNodeB controls
UE access based
on the distance
from UEs to the
eNodeB or not. If
this switch is on,
only UEs whose
distance to the
eNodeB is less than
the cell radius are
allowed to access
the cell. If this
switch is off, the
eNodeB does not
forbid UE access
based on the
distance.
NO
YES
NO
None
NO
NO
LOFD-002015 /
TDLOFD-002015
Indicates the switch
used to enable or
disable change in
the cell-specific
SRS subframe
configuration (that
is, the adjustment
on the setting of the
SrsSubframeCfg
parameter).
If the switch is
turned on, the
algorithm
dynamically adjusts
the SRS subframe
configuration based
on the usage of cell
resources.
If the switch is
turned off, the
algorithm uses the
initial configuration
and does not
perform dynamic
switching.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
whether to enable
PUCCH flexible
configuration. This
function does not
take effect if an
LBBPc is used or
the cell bandwidth
is 1.4 or 3 MHz.
When PUCCH
flexible
configuration is
enabled, frequencydomain uplink ICIC
and uplink
frequency hopping
scheduling cannot
be used. If this
option is selected,
an equal number of
RBs (specified by
the
PucchExtendedRB
Num parameter)
are separately
added to both ends
of the uplink band
allocated for the
PUCCH. The total
number of
extension PUCCH
RBs equals to the
PucchExtendedRB
Num parameter
value multiplied by
two. This parameter
applies only to LTE
FDD cells.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the switch
that is used to
enable and disable
the Active Queue
Management
(AQM) algorithm. If
this switch is set to
ON, the AQM
function is enabled
to prevent or control
congestion. The
length of the PDCP
packet queue is
maintained at a
relatively small
value to help
achieve an
appropriate tradeoff between
throughput and time
latency. If this
switch is set to OFF,
the AQM function is
disabled.
NO
NO
NO
LOFD-001027 /
TDLOFD-001027
NACKs for initial
transmissions +
Number of ACKs for
initial
transmissions)
If this switch is on,
the CQI adjustment
is calculated based
on the following
formula:
CQI adjustment =
Number of ACKs for
initial transmissions
x CQI adjustment
per ACK + Number
of NACKs for initial
transmissions x CQI
adjustment per
NACK).
DlEnVarIblerTarget
Switch: Indicates
whether to enable
enhanced downlink
target IBLER
adaption. If this
switch is on, the
downlink target
IBLER is adaptively
adjusted based on
CQI fluctuation and
transmit block (TB)
size. If this switch is
off, the downlink
target IBLER is
controlled by
DlVarIBLERtargetS
witch.
NO
NO
NO
LOFD-00101501 /
TDLOFD-00101501
Indicates the switch
used to enable or
disable radio link
failure (RLF)
detection for UL
links.
NO
NO
NO
None
Indicates the switch
used to enable or
disable dynamic
power adjustment.
If this switch is
turned on, the
power amplifier
(PA) working
voltage is adjusted
based on the load
of the eNodeB,
which reduces
power consumption
of the PA and
improves energy
efficiency of the
eNodeB. Dynamic
power adjustment
applies only to FDD
cells with a
bandwidth no less
than
5 MHz.
NO
the QCI
of 1 are
VoIP services, it is
recommended that
this switch be
turned off.
RelDrbSwitch:
Indicates the switch
used to control
whether low-priority
services can be
released in the
case of congestion.
If this switch is
turned on, lowpriority services can
be released. If this
switch is turned off,
low-priority services
cannot be released.
PreemptionSwitch:
Indicates the switch
used to enable or
disable the
preemption control
algorithm. If this
switch is turned on,
preemption can be
used when the
admission of highpriority services
fails. If this switch is
turned off, only
emergency calls
can be admitted to
the system when
resources are
insufficient.
NO
NO
NO
NO
LOFD-001025
NO
LBFD-002023 /
TDLBFD-002023
LBFD-002024 /
TDLBFD-002024
LOFD-00102901
effects only on LTE
TDD cells. This
switch will be
removed in later
versions. In this
version, the setting
of this switch is still
synchronized
between the U2000
and the eNodeB
and can be
delivered to the
eNodeB, but it is no
longer used
internally.
Therefore, you are
advised to avoid
using this switch.
InterFreqIdleMlbSwi
tch: Indicates the
switch used to
enable or disable
inter-frequency load
balancing for UEs
in idle mode. After
the
InterFreqIdleMlbSwi
tch option is
selected, the load
balancing for UEs
in idle mode is valid
only when at least
one inter-frequency
load balancing
mode for UEs in
idle mode is
selected.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
LOFD-001057
SINR to converge
to the target SINR.
PdcchPcSwitch:
Indicates the switch
for PDCCH power
control. If the switch
is turned off, power
is allocated evenly
to PDCCH. If the
switch is turned on,
power allocated to
PDCCH is adjusted
dynamically.
EDlMaxTXPwrSwitc
h: Indicates the
switch for enhanced
maximum TX power
of the cell. If this
switch is turned off,
the maximum TX
power of the cell is
determined by the
reference signal
(RS) power and the
scaling factor
indexes Pa and Pb.
If this switch is
turned on, the
maximum TX power
of the cell can be
increased to
improve the RB
usage in the cell.
This switch has no
impact on the TDD
20M, TDD 15HMz
and 10M cell.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
LBFD-002009 /
TDLBFD-002009
LBFD-002016 /
TDLBFD-002016
loop power control
for the PUSCH is
applied to UEs near
the cell center. If
this switch is off,
optimized closedloop power control
for the PUSCH is
not applied to UEs
near the cell center.
This switch applies
only to LTE FDD
cells.
PuschRsrpHighThd
Switch: Indicates
whether closed-loop
power control for
the PUSCH limits
the maximum value
of RSRP. If this
switch is off, closedloop power control
for the PUSCH
does not limit the
maximum value of
RSRP. If this switch
is on, the maximum
value of RSRP
cannot exceed the
RSRP value
specified by the
PuschRsrpHighThd
parameter in the
CellAlgoSwitch in
this version. This
switch applies only
to LTE FDD cells.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002026 /
TDLBFD-002026
Indicates the switch
that is used to
enable or disable
the beamforming
algorithm. If the
switch is turned on,
UEs in the cell can
be served by the
beamforming
algorithm. If the
switch is turned off,
UEs in the cell
cannot be served
by the beamforming
algorithm. The
beamforming
algorithm is
disabled by default.
It must be enabled
manually if
required.
NO
NO
NO
TDLOFD-001049
TDLOFD-001061
downlink connected
tail packages in the
bearer. If this switch
is turned on, the
connected tail
package is
scheduled
preferentially in the
next TTI, which
reduces the delay
and increases the
transmission rate. If
this switch is turned
off, the scheduling
strategy of the
connected tail
package is the
same as other
downlink
subframes. This
switch is dedicated
to LTE TDD cells.
UeSigMcsEnhance
Switch: Indicates
whether to enable
or disable the
optimized MCS
algorithm for UE
signaling. The
optimized MCS
algorithm for UE
signaling takes
effect after this
switch is turned on.
This switch is
dedicated to LTE
TDD cells.
NO
NO
NO
LOFD-001016 /
TDLOFD-001016
LOFD-00101502 /
TDLOFD-00101502
LOFD-001109 /
TDLOFD-001109
LOFD-001070 /
TDLOFD-001070
TDLOFD-070224
LBFD-002025 /
TDLBFD-002025
TDLBFD-002011
LBFD-002031 /
TDLBFD-002031
LBFD-070102 /
TDLBFD-070102
off, enhanced
uplink scheduling
based on mobility
speed is disabled.
This switch takes
effect only when the
UlEnhancedDopple
rSwitch parameter
is set to CLASS_1.
This switch does
not take effect on
cells established on
an LBBPc.
UlRaUserSchOptS
w: Indicates
whether the
eNodeB raises the
scheduling priority
of UEs sending
uplink access
signaling, including
MSG5 and the RRC
Connection
Reconfiguration
Complete message.
If this switch is on,
the eNodeB raises
the scheduling
priority of UEs
sending uplink
access signaling. If
this switch is off, the
eNodeB does not
raise the scheduling
priority of UEs
sending uplink
access signaling.
NO
Indicates whether
to enable or disable
RAN sharing for
admission and
scheduling. If this
switch is turned on,
operators share
data channel
resources
according to the
specified
percentages.
NO
NO
NO
NO
LOFD-001016 /
TDLOFD-001016
LOFD-001048 /
TDLOFD-001048
LOFD-00101502 /
TDLOFD-00101502
TDLBFD-002025
LBFD-070102 /
TDLBFD-070102
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
the frequencypriority-based interfrequency handover
is disabled. The
inter-frequency
handover can only
be triggered when
other conditions for
triggering interfrequency
handovers are
met.FreqPriorIFBlin
dHOSwitch:
Indicates the
frequency-prioritybased interfrequency blind
handover switch. If
this switch is set to
On, the frequencypriority-based interfrequency blind
handover is
enabled. If this
switch is set to Off,
the eNodeB
decides whether to
perform the
frequency-prioritybased interfrequency handover
based on
measurements.
This switch is valid
only when
FreqPriorIFHOSwitc
h is set to On.
NO
NO
NO
None
multi-user pairing in
the downlink for the
cell. If this option
and the BfSwitch
option of the
BfAlgoSwitch
parameter are
selected, non-TM9
multi-user pairing in
the downlink is
enabled for the cell.
If this option is not
selected, non-TM9
multi-user pairing in
the downlink is
disabled for the cell.
TM9MuBfSwitch:
Indicates whether
to enable TM9
multi-user pairing in
the downlink for the
cell. If this option is
selected and TM9
multi-user
beamforming is
enabled, TM9 multiuser pairing in the
downlink is enabled
for the cell. If this
option is not
selected, TM9
multi-user pairing in
the downlink is
disabled for the
cell.This parameter
is unavailable in this
version.
NO
Indicates the switch
used to enable or
disable distancebased handovers. If
this switch is turned
on, distance-based
handovers are
allowed. If this
switch is turned off,
distance-based
handovers are
prohibited.
NO
NO
NO
NO
TDLOFD-001077
TDLBFD-001001
NO
LBFD-00201804 /
TDLBFD-00201804
LOFD-001072 /
TDLOFD-001072
LOFD-001073 /
TDLOFD-001073
Indicates the switch
for the access
barring algorithm. If
this parameter is
set to
ACBAR_SWITCH_
DYNAMIC,
intelligent access
barring is enabled.
In this situation, the
access probability
factors for mobileoriginated data and
mobile-originated
signaling are
dynamically
adjusted based on
the cell load. If this
parameter is set to
ACBAR_SWITCH_
STATIC, static
access barring is
enabled. In this
situation, the
access probability
factors and average
access barring
durations are
configured in the
access barring
information. If this
parameter is set to
ACBAR_SWITCH_
DISABLE, access
barring is disabled. NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LOFD-0700206 /
TLOFD-0700206
Indicates the switch
used to enable or
disable the UL
CoMP algorithm.
NO
NO
NO
LOFD-001066 /
TDLOFD-001066
Indicates whether
to apply MRC/IRC
adaptation to the
PUSCH.
NO
NO
NO
LOFD-001012 /
TDLOFD-001012
Indicates the SFN
uplink scheduling
mode. The uplink
scheduling modes
include the joint
scheduling mode,
and the autoselection mode
between joint
scheduling and
independent
scheduling.
NO
NO
NO
None
Indicates the SFN
downlink scheduling
mode. The downlink
scheduling modes
include the joint
scheduling mode,
and the autoselection mode
between joint
scheduling and
independent
scheduling.
NO
NO
NO
None
not support
MRC/IRC
adaptation on the
PUCCH. The
following
description applies
to PrachIrcSwitch in
scenarios where the
eNodeB is
equipped with
LBBPc boards and
uses one or two RX
antennas. If the
PrachIntrfRejSwitch
parameter is set to
OFF, interference
rejection is not
applied to the
PRACH. When the
PrachIntrfRejSwitch
parameter is set to
ON, the
PrachIrcSwitch
option of the
IrcSwitch parameter
takes effect: (1) if
the PrachIrcSwitch
option is not
selected, MRC is
applied to the
PRACH; (2) if the
PrachIrcSwitch
option is selected,
MRC/IRC
adaptation is
applied to the
PRACH.
NO
NO
NO
LOFD-001094 /
TDLOFD-001094
secondary cell. If
the smart DRX
switch is turned on,
the smart DRX
feature applies to
UEs that are newly
admitted and
support the mobility
speed report. The
eNodeB configures
dynamic DRX
parameters based
on the mobility
speeds reported by
UEs. If the smart
DRX switch is
turned off, the
smart DRX feature
does not apply to
the newly admitted
UEs. The smart
DRX feature
applies to CA UEs
only when the smart
DRX switch is
turned on for both
the primary cell and
the secondary cell.
If the
DynDrxSwitch(Dyn
DrxSwitch) option is
selected, the
DrxAlgSwitch
parameter cannot
control DRX for
UEs in the
synchronized state. NO
NO
NO
LBFD002017/TDLBFD002017
Indicates whether
to enable the highmobility-triggeredidle switch. When
this parameter is
set to ENABLE,
UEs in high mobility
are released and
enter the idle mode,
and therefore the
signaling impact on
the network caused
by frequent
handovers are
reduced. When this
parameter is set to
DISABLED, UEs in
high mobility are not
released.
NO
NO
NO
LOFD-001106
TDLOFD-00110502
itch option is
selected, GL
bufferzone
optimization is
enabled.
Before selecting the
switch, pay
attention to the
following:
1. The cell
bandwidth must be
changed to its next
higher standard
bandwidth level. For
example, the
bandwidth of a 15
MHz cell must be
changed to 20 MHz.
(2) It is
recommended that
this option be not
selected if the
bandwidth of a cell
is 1.4, 3, 5, or 10
MHz.
(3) To avoid
interference from
adjacent GERAN
cells to the PUCCH,
the PUCCH flexible
configuration
(specified by the
PucchFlexCfgSwitc
h option of the
PucchAlgoSwitch
parameter must be
enabled.
NO
NO
NO
MRFD-231808
Indicates the switch
used to enable or
disable the GL
dynamic power
sharing algorithm.
This algorithm can
be used when the
GSM and LTE
carriers share the
same power
amplifier. This
improves power
usage and service
quality of LTE UEs
adopting
quadrature phase
shift keying (QPSK)
as their modulation
scheme in case that
the GSM and LTE
busy hours appear
at different time
points or that the
traffic is
unbalanced. This
parameter indicates
the switch for the
GL dynamic power
sharing feature at
the LTE side.
NO
NO
NO
MRFD-231806
Indicates the switch
used to enable or
disable the TDMbased enhanced
inter-cell
interference
coordination (eICIC)
function. If this
parameter is set to
ON, the TDM-based
eICIC function is
enabled. If this
parameter is set to
OFF, the TDMbased eICIC
function is disabled.
In a heterogeneous
network (HetNet),
this function is used
together with the
range expansion
function of the
micro base station
to expand the
coverage of small
cells, and increase
the number of users
absorbed by the
small cell. To
support TDM-based
eICIC, this function
must be enabled for
both the macro and
small base stations. NO
NO
NO
LAOFD-002001
Indicates the switch
used to control
whether PUCCH
resources are
allocated based on
the UL peak rate. If
this switch is turned
on, resources are
flexibly allocated to
PUCCH. When
there is only a few
UEs, the PUCCH is
allocated with less
RBs. This
maximizes the
number of PUSCH
RBs available to
each UE.
NO
NO
NO
None
Indicates the switch
used to enable or
disable the DL
CoMP algorithm.
NO
Indicates the switch
used to enable or
disable the parallel
soft interference
cancellation (PSIC)
algorithm
in a cell.
NO
eNodeB does
not
perform the
redirection. This
check box is
dedicated to LTE
TDD cells.
If the
InterRatMlbRedirect
check box under
this parameter is
selected, the
eNodeB performs a
redirection from an
E-UTRAN cell to a
UTRAN or GERAN
cell. Otherwise, the
eNodeB does not
perform the
redirection. This
check box is
dedicated to LTE
TDD cells.
If the
InterRatMlbBlindHo
check box under
this parameter is
selected, the
eNodeB performs a
blind handover from
an E-UTRAN cell to
a UTRAN or
GERAN cell for
load balancing.
Otherwise, the
eNodeB does not
perform the blind
handover.
NO
NO
NO
None
NO
NO
LOFD-001096
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 / TD
LOFD-001044
LOFD-001045 /
TDLOFD-001045
NO
whether a CoMP
UE is not selected
any more in UL
CoMP and
becomes a nonCoMP UE. If this
switch is turned on,
the eNodeB detects
signal qualities and
interference
changes of the
serving and
coordinating cells of
a CoMP UE in real
time. If the eNodeB
detects that the
interference from
signals of UEs in
the coordinating cell
cannot be mitigated
using UL CoMP, the
eNodeB no longer
selects the CoMP
UE in UL CoMP,
and the UE
becomes a nonCoMP UE. If this
switch is turned off,
the eNodeB always
selects the CoMP
UE in UL CoMP,
and the UE will
never become a
non-CoMP UE. This
switch applies only
to cells established
on an LBBPc.
NO
NO
NO
LOFD-001066 /
TDLOFD-001066
LOFD-070222
Indicates the switch
used to enable or
disable the antenna
calibration
algorithm. This
parameter applies
only to TDD cells. If
this switch is turned
on, the virtual
antenna mapping
(VAM) performance
of two groups of 4T
cross-polarized
antennas is
improved. If this
switch is turned off,
the antenna
calibration algorithm
is disabled. It is
recommended that
this switch be
turned on for two
groups of 4T crosspolarized antennas. NO
NO
NO
TDLOFD-001049
Indicates whether
to enable dynamic
spectrum sharing in
the E-UTRAN cell.
If the
GLDynSpectrumSh
areSwitch option is
selected, GSM and
LTE dynamic
spectrum sharing is
enabled.
Parameters
HighFreqShareRbN
um and
LowFreqShareRbN
um must be set
before GSM and
LTE dynamic
spectrum sharing is
enabled. In GSM
and LTE dynamic
spectrum sharing,
the idle GERAN
spectrum can be
used by the EUTRAN cell,
thereby increasing
the bandwidth and
throughput of the EUTRAN cell.
NO
NO
NO
MRFD-090202
Indicates whether
to enable loadbased adaptive
adjustment in the
adaptive
SFN/SDMA feature.
If this switch is
turned on, loadbased adaptive
adjustment is
enabled, which
increases the
proportion of jointscheduling UEs and
improves user
experience when
the network load is
light, and increases
the proportion of
independentscheduling UEs and
ensures the
spectral efficiency
when the network
load is heavy. If this
switch is turned off,
load-based
adaptive
adjustment in the
adaptive
SFN/SDMA feature
cannot be enabled. NO
NO
NO
TDLOFD-002008
MrcIrcAdptSwitch is
on. If
MrcIrcAdptSwitch
and
MrcIrcAdaptivefor2
R are on, MRC/IRC
adaptation applies
to the PUSCH. If
MrcIrcAdptSwitch is
on and
MrcIrcAdaptivefor2
R is off, IRC applies
to the PUSCH. If
MrcIrcAdptSwitch is
off, MRC applies to
the PUSCH.
In 2R cells
established on the
UBBP boards: If
MrcIrcAdptSwitch is
on, MRC/IRC
adaptation applies
to the PUSCH. If
MrcIrcAdptSwitch is
off, MRC applies to
the PUSCH.
In 4R cells
established on the
LBBPc, LBBPd, or
UBBP boards: If
MrcIrcAdptSwitch is
on, MRC/IRC
adaptation applies
to the PUSCH. If
MrcIrcAdptSwitch is
off, MRC applies to
the PUSCH.
NO
NO
NO
LOFD-001012 /
TDLOFD-001012
Indicates whether
to enable or disable
adaptive dedicated
cell reselection
priority. If this
parameter is set to
ON, the eNodeB
delivers the
dedicated cell
reselection priority
to a UE when the
following conditions
are met: (1) The UE
requests to set up
an RRC connection
with the cause
value being moSignalling. (2) The
MME instructs the
eNodeB to release
the S1 bearer. (3)
The eNodeB fails to
obtain the UE
capability. If this
switch is turned off,
the eNodeB does
not deliver
dedicated cell
reselection priority
to a UE even if the
eNodeB fails to
obtain the UE
capability
information.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
check box under
the SFN Algorithm
Switch parameter is
deselected, the
PDCCH uses joint
transmission in
adaptive
SFN/SDMA
scenarios.
SfnUll2SelectiveRc
vSwitch controls
whether to enable
selective data
reception at layer-2
in an SFN cell.
If the
SfnUll2SelectiveRc
vSwitch check box
under the SFN
Algorithm Switch
parameter is
selected, the
eNodeB selectively
receives layer-2
data using multiple
working RRUs to
improve the uplink
coverage. If the
SfnUll2SelectiveRc
vSwitch check box
under the SFN
Algorithm Switch
parameter is
deselected, the
eNodeB receives
layer-2 data using
the target RRU.
NO
NO
NO
TDLOFD-002008
PRACH. This
parameter takes
effect only on the
eNodeB uses the
LBBPc and one or
two RX antennas. If
this parameter is
set to OFF, the
interference on the
PRACH is not
suppressed. If this
parameter is set to
ON, the
PrachIrcSwitch
option of the
IrcSwitch parameter
takes effect. If the
PrachIrcSwitch
option of the
IrcSwitch parameter
is cleared,
interference on the
PRACH is
suppressed based
on the maximum
ratio combining
(MRC). If the
PrachIrcSwitch
option of the
IrcSwitch parameter
is selected,
interference on the
PRACH is
suppressed based
on the interference
rejection combining
(IRC).
NO
NO
NO
LOFD001094/TDLOFD001094
Indicates whether
to enable or disable
enhanced MIMO. If
the TM9Switch
check box is
selected, the
accessed UE can
enter TM9 mode. If
the TM9Switch
check box is
deselected, the
accessed UE
cannot enter TM9
mode. This
parameter is
unavailable in this
version.
NO
NO
NO
None
Indicates whether
to enable or disable
the interference
randomize
algorithm based on
the eCoordinator or
eNodeB. This
parameter is
dedicated to LTE
TDD cells.
If this parameter is
set to OFF, the
interference
randomize
algorithm is
disabled. If this
parameter is set to
ECO_BASED, the
eCoordinator-based
interference
randomize
algorithm is
enabled. If this
parameter is set to
ENB_BASED, the
eNodeB-based
interference
randomize
algorithm is
enabled.
NO
NO
NO
None
Indicates the type
of reference signal
(RS) power to be
delivered in system
information block
type 2 (SIB2). If the
AntRsPwrSwitch
option is selected,
the RS power
calculated based on
the AntOutputPwr
parameter value is
delivered in SIB2. If
the
AntRsPwrSwitch
option is not
selected, the RS
power specified by
the
ReferenceSignalPw
r parameter is
delivered in SIB2.
NO
NO
NO
LBFD-002016
multi-frequency
network.
FixedMeasObjIDSw
itch: Indicates
whether the
eNodeB maps each
neighboring
frequency to a
MeasObjectID
based on the
frequency
measurement
priorities. If this
option is selected,
the eNodeB maps
each neighboring
frequency to a
corresponding
MeasObjectID
based on the
frequency
measurement
priorities. A higherpriority frequency is
mapped to a
smaller
MeasObjectID. If
this option is not
selected, the
eNodeB does not
map neighboring
frequencies to
MeasObjectIDs
based on the
frequency
measurement
priorities.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates whether
to enable or disable
HARQ-related
algorithms. If the
TddAckFbModeCfg
OptSwitch check
box under this
parameter is
selected, the
HARQ-ACK
feedback mode is
reconfigured based
on UE services. If
the
TddAckFbModeCfg
OptSwitch check
box under this
parameter is
cleared, the HARQACK feedback
mode is not
reconfigured based
on UE services.
NO
NO
NO
TDLBFD-002005
coverage-based
inter-frequency
handover when
receiving a
measurement
report. If this
parameter is set to
BASEDONSIGNAL
STRENGTH(Based
on Signal Strength),
the eNodeB waits a
moment and then
determines whether
to perform a
coverage-based
inter-frequency
handover to the
strongest
neighboring cell
indicated by the
received
measurement
reports. If this
parameter is set to
BASEDONFREQP
RIORITY(Based on
Frequency Priority),
the eNodeB waits a
moment and then
determines whether
to perform a
coverage-based
inter-frequency
handover to a cell
whose frequency
has a relatively low
priority.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates whether
to enable a specific
scheduling policy in
the uplink and
downlink. This
parameter consists
of the following
switches:
AbnUeSchSwitch:
Indicates whether
to disable
scheduling of
abnormal UEs. If
this switch is on,
abnormal UEs are
not scheduled. If
this switch is off,
abnormal UEs are
scheduled.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LBFD-002025 /
TDLBFD-002025
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the band
division scheme
used in downlink
ICIC. The band
division in the cell is
adjusted according
to the setting of this
parameter so that
the edge bands for
neighboring cells do
not overlap. If this
parameter is set to
INVALID, the cell
does not distinguish
center and edge
bands.
NO
NO
coding scheme
(MCS) indexes
within an area so
that about one third
users are
determined to be
CEUs. For
example, if an area
is covered by 155
cells and the
percentages of
users whose MCS
indexes are less
than 6 and 7 are
about 30% and
40%, respectively,
you can set this
parameter to 1.
(The G factors
corresponding to
MCS indexes 6 and
7 are 0.5 dB and
1.45 dB,
respectively.) The G
factors
corresponding to
MCS indexes 0 to
28 are –5.65, –4.5,
–3.55, –2.35, –1.5,
–0.5, 0.5, 1.45,
2.45, 3.4, 3.7, 4.4,
5.4, 6.3, 7.25, 8.3,
8.95, 9.6, 10.15,
11.15, 12.1, 13.15,
14.05, 15.1, 16, 17,
18.1, 19, and 20.1,
respectively.
NO
NO
NO
LOFD-060201
Indicates the
reference signal
received power
(RSRP) threshold
for determining
noise-afflicted UEs
(that is, UEs that
are mainly affected
by noise) within a
network. If all RSRP
values of
neighboring cells
included in A3
reports sent by a
UE are less than
this threshold, the
event A3 is not
considered in
interference
calculation. In
general scenarios,
the recommended
value of this
parameter is -102.
In tests for smallscale networks, this
parameter can set
to other values.
NO
NO
NO
LOFD-060201
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the offset
of the DCI power
relative to the
reference signal
power when the
PDCCH channel
carries dedicated
control information. NO
NO
NO
LBFD-002003 /
TDLBFD-002003
LBFD-002016 /
TDLBFD-002016
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the PA
value of cell center
UEs when DL ICIC
is enabled.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
Indicates the PA
value of cell edge
UEs when DL ICIC
is enabled.
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
YES
NO
None
Indicates the power
offset between the
PHICH transmit(TX)
power and the
reference
signal(RS) power.
This offset is used
when PHICH power
control is disabled. NO
NO
NO
LBFD-002016 /
TDLBFD-002016
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
scheduling policy.
When RR is
adopted, the
system capacity is
the smallest.
Therefore, RR is
used only to verify
the upper bound of
the scheduling
fairness in the
system. In terms of
the scheduling
effect, the PF
scheduling policy is
between the
previous two
policies. Therefore,
PF can be used to
verify the capacity,
coverage, and
fairness of the
system. The EPF
scheduling policy
supports the
features such as
user QoS, system
capacity, and
channel frequency
selection. The basic
scheduling policy is
mainly used for the
performance test
purpose. During
common operation,
the EPF scheduling
policy is
recommended.
NO
NO
NO
LBFD-002025 /
TDLBFD-002025
TDLOFD-001015
TDLOFD-00101502
Indicates the
percentage of free
shared RBs on the
PDSCH in
scheduling based
on pay-free users
and pay users. The
other RBs on the
PDSCH are
allocated to pay
users. When
sufficient capacity is
available, the
percentage of RBs
occupied by payfree users and that
occupied by pay
users will reach the
preset values.
Changes in this
parameter affect
the percentage of
RBs for pay-free
users and that for
pay users.
Modifying the value
of this parameter
for an active cell will
lead to the re-setup
of the cell.
NO
NO
NO
None
Indicates the weight
of the point-to-point
(P2P) service,
which is used in
enhanced
proportional fair
(EPF) scheduling.
The value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
amount of physical
resources to be
allocated to the UE
that requests the
P2P service. The
P2P service priority
has a positive
correlation with the
value of this
parameter. This
parameter is valid
only when the
service
differentiation
function is enabled. NO
NO
NO
None
Indicates the weight
of the non-P2P
service used in
enhanced
proportional fair
(EPF) scheduling.
The value of this
parameter is used
in calculating the
priority of a UE
during scheduling
and therefore
determines the
amount of physical
resources to be
allocated to the UE
that requests the
non-P2P service.
The priority of the
non-P2P service
has a positive
correlation with the
value of this
parameter. This
parameter is valid
only when the
service
differentiation
function is enabled. NO
Indicates the
maximum number
of layers (the rank)
in the
implementation of
multiple-input
multiple-output
(MIMO) in DL
scheduling.
NO
NO
NO
NO
None
NO
LOFD-001001 /
TDLOFD-001001
LOFD-001003 /
TDLOFD-001003
LOFD-001060 /
TDLOFD-001060
be basic scheduling
or differentiated
scheduling. If the
CA basic
scheduling policy is
adopted, the
eNodeB calculates
the proportional fair
(PF) scheduling
priority of each
component carrier
(CC) for a CA UE
using the total data
rates on both CCs
of this CA UE. In
this way, CA UEs
and non-CA UEs
can be allocated
similar number of
RBs. If the CA
differentiated
scheduling policy is
adopted, the
eNodeB calculates
the PF scheduling
priority of each CC
for a CA UE using
the data rate only
on the primary
component carrier
(PCC) or secondary
component carrier
(SCC) of this CA
UE. In this way, CA
UEs can achieve
better performance
than non-CA UEs. NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
LOFD-001015 /
TDLOFD-001015
LOFD-00101501 /
TDLOFD-00101501
LOFD-00101502 /
TDLOFD-00101502
Indicates the
proportion of
resources reserved
for non-GBR
services. A
proportion of
resources is
reserved
periodically to
prevent non-GBR
services from failing
to be allocated
resources. During
the periods when
resources are
reserved, resources
are scheduled
preferentially for
non-GBR services.
If this parameter is
set to 0, resources
are not reserved for
non-GBR services. NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
capacity factor for
downlink enhanced
proportional fair
(EPF) scheduling.
This factor affects
the scheduling
priorities of UEs
running services
with the QCI of 6, 7,
8, or 9, and
accordingly can be
used to adjust the
cell capacity and
fairness among
users.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
selection ratio
threshold for the
function of lowering
the modulation and
coding scheme
(MCS) index to
increase the
number of resource
blocks (RBs) with
priority for UEs
running services
with small packets.
The value 0
indicates that the
function of lowering
the MCS index is
disabled. The value
100 indicates that
the function is
always enabled.
NO
NO
NO
LOFD-00101502/
TDLOFD-00101502
Indicates the
resource block (RB)
allocation mode for
cell edge users
(CEUs) when
downlink ICIC is
enabled. If this
parameter is set to
ALL_EDGE_USER,
RBs in the current
transmission time
interval (TTI) are
firstly allocated to
cell center users
(CCUs) and then
allocated to all
CEUs. If this
parameter is set to
PART_EDGE_USE
R, RBs in the
current TTI are
firstly allocated to
CCUs and then
allocated to the
CEUs to which RBs
have not been
allocated within this
TTI.
NO
NO
NO
LBFD002025/TDLBFD002025
LOFD00101502/TDLOFD
-00101502
Indicates the
scheduling policy
used when
downlink ICIC is
enabled. If this
parameter is set to
EDGE_USER_NO_
PRIO, both cell
center users
(CCUs) and cell
edge users (CEUs)
can preempt edge
bands, thereby
improving CCUs'
performance. If this
parameter is set to
EDGE_USER_PRI
O, CCUs are
scheduled at both
the center band and
the edge band only
after CEUs have
been scheduled at
the edge band, and
therefore CEUs'
performance
improves.
NO
NO
NO
LBFD002025/TDLBFD002025
LOFD00101502/TDLOFD
-00101502
RBs are allocated
to UEs at the
current TTI; (2) If
the number of
required RBGs is
greater than N but
less than N+1 (N is
greater than or
equal to 1), RBs of
N+1 RBGs are
allocated to UEs in
the current TTI. If
this parameter is
set to ROUND_UP
or ADAPTIVE, RBs
are allocated to
UEs in the same
way that they are
allocated when this
parameter is set to
ROUND_UP or
ADAPTIVE for
services whose QCI
is not 1,
respectively. For
ping services: If the
number of required
RBGs is greater
than N but less than
N+1 (N is greater
than or equal to 0),
RBs of N+1 RBGs
are allocated to
UEs in the current
TTI regardless of
the actual
parameter setting. NO
Indicates the
maximum number
of downlink hybrid
automatic repeat
request (HARQ)
transmissions. For
details, see 3GPP
TS 36.331.
NO
NO
LBFD002025/TDLBFD002025
LOFD00101502/TDLOFD
-00101502
NO
NO
NO
LBFD002025/TDLBFD002025
Indicates the weight
for scheduling nonGBR services with
long scheduling
delay.
NO
NO
NO
LOFD-070208
Indicates the
duration within
which the eNodeB
performs downlink
scheduling based
on a low modulation
and coding scheme
(MCS) order in
handovers. The
eNodeB starts this
timer after
determining a UE
has entered the
handover area or
has been handed
over to the target
cell. The eNodeB
performs downlink
scheduling based
on a low MCS order
during the running
of this timer. After
the timer expires,
the eNodeB
performs downlink
scheduling based
on a new MCS
order after CQI
adjustment.
NO
NO
NO
LBFD-002025 /
TDLBFD-002025
LOFD-00101502 /
TDLOFD-00101502
Indicates whether
to perform downlink
rank optimization. If
this parameter is
set to OFF, the
eNodeB uses the
rank received from
a UE to schedule
the UE. If the
baseband
processing unit
determines that the
received rank is
unsuitable for UE
scheduling, the
eNodeB schedules
the UE based on
rank 1. If this
parameter is set to
ON, the eNodeB
optimizes the
received rank and
schedules the UE
based on the
optimized rank. If
the baseband
processing unit
determines that the
received rank is
unsuitable for UE
scheduling, the
eNodeB does not
optimize the
received rank and
schedules the UE
based on the rank
used last time.
NO
NO
NO
LBFD-002025 /
TDLBFD-002025
LOFD-00101502 /
TDLOFD-00101502
LOFD-001060 /
TDLOFD-001060
LOFD-001001 /
TDLOFD-001001
Indicates the
method for
measuring the
Doppler frequency
offset that is applied
to frequency
selective scheduling
on the secondary
component carrier
(SCC) in carrier
aggregation (CA). If
this parameter is
set to FROMSCC,
the Doppler
frequency offset on
the SCC is
measured. If this
parameter is set to
FROMPCC, the
Doppler frequency
offset on the
primary component
carrier (PCC) is
measured no
matter whether the
SCC is configured
with an uplink
carrier, and then the
Doppler frequency
offset is applied to
frequency selective
scheduling on the
SCC after
converting downlink
frequencies of the
PCC and SCC.
NO
NO
NO
LAOFD-00100101 /
TDLAOFD00100101
LAOFD-00100102 /
TDLAOFD00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the semipersistent
scheduling period in
the downlink. This
parameter applies
only to LTE TDD
cells. In FDD mode,
the downlink semipersistent
scheduling period is
set to a fixed value,
which is 20 ms. If
this parameter is
set to ms20 or
ms40, the downlink
semi-persistent
scheduling period is
20 ms or 40 ms,
respectively.
NO
NO
NO
TDLOFD-001016
period: (1) this
parameter is set to
SINGLEUSER_ST
RATEGY; (2) the
service is the only
service to be
scheduled in the
cell; (3) the
proportion of the
transmission time
intervals (TTIs) in
which RBs are
expected to be
surplus is less than
a specified
threshold. If this
parameter is set to
MULTIUSER_STRA
TEGY, the policy is
applied to the last
capability-limited
UE to be
scheduled. If this
parameter is set to
MULTIUSER_STRA
TEGY and the
proportion of TTIs
in which RBs are
expected to be
surplus is less than
a specified
threshold within a
measurement
period, this strategy
is applied to the last
UE to be
scheduled.
NO
NO
NO
LOFD-00101501 /
TDLOFD-00101501
LOFD-00101502 /
TDLOFD-00101502
dedicated to LTE
TDD cells. If the
DETECTRANK2AD
JSWITCH check
box is cleared, the
UE does not
perform rank 2
detection when
reporting rank 1. In
this case, the UE
performs singlecodeword
scheduling. If the
DETECTRANK2AD
JSWITCH check
box is selected, the
UE performs rank 2
detection when
reporting rank 1. If
the
DETECTRANK1AD
JSWITCH check
box is cleared, the
UE does not
perform rank 1
detection when
reporting rank 2. In
this case, the UE
performs dualcodeword
scheduling. If the
DETECTRANK1AD
JSWITCH check
box is selected, the
UE performs rank 1
detection when
reporting rank 2.
NO
NO
NO
TDLOFD-001001
Indicates whether
the TDD special
subframes are used
for downlink
scheduling.
If the parameter is
set to SCH, TDD
special subframes
are used for
downlink
scheduling.
If the parameter is
set to NSCH, TDD
special subframes
are not used for
downlink
scheduling.
NO
NO
NO
TDLBFD-002025
TDLOFD-00101502
Indicates the traffic
volume threshold of
a bearer above
which the bearer is
determined as a
bearer with large
packets in the
PDCCH and
PDSCH resource
allocation
optimization
mechanism when
traffic is heavy. If
this parameter is
set to 0, none of the
bearers is
determined as a
bearer with large
packets. If this
parameter is set to
a value ranging
from 1 to 1000000
(indicating a
threshold from 1 bit
to 1,000,000 bits), a
bearer whose traffic
to be scheduled is
greater than or
equal to this
parameter value is
determined as a
bearer with large
packets.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
threshold for the
number of
synchronized UEs
in a cell above
which the PDCCH
and PDSCH
resource allocation
optimization
mechanism is
activated in large
traffic volume
scenarios. If this
parameter is set to
a value ranging
from 0 to 10000
(indicating a
threshold from 0 UE
to 10,000 UEs), the
mechanism is
activated when the
number of
synchronized UEs
in the cell is greater
than or equal to this
parameter value.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates the
modulus for
calculating the
position of RBs to
be scheduled in
eNodeB-based
interference
randomization. This
parameter is added
to support
interference
randomization and
is dedicated to LTE
TDD cells.
NO
NO
NO
None
Indicates whether
DCI1A downlink
grant scheduling is
used for UEs in
transmit diversity
mode. This check
box is valid only for
LTE TDD cells.If
this check box is
selected and the
UE in transmit
diversity mode
requires singlecodeword
scheduling, the
DCI1A format can
be used for
downlink grant
scheduling, which
increases the
DCI1A coverage
area. If this check
box is cleared, the
downlink grant
scheduling is
performed in default
mode.
NO
NO
NO
TDLBFD002025/TDLOFD001015
Indicates the
threshold of
consecutive
discontinuous
transmissions
(DTXs) in the
downlink above
which the eNodeB
stops scheduling
the abnormal UE.
The parameter
value range is from
6 to 120.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
LBFD-002025 /
TDLBFD-002025
Indicates the code
rate for Random
Access Response
messages and
paging messages.
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
NO
NO
LBFD002011/TDLBFD002011 LBFD002010/TDLBFD002010
YES
NO
None
Indicates the
threshold for
triggering intrafrequency load
balancing. Intrafrequency load
balancing is started
if the cell load
exceeds the sum of
the threshold and
the offset, and is
stopped if the cell
load falls below the
threshold.
PRB_ONLY(PrbMo NO
de) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode), interfrequency load
balancing is
triggered when the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
MlbMinUeNumThd
and
MlbMinUeNumOffs
et parameter values
and the PRB usage
of the cell is greater
than or equal to the
sum of the
InterFreqMlbThd
and LoadOffset
parameter values.
Load balancing
stops when the
PRB usage of the
cell or the number
of synchronized
UEs falls below the
value of the
InterFreqMlbThd
parameter or the
value of the
MlbMinUeNumThd
parameter,
respectively.
NO
NO
NO
None
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates the
threshold of the
PRB usage for
triggering inter-RAT
load sharing. InterRAT load sharing is
triggered if the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterRatMlbUeNum
Thd and
InterRatMlbUeNum
Offset parameter
values and the PRB
usage of the cell is
greater than or
equal to the
InterRatMlbThd and
LoadOffset
parameter values.
Inter-RAT load
sharing stops if the
number of
synchronized UEs
in the cell is less
than the
InterRatMlbUeNum
Thd parameter
value or the PRB
usage of the cell is
less than the
InterRatMlbThd
parameter value.
NO
NO
NO
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
Indicates the period
of the inter-cell load
exchange. This
parameter is
contained in the
load exchange
request message. If
the source cell
sends a load
exchange request
message containing
a period, the target
cell reports its load
to the source cell at
intervals based on
the period. If the
source cell sends
such a message
without a period,
the target cell
reports its load to
the source cell at a
default interval of
5s.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
sharing is triggered
if the number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterRatMlbUeNum
Thd and
InterRatMlbUeNum
Offset parameter
values and the PRB
usage of the cell is
greater than or
equal to the
InterRatMlbThd and
LoadOffset
parameter values.
Inter-RAT load
sharing to transfer
to-be-released UEs
is triggered if the
number of
synchronized UEs
is greater than or
equal to the sum of
the
InterRATIdleMlbUe
NumThd and
InterRatMlbUeNum
Offset parameter
values and the PRB
usage of the cell is
greater than or
equal to the sum of
the InterRatMlbThd
and LoadOffset
parameter values. NO
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
Indicates the
threshold of PRB
usage difference
between the serving
cell and a
neighboring cell.
When the result of
the PRB usage of
the serving cell
minus that of a
neighboring cell is
greater than the
parameter value,
this neighboring cell
can be a target cell
for mobility load
balancing (MLB).
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
synchronized UEs
in the cell is less
than the
InterRatMlbUeNum
Thd parameter
value or the PRB
usage of the cell is
less than the
InterRatMlbThd
parameter value.
The actual
threshold of the
number of
synchronized UEs
equals the
percentage value
multiplied by
1000.For example,
parameter value 1
indicates that the
threshold for the
number of
synchronized UEs
is 10 (1000 x 1%),
parameter value 2
indicates threshold
20, and parameter
value 10 indicates
threshold 100. Note
that if the
parameter value is
100 or 99, the
threshold for the
number of
synchronized UEs
is 1 or 2,
respectively.
NO
NO
NO
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
Indicates the
standard valid
duration for load
sharing with
universal terrestrial
radio access
network (UTRAN)
for UEs in idle
mode. The actual
duration increases
on the basis of a
standard valid
duration with the
increase of the
number of uplinksynchronized UEs. NO
NO
NO
LOFD-001044 /
TDLOFD-001044
Indicates the
control factor for the
amount of a single
load transfer. The
value of this
parameter has an
impact on the
efficiency of MLB
algorithm and the
algorithm to prevent
ping-pong load
transfer.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates the
mobility load
balancing (MLB)
triggering mode.
The parameter
value
PRB_ONLY(PrbMo
de) indicates that
MLB can be
triggered by the
PRB usage. The
parameter value
UE_NUMBER_ONL
Y(UeNumMode)
indicates that MLB
can be triggered by
the number of UEs.
The parameter
value
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode) indicates
that MLB can be
triggered by either
the PRB usage or
the number of UEs. NO
NO
NO
LOFD-070215 /
TDLOFD-070215
Indicates the
threshold of the
number of
synchronized UEs
for triggering interfrequency load
balancing. When
the MlbTriggerMode
parameter is set to
UE_NUMBER_ONL
Y(UeNumMode) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode), interfrequency load
balancing is
triggered if the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterFreqMlbUeNu
mThd and
MlbUeNumOffset
parameter values.
Inter-frequency load
balancing stops if
the number of
synchronized UEs
in the cell is less
than the
InterFreqMlbUeNu
mThd parameter
value.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
Indicates the offset
of the number of
synchronized UEs
for triggering interfrequency load
balancing. Usernumber-based
inter-frequency load
balancing is
triggered if the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterFreqMlbUeNu
mThd and
MlbUeNumOffset
parameter values.
User-number-based
inter-frequency load
balancing to
transfer to-bereleased UEs is
triggered if the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterFreqIdleMlbUe
NumThd and
MlbUeNumOffset
parameter values. NO
NO
NO
LOFD-070215 /
TDLOFD-070215
Indicates the
maximum number
of UEs that can be
transferred to interfrequency
neighboring cells
within a load
balancing period
under different
trigger conditions.
This parameter is
used to prevent too
many UEs from
being transferred to
inter-frequency
neighboring cells
within a load
balancing process
and the load in
inter-frequency
neighboring cells
from increasing
significantly.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
UEs whose PRB
usage is equal to or
less than this
parameter value.
(3) If the
MlbTriggerMode
parameter is set to
PRB_OR_UE_NUM
BER and load
balancing is
triggered by the
PRB usage, the
eNodeB selects
UEs for load
balancing in the
same way as that
when the
MlbTriggerMode
parameter is set to
PRB_ONLY. If the
MlbTriggerMode
parameter is set to
PRB_OR_UE_NUM
BER and load
balancing is
triggered by the
number of activated
UEs in the serving
cell, the eNodeB
selects UEs for load
balancing in the
same way as that
when the
MlbTriggerMode
parameter is set to
UE_NUMBER_ONL
Y.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
Indicates the MLB
mode for downlink
data transfer. If this
parameter is set to
UeNumBased, the
downlink data
transfer MLB
algorithm is
enabled. If this
parameter is set to
NON_TRIGGERED
, the downlink data
transfer MLB
algorithm is
disabled.
This parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates whether
to enable operatorlevel interfrequency load
balancing. If this
parameter is set to
SHARING,
operator-level interfrequency load
balancing is
enabled and interfrequency load
balancing is
performed based
on the reserved
resources of each
operator. If this
parameter is set to
NON_SHARING,
the eNodeB
performs load
balancing without
distinguishing
operators and
performs cell-level
inter-frequency load
balancing.
NO
NO
NO
LOFD-070204 /
TDLOFD-070204
Indicates the
proportion threshold
for determining
whether a
neighboring cell can
be a target cell in
load balancing.
Providing that the
number of
synchronized UEs
in the serving cell is
value "A" and that
in a neighboring cell
is value "B", the
proportion threshold
is calculated by "A"
dividing the value of
"A" minus "B". If a
calculated
proportion is greater
than this parameter
value, the
neighboring cell
involved in the
calculation can be a
target cell in load
balancing.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
Indicates whether
the inter-RAT load
balancing to
UTRAN is
performed only on
UEs in hotspots.
This parameter is
dedicated to LTE
TDD cells.
NO
NO
TDLOFD-001044
NO
Indicates the interfrequency load
balancing mode for
UEs in idle mode. If
the Proportion
check box under
this parameter is
selected, the
eNodeB transfers
normally released
UEs to frequencies
based on the preset
proportions for
neighboring
frequencies of the
serving frequency
so that load
balancing for UEs
in idle mode is
achieved. This
parameter is valid
only when the
Proportion check
box is selected.
NO
NO
NO
LOFD001032/TDLOFD001032
parameter is set to
PRB_ONLY(PrbMo
de) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode), load
balancing is
triggered if the PRB
usage of the cell is
greater than or
equal to the sum of
InterFreqMlbThd
and LoadOffset
parameter values
and the number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
MlbMinUeNumThd
and
MlbMinUeNumOffs
et parameter
values. Load
balancing stops
when the PRB
usage of the cell or
the number of
synchronized UEs
falls below the
value of the
InterFreqMlbThd
parameter or the
value of the
MlbMinUeNumThd
parameter,
respectively.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates the offset
of the minimum
number of
synchronized UEs
for triggering interfrequency load
balancing. If the
MlbTriggerMode
parameter is set to
PRB_ONLY(PrbMo
de) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode), interfrequency load
balancing is
triggered when the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
MlbMinUeNumThd
and
MlbMinUeNumOffs
et parameter values
and the PRB usage
of the cell is greater
than or equal to the
sum the
InterFreqMlbThd
and LoadOffset
parameter values. NO
NO
NO
LOFD-001032 /
TDLOFD-001032
transferred for interfrequency usernumber-based load
balancing.If the
PrbMlbSynchronize
dUE check box is
selected,
synchronized UEs
are transferred for
inter-frequency
PRB-based load
balancing.This
parameter is
dedicated to LTE
TDD cells.If the
PrbMlbIdleUE
check box is
selected, UEs in
idle mode are
transferred for interfrequency PRBbased load
balancing.This
parameter is
dedicated to LTE
TDD cells.If multiple
check boxes are
selected, multiple
uplink synchronized
UEs and UEs in idle
mode are
transferred for load
balancing.If no
check box is
selected, no UE is
transferred for load
balancing.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
frequency load
balancing to
transfer to-bereleased UEs.
When the
MlbTriggerMode
parameter is set to
UE_NUMBER_ONL
Y(UeNumMode) or
PRB_OR_UE_NUM
BER(PrbOrUeNum
Mode), interfrequency load
balancing to
transfer to-bereleased UEs is
triggered if the
number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterFreqIdleMlbUe
NumThd and
MlbUeNumOffset
parameter values.
Inter-frequency load
balancing to
transfer to-bereleased UEs stops
if the number of
synchronized UEs
in the cell is less
than the
InterFreqIdleMlbUe
NumThd parameter
value.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
for triggering interRAT load sharing to
transfer to-bereleased UEs. InterRAT load sharing to
transfer to-bereleased UEs is
triggered if the
number of
synchronized UEs
is greater than or
equal to the sum of
the
InterRATIdleMlbUe
NumThd and
InterRatMlbUeNum
Offset parameter
values and the PRB
usage of the cell is
greater than or
equal to the sum of
the InterRatMlbThd
and LoadOffset
parameter values.
Inter-RAT load
sharing to transfer
to-be-released UEs
stops if the number
of synchronized
UEs is less than the
InterRATIdleMlbUe
NumThd parameter
value or the PRB
usage of the cell is
less than of the
InterRatMlbThd
parameter value.
NO
NO
NO
LOFD001044/TDLOFD001044
LOFD001045/TDLOFD001045
UtranMlbSwitch or
GeranMlbSwitch
option of the
MlbAlgoSwitch
parameter is
selected, the
InterFreqMlbSwitch
or
InterFreqBlindMlbS
witch option of the
MlbAlgoSwitch
parameter is
selected, and the
FreqSelectStrategy
parameter is set to
PRIORITYBASED(
PriorityBased), the
values of the
InterRatLoadEvalPr
d and
InterFreqLoadEvalP
rd parameters must
be the same. If the
two parameters are
set to different
values, the
evaluation period
specified by the
InterRatLoadEvalPr
d parameter is
adapted when both
cell-level interfrequency load
balancing and interRAT load sharing
are triggered at the
same time.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
the UtranMlbSwitch
or GeranMlbSwitch
option of the
MlbAlgoSwitch
parameter is
selected, the
InterFreqMlbSwitch
or
InterFreqBlindMlbS
witch option of the
MlbAlgoSwitch
parameter is
selected, and the
FreqSelectStrategy
parameter is set to
PRIORITYBASED(
PriorityBased), the
values of the
InterRatLoadEvalPr
d and
InterFreqLoadEvalP
rd parameters must
be the same. If the
two parameters are
set to different
values, the
evaluation period
specified by the
InterRatLoadEvalPr
d parameter is
adapted when both
cell-level interfrequency load
balancing and interRAT load sharing
are triggered at the
same time.
NO
NO
NO
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
parameter is set to
PRIORITYBASED(
PriorityBased), the
frequency with the
highest priority
among all intra-RAT
neighboring
frequencies and the
frequency with the
highest priority
among all inter-RAT
frequencies are
selected as target
frequencies
separately when
inter-frequency load
balancing and interRAT load sharing
are triggered
separately or both
operator-level interfrequency load
balancing and interRAT load sharing
are triggered
together; the
frequency with the
highest priority
among all
neighboring
frequencies when
both cell-level interfrequency load
balancing and interRAT load sharing
are triggered
together.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
parameter is
selected, and the
InterFreqBlindMlbS
witch option of the
MlbAlgoSwitch
parameter is not
selected, the
serving cell selects
all intra-eNodeB
inter-frequency
neighboring cells
and inter-eNodeB
inter-frequency
neighboring cells
configured with X2
interfaces as
candidate cells for
inter-frequency load
balancing. If this
parameter is set to
ALL(All) and the
InterFreqBlindMlbS
witch option of the
MlbAlgoSwitch
parameter is
selected regardless
the setting of the
InterFreqMlbSwitch
option of the
MlbAlgoSwitch
parameter, the
serving cell selects
all inter-frequency
neighboring cells as
candidate cells for
inter-frequency load
balancing.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
when the PRB
usage of the cell is
greater than or
equal to the sum of
the InterRatMlbThd
and LoadOffset
parameter values
and the number of
synchronized UEs
in the cell is greater
than or equal to the
sum of the
InterRatMlbUeNum
Thd and
InterRatMlbUeNum
Offset parameter
values. Inter-RAT
load sharing to
transfer to-bereleased UEs is
triggered if the
number of
synchronized UEs
is greater than or
equal to the sum of
the
InterRATIdleMlbUe
NumThd and
InterRatMlbUeNum
Offset parameter
values and the PRB
usage of the cell is
greater than or
equal to the sum of
the InterRatMlbThd
and LoadOffset
parameter values. NO
NO
NO
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
LOFD-070215 /
TDLOFD-070215
Indicates the
frequency selection
policy for interfrequency idle MLB.
If this parameter is
set to
LOADINFOFREQ,
frequencies
capable of
obtaining load
information can be
used as the target
frequencies for
inter-frequency
MLB in idle mode. If
this parameter is
set to ALLFREQ, all
frequencies can be
used as the target
frequencies for
inter-frequency
MLB in idle mode,
including interfrequency
EARFCNs carrying
or not carrying
information.
NO
Indicates the
strategy for
selecting UEs in
inter-RAT load
sharing triggered by
the PRB usage. If
this parameter is
set to
PRBRATIOHIGHM
ODE, the eNodeB
transfers UEs
whose PRB usage
is greater than the
MlbUeSelectPrbTh
d parameter value
but less than the
half of the
LoadDiffThd
parameter value. If
this parameter is
set to
PRBRATIOLOWM
ODE, the eNodeB
transfers UEs
whose PRB usage
is less than or equal
to the
InterRatMlbUeSelPr
bThd parameter
value.
NO
NO
NO
NO
TDLOFD-070215
NO
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
Indicates the PRB
usage threshold for
selecting UEs in
inter-RAT load
sharing triggered by
the PRB usage.
UEs whose PRB
usage is less than
or equal to this
threshold are
selected when the
InterRatMlbUeSelSt
rategy parameter
value is
PRBRATIOLOWM
ODE.
NO
NO
NO
LOFD-001044 /
TDLOFD-001044
LOFD-001045 /
TDLOFD-001045
Indicates the PRB
load calculation
method when the
Mobility Load
Balancing Trigger
Mode parameter is
set to PRB_ONLY
or
PRB_OR_UE_NUM
BER. The
parameter value
PRB_USAGE
indicates that the
PRB load is
calculated based on
the PRB usage in
traffic channels.
The parameter
value
PRB_VALUATION_
WITH_CTRL
indicates that the
PRB load is
calculated based on
the PRB evaluation
in both traffic and
control channels.
This parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
Indicates the length
of the timer for
punishing UEs that
are selected for
MLB but fail to be
transferred to target
cells. Before the
timer expires, the
UEs cannot be
transferred for MLB.
This parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLOFD-001032
the secondary
strongest
neighboring cells
when the eNodeB
cannot initiate a
handover to the
strongest
neighboring cell
triggered by loadinformationexchange-based
inter-frequency load
balancing.
If this parameter is
set to
PERMIT_NON_ST
RONGEST_CELL(
Permit Trying NonStrongest Cell), the
eNodeB is allowed
to initiate a
handover to one of
the secondary
strongest
neighboring cells in
the preceding
scenario. If this
parameter is set to
ONLY_STRONGES
T_CELL(Only Try
Strongest Cell), the
eNodeB can only
initiate a handover
to the strongest
neighboring cell in
the preceding
scenario.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-070215 /
TDLOFD-070215
Indicates the Local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the CCE
aggregation level
for common
signaling.
NO
NO
LBFD-002003 /
TDLBFD-002003
NO
Indicates the CCE
ratio adjustment
switch for the
PDCCH. If this
switch is turned on,
the resource
allocation algorithm
of the PDCCH
dynamically adjusts
the UL and DL CCE
ratios within each
transmission time
interval (TTI) based
on CCE usages in
UL and DL. If this
switch is turned off,
the UL and DL CCE
ratios are not
dynamically
adjusted.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the
threshold of
isolation for
deciding whether to
enable PDCCH
selective
transmission in
adaptive
SFN/SDMA
scenarios. For an
UE, if the ratio
between the RSRP
of strong signals
and that of weak
signals from
multiple RRUs in an
SFN cell is equal to
or greater than the
value of this
parameter, the
power of weak
signals is not
transmitted.This
parameter takes
effect only for LTE
TDD cells.
NO
NO
NO
TDLOFD-002008
switch for dynamic
adjustment of the
number of OFDM
symbols occupied
by the PDCCH is
turned off, this
parameter indicates
the number of
OFDM symbols that
are always
occupied by the
PDCCH. If the
switch is turned on
and the bandwidth
is 1.4 MHz or 3
MHz, the PDCCH
occupies 4 or 3
OFDM symbols, in
this scenario, this
parameter cannot
be manually set.. If
the switch is turned
on and the
bandwidth is 5
MHz, 10 MHz, 15
MHz, or 20 MHz,
the eNodeB adjusts
the number of
OFDM symbols in
the range of 1, 2,
and 3 when this
parameter is set to
the default value 1,
or in the range of 2
and 3 when this
parameter is set to
2 or 3.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the
percentage of the
number of virtually
loaded PDCCH
CCEs when the
PDCCH power
control switch is
turned off, or
indicates the
percentage of the
power of virtually
loaded PDCCH
CCEs when the
PDCCH power
control switch is
turned on. This
parameter is used
to analyze the
impact of the
parameter values
on PDCCH
demodulation
performance and
provide reference to
intra-frequency
networking in LTE. NO
NO
NO
LBFD-002003 /
TDLBFD-002003
physical downlink
control channel
(PDCCH). If this
parameter is set to
OFF, the number of
OFDM symbols
occupied by the
PDCCH is fixed and
cannot be
dynamically
adjusted. If this
parameter is set to
ON, the number of
OFDM symbols
occupied by the
PDCCH is
dynamically
adjusted based on
the required
number of PDCCH
control channel
elements (CCEs). If
this parameter is
set to
ECFIADAPTIONON
, the number of
OFDM symbols
occupied by the
PDCCH is
dynamically
adjusted based on
the cell downlink
throughput, and the
adjustment
performance is the
best among the
three methods.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the upper
limit for the CCE
usage within each
transmission time
interval (TTI). When
the switch for
dynamically
adjusting the
number of OFDM
symbols on the
PDCCH is turned
on, the parameter
setting is invalid,
that is, the CCE
usage within each
TTI cannot be
limited. This
parameter is valid
only in TDD mode. NO
Indicates the switch
used to enable or
disable closed-loop
adjustment to the
PDCCH
aggregation level. If
this switch is turned
on, PDCCH
aggregation level is
adjusted based on
the block error rate
(BLER) of the
PDCCH. If this
switch is turned off,
PDCCH
aggregation level is
not adjusted based
on the BLER of the
PDCCH.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates whether
to enable virtual
loading for Digital
PreDistortion
(DPD).This
parameter is valid
only for LTE TDD
cells.
NO
NO
NO
None
Indicates the virtual
load type for Digital
PreDistortion
(DPD).This
parameter is valid
only for LTE TDD
cells.
NO
NO
NO
None
codeword
scenarios. In
capacity-based
CCE aggregation
level selection of
the PDCCH, set this
parameter to
STRATEGYBASED
ONCAPACITY. In
this situation, the
average CCE
aggregation level of
the PDCCH in dualcodeword scenarios
decreases, and
more UEs can be
supported on the
PDCCH. In
coverage-based
CCE aggregation
level selection of
the PDCCH, set this
parameter to
STRATEGYBASED
ONCOVERAGE. In
this situation, both
the average CCE
aggregation level of
the PDCCH in dualcodeword scenarios
and cell coverage
performance
increase. This
parameter is set to
STRATEGYBASED
ONCAPACITY by
default.
NO
NO
NO
None
fail to be allocated
to a UE, the
eNodeB reallocates
CCEs to the UE by
increasing the
PDCCH transmit
power and
decreasing the
PDCCH
aggregation level
for the UE. If this
parameter is set to
OFF: (1) the initial
value for closedloop adjustment on
PDCCH
aggregation level
applies to both
SRBs and data
radio bearers
(DRBs); (2) the
eNodeB does not
reserve uplink
CCEs when
allocating downlink
CCEs; (3) if a UE
fails to be allocated
with CCEs, the
eNodeB does not
reallocate CCEs to
the UE by
increasing the
PDCCH transmit
power and
decreasing the
PDCCH
aggregation level. NO
NO
NO
LBFD-002003
Indicates the
maximum coding
rate on the PDCCH.
The coding rate on
the PDCCH cannot
exceed this
parameter value.
Otherwise the
PDCCH
aggregation level
must be increase. NO
NO
NO
LBFD-002003 /
TDLBFD-002003
indicating both
uplink and downlink
scheduling and
controlling
information, if the
PDCCH Symbol
Number Adjust
Switch parameter is
set to ON, the
number of OFDM
symbols occupied
by the PDCCH is as
follows: On the
bandwidth of 5
MHz, the PDCCH
occupies 2 or 3
OFDM symbols. (In
this case, the
configuration of this
parameter is
invalid.) On the
bandwidth of 10
MHz, 15 MHz, or 20
MHz, the PDCCH
occupies 1, 2, or 3
OFDM symbols
when this
parameter is set to
1, and the PDCCH
occupies 2 or 3
OFDM symbols
when this
parameter is set to
2 or 3. This
parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
TDLBFD-002003
Indicates the
adaptive strategy of
the PDCCH
aggregation level.
The
STRATEGYBASED
ONCOVERAGE
check box is
selected for this
parameter by
default. In this case,
a higher
aggregation level is
applied, and
therefore the cell
that the control
channel serves has
better coverage.
However, the
number of
scheduling UEs
carried by the
control channel
decreases. If the
STRATEGYBASED
ONCAPACITY
check box is
selected, a lower
aggregation level is
applied, and the
control channel
carries more
scheduling UEs.
This parameter is
dedicated to LTE
TDD cells.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the
hysteresis of control
format indicator
(CFI) number
increase caused by
uplink preallocation
failures when the
PdcchSymNumSwit
ch parameter is set
to
ECFIADAPTIONON
. If the
HysForCfiBasedPre
Sch parameter is
set to 0,
preallocation
failures do not
trigger CFI number
increase.
NO
NO
NO
LBFD-002003
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
threshold for the
low load state of the
SRI resources. The
SRI resources enter
the low load state if
the PUCCH
resource allocation
algorithm detects
that the number of
admitted UEs is
smaller than the
value of this
parameter.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
LBFD-001001 /
TDLBFD-001001
Indicates the type
of the cell frame
offset.
CustomFrameOffse
t: indicates a userdefined frame
offset.
TL_FrameOffst:
indicates the frame
offset automatically
set based on the
subframe
configuration in a
TD-SCDMA+LTE
TDD dual-mode
network.
TL_FrameOffset_S
A2_SSP5: indicates
the frame offset
automatically set
based on the
subframe
configuration 2 and
special subframe
configuration 5 in a
TD-SCDMA+LTE
TDD dual-mode
network.
NO
NO
NO
None
Indicates the time
delay of the frame
start time for all
TDD E-UTRAN
cells to the time of
the reference clock. NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the time
when the cell notraffic detection
starts. If the stop
time is earlier than
or the same as the
start time, the end
time is assumed to
be a time of the
next day. If the
timer for reporting
the no-traffic alarm
is not set to 0, the
eNodeB performs
the cell no-traffic
detection from the
start time to the
stop time.
NO
NO
NO
LOFD-002010
Indicates the time
when the cell notraffic detection
stops. If the stop
time is earlier than
or the same as the
start time, the stop
time is assumed to
be a time of the
next day. If the
timer for reporting
the no-traffic alarm
is not set to 0, the
eNodeB performs
the cell no-traffic
detection from the
start time to the
stop time.
NO
NO
NO
LOFD-002010
Indicates the length
of the timer for the
cell no-traffic
detection. If there is
no traffic in the cell
within the duration
specified by this
parameter, the
eNodeB reports the
no-access alarm
and resets the cell.
If this parameter is
set to 0, the cell notraffic detection is
not performed. If
the timer for
reporting the notraffic alarm is set
to a non-zero value,
the eNodeB
performs the cell
no-traffic detection
from the start time
to the stop time.
NO
NO
NO
LOFD-002010
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the band
division scheme
used in uplink ICIC.
The band division in
the cell is changed
according to the
setting of this
parameter so that
the edge bands do
not overlap
between
neighboring cells. If
this parameter is
set to INVALID, the
cell does not
distinguish center
and edge bands.
NO
NO
Indicates the local
identity of the cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
number of RBs that
are interfered by
GERAN at each
end of the LTE DL
frequency band. If
the numbers of
such RBs are
different at both
ends, the larger
number is used as
the value of this
parameter.
If this parameter is
set to 3, three RBs
are interfered by
GERAN at each
end of the LTE DL
frequency band and
altogether six RBs
are interfered.
NO
NO
NO
MRFD-231808
Indicates the SINR
threshold for
determining
whether DL RB
resources of an EUTRAN cell using
the LTE frequency
spectrum that
overlaps the GSM
frequency spectrum
are available. If the
result of the local
cell RSRP plus 11.2
and minus the RSSI
of the GERAN cell
that brings the
severest
interference is
greater than the
value of this
parameter, UEs can
use these RB
resources.
Otherwise, UEs
cannot use these
RB resources. UEs
measure the local
cell RSRP and the
RSSI of the
GERAN cell that
brings the severest
interference and
report the
measurement
results to the
eNodeB.
NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the index
of a simulated load
configuration. One
eNodeB can store a
maximum of 10
simulated load
configurations.
They are identified
by indexes ranging
from 0 to 9 and
correspond to RB
usage thresholds
(specified by the
SimuLoadRbThd
parameter) 10% to
100% at a step of
10%. For example,
the RB usage
thresholds for
simulated load
configurations 1
and 4 are 20% and
50%, respectively.
Alternatively, you
can also manually
specify the RB
usage threshold for
a simulated load
configuration by
setting the
SimuLoadRbThd
parameter.
NO
NO
NO
None
Indicates the
transmission mode
adopted by the
simulated load
configuration for
beamforming in
TDD cells,
including:
TM1: indicates
transmission mode
1 for the simulated
load configuration.
TM2: indicates
transmission mode
2 for the simulated
load configuration.
TM7: indicates
transmission mode
7 for the simulated
load configuration.
TM8: indicates
transmission mode
8 for the simulated
load configuration. NO
NO
NO
None
Indicates the
number of RBs
allocated to a
simulated load
configuration in
downlink
scheduling.
NO
NO
YES
None
Indicates the
number of RBs
allocated for
commercial
services in downlink
scheduling.
NO
NO
YES
None
Indicates the power
allocated to a
simulated load
configuration in
downlink
scheduling.
NO
NO
YES
None
Indicates the power
allocated for
commercial
services in downlink
scheduling.
NO
NO
YES
None
Indicates the
number of UEs
allocated by a
simulated load
configuration in
downlink
scheduling.
NO
YES
None
NO
Indicates the
number of users to
be scheduled in
each transmission
time interval (TTI) in
downlink
scheduling.
NO
NO
YES
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
modification period
coefficient for the
BCCH. BCCH
modification period
is equal to
Modification period
coefficient
multiplies Default
paging cycle, where
the BCCH
modification period
and default paging
cycle are measured
in unit of radio
frames, and the
modification period
coefficient is
specified by this
parameter.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the offset
of the PCFICH
transmit power
relative to the
reference signal
power.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the offset
of the PBCH
transmit power
relative to the
reference signal
power.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the offset
of the transmit
power for the cell
synchronization
signals relative to
the reference signal
power.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the offset
of the transmit
power for broadcast
information on the
PDSCH channel
relative to the
reference signal
power.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the offset
of the transmit
power for the
paging information
on the PDSCH
channel relative to
the reference signal
power.
NO
NO
NO
LBFD-002011
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the offset
of the transmit
power for the
random access
responses on the
PDSCH channel
relative to the
reference signal
power.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the offset
of the pilot power
relative to the
reference signal
power.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LOFD-001047 /
TDLOFD-001047
Indicates the
transmit power for
the entire channel
bandwidth at each
antenna connector.
If the
AntRsPwrSwitch
option of the
RepeaterSwitch
parameter is
selected, this
parameter value is
used to calculate
the reference signal
(RS) power to be
delivered in system
information block
type 2 (SIB2).
NO
NO
NO
LBFD-002016
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the cell
reference signal
power of each
physical antenna.
However, the cell
reference signal
power delivered in
SIB2 is that of each
logical antenna.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the
scaling factor index
of the Energy Per
Resource Element
(EPRE) on the
PDSCH. This
scaling factor is
determined by the
value of this
parameter and the
antenna port. For
details, see 3GPP
TS 36.213.
NO
NO
NO
LBFD-002016 /
TDLBFD-002016
LBFD-002009 /
TDLBFD-002009
Indicates the cell
reference signal
power headroom of
each physical
antenna.
NO
NO
NO
None
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the step
by which the TX
power for random
access preambles
is increased each
time after a RACH
access failure. If
multiple attempts to
access the PRACH
fail, the UE
increases the TX
power for random
access preambles
by a step specified
by this parameter
each time after an
access failure to
ensure successful
access.
For details, see
3GPP TS 36.321.
NO
Indicates the target
UE transmit power
for the PRACH
expected by the
eNodeB when
PRACH preamble
format 0 is applied
on condition that
requirements for
preamble detection
performance are
met.
For details, see
3GPP TS 36.321.
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
LBFD-002026 /
TDLBFD-002026
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
LBFD-002026 /
TDLBFD-002026
Indicates the length
index for the
Zadoff-Chu
sequence that
generates the
random access
preamble.For
details about this
parameter,see
3GPP TS 36.211.
NO
Indicates the
threshold for
determining the size
of Msg3 when a UE
selects a preamble
from random
access preamble
group A during a
random access
procedure.
For details, see
3GPP TS 36.321.
NO
Indicates the offset
to the starting
position of each
PRACH in the
frequency domain
of the FDD cell.
NO
NO
NO
NO
YES
LBFD-001001 /
TDLBFD-001001
LBFD-002003 /
TDLBFD-002003
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
Indicates whether
to configure the
PRACH
configuration index
of the cell.
NO
Indicates the
PRACH
configuration index
of the cell. If cells
are established on
an LBBPc in a
4T4R scenario, the
PRACH
configuration
indexes of different
cells must be
separated in the
time domain.
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LOFD-002015 /
TDLOFD-002015
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
LOFD-002015 /
TDLOFD-002015
Indicates the
maximum number
of preamble
transmission times.
For details about
this parameter, see
3GPP TS 36.321.
NO
Indicates the period
that a UE waits for
message 4 (Msg4)
during a random
access (RA)
procedure. This
timer starts when a
UE initially sends or
resends message 3
(Msg3). If the UE
receives Msg4 or
the NACK to Msg3
before the timer
expires, the timer
stops. If the UE
does not receive
either message
until the timer
expires, the RA
fails, and the UE
must reinitiate an
RA procedure. For
details about this
parameter, see
3GPP TS 36.321.
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
Indicates the
maximum number
of HARQ
retransmissions of
the message 3. For
details about this
parameter, see
3GPP TS 36.321.
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell
within a BS.
YES
represents
configuration n. For
example, the value
SC0 indicates
subframe
configuration 0, and
the value SC1
indicates subframe
configuration 1. If
the cell operates in
FDD mode, the
value SC15 is
reserved. If the cell
operates in TDD
mode, the values
SC14 and SC15
are reserved. The
reserved values
cannot be used. For
the relationship
between the
subframe
configuration index
and the cell-specific
subframe
cycle/offset, see
3GPP TS 36.211. In
FDD mode, this
parameter is
permanently valid.
In TDD mode, this
parameter is valid
only if
TddSrsCfgMode is
set to
EXPERIENCE_FIR
ST.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002010 /
TDLBFD-002010
YES
NO
None
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates whether
the sounding
reference signal
(SRS) of a UE and
the ACK/NACK or
scheduling request
(SR) on the PUCCH
are allowed to use
the same time
resources for
simultaneous
transmission.
If this parameter is
set to
BOOLEAN_FALSE,
simultaneous
transmission is not
allowed. In this
situation, the UE
discards the SRS
and only transmits
the ACK/NACK or
SR on the PUCCH.
If this parameter is
set to
BOOLEAN_TRUE,
simultaneous
transmission is
allowed. In this
situation, the UE
transmits truncated
ACK/NACK or SR.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
indicates that SRS
resources are
available in the cell
and can be
configured for UEs
in the cell. The
value
BOOLEAN_FALSE
indicates that no
SRS resource is
available in the cell,
and therefore no
UE in the cell is
configured with
SRS resources.
This parameter
does not take effect
on: (1) an FDD cell
that is established
on an LBBPc and
uses four or more
RX antennas; (2)
an FDD cell that is
established on an
LBBPc and uses
extended cyclic
prefix (CP) in the
uplink; (3) a TDD
cell established on
an LBBPc. If this
parameter does not
take effect on a cell
but SRS resources
are available in the
cell, SRS resources
can be configured
for UEs in the cell. NO
NO
NO
LBFD-002003 /
TDLBFD-002003
experience (for
example,
beamforming
performance) is
used. CAPS is
short for call
attempt per second.
If this parameter is
set to
EXPERIENCE_EN
HANCED, users
can get better DL
user experience
than that in
EXPERIENCE_FIR
ST mode. This
parameter cannot
be set to
EXPERIENCE_EN
HANCED if the
LBBPc is used. If a
cell is established
on an LBBPc but
this parameter is
set to
EXPERIENCE_EN
HANCED,
EXPERIENCE_EN
HANCED is
automatically
changed to
EXPERIENCE_FIR
ST when this
parameter takes
effect. This
parameter is valid
only in TDD mode. NO
NO
NO
TDLBFD-002003
SRS resources are
allocated to UEs
that access the
network. If this
parameter is set to
ADAPTIVEMODE,
SRS resource
allocation can be
adaptively activated
or deactivated
based on the cell
load. The
parameter value
ADAPTIVEMODE
takes effect only in
cells established on
LBBPd or UBBPd
boards. After this
parameter is set to
ADAPTIVEMODE,
parameters
SrsAlgoSwitch,
SrsSubframeCfg,
SrsPeriodAdaptive,
and
UserSrsPeriodCfg
do not take effect.
The parameter
value
ADAPTIVEMODE is
recommended in
scenarios where
there is a large
number of UEs in
the cell and the
traffic volume is
large.
NO
NO
NO
LBFD-002003
Indicates the cellspecific SRS
bandwidth. It
corresponds to the
srsBandwidthConfig
parameter in the
protocol. For
details, see 3GPP
TS 36.211.
NO
YES
LBFD-002003 /
TDLBFD-002003
YES
NO
None
NO
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
Indicates the
PHICH duration
type. If this
parameter is set to
NORMAL, the
number of OFDM
symbols occupied
by the PDCCH is
automatically
adjusted. If this
parameter is set to
EXTENDED, the
number of OFDM
symbols occupied
by the PDCCH is
fixed. Specifically,
this number is fixed
to 3 or 4 for 1.4
MHz cells and 3 for
cells with other
bandwidths. For the
mapping between
the type and the
duration, see 3GPP
TS 36.211.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
LOFD-001051
LBFD-002009 /
TDLBFD-002009
Indicates a
coefficient that is
used to calculate
the resources used
by the PHICH for
the cell. It
corresponds to the
Ng parameter in the
protocol.
For details on the
usage of the Ng
parameter, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
LOFD-001051
LBFD-002009 /
TDLBFD-002009
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
default paging
period for the cell. It
is also called the
discontinuous
reception (DRX)
period. If the EPC
specifies a DRX
period for a UE, the
UE compares this
period with the
value of this
parameter and uses
the smaller one as
its DRX period. If
the EPC does not
specify a DRX
period, the UE uses
the value of this
parameter, which is
delivered in the
system information,
as its DRX period.
For details, see
3GPP TS 36.304.
NO
Indicates the
number of paging
occasions (a type of
subframe) within a
paging period. This
parameter value
also indicates the
number of paging
groups within a
paging period. For
details, see 3GPP
TS 36.304.
NO
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002011 /
TDLBFD-002011
NO
LBFD-002009 /
TDLBFD-002009
LBFD-002011 /
TDLBFD-002011
Indicates the
number of paging
messages
transmitted to UEs
over the air
interface.
NO
NO
NO
LBFD-002011 /
TDLBFD-002011
Indicates the
maximum number
of UEs that can be
included in a paging
message on each
paging occasion.
NO
NO
NO
LBFD-002011 /
TDLBFD-002011
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
number of PUSCH
sub-bands.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
hopping mode of
the PUSCH.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the
hopping offset of
the PUSCH.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
group hopping of
the PUSCH is
enabled.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the group
assignment of the
PUSCH.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
sequence hopping
of the PUSCH is
enabled.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the cyclic
shift of the PUSCH.
For details, see
3GPP TS 36.211.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
64QAM of the
PUSCH is enabled.
For details, see
3GPP TS 36.211.
NO
NO
NO
LOFD-001006 /
TDLOFD-001006
Indicates the local
ID of the cell. It
uniquely identifies a
cell within a BS.
YES
YES
NO
None
Indicates the
interval between
cyclic shifts used
for the PUCCH. The
interval between
cyclic shifts used
for the PUCCH can
be acquired based
on the average
delay spread in the
cell, where the
average delay
spread is acquired
based on the
networking
environment. The
parameter value
DS1_DELTA_SHIF
T is not supported
by the LBBPc. If a
cell is established
on an LBBPc but
this parameter is
set to
DS1_DELTA_SHIF
T, the value of this
parameter is
automatically
changed to
DS2_DELTA_SHIF
T when this
parameter takes
effect. For details,
see 3GPP TS
36.211.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the
number of resource
indexes allocated to
SRI and semipersistent ACK at
the RRC layer for
the FDD cell. If this
parameter is set to
0, UEs may fail to
access the cell.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the
number of RBs
allocated to the CQI
at the RRC layer of
FDD cell.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
Indicates the total
number of RBs at
the two ends of the
system band that
are reserved for the
PUSCH. This
parameter is valid
only when the
PUCCH flexible
configuration switch
(PucchFlexCfgSwitc
h) is turned on. The
parameter setting
must consider the
number of RBs
used by the
PRACH, SRS, and
PUCCH as well as
the number of RBs
compressed. If the
parameter setting
exceeds the system
bandwidth
capability and
accordingly affects
the preceding RB
resource allocation,
the cell cannot be
established
successfully.
NO
NO
NO
LBFD-002003 /
TDLBFD-002003
LOFD-001093
Indicates the
number of code
channels that
reserved for the cell
semi-persistent
ACKs and SRIs.
NO
NO
YES
LBFD-001001 /
TDLBFD-001001
LBFD-002003 /
TDLBFD-002003
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code (MCC)
of the CDMA2000
1xRTT cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
Indicates the mobile
network code
(MNC) of the
CDMA2000 1xRTT
cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
YES
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the cell ID
of the reference
CDMA2000 1xRTT
cell. The cell ID and
sector ID together
uniquely identify a
CDMA2000 cell in
the mobile
switching center
(MSC). In the
CDMA2000 1xRTT
network, a cell ID
uniquely identifies a
cell within the
mobile switching
center (MSC). A cell
ID consists of 12
bits.
NO
Indicates the sector
ID of the reference
CDMA2000 1xRTT
cell. The cell ID and
sector ID together
uniquely identify a
CDMA2000 cell in
the mobile
switching center
(MSC). A sector ID
is unique in a
CDMA2000 cell and
consists of four bits. NO
Indicates the
system ID of the
reference
CDMA2000 1xRTT
cell. A system ID is
allocated to each
local CDMA mobile
network and is used
to determine
whether a UE is in
the roaming state.
For details about
this parameter, see
3GPP2 C.S0005.
NO
YES
YES
YES
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the
network ID of the
reference
CDMA2000 1xRTT
cell. A base station
is a cellular system
and a member of
the network. A
network is a subset
of a system that is
identified by a
system ID. A
network in a system
is identified by a
network ID. A
system ID and a
network ID together
uniquely identify a
network. System ID
0 and network ID 0
indicate all base
stations outside a
specified network
and are reserved
values. Network ID
65535 is also
reserved; this ID
indicates that the
roaming status of
UEs is non-roaming
in the whole system
no matter what the
network ID is. For
details, see the
description of NID
in 3GPP2 C.S0005. NO
YES
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
cell belongs. The
value begins with
0x followed by a
maximum of 6
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A. An MSC
ID uniquely
identifies an MSC
and is determined
by the operator.
MSCID is defined in
TIA/EIA-41.5-D and
consists of
MarketID (2 bytes)
and SwitchNo (1
byte). MarketID is
described in
TIA/EIA TSB29 and
can be defined by
the operator. It can
be the SID or
another ID that can
differentiate
operators.
SwitchNo consists
of a group of cell
addresses and
circuit resource IDs
under MarketID.
NO
Indicates whether
to configure a band
class for a UE. If
this parameter is
set to CFG, the UE
sends a location
update request to
the CDMA2000
1xRTT system
when the UE finds
that the current
band class is
different from the
band class preregistered the last
time. For details,
see the description
of
BAND_CLASSInclu
ded in 3GPP2
C.S0097.
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the band
class that a UE can
pre-register at. If
this parameter is
set to CFG, the UE
sends a location
update request to
the CDMA2000
1xRTT system
when the UE finds
that the current
band class is
different from the
band class preregistered the last
time. For details,
see the description
of BAND_CLASS in
3GPP2 C.S0097.
NO
Indicates whether
the CDMA2000
1xRTT CSFB
registration
parameters need to
be set. If this
parameter is set to
CFG, the
CDMA2000 1xRTT
circuit-switched
fallback (CSFB)
registration
parameters need to
be set. If this
parameter is set to
NOT_CFG, the
CDMA2000 1xRTT
CSFB registration
parameters do not
need to be set and
the parameters are
not broadcast in
SIB8.
NO
Indicates whether
multiple system IDs
(SIDs) can be
stored. That is,
whether UEs are
allowed to store
SID_NID_LIST that
contains different
SIDs. For details
about this
parameter, see
3GPP TS 36.331.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
multiple network
IDs (NIDs) can be
stored. That is,
whether UEs are
allowed to store
SID_NID_LIST that
contains the same
SID but different
NIDs. For details
about this
parameter, see
3GPP TS 36.331.
NO
Indicates whether a
non-roaming UE is
allowed to register
at the current
system. If this
parameter is set to
BOOLEAN_TRUE
and
MOB_TERM_HOM
E in the UE is set to
BOOLEAN_TRUE,
the UE can
automatically
register at the
current system.
MOB_TERM_HOM
E indicates whether
a UE can be called
in the home PLMN.
Automatic
registration can be
power-on
registration, poweroff registration,
periodic
registration, zonebased registration,
or distance-based
registration. For
details, see the
description of
homeReg in 3GPP
TS 36.331.
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether a
UE roaming from
another system is
allowed to register
at the current
system. If this
parameter is set to
BOOLEAN_TRUE
and
MOB_TERM_FOR_
SID in the UE is set
to 1, the UE can
automatically
register at the
current system. For
details, see the
description of
foreignSIDReg in
3GPP TS 36.331.
NO
Indicates whether a
UE roaming from
another network is
allowed to register
at the current
network. If this
parameter is set to
BOOLEAN_TRUE,
the UE can
automatically
register at the
current network. For
details, see the
description of
foreignNIDReg in
3GPP TS 36.331.
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether a
UE can initiate
automatic
registration when
some of its
parameters are
changed or when it
enters a new
system. If this
parameter is set to
BOOLEAN_TRUE,
automatic
registration is
allowed. If this
parameter is set to
BOOLEAN_FALSE,
automatic
registration is not
allowed. For details,
see the description
of parameterReg in
3GPP TS 36.331.
NO
Indicates whether
power-on
registration is
allowed, that is,
whether a UE can
initiate automatic
registration
immediately after
being powered on
and receiving a
system message. If
this parameter is
set to
BOOLEAN_TRUE,
the UE can initiate
automatic
registration. If this
parameter is set to
BOOLEAN_FALSE,
the UEs cannot
initiate automatic
registration. To
prevent frequent
registration due to
immediate poweroff after power-on,
the UE can initiate
registration 20
seconds after it
enters the idle
mode. For details,
see the description
of powerUpReg in
3GPP TS 36.331.
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the
CDMA2000 1xRTT
registration period.
If this parameter is
set to 0, the UE
does not perform
time-based
registration. If this
parameter is set to
a value in the range
from 29 to 85, the
period can be
calculated using the
following formula:
[2^(Registration
period/4)] × 0.08s.
For details, see the
description of
registrationPeriod in
3GPP TS 36.331.
NO
Indicates the
CDMA2000 1xRTT
registration zone.
This parameter, the
system ID, and the
network ID together
uniquely identify a
CDMA2000
registration zone.
This parameter is
used for
registration-zonebased registration.
Registration zones
are planned based
on actual network
conditions. For
details, see the
description of
registrationZone in
3GPP TS 36.331.
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the total
number of
CDMA2000 1xRTT
registration zones
to be retained. If
this parameter is
set to 0,
registration-zonebased registration is
disabled. If this
parameter is set to
a value greater than
1, UEs do not
frequently switch
between
registration zones.
However, this
results in delayed
location updates.
For details, see the
description of
totalZone in 3GPP
TS 36.331.
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
any message from
a registration zone
within the timer
length, the UE
deletes this
registration zone
code. This timer
takes effect only if
the number of
retained registration
zones is not 0. This
parameter is used
for registrationzone-based
registration. The
parameter values 0
to 7 indicate 1, 2, 5,
10, 20, 30, 45, and
60 minutes,
respectively. To
reduce the impact
on paging when the
number of retained
registration zones is
greater than 1, you
are advised to set
this timer to a small
value, for example,
1. If the number of
retained registration
zones is 1, this
timer does not take
much effect. For
details, see the
description of
zoneTimer in 3GPP
TS 36.331.
NO
Indicates whether a
CDMA2000 1xRTT
UE needs to initiate
registration during
power-off. For
details, see the
description of
powerDownReg-r9
in 3GPP TS 36.331. NO
Indicates whether
access class
barring for
CDMA2000 1xRTT
is configured.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
access overload
classes 0 to 9 and
determines the
threshold P for
performing
continuity checks by
UEs. A UE must
pass the continuity
check to access the
network. For
details, see IS95AC6. In each timeslot
after the RS, the
UE performs a
pseudorandom
continuity check
based on
parameter P. During
each timeslot, a
random value RP
ranging from 0 to 1
is generated. If RP
is less than P, the
UE passes the
check. Then, the
UE sends the first
probe of the access
sequence in the
timeslot. If the
check fails, the UE
needs to perform
the check in the
next timeslot. For
details, see the
description of acBarring0to9-r9 in
3GPP TS 36.331.
NO
Indicates the
persistence value
for access overload
class 10. The
persistence values
for emergency call
access overload
classes 10 to 15
determine the
threshold P for
performing
continuity checks by
UEs. For details,
see the description
of ac-Barring10-r9
in 3GPP TS 36.331. NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the
persistence value
for access overload
class 11. The
persistence values
for emergency call
access overload
classes 10 to 15
determine the
threshold P for
performing
continuity checks by
UEs. For details,
see the description
of ac-Barring11-r9
in 3GPP TS 36.331. NO
Indicates the
persistence value
for access overload
class 12. The
persistence values
for emergency call
access overload
classes 10 to 15
determine the
threshold P for
performing
continuity checks by
UEs. For details,
see the description
of ac-Barring12-r9
in 3GPP TS 36.331. NO
Indicates the
persistence value
for access overload
class 13. The
persistence values
for emergency call
access overload
classes 10 to 15
determine the
threshold P for
performing
continuity checks by
UEs. For details,
see the description
of ac-Barring13-r9
in 3GPP TS 36.331. NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the
persistence value
for access overload
class 14. The
persistence values
for emergency call
access overload
classes 10 to 15
determine the
threshold P for
performing
continuity checks by
UEs. For details,
see the description
of ac-Barring14-r9
in 3GPP TS 36.331. NO
Indicates the
persistence value
for access overload
class 15. The
persistence values
for emergency call
access overload
classes 10 to 15
determine the
threshold P for
performing
continuity checks by
UEs. For details,
see the description
of ac-Barring15-r9
in 3GPP TS 36.331. NO
Indicates the
persistence
amendment value
sent in access
attempt messages.
In the access
attempt indicated
by the message,
the value of (P x 2 MSG_PSIST) and
RP will be
compared. For
details, see acBarringMsg-r9 in
3GPP TS 36.331.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the
autonomously
registered
persistence
amendment value
for the access
barring factor. For
details, see acBarringReg-r9 in
3GPP TS 36.331.
NO
Indicates the
persistence value
for emergency calls
by UEs belonging to
access overload
classes 0 to 9. If
PSISTEMGINCL is
set to 0, AcBarEmg
is invalid. If
PSISTEMGINCL is
set to 1, set
AcBarEmg based
on whether UEs
belonging to access
overload classes 0
to 9 are allowed to
send emergency
call requests on the
access channel. If
allowed, set
AcBarEmg to 0. If
not allowed, set
AcBarEmg to 7. For
details, see acBarringEmg-r9 in
3GPP TS 36.331.
NO
Indicates whether
to configure the
latest CDMA2000
1xRTT protocol
revision supported
by the eNodeB. For
details about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the latest
CDMA2000 1xRTT
protocol revision
supported by the
eNodeB. If the
latest protocol
revision is required
by some features,
change the protocol
revision as
required. For details
about this
parameter, see
3GPP2 C.S0097.
NO
Indicates whether
to configure the
CDMA2000 1xRTT
minimum protocol
revision level. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates the
minimum protocol
revision that UEs
need to support to
access the system.
For details about
this parameter, see
3GPP2 C.S0097.
NO
Indicates whether
to include
authentication. For
details about this
parameter, see
3GPP2 C.S0097.
Indicates whether
to perform
authentication. For
details about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
to configure the
maximum number
of alternative
service options. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates the
maximum number
of alternative
service options that
can be included in
the Origination
Message (ORM)
and Page
Response Message
(PRM). This
parameter is valid
for UEs with
MOB_P_REV
greater than or
equal to 6. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates whether
to configure the
preferred access
channel MS ID
type. For details
about this
parameter, see
3GPP2 C.S0097.
Indicates the
preferred access
channel MS ID
type. For details
about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
the mobile country
code (MCC) is
delivered. If this
parameter is set to
CFG, the MCC is
delivered at
CDMA2000 1xRTT
parameter
registration. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates whether
the mobile network
code (MNC) is
delivered. If this
parameter is set to
CFG, the MNC is
delivered at
CDMA2000 1xRTT
parameter
registration. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates whether
IMSI_Ts are
supported. For
details about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
15-digit IMSI_T are
supported. If
IMSI_T_SUPPORT
ED in ESPM is set
to 1 and the IMSI_T
is correctly set in
the UE, the UE
reports IMSI_T. If
IMSI_T_SUPPORT
ED is set to 1 but
the IMSI_T is not
set in the UE, the
UE may report an
incorrect IMSI.
When you modify
this parameter,
ensure that the true
IMSI is correctly set
for the UE. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates whether
power control
parameters are
carried by UEs from
the LTE network to
the CDMA2000
1xRTT network. For
details about this
parameter, see
3GPP2 C.S0097.
NO
Indicates the initial
setpoint for RC3
used for UEperformed forward
FCH outer-loop
power control. For
details about this
parameter, see
3GPP2 C.S0097.
Indicates the initial
setpoint for RC4
used for UEperformed forward
FCH outer-loop
power control. For
details about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the initial
setpoint for RC5
used for UEperformed forward
FCH outer-loop
power control. For
details about this
parameter, see
3GPP2 C.S0097.
Indicates the initial
setpoint for RC11
used for UEperformed forward
channel outer-loop
power control. For
details about this
parameter, see
3GPP2 C.S0097.
Indicates the initial
setpoint for RC12
used for UEperformed forward
FCH outer-loop
power control. For
details about this
parameter, see
3GPP2 C.S0097.
Indicates whether
to configure the
pilot PN sequence
offset index
increment. For
details about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
NO
NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the pilot
pseudo noise (PN)
sequence offset
index increment.
The value of this
parameter is a
greatest common
divisor for pilot PN
sequence offsets of
all adjacent base
stations. For a
given pilot PN
sequence offset
index increment,
the number of PNs
available in the
system is 512
divided by the value
of this parameter.
For details about
this parameter, see
3GPP2 C.S0097.
NO
Indicates whether
the leap second is
included in a preregistration
message. When
this parameter is
set to CFG, the
eNodeB
automatically
calculates the leap
second value based
on the system time. NO
Indicates whether
to configure the
time zone. If this
parameter is set to
CFG, the eNodeB
uses the DST
information
configured by
running the SET TZ
command. For
details, see the
description of
LTM_OFF_Included
in 3GPP2 C.S0097. NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
to configure the
daylight saving time
(DST) information.
If this parameter is
set to CFG, the
eNodeB uses the
DST information
configured by
running the SET TZ
command. For
details, see the
description of
DAYLT_Included in
3GPP2 C.S0097.
NO
Indicates whether
to configure the
GCSNA L2
acknowledge timer.
If a timer length
needs to be
specified, set this
parameter to CFG.
For details about
this parameter, see
3GPP2 C.S0097.
NO
Indicates the length
of the GCSNA L2
timer for responding
to the
GCSNA1xCircuitSe
rvice message. It is
recommended that
this parameter be
set to a value less
than or equal to the
GcsnaSeqContextTi
mer parameter
value. Otherwise,
the UE does not
resend the
GCSNA1xCircuitSe
rvice message. For
details, see the
description of
GCSNAL2AckTimer
in 3GPP2 C.S0097. NO
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
to configure the
GCSNA sequence
context timer. If a
timer length needs
to be specified, set
this parameter to
CFG. For details
about this
parameter, see
3GPP2 C.S0097.
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the length
of the timer for
retransmitting the
GCSNA1xCircuitSe
rvice message.
After the timer
expires, the
message will not be
retransmitted. It is
recommended that
this parameter be
set to a value
greater than the
GcsnaL2AckTimer
parameter value.
Otherwise, the UE
does not resend the
GCSNA1xCircuitSe
rvice message. For
details, see the
description of
GCSNASequenceC
ontextTimer in
3GPP2 C.S0097.
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the value
for SectorID104 of
the neighboring
CDMA2000 high
rate packet data
(HRPD) cell. The
value begins with
0x followed by a
maximum of 26
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A.
SECTORID128
uniquely identifies
an EV-DO sector in
the global scope
and is comprised of
SECTORID104 and
SECTORID24.
SECTORID104
uniquely identifies a
subnetwork in the
global scope and
SECTORID24
uniquely identifies
an EV-DO sector in
the subnetwork.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the value
for SectorID24 of
the neighboring
CDMA2000 high
rate packet data
(HRPD) cell. The
value begins with
0x followed by a
maximum of six
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A.
SECTORID128
uniquely identifies
an EV-DO sector in
the global scope
and is comprised of
SECTORID104 and
SECTORID24.
SECTORID104
uniquely identifies a
subnetwork in the
global scope and
SECTORID24
uniquely identifies
an EV-DO sector in
the subnetwork.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the band
class on which the
neighboring
CDMA2000 high
rate packet data
(HRPD) cell
operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
NO
LOFD-001021 /
TDLOFD-001021
YES
Indicates the
frequency on which
the neighboring
CDMA2000 high
rate packet data
(HRPD) cell
operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether
to permit or prohibit
handovers from the
local cell to the
neighboring cell.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
NO
LOFD-001021 /
TDLOFD-001021
LOFD-002002
NO
LOFD-001021 /
TDLOFD-001021
LOFD-002002
Indicates whether
to permit or prohibit
removal of the
neighboring
relationship by
ANR.
NO
Indicates whether
ANR with
neighboring
CDMA2000 high
rate packet data
(HRPD) cells is
enabled.
NO
NO
NO
Indicates the name
of the local cell.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the name
of the neighboring
CDMA2000 HRPD
cell.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-001021 /
TDLOFD-001021
LOFD-002002
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code (MCC)
of the CDMA2000
high rate packet
data (HRPD) preregistration
parameter.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the mobile
network code
(MNC) of the
CDMA2000 high
rate packet data
(HRPD) preregistration
parameter.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether a
UE without valid
pre-registration is
allowed to initiate
high rate packet
data (HRPD) preregistration. If this
parameter is set to
BOOLEAN_TRUE,
the UE is allowed to
initiate the preregistration. If this
parameter is set to
BOOLEAN_FALSE,
the UE is not
allowed to initiate
the pre-registration.
For details about
this parameter, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether
the measurement
configuration preregistration
parameter is
configured.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether
measurement
configuration preregistration is
allowed.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the ID of
the pre-registration
CDMA2000 HRPD
zone. This
parameter is used
to control the reregistration of the
UE and is valid only
when preregistration is
allowed. For details
about this
parameter, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether
the secondary preregistration zone ID
0 is configured. If
this parameter is
set to CFG, the
secondary preregistration zone ID
0 exists. If this
parameter is set to
NOT_CFG, the
secondary preregistration zone ID
0 does not exist.
For details about
this parameter, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the
secondary preregistration zone ID
0. This parameter is
used to control the
re-registration of
the UE. For details
about this
parameter, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates whether
the secondary preregistration zone ID
1 is configured. If
this parameter is
set to CFG, the
secondary preregistration zone ID
1 exists. If this
parameter is set to
NOT_CFG, the
secondary preregistration zone ID
1 does not exist.
For details about
this parameter, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the
secondary preregistration zone ID
1. This parameter is
used to control the
re-registration of
the UE. For details
about this
parameter, see
3GPP TS 36.331.
NO
NO
NO
LOFD-001021 /
TDLOFD-001021
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code (MCC)
of the reference
CDMA2000 high
rate packet data
(HRPD) cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the mobile
network code
(MNC) of the
reference
CDMA2000 high
rate packet data
(HRPD) cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the value
for SectorID104 of
the reference
CDMA2000 high
rate packet data
(HRPD) cell. The
value begins with
0x followed by a
maximum of 26
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A.
SECTORID128
uniquely identifies
an EV-DO sector in
the global scope
and is comprised of
SECTORID104 and
SECTORID24.
SECTORID104
uniquely identifies a
subnetwork in the
global scope and
SECTORID24
uniquely identifies
an EV-DO sector in
the subnetwork. For
details, see
C.S0024.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the value
for SectorID24 of
the reference
CDMA2000 high
rate packet data
(HRPD) cell. The
value begins with
0x followed by a
maximum of six
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A.
SECTORID128
uniquely identifies
an EV-DO sector in
the global scope
and is comprised of
SECTORID104 and
SECTORID24.
SECTORID104
uniquely identifies a
subnetwork in the
global scope and
SECTORID24
uniquely identifies
an EV-DO sector in
the subnetwork. For
details, see
C.S0024.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
(HRPD) cell that a
UE in the E-UTRAN
cell can pre-register
at. An E-UTRAN
cell may overlap
multiple CDMA2000
HRPD cells, for
example, when
three E-UTRAN
sectors and six
CDMA2000 HRPD
sectors cover the
same area.
Therefore, multiple
CDMA2000 HRPD
sector IDs can be
specified for an EUTRAN cell, with
each CDMA2000
HRPD sector ID
configured with a
selection ratio.
During UE preregistration,
CDMA2000 HRPD
sector IDs are
selected based on
historical selection
ratios. Considering
the cellular network
structure, a
maximum of six
CDMA2000 HRPD
sector IDs can be
configured for a UE
in the E-UTRAN
cell.
NO
YES
NO
LOFD001021/TDLOFD001021
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
TDLOFD-001090
Indicates the
neighboring
CDMA2000 band
class. Signals on a
frequency within the
band class can be
obtained by UEs.
For details, see the
BandclassCDMA20
00 IE defined in
3GPP 36.331 6.3.4. YES
YES
Indicates the
neighboring
CDMA2000
frequency of the
serving cell. For
details, see the IE
CDMA2000CarrierInfo in the
3GPP 36.331 6.3.4
protocol.
YES
Indicates the
frequency-specific
offset of the local
cell to the
neighboring
CDMA2000 cell on
the frequency. A
larger value of this
parameter leads to
a higher probability
of triggering
measurement
reports. For details,
see the QOffsetRangeInterR
AT IE defined in
section 6.3.4 in
3GPP TS 36.331.
NO
Indicates whether
to set the size of
the CDMA2000
search window. If
this parameter is
set to NOT_CFG,
the default size (8)
is used.
NO
YES
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
TDLOFD-001090
Indicates the
search window size
to be used by the
UE for searching for
the pilots of the
neighboring
CDMA2000 cells.
For details, see the
MeasObjectCDMA2
000 IE defined in
3GPP TS 36.331.
NO
frequency.?
If the
eNodeB selects
target frequencies
based on frequency
priorities in
handovers to
CDMA2000, this
parameter indicates
the priority of the
CDMA2000
frequency, whose
value has a positive
correlation with the
probability of the
neighboring
CDMA2000
frequency being
selected as the
target frequency. If
the eNodeB selects
target frequencies
based on scaling
factors in
handovers to
CDMA2000, this
parameter indicates
the scaling factor of
the CDMA2000
frequency, whose
value has a positive
correlation with the
probability of the
neighboring
CDMA2000
frequency being
selected as the
target frequency.
NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
TDLOFD-001090
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
TDLOFD-001090
Indicates the mobile
country code (MCC)
of the local CSPC
cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-070208
Indicates the mobile
network code
(MNC) of the local
CSPC cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-070208
Indicates the
eNodeB identity of
the local CSPC cell.
It uniquely identifies
an eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details about
this parameter, see
3GPP TS 36.413.
YES
YES
NO
LOFD-070208
Indicates the cell
identity of the local
CSPC cell. It
uniquely identifies a
cell within an
eNodeB. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details about
this parameter, see
3GPP TS 36.413.
YES
YES
NO
LOFD-070208
Indicates the mobile
country code (MCC)
of the neighboring
cell performing
sounding reference
signal (SRS)
measurements on
UEs in the local
CSPC cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-070208
Indicates the mobile
network code
(MNC) of the
neighboring cell
performing
sounding reference
signal (SRS)
measurements on
UEs in the local
CSPC cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-070208
Indicates the
eNodeB identity of
the neighboring cell
performing
sounding reference
signal (SRS)
measurements on
UEs in the local
CSPC cell. It
uniquely identifies
an eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details about
this parameter, see
3GPP TS 36.413.
YES
YES
NO
LOFD-070208
Indicates the
identity of the
neighboring cell
performing
sounding reference
signal (SRS)
measurements on
UEs in the local
CSPC cell under
the same eNodeB.
It uniquely identifies
a cell within an
eNodeB. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details about
this parameter, see
3GPP TS 36.413.
YES
YES
NO
LOFD-070208
Indicates the ID of
the static CSPC
cluster in a Cloud
BB scenario.
YES
YES
NO
LOFD-070208
Indicates the ID of
the static CSPC
cluster in Cloud BB
scenarios.
YES
YES
NO
LOFD-070208
Indicates the mobile
country code (MCC)
of the CSPC cluster
cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-070208
Indicates the mobile
network code
(MNC) of the CSPC
cluster cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
NO
LOFD-070208
Indicates the
eNodeB identity of
the CSPC cluster
cell. It uniquely
identifies an
eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details about
this parameter, see
3GPP TS 36.413.
YES
YES
NO
LOFD-070208
Indicates the
identity of the local
CSPC cell. It
uniquely identifies a
cell within an
eNodeB. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details about
this parameter, see
3GPP TS 36.413.
YES
YES
NO
LOFD-070208
Indicates the mobile
country code of the
external cell.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the mobile
network code of the
external cell.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the
eNodeB identity of
the external EUTRAN cell. It
uniquely identifies
an eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
YES
NO
None
Indicates the cell
identity of the
external E-UTRAN
cell. It uniquely
identifies a cell
within an eNodeB.
The 28-bit EUTRAN cell identity
is comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
Indicates the mobile
country code of the
external E-UTRAN
cell that is shared
among multiple
operators.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the mobile
network code of the
external E-UTRAN
cell that is shared
among multiple
operators.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates the
identity of the
external GERAN
cell. It uniquely
identifies a GERAN
cell within a PLMN. YES
Indicates the LAC
of the external
GERAN cell.
YES
Indicates the mobile
country code of the
external cell.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
Indicates the mobile
network code of the
external cell.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates the mobile
country code of the
external GERAN
cell that is shared
among multiple
operators.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates the mobile
network code of the
external GERAN
cell that is shared
among multiple
operators.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
Indicates the mobile
country code of the
external UTRAN
cell.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates the mobile
network code of the
external UTRAN
cell.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates the RNC
ID of the external
UTRAN cell. The
28-bit UTRAN cell
ID comprises the
RNC cell ID and the
RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. For details, see
3GPP TS 25.401.
YES
YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
Indicates the RNC
cell ID of an
external UTRAN
cell. It uniquely
identifies a cell
within an RNC. The
28-bit UTRAN cell
ID is comprised of
the RNC cell ID and
the RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. For details, see
3GPP TS 25.401.
YES
Indicates the mobile
country code of the
external UTRAN
cell that is shared
among multiple
operators.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
Indicates the mobile
network code of the
external UTRAN
cell that is shared
among multiple
operators.
A PLMN ID is
comprised of an
MCC and an MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
Indicates the value
for SectorID104 of
the external
CDMA2000 high
rate packet data
(HRPD) cell. The
value begins with
0x followed by a
maximum of 26
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A.
SECTORID128
uniquely identifies
an EV-DO sector in
the global scope
and is comprised of
SECTORID104 and
SECTORID24.
SECTORID104
uniquely identifies a
subnetwork in the
global scope and
SECTORID24
uniquely identifies
an EV-DO sector in
the subnetwork.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the value
for SectorID24 of
the external
CDMA2000 high
rate packet data
(HRPD) cell. The
value begins with
0x followed by a
maximum of six
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A.
SECTORID128
uniquely identifies
an EV-DO sector in
the global scope
and is comprised of
SECTORID104 and
SECTORID24.
SECTORID104
uniquely identifies a
subnetwork in the
global scope and
SECTORID24
uniquely identifies
an EV-DO sector in
the subnetwork.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the band
class on which the
external
CDMA2000 high
rate packet data
(HRPD) cell
operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
NO
LOFD-001021 /
TDLOFD-001021
YES
Indicates the
frequency on which
the external
CDMA2000 high
rate packet data
(HRPD) cell
operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the mobile
country code (MCC)
of the external
CDMA2000 high
rate packet data
(HRPD) cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. NO
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the mobile
network code
(MNC) of the
external
CDMA2000 high
rate packet data
(HRPD) cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. NO
YES
NO
LOFD-001021 /
TDLOFD-001021
Indicates the
pseudo noise (PN)
sequence number
of the external
CDMA2000 high
rate packet data
(HRPD) cell. This
number is used as
the physical cell ID
of the cell. For
details, see
C.S0005
PILOT_PN.
NO
Indicates the name
of the external
CDMA2000 HRPD
cell.
NO
YES
NO
LOFD-001021 /
TDLOFD-001021
NO
NO
LOFD-001021 /
TDLOFD-001021
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-001021 /
TDLOFD-001021
LOFD-002002
Indicates the cell ID
of the external
CDMA2000 1xRTT
cell. The cell ID and
sector ID together
uniquely identify a
CDMA2000 cell in
the mobile
switching center
(MSC). In the
CDMA2000 1xRTT
network, a cell ID
uniquely identifies a
cell within the
mobile switching
center (MSC). A cell
ID consists of 12
bits.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the sector
ID of the external
CDMA2000 1xRTT
cell. The cell ID and
sector ID together
uniquely identify a
CDMA2000 cell in
the mobile
switching center
(MSC). A sector ID
is unique in a
CDMA2000 cell and
consists of four bits. YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the band
class on which the
external
CDMA2000 1x
radio transmission
technology (1xRTT)
cell operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
frequency on which
the external
CDMA2000 1xRTT
cell operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
system ID of the
external
CDMA2000 1xRTT
cell. A system ID is
assigned to each
local mobile
network and is used
to determine
whether a UE is in
the roaming state.
For details about
this parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the ID of
the network to
which the external
CDMA2000 1xRTT
cell belongs. A base
station is a cellular
system and a
member of the
network. A network
is a subset of a
system that is
identified by a
system ID. A
network in a system
is identified by a
network ID. A
system ID and a
network ID together
uniquely identify a
network. System ID
0 and network ID 0
indicate all base
stations outside a
specified network
and are reserved
values. Network ID
65535 is also
reserved; this ID
indicates that the
roaming status of
UEs is non-roaming
in the whole system
no matter what the
network ID is. For
details, see the
description of NID
in 3GPP2 C.S0005. YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the mobile
country code (MCC)
of the external
CDMA2000 1xRTT
cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. NO
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the mobile
network code
(MNC) of the
external
CDMA2000 1xRTT
cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two or three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN
ID is 12345.
NO
cell belongs.
The
value begins with
0x followed by a
maximum of 6
hexadecimal
characters (0 to 9,
and A to F), for
example, 0x123A.
The hexadecimal
character string
cannot begin with 0,
for example, the
value cannot be
0x0123A. An MSC
ID uniquely
identifies an MSC
and is determined
by the operator.
MSCID is defined in
TIA/EIA-41.5-D and
consists of
MarketID (2 bytes)
and SwitchNo (1
byte). MarketID is
described in
TIA/EIA TSB29 and
can be defined by
the operator. It can
be the SID or
another ID that can
differentiate
operators.
SwitchNo consists
of a group of cell
addresses and
circuit resource IDs
under MarketID.
NO
YES
NO
LOFD-001090 /
TDLOFD-001090
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
pseudo noise (PN)
sequence number
of the external
CDMA2000 1xRTT
cell. This number is
used as the
physical cell ID of
the cell. For details,
see the description
of PILOT_PN in
3GPP2 C.S0005.
NO
Indicates the name
of the external
CDMA2000 1xRTT
cell.
NO
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
YES
NO
LOFD-001090 /
TDLOFD-001090
NO
NO
LOFD-001090 /
TDLOFD-001090
NO
LOFD-001090 /
TDLOFD-001090
LOFD-002002 /
TDLOFD-002002
NO
Indicates the ID of
the Local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the cell ID
of the neighboring
CDMA2000 1xRTT
cell. The cell ID and
sector ID together
uniquely identify a
CDMA2000 cell in
the entire network.
In the CDMA2000
1xRTT network, a
cell ID uniquely
identifies a cell
within the mobile
switching center
(MSC). A cell ID
consists of 12 bits. YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the sector
ID of the
neighboring
CDMA2000 1xRTT
cell. The cell ID and
sector ID together
uniquely identify a
CDMA2000 cell
within the MSC. A
sector ID is unique
in a CDMA2000 cell
and consists of 4
bits.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the band
class on which the
neighboring
CDMA2000 1xRTT
cell operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
frequency on which
the neighboring
CDMA2000 1xRTT
cell operates. For
details about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
system ID of the
neighboring
CDMA2000 1xRTT
cell. A system ID is
assigned to each
local mobile
network and is used
to determine
whether a UE is in
the roaming state.
For details about
this parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates the
network ID of the
neighboring
CDMA2000 1xRTT
cell. For details
about this
parameter, see
3GPP TS 36.331.
YES
YES
NO
LOFD-001090 /
TDLOFD-001090
Indicates whether
to permit or prohibit
handovers from the
local cell to the
neighboring cell.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates whether
to permit or prohibit
removal of the
neighboring
relationship by
ANR.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
LOFD-002002
Indicates whether
ANR with
CDMA2000 1xRTT
cells is enabled.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
LOFD-002002
Indicates the name
of the local cell.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
Indicates the name
of the neighboring
CDMA2000 1xRTT
cell.
NO
NO
NO
LOFD-001090 /
TDLOFD-001090
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-001090 /
TDLOFD-001090
LOFD-002002 /
TDLOFD-002002
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
neighboring
CDMA2000 band
class. Signals on a
frequency within the
band class can be
obtained by UEs.
For details, see the
BandclassCDMA20
00 IE defined in
3GPP 36.331.
YES
Indicates whether
to configure cell
reselection priorities
for CDMA2000
1xRTT band class.
If this parameter is
set to NOT_CFG,
the cell reselection
priorities are not
delivered in the
system information. NO
Indicates the
absolute priority of
the CDMA2000
1xRTT band class
to be used during
cell reselection. The
value 0 indicates
the lowest priority.
Frequencies used
for different RATs
must be assigned
different cell
reselection
priorities. The
information is
contained in SIB8.
For details, see
3GPP TS 36.331.
NO
YES
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates the RX
signal level required
for a cell on a
frequency in the
higher-priority
CDMA2000 1xRTT
band class to
become a
candidate for cell
reselection. After
measurements are
started for cells on
a frequency in the
band class, a cell
on the frequency
can become a
candidate for
reselection only if
the RX signal level
of the cell is higher
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.304 5.2.4.5. NO
Indicates the RX
signal level required
for a cell on a
frequency in the
lower-priority
CDMA2000 1xRTT
band class to
become a
candidate for cell
reselection.
After
measurements are
started for cells on
a frequency in the
band class, a cell
on the frequency
can become a
candidate for
reselection only if
the RX signal level
of the cell is better
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.304 5.2.4.5. NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001035 /
TDLOFD-001035
TDLOFD-001090
Indicates whether
to configure cell
reselection priorities
for CDMA2000
HRPD band class.
If this parameter is
set to NOT_CFG,
the cell reselection
priorities are not
delivered in the
system information. NO
Indicates the
absolute priority of
the CDMA2000
HRPD band class
to be used during
cell reselection. The
value 0 indicates
the lowest priority.
Frequencies used
for different RATs
must be assigned
different cell
reselection
priorities. The
information is
contained in SIB8.
For details, see
3GPP TS 36.331.
NO
Indicates the RX
signal level required
for a cell on a
frequency in the
higher-priority
CDMA2000 HRPD
band class to
become a
candidate for cell
reselection. After
measurements are
started for cells on
a frequency in the
band class, a cell
on the frequency
can become a
candidate for
reselection only if
the RX signal level
of the cell is higher
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.304 5.2.4.5. NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
Indicates the RX
signal level required
for a cell on a
frequency in the
lower-priority
CDMA2000 HRPD
band class to
become a
candidate for cell
reselection.
After
measurements are
started for cells on
a frequency in the
band class, a cell
on the frequency
can become a
candidate for
reselection only if
the RX signal level
of the cell is lower
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.304 5.2.4.5. NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001021 /
TDLOFD-001021
Indicates the mobile
country code of the
external cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates the mobile
network code of the
external cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates the cell ID
of the external
GERAN cell. It
uniquely identifies a
GERAN cell within
the area specified
by the location area
identity (LAI). An
LAI consists of the
MCC, MNC, and
LAC.
YES
Indicates the LAC
of the external
GERAN cell. It
uniquely identifies a
location within a
PLMN.
YES
Indicates whether
to set the routing
area code (RAC) of
the external
GERAN cell. This
parameter is
required if the
external GERAN
cell supports packet
switched (PS)
services.
NO
Indicates the
routing area code.
NO
NO
LOFD-001020 /
TDLOFD-001020
YES
NO
LOFD-001023 /
TDLOFD-001023
LOFD-001069
NO
NO
LOFD-001020 /
TDLOFD-001020
NO
LOFD-001034 /
LOFD-001034
LOFD-001053
LOFD-001020 /
TDLOFD-001020
YES
NO
Indicates the
GERAN band
indicator. If the
GERAN ARFCN is
a value in the range
of 512 to 810, the
value of this
parameter is used
to indicate whether
the GERAN ARFCN
is in the 1800 MHz
band or the 1900
MHz band. If the
GERAN ARFCN is
not in either band,
this parameter does
not take effect and
can be set to either
value. For details,
see 3GPP TS
36.331.
NO
YES
NO
LOFD-001020 /
TDLOFD-001020
LOFD-001023 /
TDLOFD-001023
LOFD-001034 /
TDLOFD-001034
LOFD-001046 /
TDLOFD-001046
LOFD-001073 /
TDLOFD-001073
Indicates the
GERAN BCCH
ARFCN. For details,
see 3GPP TS
45.005.
NO
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates the
network color code
(NCC) of GERAN. It
is operator-specific
and identifies a
network within the
whole country.The
base transceiver
station identity code
(BSIC) consists of
the NCC and the
base station color
code (BCC). For
details, see 3GPP
TS 23.003.
NO
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates the base
station color code
(BCC) of an
external GERAN
cell. This parameter
is used to
discriminate
external GERAN
cells working at the
same
frequency.The base
transceiver station
identity code (BSIC)
consists of the BCC
and the network
color code (NCC).
For details, see
3GPP TS 23.003.
NO
Indicates whether
the cell supports
the dual
transmission mode.
If the cell supports
the dual
transmission mode,
both CS and PS
services can be
handed over to the
cell at the same
time. Otherwise,
only the CS service
or the PS service
can be handed over
to the cell.
NO
YES
NO
NO
LOFD-001020 /
TDLOFD-001020
NO
LOFD-001020 /
TDLOFD-001020
LOFD-001046 /
TDLOFD-001046
Indicates the name
of the external
GERAN cell.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
Indicates whether
the external
GERAN cell
supports single
radio voice call
continuity (SRVCC)
for concurrent CS
and PS services. If
this parameter is
set to
BOOLEAN_FALSE,
the external
GERAN cell does
not support SRVCC
for concurrent CS
and PS services.
NO
NO
NO
LOFD-001023 /
TDLOFD-001023
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. The
preceding control
policy also applies
to the
GeranExternalCellP
lmn MO, which is a
child MO of the
GeranExternalCell
MO. When the
ANR-related MOs
are automatically
added based on the
ANR algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the cell ID
of the Local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code of the
neighboring
GERAN cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates the mobile
network code of the
neighboring
GERAN cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates the LAC
of the GERAN
neighboring cell. It
uniquely identifies a
location within a
PLMN.
YES
YES
NO
LOFD-001023 /
TDLOFD-001023
LOFD-001053
LOFD-001069
LOFD001020/TDLOFD001020
Indicates the cell ID
of the GERAN
neighboring cell. It
uniquely identifies a
GERAN cell within
the area specified
by the location area
identity (LAI). An
LAI consists of the
MCC, MNC, and
LAC.
YES
YES
NO
LOFD-001020 /
TDLOFD-001020
Indicates whether
to permit or prohibit
removal of the
neighboring
relationship by
ANR.
NO
NO
NO
LOFD-002002
Indicates whether
handovers of UEs
to the neighboring
cell are prohibited.
NO
NO
LOFD-001020 /
TDLOFD-001020
NO
Indicates the priority
of the neighboring
cell during blind
handovers. Blind
handover is a
process in which
the eNodeB
instructs a UE to
hand over to a
specified
neighboring cell.
There are 32
priorities altogether.
The priority has a
positive correlation
with the value of
this parameter.
Note that the value
0 indicates that
blind handovers to
the neighboring cell
are not allowed.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
TDLOFD-001034
TDLOFD-001053
Indicates whether
this neighboring cell
is automatically
discovered by the
ANR algorithm.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the name
of the local cell.
NO
Indicates the name
of the GERAN
neighboring cell.
NO
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002
Indicates whether
the neighboring
GERAN cell
overlaps the EUTRAN cell. The
default value is NO.
The parameter
value YES indicates
that the neighboring
GERAN cell
overlaps the EUTRAN cell. The
parameter value
NO indicates that
the neighboring
GERAN cell does
not overlap the EUTRAN
NO
set
to cell.
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
MRFD-231901
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the
eNodeB ID defined
in the service
protocol interface,
which uniquely
identifies an
eNodeB within a
PLMN. For details,
see 3GPP TS
36.300.
NO
NO
YES
None
Indicates the start
time of the latest
RIM procedure
towards the
neighboring
GERAN cell.
NO
NO
YES
None
Indicates the time
of the latest RIM
request received by
the neighboring
GERAN cell.
NO
NO
YES
None
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001020 /
TDLOFD-001020
Indicates a GERAN
carrier frequency
group. In the cell
reselection
procedure, the
GERAN carrier
frequencies are
organized in groups
and the cell
reselection
parameters are
provided per group
of GERAN carrier
frequencies.
YES
YES
Indicates the
standard that is
supported by the
current carrier
frequency group.
NO
Indicates the first
ARFCN in the
GERAN carrier
frequency group. If
the GERAN ARFCN
is not between 512
and 810, one
ARFCN can only in
one frequency
band. For details,
see 3GPP TS
45.005.
NO
Indicates the
GERAN band
indicator. If the
GERAN ARFCN is
between 512 and
810, this parameter
indicates whether
the GERAN ARFCN
is in the 1800 MHz
band or the 1900
MHz band. If the
GERAN ARFCN is
not in either band,
this parameter does
not take effect and
can be set to either
value and one
ARFCN can only in
one frequency
band. For details,
see 3GPP TS
45.005.
NO
YES
YES
YES
NO
LOFD-001020 /
TDLOFD-001020
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001020 /
TDLOFD-001020
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001020 /
TDLOFD-001020
Indicates whether
to set the
reselection priority
of the frequencies
in the GERAN
carrier frequency
group. If the value
of this parameter is
not configured, the
UE does not
reselect to
neighboring cells on
the frequencies in
the GERAN carrier
frequency
group.
measurements
on NO
neighboring cells on
the frequencies in
the GERAN carrier
frequency group;
then if the signal
quality of some
neighboring cells
meets the related
conditions, the UE
starts cell
reselection. If the
value of this
parameter is
smaller than the
absolute priority of
the serving cell, the
UE starts the
measurements only
when the signal
quality of the
serving cell is poor;
then if the signal
quality of some
neighboring cells
meets the related
conditions, the UE
starts cell
reselection.
Frequencies used
for different RATs
must be assigned
different cell
reselection
priorities. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates whether
to set the maximum
power that the UE
can apply to
transmission on a
frequency in the
GERAN carrier
frequency group. If
the value of this
parameter is not
specified, the
maximum power is
subject to the UE
capability.
NO
NO
NO
LOFD-001020 /
TDLOFD-001020
Indicates the
maximum power
that the UE can
apply to
transmission on a
frequency in the
GERAN carrier
frequency group. It
is used in cell
reselection criteria
to calculate the
compensated
power. If the value
of this parameter is
not specified, the
maximum power is
subject to the UE
capability. For
details, see 3GPP
TS 36.304.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
minimum RX level
required for a
neighboring cell on
a frequency in the
GERAN carrier
frequency group to
become a
candidate for
selection. It is
included in criteria
S and used in the
evaluation for cell
selection. During
the evaluation for
cell reselection, the
UE performs the
following
calculation: Srxlev =
Measured RSSI
value of a
neighboring cell on
a frequency in the
GERAN carrier
frequency group Value of this
parameter Compensated
power. If Srxlev for
a neighboring cell is
better than a
threshold for a timeto-trigger,
reselection to the
cell is started. For
details, see 3GPP
TS 36.104.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the RX
level required for a
neighboring cell on
a frequency in the
GERAN carrier
frequency group to
become a
candidate for
reselection if the
priority of the
frequency is higher
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
a frequency in the
GERAN carrier
frequency group,
the UE reselects to
a cell on the
frequency only if
the RX level of the
cell is better than
the value specified
by this parameter
for a time-to-trigger.
For details, see
3GPP TS 36.104.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the RX
level required for a
neighboring cell on
a frequency in the
GERAN carrier
frequency group to
become a
candidate for
reselection if the
priority of the
frequency is lower
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
a frequency in the
GERAN carrier
frequency group,
the UE reselects to
a cell on the
frequency only if
the RX level of the
serving cell is lower
than a specified
threshold and that
of the cell is better
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.104.
NO
Indicates the
frequency offset of
the group of
neighboring
GERAN carrier
frequencies. This
parameter is used
in the decision of
the UE to send
measurement
reports for interRAT handovers. For
details, see 3GPP
TS 36.331.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
TDLOFD-001034
TDLOFD-001053
Indicates whether a
BCCH carrier with
the specific NCC is
permitted for
monitoring. For
details, see 3GPP
TS 36.331.
which
the eNodeB NO
selects a target
frequency group for
blind redirection or
delivers a frequency
group in
measurement
configuration
messages. If a blind
redirection is
triggered and the
target neighboring
cell is not specified,
the eNodeB selects
a target frequency
group based on the
setting of this
parameter. If a
measurement
configuration is to
be delivered, the
eNodeB
preferentially
delivers the
frequency group
with the highest
priority. If this
parameter is set to
0 for a frequency
group, this
frequency group is
not selected as the
target frequency
group for a blind
redirection. A larger
value indicates a
higher priority.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001020 /
TDLOFD-001020
TDLOFD-001046
TDLOFD-001073
NO
LOFD-001020 /
TDLOFD-001020
TDLOFD-001023
TDLOFD-001034
TDLOFD-001053
Indicates whether
the coverage area
of a GERAN
frequency group is
continuous. The
parameter value
CONTINUOUS
indicates that the
coverage area is
continuous. The
parameter value
NON_CONTINUOU
S indicates that the
coverage area is
non-continuous.
Only neighboring
GERAN cells
working at the
GERAN frequency
group that has
continuous
coverage are
considered in the
determination of
candidate cells for
blind CSFB to
GERAN.
NO
NO
NO
None
Indicates whether
information about
neighboring
GERAN cells and
external GERAN
cells configured on
the frequency group
associated with the
serving cell can be
maintained by ANR.
If this parameter is
set to ALLOWED,
the information can
be maintained by
ANR. If this
parameter is set to
NOT_ALLOWED,
the information
cannot be
maintained by ANR. NO
NO
NO
FD-002002 /
TDLOFD-002002
frequency is to be
added and there
are GERAN
neighboring
relationships with
cells on the
frequency can be
removed, ANR
removes the
GERAN
neighboring
relationship with the
cell that operates
on this frequency
and to which the
number of UEs
handed over from
the local cell is the
smallest.
If not all values of
this parameter for
all GERAN
frequencies are the
same, the eNodeB
removes the
candidate GERAN
neighbor
relationship with the
cell that operates
on a frequency and
to which the
number of UEs
handed over from
the local cell is the
smallest based on
frequency priories
in ascending order. NO
NO
NO
FD-002002 /
TDLOFD-002002
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001020 /
TDLOFD-001020
LBFD-002009 /
TDLBFD-002009
Indicates the index
of the BCCH carrier
frequency group. It
identifies a BCCH
carrier frequency
group.
YES
YES
Specifies the
ARFCN of the
GERAN BCCH. If
the GERAN ARFCN
value is not
between 512 and
810, one ARFCN
can only in one
frequency band.
For details about
this parameter, see
3GPP TS 45.005.
YES
YES
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001020 /
TDLOFD-001020
LBFD-002009 /
TDLBFD-002009
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201801 /
TDLBFD-00201801
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201801 /
TDLBFD-00201801
Indicates the
starting physical cell
ID of the intrafrequency
blacklisted cell. For
details, see 3GPP
TS 36.331.
YES
Indicates the name
of the intrafrequency
blacklisted cell.
NO
YES
NO
Indicates the
physical cell ID
range of the intrafrequency
blacklisted cell. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
LBFD-00201801 /
TDLBFD-00201801
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code of the
E-UTRAN
neighboring cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the mobile
network code of the
E-UTRAN
neighboring cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the
eNodeB identity of
the intra-frequency
neighboring cell. It
uniquely identifies
an eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
YES
NO
None
Indicates the local
identity of the intrafrequency
neighboring cell. It
uniquely identifies a
cell within an
eNodeB. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
YES
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates the cell
individual offset for
the intra-frequency
neighboring cell,
which is used in
evaluation for
handovers. It
affects the
probability of
triggering intrafrequency
measurement
reports. A larger
value of this
parameter indicates
a higher probability.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
TDLBFD-002018
Indicates the offset
for the intrafrequency
neighboring cell,
which is used in
evaluation for cell
reselections. A
larger value of this
parameter results in
a lower probability
of cell reselections.
If this parameter is
not set to dB0, it is
delivered in SIB4.
For details, see
3GPP TS 36.331. If
this parameter is
set to dB0, it is not
delivered in SIB4.
In this situation,
UEs use 0 dB as
the offset for cell
reselections. For
details, see 3GPP
TS 36.304.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates whether
handovers of UEs
to the neighboring
cell are prohibited.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
Indicates whether
to permit or prohibit
removal of the
neighboring
relationship by
ANR.
NO
NO
NO
LOFD-002001
Indicates whether
this neighboring cell
is automatically
discovered by the
ANR algorithm.
NO
NO
NO
LOFD-002001
Indicates the name
of the local cell.
NO
Indicates the name
of the intrafrequency
neighboring EUTRAN cell.
NO
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LOFD-002001 /
TDLOFD-002001
NO
LBFD-00201801 /
TDLBFD-00201801
LOFD-002001 /
TDLOFD-002001
Indicates the priority
of measurement on
the intra-frequency
neighboring cell.
The eNodeB
preferentially
contains the
information about a
neighboring cell
with this priority set
to HIGH_PRIORITY
while delivering a
measurement
configuration.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the cell
coverage offset.
This parameter is
used to support
coverage expansion
in micro eNodeBs.
This parameter is
added to or
substracted from
the original
CellIndividualOffset
value to generate
new CQIs, so that
handovers from a
macro eNodeB to a
micro eNodeB can
be triggered more
easily or handovers
from a micro
eNodeB to a macro
eNodeB can be
triggered less
easily. In this
manner, the cell
coverage of micro
eNodeBs is
expanded. In LTE
FDD, this
parameter is valid
only when eICIC is
enabled and
applies only to UEs
supporting eICIC.
This restriction
does not apply to
LTE TDD.
NO
NO
NO
LBFD-002003
LAOFD-002001
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LBFD-00201804 /
TDLBFD-00201804
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the DL
EARFCN of the
neighboring cell on
the neighboring EUTRAN frequency.
For details, see the
3GPP TS 36.104.
YES
Indicates whether
to configure the
uplink E-UTRA
absolute radio
frequency channel
number (EARFCN)
for the interfrequency
neighboring cell.
NO
Indicates the uplink
E-UTRA absolute
radio frequency
channel number
(EARFCN) of the
inter-frequency
neighboring cell. If
the value of this
parameter is not
specified, the
default uplink
EARFCN is used,
which is calculated
based on the
downlink EARFCN.
For details about
this parameter, see
3GPP TS 36.104.
NO
YES
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLOFD-001050
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLOFD-001050
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLOFD-001050
Indicates whether
to set the
reselection priority
of the neighboring
E-UTRAN
frequency. If the
value of this
parameter is not
specified, the UE
does not reselect to
neighboring cells on
the frequency.
serving
cell, the UE NO
starts
measurements on
neighboring cells on
the frequency; then
if the signal quality
of some
neighboring cells
meets the related
conditions, the UE
starts cell
reselection. If the
value of this
parameter is less
than or equal to the
absolute priority of
the serving cell, the
UE starts the
measurements only
when the signal
quality of the
serving cell is poor;
then if the signal
quality of some
neighboring cells
meets the related
conditions, the UE
starts cell
reselection.
Frequencies used
for different RATs
must be assigned
different cell
reselection
priorities. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
evaluation duration
for a UE to
determine whether
to reselect the interfrequency
neighboring cell to
camp on. If the
signal quality in an
inter-frequency
neighboring cell is
better than that in
the serving cell for
the period specified
by this parameter
and a UE camps on
the serving cell for
more than 1s, the
UE attempts to
reselect the interfrequency
neighboring cell to
camp on. This
parameter is
contained in SIB5.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates whether
to set the speeddependent scaling
parameters related
to cell reselection.
If this parameter is
set to NOT_CFG,
speed-dependent
cell reselections are
not supported by
default.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
scaling factor
applied to the cell
reselection duration
for medium-mobility
UEs. This
parameter is
delivered in SIB5.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
scaling factor
applied to the cell
reselection duration
for high-mobility
UEs. This
parameter is
delivered in SIB5.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
measurement
bandwidth of the
inter-frequency
neighboring cell on
the frequency. The
setting of this
parameter depends
on the bandwidth
configuration of the
cell. In E-UTRAN, a
cell bandwidth is
also expressed in
units of resource
blocks (RBs). Cell
bandwidths 1.4
MHz, 3 MHz, 5
MHz, 10 MHz, 15
MHz, and 20 MHz
correspond to 6
RBs, 15 RBs, 25
RBs, 50 RBs, 75
RBs, and 100 RBs,
respectively.
NO
YES
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the
frequency-specific
offset for the
neighboring EUTRAN frequency
that applies to UEs
in idle mode. It is
contained in system
information block
type 5 (SIB5) and
delivered to UEs in
idle mode for cell
reselection. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the RX
level required for a
neighboring cell on
the frequency to
become a
candidate for
reselection if the
priority of the
frequency is higher
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the frequency, the
UE reselects to a
neighboring cell on
the frequency only
if the RX level of
the cell is better
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
minimum RX level
required for a
neighboring cell on
the frequency to
become a
candidate for
reselection if the
priority of the
frequency is lower
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the frequency, the
UE reselects to a
neighboring cell on
the frequency only
if the RX level of
the serving cell is
lower than a
specified threshold
and that of the cell
is higher than the
value specified by
this parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the RX
level required for a
neighboring cell on
the frequency to
become a suitable
cell for selection. It
is included in
criteria S and used
in the evaluation for
cell selection.
During the
evaluation for cell
reselection, the UE
performs the
following
calculation: Srxlev =
Measured RSRP
value of a
neighboring cell on
the frequency Value of this
parameter Compensated
power. If Srxlev for
a cell is better than
a threshold for a
time-to-trigger,
reselection to the
cell is started. For
details, see 3GPP
TS 36.304.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates whether
to set the maximum
power that the UE
can apply to
transmission on the
neighboring EUTRAN frequency.
If the value of this
parameter is not
specified, the
maximum power is
subject to the UE
capability.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
maximum power
that the UE can
apply to
transmission on the
neighboring EUTRAN frequency.
It is used in cell
reselection criteria
to calculate the
compensated
power. If the value
of this parameter is
not specified, the
maximum power is
subject to the UE
capability. For
details, see 3GPP
TS
36.304.
NO
Indicates
the
information related
to MBSFN and TDD
UL/DL
configurations of
inter-frequency
neighboring cell of
the serving cell.
BitString00:
Indicates that some
neighboring cells
have the same
MBSFN subframe
configuration as the
serving cell.
BitString01:
Indicates that none
of the neighboring
cells is configured
with MBSFN
subframes.
BitString10:
Indicates that the
MBSFN subframe
configurations of all
neighboring cells
are the same as or
subsets of that of
the serving cell.
BitString11:
Indicates that the
serving TDD cells
have neighboring
cells of different ULDL configurations.
For details, see
3GPP TS 36.331.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates whether
all inter-frequency
neighboring cells on
this frequency are
configured with at
least two antenna
ports.
Set this parameter
to
BOOLEAN_TRUE if
all inter-frequency
neighboring cells on
this frequency are
configured with at
least two antenna
ports.
Set this parameter
to
BOOLEAN_FALSE
if one interfrequency
neighboring cell on
this frequency is
configured with only
one antenna port. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the event
to trigger coveragebased interfrequency
handovers. This
parameter can be
set to EventA3,
EventA4, or
EventA5. If the
neighboring EUTRAN frequency
and the serving
frequency are in the
same frequency
band, event A3 is
recommended as it
provides better
handover
performance in this
situation. If the
neighboring EUTRAN frequency
and the serving
frequency are in
different frequency
bands, event A4 or
A5 is used.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the
RSRQ-based
minimum RX level
required for a
neighboring cell on
the frequency to
become a
candidate for
reselection if the
RSRQ-based
priority of the
frequency is higher
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the neighboring EUTRAN frequency,
the UE reselects to
a neighboring cell
on the frequency
only if the RSRQbased RX level of
the cell is higher
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
RSRQ-based
minimum RX level
required for a
neighboring cell on
the frequency to
become a
candidate for
reselection if the
RSRQ-based
priority of the
frequency is lower
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
a frequency in the
GERAN carrier
frequency group,
the UE reselects to
a neighboring cell
on the frequency
only if the RSRQbased RX level of
the serving cell is
lower than a
specified threshold
and that of the cell
is higher than the
value specified by
this parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates whether
to set the minimum
required RX level. NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
minimum RX level
of an interfrequency
neighboring cell,
which is required for
it to become a
candidate for cell
reselection. It
determines the
probability of
triggering cell
reselection to interfrequency
neighboring cells on
the frequency. The
value of this
parameter is
contained in SIB5.
For details, see
3GPP TS 36.331.
NO
Indicates the
frequency priority
based on which the
eNodeB selects a
target frequency for
blind redirection or
contains a
frequency in a
measurement
configuration. If a
blind redirection is
triggered and the
target neighboring
cell is not specified,
the eNodeB selects
a target frequency
based on this
priority. If a
measurement
configuration is to
be delivered, the
eNodeB
preferentially
delivers a frequency
with the highest
priority. If this
priority is set to 0
for a frequency, this
frequency is not
selected as the
target frequency for
a blind redirection.
A larger value
indicates a higher
priority.
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
Indicates whether
the neighboring
frequency of the
serving frequency
can be a target
frequency in load
balancing. If this
parameter is set to
ALLOWED, the
neighboring
frequency of the
serving frequency
can be selected as
a target frequency
in load balancing. If
this parameter is
set to
NOT_ALLOWED,
the neighboring
frequency of the
serving frequency
cannot be selected
as a target
frequency in load
balancing.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates whether
to enable or disable
measurement for
frequency-prioritybased interfrequency
handovers to
neighboring
frequencies. In
frequency-prioritybased handovers, if
the eNodeB
delivers frequencies
to be measured
based on frequency
configuration, the
frequencies with the
FreqPriBasedHoMe
asFlag parameter
set to ENABLE can
be measured, and
the frequencies with
the
FreqPriBasedHoMe
asFlag parameter
set to DISABLE
cannot be
measured.
NO
NO
NO
None
Proportion for load
balancing at the
serving frequency =
100% – (proportion
at frequency 1 +
proportion at
frequency 2 + … +
proportion at
frequency n).
If the
INTER_FREQ_IDL
E_MLB_SWITCH
option of the
MlbAlgoSwitch
parameter in the
ENodeBAlgoSwitch
MO and the
ADAPTIVE_PROP
ORTION option of
the
InterFreqIdleMlbMo
de parameter in the
eNodeBMlb MO are
selected, the
eNodeB adaptively
adjusts the
proportions of UEs
in idle mode among
frequencies based
on UE distribution
in the network,
ensuring that the
proportions of UEs
in idle mode among
frequencies
approach to the
preset proportions. NO
Indicates the priority
of the neighboring
E-UTRAN
frequency for load
balancing. The
value 0 indicates
the lowest priority.
The neighboring EUTRAN frequency
with the highest
priority is selected
as the target
frequency for interfrequency load
balancing.
NO
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
NO
LOFD001032/TDLOFD001032
Indicates the
frequency-specific
offset for the
neighboring EUTRAN frequency
that applies to UEs
in connected mode.
It is contained in the
event A3/A4/A5
measurement
configuration and
delivered to UEs in
connected mode.
The offset affects
the probability of
reporting events A3,
A4, and A5. For
details, see 3GPP
TS 36.331.
NO
Indicates the
frequency
measurement
priority. A larger
value indicates a
higher priority.
NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the offset
to the RSRP
threshold for events
A4 and A5 that
trigger coveragebased interfrequency
handovers. In
coverage-based
handovers, the
eNodeB delivers
the RSRP threshold
for event A4 or A5
to UEs, which is
equal to the sum of
the
InterFreqHoA4Thd
Rsrp and
IfHoThdRsrpOffset
parameter values. If
the RSRP threshold
for event A4 or A5
is less than the
minimum RSRP
value, the minimum
value is delivered
instead. If the
RSRP threshold for
event A4 or A5 is
greater than the
maximum RSRP
value, the
maximum value is
delivered instead.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the offset
to the RSRP
threshold for events
A4 and A5 that
trigger load-based
inter-frequency
handovers. In loadbased interfrequency
handovers, the
eNodeB delivers
the RSRP threshold
for event A4 or A5
to UEs, which is
equal to the sum of
the
InterFreqLoadBase
dHoA4ThdRsrp and
IfMlbThdRsrpOffset
parameter values. If
the RSRP threshold
for event A4 or A5
is less than the
minimum RSRP
value, the minimum
value is delivered
instead. If the
RSRP threshold for
event A4 or A5 is
greater than the
maximum RSRP
value, the
maximum value is
delivered instead.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates whether
the EARFCN is
specific to the
primary frequency
band. Among the
EARFCNs of the
same frequency, if
the
MasterBandFlag
parameter is set to
TRUE for one
EARFCN and
FALSE for other
EARFCNs, the
former EARFCN is
specific to the
primary frequency
band while the
latter EARFCNs are
specific to
secondary
frequency bands. In
this case, only the
EARFCN specific to
the primary
frequency band is
broadcast in system
information block
type 5 (SIB5). If the
MasterBandFlag
parameter is set to
FALSE for all
EARFCNs of the
same frequency,
only the smallest
EARFCN is
broadcast in SIB5. NO
NO
NO
LBFD-070103 /
TDLBFD-00201806
Indicates whether
information about
inter-frequency
neighboring cells
and external cells
configured on the
frequency
associated with the
serving cell can be
maintained by ANR.
If this parameter is
set to ALLOWED,
the information can
be maintained by
ANR. If this
parameter is set to
NOT_ALLOWED,
the information
cannot be
maintained by ANR. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
removed, ANR
removes the intraRAT neighboring
relationship with the
cell that operates
on this frequency
and to which the
number of UEs
handed over from
the local cell is the
smallest.
Otherwise, the
intra-RAT neighbor
relationship with the
cell to which the
number of UEs
handed over from
the local cell is the
smallest is
removed.
If not all values of
this parameter for
all E-UTRAN
frequencies are the
same, the eNodeB
removes the
candidate neighbor
relationship with the
cell that operates
on a frequency and
to which the
number of UEs
handed over from
the local cell is the
smallest based on
frequency priories
in ascending order. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-002001
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the DL
EARFCN of the
inter-frequency
blacklisted cell. For
details, see 3GPP
TS 36.104.
YES
Indicates the
starting physical cell
ID of the interfrequency
blacklisted cell. For
details, see 3GPP
TS 36.331.
YES
Indicates the name
of the interfrequency
blacklisted cell.
NO
Indicates the
physical cell ID
range of the interfrequency
blacklisted cell. For
details, see 3GPP
TS 36.331.
NO
YES
YES
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201802 /
TDLBFD-00201802
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-00201802 /
TDLBFD-00201802
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code of the
E-UTRAN
neighboring cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the mobile
network code of the
E-UTRAN
neighboring cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LBFD-00201802 /
TDLBFD-00201802
Indicates the
eNodeB identity of
the inter-frequency
neighboring cell. It
uniquely identifies
an eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
YES
NO
None
Indicates the local
identity of the interfrequency
neighboring cell. It
uniquely identifies a
cell within an
eNodeB. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
YES
NO
LBFD-00201802
Indicates the cell
individual offset for
the inter-frequency
neighboring cell,
which is used in
evaluation for
handovers. It
affects the
probability of
triggering interfrequency
measurement
reports. A larger
value of this
parameter indicates
a higher probability.
For details, see
3GPP TS 36.331.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
Indicates the offset
for the interfrequency
neighboring cell,
which is used in
evaluation for cell
reselections. A
larger value of this
parameter results in
a lower probability
of cell reselections.
If this parameter is
not set to dB0, it is
delivered in SIB5.
For details, see
3GPP TS 36.331. If
this parameter is
set to dB0, it is not
delivered in SIB5.
In this situation,
UEs use 0 dB as
the offset for cell
reselections. For
details, see 3GPP
TS 36.304.
NO
Indicates whether
handovers of UEs
to the neighboring
cell are prohibited.
NO
Indicates whether
to permit or prohibit
removal of the
neighboring
relationship by
ANR.
NO
NO
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
LOFD-002012 /
TDLOFD-002012
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002012 /
TDLOFD-002012
handover priority,
frequency-basedhandover priority,
and 0. Within the
same segment, a
larger parameter
value indicates a
higher priority. Blind
handover is a
process in which
the eNodeB
instructs a UE to
hand over to a
specified
neighboring cell
without
measurements. If
this parameter
value is set to 0,
blind handovers
and frequencybased handovers
cannot be
performed. The
parameter values 1
to 16 indicate the
blind-handover
priorities. The
parameter values
17 to 32 indicate
the frequencybased-handover
priorities for
frequency-based
blind handovers
and measurementbased handovers. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
TDLOFD-001050
Indicates whether
this neighboring cell
is automatically
discovered by the
ANR algorithm.
NO
NO
NO
LOFD-002001
Indicates the name
of the local cell.
NO
Indicates the name
of the interfrequency
neighboring cell.
NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-002001 /
TDLOFD-002001
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-002001 /
TDLOFD-002001
Indicates the priority
of measurement on
the inter-frequency
neighboring cell.
The eNodeB
preferentially
contains the
information about a
neighboring cell
with this priority set
to HIGH_PRIORITY
while delivering a
measurement
configuration.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
TDLOFD-001050
Indicates whether
the inter-frequency
neighboring cell is
manually identified
as a neighboring
cell overlapping the
local E-UTRAN cell.
The default value is
NO. The parameter
value YES indicates
that the interfrequency
neighboring cell is
manually identified
as a neighboring
cell overlapping the
local E-UTRAN cell.
The parameter
value NO indicates
that the interfrequency
neighboring cell is
not manually
identified as a
neighboring cell
overlapping the
local E-UTRAN cell. NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-002001 /
TDLOFD-002001
Indicates the
overlapping
coverage area of a
target neighboring
cell that is
configured for the
inter-frequency load
balancing algorithm,
which is used to
decide locationbased priority user
policies. This
parameter is set
only for TDD cells. NO
NO
NO
TDLBFD-00201802
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
Indicates the mobile
country code of the
external E-UTRAN
cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
NO
YES
NO
LOFD-002001
NO
LOFD-001036
LOFD-001037
TDLBFD-00201801
TDLBFD-00201802
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001050
LOFD-070206
Indicates the mobile
network code of the
external E-UTRAN
cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
TDLBFD-00201801
TDLBFD-00201802
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001050
LOFD-070206
Indicates the
eNodeB identity of
the external EUTRAN cell. It
uniquely identifies
an eNodeB within a
PLMN. The 28-bit
E-UTRAN cell
identity is
comprised of the
cell identity and the
eNodeB identity
(represented by the
most significant 20
bits). The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
YES
NO
None
Indicates the cell
identity of the
external E-UTRAN
cell. It uniquely
identifies a cell
within an eNodeB.
The 28-bit EUTRAN cell identity
is comprised of the
cell identity
(represented by the
least significant
eight bits) and the
eNodeB identity.
The cell global
identity (CGI) of an
E-UTRAN cell is
comprised of the EUTRAN cell identity
and the PLMN ID.
For details, see
3GPP TS 36.413.
YES
Indicates the DL
EARFCN of the
external E-UTRAN
cell. For details, see
3GPP TS 36.104.
NO
Indicates whether
to configure the
uplink E-UTRA
absolute radio
frequency channel
number (EARFCN)
for the external EUTRAN cell.
NO
YES
YES
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
TDLBFD-00201801
TDLBFD-00201802
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001050
LOFD-070206
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
Indicates the uplink
E-UTRA absolute
radio frequency
channel number
(EARFCN) of the
external E-UTRAN
cell. If the value of
this parameter is
not specified, the
default uplink
EARFCN is used,
which is calculated
based on the
downlink EARFCN.
For details about
this parameter, see
3GPP TS 36.104.
NO
Indicates the
physical cell ID of
the external EUTRAN cell. For
details, see 3GPP
TS 36.331.
NO
Indicates the
tracking area code
(TAC) of the
external E-UTRAN
cell. Two TAC
values 0x0000(0)
and 0xFFFE(65534)
are reserved
according to the
protocol and will not
be used in future
versions. Therefore,
do not use 0 or
65534 as a TAC
value in TAC
planning or
configuration.
NO
NO
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
TDLBFD-00201801
TDLBFD-00201802
TDLBFD-00201804
TDLBFD-00201805
TDLOFD-001050
LOFD-070206
NO
LBFD-00201801
LBFD-00201802
LBFD-00201803
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
Indicates the name
of the external EUTRAN cell.
NO
NO
NO
LBFD-00201801 /
TDLBFD-00201801
LBFD-00201802 /
TDLBFD-00201802
UTRAN cell
belongs to multiple
frequency bands,
the downlink
frequency of the
frequency band with
the highest priority
is configured by the
DlEarfcn parameter,
and frequency
bands with other
priorities are
configured by the
EutranExternalCell
SlaveBand
parameter and
added in
descending order
based on frequency
band priorities. The
frequency band
priorities of an
external E-UTRAN
cell are determined
in network planning.
It is recommended
that the frequency
bands supporting
UEs that comply
with 3GPP TS
36.331 V8.16.0,
3GPP TS 36.331
V9.1.0, 3GPP TS
36.331 V10.5.0, or
a later vision be
configured as slave
frequency bands.
NO
YES
NO
LBFD-070103 /
TDLBFD-00201806
Indicates the
frequency band in
which the cell
operates. For
details about this
parameter, see
3GPP TS 36.104.
YES
NO
None
YES
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. The
preceding control
policy also applies
to the
EutranExternalCell
Plmn MO, which is
a child MO of the
EutranExternalCell
MO. When the
ANR-related MOs
are automatically
added based on the
ANR algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
neighboring
CDMA2000 band
class. For details,
see the
BandclassCDMA20
00 IE defined in
3GPP 36.331.
YES
Indicates the ID of
the operator.
YES
Indicates whether
to configure a
dedicated cellreselection priority
based on the PLMN
ID of the local cell
for the CDMA2000
1xRTT band class. NO
YES
YES
NO
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
LOFD-001112 /
TDLOFD-001112
NO
LOFD-001035 /
TDLOFD-001035
LOFD-001021 /
TDLOFD-001021
LOFD-001112 /
TDLOFD-001112
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001018
TDLOFD-001112
based on the PLMN
ID of the local cell.
The value 0
indicates the lowest
priority. If the
related SPID
configuration is
specified, set this
priority to the one
specified in the
SPID configuration.
If no related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
CDMA2000 band
class, which is
broadcast in the
system information. NO
Indicates whether
to configure
dedicated a cellreselection priority
based on the PLMN
ID of the local cell
for the CDMA2000
HRPD band class. NO
NO
NO
NO
LOFD-001035 /
TDLOFD-001035
TDLOFD-001018
TDLOFD-001112
NO
LOFD-001021 /
TDLOFD-001021
TDLOFD-001112
based on the PLMN
ID of the local cell.
The value 0
indicates the lowest
priority. If the
related SPID
configuration is
specified, set this
priority to the one
specified in the
SPID configuration.
If no related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
CDMA2000 band
class, which is
broadcast in the
system information. NO
NO
NO
LOFD-001021 /
TDLOFD-001021
TDLOFD-001112
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the DL
EARFCN of the
operator that
shares the
neighboring EUTRAN frequency.
For details, see the
3GPP TS 36.104.
YES
Indicates the mobile
country code (MCC)
of the operator that
shares the
neighboring EUTRAN frequency.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
Indicates the mobile
network code
(MNC) of the
operator that
shares the
neighboring EUTRAN frequency.
A public land mobile
network (PLMN) ID
is comprised of a
mobile network
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, the
PLMN ID is 12345. YES
YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
Indicates whether
to configure the cell
reselection
The value 0priority. NO
indicates the lowest
priority. If the
related SPID
configuration is
specified, the cell
reselection priority
specified in the
SPID configuration
is used. If no
related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
neighboring EUTRAN frequency,
which is broadcast
in the system
information.
NO
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
NO
LOFD-001036
TDLBFD-00201803
TDLOFD-001112
LOFD-070206
NO
NO
LOFD-001036
TDLBFD-00201803
TDLOFD-001112
LOFD-070206
YES
NO
None
NO
Indicates the DL
EARFCN of the
Operator
Configuration for
Serving Cell in
EUTRAN
Frequency. For
details, see the
3GPP TS 36.104.
YES
YES
NO
LOFD-001112 /
TDLOFD-001112
Indicates the ID of
the operator.
YES
YES
NO
LOFD-001112 /
TDLOFD-001112
NO
LOFD-001112 /
TDLOFD-001112
LBFD-00201803 /
TDLBFD-00201803
Indicates whether
to configure a
dedicated cellreselection priority
based on the PLMN
ID of the local cell
for the neighboring
E-UTRAN
frequency.
NO
NO
local cell. The value
0 indicates the
lowest priority. If the
related SPID
configuration is
specified, the cell
reselection priority
specified in the
SPID configuration
is used. If no
related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
neighboring EUTRAN frequency,
which is broadcast
in the system
information.
NO
NO
NO
LOFD-001112 /
TDLOFD-001112
LBFD-00201803 /
TDLBFD-00201803
Indicates the ID of
the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the index
of the GERAN
carrier frequency
group. It uniquely
identifies a GERAN
carrier frequency
group.
YES
YES
NO
LOFD-001112 /
TDLOFD-001112
Indicates the ID of
the operator.
YES
NO
LOFD-001112 /
TDLOFD-001112
NO
LOFD-001112 /
TDLOFD-001112
LBFD-00201803 /
TDLBFD-00201803
YES
Indicates whether
to configure a
dedicated cellreselection priority
based on the PLMN
ID of the local cell
for the GERAN
carrier frequency
group.
NO
NO
local cell. The value
0 indicates the
lowest priority. If the
related SPID
configuration is
specified, set this
priority to the one
specified in the
SPID configuration.
If no related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
neighboring
GERAN carrier
frequency group,
which is broadcast
in the system
information.
NO
NO
NO
LOFD-001112 /
TDLOFD-001112
LBFD-00201803 /
TDLBFD-00201803
Indicates the cell
identity of the local
cell. It uniquely
identifies a cell
within an eNodeB.
YES
NO
None
YES
Indicates the index
of the GERAN
carrier frequency
group. It uniquely
identifies a GERAN
carrier frequency
group.
YES
Indicates the mobile
country code (MCC)
of the operator that
shares the
neighboring
GERAN carrier
frequency group.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
YES
YES
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
Indicates the mobile
network code
(MNC) of the
operator that
shares the
neighboring
GERAN carrier
frequency group.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates whether
to configure the cell
reselection priority
of the operator that
shares the
neighboring
GERAN carrier
frequency group.
NO
YES
NO
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LBFD-00201803 /
TDLBFD-00201803
TDLOFD-001112
LOFD-070206
The value 0
indicates the lowest
priority. If the
related SPID
configuration is
specified, set this
priority to the one
specified in the
SPID configuration.
If no related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
neighboring
GERAN carrier
frequency group,
which is broadcast
in the system
information.
NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LBFD-00201803 /
TDLBFD-00201803
TDLOFD-001112
LOFD-070206
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the mobile
country code of the
neighboring UTRAN
cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001019 /
TDLOFD-001019
Indicates the mobile
network code of the
neighboring UTRAN
cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001019 /
TDLOFD-001019
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001052 /
TDLOFD-001052
Indicates the RNC
ID of the
neighboring UTRAN
cell. The 28-bit
UTRAN cell ID is
comprised of the
RNC cell ID and the
RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. For details, see
3GPP TS 25.401.
YES
YES
Indicates the RNC
cell ID of an
external UTRAN
cell. It uniquely
identifies a cell
within an RNC. The
28-bit UTRAN cell
ID is comprised of
the RNC cell ID and
the RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. For details, see
3GPP TS 25.401.
YES
YES
NO
LOFD-001052 /
TDLOFD-001052
LOFD-001019 /
TDLOFD-001019
Indicates whether
to allow handover
of UEs to the
neighboring cell that
is determined by
the neighboring
relation.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
Indicates whether
to permit or prohibit
removal of the
neighboring
relationship by
ANR.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates whether
this neighboring cell
is automatically
discovered by the
ANR algorithm.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the priority
of the neighboring
cell during blind
handovers. Blind
handover is a
process in which
the eNodeB
instructs a UE to
hand over to a
specified
neighboring cell.
There are 32
priorities altogether.
The priority has a
positive correlation
with the value of
this parameter.
Note that the value
0 indicates that
blind handovers to
the neighboring cell
are not allowed.
NO
Indicates the priority
of measurement on
the neighboring
UTRAN cell. The
eNodeB
preferentially
contains the
information about a
neighboring cell
with this priority set
to HIGH_PRIORITY
while delivering a
measurement
configuration.
NO
NO
NO
NO
LOFD-001019
TDLOFD-001022
TDLOFD-001033
TDLOFD-001052
TDLOFD-001019
TDLOFD-001043
TDLOFD-001072
TDLOFD-001078
NO
LOFD-001019
TDLOFD-001022
TDLOFD-001033
TDLOFD-001052
TDLOFD-001019
TDLOFD-001043
TDLOFD-001072
TDLOFD-001078
Indicates whether
the neighboring
UTRAN cell is
manually identified
as a neighboring
cell overlapping the
E-UTRAN cell. The
default value is NO.
The parameter
value YES indicates
that the neighboring
UTRAN cell is
manually identified
as a neighboring
cell overlapping the
E-UTRAN cell. The
parameter value
NO indicates that
the neighboring
UTRAN cell is not
manually identified
as a neighboring
cell overlapping the
E-UTRAN cell.
NO
NO
NO
LOFD-001032 /
TDLOFD-001032
LOFD-001044 /
TDLOFD-001044
MRFD-231901
Indicates the name
of the local cell.
NO
NO
NO
LOFD-001019
Indicates the name
of the UTRAN
neighboring cell.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
set to
AUTO_MODE, the
ANR-related MOs
can be modified or
removed by the
user or based on
the ANR algorithm.
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. When
the ANR-related
MOs are
automatically added
based on the ANR
algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-002002
Indicates the ID of
the eNodeB, which
uniquely identifies
an eNodeB within a
PLMN.
NO
NO
YES
None
Indicates the time
of the latest RIM
request received by
the neighboring
UTRAN cell.
NO
NO
YES
None
Indicates the latest
updated time of the
system information
that the eNodeB
receives from the
neighboring UTRAN
cell through the RIM
procedure.
NO
NO
YES
None
Indicates the latest
time that the
eNodeB obtains the
load information
about the
neighboring UTRAN
cell through an RIM
procedure.
NO
NO
YES
None
Indicates the latest
time that the
eNodeB initiates an
RIM procedure to
obtain the load
information about
the neighboring
UTRAN cell.
NO
NO
YES
None
Indicates the load
status of the
neighboring UTRAN
cell, which is
obtained by the
eNodeB through
the latest RIM
procedure.
NO
NO
YES
None
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
downlink UARFCN
of the neighboring
UTRAN frequency.
YES
NO
LOFD-001112 /
TDLOFD-001112
YES
Indicates the ID of
the operator.
YES
Indicates whether
to configure a
dedicated cellreselection priority
based on the PLMN
ID of the local cell
for the UTRAN
frequency.
frequency based on NO
the PLMN ID of the
local cell. The value
0 indicates the
lowest priority. If the
related SPID
configuration is
specified, set this
priority to the one
specified in the
SPID configuration.
If no related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
neighboring UTRAN
frequency, which is
broadcast in the
system information. NO
YES
NO
NO
NO
LOFD-001112 /
TDLOFD-001112
NO
LOFD-001112 /
TDLOFD-001112
LBFD-00201803 /
TDLBFD-00201803
NO
LOFD-001112 /
TDLOFD-001112
LBFD-00201803 /
TDLBFD-00201803
Indicates the cell
identity of the local
cell. It uniquely
identifies a cell
within
an eNodeB.
YES
[9500-9600]
and
[10050-10125]
Special UARFCNs:
none
Band 2:
Normal UARFCNs:
[9250-9550] and
[9650-9950]
Special UARFCNs:
none
Band 3:
Normal UARFCNs:
[9550-9650]
Special UARFCNs:
none
Band 4:
Normal UARFCNs:
[12850-13100]
Special UARFCNs:
(2112, 2137, 2162,
2187, 2212, 2237,
2262, 2287, 2312,
2337)
Band 5:
Normal UARFCNs:
[11500-12000]
Special UARFCNs:
none
Band 6:
Normal UARFCNs:
[9400-9600]
Special UARFCNs:
none
For details, see
3GPP TS 25.104
and 3GPP TS
25.105.
YES
YES
YES
NO
None
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
Indicates the mobile
country code (MCC)
of the neighboring
UTRAN cell.
A public land mobile
network (PLMN) ID
is comprised of an
MCC and a mobile
network code
(MNC).
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates the mobile
network code
(MNC) of the
neighboring UTRAN
cell.
A public land mobile
network (PLMN) ID
is comprised of a
mobile country
code (MCC) and an
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, if the
MCC is 123 and the
MNC is 45, then the
PLMN ID is 12345. YES
Indicates whether
to configure the cell
reselection priority
of the operator that
shares the
neighboring UTRAN
frequency.
NO
YES
YES
NO
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
TDLOFD-001112
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LBFD-00201803 /
TDLBFD-00201803
TDLOFD-001112
LOFD-070206
shares the
neighboring UTRAN
frequency. The
value 0 indicates
the lowest priority. If
the related SPID
configuration is
specified, set this
priority to the one
specified in the
SPID configuration.
If no related SPID
configuration is
specified but this
parameter is set,
the eNodeB
delivers the cell
reselection priorities
of all PLMNs
supported by a UE
by using the IE
idleModeMobilityCo
ntrolInfo in an RRC
Connection
Release message
to the UE. If no
related SPID
configuration is
specified and this
parameter is not
set, a UE uses the
cell reselection
priority of the
neighboring UTRAN
frequency, which is
broadcast in the
system information. NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LBFD-00201803 /
TDLBFD-00201803
TDLOFD-001112
LOFD-070206
Indicates the cell ID
of the local cell. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
[9500-9600] and
[10050-10125]
Special UARFCNs:
none
Band 2:
Normal UARFCNs:
[9250-9550] and
[9650-9950]
Special UARFCNs:
none
Band 3:
Normal UARFCNs:
[9550-9650]
Special UARFCNs:
none
Band 4:
Normal UARFCNs:
[12850-13100]
Special UARFCNs:
(2112, 2137, 2162,
2187, 2212, 2237,
2262, 2287, 2312,
2337)
Band 5:
Normal UARFCNs:
[11500-12000]
Special UARFCNs:
none
Band 6:
Normal UARFCNs:
[9400-9600]
Special UARFCNs:
none
For details, see
3GPP TS 25.104
and 3GPP TS
25.105.
YES
Indicates the
working mode
supported by the
UTRAN in the
current UARFCN.
Indicates the
TDD/FDD mode of
the inter-RAT
UTRAN.
NO
NO
YES
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001019 /
TDLOFD-001019
LBFD-002009 /
TDLBFD-002009
TDLOFD-001078
NO
LBFD-00201803 /
TDLBFD-00201803
TDLOFD-001078
NO
LOFD-001019 /
TDLOFD-001019
LOFD-002002
UARFCN - 225;
Band 7: UL
UARFCN = DL
UARFCN - 600;
Band 8: UL
UARFCN = DL
UARFCN - 225;
Band 9: UL
UARFCN = DL
UARFCN - 475;
The default UL
UARFCN is
calculated as
follows if the DL
frequency is a
special one: Band
2: UL UARFCN =
DL UARFCN - 400;
Band 4: UL
UARFCN = DL
UARFCN - 300;
Band 5: UL
UARFCN = DL
UARFCN - 225;
Band 6: UL
UARFCN = DL
UARFCN - 225;
Band 7: UL
UARFCN = DL
UARFCN - 225; For
a TDD UTRAN cell,
the UL UARFCN is
the same as the DL
UARFCN. For
details, see 3GPP
TS 25.104 and
25.105.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001019 /
TDLOFD-001019
TDLOFD-001078
[9500-9600] and
[10050-10125]
Special UARFCNs:
none
Band 2:
Normal UARFCNs:
[9250-9550] and
[9650-9950]
Special UARFCNs:
none
Band 3:
Normal UARFCNs:
[9550-9650]
Special UARFCNs:
none
Band 4:
Normal UARFCNs:
[12850-13100]
Special UARFCNs:
(2112, 2137, 2162,
2187, 2212, 2237,
2262, 2287, 2312,
2337)
Band 5:
Normal UARFCNs:
[11500-12000]
Special UARFCNs:
none
Band 6:
Normal UARFCNs:
[9400-9600]
Special UARFCNs:
none
For details, see
3GPP TS 25.104
and 3GPP TS
25.105.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LOFD-001019 /
TDLOFD-001019
Indicates whether
to set the priority of
a cell assigned with
the UARFCN used
in cell reselection to
UTRAN.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
serving cell, the UE
starts
measurements on
neighboring cells on
the UTRAN
frequency; then if
the signal quality of
some neighboring
cells meets the
related conditions,
the UE starts cell
reselection.
If the value of this
parameter is
smaller than the
absolute priority of
the serving cell, the
UE starts the
measurements only
when the signal
quality of the
serving cell is poor;
then if the signal
quality of some
neighboring cells
meets the related
conditions, the UE
starts cell
reselection.
Frequencies used
for different RATs
must be assigned
different cell
reselection
priorities. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
LBFD-002009 /
TDLBFD-002009
TDLOFD-001018
Indicates the
maximum power
that the UE can
apply to
transmission on the
UTRAN frequency.
It is used in criteria
S to calculate the
compensated
power. For details,
see 3GPP TS
25.104.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
frequency offset of
the cell on the
UTRAN frequency.
It determines the
probability of
triggering
measurement
reports for events
B1 and B2. For
details, see 3GPP
TS
36.331.
minimum
quality
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001022
TDLOFD-001033
TDLOFD-001052
level required for a
cell on the UTRAN
frequency to
become a
candidate for
reselection. This
parameter is
applied only to
reselection to
UTRAN FDD cells.
A neighboring cell
on the UTRAN
frequency can
become a
candidate for
reselection only
when the signal
quality of the cell is
better than the
value of this
parameter.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the RX
level required for a
neighboring cell on
the UTRAN
frequency to
become a
candidate for
selection. It is
included in criteria
S and used in the
evaluation for cell
selection. During
the evaluation for
cell reselection, the
UE performs the
following
calculation: Srxlev =
Measured RSRP
value of a
neighboring cell on
the frequency Value of this
parameter Compensated
power. If Srxlev for
a neighboring cell is
better than a
threshold for a timeto-trigger,
reselection to the
cell is started. For
details, see 3GPP
TS 25.304.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
minimum RX level
required for a
neighboring cell on
the UTRAN
frequency to
become a
candidate for
reselection if the
priority of the
frequency is higher
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the UTRAN
frequency, the UE
reselects to a
neighboring cell on
the frequency only
if the RX level of
the cell is higher
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
minimum RX level
required for a
neighboring cell on
the UTRAN
frequency to
become a
candidate for
reselection if the
priority of the
frequency is lower
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the UTRAN
frequency, the UE
reselects to a
neighboring cell on
the frequency only
if the RX level of
the serving cell is
lower than a
specified threshold
and that of the cell
is higher than the
value specified by
this parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
RSRQ-based
minimum RX level
required for a
neighboring cell on
the frequency to
become a
candidate for
reselection if the
RSRQ-based
priority of the
frequency is higher
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the UTRAN
frequency, the UE
reselects to a
neighboring cell on
the frequency only
if the RSRQ-based
RX level of the cell
is higher than the
value specified by
this parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
Indicates the
RSRQ-based
minimum RX level
required for a
neighboring cell on
the frequency to
become a
candidate for
reselection if the
RSRQ-based
priority of the
frequency is lower
than that of the
serving frequency.
After
measurements are
started for
neighboring cells on
the frequency, the
UE reselects to a
cell on the
frequency only if
the RSRQ-based
RX level of the
serving cell is lower
than a specified
threshold and that
of the cell is higher
than the value
specified by this
parameter for a
time-to-trigger. For
details, see 3GPP
TS 36.331.
NO
NO
NO
LBFD-00201803 /
TDLBFD-00201803
coverage-based
inter-RAT PS
handovers, if
UtranFreqLayerMea
sSwitch is turned
on, the eNodeB
determines the
UTRAN frequency
to be delivered to a
UE based on PS
service priorities.
The eNodeB
delivers the UTRAN
frequency with the
highest PS priority
to the UE by
default.In blind
handovers to
UTRAN, the target
cell for a blind
handover is
selected based on
PS service
priorities. The cell
on the UTRAN
frequency with the
highest PS priority
is selected by
default.When this
parameter is set to
Priority_0 for a
UTRAN frequency,
the UTRAN
frequency is not
included in PS
service priority
arrangement.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLOFD-001078
if
UtranFreqLayerMea
sSwitch is turned
on, the eNodeB
determines the
UTRAN frequency
to be delivered to a
UE based on CS
service priorities.
The eNodeB
delivers the UTRAN
frequency with the
highest CS priority
to the UE by
default.In blind
handovers for
CSFB to UTRAN, if
UtranFreqLayerBlin
dSwitch is turned
on, the target cell
for a blind handover
is selected based
on CS service
priorities. The cell
on the UTRAN
frequency with the
highest CS priority
is selected by
default.When this
parameter is set to
Priority_0 for a
UTRAN frequency,
the UTRAN
frequency is not
included in CS
service priority
arrangement.
NO
NO
NO
LOFD-001078 /
TDLOFD-001078
TDLOFD-001033
TDLOFD-001052
TDLOFD-001088
Indicates the
frequency priority
based on which the
eNodeB selects a
target frequency for
blind redirection or
contains a
frequency in a
measurement
configuration. If a
blind redirection is
triggered and the
target neighboring
cell is not specified,
the eNodeB selects
a target frequency
based on this
priority. If a
measurement
configuration is to
be delivered, the
eNodeB
preferentially
delivers a frequency
with the highest
priority. If this
priority is set to 0
for a frequency, this
frequency is not
selected as the
target frequency for
a blind redirection.
A larger value
indicates a higher
priority.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
TDLBFD-00201803
TDLOFD-001022
TDLOFD-001033
TDLOFD-001052
TDLOFD-001043
TDLOFD-001072
TDLOFD-001078
UE in
RRC_CONNECTE
D mode based on
the priority specified
by this parameter.
The eNodeB
preferentially
delivers the UTRAN
frequency with the
highest CS+PS
combined service
priority to the UE. In
blind CSFB to
UTRAN, if
UtranCsfbSteeringS
witch and
UtranFreqLayerBlin
dSwitch are turned
on, the target cell is
selected based on
the priority specified
by this parameter.
The cell on the
UTRAN frequency
with the highest
priority is
preferentially
selected. If this
parameter is set to
Priority_0, the
UTRAN frequency
is not included in
priority arrangement
for neighboring
UTRAN frequencies
to carry CS+PS
combined services. NO
NO
NO
LOFD-001088 /
TDLOFD-001088
LOFD-001019 /
TDLOFD-001019
TDLOFD-001033
TDLOFD-001052
TDLOFD-001078
Indicates whether
the coverage area
of a UTRAN
frequency is
continuous. The
parameter value
CONTINUOUS
indicates that the
coverage area is
continuous. The
parameter value
NON_CONTINUOU
S indicates that the
coverage area is
non-continuous.
Only neighboring
UTRAN cells
working at the
UTRAN frequency
that has continuous
coverage are
considered in the
determination of
candidate cells for
blind CSFB to
UTRAN.
NO
Indicates the priority
of the neighboring
UTRAN frequency
for load sharing with
UTRAN. The value
0 indicates the
lowest priority. The
neighboring UTRAN
frequency with the
highest priority is
selected as the
target frequency for
inter-RAT load
sharing.
NO
NO
NO
NO
None
NO
LOFD001032/TDLOFD001032
Indicates whether
the UARFCN is
specific to the
primary frequency
band. Among the
UARFCNs of the
same frequency, if
the
MasterBandFlag
parameter is set to
TRUE for one
UARFCN and
FALSE for other
UARFCNs, the
former UARFCN is
specific to the
primary frequency
band while the
latter UARFCNs are
specific to
secondary
frequency bands. In
this case, only the
UARFCN specific to
the primary
frequency band is
broadcast in system
information block
type 6 (SIB6). If the
MasterBandFlag
parameter is set to
FALSE for all
UARFCNs of the
same frequency,
only the smallest
UARFCN is
broadcast in SIB6. NO
NO
NO
LBFD-070103 /
TDLBFD-00201806
Indicates whether
information about
neighboring UTRAN
cells and external
UTRAN cells
configured on the
frequency
associated with the
serving cell can be
maintained by ANR.
If this parameter is
set to ALLOWED,
the information can
be maintained by
ANR. If this
parameter is set to
NOT_ALLOWED,
the information
cannot be
maintained by ANR. NO
NO
NO
LOFD-002002 /
TDLOFD-002002
cell operating on a
frequency is to be
added and there
are UTRAN
neighboring
relationships with
cells on the
frequency can be
removed, ANR
removes the
UTRAN neighboring
relationship with the
cell that operates
on this frequency
and to which the
number of UEs
handed over from
the local cell is the
smallest.
If not all values of
this parameter for
all UTRAN
frequencies are the
same, the eNodeB
removes the
candidate UTRAN
neighbor
relationship with the
cell that operates
on a frequency and
to which the
number of UEs
handed over from
the local cell is the
smallest based on
frequency priories
in ascending order. NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the mobile
country code of the
external UTRAN
cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001019 /
TDLOFD-001019
Indicates the mobile
network code of the
external UTRAN
cell.
The PLMN consists
of the MCC and the
MNC.
The MCC consists
of three digits.
The MNC consists
of two to three
digits.
For example, MCC
= 123, MNC = 45,
PLMN = 12345.
YES
YES
NO
LOFD-001019 /
TDLOFD-001019
Indicates the RNC
ID of the external
UTRAN cell. The
28-bit UTRAN cell
ID is comprised of
the RNC cell ID and
the RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. For details, see
3GPP TS 25.401.
YES
YES
NO
LOFD-001052 /
TDLOFD-001052
Indicates the RNC
cell ID of an
external UTRAN
cell. It uniquely
identifies a cell
within an RNC. The
28-bit UTRAN cell
ID is comprised of
the RNC cell ID and
the RNC ID that are
represented by the
least significant 16
bits and the most
significant 12 bits,
respectively. The
formula for
calculating the
UTRAN cell ID is as
follows: UTRAN cell
ID = RNC ID x
65536 + RNC cell
ID. For details, see
3GPP TS 25.401.
YES
YES
NO
LOFD-001019 /
TDLOFD-001019
[9500-9600] and
[10050-10125]
Special UARFCNs:
none
Band 2:
Normal UARFCNs:
[9250-9550] and
[9650-9950]
Special UARFCNs:
none
Band 3:
Normal UARFCNs:
[9550-9650]
Special UARFCNs:
none
Band 4:
Normal UARFCNs:
[12850-13100]
Special UARFCNs:
(2112, 2137, 2162,
2187, 2212, 2237,
2262, 2287, 2312,
2337)
Band 5:
Normal UARFCNs:
[11500-12000]
Special UARFCNs:
none
Band 6:
Normal UARFCNs:
[9400-9600]
Special UARFCNs:
none
For details, see
3GPP TS 25.104
and 3GPP TS
25.105.
NO
YES
NO
LOFD-001019 /
TDLOFD-001019
UARFCN = DL
UARFCN - 600;
Band 8: UL
UARFCN = DL
UARFCN - 225;
Band 9: UL
UARFCN = DL
UARFCN - 475;
The default UL
UARFCN is
calculated as
follows if the DL
frequency is a
special one:
Band 2: UL
UARFCN = DL
UARFCN - 400;
Band 4: UL
UARFCN = DL
UARFCN - 300;
Band 5: UL
UARFCN = DL
UARFCN - 225;
Band 6: UL
UARFCN = DL
UARFCN - 225;
Band 7: UL
UARFCN = DL
UARFCN - 225;
For a TDD UTRAN
cell, the UL
UARFCN is the
same as the DL
UARFCN. For
details, see 3GPP
TS 25.104 and
3GPP TS 25.105.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
[9500-9600] and
[10050-10125]
Special UARFCNs:
none
Band 2:
Normal UARFCNs:
[9250-9550] and
[9650-9950]
Special UARFCNs:
none
Band 3:
Normal UARFCNs:
[9550-9650]
Special UARFCNs:
none
Band 4:
Normal UARFCNs:
[12850-13100]
Special UARFCNs:
(2112, 2137, 2162,
2187, 2212, 2237,
2262, 2287, 2312,
2337)
Band 5:
Normal UARFCNs:
[11500-12000]
Special UARFCNs:
none
Band 6:
Normal UARFCNs:
[9400-9600]
Special UARFCNs:
none
For details, see
3GPP TS 25.104
and 3GPP TS
25.105.
NO
NO
NO
None
Indicates the duplex
mode of the
UTRAN cell.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
Indicates whether
to set the routing
area code (RAC) of
the external UTRAN
cell. This parameter
must be set to
CFG(Configure) if
the external UTRAN
cell supports packet
switched (PS)
services.
NO
Indicates the
routing area code.
NO
Indicates the
primary DL
scrambles of the
external UTRAN
cell. For details, see
3GPP TS 25.331.
NO
Indicates the LAC
of the external
UTRAN cell.
NO
NO
LOFD-001019 /
TDLOFD-001019
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001034 /
TDLOFD-001034
LOFD-001052 /
TDLOFD-001052
TDLOFD-001033
TDLOFD-001043
TDLOFD-001072
TDLOFD-001078
YES
NO
LOFD-001019 /
TDLOFD-001019
NO
LOFD-001022 /
TDLOFD-001022
LOFD-001068 /
TDLOFD-001068
TDLOFD-001078
NO
YES
Indicates the name
of the external
UTRAN cell.
NO
Indicates whether
the external UTRAN
cell supports single
radio voice call
continuity (SRVCC)
for concurrent CS
and PS services. If
this parameter is
set to
BOOLEAN_FALSE,
the external UTRAN
cell does not
support SRVCC for
concurrent CS and
PS services.
NO
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
NO
LOFD-001022 /
TDLOFD-001022
LOFD-001019 /
TDLOFD-001019
TDLOFD-001078
external UTRAN
cell belongs to
multiple frequency
bands, the downlink
frequency of the
frequency band with
the highest priority
is configured by the
UtranDlArfcn
parameter, and
frequency bands
with other priorities
are configured by
the
UtranExternalCellSl
aveBand parameter
and added in
descending order
based on frequency
band priorities. The
frequency band
priorities of an
external UTRAN
cell are determined
in network planning.
It is recommended
that the frequency
bands supporting
UEs that comply
with 3GPP TS
36.331 V8.16.0,
3GPP TS 36.331
V9.1.0, 3GPP TS
36.331 V10.5.0, or
a later vision be
configured as slave
frequency bands.
NO
YES
NO
LBFD-070103 /
TDLBFD-00201806
Indicates the
frequency band in
which the cell
operates. For
details about this
parameter, see
3GPP TS 36.104.
YES
NO
None
YES
The MO removal is
successful even if
the MO does not
exist. An MO can be
added both by the
user and based on
the ANR algorithm.
If an existing MO is
to be added, the
MO is modified
when the user
performs the
addition, but it
cannot be added
based on the ANR
algorithm. The
preceding control
policy also applies
to the
UtranExternalCellPl
mn MO, which is a
child MO of the
UtranExternalCell
MO. When the
ANR-related MOs
are automatically
added based on the
ANR algorithm, this
parameter is set to
AUTO_MODE by
default. When the
ANR-related MOs
are added by the
user, this parameter
can be set to
AUTO_MODE or
MANUAL_MODE. NO
NO
NO
LOFD-002002 /
LOFD-002002
mobility, extended
CP, intra-subframe
frequency hopping,
UL CoMP, MUMIMO, and
PUCCH-based
uplink timing. All
cells established on
the LBBPd3 are
reactivated after
this parameter is
set to
LBBP_LARGE_CA
PACITY. If UL
CoMP, MU-MIMO,
and PUCCH-based
uplink timing are
enabled and then
this parameter is
set to
LBBP_LARGE_CA
PACITY, these
features do not take
effect after the cells
are reactivated. If
ultra-high speed
mobility, extended
CP, and intrasubframe frequency
hopping are
enabled and then
this parameter is
set to
LBBP_LARGE_CA
PACITY, the cells
cannot be
reactivated.
NO
NO
NO
None
Indicates the
operating mode of
single frequency
network (SFN)
cells. This eNodeBlevel parameter
applies to LTE FDD
eNodeBs equipped
with LBBPd or
UBBPd boards.
If this parameter is
set to NORMAL, an
SFN cell with a
bandwidth of 10
MHz supports a
maximum of 400
UEs, and an SFN
cell with a
bandwidth of 5 MHz
supports a
maximum of 200
UEs.
If this parameter is
set to
LARGECAPABILIT
Y, an SFN cell with
a bandwidth of 10
MHz supports a
maximum of 1200
UEs, and an SFN
cell with a
bandwidth of 5 MHz
supports a
maximum of 600
UEs.
NO
Indicates the
downlink E-UTRA
absolute radio
frequency channel
number (EARFCN)
of the candidate
PCC.
YES
NO
YES
NO
None
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the priority
with which the
candidate PCC is
selected as the
PCC. The priority
level has a positive
correlation with the
parameter value.
This parameter
takes effect only
when
PccAnchorSwitch of
the CaAlgoSwitch
parameter is on.
NO
Indicates the
reference signal
received power
(RSRP) threshold
for triggering event
A4 during higherpriority carrier
evaluation for PCC
selection.
NO
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the
reference signal
received quality
(RSRQ) threshold
for triggering event
A4 during higherpriority carrier
evaluation for PCC
selection in
scenarios where CA
is configured based
on frequencies. If
the measured
RSRQ of an interfrequency
neighboring cell in
the CA group is
greater than this
parameter value,
the CA UE reports
event A4.
NO
Indicates the
downlink E-UTRA
absolute radio
frequency channel
number (EARFCN)
of the PCC.
YES
NO
YES
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the
downlink EARFCN
of the candidate
SCC.
YES
Indicates the priority
with which the
candidate SCC
works as an SCC
for that PCC. A
smaller value of this
parameter indicates
a lower priority, and
a larger value
indicates a higher
priority.
NO
YES
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the offset
of the actual
threshold for CA
event A2relative to
the value of the
CarrAggrA2ThdRsr
p parameter in the
CaMgtCfg MO. If
the actual threshold
is greater than -43
dBm, the value of
-43 dBm takes
effect. If the actual
threshold is less
than -140 dBm, the
value of -140 dBm
takes effect.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the offset
of the actual
threshold for CA
event A4 relative to
the value of the
CarrAggrA4ThdRsr
p parameter in the
CaMgtCfg MO. If
the actual threshold
is greater than -43
dBm, the value of
-43 dBm takes
effect. If the actual
threshold is less
than -140 dBm, the
value of -140 dBm
takes effect.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
LAOFD-070201
LAOFD-070202
Indicates the
threshold above
which a neighboring
cell is added for a
serving cell by ANR.
The threshold is
expressed as a
success rate of
handovers from the
serving cell to the
neighboring cell.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
number of
successful
handovers to the
total number of
handovers from the
local cell to the
neighboring cell.
For example, an
external cell is
configured as a
neighboring cell for
all cells under an
eNodeB, this
neighboring cell
permits automatic
removal of the
neighboring
relationship by ANR
and the ctrlmode is
Auto_Mode. If the
success rate of
handovers from
each cell under the
eNodeB to this
neighboring cell is
lower than or equal
to this threshold
after a
measurement
period, the
corresponding
external cell and
the neighbor
relationship with
this cell are
automatically
removed.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the total
number of
handovers to a
neighboring cell
above which ANR
determines whether
to remove the
neighbor
relationship with
this cell from the
NRT or set the
NoHoFlag
parameter of this
cell to
FORBID_HO_ENU
M on the basis of
the handover
success rate.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
measurement
period based on
which ANR
determines whether
to remove a
neighbor
relationship with a
neighboring cell
from the NRT or set
the NoHoFlag
parameter of the
neighboring cell to
FORBID_HO_ENU
M on the basis of
the handover
success rate.
NO
Indicates the
number of periodic
measurement
reports sent for fast
ANR.
NO
Indicates the
interval at which
periodic
measurement
reports are sent for
fast ANR.
NO
NO
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
Indicates the fast
ANR checking
timer. When the
timer is expired, the
eNodeB
automatically
checks whether to
disable fast ANR.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
Indicates the
reference signal
received power
(RSRP) threshold
for intra-RAT fast
ANR. If the signal
quality in a
neighboring EUTRAN cell
reported by the UE
is lower than the
threshold, the cell is
not automatically
added as an
external cell of the
eNodeB.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
maximum allowed
number of UEs that
perform intra-RAT
measurements for
fast ANR. After the
number of UEs
performing intraRAT measurements
for fast ANR
reaches the
maximum number,
intra-RAT
measurements for
fast ANR will not be
performed on other
UEs.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
maximum allowed
number of UEs that
perform inter-RAT
measurements for
fast ANR. After the
number of UEs
performing interRAT measurements
for fast ANR
reaches the
maximum number,
inter-RAT
measurements for
fast ANR will not be
performed on other
UEs.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the
threshold above
which the eNodeB
enters the
monitoring state for
intra-RAT fast ANR.
The threshold is
expressed as the
number of UEs that
have performed
measurements for
intra-RAT fast ANR. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the
threshold above
which the eNodeB
enters the
monitoring state for
inter-RAT fast ANR.
The threshold is
expressed as the
number of UEs that
have performed
measurements for
inter-RAT fast ANR. NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the mode
for optimizing
neighbor
relationships. If this
parameter is set to
FREE, the eNodeB
automatically
optimizes neighbor
relationships using
ANR. If this
parameter is set to
CONTROLLED, the
eNodeB reports the
neighbor
relationships to be
optimized to the
U2000 and the
optimization is
subject to manual
confirmation.
NO
also used to
determine external
cell removal from
an NCL. Within four
consecutive
measurement
periods, if the
neighbor
relationship
corresponding to an
external cell in the
NCL is not added to
the NRT and the
local eNodeB is not
configured with an
X2 interface with
the peer eNodeB
providing the
external cell, this
external cell is
removed from the
NCL. This
parameter is also
used to determine
redundant neighbor
relationship removal
from the NRT. The
neighbor
relationship with the
neighboring cell to
which no UEs are
handed over from
the local cell within
four consecutive
measurement
periods is removed
from the NRT.
NO
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
types) from the
local cell to its
neighboring cells in
the last
measurement
period specified by
the
StatisticPeriodForN
RTDel parameter
reaches this
parameter value,
the eNodeB is
triggered to remove
a neighbor
relationship from
the NRT.
In periodic
redundant neighbor
relationship
removal, the
eNodeB removes
redundant neighbor
relationships if the
total number of
handovers (of all
types) from the
local cell to all
neighboring cells
reaches this
parameter value
within four
consecutive
measurement
periods specified by
the
StatisticPeriodForN
RTDel parameter. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
Indicates the switch
used to enable or
disable proactive
PCI conflict
detection. Within a
specified duration
after this switch is
turned on, the
eNodeB delivers
measurement
configurations for
proactive PCI
conflict detection to
UEs that meet
specific
requirements. Then,
the eNodeB starts
the detection based
on the
measurement
reports from the
UEs.
NO
NO
NO
LOFD-002007 /
TDLOFD-002007
Indicates the start
time of the active
PCI conflict
detection. If the
stop time is earlier
than or the same as
the start time, the
stop time is
assumed to be the
time of the next day. NO
NO
NO
LOFD-002007 /
TDLOFD-002007
Indicates the stop
time of the active
PCI conflict
detection. If the
stop time is earlier
than or the same as
the start time, the
stop time is
assumed to be the
time of the next day. NO
NO
NO
LOFD-002007 /
TDLOFD-002007
Indicates the
received signal
code power (RSCP)
threshold for fast
ANR with UTRAN.
If the signal quality
in a neighboring
UTRAN cell
reported by the UE
is lower than the
threshold, the cell is
not automatically
added as an
external cell of the
eNodeB.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the
received signal
strength indicator
(RSSI) threshold for
fast ANR with
GERAN. If the
signal quality in a
neighboring
GERAN cell
reported by the UE
is lower than the
threshold, the cell is
not automatically
added as an
external cell of the
eNodeB.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the pilot
strength threshold
for fast ANR with
CDMA2000 1xRTT.
If the signal quality
in a neighboring
CDMA2000 1xRTT
cell reported by the
UE is lower than the
threshold, the cell is
not automatically
added as an
external cell of the
eNodeB.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the pilot
strength threshold
for fast ANR with
CDMA2000 HRPD.
If the signal quality
in a neighboring
CDMA2000 HRPD
cell reported by the
UE is lower than the
threshold, the cell is
not automatically
added as an
external cell of the
eNodeB.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
ANR automatically
sets the NoHoFlag
of a neighboring
cell to
FORBID_HO_ENU
M(Forbid Ho) when
the handover
success rate is
equal to or less
than the
NoHoSetThd
parameter value.
The threshold is the
percentage of the
number of
successful
handovers to the
total number of
handovers from the
local cell to the
neighboring cell. If
the handover
success rate is
equal to or less
than the threshold
within a
measurement
period specified by
the StatisticPeriod
parameter, intraRAT ANR
automatically sets
the NoHoFlag of
the neighboring cell
to
FORBID_HO_ENU
M(Forbid Ho).
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
NRT when the
number of EUTRAN neighbor
relationships in the
NRT has reached
the maximum and a
new E-UTRAN
neighbor
relationship needs
to be added to the
NRT by ANR.
If this parameter is
set to 0, ANR
determines whether
to remove an EUTRAN neighbor
relationship from an
NRT only based on
the number of times
the E-UTRAN cell is
contained in the
measurement
reports instead of
the number of
incoming handovers
to the E-UTRAN
cell.
If this parameter is
set to a non-zero
value, the neighbor
relationship with the
E-UTRAN cell to
which the number
of handovers is less
than this parameter
value is removed
from an NRT.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
parameter is set to
NCL_NRT_MODE,
all neighboring cells
measured by fast
ANR are added to
the NCL and
neighboring cells
with the strongest
signal are added to
the neighboring
relation table (NRT)
simultaneously.
Currently, only the
inter-frequency
neighboring cell,
neighboring UTRAN
cell, and
neighboring
GERAN cell with
the strongest signal
can be added to the
NRT, and the intrafrequency
neighboring cell and
neighboring
CDMA2000 cell
with the strongest
signal cannot be
added to the NRT.
The intra-frequency
neighboring cells
and neighboring
CDMA2000 cells
can only be added
to the NCL
regardless of the
parameter setting. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
Indicates the policy
based on which
intra-RAT eventtriggered ANR adds
a neighbor
relationship to an
NRT.
If this parameter is
set to
BASED_NCL, intraRAT event-triggered
ANR can add a
neighbor
relationship to an
NRT based on the
NCL.
If this parameter is
set to
NOT_BASED_NCL,
intra-RAT eventtriggered ANR adds
a neighbor
relationship to an
NRT based on the
CGI reported from
the UE but not
based on the NCL. NO
NO
NO
LOFD-002001 /
TDLOFD-002001
reading when the
carrier aggregation
band combinations
supported by the
eNodeB involve the
frequency bands of
which such CA UEs
support
aggregation. If this
parameter is set to
CA_UE_CARRIER_
NUM(CA UE Carrier
Number), the
eNodeB selects CA
UEs to perform CGI
reading based on
the number of
serving carriers of
CA UEs, and does
not select the CA
UEs that have two
or more serving
carriers. If this
parameter is set to
ANR_UE_CAP(AN
R UE Capability),
the eNodeB
determines whether
to select CA UEs to
perform CGI
reading based on
the ANR capabilities
of UEs. The
eNodeB does not
select the CA UEs
that do not support
CGI reading.
NO
NO
NO
LOFD-002001
/TDLOFD-002001
external cell entries
and neighbor
relationships with
the cells from the
NCL and NRT,
respectively.
If event-triggered
ANR and automatic
neighbor
relationship removal
for an RAT are
enabled, the
inappropriate
neighboring cell
configuration
removal function
automatically takes
effect. If the number
of external cells or
neighbor
relationships of an
RAT reaches the
specifications, the
inappropriate
neighboring cell
configuration
removal function
and the redundant
neighboring cell
configuration
removal function
are automatically
triggered when new
external cells or
neighbor
relationships need
to be added.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
UTRAN NRT when
the number of
neighbor
relationships in the
UTRAN NRT has
reached the
maximum and a
new neighbor
relationship with a
UTRAN cell needs
to be added to the
NRT by ANR.
If this parameter is
set to 0, ANR
determines whether
to remove a
UTRAN neighbor
relationship from
the NRT only based
on the number of
times the UTRAN
cell is contained in
the measurement
reports instead of
the number of
incoming handovers
to the UTRAN cell.
If this parameter is
set to a non-zero
value, the neighbor
relationship with the
UTRAN cell to
which the number
of handovers is less
than this parameter
value is removed
from the NRT.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
GERAN NRT when
the number of
neighbor
relationships in the
GERAN NRT has
reached the
maximum and a
new neighbor
relationship with a
GERAN cell needs
to be added to the
NRT by ANR.
If this parameter is
set to 0, ANR
determines whether
to remove a
GERAN neighbor
relationship from
the NRT only based
on the number of
times the GERAN
cell is contained in
the measurement
reports instead of
the number of
incoming handovers
to the GERAN cell.
If this parameter is
set to a non-zero
value, the neighbor
relationship with the
GERAN cell to
which the number
of handovers is less
than this parameter
value is removed
from the NRT.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the device
number of the BF
antenna, it uniquely
identifies a RET
within an eNodeB. YES
YES
NO
None
Indicates the
manufacturer of the
BF antenna.
NO
NO
NO
None
Indicates the
cabinet number of
the RRU connecting
to the BF antenna. NO
NO
NO
LOFD-001024 /
TDLOFD-001024
Indicates the
subrack number of
the RRU connecting
to the BF antenna. NO
YES
NO
LOFD-001024 /
TDLOFD-001024
Indicates the slot
number of the RRU
connecting to the
BF antenna.
NO
NO
NO
LOFD-001024 /
TDLOFD-001024
Indicates the model
of the BF antenna.
Set this parameter
to RAE if the
antenna weight
must be queried
based on the RAE.
RAE is caseinsensitive.
NO
NO
NO
LOFD-001024 /
TDLOFD-001024
Indicates the
configured tilt of the
BF antenna.
NO
NO
NO
None
Indicates the
beamwidth formed
after beamforming. NO
NO
NO
None
Indicates the
frequency band in
which the BF
antenna operates.
NO
NO
NO
None
Indicates the type
of the BF antenna.
NO
NO
NO
None
Indicates the
degrees that an
intelligent antenna
deflects the beam
in the horizontal
azimuth from the
mechanical azimuth
based on the
weight. (The
mechanical azimuth
of the antenna is
used as a normal,
clockwise deflection
is a positive
number, and
counterclockwise
deflection is a
negative number.) NO
NO
NO
None
Indicates the
polarization mode
of the BF antenna.
NO
NO
YES
None
Indicates the
beamwidth of the
antenna element.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the
number of physical
antenna ports to
which the BF
antenna is
connected.
NO
NO
YES
None
Indicates the
amplitude offset at
physical antenna
port 1 when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the phase
offset at physical
antenna port 1
when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the
amplitude offset at
physical antenna
port 2 when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the phase
offset at physical
antenna port 2
when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the
amplitude offset at
physical antenna
port 3 when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the phase
offset at physical
antenna port 3
when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the
amplitude offset at
physical antenna
port 4 when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the phase
offset at physical
antenna port 4
when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from two ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the
amplitude offset at
physical antenna
port 1 when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from four ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the phase
offset at physical
antenna port 1
when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from four ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the
amplitude offset at
physical antenna
port 2 when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from four ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the phase
offset at physical
antenna port 2
when the BF
antenna is used
and cell-specific
reference signals
are transmitted
from four ports.
Each port may
consist of multiple
physical antenna
ports.
NO
NO
YES
LOFD-001024 /
TDLOFD-001024
Indicates the ID of
the file transfer
session.
NO
YES
None
NO
Indicates the
statistic period for
blind neighboring
cell optimization.
Information about
CSFB-triggered
measurementbased handovers or
CSFB-triggered
blind handovers is
collected within the
statistic period, and
suggestions on
blind neighboring
cell optimization are
exported after the
statistic period. The
statistic period is
seven days by
default.
NO
attempts from the
E-UTRAN cell to
neighboring cells
working at a
frequency (or
frequency group)
within a
measurement
period is greater
than this parameter
value, neighboring
cells working at the
frequency (or
frequency group)
can be selected as
candidate cells in
blind handovers. In
blind neighboring
cell optimization, if
the number of
CSFB-triggered
blind handover
attempts from the
E-UTRAN cell to a
neighboring cell that
has been selected
as a candidate cell
in blind handovers
within a
measurement
period is greater
than this parameter
value, this
neighboring cell can
remain as a
candidate cell in
blind handovers.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the
handover success
rate threshold for
determining
whether a
neighboring cell can
be selected as a
candidate cell in
blind handovers. If
the success rate of
measurementbased handovers
for a UE from the EUTRAN cell to a
neighboring cell is
greater than or
equal to this
parameter value
within a
measurement
period, the
neighboring cell can
be selected as a
candidate cell in
blind handovers.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the
CSFB-triggered
measurementbased handover
attempt threshold
for determining
whether a
neighboring cell can
be selected as a
candidate cell in
blind handovers. In
a measurement
period, the ratio of
the CSFB-triggered
measurementbased handover
attempts from the
E-UTRAN cell to a
neighboring cell to
all CSFB-triggered
measurementbased handover
attempts from the
E-UTRAN cell to all
neighboring cells
working on the
corresponding
frequency (or
frequency group) is
measured. If the
ratio is greater than
or equal to this
threshold, the
neighboring cell can
be selected as a
candidate cell in
blind handovers.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the blind
handover success
rate threshold for
determining
whether a
neighboring cell
selected as a
candidate cell in
blind handovers
can remain as a
candidate cell in
blind handovers. If
the blind handover
success rate of
handing over a UE
from the E-UTRAN
cell to the
neighboring cell that
has been selected
as a candidate cell
in blind handovers
is less than or equal
to this parameter
value within a
measurement
period, the
neighboring cell
cannot remain as a
candidate cell in
blind handovers.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the mode
for optimizing
neighboring cells for
blind handovers. If
this parameter is
set to FREE, the
eNodeB
automatically
changes the
priorities of
neighboring cells in
blind handovers. If
this parameter is
set to
CONTROLLED, the
eNodeB only
reports the
configuration of and
optimization on
neighboring cells for
blind handovers to
the U2000, and the
U2000 delivers the
configuration of and
optimization on the
neighboring cell
after users confirm
the configuration
and optimization.
NO
NO
NO
LOFD-002002 /
TDLOFD-002002
Indicates the ID of
the baseband
equipment used by
the clustering node.
If this parameter is
set to 255, no
baseband
equipment is
specified for the
clustering node.
NO
NO
NO
None
Indicates the
identity of the CA
group. It uniquely
identifies a CA
group within an
eNodeB.
Indicates the type
of the carrier
aggregation (CA)
group.
YES
NO
YES
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the type
of the CA group.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201
LAOFD-00100202
TDLAOFD-001003
TDLAOFD-001002
TDLAOFD-001004
YES
YES
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the local
cell identity. It
uniquely identifies a
cell within an
eNodeB.
YES
YES
NO
None
Indicates the
identity of the CA
group. It uniquely
identifies a CA
group within an
eNodeB.
Indicates the ID of
the eNodeB serving
the cell.
YES
Indicates the
primary serving cell
(PCell) priority of
the cell. The greater
the parameter
value, the more
probable for CA
UEs to treat the cell
as their PCell.
NO
YES
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the
reference signal
received power
(RSRP) threshold
for triggering event
A4 during higherpriority cell
evaluation for PCell
selection in
scenarios where CA
is configured based
on CA groups.If the
measured RSRP of
an inter-frequency
neighboring cell in
the CA group is
greater than this
parameter value,
the CA UE reports
event A4.
NO
Indicates the
reference signal
received quality
(RSRQ) threshold
for triggering event
A4 during higherpriority cell
evaluation for PCell
selection in
scenarios where CA
is configured based
on CA groups. If the
measured RSRQ of
an inter-frequency
neighboring cell in
the CA group is
greater than this
parameter value,
the CA UE reports
event A4.
NO
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates the switch
for the algorithm for
periodically
updating cell IDs. If
this parameter is
set to
BOOLEAN_TRUE,
cell IDs are
periodically
updated, inserted
into the system
information, and
broadcast to the
associated UEs
once the time at
which the algorithm
begins to take
effect is reached.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the time
at which the
algorithm for
periodically
updating cell IDs
begins to take
effect. If the switch
for the algorithm is
turned on, cell IDs
are periodically
updated, inserted
into the system
information, and
broadcast to the
associated UEs
once the time
specified by this
parameter is
reached.
NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates the period
of updating cell IDs. NO
NO
NO
LBFD-002009 /
TDLBFD-002009
Indicates whether
to enable CSPC in
cells under the
centralized control
node in Cloud BB
scenarios.
NO
NO
LOFD-070208
NO
Indicates the
method of
measuring
reference signal
received power
(RSRP) for CSPC.
If this parameter is
set to RSRP_UL,
the uplink RSRP is
measured based on
the uplink sounding
reference signal
(SRS)
measurement. If
this parameter is
set to RSRP_DL,
downlink RSRP is
reported by UEs in
event A3 or A6.
NO
NO
NO
LOFD-070208
Indicates the mode
of grouping cells
into clusters for
CSPC. If this
parameter is set to
STATIC_CONFIG,
cells must be
manually grouped
into clusters for
CSPC based on
site scenarios. If
this parameter is
set to
DYNAMIC_PARTITI
ON_CONFIG, the
centralized control
node periodically
groups cells into
clusters for CSPC
based on site
scenarios. The
DYNAMIC_PARTITI
ON_CONFIG value
does not take effect
currently.
NO
NO
NO
LOFD-070208
Indicates the
interval at which
cells are grouped
into clusters for
CSPC. The interval
can be configured
based on network
conditions. This
parameter currently
does not take effect
because dynamic
clustering is not
supported.
NO
NO
NO
LOFD-070208
Indicates whether
the centralized
control node
performs power
calculation for
power optimization.
If this parameter is
set to ON, the
centralized control
node performs
power calculation
based on
measurement
information
received from
eNodeBs. If this
parameter is set to
OFF, the centralized
control node does
not perform power
calculation after
receiving
measurement
information from
eNodeBs.
NO
NO
NO
LOFD-070208
Indicates the
percentage of
subframes with full
power to all
subframes within
one second.
NO
NO
NO
LOFD-070208
Indicates the
interval between the
time that an
eNodeB reports
measurement
information to the
centralized control
node and the time
that the power
configuration
delivered by the
centralized control
node takes effect
on the eNodeB.
NO
NO
NO
LOFD-070208
Indicates the
maximum number
of UEs that can be
selected for CSPC. NO
NO
NO
LOFD-070208
Indicates the PRB
usage threshold for
starting the
coordinated
scheduling function
of CSPC. The
function starts when
the highest PRB
usage among all
cells in a CSPC
cluster is greater
than this parameter
value.
NO
NO
NO
LOFD-070208
target cells that do
not support VoIP
services when
processing intraRAT handovers for
VoIP services.
UtranFlashCsfbSwit
ch: This switch
takes effect only
when
UtranCsfbSwitch is
turned on.
GeranFlashCsfbSwi
tch: This switch
takes effect only
when
GeranCsfbSwitch is
turned on.
CsfbAdaptiveBlindH
oSwitch: This
switch takes effect
only when
BlindHoSwitch is
turned on.
GeranUltraFlashCsf
bSwitch: If this
switch is turned on,
UEs can fall back to
GERAN by
performing ultraflash CSFB. If this
switch is turned off,
ultra-flash CSFB to
GERAN is disabled.
This switch is
dedicated to LTE
TDD cells.
NO
NO
NO
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
LOFD-001035 /
TDLOFD-001035
LOFD-001052 /
TDLOFD-001052
LOFD-001053 /
TDLOFD-001053
LOFD-001088 /
TDLOFD-001088
LOFD-001089 /
TDLOFD-001089
LOFD-001090 /
TDLOFD-001090
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
LOFD-001072 /
TDLOFD-001072
LOFD-001073 /
TDLOFD-001073
TDLBFD-002018
TDLOFD-001022
TDLOFD-070228
LOFD-070202 /
TDLOFD-070202
determining
whether PS
handover is
applied. UEs must
support
voiceOverPS-HSUTRA-FDD-r9 if the
target UTRAN cell
works in FDD mode
or voiceOverPSHS-UTRA-TDD128r9 if the target
UTRAN cell works
in TDD mode. If this
switch is turned off,
the eNodeB does
not check UE
capabilities when
handing over UEs
to UTRAN based
on PS handovers.
UtranFddB1CapSwi
tch: If this switch is
turned on, the
setting of bit 41 of
FGI specifying the
UE capability of
event B1
measurement on
FDD UTRAN cells
must be
considered. If this
switch is turned off,
the setting of bit 41
of FGI does not
need to be
considered.
NO
NO
NO
LOFD-001022 /
TDLOFD-001022
LOFD-001023 /
TDLOFD-001023
LOFD-001033 /
TDLOFD-001033
LOFD-001034 /
TDLOFD-001034
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
TDLOFD-001052
TDLOFD-001088
TDLOFD-001043
TDLOFD-001072
TDLOFD-001046
TDLOFD-001073
Indicates the DL
ICIC algorithm
switch. There are
four states.
DlIcicSwitch_OFF_
ENUM:Indicates
that DL ICIC is
disabled.
DlIcicDynamicSwitc
h_ON_ENUM:Indic
ates that dynamic
DL ICIC is enabled.
DlIcicStaticSwitch_
ON_ENUM:Indicate
s that static DL ICIC
is enabled.
DlIcicReuse3Switch
_ON_ENUM: None. NO
NO
NO
LBFD-00202201 /
TDLBFD-00202201
LOFD-00101401
turned on, servicebased interfrequency
handovers can be
performed to
establish and
optimize intra-RAT
neighbor
relationships. When
both
UtranEventAnrSwitc
h and
ServiceBasedEvent
AnrSwitch are
turned on, servicebased handovers
can be performed
to establish and
optimize UTRAN
neighbor
relationships.
ServiceReqEventAn
rSwitch: When both
IntraRatEventAnrS
witch and
ServiceReqEventAn
rSwitch are turned
on, service-requestbased interfrequency
handovers can be
performed to
establish and
optimize intra-RAT
inter-frequency
neighbor
relationships.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
Indicates the switch
used to enable or
disable the
redirection
algorithm. This
switch does not
control redirection
or fast redirection
for CSFB.
GeranFlashRedirect
Switch: If this switch
and
GeranRedirectSwitc
h are turned on,
fast redirection to
GERAN can be
performed.
UranFlashRedirect
Switch: If this switch
and
UtranRedirectSwitc
h are turned on,
fast redirection to
UTRAN can be
performed.
LoadBasedSwitch:
If this switch is
turned on, load
based redirection
can be performed. NO
NO
NO
LBFD-002023 /
TDLBFD-002023
LBFD-002024 /
TDLBFD-002024
LOFD-00102901 /
TDLOFD-00102901
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001021 /
TDLOFD-001021
eNodeB does not
perform the
adjustment. In the
current version, this
parameter applies
only to LTE TDD
cells.
IntraRatCallbackSw
tich: If this check
box is selected,
after handover
parameters are
optimized, the
eNodeB monitors
the proportion of
abnormal
handovers within an
MRO period for
intra-RAT
neighboring cells. If
the proportion of
abnormal
handovers
increases, the
eNodeB rolls back
the configuration. If
this check box is
deselected, the
eNodeB does not
perform the
monitoring and the
configuration
rollback. In the
current version, this
parameter applies
only to LTE TDD
cells.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the switch
for the TCP Proxy
Enhancer (TPE)
algorithm. The TPE
algorithm uses ACK
splitting to increase
the data rate of
TCP services at the
initial stage. If this
switch is turned on,
the TPE algorithm
is enabled and
applies only to UEs
that newly access
or reaccess the
network. If this
switch is turned off,
the TPE algorithm
is disabled.
NO
NO
NO
LOFD-001026
TDLOFD-001028
Indicates the
adjustment switch
that is used to
enable and disable
UL ICIC algorithm
in the time domain.
When this switch is
set to ON, UL ICIC
in the time domain
is enabled in the
cells under the
eNodeB. Otherwise,
UL ICIC in the time
domain is disabled. NO
Indicates the switch
used to enable or
disable UL ICIC in
the frequency
domain. If this
switch is set to OFF,
UL ICIC in the
frequency domain
is disabled in the
eNodeB cells. If this
switch is set to
STATIC, static UL
ICIC in the
frequency domain
is enabled in the
eNodeB cells. If this
switch is set to
DYNAMIC, dynamic
UL ICIC in the
frequency domain
is enabled in the
eNodeB
cells,Dynamic ICIC
and static ICIC will
not take effect
when the UL
adaptive ICIC
switch of the cell is
turned on.
NO
NO
NO
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
NO
LBFD-00202202 /
TDLBFD-00202202
LOFD-00101402
Indicates the
location services
(LCS) switch.
OtdoaSwitch: If the
switch is turned on,
observed time
difference of arrivalbased (OTDOAbased) positioning
is enabled. If the
switch is turned off,
OTDOA-based
positioning is
disabled.
NO
). If this switch is
turned on, the
scheduling
algorithm is notified
to limit the number
of resource blocks
(RBs) allocated to
the UE in the case
of uplink
congestion.
According to the
related
specifications,
however, the
scheduling
algorithm cannot
decide how many
RBs to be allocated
to each bearer. The
number of RBs that
each non-GBR
bearer can use is
determined based
on the prioritized bit
rates (PBRs) and
priorities of the
associated logical
channels rather
than based on
UlschPriorityFactor.
As a result, if this
switch is turned on,
fairness and
differentiation for
combined services
of a UE may be
affected.
NO
NO
NO
LOFD-001047 /
TDLOFD-001047
NO
NO
LOFD-00301102 /
TDLOFD-00301102
Indicates the switch
for reporting the
PCI conflict alarm.
If this switch is
turned on, an alarm
is reported in case
of PCI collision or
PCI confusion to
notify users. If this
switch is turned off,
alarms related to
PCI conflict are not
reported.
NO
NO
NO
LOFD-002007 /
TDLOFD-002007
Indicates the switch
used to enable or
disable the
eNodeB-level
energy
conservation
function. eNodeBlevel energy
conservation can
be implemented
based on symbol
power saving.
symbol power
saving applies only
to LTE-only base
stations. If this
function is enabled,
the eNodeB shuts
down PAs on the
corresponding RF
unit when it detects
that OFDM symbols
within the
subframes do not
contain any
downlink data to
transmit. This
reduces static
power consumption
and hence
conserves energy
for the eNodeB.
NO
NO
NO
LOFD-001070 /
TDLOFD-001070
reports. If this
switch is turned off,
the eNodeB cannot
send RANINFORMATIONREQUEST PDUs to
UTRAN cells to
request multiple
event-driven
reports.
GERAN_RIM_SWI
TCH: Indicates the
switch used to
enable or disable
the RIM procedure
that requests eventdriven multiple
reports from
GERAN cells. If this
switch is turned on,
the eNodeB can
send RANINFORMATIONREQUEST PDUs to
CERAN cells to
request multiple
event-driven
reports. If this
switch is turned off,
the eNodeB cannot
send RANINFORMATIONREQUEST PDUs to
GERAN cells to
request multiple
event-driven
reports.
NO
NO
NO
LOFD-001034 /
TDLOFD-001034
LOFD-001052 /
TDLOFD-001052
LOFD-001053 /
TDLOFD-001053
h or
UtranFastAnrSwitch
is turned on for the
local eNodeB, the
local eNodeB will
ask the U2000 for
the PLMN list for a
cell after the UE
reports the CGI of
the cell during ANR
measurements. If
the UE has
reported the
PLMNlist, the local
eNodeB will not ask
the U2000 for the
PLMN list.
NBSGERANRANSh
aringSwitch: If this
switch is turned on,
some neighboring
BTSs provide cells
that work in GERAN
sharing mode. In
this situation, if
GeranEventAnrSwit
ch or
GeranFastAnrSwitc
h is turned on for
the local eNodeB,
the local eNodeB
will ask the U2000
for the PLMN list for
a cell after the UE
reports the CGI of
the cell during ANR
measurements.
NO
NO
NO
LOFD-002001 /
TDLOFD-002001
LOFD-002002 /
TDLOFD-002002
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
sSwitch is turned
on. If
UtranFreqLayerMea
sSwitch is turned
on, the UTRAN
hierarchy-based
measurement
algorithm takes
effect for
measurements
related to coveragebased and CSFBtriggered handovers
from EUTRAN to
UTRAN. If
UtranFreqLayerBlin
dSwitch is turned
on, the UTRAN
hierarchy-based
blind-handover
algorithm takes
effect for coveragebased and CSFBtriggered blind
handovers from
EUTRAN to
UTRAN. If
UtranSrvccSwitch is
turned on, the
UTRAN SRVCC
hierarchy-based
measurement
algorithm takes
effect for SRVCCtriggered handovers
from EUTRAN to
UTRAN.
NO
Indicates the switch
used to enable or
disable the
eNodeB-level
commercial mobile
alert system
(CMAS).
NO
NO
NO
LOFD-001087
LOFD-001078 /
TDLOFD-001078
TDLOFD-001022
TDLOFD-001033
TDLOFD-001052
TDLOFD-001088
NO
NO
LOFD-001092 /
TDLOFD-001092
Indicates the switch
controls whether to
enable the eNodeB
to periodically
select UEs
performing voice
services and
evaluate voice
quality based on
the voice quality
monitoring (VQM)
algorithm. It is
recommended that
this parameter be
set to
VQM_ALGO_SWIT
CH_ON when voice
services are
encoded based on
adaptive multirate
(AMR).
NO
on the number of
users. If this switch
is turned on, when
a user cannot
access the network
because of the user
number restriction,
the user can
preempt resources
of other lowerpriority users
served by the same
operator. If this
switch is turned off,
preemption is not
allowed.
InterOpUeNumPree
mptSwitch: This
parameter indicates
the switch used to
enable or disable
the inter-operator
preemption based
on the number of
users. If this switch
is turned on, the
inter-operator
preemption based
on the number of
users is allowed. If
this switch is turned
off, the interoperator
preemption based
on the number of
users is not
allowed.
NO
NO
NO
None
NO
NO
LOFD-00102901 /
TDLOFD-00102901
Indicates the switch
used to control
whether operators
can adopt different
policies. This
parameter is a bitfiled-type
parameter. By
specifying the bit
fields under this
parameter,
operators can adopt
different policies on
the corresponding
RAT.
UtranSepOpMobility
Switch is a switch
used to control
whether operators
can adopt different
mobility policies on
their UTRANs. If
this switch is turned
on, operators can
adopt different
policies (for
example, PS
handover capability
and RIM-based
system information
reading capability)
on their UTRANs. If
this switch is turned
off, operators
cannot adopt
different policies on
their UTRANs.
NO
NO
NO
LOFD-001022
LOFD-001087
LOFD-001033
LOFD-001052
LOFD-001068
LOFD-001088
LOFD-001019
LOFD-001043
LOFD-001072
LOFD-001078
parameter is turned
on, the uplink
coordinated multipoint (UL CoMP)
function is enabled
between cells
established on
LBBPs in different
BBUs. When
UlJointReceptionOv
erBBUsSwitch
under this
parameter is turned
off, the UL CoMP is
disabled between
cells established on
LBBPs in different
BBUs.
FreqCfgCaOverBB
UsSwitch:
Indicates whether
to enable inter-BBU
carrier aggregation
(CA) in scenarios
where CA is
configured based
on frequencies.
This switch applies
only to LTE FDD
cells. This switch
takes effect only
when
FreqCfgSwitch of
the CaAlgoSwitch
parameter in the
ENodeBAlgoSwitch
MO is on.
NO
NO
NO
LOFD-070223
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
Indicates whether
to enable operatorcustomized
algorithms.
LcsInterRatMeasSw
itch: Indicates the
switch used to
enable or disable
the eNodeB to
respond to the
inter-RAT
measurement
request sent from
the evolved serving
mobile location
center (E-SMLC). If
this switch is turned
on, the eNodeB is
allowed to respond
to an inter-RAT
measurement
request sent from
the E-SMLC. If this
switch is turned off,
the eNodeB is not
allowed to respond
to an inter-RAT
measurement
request sent from
the E-SMLC.
NO
NO
NO
LOFD-001047 /
TDLOFD-001047
eNodeB handover
algorithm and the
load-based intraeNodeB handover
algorithm. If this
option is selected,
the eNodeB
evaluates whether
to perform a
frequency-prioritybased intra-eNodeB
handover based on
the settings of
InterFreqMlbSwitch
of the
MlbAlgoSwitch
parameter and the
load status on the
target cell. If the
target cell is heavily
loaded, the eNodeB
does not trigger the
handover. If this
option is not
selected, the
eNodeB evaluates
whether to perform
a frequency-prioritybased intra-eNodeB
handover without
checking the
settings of
InterFreqMlbSwitch
of the
MlbAlgoSwitch
parameter on the
target cell.
NO
Indicates the
switches used to
enable or disable
compatibility
solutions when
exceptions occur,
based on which the
eNodeB determines
whether to handle
compatibility
problems. If the
UECapRprtAbnorm
alCtrlSwitch option
of this parameter is
selected, the
eNodeB handles
compatibility
problems of a UE
when the UE
cannot report its
capability
information.
NO
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201805 /
TDLBFD-00201805
Indicates the switch
used to enable or
disable neighboring
GERAN or UTRAN
cell optimization for
blind handovers.
NO
NO
NO
None
Indicates whether
the eNodeB acting
as the cluster
partition node
groups cells into
clusters for CSPC
in Cloud BB
scenarios.
NO
NO
LOFD-070208
NO
Indicates whether
the RAN
information
management (RIM)
procedure is
initiated by the
eCoordinator. If this
parameter is set to
ON, the RIM
procedure is
initiated by the
eCoordinator. If this
parameter is set to
OFF, the RIM
procedure is
initiated by the core
network.
NO
NO
NO
MRFD-090211
LOFD001052/TDLOFD001052
LOFD001019/TDLOFD001019
LOFD001044/TDLOFD001044
LOFD001033/TDLOFD001033
Indicates whether
the VoIP services
are enabled in the
E-UTRAN cell. This
parameter is used
for determining
whether the
establishment,
handover in,
admission, and
reestablishment of
VoIP services is
allowed.
NO
NO
NO
None
FreqCfgSwitch. If
FreqCfgSwitch is
off, the setting of
SccModA6Switch
does not take
effect.
GbrAmbrJudgeSwit
ch:
Specifies whether
to check the bit rate
and aggregate bit
rate of a CA UE
when an SCell is to
be activated for the
UE. If this switch is
set to ON, the bit
rate and the
aggregate bit rate
of the CA UE are
checked when an
SCell is to be
activated. An SCell
can be activated if
the bit rate has not
reached the GBR or
the aggregate bit
rate of the UE has
not reached the
AMBR. If this
parameter is set to
OFF, the bit rate
and the aggregate
bit rate of the UE
are not checked
when an SCell is to
be activated for a
CA UE.
NO
NO
NO
LAOFD-00100101
LAOFD-00100102
LAOFD-00100201 /
TDLAOFD00100201
LAOFD-00100202 /
TDLAOFD00100102
LAOFD-070201 /
TDLAOFD-070201
LAOFD-070202
TDLAOFD00100111
E_MLB_SWITCH:
Indicates whether
to enable eNodeBlevel interfrequency load
balancing for UEs
in idle mode. If the
INTER_FREQ_IDL
E_MLB_SWITCH
option of this
parameter and the
ADAPTIVE_PROP
ORTION option of
the
InterFreqIdleMlbMo
de parameter are
selected, the
eNodeB timely
adjusts the
proportions of UEs
to be released
among frequencies
based on the
current proportions
of UEs in
connected mode
among frequencies
and the preset
proportions of UEs
in idle mode among
frequencies,
ensuring that the
actual proportions
of UEs in idle mode
among frequencies
approach to the
preset proportions. NO
NO
NO
LOFD-001032 /
TDLOFD-001032
Indicates whether
to enable
optimization on
handover-related
common
configurations and
algorithms. This
parameter includes
the following
switches:
BasedSriGapOptSw
itch: Indicates
whether to consider
transmission of
scheduling request
indicators (SRIs)
when configuring
measurement gaps
for a UE not in the
discontinuous
reception (DRX)
state.
NO
NO
NO
LBFD-00201802 /
TDLBFD-00201802
LBFD-00201804 /
TDLBFD-00201804
LBFD-00201805 /
TDLBFD-00201805
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
LOFD-001072 /
TDLOFD-001072
LOFD-001073 /
TDLOFD-001073
Indicates whether
to enable network
performance
optimization when
the network is
heavily loaded. This
parameter includes
the following switch:
SPECSIGRETRAN
SOPTSWITCH:
Indicates whether
to optimize special
signaling
retransmission. If
this switch is on, the
eNodeB adaptively
configures the
maximum number
of special signaling
retransmissions
that can be initiated
by the RLC layer
based on the
number of UEs in
the cell. If this
switch is off, the
eNodeB does not
adaptively configure
the maximum
number of special
signaling
retransmissions
based on the
number of UEs in
the cell.
NO
NO
NO
LOFD-001019 /
TDLOFD-001019
LOFD-001020 /
TDLOFD-001020
LOFD-001043 /
TDLOFD-001043
LOFD-001046 /
TDLOFD-001046
LOFD-001072 /
TDLOFD-001072
LOFD-001073 /
TDLOFD-001073
LOFD-001078
LOADNOTBALANC
ESCHSWITCH:Indi
cates whether to
enable MAC
scheduling
optimization for
cells with
unbalanced intercell or intra-cell
(uplink and
downlink) loads in
heavy traffic
scenarios. The
optimization is
enabled only when
this switch is on.
NO
NO
NO
LOFD-00101502 /
TDLOFD-00101502
Indicates whether
cyclic shift (CS) is
used in preamble
generation in highspeed mobility
scenarios. If this
parameter is set to
ON, CS is used in
preamble
generation in highspeed mobility
scenarios, and the
number of root
sequences required
in the cell is
relatively small. If
this parameter is
set to OFF, CS is
not used in
preamble
generation in highspeed mobility
scenarios, and the
number of root
sequences required
in the cell is
relatively large.
NO
NO
NO
LOFD-001007 /
TDLOFD-001007
the eNodeB adjusts
the proportions of
UEs in idle mode
among frequencies
during eNodeBlevel interfrequency load
balancing for UEs
in idle mode.If the
ADAPTIVE_PROP
ORTION option of
this parameter and
the
INTER_FREQ_IDL
E_MLB_SWITCH
option of the
MlbAlgoSwitch
parameter are
selected, the
eNodeB timely
adjusts the
proportions of UEs
to be released
among frequencies
based on the
current proportions
of UEs among
frequencies and the
preset proportions
of UEs among
frequencies,
ensuring that the
proportions of UEs
in idle mode among
frequencies
approaches to the
preset proportions. NO
NO
NO
LOFD-070215 /
TDLOFD-070215
balancing for UEs
in idle mode. If the
INTER_FREQ_IDL
E_MLB_SWITCH
option of the
MlbAlgoSwitch
parameter and the
ADAPTIVE_PROP
ORTION option of
the
InterFreqIdleMlbMo
de parameter are
selected, the
eNodeB periodically
measures the
average number of
uplink–
synchronized UEs
in a cell. When a
statistic period
approaches its
ends, the eNodeB
adjusts the
proportions of UEs
in idle mode among
frequencies based
on the statistic
results in the
period. The value 0
indicates that the
eNodeB does not
adjust the
proportions of UEs
in idle mode among
frequencies based
on the statistic
results.
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
in idle mode among
frequencies based
on the actual
statistic results
during eNodeBlevel interfrequency load
balancing for UEs
in idle mode.If the
INTER_FREQ_IDL
E_MLB_SWITCH
option of the
MlbAlgoSwitch
parameter and the
ADAPTIVE_PROP
ORTION option of
the
InterFreqIdleMlbMo
de parameter are
selected, the
eNodeB periodically
measures the
average number of
uplink-synchronized
UEs in a cell. If the
sum of the average
number of uplinksynchronized UEs
in all cells is above
or equal to this
parameter value,
the eNodeB adjusts
the proportions
based on the actual
statistic results
within the statistic
period.
NO
Indicates the
proportion of the UL
licensed traffic to
the total licensed
traffic of the
eNodeB. The total
licensed traffic is
the sum of UL and
DL licensed traffic.
If this parameter is
set to 100%, there
is no DL licensed
traffic, affecting
service admission. NO
NO
NO
NO
LOFD-070215 /
TDLOFD-070215
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the mode
of traffic sharing
between the
operators in RAN
sharing scenarios.
If this parameter is
set to SHARING, all
the operators share
the total traffic of
the eNodeB without
proportional limits.
If this parameter is
set to DEDICATE
and the
ENodeBSharingMo
de parameter is not
set to
INDEPENDENT, all
the operators share
the total traffic of
the eNodeB based
on specific
proportions.
However, the
vacant traffic of an
operator can be
used by other
operators.
NO
Indicates the ID of
the operator.
YES
NO
YES
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
Indicates the
proportion of traffic
used by the
operator when the
eNodeB is shared
among operators.
This parameter
must be set based
on the contract
signed by
operators. If this
parameter is set to
0, services except
emergency calls of
this operator are
not admitted.
Indicates the
proportion of traffic
that the operator
can share with
other operators
when the eNodeB
is shared among
operators.
NO
NO
NO
NO
NO
LOFD-001036 /
TDLOFD-001036
LOFD-001037 /
TDLOFD-001037
LOFD-070206
NO
LOFD-001036 /
TDLOFD-001036
LOFD-070206
Indicates the period
of measurement for
MRO. During the
period, the number
of handovers is
measured and
abnormal scenarios
(including
premature
handover, delayed
handover, and pingpong handover) are
identified. After the
period elapses, the
eNodeB makes a
decision on
parameter
adjustment.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold for
enabling mobilityrelated parameter
optimization based
on the handover
success rate. If the
handover success
rate is less than or
equal to this
parameter value,
mobility-related
parameters are
optimized to reduce
the number of
premature or
delayed handovers.
If the handover
success rate is
greater than this
parameter value,
mobility-related
parameters are
optimized to reduce
the number of pingpong handovers.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold of the
number of
handovers required
for enabling MRO.
MRO is applied and
parameter
adjustment is
started only if the
number of
handovers from the
local cell to a
neighboring cell
reaches this
threshold.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the time
threshold for pingpong handover. If a
UE is handed over
back to the source
cell after staying in
the target cell for a
period shorter than
this threshold, the
eNodeB decides
that a ping-pong
handover occurs
based on the
history information
about this UE.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold for the
percentage of intraRAT ping-pong
handovers. If the
percentage of intraRAT ping-pong
handovers is
greater than this
parameter value,
parameters are
adjusted to reduce
the number of pingpong handovers. If
the percentage is
less than or equal
to this parameter
value, parameters
are not adjusted.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold for the
percentage of
coverage-induced
abnormal
handovers to all
abnormal
handovers from the
serving cell to a
neighboring cell. If
the percentage
exceeds this
threshold when a
mobility robustness
optimization (MRO)
period approaches
its end, the eNodeB
does not adjust
MRO-related
parameters of the
neighboring cell
within
period.
for thethis
serving
cell. NO
The threshold is
used to identify
abnormal coverage
in a serving cell. If a
UE successfully
reestablishes an
RRC connection or
reaccess the
serving cell after a
radio link failure
(RLF) or a
handover failure,
the UE sends the
eNodeB an RLF
report, which
includes the RSRP
values of the
serving cell and
neighboring cell. If
the RSRP value of
the serving cell is
less than this
parameter value
and the RSRP
value of the
neighboring cell is
less than the
NeighborRsrpThd
parameter value,
this RLF or
handover failure is
induced by
abnormal coverage
rather than
inappropriate MRO
configurations.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
NO
NO
LOFD-002005 /
TDLOFD-002005
is used to identify
coverage-induced
abnormal
handovers from the
serving cell to the
neighboring cell. If
a UE successfully
reestablishes an
RRC connection or
reaccess the
serving cell after a
radio link failure
(RLF) or a
handover failure,
the UE sends the
eNodeB an RLF
report, which
includes the RSRP
values of the
serving cell and
neighboring cell. If
the RSRP value of
the serving cell is
less than the
ServingRsrpThd
parameter value
and the RSRP
value of the
neighboring cell is
less than this
parameter value,
this RLF is induced
by abnormal
coverage rather
than inappropriate
MRO
configurations.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold for the
number of pingpong
handovers. If the
number of
consecutive pingpong handovers
reaches the
threshold, the UE is
a ping-pong UE.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
percentage
threshold of too late
handovers caused
by low event A2
threshold and late
inter-frequency
measurement to the
sum of too early
handovers and too
late handovers. If
the actual
percentage is
greater than the
percentage
threshold, the event
A2 threshold
adjustment is
triggered by interfrequency MRO.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold of event
A2 rollback
triggered by interfrequency MRO. If
the percentage of
too late handovers
caused by late
inter-frequency
measurement to the
sum of too early
handovers and too
late handovers is
less than the
threshold, the event
A2 rollback is
triggered.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the mode
for optimizing
mobility robustness
optimization (MRO).
If this parameter is
set to FREE, the
eNodeB
automatically
optimizes handover
and reselection
parameters. If this
parameter is set to
CONTROLLED, the
eNodeB only
reports the
handover or
reselection
parameters to be
optimized to the
U2000, and the
U2000 delivers the
optimization on
handover or
reselection
parameters after
users confirm the
optimization. This
parameter cannot
be set to
CONTROLLED for
inter-RAT MRO.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold for
enabling
optimization of
unnecessary interRAT handovers
based on the interRAT handover
success rate. If the
inter-RAT handover
success rate is
higher than or equal
to this threshold,
optimization of
unnecessary interRAT handovers is
enabled. In the
current version, this
parameter applies
only to LTE TDD
cells.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold for
determining an
unnecessary interRAT handover. If a
UE is successfully
handed over to a
UTRAN or GERAN
cell and the RSRP
of an E-UTRAN cell
is larger than or
equal to this
threshold, the
handover is an
unnecessary interRAT handover. In
the current version,
this parameter
applies only to LTE
TDD cells.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
minimum value
within the range for
inter-RAT A2 event
threshold
adjustment. In the
current version, this
parameter applies
only to LTE TDD
cells.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
handover quantity
threshold for
enabling inter-RAT
MRO. After the
number of
handovers reaches
this threshold, interRAT MRO is
enabled.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
the proportion of
premature
handovers is higher
than the threshold,
MRO against
premature
handovers is
enabled. If the
proportion of
premature
handovers is lower
than or equal to the
threshold, MRO
against premature
handovers is not
enabled. If both this
parameter and the
IntraRat Too Late
HO Ratio Threshold
parameter are set
to a value of 50 or
less, the conditions
for optimizing both
premature and
delayed intra-RAT
handovers may be
met. In this case,
delayed intra-RAT
handovers, which
increases the
service drop rate at
a higher probability
than the premature
intra-RAT
handovers, are
performed in
priority.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
handovers. If the
proportion of the
delayed handovers
is higher than the
threshold, MRO
against delayed
handovers is
enabled. If the
proportion of the
delayed handovers
is lower than or
equal to the
threshold, MRO
against delayed
handovers is not
enabled. If both this
parameter and the
IntraRat Too Early
HO Ratio Threshold
parameter are set
to a value of 50 or
less, the conditions
for optimizing both
premature and
delayed intra-RAT
handovers may be
met. In this case,
delayed intra-RAT
handovers, which
increases the
service drop rate at
a higher probability
than the premature
intra-RAT
handovers, are
performed in
priority.
NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the
threshold of the
proportion of
abnormal intra-RAT
handovers. If the
proportion of
abnormal
handovers is higher
than the threshold,
MRO against
abnormal intra-RAT
handovers is
enabled. If the
proportion of the
abnormal
handovers is lower
than or equal to the
threshold, MRO
against abnormal
intra-RAT
handovers is not
enabled. Abnormal
handovers include
both premature and
delayed handovers. NO
NO
NO
LOFD-002005 /
TDLOFD-002005
Indicates the index
of a simulated load
configuration. One
BS can store 10
simulated load
configurations,
which are identified
by the indexes.
YES
YES
NO
None
Indicates the RB
usage threshold of
a simulated load
configuration. If the
RB usage of a cell
is below this
threshold, the
simulated load
scheduling is
performed.
NO
NO
NO
None
Indicates the power
usage threshold of
a simulated load
configuration. If the
power usage of a
cell is below this
threshold, the
simulated load
scheduling is
performed.
NO
NO
NO
None
Indicates the
reporting period for
simulated load. The
value 0 indicates
that simulated load
is not reported.
NO
NO
NO
None
Indicates the
measurement
period for simulated
load. The value 0
indicates that
simulated load is
not measured.
NO
NO
NO
None
Indicates the switch
that is used to
control whether to
enable and disable
the frequencyselective scheduling
in simulated load
configuration. If the
switch is set to ON,
the frequencyselective scheduling
is enabled. If the
switch is set to OFF,
the frequencydiversity scheduling
is used.
NO
NO
NO
None
Indicates whether
to enable or disable
the TCP ACK
control algorithm.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates the
maximum downlink
throughput in the
TCP ACK control
algorithm. If this
parameter is set to
0, the downlink
throughput in the
TCP ACK control
algorithm is not
under control.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates the timer
length for the TCP
ACK control
algorithm. This
timer can be used
to control traffic of
the ACKs to uplink
TCP packets,
therefore
preventing traffic
bursts in the
downlink.
NO
NO
LOFD-001026 /
TDLOFD-001028
NO
Indicates the switch
used to enable or
disable the TCP
MSS function. If this
switch is turned off,
TCP packets are
transparently
transmitted without
being processed. If
this switch is turned
on, the value of the
MSS field in each
packet for TCP link
setups can be
modified.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates the
threshold for the
value of the MSS
field in packets for
TCP link setups. If
the TCP MSS
function is enabled,
the eNodeB first
checks the MSS
field in each packet
for TCP link setups.
If the value of the
MSS field is greater
than the predefined
threshold, the
eNodeB changes
the value of the
MSS field to the
predefined
threshold. Then, the
eNodeB
recalculates the
TCP checksum and
retransmits the
packet with
modified fields. For
other packets, the
eNodeB
transparently
transmits them.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates the time
delay of the frame
start time for all
TDD E-UTRAN
cells under the
eNodeB to the time
of the reference
clock.
NO
NO
NO
TDLBFD-001007
TDLBFD-00100701
TDLBFD-00100702
TDLOFD-001026
TDLOFD-00102601
TDLOFD-00102602
TDLOFD-00102603
Indicates the switch
for forcibly
activating a TDD
cell. If this
parameter is set to
ON, a TDD cell can
be activated when
no clock resource is
available. If this
parameter is set to
OFF, a TDD cell
cannot be activated
when no clock
resource is
available. This
parameter cannot
be set to ON when
there are inter-BBU
services because
the services will be
affected.
NO
NO
NO
LBFD-002008 /
TDLBFD-002008
Indicates whether
to prohibit the
eNodeB from
setting up a cell or
sector (that is not
bound to baseband
equipment) on the
baseband
equipment that has
been bound to
another cell or
sector. If this
parameter is set to
ON and the
baseband
equipment is bound
to a cell or sector, a
cell or sector that is
not bound to the
baseband
equipment cannot
be set up on it.
NO
NO
NO
None
Indicates the
number of ports
that enable TCP
acceleration.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 1 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 2 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 3 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 4 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 5 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 6 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 7 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 8 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 9 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 10 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 11 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 12 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 13 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 14 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 15 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 16 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 17 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 18 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 19 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates port 20 to
which TPE is to be
applied.
NO
NO
NO
LOFD-001026 /
TDLOFD-001028
Indicates the
maximum UL voice
packet delay
variation allowed on
the Uu interface. If
the actual delay
variation of a UL
voice packet
exceeds this limit,
this packet is
regarded as lost
during the
evaluation of voice
quality impact
(VQI). The delay
variation is
measured at the
eNodeB PDCP
layer.
NO
NO
NO
None
Indicates the
interval for
detecting licenserelated alarms. The
eNodeB detects
license control
items every other
interval and reports
a license-related
alarm if the
corresponding
reporting condition
is met.
NO
NO
NO
LBFD-004014 /
TDLBFD-004014
Indicates the
threshold for
generating license
alarms. A license
alarm is generated
if the proportion of
the actually used
value to the
allocated value of
the license control
item exceeds this
threshold.
NO
NO
NO
LBFD-004014 /
TDLBFD-004014
Indicates the
interval for clearing
license alarms.
During this interval,
the eNodeB detects
license control
items and clears
license alarms if the
condition for
clearing license
alarms is met.
NO
NO
NO
LBFD-004014 /
TDLBFD-004014
Indicates the
threshold for
clearing license
alarms. A license
alarm is cleared if
the proportion of
the actually used
value to the
allocated value of
the license control
item is below this
threshold.
NO
NO
LBFD-004014 /
TDLBFD-004014
NO
Indicates reserved
32-bit switch
parameter 0 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 1 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
32-bit switch
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 2 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 3 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 4 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 5 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 6 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 7 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 8 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 9 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 10 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 11 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 12 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 13 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 14 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 15 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 16 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 17 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 18 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 19 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 20 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 21 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 22 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 23 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 24 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 25 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 26 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 27 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 28 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 29 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 30 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 31 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 32 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 33 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 34 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 35 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 36 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 37 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 38 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 39 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 40 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 41 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 42 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 43 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 44 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 45 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 46 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 47 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 48 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 49 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 50 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 51 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 52 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates reserved
parameter 53 that is
reserved for future
requirements.
Note on parameter
replacement:
Reserved
parameters are
temporarily used in
patch versions and
will be replaced with
new parameters.
For example, the ID
of a new parameter
can signify the
parameter function.
Therefore, avoid
using this
parameter.
NO
NO
NO
None
Indicates the switch
for RF module
regular time sleep.
Cells are
unavailable after
the eNodeB enters
RF module regular
time sleep. After the
eNodeB exit RF
module regular time
sleep, it is in the
normal state.
NO
NO
NO
LOFD-001025 /
TDLOFD-001025
Indicates the time
for enter RF module
regular time sleep. NO
NO
NO
LOFD-001025 /
TDLOFD-001025
Indicates the time
for exit RF module
regular time sleep.
NO
NO
LOFD-001025 /
TDLOFD-001025
NO
Indicates whether
the eNodeB is RF
module regular time
sleep. If this
parameter is RF
module regular time
sleep mode, all
cells are
unavailable. If this
parameter is
normal, the eNodeB
runs normally.
NO
NO
YES
None
Indicates whether
an adaptive
asynchronization
UE is selected
when the adaptive
asynchronization
function is enabled.
If a UE does not
transmit or receive
data for a period of
time that is longer
than the
AdaptUnsyncTimer
Len parameter
value, the UE is a
candidate adaptive
asynchronization
UE. When this
parameter value is
larger than or equal
to the
UeInactiveTimer
parameter value,
the adaptive
asynchronization
function does not
take effect.
NO
NO
NO
None
Indicates the
threshold of the
ratio of uplinksynchronized UEs
in a cell or a
baseband
processing unit. If
the ratio of uplinksynchronized UEs
in a cell or a
baseband
processing unit
exceeds this
threshold, the
eNodeB adaptively
enables some UEs
that do not transmit
or receive data for a
period of time
greater than the
AdaptUnsyncTimer
Len parameter
value to enter the
asynchronization
state. As a result,
PUCCH resources
can be released
and used by other
UEs.
NO
NO
NO
None
Feature Name
Value Type
GUI Value Range
Enumeration
Number/Bit
Unit
Extended-QCI
Interval Type
0~5
N/A
None
Extended-QCI
Interval Type
10~254
N/A
None
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Interval Type
0~9
N/A
None
Service Based
Inter-frequency
Handover
Interval Type
0~9
N/A
None
None
Interval Type
0~5
N/A
None
Coverage Based
Inter-frequency
Coverage Based
Inter-frequency
Enumeration Type
EUTRAN_TDD,
EUTRAN_FDD,
EUTRAN
EUTRAN_TDD~1,
EUTRAN_FDD~2,
EUTRAN~3
None
Enumeration Type
EUTRAN_TDD,
EUTRAN_FDD,
EUTRAN, NULL
EUTRAN_TDD~1,
EUTRAN_FDD~2,
EUTRAN~3,
NULL~4
None
Coverage Based
Inter-frequency
Interval Type
-100,-20~20
N/A
dBm
Coverage Based
Inter-frequency
Handover
Interval Type
-100,-20~20
N/A
dBm
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
Interval Type
-100,-20~20
N/A
dBm
PS Inter-RAT
Mobility between EUTRAN and
GERAN
Interval Type
-100,-20~20
N/A
dBm
Multi Operators
SPID Policy
0~5
N/A
None
Interval Type
Intra-LTE Load
Balancing
Inter-RAT Load
Sharing to UTRAN
Inter-RAT Load
Sharing to GERAN
Flexible User
Steering
Camp & Handover
Based on SPID
UL Pre-allocation
Based on SPID
Multi Operators
SPID Policy
Interval Type
1~256
Intra-LTE Load
Balancing
Inter-RAT Load
Sharing to UTRAN
Inter-RAT Load
Sharing to GERAN
Multi Operators
SPID Policy
Enumeration Type
NOT_CFG(NOT_C NOT_CFG~0,
FG), CFG(CFG)
CFG~1
None
Intra-LTE Load
Balancing
Inter-RAT Load
Sharing to UTRAN
Inter-RAT Load
Sharing to GERAN
Flexible User
Steering
Camp & Handover
Based on SPID
UL Pre-allocation
Based on SPID
Multi Operators
SPID Policy
Interval Type
0~255
N/A
None
None
0~5
N/A
None
Interval Type
N/A
None
QCI1(QCI 1),
QCI2(QCI 2),
QCI3(QCI 3),
QCI4(QCI 4),
QCI5(QCI 5),
QCI6(QCI 6),
QCI7(QCI 7),
QCI8(QCI 8),
QCI9(QCI 9)
QCI1~1, QCI2~2,
QCI3~3, QCI4~4,
QCI5~5, QCI6~6,
QCI7~7, QCI8~8,
QCI9~9
None
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Interval Type
0~9
N/A
None
Service Based
Inter-frequency
Handover
0~9
N/A
None
None
Enumeration Type
Interval Type
Service Based
Inter-frequency
Handover
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Service-Request
Based Interfrequency
Handover
Enumeration Type
SERVICE_HO_QCI
_BEAR_ALLOWED
(QCI Bear Allowed),
SERVICE_HO_QCI
_BEAR_NOT_ALL
OWED(QCI Bear
Not Allowed)
SERVICE_HO_QCI
_BEAR_ALLOWED
~0,
SERVICE_HO_QCI
_BEAR_NOT_ALL
OWED~1
None
CS Fallback to
UTRAN
CS Fallback to
GERAN
Flash CS Fallback
to UTRAN
Flash CS Fallback
to GERAN
CS Fallback to
CDMA2000 1xRTT
Enhanced CS
Fallback to
CDMA2000 1xRTT Interval Type
0~5
N/A
None
CS Fallback to
UTRAN
CS Fallback to
GERAN
CS Fallback to
CDMA2000 1xRTT
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
PS Inter-RAT
Mobility between EUTRAN and
GERAN
PS Inter-RAT
Mobility between EUTRAN and
CDMA2000
Flash CS Fallback
to UTRAN
Flash CS Fallback
to GERAN
Enhanced CS
Fallback to
CDMA2000 1xRTT
Service based InterRAT handover to
UTRAN
Distance based
Inter-RAT handover
to UTRAN
Service based InterRAT handover to
GERAN
Distance based
Inter-RAT handover
to GERAN
Enumeration Type
UTRAN, GERAN,
CDMA2000
UTRAN~0,
GERAN~1,
CDMA2000~2
None
CS Fallback to
UTRAN
CS Fallback to
GERAN
CS Fallback to
CDMA2000 1xRTT
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
PS Inter-RAT
Mobility between EUTRAN and
GERAN
PS Inter-RAT
Mobility between EUTRAN and
CDMA2000
Flash CS Fallback
to UTRAN
Flash CS Fallback
to GERAN
Enhanced CS
Fallback to
CDMA2000 1xRTT
Service based InterRAT handover to
UTRAN
Distance based
Inter-RAT handover
to UTRAN
Service based InterRAT handover to
GERAN
Distance based
Inter-RAT handover
to GERAN
Enumeration Type
UTRAN, GERAN,
CDMA2000, NULL
UTRAN~0,
GERAN~1,
CDMA2000~2,
NULL~3
None
CS Fallback to
UTRAN
CS Fallback to
GERAN
CS Fallback to
CDMA2000 1xRTT
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
PS Inter-RAT
Mobility between EUTRAN and
GERAN
PS Inter-RAT
Mobility between EUTRAN and
CDMA2000
Flash CS Fallback
to UTRAN
Flash CS Fallback
to GERAN
Enhanced CS
Fallback to
CDMA2000 1xRTT
Service based InterRAT handover to
UTRAN
Distance based
Inter-RAT handover
to UTRAN
Service based InterRAT handover to
GERAN
Distance based
Inter-RAT handover
to GERAN
Enumeration Type
CS Fallback to
UTRAN
CS Fallback to
GERAN
UTRAN, GERAN,
CDMA2000, NULL
UTRAN~0,
GERAN~1,
CDMA2000~2,
NULL~3
None
Enumeration Type
OFF(Off), ON(On)
OFF~0, ON~1
None
Enumeration Type
OFF(Off), ON(On)
OFF~0, ON~1
None
CS Fallback to
CDMA2000 1xRTT Enumeration Type
OFF(Off), ON(On)
OFF~0, ON~1
None
CS Fallback to
CDMA2000 1xRTT
CS Fallback
Steering to UTRAN
CS Fallback
Steering to GERAN
Enhanced CS
Fallback to
CDMA2000 1xRTT Enumeration Type
UTRAN, GERAN,
CDMA2000
UTRAN~0,
GERAN~1,
CDMA2000~2
None
UTRAN, GERAN,
CDMA2000, NULL
UTRAN~0,
GERAN~1,
CDMA2000~2,
NULL~3
None
CS Fallback to
CDMA2000 1xRTT
CS Fallback
Steering to UTRAN
CS Fallback
Steering to GERAN
Enhanced CS
Fallback to
CDMA2000 1xRTT Enumeration Type
CS Fallback to
CDMA2000 1xRTT
CS Fallback
Steering to UTRAN
CS Fallback
Steering to GERAN
Enhanced CS
Fallback to
CDMA2000 1xRTT Enumeration Type
UTRAN, GERAN,
CDMA2000, NULL
UTRAN~0,
GERAN~1,
CDMA2000~2,
NULL~3
None
CS Fallback to
UTRAN
CS Fallback to
GERAN
CS Fallback
Steering to UTRAN
CS Fallback
Steering to GERAN Bit Field Type
REDIRECTION,
CCO_HO, PS_HO
REDIRECTION~0,
CCO_HO~1,
PS_HO~2
None
CS Fallback
Steering to UTRAN
CS Fallback
Steering to GERAN Bit Field Type
REDIRECTION,
CCO_HO, PS_HO
REDIRECTION~0,
CCO_HO~1,
PS_HO~2
None
Admission Control
Enumeration Type
OFF(Off), ON(On)
OFF~0, ON~1
None
Admission Control
Interval Type
1~15
N/A
None
Mobility
Management
String Type
3 characters
N/A
None
Mobility
Management
String Type
2~3 characters
N/A
None
Mobility
Management
Interval Type
0~65535
N/A
None
None
Interval Type
0~5
N/A
None
3 characters
N/A
None
Coverage Based
Intra-frequency
Handover
Coverage Based
Inter-frequency
Handover
Distance Based
Inter-frequency
Handover
Service Based
Inter-frequency
Handover
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
PS Inter-RAT
Mobility between EUTRAN and
GERAN
CS Fallback to
UTRAN
String Type
Coverage Based
Intra-frequency
Handover
Coverage Based
Inter-frequency
Handover
Distance Based
Inter-frequency
Handover
Service Based
Inter-frequency
Handover
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
PS Inter-RAT
Mobility between EUTRAN and
GERAN
CS Fallback to
UTRAN
String Type
2~3 characters
N/A
None
Camp & Handover
Based on SPID
0~255
N/A
None
Interval Type
Camp & Handover
Based on SPID
Enhanced CS
Fallback to
CDMA2000 1xRTT
PS Inter-RAT
Mobility between EUTRAN and
CDMA2000
Enumeration Type
EUTRAN~0,
UTRAN~1,
GERAN~2,
EUTRAN, UTRAN, CDMA20001XRTT~
GERAN,
3,
CDMA20001XRTT, CDMA2000HRPD~
CDMA2000HRPD 4
None
Camp & Handover
Based on SPID
Interval Type
0~46589,54436~65
535
N/A
None
Camp & Handover
Based on SPID
Interval Type
0~7
N/A
None
Camp & Handover
Based on SPID
Enumeration Type
GSM_dcs1800,
GSM_pcs1900
GSM_dcs1800~0,
GSM_pcs1900~1
None
Service Based
Inter-frequency
Handover
Service-Request
Based Interfrequency
Handover
Interval Type
0~5
N/A
None
Service Based
Inter-frequency
Handover
Service-Request
Based Interfrequency
Handover
Interval Type
0~9
N/A
None
Service Based
Inter-frequency
Handover
Service-Request
Based Interfrequency
Handover
Interval Type
0~7
N/A
None
Service Based
Inter-frequency
Handover
Service-Request
Based Interfrequency
Handover
Interval Type
0~46589,54436~65
535
N/A
None
Service Based
Inter-frequency
Handover
Interval Type
0~5
None
N/A
Service Based
Inter-frequency
Handover
Interval Type
0~9
N/A
None
Service Based
Inter-frequency
Handover
Enumeration Type
NO_HO,
PERMIT_HO
NO_HO~0,
PERMIT_HO~1
None
Service Based
Inter-frequency
Handover
Interval Type
0~46589,54436~65
535
N/A
None
Service Based
Inter-frequency
Handover
Service-Request
Based Interfrequency
Handover
Interval Type
10~20000
N/A
ms
Service Based
Inter-frequency
Handover
Service-Request
Based Interfrequency
Handover
Enumeration Type
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Interval Type
0ms(0ms),
40ms(40ms),
64ms(64ms),
80ms(80ms),
100ms(100ms),
128ms(128ms),
160ms(160ms),
256ms(256ms),
320ms(320ms),
480ms(480ms),
512ms(512ms),
640ms(640ms),
1024ms(1024ms),
1280ms(1280ms),
2560ms(2560ms),
5120ms(5120ms)
0ms~0, 40ms~1,
64ms~2, 80ms~3,
100ms~4,
128ms~5,
160ms~6,
256ms~7,
320ms~8,
480ms~9,
512ms~10,
640ms~11,
1024ms~12,
1280ms~13,
2560ms~14,
5120ms~15
ms
0~5
N/A
None
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Interval Type
0~9
N/A
None
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Enumeration Type
NO_HO,
PERMIT_HO,
MUST_HO
NO_HO~0,
PERMIT_HO~1,
MUST_HO~2
None
Service based interRAT handover to
UTRAN
Service based interRAT handover to
GERAN
Enumeration Type
SERVIC_IR_MEAS
_NO_ORDER,
SERVICE_IR_MEA
S_ORDER
SERVIC_IR_MEAS
_NO_ORDER~0,
SERVICE_IR_MEA
S_ORDER~1
None
Camp & Handover
Based on SPID
UL Pre-allocation
Based on SPID
Interval Type
1~256
N/A
DRX
Enumeration Type
FALSE(FALSE),
TRUE(TRUE)
FALSE~0, TRUE~1 None
Camp & Handover
Based on SPID
Enumeration Type
NOT_CFG(NOT_C NOT_CFG~0,
FG), CFG(CFG)
CFG~1
None
Camp & Handover
Based on SPID
Interval Type
0~255
None
N/A
None
UL Pre-allocation
Based on SPID
Enumeration Type
FALSE(FALSE),
TRUE(TRUE)
FALSE~0, TRUE~1 None
Camp & Handover
Based on SPID
Intra-LTE Load
Balancing
Enumeration Type
FALSE(FALSE),
TRUE(TRUE)
FALSE~0, TRUE~1 None
Camp & Handover
Based on SPID
Inter-RAT Load
Sharing to UTRAN
Inter-RAT Load
Sharing to GERAN Enumeration Type
FALSE(FALSE),
TRUE(TRUE)
FALSE~0, TRUE~1 None
Camp & Handover
Based on SPID
Enumeration Type
FALSE(FALSE),
TRUE(TRUE)
FALSE~0, TRUE~1 None
None
String Type
3 characters
N/A
None
None
String Type
2~3 characters
N/A
None
None
Interval Type
0~4095,429496729
5
N/A
None
SRVCC to UTRAN
CS Fallback to
UTRAN
Flash CS Fallback
to UTRAN
CS Fallback with
LAI to UTRAN
CS Fallback
Steering to UTRAN
PS Inter-RAT
Mobility between EUTRAN and
UTRAN
Service based interRAT handover to
UTRAN
Distance based
Inter-RAT handover
to UTRAN
Ultra-Flash CSFB
Bit Field Type
PsHoCapCfg(PsHo
CapCfg),
SiByRimCapCfg(Si
ByRimCapCfg),
VoipCapCfg(VoipCa
pCfg),
UltraFlashCsfbCap
Cfg(UltraFlashCsfb
CapCfg)
PsHoCapCfg~0,
SiByRimCapCfg~1,
VoipCapCfg~2,
UltraFlashCsfbCap
Cfg~3
None
None
Interval Type
0~5
N/A
None
None
Interval Type
1~9
N/A
None
None
Bit Field Type
arameter0_bit20),
RsvdSwPara0_bit2
1(ReservedSwitchP
arameter0_bit21),
RsvdSwPara0_bit2
2(ReservedSwitchP
arameter0_bit22),
RsvdSwPara0_bit2
3(ReservedSwitchP
arameter0_bit23),
RsvdSwPara0_bit2
4(ReservedSwitchP
arameter0_bit24),
RsvdSwPara0_bit2
5(ReservedSwitchP
arameter0_bit25),
RsvdSwPara0_bit2
6(ReservedSwitchP
arameter0_bit26),
RsvdSwPara0_bit2
7(ReservedSwitchP
arameter0_bit27),
RsvdSwPara0_bit2
8(ReservedSwitchP
arameter0_bit28),
RsvdSwPara0_bit2
9(ReservedSwitchP
arameter0_bit29),
RsvdSwPara0_bit3
0(ReservedSwitchP
arameter0_bit30),
RsvdSwPara0_bit3
1(ReservedSwitchP
arameter0_bit31),
RsvdSwPara0_bit3
2(ReservedSwitchP
arameter0_bit32)
4~13,
RsvdSwPara0_bit1
5~14,
RsvdSwPara0_bit1
6~15,
RsvdSwPara0_bit1
7~16,
RsvdSwPara0_bit1
8~17,
RsvdSwPara0_bit1
9~18,
RsvdSwPara0_bit2
0~19,
RsvdSwPara0_bit2
1~20,
RsvdSwPara0_bit2
2~21,
RsvdSwPara0_bit2
3~22,
RsvdSwPara0_bit2
4~23,
RsvdSwPara0_bit2
5~24,
RsvdSwPara0_bit2
6~25,
RsvdSwPara0_bit2
7~26,
RsvdSwPara0_bit2
8~27,
RsvdSwPara0_bit2
9~28,
RsvdSwPara0_bit3
0~29,
RsvdSwPara0_bit3
1~30,
RsvdSwPara0_bit3
2~31
None
None
Bit Field Type
arameter1_bit20),
RsvdSwPara1_bit2
1(ReservedSwitchP
arameter1_bit21),
RsvdSwPara1_bit2
2(ReservedSwitchP
arameter1_bit22),
RsvdSwPara1_bit2
3(ReservedSwitchP
arameter1_bit23),
RsvdSwPara1_bit2
4(ReservedSwitchP
arameter1_bit24),
RsvdSwPara1_bit2
5(ReservedSwitchP
arameter1_bit25),
RsvdSwPara1_bit2
6(ReservedSwitchP
arameter1_bit26),
RsvdSwPara1_bit2
7(ReservedSwitchP
arameter1_bit27),
RsvdSwPara1_bit2
8(ReservedSwitchP
arameter1_bit28),
RsvdSwPara1_bit2
9(ReservedSwitchP
arameter1_bit29),
RsvdSwPara1_bit3
0(ReservedSwitchP
arameter1_bit30),
RsvdSwPara1_bit3
1(ReservedSwitchP
arameter1_bit31),
RsvdSwPara1_bit3
2(ReservedSwitchP
arameter1_bit32)
4~13,
RsvdSwPara1_bit1
5~14,
RsvdSwPara1_bit1
6~15,
RsvdSwPara1_bit1
7~16,
RsvdSwPara1_bit1
8~17,
RsvdSwPara1_bit1
9~18,
RsvdSwPara1_bit2
0~19,
RsvdSwPara1_bit2
1~20,
RsvdSwPara1_bit2
2~21,
RsvdSwPara1_bit2
3~22,
RsvdSwPara1_bit2
4~23,
RsvdSwPara1_bit2
5~24,
RsvdSwPara1_bit2
6~25,
RsvdSwPara1_bit2
7~26,
RsvdSwPara1_bit2
8~27,
RsvdSwPara1_bit2
9~28,
RsvdSwPara1_bit3
0~29,
RsvdSwPara1_bit3
1~30,
RsvdSwPara1_bit3
2~31
None
None
Bit Field Type
arameter2_bit20),
RsvdSwPara2_bit2
1(ReservedSwitchP
arameter2_bit21),
RsvdSwPara2_bit2
2(ReservedSwitchP
arameter2_bit22),
RsvdSwPara2_bit2
3(ReservedSwitchP
arameter2_bit23),
RsvdSwPara2_bit2
4(ReservedSwitchP
arameter2_bit24),
RsvdSwPara2_bit2
5(ReservedSwitchP
arameter2_bit25),
RsvdSwPara2_bit2
6(ReservedSwitchP
arameter2_bit26),
RsvdSwPara2_bit2
7(ReservedSwitchP
arameter2_bit27),
RsvdSwPara2_bit2
8(ReservedSwitchP
arameter2_bit28),
RsvdSwPara2_bit2
9(ReservedSwitchP
arameter2_bit29),
RsvdSwPara2_bit3
0(ReservedSwitchP
arameter2_bit30),
RsvdSwPara2_bit3
1(ReservedSwitchP
arameter2_bit31),
RsvdSwPara2_bit3
2(ReservedSwitchP
arameter2_bit32)
None
Interval Type
0~4294967295
4~13,
RsvdSwPara2_bit1
5~14,
RsvdSwPara2_bit1
6~15,
RsvdSwPara2_bit1
7~16,
RsvdSwPara2_bit1
8~17,
RsvdSwPara2_bit1
9~18,
RsvdSwPara2_bit2
0~19,
RsvdSwPara2_bit2
1~20,
RsvdSwPara2_bit2
2~21,
RsvdSwPara2_bit2
3~22,
RsvdSwPara2_bit2
4~23,
RsvdSwPara2_bit2
5~24,
RsvdSwPara2_bit2
6~25,
RsvdSwPara2_bit2
7~26,
RsvdSwPara2_bit2
8~27,
RsvdSwPara2_bit2
9~28,
RsvdSwPara2_bit3
0~29,
RsvdSwPara2_bit3
1~30,
RsvdSwPara2_bit3
2~31
None
N/A
None
None
Interval Type
0~4294967295
N/A
None
None
Interval Type
0~4294967295
N/A
None
None
Interval Type
0~4294967295
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~65535
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
Interval Type
0~255
N/A
None
None
String Type
1~64 characters
N/A
None
None
Interval Type
1~255
N/A
None
None
Interval Type
0~1048575
N/A
None
None
String Type
0~256 characters
N/A
None
None
String Type
0~64 characters
N/A
None
None
String Type
0~128 characters
N/A
None
Automatic
Neighbour Relation
(ANR)
Enumeration Type
0ms, 40ms, 64ms,
80ms, 100ms,
128ms, 160ms,
256ms, 320ms,
480ms, 512ms,
640ms, 1024ms,
1280ms, 2560ms,
5120ms
0ms~0, 40ms~1,
64ms~2, 80ms~3,
100ms~4,
128ms~5,
160ms~6,
256ms~7,
320ms~8,
480ms~9,
512ms~10,
640ms~11,
1024ms~12,
1280ms~13,
2560ms~14,
5120ms~15
ms
Automatic
Neighbour Relation
(ANR)
Interval Type
0~30
N/A
0.5dB
Automatic
Neighbour Relation
(ANR)
Interval Type
-30~30
N/A
0.5dB
Automatic
Neighbour Relation
(ANR)
Enumeration Type
0ms, 40ms, 64ms,
80ms, 100ms,
128ms, 160ms,
256ms, 320ms,
480ms, 512ms,
640ms, 1024ms,
1280ms, 2560ms,
5120ms
0ms~0, 40ms~1,
64ms~2, 80ms~3,
100ms~4,
128ms~5,
160ms~6,
256ms~7,
320ms~8,
480ms~9,
512ms~10,
640ms~11,
1024ms~12,
1280ms~13,
2560ms~14,
5120ms~15
ms
Automatic
Neighbour Relation
(ANR)
Interval Type
0~30
N/A
0.5dB
Automatic
Neighbour Relation
(ANR)
Interval Type
-141~-43
N/A
dBm
Integrity Protection
0,10~600
N/A
s
Interval Type
Integrity Protection
Interval Type
0,128~4294967295 N/A
None
Integrity Protection
Enumeration Type
OFF(Off), ON(On)
None
Encryption: AES
Encryption: SNOW
3G
Encryption: ZUC
Enumeration Type
OFF~0, ON~1
NULL(NULL
Algorithm),
Snow3G(SNOW 3G
Algorithm),
AES(AES
Algorithm),
NULL~0,
ZUC(ZUC
Snow3G~1, AES~2,
Algorithm)
ZUC~3
None
Encryption: AES
Encryption: SNOW
3G
Encryption: ZUC
Enumeration Type
NULL(NULL
Algorithm),
Snow3G(SNOW 3G
Algorithm),
AES(AES
Algorithm),
NULL~0,
ZUC(ZUC
Snow3G~1, AES~2,
Algorithm)
ZUC~3
None
Encryption: AES
Encryption: SNOW
3G
Encryption: ZUC
Enumeration Type
NULL(NULL
Algorithm),
Snow3G(SNOW 3G
Algorithm),
AES(AES
Algorithm),
NULL~0,
ZUC(ZUC
Snow3G~1, AES~2,
Algorithm)
ZUC~3
None
Encryption: AES
Encryption: SNOW
3G
Encryption: ZUC
Enumeration Type
NULL(NULL
Algorithm),
Snow3G(SNOW 3G
Algorithm),
AES(AES
Algorithm),
NULL~0,
ZUC(ZUC
Snow3G~1, AES~2,
Algorithm)
ZUC~3
None
None
Interval Type
1~200
N/A
s
None
Interval Type
1~200
N/A
s
None
Interval Type
Enhanced CS
Fallback to
CDMA2000 1xRTT Interval Type
1~200
N/A
s
1~65535
N/A
ms
Enhanced CS
Fallback to
CDMA2000 1xRTT Interval Type
1~65535
N/A
ms
Enhanced CS
Fallback to
CDMA2000 1xRTT Interval Type
1~65535
N/A
ms
PS Inter-RAT
Mobility between EUTRAN and
CDMA2000
Interval Type
1~65535
N/A
ms
PS Inter-RAT
Mobility between EUTRAN and
CDMA2000
Interval Type
1~65535
N/A
ms
PS Inter-RAT
Mobility betwee
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