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. 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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