3900 Series Base Station
V100R009C00
NodeBFunction Performance
Counter Reference
Issue
11
Date
2015–05–30
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
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All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice
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About This Document
About This Document
This section describes performance counters for 3900 series base stations.
Document Structure
Figure 1 shows the document structure.
Figure 1 Document structure
Table 1 explains the terms shown in Figure 1.
Table 1 Terms
Term
Explanation
Object type
One object type contains one or more function subsets.
Function Subset
One function subset contains one or more counters but
belongs to only one object type.
Counter
Counters are the basic elements of performance measurement.
One counter can belong to only one function subset.
Counter Item Description
Table 2 lists the description of each counter item.
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NodeBFunction Performance Counter Reference
About This Document
Table 2 Description of each counter item
Item
Description
Object
type
Overview
Definition and function of a object type.
Function SubSets
Function subsets contained in a object type.
Functio
n Set
FunctionSet
Name
Name of the function set.
Functio
n Subset
Overview
Definition of a function subset and the flowchart for
measuring related counters.
Counters
Counters contained in a function subset.
Counter
Relationship
A table that lists parent counters and their child counters in a
table. Note that the child counters listed in the table cover only
typical scenarios. That is, some scenarios are not covered by
any counter. Therefore, the value of a parent counter is larger
than or equal to the sum of the values of its child counters.
Some counters may not be involved in any counter
relationship.
Counter ID
A string of digits that uniquely identifies a counter.
Counter Name
Name of a counter. It is composed of a string of uppercase
letters, lowercase letters, and dots.
Counter
Description
A phrase that provides a simple description about a counter.
Description
Detailed description about a counter.
Measurement
Point
Condition for triggering counter measurement.
Formula
Relationship among counters.
Unit
Unit of a counter.
Related Features
Features related to a counter are listed in feature ID and feature
name. A counter is used to estimate related features. Related
features are listed as follows in different scenarios:
Counter
One function set contains one or more function subsets.
l If a counter has no related features, no features are listed.
l A counter has related features,
– If this counter applies only to GSM, UMTS, LTE, or
SingleRAN, the features are related to such RAT.
– If this counter applies to multiple RATs in GSM,
UMTS, LTE, and SingleRAN, the features are a set of
features related to all associated RATs. Only the
feature IDs and feature names of the features for related
RATs are listed.
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NodeBFunction Performance Counter Reference
Item
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About This Document
Description
Original Release
The version for which the counter was first available.
Network Element
NE Type of a product displayed on the U2000. 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.
Applicable Mode
The corresponding mode of the counters.
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Contents
Contents
About This Document.....................................................................................................................ii
1 NodeBFunction Performance Counter Measurement............................................................1
1.1 Measurement of Local Cell Performance (LOCELL)....................................................................................................2
1.1.1 HSDPA Measurement (HSDPA.LOCELL)................................................................................................................2
1.1.2 Cell Traffic Measurement (TRAFFIC.LOCELL)...................................................................................................145
1.1.3 HSUPA Measurement (HSUPA.LOCELL)............................................................................................................156
1.1.4 CPC Measurement (CPC.LOCELL).......................................................................................................................232
1.1.5 ERACH Measurement (ERACH.LOCELL)...........................................................................................................238
1.1.6 SCCPCH Measurement (SCCPCH.LOCELL)........................................................................................................242
1.1.7 DCH Measurement (DCH.LOCELL)......................................................................................................................247
1.1.8 Cell Algorithm Measurement (ALGO.LOCELL)...................................................................................................250
1.1.9 Cell Reserved Counter Measurement (CELLRESERVE.LOCELL)......................................................................259
1.1.10 Cell Power Measurement (POWER.LOCELL).....................................................................................................272
1.1.11 EFACH Measurement (EFACH.LOCELL)..........................................................................................................281
1.1.12 HSDPA Measurement 2 (HSDPA2.LOCELL).....................................................................................................288
1.2 Measurement of NodeB Performance (NodeB).........................................................................................................333
1.2.1 Iub Measurement per NodeB (IUB.NODEB).........................................................................................................333
1.2.2 NodeB Hardware Baseband Resource Measurement (TRAFFIC.NODEB)...........................................................411
1.2.3 NodeB NBAP Procedure Measurement (NBAP.NODEB).....................................................................................413
1.2.4 NodeB Reserved Counter Measurement (NODEBRESERVE.NODEB)...............................................................422
1.2.5 Iub Transmission Performance Measurement per NodeB (TRAFFIC.TRPIP.NODEB)........................................427
1.3 Measurement of CNOperator Performance (OPERATOR).......................................................................................434
1.3.1 Traffic Measurement per CNOperator (TRAFFIC.OPERATOR)..........................................................................434
1.3.2 Operator Reserved Counter Measurement (OPERESERVE.OPERATOR)...........................................................462
1.4 Measurement of LoCell_SectorEQM Performance (LOCELL_SECTOREQM)......................................................467
1.4.1 Iub Measurement per LoCell_SectorEQM (IUB.LOCELL.SECTOREQM)..........................................................468
1.4.2 PRACH Measurement per LoCell_SectorEQM (PRACH.LOCELL.SECTOREQM)...........................................471
1.4.3 ERACH Measurement per LoCell_SectorEQM (ERACH.LOCELL.SECTOREQM)...........................................476
1.4.4 RTWP Measurement per LoCell_SectorEQM (RTWP.LOCELL.SECTOREQM)................................................479
1.5 Measurement of UMTS ULCoMP Group Performance (UULCOMPGROUP)........................................................483
1.5.1 ULCoMP Group Algorithm Measurement (ALGO.UULCOMPGROUP).............................................................483
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1
1 NodeBFunction Performance Counter Measurement
NodeBFunction Performance Counter
Measurement
About This Chapter
This section describes NodeBFunction performance counters.
1.1 Measurement of Local Cell Performance (LOCELL)
1.2 Measurement of NodeB Performance (NodeB)
1.3 Measurement of CNOperator Performance (OPERATOR)
1.4 Measurement of LoCell_SectorEQM Performance (LOCELL_SECTOREQM)
1.5 Measurement of UMTS ULCoMP Group Performance (UULCOMPGROUP)
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1 NodeBFunction Performance Counter Measurement
1.1 Measurement of Local Cell Performance (LOCELL)
Overview
The object type consists of function subnets in the local cell to indicate the local cell status and
performance on a NodeB.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
HSDPA.LOCELL
HSDPA Measurement
TRAFFIC.LOCELL
Cell Traffic Measurement
HSUPA.LOCELL
HSUPA Measurement
CPC.LOCELL
CPC Measurement
ERACH.LOCELL
ERACH Measurement
SCCPCH.LOCELL
SCCPCH Measurement
DCH.LOCELL
DCH Measurement
ALGO.LOCELL
Cell Algorithm Measurement
CELLRESERVE.LOCELL
Cell Reserved Counter Measurement
POWER.LOCELL
Cell Power Measurement
EFACH.LOCELL
EFACH Measurement
HSDPA2.LOCELL
HSDPA Measurement 2
1.1.1 HSDPA Measurement (HSDPA.LOCELL)
Overview
The function subset consists of HSDPA-related counters for a cell to indicate the HSDPA cell
status and performance. Unless otherwise stated, HSDPA users are those in the CELL_DCH
state.
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Counters
Counter ID
Counter Name
Counter
Description
Original Release
50331654
VS.AckTotal
Total number of
ACKs received
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331655
VS.NackTotal
Total number of
NACKs received
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331656
VS.DtxTotal
Total number of TTIs
when the NodeB can
not translate the
acknowledgement
information from the
UE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331657
VS.AckFirst
Number of ACKs
received after 1st
transmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331658
VS.AckRetrans.1
Number of ACKs
received after 1st
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331659
VS.AckRetrans.2
Number of ACKs
received after 2nd
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331660
VS.AckRetrans.3
Number of ACKs
received after 3rd
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331661
VS.AckRetrans.4
Number of ACKs
received after 4th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331662
VS.AckRetrans.5
Number of ACKs
received after 5th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331663
VS.AckRetrans.6
Number of ACKs
received after 6th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331664
VS.AckRetrans.7
Number of ACKs
received after 7th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331665
VS.AckRetrans.8
Number of ACKs
received after 8th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331666
VS.AckRetrans.9
Number of ACKs
received after 9th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331667
VS.AckRetrans.10
Number of ACKs
received after 10th
retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331668
VS.AckRemain
Number of times the
NodeB does not
receive the ACK
from the UE after the
last retransmission
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331816
VS.MIMODUALS
TREAM1.DTX
Number Of MIMO
Anchor Stream DTX
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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NodeBFunction Performance Counter Reference
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Counter ID
Counter Name
Counter
Description
Original Release
50331817
VS.MIMODUALS
TREAM2.DTX
Number Of MIMO
SupStream DTX
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331818
VS.MIMODUALS
TREAM1.ACK
Number Of MIMO
Anchor Stream ACK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331819
VS.MIMODUALS
TREAM2.ACK
Number Of MIMO
SupStream ACK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331820
VS.MIMODUALS
TREAM1.NACK
Number Of MIMO
Anchor Stream
NACK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331821
VS.MIMODUALS
TREAM2.NACK
Number Of MIMO
SupStream NACK
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331669
VS.CQI.0
Number of reports
with CQI0
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331670
VS.CQI.1
Number of reports
with CQI1
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331671
VS.CQI.2
Number of reports
with CQI2
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331672
VS.CQI.3
Number of reports
with CQI3
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331673
VS.CQI.4
Number of reports
with CQI4
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331674
VS.CQI.5
Number of reports
with CQI5
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331675
VS.CQI.6
Number of reports
with CQI6
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331676
VS.CQI.7
Number of reports
with CQI7
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331677
VS.CQI.8
Number of reports
with CQI8
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331678
VS.CQI.9
Number of reports
with CQI9
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331679
VS.CQI.10
Number of reports
with CQI10
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331680
VS.CQI.11
Number of reports
with CQI11
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50331681
VS.CQI.12
Number of reports
with CQI12
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331682
VS.CQI.13
Number of reports
with CQI13
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331683
VS.CQI.14
Number of reports
with CQI14
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331684
VS.CQI.15
Number of reports
with CQI15
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331685
VS.CQI.16
Number of reports
with CQI16
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331686
VS.CQI.17
Number of reports
with CQI17
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331687
VS.CQI.18
Number of reports
with CQI18
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331688
VS.CQI.19
Number of reports
with CQI19
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331689
VS.CQI.20
Number of reports
with CQI20
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331690
VS.CQI.21
Number of reports
with CQI21
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331691
VS.CQI.22
Number of reports
with CQI22
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331692
VS.CQI.23
Number of reports
with CQI23
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331693
VS.CQI.24
Number of reports
with CQI24
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331694
VS.CQI.25
Number of reports
with CQI25
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331695
VS.CQI.26
Number of reports
with CQI26
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331696
VS.CQI.27
Number of reports
with CQI27
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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NodeBFunction Performance Counter Reference
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Counter ID
Counter Name
Counter
Description
Original Release
50331697
VS.CQI.28
Number of reports
with CQI28
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331698
VS.CQI.29
Number of reports
with CQI29
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331699
VS.CQI.30
Number of reports
with CQI30
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331725
VS.CQI.31
Number of Cqi31
BTS3900 WCDMA:
V200R012C00
50331726
VS.CQI.32
Number of Cqi32
BTS3900 WCDMA:
V200R012C00
50331727
VS.CQI.33
Number of Cqi33
BTS3900 WCDMA:
V200R012C00
50331728
VS.CQI.34
Number of Cqi34
BTS3900 WCDMA:
V200R012C00
50331729
VS.CQI.35
Number of Cqi35
BTS3900 WCDMA:
V200R012C00
50331754
VS.UsedCQI0
Number of times the
NodeB transmits
data with CQI=0
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331755
VS.UsedCQI1
Number of times the
NodeB transmits
data with CQI=1
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331756
VS.UsedCQI2
Number of times the
NodeB transmits
data with CQI=2
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331757
VS.UsedCQI3
Number of times the
NodeB transmits
data with CQI=3
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331758
VS.UsedCQI4
Number of times the
NodeB transmits
data with CQI=4
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331759
VS.UsedCQI5
Number of times the
NodeB transmits
data with CQI=5
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331760
VS.UsedCQI6
Number of times the
NodeB transmits
data with CQI=6
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331761
VS.UsedCQI7
Number of times the
NodeB transmits
data with CQI=7
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331762
VS.UsedCQI8
Number of times the
NodeB transmits
data with CQI=8
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331763
VS.UsedCQI9
Number of times the
NodeB transmits
data with CQI=9
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331764
VS.UsedCQI10
Number of times the
NodeB transmits
data with CQI=10
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331765
VS.UsedCQI11
Number of times the
NodeB transmits
data with CQI=11
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331766
VS.UsedCQI12
Number of times the
NodeB transmits
data with CQI=12
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331767
VS.UsedCQI13
Number of times the
NodeB transmits
data with CQI=13
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331768
VS.UsedCQI14
Number of times the
NodeB transmits
data with CQI=14
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331769
VS.UsedCQI15
Number of times the
NodeB transmits
data with CQI=15
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331770
VS.UsedCQI16
Number of times the
NodeB transmits
data with CQI=16
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331771
VS.UsedCQI17
Number of times the
NodeB transmits
data with CQI=17
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331772
VS.UsedCQI18
Number of times the
NodeB transmits
data with CQI=18
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331773
VS.UsedCQI19
Number of times the
NodeB transmits
data with CQI=19
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331774
VS.UsedCQI20
Number of times the
NodeB transmits
data with CQI=20
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331775
VS.UsedCQI21
Number of times the
NodeB transmits
data with CQI=21
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331776
VS.UsedCQI22
Number of times the
NodeB transmits
data with CQI=22
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
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Copyright © Huawei Technologies Co., Ltd.
11
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331777
VS.UsedCQI23
Number of times the
NodeB transmits
data with CQI=23
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331778
VS.UsedCQI24
Number of times the
NodeB transmits
data with CQI=24
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331779
VS.UsedCQI25
Number of times the
NodeB transmits
data with CQI=25
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331780
VS.UsedCQI26
Number of times the
NodeB transmits
data with CQI=26
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331781
VS.UsedCQI27
Number of times the
NodeB transmits
data with CQI=27
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331782
VS.UsedCQI28
Number of times the
NodeB transmits
data with CQI=28
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331783
VS.UsedCQI29
Number of times the
NodeB transmits
data with CQI=29
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331784
VS.UsedCQI30
Number of times the
NodeB transmits
data with CQI=30
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331785
VS.UsedCQI31to39
Number of times the
NodeB transmits
data with CQI=[31,
39]
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331786
VS.MIMODualCQ
I1.0
Number Of MIMO
TYPEA CQI Report
With CQI1 0
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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12
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331787
VS.MIMODualCQ
I1.1
Number Of MIMO
TYPEA CQI Report
With CQI1 1
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331788
VS.MIMODualCQ
I1.2
Number Of MIMO
TYPEA CQI Report
With CQI1 2
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331789
VS.MIMODualCQ
I1.3
Number Of MIMO
TYPEA CQI Report
With CQI1 3
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331790
VS.MIMODualCQ
I1.4
Number Of MIMO
TYPEA CQI Report
With CQI1 4
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331791
VS.MIMODualCQ
I1.5
Number Of MIMO
TYPEA CQI Report
With CQI1 5
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331792
VS.MIMODualCQ
I1.6
Number Of MIMO
TYPEA CQI Report
With CQI1 6
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331793
VS.MIMODualCQ
I1.7
Number Of MIMO
TYPEA CQI Report
With CQI1 7
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331794
VS.MIMODualCQ
I1.8
Number Of MIMO
TYPEA CQI Report
With CQI1 8
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331795
VS.MIMODualCQ
I1.9
Number Of MIMO
TYPEA CQI Report
With CQI1 9
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331796
VS.MIMODualCQ
I1.10
Number Of MIMO
TYPEA CQI Report
With CQI1 10
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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13
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331797
VS.MIMODualCQ
I1.11
Number Of MIMO
TYPEA CQI Report
With CQI1 11
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331798
VS.MIMODualCQ
I1.12
Number Of MIMO
TYPEA CQI Report
With CQI1 12
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331799
VS.MIMODualCQ
I1.13
Number Of MIMO
TYPEA CQI Report
With CQI1 13
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331800
VS.MIMODualCQ
I1.14
Number Of MIMO
TYPEA CQI Report
With CQI1 14
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331801
VS.MIMODualCQ
I2.0
Number Of MIMO
TYPEA CQI Report
With CQI2 0
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331802
VS.MIMODualCQ
I2.1
Number Of MIMO
TYPEA CQI Report
With CQI2 1
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331803
VS.MIMODualCQ
I2.2
Number Of MIMO
TYPEA CQI Report
With CQI2 2
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331804
VS.MIMODualCQ
I2.3
Number Of MIMO
TYPEA CQI Report
With CQI2 3
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331805
VS.MIMODualCQ
I2.4
Number Of MIMO
TYPEA CQI Report
With CQI2 4
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331806
VS.MIMODualCQ
I2.5
Number Of MIMO
TYPEA CQI Report
With CQI12 5
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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14
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331807
VS.MIMODualCQ
I2.6
Number Of MIMO
TYPEA CQI Report
With CQI2 6
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331808
VS.MIMODualCQ
I2.7
Number Of MIMO
TYPEA CQI Report
With CQI2 7
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331809
VS.MIMODualCQ
I2.8
Number Of MIMO
TYPEA CQI Report
With CQI2 8
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331810
VS.MIMODualCQ
I2.9
Number Of MIMO
TYPEA CQI Report
With CQI2 9
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331811
VS.MIMODualCQ
I2.10
Number Of MIMO
TYPEA CQI Report
With CQI2 10
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331812
VS.MIMODualCQ
I2.11
Number Of MIMO
TYPEA CQI Report
With CQI2 11
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331813
VS.MIMODualCQ
I2.12
Number Of MIMO
TYPEA CQI Report
With CQI2 12
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331814
VS.MIMODualCQ
I2.13
Number Of MIMO
TYPEA CQI Report
With CQI2 13
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331815
VS.MIMODualCQ
I2.14
Number Of MIMO
TYPEA CQI Report
With CQI2 14
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331822
VS.APCPhase0CQ
I.MEAN
Average CQI Of
Phase 0 Based On
APC Algorithm
BTS3900 WCDMA:
V200R013C00
Issue 11 (2015–05–30)
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Copyright © Huawei Technologies Co., Ltd.
15
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331823
VS.APCCQI.MEA
N
Average CQI Of All
Phase Based On APC
Algorithm
BTS3900 WCDMA:
V200R013C00
50341722
VS.DataCQI.MEA
N
Average CQI
Reported by All UEs
That Have Data to
Transmit
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331722
VS.HSDPA.
16QAMCfg.ActedNum
Total number of
times all the users in
a cell use 16QAM
mode
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331723
VS.HSDPA.QPSK
Cfg.ActedNum
Total number of
times users use the
QPSK mode
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331724
VS.HSDPA.All.Sch
eduledNum
Total number of
times all the users are
scheduled in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331709
VS.HSDPA.
64QAMCfg.ActedNum
Total number of
times all the users in
a cell use the 64QAM
mode
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331710
VS.HSDPA.
64QAMCfg.Schedu
ledNum
Total number of
times all the users in
64QAM mode are
scheduled in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331711
VS.MIMOCfg.ActedNum
Total number of
times all the MIMOenabled users use
two transport blocks
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331712
VS.MIMOCfg.Sche
duledNum
Total number of
times all the MIMOenabled users are
scheduled in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
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16
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331717
VS.HSDPA.MIMO
64QAMCfg.ActedNum
Number of times that
all the users
configured in
64QAM+MIMO
mode in a cell
employ 64QAM
during the
measurement period
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331718
VS.HSDPA.MIMO
64QAMCfg.Schedu
ledNum
Number of times that
all the users
configured in
64QAM+MIMO
mode in a cell are
scheduled during the
measurement period
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331719
VS.HSDPA.DCCfg.
AnchorCarrierActedNum
Number of times that
all the users
configured in DC
mode in a cell are
scheduled by
AnchorCarrier
during the
measurement period
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331720
VS.HSDPA.DCCfg.
SupCarrierActedNum
Total number of
times DC-HSDPAenabled users are
scheduled by the
supplementary
carrier
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331721
VS.HSDPA.DCCfg.
DualCarrierActedNum
Total number of
times DC-HSDPAenabled users are
scheduled by the
anchor and
supplementary
carriers at the same
time
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341658
VS.UserTtiRatio.M
ean
Ratio of the time
when at least one
HSDPA UE camps
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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17
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341659
VS.DataTtiRatio.M
ean
Ratio of the time
when at least one
HSDPA user has data
to transmit in the
queue buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341693
VS.HSDPA.Inactiv
eDataTtiRatio.Mea
n
Number of TTIs in
which at least one
HSDPA user in a cell
has TRB data to
transmit in the queue
buffer but there is no
conventional TRB
data transmission at
the physical layer
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341739
VS.HSDPA.ScheIn
activeDataTtiRatio.
Mean
Average ratio of the
time when some
HSDPA users are
queued in the
scheduling candidate
set but do not
transmit data
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331839
VS.HSDPA.DataTt
iNum.TRB
Number of TTIs in
which TRB data is to
be transmitted in the
HSDPA user queue
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331840
VS.HSDPA.Inactiv
eDataTtiNum.TRB
Number of TTIs in
which at least one
HSDPA user in a cell
has TRB data to
transmit in the queue
buffer but there is no
conventional TRB
data transmission at
the physical layer .
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331745
VS.HSDPA.DataTt
iNum.User
Total number of
user-level TTIs
within which there is
data to transmit in
HSDPA user queue
buffers
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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18
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332215
VS.DCHSDPA.Dat
aTtiNum.User
Total number of
user-level TTIs
within which there is
data to transmit in
DC-HSDPA/DCHSDPA+MIMO
user queue buffers
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332173
VS.DBHSDPA.Dat
aTtiNum.User
Total number of
user-level TTIs
within which there is
data to transmit in
DB-HSDPA/DBHSDPA+MIMO
user queue buffers
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332217
VS.
3CHSDPA.DataTti
Num.User
Total number of
user-level TTIs
within which there is
data to transmit in
3C-HSDPA/3CHSDPA+MIMO
user queue buffers
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332174
VS.
4CHSDPA.DataTti
Num.User
Total number of
user-level TTIs
within which there is
data to transmit in
4C-HSDPA/4CHSDPA+MIMO
user queue buffers
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341694
VS.HSDPA.
2ScchCodeRatio
The time ratio of only
using two HS-SCCH
codes for cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341695
VS.HSDPA.
3ScchCodeRatio
The time ratio of only
using three HSSCCH codes for cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341696
VS.HSDPA.
4ScchCodeRatio
The time ratio of only
using four HS-SCCH
codes for cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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19
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341690
VS.PdschCodeAvai
l.Mean
Average number of
available HSPDSCH codes in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50341691
VS.PdschCodeAvai
l.Max
Maximum number of
available HSPDSCH codes in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50341688
VS.PdschCodeUsed
.Mean
Average number of
used HS-PDSCH
codes in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50341689
VS.PdschCodeUsed
.Max
Maximum number of
used HS-PDSCH
codes in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50341692
VS.PdschCodeUsed
.Min
Minimum number of
used HS-PDSCH
codes in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341648
VS.ScchCodeUtil.
Mean
Average usage of
HS-SCCH code
resources in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341649
VS.ScchCodeUtil.
Max
Maximum usage of
HS-SCCH code
resources in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341650
VS.ScchCodeUtil.
Min
Minimum usage of
HS-SCCH code
resources in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341654
VS.ScchCodeUtil.
Mean.User
Average usage of
HS-SCCH code
resources when
HSDPA users camp
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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20
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341655
VS.ScchCodeUtil.
Mean.Data
Average usage of
HS-SCCH code
resources when at
least one HSDPA
user has data to
transmit in the queue
buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341651
VS.PdschCodeUtil.
Mean
Average usage of
HS-PDSCH code
resources in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341652
VS.PdschCodeUtil.
Max
Maximum usage of
HS-PDSCH code
resources in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341653
VS.PdschCodeUtil.
Min
Minimum usage of
HS-PDSCH code
resources in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341656
VS.PdschCodeUtil.
Mean.User
Average usage of
HS-PDSCH code
resources when
HSDPA users camp
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341657
VS.PdschCodeUtil.
Mean.Data
Average usage of
HS-PDSCH code
resources when at
least one HSDPA
user has data to
transmit in the queue
buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341675
VS.ScchPwrRatio.
Mean
Average transmit
power over the HSSCCH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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21
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341676
VS.ScchPwrRatio.
Max
Maximum transmit
power over the HSSCCH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341677
VS.ScchPwrRatio.
Min
Minimum transmit
power over the HSSCCH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341681
VS.ScchPwrRatio.
User
Average transmit
power over the HSSCCH when HSDPA
users camp on the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341683
VS.ScchPwrRatio.
UserData
Average transmit
power over the HSSCCH when at least
one HSDPA user has
data to transmit in the
queue buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341678
VS.PdschPwrRatio
.Mean
Average transmit
power over the HSPDSCH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341679
VS.PdschPwrRatio
.Max
Maximum transmit
power over the HSPDSCH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341680
VS.PdschPwrRatio
.Min
Minimum transmit
power over the HSPDSCH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341682
VS.PdschPwrRatio
.User
Average transmit
power over the HSPDSCH when
HSDPA users camp
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341684
VS.PdschPwrRatio
.Data
Average transmit
power over the HSPDSCH when at least
one HSDPA user has
data to transmit in the
queue buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341697
VS.HSDPAPwrRat
io.Mean.FreeUser
Average usage of
free users Hsdpa
Power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341698
VS.HSDPAPwrRat
io.Max.FreeUser
Maximum usage of
free users Hsdpa
Power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341703
VS.AvaiHSDPAPw
rRatio.Mean
Mean ratio of
availble HSDPA
Power Ratio
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
50341704
VS.AvaiHSDPAPw
rRatio.Max
Maximum ratio of
availble HSDPA
Power Ratio
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
50341705
VS.AvaiHSDPAPw
rRatio.Min
Minimum ratio of
availble HSDPA
Power Ratio
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
50341706
VS.HSDPAPwrRat
io.PLMN0
Mean Ratio of
PLMN0 used
HSDPA Power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
50341707
VS.HSDPAPwrRat
io.PLMN1
Mean Ratio of
PLMN1 used
HSDPA Power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
50341708
VS.HSDPAPwrRat
io.PLMN2
Mean Ratio of
PLMN2 used
HSDPA Power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
50341709
VS.HSDPAPwrRat
io.PLMN3
Mean Ratio of
PLMN3 used
HSDPA Power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C01
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341710
VS.HSDPAPwrRat
io.SharedOperator0
Average HSDPA
power ratio for
operator 0 in a cell of
an MOCN network
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50341711
VS.HSDPAPwrRat
io.SharedOperator1
Average HSDPA
power ratio for
operator 1 in a cell of
an MOCN network
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50341712
VS.HSDPAPwrRat
io.SharedOperator2
Average HSDPA
power ratio for
operator 2 in a cell of
an MOCN network
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50341713
VS.HSDPAPwrRat
io.SharedOperator3
Average HSDPA
power ratio for
operator 3 in a cell of
an MOCN network
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50341714
VS.HSDPAPwrRat
io.Mean.ResG0
Average permillage
of transmit power for
HSDPA users in
resource group 0 to
the maximum cell
transmit power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341715
VS.HSDPAPwrRat
io.Mean.ResG1
Average permillage
of transmit power for
HSDPA users in
resource group 1 to
the maximum cell
transmit power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341716
VS.HSDPAPwrRat
io.Mean.ResG2
Average permillage
of transmit power for
HSDPA users in
resource group 2 to
the maximum cell
transmit power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341717
VS.HSDPAPwrRat
io.Mean.ResG3
Average permillage
of transmit power for
HSDPA users in
resource group 3 to
the maximum cell
transmit power
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341660
VS.RabNum.Mean
Average number of
HSDPA RABs in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341661
VS.RabNum.Max
Maximum number of
HSDPA RABs in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341662
VS.RabNum.Min
Minimum number of
HSDPA RABs in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341666
VS.RabNumAve.U
ser
Average number of
HSDPA RABs when
HSDPA users camp
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341663
VS.DataRabNum.
Mean
Average number of
HSDPA RABs have
data to transmit in the
queue buffer in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341664
VS.DataRabNum.
Max
Maximum number of
HSDPA RABs have
data to transmit in the
queue buffer in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341665
VS.DataRabNum.
Min
Minimum number of
HSDPA RABs have
data to transmit in the
queue buffer in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341667
VS.RabNumAve.U
serData
Average number of
HSDPA RABs have
data to transmit in the
queue buffer when at
least one HSDPA
user has data to
transmit in the queue
buffer in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341668
VS.DataOutput.Me
an
Average throughput
of MAC-d PDUs in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341669
VS.DataOutput.Ma
x
Maximum
throughput of MACd PDUs in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341670
VS.DataOutput.Mi
n
Minimum
throughput of MACd PDUs in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341671
VS.DataOutput.Us
er
Average cell
throughput when
HSDPA users camp
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341672
VS.DataOutput.Us
erData
Average cell
throughput when at
least one HSDPA
user has data to
transmit in the queue
buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341673
VS.DataOutput.Ra
b
Average throughput
of each RAB when
HSDPA users camp
on the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341674
VS.DataOutput.Ra
bData
Average throughput
of each RAB when at
least one HSDPA
user has data to
transmit in the queue
buffer
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341699
VS.DataOutput.Me
an.FreeUser
Average throughput
of MAC-d PDUs of
HSDPA free users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341700
VS.DataOutput.Ma
x.FreeUser
Maximum
throughput of MACd PDUs of HSDPA
free users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341701
VS.DataOutput.Mi
n.FreeUser
Minimum
throughput of MACd PDUs of HSDPA
free users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331838
VS.HSDPA.DataO
utput.TRB
HSDSCH TRB
traffic volume in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331746
VS.HSDPA.DataO
utput.Traffic
Traffic volume of the
MAC-hs/MAC-ehs
PDUs successfully
received in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332170
VS.DataOutput.DC
HSDPA.Traffic
MAC-ehs traffic
volume of DCHSDPA/DCHSDPA+MIMO
users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332168
VS.DataOutput.DB
HSDPA.Traffic
MAC-ehs traffic
volume of DBHSDPA/DBHSDPA+MIMO
users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332216
VS.DataOutput.
3CHSDPA.Traffic
MAC-ehs traffic
volume of 3CHSDPA/3C-HSDPA
+MIMO users
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332169
VS.DataOutput.
4CHSDPA.Traffic
MAC-ehs traffic
volume of 4CHSDPA/4C-HSDPA
+MIMO users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341685
VS.DataDiscardRa
tio.Mean
Average ratio of
discarded HSDPA
data due to timer
expiry
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341686
VS.DataDiscardRa
tio.Max
Maximum ratio of
discarded HSDPA
data due to timer
expiry
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341687
VS.DataDiscardRa
tio.Min
Minimum ratio of
discarded HSDPA
data due to timer
expiry
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331713
VS.SCPICH.AvgPo
werRate
Ratio of the actual
transmit power of the
SCPICH to the
power of the
SCPICH configured
by the RNC
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331714
VS.SCPICH.PwrO
n.Duration
Power-enabled
duration of the
SCPICH in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50341702
VS.HSDPA.DCCfg.
SupCarrierDeact.T
imeRatio
The Ratio Of Dc
Deact
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341740
VS.HSDPA.DpchM
axPwrRestr.ActRatio
Maximum DPCH
power restriction
algorithm validity
probability
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
Counter Relationship
Root Counter
Level-1 Counter
VS.AckTotal
VS.AckFirst
VS.AckRetrans.1
VS.AckRetrans.2
VS.AckRetrans.3
VS.AckRetrans.4
VS.AckRetrans.5
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Root Counter
1 NodeBFunction Performance Counter Measurement
Level-1 Counter
VS.AckRetrans.6
VS.AckRetrans.7
VS.AckRetrans.8
VS.AckRetrans.9
VS.AckRetrans.10
VS.HSDPA.DataTtiNum.TRB
VS.HSDPA.InactiveDataTtiNum.TRB
VS.RabNum.Mean
VS.DataRabNum.Mean
VS.RabNum.Max
VS.DataRabNum.Max
VS.RabNum.Min
VS.DataRabNum.Min
Number of HARQ-Related Messages from HSDPA Users Received in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331654
VS.AckTotal
Total number of
ACKs received
BTS3900,
BTS3900
WCDMA
U
50331655
VS.NackTotal
Total number of
NACKs
received
BTS3900,
BTS3900
WCDMA
U
50331656
VS.DtxTotal
Total number of
TTIs when the
NodeB can not
translate the
acknowledgeme
nt information
from the UE
BTS3900,
BTS3900
WCDMA
U
50331657
VS.AckFirst
Number of
ACKs received
after 1st
transmission
BTS3900,
BTS3900
WCDMA
U
50331658
VS.AckRetrans.
1
Number of
ACKs received
after 1st
retransmission
BTS3900,
BTS3900
WCDMA
U
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331659
VS.AckRetrans.
2
Number of
ACKs received
after 2nd
retransmission
BTS3900,
BTS3900
WCDMA
U
50331660
VS.AckRetrans.
3
Number of
ACKs received
after 3rd
retransmission
BTS3900,
BTS3900
WCDMA
U
50331661
VS.AckRetrans.
4
Number of
ACKs received
after 4th
retransmission
BTS3900,
BTS3900
WCDMA
U
50331662
VS.AckRetrans.
5
Number of
ACKs received
after 5th
retransmission
BTS3900,
BTS3900
WCDMA
U
50331663
VS.AckRetrans.
6
Number of
ACKs received
after 6th
retransmission
BTS3900,
BTS3900
WCDMA
U
50331664
VS.AckRetrans.
7
Number of
ACKs received
after 7th
retransmission
BTS3900,
BTS3900
WCDMA
U
50331665
VS.AckRetrans.
8
Number of
ACKs received
after 8th
retransmission
BTS3900,
BTS3900
WCDMA
U
50331666
VS.AckRetrans.
9
Number of
ACKs received
after 9th
retransmission
BTS3900,
BTS3900
WCDMA
U
50331667
VS.AckRetrans.
10
Number of
ACKs received
after 10th
retransmission
BTS3900,
BTS3900
WCDMA
U
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331668
VS.AckRemain
Number of
times the NodeB
does not receive
the ACK from
the UE after the
last
retransmission
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the number of HARQ-related messages sent by HSDPA users
received in a cell. The Acknowledgment (ACK), Negative Acknowledgment (NACK), and
Discontinuous Transmission (DTX) statistics are used to analyze the overall HSDPA running
status.
The following table describes the meanings of each counter:
Counter Name
Description
VS.AckTotal
Number of ACK messages received during
the measurement period.
VS.NackTotal
Number of NACK messages received during
the measurement period.
VS.DtxTotal
This counter measures the total number of
TTIs when the NodeB can not translate the
acknowledgement information from the UE
after transmitting data to the UE within a
measurement period.
VS.AckFirst
Number of ACK messages received after the
first data transmission.
VS.AckRetrans.1
VS.AckRetrans.Num refers to the number of
ACK messages received after the first data
retransmission.
VS.AckRetrans.2
VS.AckRetrans.Num refers to the number of
ACK messages received after the second data
retransmission.
VS.AckRetrans.3
VS.AckRetrans.Num refers to the number of
ACK messages received after the third data
retransmission.
VS.AckRetrans.4
VS.AckRetrans.Num refers to the number of
ACK messages received after the 4th data
retransmission.
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Description
VS.AckRetrans.5
VS.AckRetrans.Num refers to the number of
ACK messages received after the 5th data
retransmission.
VS.AckRetrans.6
VS.AckRetrans.Num refers to the number of
ACK messages received after the 6th data
retransmission.
VS.AckRetrans.7
VS.AckRetrans.Num refers to the number of
ACK messages received after the 7th data
retransmission.
VS.AckRetrans.8
VS.AckRetrans.Num refers to the number of
ACK messages received after the 8th data
retransmission.
VS.AckRetrans.9
VS.AckRetrans.Num refers to the number of
ACK messages received after the 9th data
retransmission.
VS.AckRetrans.10
VS.AckRetrans.Num refers to the number of
ACK messages received after the 10th data
retransmission.
VS.AckRemain
Number of data blocks whose maximum
number of retransmissions is reached but no
ACK message is received. The maximum
number of retransmissions depends on the
data configuration.
Measurement Points
The NodeB measures the preceding counters when demodulating the HARQ-ACK information
carried on the HS-DPCCH from the HSDPA UE.The NACK or DTX messages are received
after the data at the physical layer fails to be transmitted. For the ACK messages, the NodeB
takes statistics about the messages according to the number of data transmissions. The number
of transmissions is an integer from 1 to MaxRetransNum+1. For multi-carrier users, these
counters are measured in the anchor carrier and the supplementary carrier separately.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.AckTotal
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.NackTotal
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.DtxTotal
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckFirst
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.1
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.2
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
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HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
33
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.AckRetrans.3
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.4
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.5
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.6
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.7
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.8
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
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Scheduling (MAX C/I, RR
and PF)
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Counter Name
Feature ID
VS.AckRetrans.9
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRetrans.10
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
VS.AckRemain
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
LTE: None
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
HARQ Distribution for MIMO Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331816
VS.MIMODUA
LSTREAM1.D
TX
Number Of
MIMO Anchor
Stream DTX
BTS3900,
BTS3900
WCDMA
U
50331817
VS.MIMODUA
LSTREAM2.D
TX
Number Of
MIMO
SupStream
DTX
BTS3900,
BTS3900
WCDMA
U
50331818
VS.MIMODUA
LSTREAM1.A
CK
Number Of
MIMO Anchor
Stream ACK
BTS3900,
BTS3900
WCDMA
U
50331819
VS.MIMODUA
LSTREAM2.A
CK
Number Of
MIMO
SupStream
ACK
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331820
VS.MIMODUA
LSTREAM1.N
ACK
Number Of
MIMO Anchor
Stream NACK
BTS3900,
BTS3900
WCDMA
U
50331821
VS.MIMODUA
LSTREAM2.N
ACK
Number Of
MIMO
SupStream
NACK
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the HARQ distribution for MIMO users on the primary and
secondary streams in a cell. The statistics about the ACK, NACK, and DTX message sent from
MIMO users are used to analyze the overall running status of MIMO users.
Measurement Points
The NodeB measures the preceding counters when demodulating the HARQ-ACK information
carried on the HS-DPCCH from the MIMO UE.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.MIMODUALSTREAM
1.DTX
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODUALSTREAM
2.DTX
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODUALSTREAM
1.ACK
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODUALSTREAM
2.ACK
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODUALSTREAM
1.NACK
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODUALSTREAM
2.NACK
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
Number of CQIs from HSDPA Users Received in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331669
VS.CQI.0
Number of
reports with
CQI0
BTS3900,
BTS3900
WCDMA
U
50331670
VS.CQI.1
Number of
reports with
CQI1
BTS3900,
BTS3900
WCDMA
U
50331671
VS.CQI.2
Number of
reports with
CQI2
BTS3900,
BTS3900
WCDMA
U
50331672
VS.CQI.3
Number of
reports with
CQI3
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331673
VS.CQI.4
Number of
reports with
CQI4
BTS3900,
BTS3900
WCDMA
U
50331674
VS.CQI.5
Number of
reports with
CQI5
BTS3900,
BTS3900
WCDMA
U
50331675
VS.CQI.6
Number of
reports with
CQI6
BTS3900,
BTS3900
WCDMA
U
50331676
VS.CQI.7
Number of
reports with
CQI7
BTS3900,
BTS3900
WCDMA
U
50331677
VS.CQI.8
Number of
reports with
CQI8
BTS3900,
BTS3900
WCDMA
U
50331678
VS.CQI.9
Number of
reports with
CQI9
BTS3900,
BTS3900
WCDMA
U
50331679
VS.CQI.10
Number of
reports with
CQI10
BTS3900,
BTS3900
WCDMA
U
50331680
VS.CQI.11
Number of
reports with
CQI11
BTS3900,
BTS3900
WCDMA
U
50331681
VS.CQI.12
Number of
reports with
CQI12
BTS3900,
BTS3900
WCDMA
U
50331682
VS.CQI.13
Number of
reports with
CQI13
BTS3900,
BTS3900
WCDMA
U
50331683
VS.CQI.14
Number of
reports with
CQI14
BTS3900,
BTS3900
WCDMA
U
50331684
VS.CQI.15
Number of
reports with
CQI15
BTS3900,
BTS3900
WCDMA
U
50331685
VS.CQI.16
Number of
reports with
CQI16
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331686
VS.CQI.17
Number of
reports with
CQI17
BTS3900,
BTS3900
WCDMA
U
50331687
VS.CQI.18
Number of
reports with
CQI18
BTS3900,
BTS3900
WCDMA
U
50331688
VS.CQI.19
Number of
reports with
CQI19
BTS3900,
BTS3900
WCDMA
U
50331689
VS.CQI.20
Number of
reports with
CQI20
BTS3900,
BTS3900
WCDMA
U
50331690
VS.CQI.21
Number of
reports with
CQI21
BTS3900,
BTS3900
WCDMA
U
50331691
VS.CQI.22
Number of
reports with
CQI22
BTS3900,
BTS3900
WCDMA
U
50331692
VS.CQI.23
Number of
reports with
CQI23
BTS3900,
BTS3900
WCDMA
U
50331693
VS.CQI.24
Number of
reports with
CQI24
BTS3900,
BTS3900
WCDMA
U
50331694
VS.CQI.25
Number of
reports with
CQI25
BTS3900,
BTS3900
WCDMA
U
50331695
VS.CQI.26
Number of
reports with
CQI26
BTS3900,
BTS3900
WCDMA
U
50331696
VS.CQI.27
Number of
reports with
CQI27
BTS3900,
BTS3900
WCDMA
U
50331697
VS.CQI.28
Number of
reports with
CQI28
BTS3900,
BTS3900
WCDMA
U
50331698
VS.CQI.29
Number of
reports with
CQI29
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331699
VS.CQI.30
Number of
reports with
CQI30
BTS3900,
BTS3900
WCDMA
U
50331725
VS.CQI.31
Number of
Cqi31
BTS3900
WCDMA
U
50331726
VS.CQI.32
Number of
Cqi32
BTS3900
WCDMA
U
50331727
VS.CQI.33
Number of
Cqi33
BTS3900
WCDMA
U
50331728
VS.CQI.34
Number of
Cqi34
BTS3900
WCDMA
U
50331729
VS.CQI.35
Number of
Cqi35
BTS3900
WCDMA
U
Description
The preceding counters indicate the overall distribution of the channel quality for HSDPA users.
For each Channel Quality Indicators (CQI) value, the NodeB counts the number of CQIs received
in a cell during a measurement period.The values of VS.CQI.0 to VS.CQI.30 correspond to the
values of CQI0 to CQI30 reported by an HSDPA UE.
Disuse Statement:
The counter 50331725 VS.CQI.31 will be deleted in later version. In current version, the value
of this counter is 0. This counter is not recommended.
The counter 50331726 VS.CQI.32 will be deleted in later version. In current version, the value
of this counter is 0. This counter is not recommended.
The counter 50331727 VS.CQI.33 will be deleted in later version. In current version, the value
of this counter is 0. This counter is not recommended.
The counter 50331728 VS.CQI.34 will be deleted in later version. In current version, the value
of this counter is 0. This counter is not recommended.
The counter 50331729 VS.CQI.35 will be deleted in later version. In current version, the value
of this counter is 0. This counter is not recommended.
Measurement Points
The NodeB takes statistics about the preceding counters when demodulating the CQI information
of the HSDPA UE carried on the HS-DPCCH. For multi-carrier users, these counters are
measured in the anchor carrier and the supplementary carrier separately.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.CQI.0
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.1
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.2
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.3
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.4
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.5
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.6
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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Counter Name
Feature ID
VS.CQI.7
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.8
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.9
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.10
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.11
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.12
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.13
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.14
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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Counter Name
Feature ID
VS.CQI.15
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.16
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.17
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.18
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.19
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.20
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.21
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.22
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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Counter Name
Feature ID
VS.CQI.23
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.24
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.25
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.26
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.27
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.28
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.29
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.30
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.CQI.31
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.32
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.33
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.34
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
VS.CQI.35
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
Number of CQIs Used for HSDPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331754
VS.UsedCQI0
Number of
times the NodeB
transmits data
with CQI=0
BTS3900,
BTS3900
WCDMA
U
50331755
VS.UsedCQI1
Number of
times the NodeB
transmits data
with CQI=1
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331756
VS.UsedCQI2
Number of
times the NodeB
transmits data
with CQI=2
BTS3900,
BTS3900
WCDMA
U
50331757
VS.UsedCQI3
Number of
times the NodeB
transmits data
with CQI=3
BTS3900,
BTS3900
WCDMA
U
50331758
VS.UsedCQI4
Number of
times the NodeB
transmits data
with CQI=4
BTS3900,
BTS3900
WCDMA
U
50331759
VS.UsedCQI5
Number of
times the NodeB
transmits data
with CQI=5
BTS3900,
BTS3900
WCDMA
U
50331760
VS.UsedCQI6
Number of
times the NodeB
transmits data
with CQI=6
BTS3900,
BTS3900
WCDMA
U
50331761
VS.UsedCQI7
Number of
times the NodeB
transmits data
with CQI=7
BTS3900,
BTS3900
WCDMA
U
50331762
VS.UsedCQI8
Number of
times the NodeB
transmits data
with CQI=8
BTS3900,
BTS3900
WCDMA
U
50331763
VS.UsedCQI9
Number of
times the NodeB
transmits data
with CQI=9
BTS3900,
BTS3900
WCDMA
U
50331764
VS.UsedCQI10
Number of
times the NodeB
transmits data
with CQI=10
BTS3900,
BTS3900
WCDMA
U
50331765
VS.UsedCQI11
Number of
times the NodeB
transmits data
with CQI=11
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331766
VS.UsedCQI12
Number of
times the NodeB
transmits data
with CQI=12
BTS3900,
BTS3900
WCDMA
U
50331767
VS.UsedCQI13
Number of
times the NodeB
transmits data
with CQI=13
BTS3900,
BTS3900
WCDMA
U
50331768
VS.UsedCQI14
Number of
times the NodeB
transmits data
with CQI=14
BTS3900,
BTS3900
WCDMA
U
50331769
VS.UsedCQI15
Number of
times the NodeB
transmits data
with CQI=15
BTS3900,
BTS3900
WCDMA
U
50331770
VS.UsedCQI16
Number of
times the NodeB
transmits data
with CQI=16
BTS3900,
BTS3900
WCDMA
U
50331771
VS.UsedCQI17
Number of
times the NodeB
transmits data
with CQI=17
BTS3900,
BTS3900
WCDMA
U
50331772
VS.UsedCQI18
Number of
times the NodeB
transmits data
with CQI=18
BTS3900,
BTS3900
WCDMA
U
50331773
VS.UsedCQI19
Number of
times the NodeB
transmits data
with CQI=19
BTS3900,
BTS3900
WCDMA
U
50331774
VS.UsedCQI20
Number of
times the NodeB
transmits data
with CQI=20
BTS3900,
BTS3900
WCDMA
U
50331775
VS.UsedCQI21
Number of
times the NodeB
transmits data
with CQI=21
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331776
VS.UsedCQI22
Number of
times the NodeB
transmits data
with CQI=22
BTS3900,
BTS3900
WCDMA
U
50331777
VS.UsedCQI23
Number of
times the NodeB
transmits data
with CQI=23
BTS3900,
BTS3900
WCDMA
U
50331778
VS.UsedCQI24
Number of
times the NodeB
transmits data
with CQI=24
BTS3900,
BTS3900
WCDMA
U
50331779
VS.UsedCQI25
Number of
times the NodeB
transmits data
with CQI=25
BTS3900,
BTS3900
WCDMA
U
50331780
VS.UsedCQI26
Number of
times the NodeB
transmits data
with CQI=26
BTS3900,
BTS3900
WCDMA
U
50331781
VS.UsedCQI27
Number of
times the NodeB
transmits data
with CQI=27
BTS3900,
BTS3900
WCDMA
U
50331782
VS.UsedCQI28
Number of
times the NodeB
transmits data
with CQI=28
BTS3900,
BTS3900
WCDMA
U
50331783
VS.UsedCQI29
Number of
times the NodeB
transmits data
with CQI=29
BTS3900,
BTS3900
WCDMA
U
50331784
VS.UsedCQI30
Number of
times the NodeB
transmits data
with CQI=30
BTS3900,
BTS3900
WCDMA
U
50331785
VS.UsedCQI31
to39
Number of
times the NodeB
transmits data
with CQI=[31,
39]
BTS3900,
BTS3900
WCDMA
U
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Description
These counters measure the CQI values ranging from 0 to 30 and [31,39] used by the NodeB to
transmit TBS to HSDPA users within a measurement period, indicating the overall distribution
of the used CQIs. These counters measure the channel quality indicator (CQI) used for HSDPA
scheduling, not the CQI reported by a UE. VS.UsedCQI31to39 is specific to 16QAM or 64QAM
users.
Measurement Points
The NodeB takes statistics about the preceding counters for HSDPA users when MAC-hs/MACehs scheduling is complete. The preceding counters do not measure the CQIs sent by the MIMO
users.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.UsedCQI0
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI1
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI2
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI3
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI4
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI5
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
50
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI6
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI7
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI8
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI9
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
51
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI10
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI11
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI12
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI13
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
52
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI14
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI15
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI16
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI17
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
53
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI18
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI19
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI20
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI21
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
54
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI22
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI23
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI24
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI25
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
55
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI26
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI27
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI28
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI29
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
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Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
56
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.UsedCQI30
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
VS.UsedCQI31to39
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-01061018
WRFD-01061019
LTE: None
HSDPA Introduction
Package
Time and HS-PDSCH Codes
Multiplex
HSDPA Dynamic Power
Allocation
MIMO Dual CQI Distribution In a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331786
VS.MIMODual
CQI1.0
Number Of
MIMO TYPEA
CQI Report
With CQI1 0
BTS3900,
BTS3900
WCDMA
U
50331787
VS.MIMODual
CQI1.1
Number Of
MIMO TYPEA
CQI Report
With CQI1 1
BTS3900,
BTS3900
WCDMA
U
50331788
VS.MIMODual
CQI1.2
Number Of
MIMO TYPEA
CQI Report
With CQI1 2
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331789
VS.MIMODual
CQI1.3
Number Of
MIMO TYPEA
CQI Report
With CQI1 3
BTS3900,
BTS3900
WCDMA
U
50331790
VS.MIMODual
CQI1.4
Number Of
MIMO TYPEA
CQI Report
With CQI1 4
BTS3900,
BTS3900
WCDMA
U
50331791
VS.MIMODual
CQI1.5
Number Of
MIMO TYPEA
CQI Report
With CQI1 5
BTS3900,
BTS3900
WCDMA
U
50331792
VS.MIMODual
CQI1.6
Number Of
MIMO TYPEA
CQI Report
With CQI1 6
BTS3900,
BTS3900
WCDMA
U
50331793
VS.MIMODual
CQI1.7
Number Of
MIMO TYPEA
CQI Report
With CQI1 7
BTS3900,
BTS3900
WCDMA
U
50331794
VS.MIMODual
CQI1.8
Number Of
MIMO TYPEA
CQI Report
With CQI1 8
BTS3900,
BTS3900
WCDMA
U
50331795
VS.MIMODual
CQI1.9
Number Of
MIMO TYPEA
CQI Report
With CQI1 9
BTS3900,
BTS3900
WCDMA
U
50331796
VS.MIMODual
CQI1.10
Number Of
MIMO TYPEA
CQI Report
With CQI1 10
BTS3900,
BTS3900
WCDMA
U
50331797
VS.MIMODual
CQI1.11
Number Of
MIMO TYPEA
CQI Report
With CQI1 11
BTS3900,
BTS3900
WCDMA
U
50331798
VS.MIMODual
CQI1.12
Number Of
MIMO TYPEA
CQI Report
With CQI1 12
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331799
VS.MIMODual
CQI1.13
Number Of
MIMO TYPEA
CQI Report
With CQI1 13
BTS3900,
BTS3900
WCDMA
U
50331800
VS.MIMODual
CQI1.14
Number Of
MIMO TYPEA
CQI Report
With CQI1 14
BTS3900,
BTS3900
WCDMA
U
50331801
VS.MIMODual
CQI2.0
Number Of
MIMO TYPEA
CQI Report
With CQI2 0
BTS3900,
BTS3900
WCDMA
U
50331802
VS.MIMODual
CQI2.1
Number Of
MIMO TYPEA
CQI Report
With CQI2 1
BTS3900,
BTS3900
WCDMA
U
50331803
VS.MIMODual
CQI2.2
Number Of
MIMO TYPEA
CQI Report
With CQI2 2
BTS3900,
BTS3900
WCDMA
U
50331804
VS.MIMODual
CQI2.3
Number Of
MIMO TYPEA
CQI Report
With CQI2 3
BTS3900,
BTS3900
WCDMA
U
50331805
VS.MIMODual
CQI2.4
Number Of
MIMO TYPEA
CQI Report
With CQI2 4
BTS3900,
BTS3900
WCDMA
U
50331806
VS.MIMODual
CQI2.5
Number Of
MIMO TYPEA
CQI Report
With CQI12 5
BTS3900,
BTS3900
WCDMA
U
50331807
VS.MIMODual
CQI2.6
Number Of
MIMO TYPEA
CQI Report
With CQI2 6
BTS3900,
BTS3900
WCDMA
U
50331808
VS.MIMODual
CQI2.7
Number Of
MIMO TYPEA
CQI Report
With CQI2 7
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331809
VS.MIMODual
CQI2.8
Number Of
MIMO TYPEA
CQI Report
With CQI2 8
BTS3900,
BTS3900
WCDMA
U
50331810
VS.MIMODual
CQI2.9
Number Of
MIMO TYPEA
CQI Report
With CQI2 9
BTS3900,
BTS3900
WCDMA
U
50331811
VS.MIMODual
CQI2.10
Number Of
MIMO TYPEA
CQI Report
With CQI2 10
BTS3900,
BTS3900
WCDMA
U
50331812
VS.MIMODual
CQI2.11
Number Of
MIMO TYPEA
CQI Report
With CQI2 11
BTS3900,
BTS3900
WCDMA
U
50331813
VS.MIMODual
CQI2.12
Number Of
MIMO TYPEA
CQI Report
With CQI2 12
BTS3900,
BTS3900
WCDMA
U
50331814
VS.MIMODual
CQI2.13
Number Of
MIMO TYPEA
CQI Report
With CQI2 13
BTS3900,
BTS3900
WCDMA
U
50331815
VS.MIMODual
CQI2.14
Number Of
MIMO TYPEA
CQI Report
With CQI2 14
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the distribution of dual CQIs reported by MIMO users in a cell,
evaluating the channel conditions for MIMO users.
Measurement Points
The NodeB takes statistics about the preceding counters when demodulating the CQI information
of the UE carried on the HS-DPCCH. VS.MIMODualCQI1.0 to VS.MIMODualCQI1.14
indicate the distribution of CQI1 in TypeA CQI reports from MIMO users;
VS.MIMODualCQI2.0 to VS.MIMODualCQI2.14 indicate the distribution of CQI2 in TypeA
CQI reports from MIMO users.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.MIMODualCQI1.0
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.1
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.2
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.3
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.4
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.5
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.6
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI1.7
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.8
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.9
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.10
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.11
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.12
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.13
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI1.14
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI2.0
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.1
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.2
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.3
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.4
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.5
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.6
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.7
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI2.8
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.9
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.10
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.11
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.12
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.13
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
VS.MIMODualCQI2.14
Multi-mode: None
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
Average CQI Of Phase 0 Based On APC Algorithm in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331822
VS.APCPhase0
CQI.MEAN
Average CQI Of
Phase 0 Based
On APC
Algorithm
BTS3900
WCDMA
U
Description
The preceding counter indicates the average value of reported CQIs corresponding to phase 0
in all phase shift periods when the automatic phase control (APC) algorithm is used in a cell,
evaluating the channel quality of users with data transmission in the cell when the VAM
algorithm does not take effect. The value has been amplified by 1000 times. For example, the
value 29100 stands for the CQI value 29.1.
Disuse Statement:
The counter 50331822 VS.APCPhase0CQI.MEAN will be deleted and replaced by 50341722
VS.DataCQI.MEAN in later versions. In current version, both the counters take effect but
VS.APCPhase0CQI.MEAN is not recommended.
Measurement Points
Within the measurement period, the NodeB counts the sum of reported CQI values
corresponding to Phase 0 in a cell when the automatic phase control (APC) algorithm takes
effect. Assume that this value is A. The NodeB counts the total number of reported CQI samples
corresponding to Phase 0 within the measurement period. Assume that this value is B. Then,
VS.APCPhase0CQI.MEAN = A/B.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.APCPhase0CQI.MEAN
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010700
Performance Improvement
of MIMO and HSDPA Cocarrier
WRFD-030011
LTE: None
MIMO Prime
Average CQI Of All Phase Based On APC Algorithm in cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331823
VS.APCCQI.M
EAN
Average CQI Of
All Phase Based
On APC
Algorithm
BTS3900
WCDMA
U
Description
The preceding counter indicates the average value of CQIs reported by all users with data
transmission in a cell. The value has been amplified by 1000 times. For example, the value 29100
stands for the CQI value 29.1.
Disuse Statement:
The counter 50331823 VS.APCCQI.MEAN will be deleted and replaced by 50341722
VS.DataCQI.MEAN in later versions. In current version, both the counters take effect but
VS.APCCQI.MEAN is not recommended.
Measurement Points
Within the measurement period, the NodeB counts the sum of CQI values reported by all users
that have data to transmit in a cell. Assume that this value is A. The NodeB counts the total
number of reported CQI samples within the measurement period. Assume that this value is B.
Then, VS.APCCQI.MEAN = A/B.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.APCCQI.MEAN
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010700
Performance Improvement
of MIMO and HSDPA Cocarrier
WRFD-030011
LTE: None
MIMO Prime
Average CQI Reported by All HSDPA UEs That Have Data to Transmit.
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341722
VS.DataCQI.M
EAN
Average CQI
Reported by All
UEs That Have
Data to
Transmit
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average value of CQIs reported by all HSDPA users with
data transmission in a cell. The value has been amplified by 1000 times. For example, the value
29100 stands for the CQI value 29.1.
Measurement Points
The accumulated CQI values reported by HSDPA UEs that have data to transmit is A, and the
number of CQI samples reported by HSDPA UEs that have data to transmit is B. The formula
for calculating this counter is: VS.DataCQI.MEAN = A/B.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
VS.DataCQI.MEAN
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-030011
MIMO Prime
WRFD-010700
Performance Improvement
of MIMO and HSDPA Cocarrier
LTE: None
Statistics on Modulation Schemes for HSDPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331722
VS.HSDPA.
16QAMCfg.Act
edNum
Total number of
times all the
users in a cell
use 16QAM
mode
BTS3900,
BTS3900
WCDMA
U
50331723
VS.HSDPA.QP
SKCfg.ActedN
um
Total number of
times users use
the QPSK mode
BTS3900,
BTS3900
WCDMA
U
50331724
VS.HSDPA.All
.ScheduledNum
Total number of
times all the
users are
scheduled in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
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Counter Name
Description
VS.HSDPA.16QAMCfg.ActedNum
This counter measures the total number of
times all the HSDPA users in a cell use
16QAM within a measurement period.
VS.HSDPA.QPSKCfg.ActedNum
This counter measures the total number of
times all the HSDPA users in a cell use QPSK
within a measurement period.
VS.HSDPA.All.ScheduledNum
This counter measures the total number of
times all the HSDPA users in a cell are
scheduled within a measurement period.
Measurement Points
The NodeB takes statistics about the preceding counters for HSDPA users when MAC-hs/MACehs scheduling is complete. For MIMO users, if two transport blocks are used, the
VS.HSDPA.All.ScheduledNum counter is incremented by 2; if a single transport block is used,
the VS.HSDPA.All.ScheduledNum counter is incremented by 1. For MIMO users, if two
transport blocks are used, the VS.HSDPA.16QAMCfg.ActedNum and
VS.HSDPA.QPSKCfg.ActedNum counters are measured on each transport block separately.
For multi-carrier users, the preceding counters are measured in the anchor carrier and the
supplementary carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.
16QAMCfg.ActedNum
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-010629
LTE: None
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Huawei Proprietary and Confidential
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HSDPA Introduction
Package
DL 16QAM Modulation
69
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Counter Name
Feature ID
VS.HSDPA.QPSKCfg.ActedNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
WRFD-01061017
QPSK Modulation
LTE: None
VS.HSDPA.All.ScheduledNum
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
WRFD-010610
LTE: None
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
HSDPA Introduction
Package
Statistics on 64QAM Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331709
VS.HSDPA.
64QAMCfg.Act
edNum
Total number of
times all the
users in a cell
use the 64QAM
mode
BTS3900,
BTS3900
WCDMA
U
50331710
VS.HSDPA.
64QAMCfg.Sc
heduledNum
Total number of
times all the
users in 64QAM
mode are
scheduled in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
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Counter Name
Description
VS.HSDPA.64QAMCfg.ActedNum
This counter measures the total number of
times that 64QAM users transmitting datas
with 64QAM modulation method are
scheduled in a cell within a measurement
period.
VS.HSDPA.64QAMCfg.ScheduledNum
This counter measures the total number of
times that 64QAM users transmitting datas
with QPSK, 16QAM, or 64QAM modulation
method are scheduled in a cell within a
measurement period.
Measurement Points
The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling
is complete. For MIMO+64QAM users, if two transport blocks are used, the VS.HSDPA.
64QAMCfg.ScheduledNum counter is incremented by 2; if a single transport block is used, the
VS.HSDPA.64QAMCfg.ScheduledNum counter is incremented by 1. For MIMO users, if two
transport blocks are used, the VS.HSDPA.64QAMCfg.ActedNum counter is measured on each
transport block separately. For DC-HSDPA users, the preceding counters are measured in the
anchor carrier and the supplementary carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.
64QAMCfg.ActedNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010683
WRFD-010685
Downlink 64QAM
Downlink Enhanced L2
LTE: None
VS.HSDPA.
64QAMCfg.ScheduledNum
Multi-mode: None
GSM: None
UMTS: WRFD-010683
WRFD-010685
Downlink 64QAM
Downlink Enhanced L2
LTE: None
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Statistics on 2x2 MIMO Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331711
VS.MIMOCfg.
ActedNum
Total number of
times all the
MIMO-enabled
users use two
transport blocks
in a cell
BTS3900,
BTS3900
WCDMA
U
50331712
VS.MIMOCfg.
ScheduledNum
Total number of
times all the
MIMO-enabled
users are
scheduled in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the usage of two transport blocks for MIMO-enabled users in
a cell.
Measurement Points
The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling
is complete.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.MIMOCfg.ActedNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
WRFD-010685
2*2 MIMO
Downlink Enhanced L2
LTE: None
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Counter Name
Feature ID
VS.MIMOCfg.ScheduledNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
WRFD-010685
Downlink Enhanced L2
LTE: None
Statistics on 64QAM+MIMO Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331717
VS.HSDPA.MI
MO64QAMCfg
.ActedNum
Number of
times that all the
users
configured in
64QAM
+MIMO mode
in a cell employ
64QAM during
the
measurement
period
BTS3900,
BTS3900
WCDMA
U
50331718
VS.HSDPA.MI
MO64QAMCfg
.ScheduledNum
Number of
times that all the
users
configured in
64QAM
+MIMO mode
in a cell are
scheduled
during the
measurement
period
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the usage of 64QAM for 64QAM+MIMO users in a cell.
Measurement Points
The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling
is complete. If two transport blocks are used, the
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VS.HSDPA.MIMO64QAMCfg.ScheduledNum counter is incremented by 2; if a single
transport block is used, the VS.HSDPA.MIMO64QAMCfg.ScheduledNum counter is
incremented by 1. For users with two transport blocks, the
VS.HSDPA.MIMO64QAMCfg.ActedNum counter is measured on each transport block
separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.MIMO64QAM
Cfg.ActedNum
Multi-mode: None
GSM: None
UMTS: WRFD-010693
WRFD-010689
WRFD-010610
LTE: None
VS.HSDPA.MIMO64QAM
Cfg.ScheduledNum
Feature Name
DL 64QAM+MIMO
HSPA+Downlink 42Mbps
per User
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-010689
WRFD-010693
LTE: None
HSDPA Introduction
Package
HSPA+Downlink 42Mbps
per User
DL 64QAM+MIMO
Statistics on DC Users in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331719
VS.HSDPA.DC
Cfg.AnchorCarrierActedNum
Number of
times that all the
users
configured in
DC mode in a
cell are
scheduled by
AnchorCarrier
during the
measurement
period
BTS3900,
BTS3900
WCDMA
U
50331720
VS.HSDPA.DC
Cfg.SupCarrierActedNum
Total number of
times DCHSDPAenabled users
are scheduled by
the
supplementary
carrier
BTS3900,
BTS3900
WCDMA
U
50331721
VS.HSDPA.DC
Cfg.DualCarrier
ActedNum
Total number of
times DCHSDPAenabled users
are scheduled by
the anchor and
supplementary
carriers at the
same time
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSDPA.DCCfg.AnchorCarrierActedNum
This counter measures the number of times
the users whose anchor carrier is the carrier
of a DC-HSDPA cell are scheduled by the
anchor carrier during a measurement period.
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Counter Name
Description
VS.HSDPA.DCCfg.SupCarrierActedNum
This counter measures the number of times
the users whose supplementary carrier is the
carrier of a DC-HSDPA cell are scheduled by
the supplementary carrier during a
measurement period.
VS.HSDPA.DCCfg.DualCarrierActedNum
This counter measures the number of times
the users whose anchor carrier is the carrier
of a DC-HSDPA cell are scheduled by the
anchor and supplementary carriers at the
same time during a measurement period.
Measurement Points
The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling
is complete. When a user is scheduled by the anchor carrier, the
VS.HSDPA.DCCfg.AnchorCarrierActedNum counter is incremented by 1 regardless of
whether the user is scheduled by the supplementary carrier. If a user is scheduled by the anchor
and supplementary carriers at the same time, the VS.HSDPA.DCCfg.AnchorCarrierActedNum
counter is only incremented by 1. If a user is scheduled by the supplementary carrier, the
VS.HSDPA.DCCfg.SupCarrierActedNum counter is incremented by 1 regardless of whether
the user is scheduled by the anchor carrier. If a user is scheduled by the anchor and supplementary
carriers at the same time, the VS.HSDPA.DCCfg.SupCarrierActedNum counter is only
incremented by 1.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.DCCfg.AnchorCarrierActedNum
Multi-mode: None
GSM: None
UMTS: WRFD-010610
WRFD-010689
WRFD-010696
LTE: None
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HSDPA Introduction
Package
HSPA+Downlink 42Mbps
per User
DC-HSDPA
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Counter Name
Feature ID
VS.HSDPA.DCCfg.SupCarrierActedNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
WRFD-010689
HSPA+Downlink 42Mbps
per User
WRFD-010696
LTE: None
VS.HSDPA.DCCfg.DualCarrierActedNum
DC-HSDPA
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
WRFD-010689
HSPA+Downlink 42Mbps
per User
WRFD-010696
LTE: None
DC-HSDPA
Time Ratio for HSDPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341658
VS.UserTtiRati
o.Mean
Ratio of the time
when at least
one HSDPA UE
camps on the
cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter provides the ratio of the time when at least one HSDPA UE camps on a
cell to the total time of the measurement period.
Measurement Points
During a measurement period, if at least one HSDPA UE camps on a cell in one Transmission
Time Interval (TTI), the NodeB counts the number of all such TTIs in the measurement period.
Assume that this number is A and the total number of TTIs in the measurement period is B.
Then, VS.UserTtiRatio.Mean = A/B. A DC-HSDPA user is regarded as an HSDPA user in each
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anchor carrier and supplementary carrier. For DC-HSDPA users, the counter is measured in the
anchor carrier and the supplementary carrier separately.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.UserTtiRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Time Ratio for HSDPA User with Data to be Transmitted in the Queue Buffer in a
Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341659
VS.DataTtiRati
o.Mean
Ratio of the time
when at least
one HSDPA
user has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter measures the ratio of the time when at least one HSDPA user in a cell
has data to transmit in the queue buffer to the total time within a measurement period.
Measurement Points
During a measurement period, if at least one HSDPA user in a cell has data to transmit in the
queue buffer in a TTI, the NodeB counts the number of all such TTIs. Assume that the number
is A, and the total number of TTIs within the measurement period is B. Then,
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VS.DataTtiRatio.Mean = A/B. For DC-HSDPA users, the counter is measured in the anchor
carrier and the supplementary carrier separately.The counter is measured at point C in the
following figure:
Figure 1-1
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.DataTtiRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Time Ratio for HSDPA Users Having Data in the Queue Buffer but Having No
Data Transmission in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341693
VS.HSDPA.Ina
ctiveDataTtiRat
io.Mean
Number of TTIs
in which at least
one HSDPA
user in a cell has
TRB data to
transmit in the
queue buffer but
there is no
conventional
TRB data
transmission at
the physical
layer
BTS3900,
BTS3900
WCDMA
U
Description
This counter indicates the average ratio of the time period when at least one HSDPA user in a
cell has data to transmit in the queue buffer but there is no conventional HSDPA data
transmission at the physical layer. Conventional data transmission does not include the following
scenario: The ACK/NACK fields of the uplink HS-DPCCH corresponding to the current TTI
fall into the transmission gap in compressed mode.
Measurement Points
During a measurement period, if at least one HSDPA user in a cell has data to transmit in the
queue buffer but there is no conventional HSDPA data transmission at the physical layer within
a TTI, the NodeB counts the number of such TTIs in the measurement period. Assume that the
number is A, and the total number of TTIs in the measurement period is B. Then,
VS.HSDPA.InactiveDataTtiRatio.Mean = A/B. For DC-HSDPA users, the counter is measured
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in the anchor carrier and the supplementary carrier separately. The following figure shows the
flowchart where the counter is measured at points D, E and F:
Figure 1-2
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Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSDPA.InactiveDataTti
Ratio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Average Time Ratio for HSDPA User Queues in the Scheduling Candidate Set but
Having No Data Transmission
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341739
VS.HSDPA.Sc
heInactiveData
TtiRatio.Mean
Average ratio of
the time when
some HSDPA
users are queued
in the
scheduling
candidate set but
do not transmit
data
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average time ratio for HSDPA user queues in the scheduling
candidate set but having no data transmission.
Measurement Points
During a measurement period, if an HSDPA user queue enters the scheduling candidate set but
does not transmit data at the physical layer in one Transmission Time Interval (TTI), the NodeB
counts the number of all such TTIs. Assume that this number is A and the total number of TTIs
in the measurement period is B. Then, VS.HSDPA.ScheInactiveDataTtiRatio.Mean = A/B.For
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DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier
separately.The counter is measured at point E in the following figure:
Figure 1-3
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.HSDPA.ScheInactiveDa
taTtiRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of TTIs in Which TRB Data Is to be Transmitted in the HSDPA User Queue
in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331839
VS.HSDPA.Dat
aTtiNum.TRB
Number of TTIs
in which TRB
data is to be
transmitted in
the HSDPA user
queue in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the number of TTIs in which the TRB data is to be transmitted
in at least one HSDPA user queue in a cell.
Measurement Points
The NodeB calculates the number of TTIs in which at least one HSDPA user in a cell has the
TRB data to transmit in the queue buffer within a measurement period. For DC-HSDPA users,
the counter is measured in the anchor carrier and the supplementary carrier separately. The
counter is measured at point A in the following figure:
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Figure 1-4
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.DataTtiNum.T
RB
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
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Number of TTIs for HSDPA Users in a Cell Having TRB Data to Transmit in the
Queue Buffer but Having No Data Transmission at the Physical Layer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331840
VS.HSDPA.Ina
ctiveDataTtiNu
m.TRB
Number of TTIs
in which at least
one HSDPA
user in a cell has
TRB data to
transmit in the
queue buffer but
there is no
conventional
TRB data
transmission at
the physical
layer .
BTS3900,
BTS3900
WCDMA
U
Description
This counter indicates the number of TTIs for at least one HSDPA user in a cell having the TRB
data to transmit in the queue buffer but having no conventional data transmission at the physical
layer. Conventional data transmission does not include the following scenario: The ACK/NACK
fields of the uplink HS-DPCCH corresponding to the current TTI fall into the transmission gap
in compressed mode.
Measurement Points
The NodeB calculates the total number of TTIs in which at least one HSDPA user in a cell has
the TRB data to transmit in the queue buffer but there is no conventional TRB data transmission
at the physical layer within a TTI. For DC-HSDPA users, the counter is measured in the anchor
carrier and the supplementary carrier separately. The following figure shows the flowchart where
the counter is measured at points A and B:
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Figure 1-5
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSDPA.InactiveDataTti
Num.TRB
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Total number of user-level TTIs within which there is data to transmit in HSDPA
user queue buffers
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331745
VS.HSDPA.Dat
aTtiNum.User
Total number of
user-level TTIs
within which
there is data to
transmit in
HSDPA user
queue buffers
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of TTIs within which there is data to transmit in HSDPA user
queue buffers. This counter needs to be measured repeatedly if more than one HSDPA user
queue buffer has data to transmit within a TTI.
Measurement Points
The number of TTIs within which there is data to transmit in all HSDPA user queue buffers is
accumulated within a measurement period. This counter will be measured repeatedly if more
than one HSDPA user queue buffer has data to transmit within a TTI. This counter is measured
in the serving cell. For DC-HSDPA, DB-HSDPA, 4C-HSDPA, or 3C-HSDPA users, this counter
is measured in the anchor carrier and supplementary carrier separately.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSDPA.DataTtiNum.Us
er
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Total number of user-level TTIs within which there is data to transmit in MCHSDPA/MC-HSDPA+MIMO user queue buffers
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332215
VS.DCHSDPA.
DataTtiNum.Us
er
Total number of
user-level TTIs
within which
there is data to
transmit in DCHSDPA/DCHSDPA
+MIMO user
queue buffers
BTS3900,
BTS3900
WCDMA
U
50332173
VS.DBHSDPA.
DataTtiNum.Us
er
Total number of
user-level TTIs
within which
there is data to
transmit in DBHSDPA/DBHSDPA
+MIMO user
queue buffers
BTS3900,
BTS3900
WCDMA
U
50332217
VS.
3CHSDPA.Dat
aTtiNum.User
Total number of
user-level TTIs
within which
there is data to
transmit in 3CHSDPA/3CHSDPA
+MIMO user
queue buffers
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332174
VS.
4CHSDPA.Dat
aTtiNum.User
Total number of
user-level TTIs
within which
there is data to
transmit in 4CHSDPA/4CHSDPA
+MIMO user
queue buffers
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.DCHSDPA.DataTtiNum.User
This counter measures the number of TTIs
within which there is data to transmit in DCHSDPA or DC-HSDPA+MIMO user queue
buffers. This counter needs to be measured
repeatedly if more than one DC-HSDPA or
DC-HSDPA+MIMO user queue buffer has
data to transmit within a TTI.
VS.DBHSDPA.DataTtiNum.User
This counter measures the number of TTIs
within which there is data to transmit in DBHSDPA or DB-HSDPA+MIMO user queue
buffers. This counter needs to be measured
repeatedly if more than one DB-HSDPA or
DB-HSDPA+MIMO user queue buffer has
data to transmit within a TTI.
VS.3CHSDPA.DataTtiNum.User
This counter measures the number of TTIs
within which there is data to transmit in 3CHSDPA or 3C-HSDPA+MIMO user queue
buffers. This counter needs to be measured
repeatedly if more than one 3C-HSDPA or
3C-HSDPA+MIMO user queue buffer has
data to transmit within a TTI.
VS.4CHSDPA.DataTtiNum.User
This counter measures the number of TTIs
within which there is data to transmit in 4CHSDPA or 4C-HSDPA+MIMO user queue
buffers. This counter needs to be measured
repeatedly if more than one 4C-HSDPA or
4C-HSDPA+MIMO user queue buffer has
data to transmit within a TTI.
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Measurement Points
The number of TTIs within which there is data to transmit in all DC-HSDPA or DC-HSDPA
+MIMO user queues is accumulated to VS.DCHSDPA.DataTtiNum.User within a measurement
period, with the local cell served by the anchor carrier. This counter will be measured repeatedly
if more than one DC-HSDPA or DC-HSDPA+MIMO user queue buffer has data to transmit
within a TTI.
The number of TTIs within which there is data to transmit in all DB-HSDPA or DB-HSDPA
+MIMO user queues is accumulated to VS.DBHSDPA.DataTtiNum.User within a measurement
period, with the local cell served by the anchor carrier. This counter will be measured repeatedly
if more than one DB-HSDPA or DB-HSDPA+MIMO user queue buffer has data to transmit
within a TTI.
The number of TTIs within which there is data to transmit in all 3C-HSDPA or 3C-HSDPA
+MIMO user queues is accumulated to VS.3CHSDPA.DataTtiNum.User within a measurement
period, with the local cell served by the anchor carrier. This counter will be measured repeatedly
if more than one 3C-HSDPA or 3C-HSDPA+MIMO user queue buffer has data to transmit
within a TTI.
The number of TTIs within which there is data to transmit in all 4C-HSDPA or 4C-HSDPA
+MIMO user queues is accumulated to VS.4CHSDPA.DataTtiNum.User within a measurement
period, with the local cell served by the anchor carrier. This counter will be measured repeatedly
if more than one 4C-HSDPA or 4C-HSDPA+MIMO user queue buffer has data to transmit
within a TTI.
This counter is measured only in the anchor carrier, not in the supplementary carrier.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.DCHSDPA.DataTtiNum
.User
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010696
DC-HSDPA
LTE: None
VS.DBHSDPA.DataTtiNum
.User
Multi-mode: None
GSM: None
UMTS: WRFD-150209
DB-HSDPA
LTE: None
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Counter Name
Feature ID
VS.
3CHSDPA.DataTtiNum.Use
r
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150250
3C-HSDPA
WRFD-150223
MC-HSDPA+MIMO
LTE: None
VS.
4CHSDPA.DataTtiNum.Use
r
Multi-mode: None
GSM: None
UMTS: WRFD-150207
4C-HSDPA
WRFD-150223
MC-HSDPA+MIMO
LTE: None
Time Ratio Used for HS-SCCH Channel Codes in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341694
VS.HSDPA.
2ScchCodeRati
o
The time ratio of
only using two
HS-SCCH
codes for cell
BTS3900,
BTS3900
WCDMA
U
50341695
VS.HSDPA.
3ScchCodeRati
o
The time ratio of
only using three
HS-SCCH
codes for cell
BTS3900,
BTS3900
WCDMA
U
50341696
VS.HSDPA.
4ScchCodeRati
o
The time ratio of
only using four
HS-SCCH
codes for cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the ratio of time when different HS-SCCH codes are used for
a cell.
Measurement Points
Take the VS.HSDPA.2ScchCodeRatio counter as an example. During a measurement period,
the NodeB calculates the number of TTIs in which only two HS-SCCH codes are used for the
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cell. Assume that the number is A, and the number of TTIs in which one or more HS-SCCH
codes are used in the measurement period is B. Then, VS.HSDPA.2ScchCodeRatio = A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSDPA.
2ScchCodeRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.
3ScchCodeRatio
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.
4ScchCodeRatio
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Available HS-PDSCH Codes in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341690
VS.PdschCode
Avail.Mean
Average
number of
available HSPDSCH codes
in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341691
VS.PdschCode
Avail.Max
Maximum
number of
available HSPDSCH codes
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum number of available HS-PDSCH
codes in a cell during a measurement period.
Measurement Points
During a measurement period, the NodeB counts the number of available HS-PDSCH codes in
all TTIs in the cell. Assume that this value is A and the number of TTIs in the measurement
period is B. Then, VS.PdschCodeAvail.Mean = A/B. The NodeB samples
VS.PdschCodeAvail.Mean every 5s and takes the maximum value within the measurement
period as VS.PdschCodeAvail.Max.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.PdschCodeAvail.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
LTE: None
VS.PdschCodeAvail.Max
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
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Used HS-PDSCH Codes in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341688
VS.PdschCode
Used.Mean
Average
number of used
HS-PDSCH
codes in a cell
BTS3900,
BTS3900
WCDMA
U
50341689
VS.PdschCode
Used.Max
Maximum
number of used
HS-PDSCH
codes in a cell
BTS3900,
BTS3900
WCDMA
U
50341692
VS.PdschCode
Used.Min
Minimum
number of used
HS-PDSCH
codes in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum number of used HSPDSCH codes in a cell during a measurement period.
Measurement Points
During a measurement period, the NodeB counts the number of used HS-PDSCH codes in all
TTIs in the cell. Assume that this value is A and the number of TTIs in the measurement period
is B. Then, VS.PdschCodeUsed.Mean = A/B. The NodeB samples VS.PdschCodeUsed.Mean
every 5s and takes the maximum value within the measurement period as
VS.PdschCodeUsed.Max and the minimum value within the measurement period as
VS.PdschCodeUsed.Min.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.PdschCodeUsed.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.PdschCodeUsed.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.PdschCodeUsed.Min
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Usage of HS-SCCH Code Resources in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341648
VS.ScchCodeU
til.Mean
Average usage
of HS-SCCH
code resources
in a cell
BTS3900,
BTS3900
WCDMA
U
50341649
VS.ScchCodeU
til.Max
Maximum
usage of HSSCCH code
resources in a
cell
BTS3900,
BTS3900
WCDMA
U
50341650
VS.ScchCodeU
til.Min
Minimum usage
of HS-SCCH
code resources
in a cell
BTS3900,
BTS3900
WCDMA
U
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Description
The preceding counters provide the average, maximum, and minimum usage of the HS-SCCH
code resources during a measurement period. These counters are used to analyze the allocation
appropriateness of the HS-SCCH code resources. If the code usage is high, the code resources
are insufficient for the current traffic. Therefore, more code resources are required. If the code
usage is low, the code resources are excessive. Therefore, some of the code resources can be
allocated to R99 services.
Measurement Points
Assume that the number of HS-SCCH codes used in all TTIs is A and the number of available
HS-SCCH codes in all TTIs is B. Then, VS.ScchCodeUtil.Mean = A/B. The NodeB samples
VS.ScchCodeUtil.Mean every 5s and then takes the maximum value within the measurement
period as VS.ScchCodeUtil.Max and the minimum value within the measurement period as
VS.ScchCodeUtil.Min.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.ScchCodeUtil.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061001
WRFD-01061018
WRFD-01061005
WRFD-010631
LTE: None
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
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Counter Name
Feature ID
VS.ScchCodeUtil.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061001
WRFD-01061018
WRFD-01061005
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
WRFD-010631
LTE: None
Dynamic Code Allocation
Based on NodeB
VS.ScchCodeUtil.Min
Multi-mode: None
GSM: None
UMTS: WRFD-01061001
WRFD-01061018
WRFD-01061005
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
WRFD-010631
LTE: None
Dynamic Code Allocation
Based on NodeB
Usage of HS-SCCH Code Resources When at Least One HSDPA User Camps on
the Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341654
VS.ScchCodeU
til.Mean.User
Average usage
of HS-SCCH
code resources
when HSDPA
users camp on
the cell
BTS3900,
BTS3900
WCDMA
U
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Description
The preceding counter indicates the average usage of HS-SCCH code resources when at least
one HSDPA user camps on the cell during a measurement period.
Measurement Points
Assume that the total number of used HS-SCCH codes in all TTIs when at least one HSDPA
user camps on the cell within a measurement period is A, and the total number of available HSSCCH codes in all TTIs when at least one HSDPA user camps on the cell is B. Then,
VS.ScchCodeUtil.Mean.User = A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.ScchCodeUtil.Mean.Use
r
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061005
WRFD-010631
WRFD-01061001
WRFD-01061018
LTE: None
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
Usage of HS-SCCH Code Resources When at Least One HSDPA User Has Data to
Transmit in the Queue Buffer
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341655
VS.ScchCodeU
til.Mean.Data
Average usage
of HS-SCCH
code resources
when at least
one HSDPA
user has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
This counter indicates the average usage of HS-SCCH code resources when at least one HSDPA
user has data to transmit in the queue buffer within a measurement period.
Measurement Points
Assume that the total number of used HS-SCCH codes in all TTIs when at least one HSDPA
user has data to transmit in the queue buffer within the measurement period is A, and the total
number of available HS-SCCH codes in all TTIs when at least one HSDPA user has data to
transmit in the queue buffer is B. Then, VS.ScchCodeUtil.Mean.Data = A/B.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.ScchCodeUtil.Mean.Data
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061005
WRFD-010631
WRFD-01061001
WRFD-01061018
LTE: None
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
Usage of HS-PDSCH Code Resources in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341651
VS.PdschCode
Util.Mean
Average usage
of HS-PDSCH
code resources
in a cell
BTS3900,
BTS3900
WCDMA
U
50341652
VS.PdschCode
Util.Max
Maximum
usage of HSPDSCH code
resources in a
cell
BTS3900,
BTS3900
WCDMA
U
50341653
VS.PdschCode
Util.Min
Minimum usage
of HS-PDSCH
code resources
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters provide the average, maximum, and minimum usage of HS-PDSCH
code resources in a cell during a measurement period respectively. These counters are used to
analyze the allocation appropriateness of the HS-PDSCH code resources. If the code usage is
high, the code resources are insufficient for the current traffic. Therefore, more code resources
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are required. If the code usage is low, the code resources are excessive. Therefore, some of the
code resources can be allocated to R99 services.
Measurement Points
Assume that the number of HS-PDSCH codes used in all TTIs is A and the number of available
HS-PDSCH codes in all TTIs is B. Then, VS.PdschCodeUtil.Mean = A/B. The NodeB calculates
VS.PdschCodeUtil.Mean every 5s and then takes the maximum value within the measurement
period as VS.PdschCodeUtil.Max and the minimum value within the measurement period as
VS.PdschCodeUtil.Min.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.PdschCodeUtil.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061005
WRFD-010631
WRFD-01061001
WRFD-01061018
LTE: None
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
VS.PdschCodeUtil.Max
Multi-mode: None
GSM: None
UMTS: WRFD-01061005
WRFD-010631
WRFD-01061001
WRFD-01061018
LTE: None
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
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Counter Name
Feature ID
VS.PdschCodeUtil.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061005
WRFD-010631
WRFD-01061001
WRFD-01061018
LTE: None
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
Usage of HS-PDSCH Code Resources When at Least One HSDPA User Camps on
the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341656
VS.PdschCode
Util.Mean.User
Average usage
of HS-PDSCH
code resources
when HSDPA
users camp on
the cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average usage of HS-PDSCH code resources when at least
one HSDPA user camps on the cell within a measurement period.
Measurement Points
Assume that the total number of used HS-PDSCH codes in all TTIs when at least one HSDPA
user camps on the cell within the measurement period is A, and the total number of available
HS-PDSCH codes in all TTIs when at least one HSDPA user camps on the cell is B. Then,
VS.PdschCodeUtil.Mean.User = A/B.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
VS.PdschCodeUtil.Mean.Us
er
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061001
WRFD-01061018
WRFD-01061005
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
WRFD-010631
LTE: None
Dynamic Code Allocation
Based on NodeB
Usage of HS-PDSCH Code Resources When at Least One HSDPA User Has Data
to Transmit in the Queue Buffer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341657
VS.PdschCode
Util.Mean.Data
Average usage
of HS-PDSCH
code resources
when at least
one HSDPA
user has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average usage of HS-PDSCH code resources when at least
one HSDPA user has data to transmit in the queue buffer within a measurement period.
Measurement Points
Assume that the total number of used HS-PDSCH codes in all TTIs when at least one HSDPA
user has data to transmit in the queue buffer within the measurement period is A, and the total
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number of available HS-PDSCH codes in all TTIs when at least one HSDPA user has data to
transmit in the queue buffer is B. Then, VS.PdschCodeUtil.Mean.Data = A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.PdschCodeUtil.Mean.Da
ta
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061005
WRFD-010631
WRFD-01061001
WRFD-01061018
LTE: None
HSDPA Static Code
Allocation and RNCControlled Dynamic Code
Allocation
Dynamic Code Allocation
Based on NodeB
15 Codes per Cell
Time and HS-PDSCH Codes
Multiplex
Transmit Power over the HS-SCCH in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341675
VS.ScchPwrRat
io.Mean
Average
transmit power
over the HSSCCH in a cell
BTS3900,
BTS3900
WCDMA
U
50341676
VS.ScchPwrRat
io.Max
Maximum
transmit power
over the HSSCCH in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341677
VS.ScchPwrRat
io.Min
Minimum
transmit power
over the HSSCCH in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum ratios of the transmit
power of all the HS-SCCHs in a cell during a measurement period respectively. Each value is
expressed as the ratio of the respective transmit power to the maximum cell transmit power.
Measurement Points
During the measurement period, the NodeB calculates the total ratio of the transmit power of
all the HS-SCCHs to the maximum cell transmit power in all TTIs in the cell. Assume that this
value is A and the number of TTIs in the measurement period is B. Then,
VS.ScchPwrRatio.Mean = A/B. The NodeB calculates VS.ScchPwrRatio.Mean every 5s and
then takes the maximum value within the measurement period as VS.ScchPwrRatio.Max and
the minimum value within the measurement period as VS.ScchPwrRatio.Min.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.ScchPwrRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
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Counter Name
Feature ID
VS.ScchPwrRatio.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
VS.ScchPwrRatio.Min
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Transmit Power over the HS-SCCH When at Least One HSDPA User Camps on the
Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341681
VS.ScchPwrRat
io.User
Average
transmit power
over the HSSCCH when
HSDPA users
camp on the cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average transmit power over the HS-SCCH when at least
one HSDPA user camps on the cell. The value is expressed as the ratio of the transmit power to
the maximum cell transmit power.
Disuse Statement:
The counter 50341681 VS.ScchPwrRatio.User will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
Measurement Points
During the measurement period, the NodeB calculates the total ratio of the transmit power over
the HS-SCCHs to the maximum cell transmit power in all TTIs when at least one HSDPA user
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camps on the cell. Assume that this value is A and the number of TTIs when at least one HSDPA
user camps on the cell is B. Then, VS.ScchPwrRatio.User = A/B.
Formula
1000*[VS.ScchPwrRatio.Mean]/[VS.UserTtiRatio.Mean]
Unit
per mill
Related Features
Counter Name
Feature ID
VS.ScchPwrRatio.User
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Transmit Power over the HS-SCCH When at Least One HSDPA User Has Data to
Transmit in the Queue Buffer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341683
VS.ScchPwrRat
io.UserData
Average
transmit power
over the HSSCCH when at
least one
HSDPA user
has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average transmit power over the HS-SCCH when at least
one HSDPA user has data to transmit in the queue buffer within a measurement period. The
value is expressed as the ratio of the transmit power to the maximum cell transmit power.
Disuse Statement:
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The counter 50341683 VS.ScchPwrRatio.UserData will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Within the measurement period, the NodeB calculates the total ratio of the transmit power over
the HS-SCCHs in all TTIs when at least one HSDPA user has data to transmit in the queue
buffer. Assume that this value is A and the number of TTIs when at least one HSDPA user has
data to transmit in the queue buffer is B. Then, VS.ScchPwrRatio.UserData = A/B.
Formula
1000*[VS.ScchPwrRatio.Mean]/[VS.DataTtiRatio.Mean]
Unit
per mill
Related Features
Counter Name
Feature ID
VS.ScchPwrRatio.UserData
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Transmit Power over the HS-PDSCH in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341678
VS.PdschPwrR
atio.Mean
Average
transmit power
over the HSPDSCH in a cell
BTS3900,
BTS3900
WCDMA
U
50341679
VS.PdschPwrR
atio.Max
Maximum
transmit power
over the HSPDSCH in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341680
VS.PdschPwrR
atio.Min
Minimum
transmit power
over the HSPDSCH in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum ratios of the transmit
power over all the HS-PDSCHs in a cell during a measurement period respectively. Each value
is expressed as the ratio of the respective transmit power to the maximum cell transmit power.
Measurement Points
During the measurement period, the NodeB calculates the total ratio of the transmit power over
all the HS-PDSCHs to the maximum cell transmit power in all TTIs in the cell. Assume that this
value is A and the number of TTIs in the measurement period is B. Then,
VS.PdschPwrRatio.Mean = A/B. The NodeB calculates VS.PdschPwrRatio.Mean every 5s and
then takes the maximum value within the measurement period as VS.PdschPwrRatio.Max and
the minimum value within the measurement period as VS.PdschPwrRatio.Min.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.PdschPwrRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
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Counter Name
Feature ID
VS.PdschPwrRatio.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
VS.PdschPwrRatio.Min
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Multi-mode: None
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Transmit Power over the HS-PDSCH When at Least One HSDPA User Camps on
the Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341682
VS.PdschPwrR
atio.User
Average
transmit power
over the HSPDSCH when
HSDPA users
camp on the cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average transmit power over the HS-PDSCH when at least
one HSDPA user camps on the cell within a measurement period. The value is expressed as the
ratio of the transmit power to the maximum cell transmit power.
Disuse Statement:
The counter 50341682 VS.PdschPwrRatio.User will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Within the measurement period, the NodeB calculates the total ratio of the transmit power over
the HS-PDSCHs to the maximum cell transmit power in all TTIs when at least one HSDPA user
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camps on the cell. Assume that this value is A and the number of TTIs when at least one HSDPA
user camps on the cell is B. Then, VS.PdschPwrRatio.User = A/B.
Formula
1000*[VS.PdschPwrRatio.Mean]/[VS.UserTtiRatio.Mean]
Unit
per mill
Related Features
Counter Name
Feature ID
VS.PdschPwrRatio.User
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Transmit Power over the HS-PDSCH When at Least One HSDPA User Has Data to
Transmit in the Queue Buffer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341684
VS.PdschPwrR
atio.Data
Average
transmit power
over the HSPDSCH when at
least one
HSDPA user
has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average transmit power over the HS-PDSCH when at least
one HSDPA user has data to transmit in the queue buffer within a measurement period. The
value is expressed as the ratio of the transmit power to the maximum cell transmit power.
Disuse Statement:
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The counter 50341684 VS.PdschPwrRatio.Data will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Within the measurement period, the NodeB calculates the total ratio of the transmit power over
the HS-PDSCHs to the maximum cell transmit power in all TTIs when at least one HSDPA user
has data to transmit in the queue buffer. Assume that this value is A and the number of TTIs
when at least one HSDPA user has data to transmit in the queue buffer is B. Then,
VS.PdschPwrRatio.Data = A/B.
Formula
1000*[VS.PdschPwrRatio.Mean]/[VS.DataTtiRatio.Mean]
Unit
per mill
Related Features
Counter Name
Feature ID
VS.PdschPwrRatio.Data
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061004
WRFD-01061019
LTE: None
HSDPA Power Control
HSDPA Dynamic Power
Allocation
Power Usage of HSDPA Free Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341697
VS.HSDPAPwr
Ratio.Mean.Fre
eUser
Average usage
of free users
Hsdpa Power
BTS3900,
BTS3900
WCDMA
U
50341698
VS.HSDPAPwr
Ratio.Max.Free
User
Maximum
usage of free
users Hsdpa
Power
BTS3900,
BTS3900
WCDMA
U
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Description
The preceding counters indicate the average and maximum power usage of HSDPA free users
within a measurement period. The values are expressed as the ratios of the HSDPA power to the
maximum cell transmit power.
Measurement Points
Within the measurement period, the NodeB calculates the total ratio of the power for all HSDPA
free users to the maximum cell transmit power in all TTIs. Assume that this value is A and the
number of TTIs in the measurement period is B. Then, VS.HSDPAPwrRatio.Mean.FreeUser =
A/B. The NodeB calculates VS.HSDPAPwrRatio.Mean.FreeUser every 5s and then takes the
maximum value within the measurement period as VS.HSDPAPwrRatio.Max.FreeUser.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSDPAPwrRatio.Mean.
FreeUser
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPAPwrRatio.Max.F
reeUser
Feature Name
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
HSDPA Introduction
Package
Available HSDPA Power in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341703
VS.AvaiHSDP
APwrRatio.Mea
n
Mean ratio of
availble
HSDPA Power
Ratio
BTS3900,
BTS3900
WCDMA
U
50341704
VS.AvaiHSDP
APwrRatio.Ma
x
Maximum ratio
of availble
HSDPA Power
Ratio
BTS3900,
BTS3900
WCDMA
U
50341705
VS.AvaiHSDP
APwrRatio.Min
Minimum ratio
of availble
HSDPA Power
Ratio
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum available HSDPA power
within a measurement period. The values are expressed as the ratios of the available HSDPA
power to the maximum cell transmit power.
Measurement Points
Within the measurement period, the NodeB calculates the total ratio of the available HSDPA
power to the maximum cell transmit power in all TTIs. Assume that this value is A and the
number of TTIs in the measurement period is B. Then, VS.AvaiHSDPAPwrRatio.Mean = A/B.
The NodeB calculates VS.AvaiHSDPAPwrRatio.Mean every 5s and then takes the maximum
value within the measurement period as VS.AvaiHSDPAPwrRatio.Max and the minimum value
within the measurement period as VS.AvaiHSDPAPwrRatio.Min.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.AvaiHSDPAPwrRatio.
Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.AvaiHSDPAPwrRatio.
Max
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.AvaiHSDPAPwrRatio.
Min
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Average HSDPA Power Ratio for Each Operator in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341706
VS.HSDPAPwr
Ratio.PLMN0
Mean Ratio of
PLMN0 used
HSDPA Power
BTS3900,
BTS3900
WCDMA
U
50341707
VS.HSDPAPwr
Ratio.PLMN1
Mean Ratio of
PLMN1 used
HSDPA Power
BTS3900,
BTS3900
WCDMA
U
50341708
VS.HSDPAPwr
Ratio.PLMN2
Mean Ratio of
PLMN2 used
HSDPA Power
BTS3900,
BTS3900
WCDMA
U
50341709
VS.HSDPAPwr
Ratio.PLMN3
Mean Ratio of
PLMN3 used
HSDPA Power
BTS3900,
BTS3900
WCDMA
U
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Description
The preceding counters indicate the average HSDPA power ratios for operators within a
measurement period. The values are expressed as the ratios of the HSDPA power to the
maximum cell transmit power.
Measurement Points
Take VS.HSDPAPwrRatio.PLMN0 as an example. Within the measurement period, the NodeB
calculates the total ratio of the transmit power over the HS-SCCHs and HS-PDSCHs to the
maximum cell transmit power in all TTIs. Assume that this value is A and the number of TTIs
in the measurement period is B. Then, VS.HSDPAPwrRatio.PLMN0 = A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSDPAPwrRatio.PLM
N0
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPAPwrRatio.PLM
N1
GSM: None
LTE: None
GSM: None
LTE: None
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
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Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPAPwrRatio.PLM
N3
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPAPwrRatio.PLM
N2
Feature Name
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Package
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Average HSDPA Power for Each Operator in a Cell in an MOCN Network
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341710
VS.HSDPAPwr
Ratio.SharedOp
erator0
Average
HSDPA power
ratio for
operator 0 in a
cell of an
MOCN network
BTS3900,
BTS3900
WCDMA
U
50341711
VS.HSDPAPwr
Ratio.SharedOp
erator1
Average
HSDPA power
ratio for
operator 1 in a
cell of an
MOCN network
BTS3900,
BTS3900
WCDMA
U
50341712
VS.HSDPAPwr
Ratio.SharedOp
erator2
Average
HSDPA power
ratio for
operator 2 in a
cell of an
MOCN network
BTS3900,
BTS3900
WCDMA
U
50341713
VS.HSDPAPwr
Ratio.SharedOp
erator3
Average
HSDPA power
ratio for
operator 3 in a
cell of an
MOCN network
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average HSDPA power ratios for operators in an MOCN
network during a measurement period. The values are expressed as the ratios of the HSDPA
power to the maximum cell transmit power.
Measurement Points
Take VS.HSDPAPwrRatio.SharedOperator0 as an example. Within the measurement period,
the NodeB calculates the total ratio of the transmit power over the HS-SCCHs and HS-PDSCHs
to the maximum cell transmit power in all TTIs. Assume that this value is A and the number of
TTIs in the measurement period is B. Then, VS.HSDPAPwrRatio.SharedOperator0 = A/B.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSDPAPwrRatio.SharedOperator0
Multi-mode: None
GSM: None
UMTS: WRFD-021311
LTE: None
VS.HSDPAPwrRatio.SharedOperator1
GSM: None
LTE: None
MOCN Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-021311
LTE: None
VS.HSDPAPwrRatio.SharedOperator3
MOCN Introduction
Package
Multi-mode: None
UMTS: WRFD-021311
VS.HSDPAPwrRatio.SharedOperator2
Feature Name
MOCN Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-021311
LTE: None
MOCN Introduction
Package
Average permillage of transmit power for HSDPA users in each resource group to
the maximum cell transmit power
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341714
VS.HSDPAPwr
Ratio.Mean.Res
G0
Average
permillage of
transmit power
for HSDPA
users in resource
group 0 to the
maximum cell
transmit power
BTS3900,
BTS3900
WCDMA
U
50341715
VS.HSDPAPwr
Ratio.Mean.Res
G1
Average
permillage of
transmit power
for HSDPA
users in resource
group 1 to the
maximum cell
transmit power
BTS3900,
BTS3900
WCDMA
U
50341716
VS.HSDPAPwr
Ratio.Mean.Res
G2
Average
permillage of
transmit power
for HSDPA
users in resource
group 2 to the
maximum cell
transmit power
BTS3900,
BTS3900
WCDMA
U
50341717
VS.HSDPAPwr
Ratio.Mean.Res
G3
Average
permillage of
transmit power
for HSDPA
users in resource
group 3 to the
maximum cell
transmit power
BTS3900,
BTS3900
WCDMA
U
Description
These counters measures the average permillage of transmit power for HSDPA users in each
resource group to the maximum cell transmit power.
Measurement Points
The permillage of transmit power for HS-SCCH and HS-PDSCH users in resource group to the
maximum cell transmit power is sampled within each transmission time interval (TTI). At the
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end of the measurement period, the accumulated permillage is A, and the number of TTIs is B.
The formula for calculating this counter is: VS.HSDPAPwrRatio.Mean.ResG=A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSDPAPwrRatio.Mean.
ResG0
Multi-mode: None
GSM: None
UMTS: WRFD-150233
LTE: None
VS.HSDPAPwrRatio.Mean.
ResG1
GSM: None
LTE: None
Differentiated Service Based
on Resource Reservation
Multi-mode: None
GSM: None
UMTS: WRFD-150233
LTE: None
VS.HSDPAPwrRatio.Mean.
ResG3
Differentiated Service Based
on Resource Reservation
Multi-mode: None
UMTS: WRFD-150233
VS.HSDPAPwrRatio.Mean.
ResG2
Feature Name
Differentiated Service Based
on Resource Reservation
Multi-mode: None
GSM: None
UMTS: WRFD-150233
LTE: None
Differentiated Service Based
on Resource Reservation
Number of HSDPA RABs in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341660
VS.RabNum.M
ean
Average
number of
HSDPA RABs
in a cell
BTS3900,
BTS3900
WCDMA
U
50341661
VS.RabNum.M
ax
Maximum
number of
HSDPA RABs
in a cell
BTS3900,
BTS3900
WCDMA
U
50341662
VS.RabNum.M
in
Minimum
number of
HSDPA RABs
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum number of HSDPA radio
access bearers (RABs) in a cell within each TTI during a measurement period.
Disuse Statement:
The counter 50341660 VS.RabNum.Mean will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
The counter 50341661 VS.RabNum.Max will be deleted in later version. In current version, the
value of this counter take effect. This counter is not recommended.
The counter 50341662 VS.RabNum.Min will be deleted in later version. In current version, the
value of this counter take effect. This counter is not recommended.
Measurement Points
The NodeB calculates the total number of RABs for all HSDPA users in all TTIs during a
measurement period. Assume that this number is A and the number of TTIs within the
measurement period is B. Then, VS.RabNum.Mean = A/B. The NodeB calculates
VS.RabNum.Mean every 5s and then takes the maximum value within the measurement period
as VS.RabNum.Max and the minimum value within the measurement period as
VS.RabNum.Min. The RAB for a DC-HSDPA user is regarded as the RAB for an HSDPA user
in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA users, the counter
is measured in the anchor carrier and the supplementary carrier separately.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.RabNum.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.RabNum.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.RabNum.Min
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of HSDPA RABs When at Least One HSDPA User Camps on the Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341666
VS.RabNumAv
e.User
Average
number of
HSDPA RABs
when HSDPA
users camp on
the cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the average number of HSDPA RABs when at least one HSDPA
user camps on the cell in each TTI during a measurement period.
Disuse Statement:
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The counter 50341666 VS.RabNumAve.User will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
Measurement Points
Assume that the total number of HSDPA RABs in all TTIs within the measurement period is A,
and the number of TTIs when at least one HSDPA user camps on the cell is B. Then,
VS.RabNumAve.User = A/B. The RAB for a DC-HSDPA user is regarded as the RAB for an
HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA
users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula
1000*[VS.RabNum.Mean]/[VS.UserTtiRatio.Mean]
Unit
None
Related Features
Counter Name
Feature ID
VS.RabNumAve.User
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of RABs with HSDPA Data to Be Transmitted in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341663
VS.DataRabNu
m.Mean
Average
number of
HSDPA RABs
have data to
transmit in the
queue buffer in a
cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341664
VS.DataRabNu
m.Max
Maximum
number of
HSDPA RABs
have data to
transmit in the
queue buffer in a
cell
BTS3900,
BTS3900
WCDMA
U
50341665
VS.DataRabNu
m.Min
Minimum
number of
HSDPA RABs
have data to
transmit in the
queue buffer in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum number of RABs with
HSDPA data to be transmitted in the queue buffer of a cell within each TTI during a measurement
period.
Disuse Statement:
The counter 50341663 VS.DataRabNum.Mean will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
The counter 50341664 VS.DataRabNum.Max will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
The counter 50341665 VS.DataRabNum.Min will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
Measurement Points
Within the measurement period, the NodeB calculates the total number of RABs with HSDPA
data to be transmitted in the queue buffer in all TTIs. Assume that this value is A and the number
of TTIs within the measurement period is B. Then, VS.DataRabNum.Mean = A/B. The NodeB
calculates VS.DataRabNum.Mean every 5s and then takes the maximum value within the
measurement period as VS.DataRabNum.Max and the minimum value within the measurement
period as VS.DataRabNum.Min. The RAB for a DC-HSDPA user is regarded as the RAB for
an HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA
users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.DataRabNum.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.DataRabNum.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.DataRabNum.Min
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of RABs with HSDPA Data to Be Transmitted in the Queue Buffer When
at Least One HSDPA User Has Data to Transmit in the Queue Buffer in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341667
VS.RabNumAv
e.UserData
Average
number of
HSDPA RABs
have data to
transmit in the
queue buffer
when at least
one HSDPA
user has data to
transmit in the
queue buffer in a
cell
BTS3900,
BTS3900
WCDMA
U
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Description
The preceding counter indicates the average number of RABs with HSDPA data to be transmitted
in the queue buffer when at least one HSDPA user has data to transmit in the queue buffer in a
cell.
Disuse Statement:
The counter 50341667 VS.RabNumAve.UserData will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Within the measurement period, the NodeB calculates the total number of RABs with HSDPA
data to be transmitted in the queue buffer in all TTIs. Assume that this value is A and the number
of TTIs when at least one HSDPA user has data to transmit in the queue buffer is B. Then,
VS.RabNumAve.UserData = A/B. The RAB for a DC-HSDPA user is regarded as the RAB for
an HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA
users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula
1000*[VS.DataRabNum.Mean]/[VS.DataTtiRatio.Mean]
Unit
None
Related Features
Counter Name
Feature ID
VS.RabNumAve.UserData
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
HSDPA Throughput of MAC-d PDUs in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341668
VS.DataOutput.
Mean
Average
throughput of
MAC-d PDUs
in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341669
VS.DataOutput.
Max
Maximum
throughput of
MAC-d PDUs
in a cell
BTS3900,
BTS3900
WCDMA
U
50341670
VS.DataOutput.
Min
Minimum
throughput of
MAC-d PDUs
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
These counters indicate the average, maximum, and minimum throughput of MAC-d PDUs in
a cell.
Measurement Points
Within a measurement period, the traffic volume of MAC-d PDUs with ACKs sent by all users
in a TTI is sampled every five seconds. At the end of the measurement period, the accumulated
traffic volume is A and the total length of the measurement period is B. The average of these
sampling results is defined as the value of VS.DataOutput.Mean (that is, A divided by B), the
maximum of these sampling results is defined as the value of VS.DataOutput.Max, and the
minimum of these sampling results is defined as the value of VS.DataOutput.Min. For a
multicarrier user, the corresponding counter is measured in the anchor and supplementary
carriers separately.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.DataOutput.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
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Counter Name
Feature ID
VS.DataOutput.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
VS.DataOutput.Min
Multi-mode: None
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
HSDPA Cell Throughput of MAC-d PDUs When the Cell Serves HSDPA Users
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341671
VS.DataOutput.
User
Average cell
throughput
when HSDPA
users camp on
the cell
BTS3900,
BTS3900
WCDMA
U
Description
The counter indicates the average throughput of MAC-d PDUs in a cell when the cell serves
HSDPA users.
Measurement Points
Within a measurement period, the traffic volume of MAC-d PDUs with ACKs sent by all users
in a TTI is sampled. At the end of the measurement period, the accumulated traffic volume is A
and the total duration within which the cell serves HSDPA users is B. A divided by B is used as
the value of the VS.DataOutput.User counter. For a multicarrier user, the corresponding counter
is measured in the anchor and supplementary carriers separately.
Formula
1000*[VS.DataOutput.Mean]/[VS.UserTtiRatio.Mean]
Unit
bit/s
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Related Features
Counter Name
Feature ID
VS.DataOutput.User
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
HSDPA Cell Throughput of MAC-d PDUs When at Least One HSDPA User Has
Data to Transmit in the Queue Buffer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341672
VS.DataOutput.
UserData
Average cell
throughput
when at least
one HSDPA
user has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
The counter indicates the average throughput of MAC-d PDUs in a cell when at least one HSDPA
user has data to transmit in the queue buffer.
Measurement Points
Within a measurement period, the traffic volume of MAC-d PDUs with ACKs sent by all users
in a TTI and the duration within which at least one HSDPA user has data to transmit in the queue
buffer . At the end of the measurement period, the accumulated traffic volume is A and the total
duration is B. A divided by B is used as the value of the VS.DataOutput.UserData counter. For
a multicarrier user, the corresponding counter is measured in the anchor and supplementary
carriers separately.
Formula
1000*[VS.DataOutput.Mean]/[VS.DataTtiRatio.Mean]
Unit
bit/s
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Related Features
Counter Name
Feature ID
VS.DataOutput.UserData
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Throughput of MAC-d PDUs for Each RAB in a Cell When the Cell Serves HSDPA
Users
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341673
VS.DataOutput.
Rab
Average
throughput of
each RAB when
HSDPA users
camp on the cell
BTS3900,
BTS3900
WCDMA
U
Description
The counter indicates the average throughput of MAC-d PDUs for each RAB in a cell when the
cell serves HSDPA users.
Disuse Statement:
The counter 50341673 VS.DataOutput.Rab will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
Measurement Points
Within a measurement period, the average throughput of MAC-d PDUs in a cell when the cell
serves HSDPA users is A, and the average number of HSDPA RABs when the cell serves
HSDPA users is B. A divided by B is used as the value of the VS.DataOutput.Rab counter. For
a multicarrier user, the corresponding counter is measured in the anchor and supplementary
carriers separately.
Formula
[VS.DataOutput.User]/[VS.RabNumAve.User]
Unit
bit/s
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Related Features
Counter Name
Feature ID
VS.DataOutput.Rab
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Throughput of MAC-d PDUs for Each RAB in a Cell When at Least One HSDPA
User Has Data to Transmit in the Queue Buffer
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341674
VS.DataOutput.
RabData
Average
throughput of
each RAB when
at least one
HSDPA user
has data to
transmit in the
queue buffer
BTS3900,
BTS3900
WCDMA
U
Description
The counter indicates the average throughput of MAC-d PDUs for each RAB in a cell when at
least one HSDPA user has data to transmit in the queue buffer.
Disuse Statement:
The counter 50341674 VS.DataOutput.RabData will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Within a measurement period, the average throughput of MAC-d PDUs in a cell when at least
one HSDPA user has data to transmit in the queue buffer is A, and the average number of HSDPA
RABs when at least one HSDPA user has data to transmit in the queue buffer is B. A divided
by B is used as the value of the VS.DataOutput.RabData counter. For a multicarrier user, the
corresponding counter is measured in the anchor and supplementary carriers separately.
Formula
[VS.DataOutput.UserData]/[VS.RabNumAve.UserData]
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Unit
bit/s
Related Features
Counter Name
Feature ID
VS.DataOutput.RabData
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Throughput of MAC-d PDUs of HSDPA Free Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341699
VS.DataOutput.
Mean.FreeUser
Average
throughput of
MAC-d PDUs
of HSDPA free
users
BTS3900,
BTS3900
WCDMA
U
50341700
VS.DataOutput.
Max.FreeUser
Maximum
throughput of
MAC-d PDUs
of HSDPA free
users
BTS3900,
BTS3900
WCDMA
U
50341701
VS.DataOutput.
Min.FreeUser
Minimum
throughput of
MAC-d PDUs
of HSDPA free
users
BTS3900,
BTS3900
WCDMA
U
Description
These counters indicate the average, maximum, and minimum throughput of MAC-d PDUs of
HSDPA free users in a cell.
Measurement Points
Within a measurement period, the traffic volume of MAC-d PDUs with ACKs sent by all HSDPA
free users in a cell is sampled every five seconds. At the end of the measurement period, the
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accumulated traffic volume is A and the total length of the measurement period is B. The average
of these sampling results is defined as the value of VS.DataOutput.Mean.FreeUser (that is, A
divided by B), the maximum of these sampling results is defined as the value of
VS.DataOutput.Max.FreeUser, and the minimum of these sampling results is defined as the
value of VS.DataOutput.Min.FreeUser. For a multicarrier user, the corresponding counter is
measured in the anchor and supplementary carriers separately.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.DataOutput.Mean.FreeUser
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.DataOutput.Max.FreeUser
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.DataOutput.Min.FreeUser
Feature Name
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
HSDPA Introduction
Package
HS-DSCH TRB Traffic Volume of HSDPA Users in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331838
VS.HSDPA.Dat
aOutput.TRB
HSDSCH TRB
traffic volume in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
During a measurement period, the preceding counter indicates the total HS-DSCH TRB traffic
volume for which the ACK messages are sent by HSDPA users to the NodeB within a TTI in a
cell, including MAC-hs/MAC-ehs headers.
Measurement Points
The NodeB takes statistics on the preceding counter when demodulating the HARQ-ACK
information of the HSDPA UE carried on the HS-DPCCH. For multi-carrier users, this counter
is measured in the anchor carrier and the supplementary carrier separately.
Formula
None
Unit
bit
Related Features
Counter Name
Feature ID
VS.HSDPA.DataOutput.TR
B
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Traffic volume of the MAC-hs/MAC-ehs PDUs successfully received in a cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331746
VS.HSDPA.Dat
aOutput.Traffic
Traffic volume
of the MAC-hs/
MAC-ehs PDUs
successfully
received in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the total traffic volume of the MAC-hs/MAC-ehs PDUs with ACKs
received from all HSDPA users in a cell.
Measurement Points
The traffic volume of MAC-hs/MAC-ehs PDUs with ACKs received from all HSDPA users is
accumulated within a measurement period. This counter is measured in the serving cell. For DCHSDPA, DB-HSDPA, 4C-HSDPA, or 3C-HSDPA users, this counter is measured in the anchor
carrier and supplementary carrier separately.
Formula
None
Unit
bit
Related Features
Counter Name
Feature ID
VS.HSDPA.DataOutput.Tra
ffic
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
MAC-ehs traffic volume of MC-HSDPA/MC-HSDPA+MIMO users
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332170
VS.DataOutput.
DCHSDPA.Tra
ffic
MAC-ehs
traffic volume
of DC-HSDPA/
DC-HSDPA
+MIMO users
BTS3900,
BTS3900
WCDMA
U
50332168
VS.DataOutput.
DBHSDPA.Tra
ffic
MAC-ehs
traffic volume
of DB-HSDPA/
DB-HSDPA
+MIMO users
BTS3900,
BTS3900
WCDMA
U
50332216
VS.DataOutput.
3CHSDPA.Traf
fic
MAC-ehs
traffic volume
of 3C-HSDPA/
3C-HSDPA
+MIMO users
BTS3900,
BTS3900
WCDMA
U
50332169
VS.DataOutput.
4CHSDPA.Traf
fic
MAC-ehs
traffic volume
of 4C-HSDPA/
4C-HSDPA
+MIMO users
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.DataOutput.DCHSDPA.Traffic
This counter measures the MAC-ehs traffic
volume of DC-HSDPA/DC-HSDPA+MIMO
users.
VS.DataOutput.DBHSDPA.Traffic
This counter measures the MAC-ehs traffic
volume of DB-HSDPA/DB-HSDPA+MIMO
users.
VS.DataOutput.3CHSDPA.Traffic
This counter measures the MAC-ehs traffic
volume of 3C-HSDPA/3C-HSDPA+MIMO
users.
VS.DataOutput.4CHSDPA.Traffic
This counter measures the MAC-ehs traffic
volume of 4C-HSDPA/4C-HSDPA+MIMO
users.
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Measurement Points
The traffic volume of MAC-ehs PDUs received from DC-HSDPA/DC-HSDPA+MIMO users
with ACKs is sampled in the anchor carrier and supplementary carrier separately within each
TTI. At the end of a measurement period, the accumulated value is used as the value of the
counter VS.DataOutput.DCHSDPA.Traffic.
The traffic volume of MAC-ehs PDUs received from DB-HSDPA/DB-HSDPA+MIMO users
with ACKs is sampled in the anchor carrier and supplementary carrier separately within each
TTI. At the end of a measurement period, the accumulated value is used as the value of the
counter VS.DataOutput.DBHSDPA.Traffic.
The traffic volume of MAC-ehs PDUs received from 3C-HSDPA/3C-HSDPA+MIMO users
with ACKs is sampled in the anchor carrier and supplementary carrier separately within each
TTI. At the end of a measurement period, the accumulated value is used as the value of the
counter VS.DataOutput.3CHSDPA.Traffic.
The traffic volume of MAC-ehs PDUs received from 4C-HSDPA/4C-HSDPA+MIMO users
with ACKs is sampled in the anchor carrier and supplementary carrier separately within each
TTI. At the end of a measurement period, the accumulated value is used as the value of the
counter VS.DataOutput.4CHSDPA.Traffic.
Formula
None
Unit
kbit
Related Features
Counter Name
Feature ID
VS.DataOutput.DCHSDPA.
Traffic
Multi-mode: None
GSM: None
UMTS: WRFD-150208
WRFD-010699
LTE: None
VS.DataOutput.DBHSDPA.
Traffic
Feature Name
Flexible Dual Carrier
HSDPA
DC-HSDPA+MIMO
Multi-mode: None
GSM: None
UMTS: WRFD-150209
DB-HSDPA
LTE: None
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Counter Name
Feature ID
VS.DataOutput.
3CHSDPA.Traffic
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150250
3C-HSDPA
WRFD-150223
MC-HSDPA+MIMO
LTE: None
VS.DataOutput.
4CHSDPA.Traffic
Multi-mode: None
GSM: None
UMTS: WRFD-150207
4C-HSDPA
WRFD-150223
MC-HSDPA+MIMO
LTE: None
Ratio of HSDPA User Data Discarded upon Timeout in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341685
VS.DataDiscard
Ratio.Mean
Average ratio of
discarded
HSDPA data
due to timer
expiry
BTS3900,
BTS3900
WCDMA
U
50341686
VS.DataDiscard
Ratio.Max
Maximum ratio
of discarded
HSDPA data
due to timer
expiry
BTS3900,
BTS3900
WCDMA
U
50341687
VS.DataDiscard
Ratio.Min
Minimum ratio
of discarded
HSDPA data
due to timer
expiry
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average, maximum, and minimum ratios of the volume of
HSDPA user data discarded due to timer expiry to the total volume of HSDPA user data received
at the cell during a measurement period.
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Measurement Points
During the measurement period, the NodeB calculates the volume of the HSDPA user data that
is discarded due to timer expiry in the cell. Assume that this value is A. The NodeB also calculates
the total volume of the HSDPA user data received at the cell during the measurement period.
Assume that this value is B. Then, VS.DataDiscardRatio.Mean = A/B. The NodeB calculates
VS.DataDiscardRatio.Mean every 5s and then takes the maximum value within the measurement
period as VS.DataDiscardRatio.Max and the minimum value within the measurement period as
VS.DataDiscardRatio.Min.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.DataDiscardRatio.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061009
WRFD-010610
LTE: None
VS.DataDiscardRatio.Max
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
WRFD-010610
LTE: None
VS.DataDiscardRatio.Min
HSDPA H-ARQ &
Scheduling (MAX C/I, RR
and PF)
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-01061009
WRFD-010610
LTE: None
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Ratio of the Actual Transmit Power over the SCPICH to the SCPICH Power
Configured on the RNC
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331713
VS.SCPICH.Av
gPowerRate
Ratio of the
actual transmit
power of the
SCPICH to the
power of the
SCPICH
configured by
the RNC
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the ratio of the actual transmit power over the SCPICH to the
SCPICH power configured on the RNC. If HSDPA users and MIMO users exist in the current
cell, the NodeB dynamically adjusts the transmit power over the SCPICH to make the cell
performance optimal.
Measurement Points
The NodeB samples the ratio of the actual transmit power over the SCPICH to the SCPICH
power configured on the RNC every 5s. The value of this counter is the sum of these sampling
results divided by the number of samplings at the end of a measurement period.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.SCPICH.AvgPowerRate
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
Power-enabled Duration of the SCPICH in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331714
VS.SCPICH.P
wrOn.Duration
Power-enabled
duration of the
SCPICH in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the power-enabled duration of the SCPICH in a cell. When an
MIMO user accesses the cell, the SCPICH power is enabled.
Measurement Points
Within a measurement period, the NodeB checks whether the SCPICH power is enabled during
each MAC-hs/MAC-ehs scheduling period. If the SCPICH power is enabled, the counter value
is accumulated.
Formula
None
Unit
ms
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Related Features
Counter Name
Feature ID
VS.SCPICH.PwrOn.Duration
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010684
2*2 MIMO
LTE: None
Time Ratio of Existent Deactivated DC Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341702
VS.HSDPA.DC
Cfg.SupCarrier
Deact.TimeRati
o
The Ratio Of Dc
Deact
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the ratio of the traffic-based deactivation time of the secondarycarrier cell to the activation time of the primary-carrier cell for DC-HSDPA,DC-HSDPA
+MIMO,DB-HSDPA and DB-HSDPA+MIMO users within a measurement period.
Measurement Points
Within the measurement period, the NodeB calculates the total time during which the secondarycarrier cell for the DC-HSDPA,DB-HSDPA,DB-HSDPA+MIMO and DC-HSDPA+MIMO
users is deactivated because of decrease in throughput. Assume that this value is A. The NodeB
calculates the total time during which the DC-HSDPA,DB-HSDPA,DB-HSDPA+MIMO and
DC-HSDPA+MIMO users are active (the active time for a user starting from the establishment
of a PS service and ending at the release of cell connection). Assume that this value is B. Then,
VS.HSDPA.DCCfg.SupCarrierDeact.TimeRatio = A/B.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.HSDPA.DCCfg.SupCarr
ierDeact.TimeRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150209
DB-HSDPA
WRFD-010713
Traffic-Based Activation and
Deactivation of the
Supplementary Carrier In
Multi-carrier
WRFD-010699
LTE: None
DC-HSDPA+MIMO
Maximum DPCH power restriction algorithm validity probability
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341740
VS.HSDPA.Dp
chMaxPwrRestr
.ActRatio
Maximum
DPCH power
restriction
algorithm
validity
probability
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the ratio of the duration of the maximum DPCH transmit power decrease
to the online duration of all HSDPA users after the maximum DPCH power restriction algorithm
is activated.
Note: This algorithm is applicable only to HSDPA users that perform non-voice services and
carry only 3.4 kbit/s signaling radio bearers (SRBs) over the DPCH.
Measurement Points
At the end of a measurement period, for all HSDPA users supported by this algorithm, the
accumulated duration of the maximum DPCH transmit power decrease is A, and the accumulated
user online duration is B. The formula for calculating this counter is:
VS.HSDPA.DpchMaxPwrRestr.ActRatio = A/B.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
Feature Name
VS.HSDPA.DpchMaxPwrR
estr.ActRatio
Multi-mode: None
GSM: None
UMTS: WRFD-150235
LTE: None
DPCH Maximum Power
Restriction
1.1.2 Cell Traffic Measurement (TRAFFIC.LOCELL)
Overview
The function subset measures the consumption of baseband resources on the NodeB side
according to the usage of CEs in each cell.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332548
VS.ULCE.Mean.De
dicated
Average Dedicated
Uplink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332549
VS.DLCE.Mean.De
dicated
Average Dedicated
Downlink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332550
VS.ULCE.Mean.Sh
ared
Average Shared
Uplink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332554
VS.DLCE.Mean.Sh
ared
Average Shared
Downlink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50342548
VS.ULCE.Max.De
dicated
Maximum Dedicated
Uplink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342549
VS.DLCE.Max.De
dicated
Maximum Dedicated
Downlink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342550
VS.ULCE.Max.Sha
red
Maximum Shared
Uplink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342554
VS.DLCE.Max.Sha
red
Maximum Shared
Downlink CE
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342612
VS.ULCoMP.ULC
E.Mean.Shared
Average Number of
UL CEs in a Shared
Group Consumed by
UL Coordinating
Links in a Cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342613
VS.ULCoMP.ULC
E.Max.Shared
Maximum Number
of UL CEs in a
Shared Group
Consumed by UL
Coordinating Links
in a Cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342615
VS.ULCoMP.ULC
E.Mean.Dedicated
Average Number of
UL CEs in a
Dedicated Group
Consumed by UL
Coordinating Links
in a Cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342616
VS.ULCoMP.ULC
E.Max.Dedicated
Maximum Number
of UL CEs in a
Dedicated Group
Consumed by UL
Coordinating Links
in a Cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
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Counter Relationship
None
Number of Dedicated Uplink CEs Consumed in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332548
VS.ULCE.Mea
n.Dedicated
Average
Dedicated
Uplink CE
BTS3900,
BTS3900
WCDMA
U
50342548
VS.ULCE.Max.
Dedicated
Maximum
Dedicated
Uplink CE
BTS3900,
BTS3900
WCDMA
U
Description
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
The following table describes the meanings of each counter:
Counter Name
Description
VS.ULCE.Mean.Dedicated
This counter measures the average number of
dedicated uplink CEs consumed in a cell
within a measurement period. This counter is
only used for operators with RAN sharing.
VS.ULCE.Max.Dedicated
This counter measures the maximum number
of dedicated uplink CEs consumed in a cell
within a measurement period. This counter is
only used for operators with RAN sharing.
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Measurement Points
The number of dedicated uplink CEs is sampled every five seconds. At the end of a measurement
period, the number of dedicated uplink CEs is obtained by dividing the accumulated value in
the period by the number of samples. The maximum of these sampling results is defined as the
maximum number of dedicated uplink CEs consumed in a cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ULCE.Mean.Dedicated
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021304
RAN Sharing Introduction
Package
LTE: None
VS.ULCE.Max.Dedicated
Multi-mode: None
GSM: None
UMTS: WRFD-021304
RAN Sharing Introduction
Package
LTE: None
Number of Dedicated Downlink CEs Consumed in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332549
VS.DLCE.Mea
n.Dedicated
Average
Dedicated
Downlink CE
BTS3900,
BTS3900
WCDMA
U
50342549
VS.DLCE.Max.
Dedicated
Maximum
Dedicated
Downlink CE
BTS3900,
BTS3900
WCDMA
U
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Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.DLCE.Mean.Dedicated
This counter measures the average number of
dedicated downlink CEs consumed in a cell
within a measurement period. This counter is
only used for operators with RAN sharing.
VS.DLCE.Max.Dedicated
This counter measures the maximum number
of dedicated downlink CEs consumed in a
cell within a measurement period. This
counter is only used for operators with RAN
sharing.
Measurement Points
The number of dedicated downlink CEs is sampled every five seconds. At the end of a
measurement period, the number of dedicated downlink CEs is obtained by dividing the
accumulated value in the period by the number of samples. The maximum of these sampling
results is defined as the maximum number of dedicated downlink CEs consumed in a cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.DLCE.Mean.Dedicated
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021304
LTE: None
VS.DLCE.Max.Dedicated
RAN Sharing Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-021304
LTE: None
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Number of Shared Uplink CEs Consumed in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332550
VS.ULCE.Mea
n.Shared
Average Shared
Uplink CE
BTS3900,
BTS3900
WCDMA
U
50342550
VS.ULCE.Max.
Shared
Maximum
Shared Uplink
CE
BTS3900,
BTS3900
WCDMA
U
Description
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
The following table describes the meanings of each counter:
Counter Name
Description
VS.ULCE.Mean.Shared
This counter measures the average number of
shared uplink CEs consumed in a cell within
a measurement period.
VS.ULCE.Max.Shared
This counter measures the maximum number
of shared uplink CEs consumed in a cell
within a measurement period.
Measurement Points
The number of shared uplink CEs is sampled every five seconds. At the end of a measurement
period, the number of shared uplink CEs is obtained by dividing the accumulated value in the
period by the number of samples. The maximum of these sampling results is defined as the
maximum number of shared uplink CEs consumed in a cell.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.ULCE.Mean.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-021304
RAN Sharing Introduction
Package
LTE: None
VS.ULCE.Max.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-021304
RAN Sharing Introduction
Package
LTE: None
Number of Downlink Shared CEs Consumed in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332554
VS.DLCE.Mea
n.Shared
Average Shared
Downlink CE
BTS3900,
BTS3900
WCDMA
U
50342554
VS.DLCE.Max.
Shared
Maximum
Shared
Downlink CE
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.DLCE.Mean.Shared
This counter measures the average number of
shared downlink CEs consumed in a cell
within a measurement period.
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Counter Name
Description
VS.DLCE.Max.Shared
This counter measures the maximum number
of shared downlink CEs consumed in a cell
within a measurement period.
Measurement Points
The number of shared downlink CEs is sampled every five seconds. At the end of a measurement
period, the number of shared downlink CEs is obtained by dividing the accumulated value in
the period by the number of samples. The maximum of these sampling results is defined as the
maximum number of shared downlink CEs consumed in a cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.DLCE.Mean.Shared
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021304
LTE: None
VS.DLCE.Max.Shared
RAN Sharing Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-021304
LTE: None
RAN Sharing Introduction
Package
Number of UL CEs in a Shared Group Consumed by UL Coordinating Links in a
Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342612
VS.ULCoMP.U
LCE.Mean.Shar
ed
Average
Number of UL
CEs in a Shared
Group
Consumed by
UL
Coordinating
Links in a Cell
BTS3900,
BTS3900
WCDMA
U
50342613
VS.ULCoMP.U
LCE.Max.Share
d
Maximum
Number of UL
CEs in a Shared
Group
Consumed by
UL
Coordinating
Links in a Cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of UL CEs in a shared group consumed
by UL coordinating links in a cell. The measurement results show how the CEs are additionally
consumed after the UL CoMP feature has been enabled. The consumption can be assessed using
the ratio of UL CEs in a shared group consumed by UL coordinating links in a cell to those of
other links.
Remarks:
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
The number of UL CEs in a shared group consumed by UL coordinating links in a cell is sampled
every 5 seconds. At the end of a measurement period, the average number of UL CEs in a shared
group consumed by UL coordinating links in a cell is obtained by dividing the accumulated
value within the measurement period by the number of samples. The maximum value within the
measurement period is the maximum number of UL CEs in a shared group consumed by UL
coordinating links in a cell.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.ULCoMP.ULCE.Mean.
Shared
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.ULCoMP.ULCE.Max.S
hared
Feature Name
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Number of UL CEs in a Dedicated Group Consumed by UL Coordinating Links in
a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342615
VS.ULCoMP.U
LCE.Mean.Ded
icated
Average
Number of UL
CEs in a
Dedicated
Group
Consumed by
UL
Coordinating
Links in a Cell
BTS3900,
BTS3900
WCDMA
U
50342616
VS.ULCoMP.U
LCE.Max.Dedi
cated
Maximum
Number of UL
CEs in a
Dedicated
Group
Consumed by
UL
Coordinating
Links in a Cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of UL CEs in a dedicated group
consumed by UL coordinating links in a cell. The measurement results show how the CEs are
additionally consumed after the UL CoMP feature has been enabled. The consumption can be
assessed using the ratio of UL CEs in a dedicated group consumed by UL coordinating links in
a cell to those of other links.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
The number of dedicated UL CEs in a dedicated group consumed by UL coordinating links is
sampled every 5 seconds. At the end of a measurement period, the average number of UL CEs
in a dedicated group consumed by UL coordinating links is obtained by dividing the accumulated
value within the measurement period by the number of samples. The maximum value within the
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measurement period is the maximum number of UL CEs in a dedicated group consumed by UL
coordinating links.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ULCoMP.ULCE.Mean.
Dedicated
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.ULCoMP.ULCE.Max.D
edicated
Feature Name
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
1.1.3 HSUPA Measurement (HSUPA.LOCELL)
Overview
The function subset consists of HSUPA-related counters to indicate the HSUPA cell status and
performance. Unless otherwise stated, HSUPA users are those in the CELL_DCH state.
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50331850
VS.HSUPA.LoadOutput.0
Number of Cell Ul
Load Between 0db to
0.5db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331851
VS.HSUPA.LoadOutput.1
Number of Cell Ul
Load Between 0.5db
to 1db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331852
VS.HSUPA.LoadOutput.2
Number of Cell Ul
Load Between 1.0db
to 1.5db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331853
VS.HSUPA.LoadOutput.3
Number of Cell Ul
Load Between 1.5db
to 2db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331854
VS.HSUPA.LoadOutput.4
Number of Cell Ul
Load Between 2.0db
to 2.5db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331855
VS.HSUPA.LoadOutput.5
Number of Cell Ul
Load Between 2.5db
to 3.0db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331856
VS.HSUPA.LoadOutput.6
Number of Cell Ul
Load Between 3.0db
to 3.5db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331857
VS.HSUPA.LoadOutput.7
Number of Cell Ul
Load Between 3.5db
to 4db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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157
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331858
VS.HSUPA.LoadOutput.8
Number of Cell Ul
Load Between 4db to
5db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331859
VS.HSUPA.LoadOutput.9
Number of Cell Ul
Load Between 5db to
6db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331860
VS.HSUPA.LoadOutput.10
Number of Cell Ul
Load Between 6db to
7db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331861
VS.HSUPA.LoadOutput.11
Number of Cell Ul
Load Between 7db to
8db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331862
VS.HSUPA.LoadOutput.12
Number of Cell Ul
Load Between 8db to
9db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331863
VS.HSUPA.LoadOutput.13
Number of Cell Ul
Load Between 9db to
10db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331864
VS.HSUPA.LoadOutput.14
Number of Cell Ul
Load Between 10db
to 11db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331865
VS.HSUPA.LoadOutput.15
Number of Cell Ul
Load Between 11db
to 12db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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158
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331866
VS.HSUPA.LoadOutput.16
Number of Cell Ul
Load Between 12db
to 13db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331867
VS.HSUPA.LoadOutput.17
Number of Cell Ul
Load Between 13db
to 14db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331868
VS.HSUPA.LoadOutput.18
Number of Cell Ul
Load Between 14db
to 15db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331869
VS.HSUPA.LoadOutput.19
Number of Cell Ul
Load Between 15db
to 16db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331870
VS.HSUPA.LoadOutput.20
Number of Cell Ul
Load Between 16db
to 18db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331871
VS.HSUPA.LoadOutput.21
Number of Cell Ul
Load Between 18db
to 20db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331872
VS.HSUPA.LoadOutput.22
Number of Cell Ul
Load Between 20db
to 22db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331873
VS.HSUPA.LoadOutput.23
Number of Cell Ul
Load Between 22db
to 26db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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159
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331874
VS.HSUPA.LoadOutput.24
Number of Cell Ul
Load Between 26db
to 30db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331875
VS.HSUPA.LoadOutput.25
Number of Cell Ul
Load above 30db
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331876
VS.HSUPA.OverLoadNum
Number of times the
uplink is overloaded
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341864
VS.HSUPA.AGCH
CodeCollision.Mea
n
Average ratio of EAGCH code
collisions in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331904
VS.HSUPA.AGCH
CodeCollision.Max
Maximum ratio of EAGCH code
collisions in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341865
VS.HSUPA.AGCH
CodeUtil.Mean
average number of
AGCH usage ratio
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50331903
VS.HSUPA.AGCH
CodeUtil.Max
Max value of AGCH
usage ratio
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341850
VS.HSUPA.DataUs
erNum.Mean
Average number of
HSUPA users that
transmit data in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341851
VS.HSUPA.DataUs
erNum.Max
Maximum number of
HSUPA users that
transmit data in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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160
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341852
VS.HSUPA.Schedu
leUserNum.Mean
Average number of
scheduled HSUPA
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341853
VS.HSUPA.Schedu
leUserNum.Max
Maximum number of
scheduled HSUPA
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341854
VS.HSUPA.MaxP
wrLmtUserRatio
Ratio of the number
of HSUPA users with
limited UPH to the
total number of
HSUPA users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341855
VS.HSUPA.LeftPwrLmtUserRatio
Ratio of the number
of HSUPA users with
limited uplink load to
the total number of
HSUPA users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331877
VS.HSUPA.UnHap
pyUserNum
Number of Unhappy
HSUPA users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341849
VS.HSUPA.UnHap
pyUserNumRatio
Ratio of the number
of Unhappy HSUPA
users to the total
number of HSUPA
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341892
VS.HSUPA.LowRa
teTTI2msUserNum
ber
Average number of 2
ms TTI HSUPA
users at a rate lower
than or equal to 23.25
kbit/s in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341870
VS.HSUPA.TTI2m
sUserNumber.0
Average number of 2
ms TTI HSUPA
users at a rate of
below 150 kbit/s in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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161
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341871
VS.HSUPA.TTI2m
sUserNumber.1
Average number of 2
ms TTI HSUPA
users at a rate in the
range of [150 kbit/s,
700 kbit/s) in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341872
VS.HSUPA.TTI2m
sUserNumber.2
Average number of 2
ms TTI HSUPA
users at a rate in the
range of [700 kbit/s,
1500 kbit/s) in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341873
VS.HSUPA.TTI2m
sUserNumber.3
Average number of 2
ms TTI HSUPA
users at a rate in the
range of [1500 kbit/s,
3000 kbit/s) in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341874
VS.HSUPA.TTI2m
sUserNumber.4
Average number of 2
ms TTI HSUPA
users at a rate in the
range of [3000 kbit/s,
4000 kbit/s) in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341875
VS.HSUPA.TTI2m
sUserNumber.5
Average number of 2
ms TTI HSUPA
users at a rate in the
range of [4000 kbit/s,
12000 kbit/s) in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341884
VS.HSUPA.TTI10
msUserNumber.0
Average number of
10 ms TTI HSUPA
users at a rate of
interval 0 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341885
VS.HSUPA.TTI10
msUserNumber.1
Average number of
10 ms TTI HSUPA
users at a rate of
interval 1 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341886
VS.HSUPA.TTI10
msUserNumber.2
Average number of
10 ms TTI HSUPA
users at a rate of
interval 2 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341887
VS.HSUPA.TTI10
msUserNumber.3
Average number of
10 ms TTI HSUPA
users at a rate of
interval 3 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
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162
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341888
VS.HSUPA.TTI10
msUserNumber.4
Average number of
10 ms TTI HSUPA
users at a rate of
interval 4 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341889
VS.HSUPA.TTI10
msUserNumber.5
Average number of
10 ms TTI HSUPA
users at a rate of
interval 5 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341890
VS.HSUPA.TTI10
msUserNumber.6
Average number of
10 ms TTI HSUPA
users at a rate of
interval 6 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341891
VS.HSUPA.TTI10
msUserNumber.7
Average number of
10 ms TTI HSUPA
users at a rate of
interval 7 in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341868
VS.HSUPA.TDMU
serNum.Mean
Average number of
valid time-division
scheduling users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331878
VS.HSUPA.UserTtiNum
Number of TTIs in
which at least one
HSUPA user exists
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331879
VS.HSUPA.DataTtiNum
Number of TTIs in
which HSUPA users
transmit data in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331908
VS.HSUPA.DataTt
iNum.TRB
Number of TTIs in
which HSUPA users
transmit TRB data in
a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331961
VS.HSUPA.DataUs
erSumNum.ROTM
or3
Number of HSUPA
users with data
transmission under
the 3 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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163
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331962
VS.HSUPA.DataUs
erSumNum.ROTM
or6
Number of HSUPA
users with data
transmission under
the 6 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331963
VS.HSUPA.DataUs
erSumNum.ROTM
or7
Number of HSUPA
users with data
transmission under
the 7 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331964
VS.HSUPA.DataUs
erSumNum.ROTM
or9
Number of HSUPA
users with data
transmission under
the 9 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331965
VS.HSUPA.DataUs
erSumNum.ROTM
or10
Number of HSUPA
users with data
transmission under
the 10 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331966
VS.HSUPA.DataUs
erSumNum.ROTM
or13
Number of HSUPA
users with data
transmission under
the 13 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331967
VS.HSUPA.DataUs
erSumNum.ROTM
or20
Number of HSUPA
users with data
transmission under
the 20 dB or above
uplink Uu load in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331925
VS.HSUPA.DataTt
iNum.ROTMor3
Number of TTIs in
which HSUPA users
have data to transmit
under the 3 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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164
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331926
VS.HSUPA.DataTt
iNum.ROTMor6
Number of TTIs in
which HSUPA users
have data to transmit
under the 6 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331927
VS.HSUPA.DataTt
iNum.ROTMor7
Number of TTIs in
which HSUPA users
have data to transmit
under the 7 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331928
VS.HSUPA.DataTt
iNum.ROTMor9
Number of TTIs in
which HSUPA users
have data to transmit
under the 9 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331929
VS.HSUPA.DataTt
iNum.ROTMor10
Number of TTIs in
which HSUPA users
have data to transmit
under the 10 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331930
VS.HSUPA.DataTt
iNum.ROTMor13
Number of TTIs in
which HSUPA users
have data to transmit
under the 13 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331931
VS.HSUPA.DataTt
iNum.ROTMor20
Number of TTIs in
which HSUPA users
have data to transmit
under the 20 dB or
above uplink Uu load
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331885
VS.HSUPA.ACKT
otal
Number of
transmitted ACKs
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
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165
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50331886
VS.HSUPA.NACK
Total
Number of
transmitted NACKs
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331887
VS.HSUPA.DTXT
otal
Number of
transmitted DTXs
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331888
VS.HSUPA.PDUN
um
Number of
successfully received
MAC-e/MAC-i
PDUs from the UE in
a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331889
VS.HSUPA.RetransPDUNum
Number of MAC-e/
MAC-i PDUs to be
retransmitted by the
UE in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332551
VS.HSUPA.Thrup
ut
Total traffic volume
of HSUPA users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50341876
VS.HSUPA.Thrup
ut.ROTMor3
Cell throughput of
HSUPA users under
the 3 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341877
VS.HSUPA.Thrup
ut.ROTMor6
Cell throughput of
HSUPA users under
the 6 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341878
VS.HSUPA.Thrup
ut.ROTMor7
Cell throughput of
HSUPA users under
the 7 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341879
VS.HSUPA.Thrup
ut.ROTMor9
Cell throughput of
HSUPA users under
the 9 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341880
VS.HSUPA.Thrup
ut.ROTMor10
Cell throughput of
HSUPA users under
the 10 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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166
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341881
VS.HSUPA.Thrup
ut.ROTMor13
Cell throughput of
HSUPA users under
the 13 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341882
VS.HSUPA.Thrup
ut.ROTMor20
Cell throughput of
HSUPA users under
the 20 dB or above
uplink Uu load
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341883
VS.HSUPA.Thrup
ut.ROTAll
Cell throughput of
HSUPA users under
all uplink Uu loads
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342552
VS.HSUPA.MeanB
itRate
Average throughput
of HSUPA users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342553
VS.HSUPA.MeanB
itRate.WithData
Average throughput
of HSUPA users in a
cell when data is
transmitted
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50331892
VS.HSUPA.Ic.Mea
nEff
Average Efficiency
of Interference
Cancellation (IC) in a
Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341858
VS.HSUPA.Ic.Max
Eff
Maximum
Efficiency of
Interference
Cancellation (IC) in a
Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50331907
VS.CellFirstStageI
cEff.Mean
Average Efficiency
of Stage 1
Interference
Cancellation (IC) in a
Cell
BTS3900 WCDMA:
V200R014C00
50341867
VS.CellFirstStageI
cEff.Max
Maximum
Efficiency of Stage 1
Interference
Cancellation (IC) in a
Cell
BTS3900 WCDMA:
V200R014C00
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Counter ID
Counter Name
Counter
Description
Original Release
50341893
VS.HSUPA.SGLmt
.UnHappyUserRati
o.Iub
Ratio of Unhappy
users with SG limit
due to Iub resource
insufficiency in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341894
VS.HSUPA.SGLmt
.UnHappyUserRati
o.RTWP
Ratio of Unhappy
users with SG limit
due to air interface
load insufficiency in
a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341895
VS.HSUPA.SGLmt
.UnHappyUserRati
o.CE
Ratio of Unhappy
users with SG limit
due to CE
insufficiency in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341856
VS.HSUPA.FDE.U
tilizeTimePermillage
Proportion of the
time when HSUPA
users use the FDE
mode in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341857
VS.HSUPA.
16QAM.UtilizeTimePermillage
Proportion of the
time when HSUPA
users uses the
16QAM mode in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341859
VS.HSUPA.Boostin
g.UtilizeTimeRatio
Ratio of the utilize
time of boosting in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50341866
VS.HSUPA.AntiInt
erfSch.ActRatio
The antiintereference
scheduling algrithm
active ratio
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50341869
VS.HSUPA.TDMS
ch.ActRatio
Time-division
scheduling algorithm
validity probability
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50331957
VS.HSUPA.AlltoSi
ngleHARQNum.R
TWPCong
Number of
transitions from
using all HARQ
processes to using a
single HARQ
process due to
limited RTWP in the
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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Counter ID
Counter Name
Counter
Description
Original Release
50331958
VS.HSUPA.AlltoSi
ngleHARQNum.C
ECong
Number of
transitions from
using all HARQ
processes to using a
single HARQ
process due to
limited CEs in the
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331959
VS.HSUPA.SingletoAllHARQNum
Number of
Transitions from
Using A Single
HARQ Process to
Using All HARQ
Processes In the Cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332378
VS.HSUPA.Traffic.
TRB
HSUPA Mac-d TRB
data volume in the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332379
VS.HSUPA.
2msPDU.TTI.Num
Number of TTIs in
which HSUPA 2 ms
Mac-e/Mac-i TRBs
are received in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332380
VS.HSUPA.
10msPDU.TTI.Nu
m
Number of TTIs in
which HSUPA 10 ms
Mac-e/Mac-i TRBs
are received in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332385
VS.HSUPA.TurboI
C.Number
Average number of
users with Turbo IC
enabled in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332386
VS.HSUPA.
2msTTI.Traffic
Traffic of Mac-e/
Mac-i PDUs
received from 2 ms
TTI HSUPA users in
a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332387
VS.HSUPA.
10msTTI.Traffic
Traffic of Mac-e/
Mac-i PDUs
received from 10 ms
TTI HSUPA users in
a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter Relationship
Root Counter
Level-1 Counter
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor3
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor6
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor7
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor9
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor10
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor13
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor20
Cell Load on the Air Interface
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331850
VS.HSUPA.Lo
adOutput.0
Number of Cell
Ul Load
Between 0db to
0.5db
BTS3900,
BTS3900
WCDMA
U
50331851
VS.HSUPA.Lo
adOutput.1
Number of Cell
Ul Load
Between 0.5db
to 1db
BTS3900,
BTS3900
WCDMA
U
50331852
VS.HSUPA.Lo
adOutput.2
Number of Cell
Ul Load
Between 1.0db
to 1.5db
BTS3900,
BTS3900
WCDMA
U
50331853
VS.HSUPA.Lo
adOutput.3
Number of Cell
Ul Load
Between 1.5db
to 2db
BTS3900,
BTS3900
WCDMA
U
50331854
VS.HSUPA.Lo
adOutput.4
Number of Cell
Ul Load
Between 2.0db
to 2.5db
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331855
VS.HSUPA.Lo
adOutput.5
Number of Cell
Ul Load
Between 2.5db
to 3.0db
BTS3900,
BTS3900
WCDMA
U
50331856
VS.HSUPA.Lo
adOutput.6
Number of Cell
Ul Load
Between 3.0db
to 3.5db
BTS3900,
BTS3900
WCDMA
U
50331857
VS.HSUPA.Lo
adOutput.7
Number of Cell
Ul Load
Between 3.5db
to 4db
BTS3900,
BTS3900
WCDMA
U
50331858
VS.HSUPA.Lo
adOutput.8
Number of Cell
Ul Load
Between 4db to
5db
BTS3900,
BTS3900
WCDMA
U
50331859
VS.HSUPA.Lo
adOutput.9
Number of Cell
Ul Load
Between 5db to
6db
BTS3900,
BTS3900
WCDMA
U
50331860
VS.HSUPA.Lo
adOutput.10
Number of Cell
Ul Load
Between 6db to
7db
BTS3900,
BTS3900
WCDMA
U
50331861
VS.HSUPA.Lo
adOutput.11
Number of Cell
Ul Load
Between 7db to
8db
BTS3900,
BTS3900
WCDMA
U
50331862
VS.HSUPA.Lo
adOutput.12
Number of Cell
Ul Load
Between 8db to
9db
BTS3900,
BTS3900
WCDMA
U
50331863
VS.HSUPA.Lo
adOutput.13
Number of Cell
Ul Load
Between 9db to
10db
BTS3900,
BTS3900
WCDMA
U
50331864
VS.HSUPA.Lo
adOutput.14
Number of Cell
Ul Load
Between 10db
to 11db
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331865
VS.HSUPA.Lo
adOutput.15
Number of Cell
Ul Load
Between 11db
to 12db
BTS3900,
BTS3900
WCDMA
U
50331866
VS.HSUPA.Lo
adOutput.16
Number of Cell
Ul Load
Between 12db
to 13db
BTS3900,
BTS3900
WCDMA
U
50331867
VS.HSUPA.Lo
adOutput.17
Number of Cell
Ul Load
Between 13db
to 14db
BTS3900,
BTS3900
WCDMA
U
50331868
VS.HSUPA.Lo
adOutput.18
Number of Cell
Ul Load
Between 14db
to 15db
BTS3900,
BTS3900
WCDMA
U
50331869
VS.HSUPA.Lo
adOutput.19
Number of Cell
Ul Load
Between 15db
to 16db
BTS3900,
BTS3900
WCDMA
U
50331870
VS.HSUPA.Lo
adOutput.20
Number of Cell
Ul Load
Between 16db
to 18db
BTS3900,
BTS3900
WCDMA
U
50331871
VS.HSUPA.Lo
adOutput.21
Number of Cell
Ul Load
Between 18db
to 20db
BTS3900,
BTS3900
WCDMA
U
50331872
VS.HSUPA.Lo
adOutput.22
Number of Cell
Ul Load
Between 20db
to 22db
BTS3900,
BTS3900
WCDMA
U
50331873
VS.HSUPA.Lo
adOutput.23
Number of Cell
Ul Load
Between 22db
to 26db
BTS3900,
BTS3900
WCDMA
U
50331874
VS.HSUPA.Lo
adOutput.24
Number of Cell
Ul Load
Between 26db
to 30db
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331875
VS.HSUPA.Lo
adOutput.25
Number of Cell
Ul Load above
30db
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the distribution of cell load (that is, the ratio of the actual RTWP
in a cell to the reference RTWP) on the air interface during a measurement period.
Measurement Points
The NodeB takes statistics on the preceding counters based on the calculated cell air-interface
load when obtaining the actual RTWP in the cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.LoadOutput.0
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.1
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.2
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
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Package
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSUPA.LoadOutput.3
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.4
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.5
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.6
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.7
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.8
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.9
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSUPA.LoadOutput.10
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.11
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.12
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.13
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.14
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.15
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.16
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
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Counter Name
Feature ID
VS.HSUPA.LoadOutput.17
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.18
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.19
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.20
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.21
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.22
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.LoadOutput.23
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
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Counter Name
Feature ID
VS.HSUPA.LoadOutput.24
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.LoadOutput.25
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of Uplink Overloads in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331876
VS.HSUPA.Ov
erLoadNum
Number of
times the uplink
is overloaded in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the number of times the uplink overload occurs in a cell over
the air interface. Uplink cell overload over the air interface affects the HSUPA services.
Measurement Points
Within a measurement period, the NodeB counts the total number of times the cell RTWP
exceeds the target RTWP in all TTIs.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSUPA.OverLoadNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
E-AGCH Code Collision Ratio in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341864
VS.HSUPA.AG
CHCodeCollisi
on.Mean
Average ratio of
E-AGCH code
collisions in a
cell
BTS3900,
BTS3900
WCDMA
U
50331904
VS.HSUPA.AG
CHCodeCollisi
on.Max
Maximum ratio
of E-AGCH
code collisions
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the ratio of E-AGCH code collisions in a cell.
Measurement Points
At the end of a measurement period, the calculated number of users that fail to send AGs due to
occupied E-AGCH codes is recorded A, and the calculated number of users that successfully
send AGs is recorded B. The ratio of E-AGCH code collisions is A/(A+B). This counter is
sampled every five seconds. VS.HSUPA.AGCHCodeCollision.Mean measures the average of
these sampling results within a measurement period. VS.HSUPA.AGCHCodeCollision.Max
measures the maximum of these sampling results within a measurement period. Note that these
counters involve only the users with the local cell as the serving cell, and the users that fail to
send AGs within the previous measurement period and then reattempt to send AGs with the next
measurement period are also included.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.AGCHCodeCol
lision.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061402
LTE: None
VS.HSUPA.AGCHCodeCol
lision.Max
Enhanced Fast UL
Scheduling
Multi-mode: None
GSM: None
UMTS: WRFD-01061402
LTE: None
Enhanced Fast UL
Scheduling
Statistics on AGCH Utilization in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341865
VS.HSUPA.AG
CHCodeUtil.M
ean
average number
of AGCH usage
ratio
BTS3900,
BTS3900
WCDMA
U
50331903
VS.HSUPA.AG
CHCodeUtil.M
ax
Max value of
AGCH usage
ratio
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the statistics on the E-AGCH utilization in a cell.
Measurement Points
Within a measurement period, the NodeB counts the total number of used E-AGCHs in all
scheduling periods. Assume that this value is A. The NodeB counts the total number of
configured E-AGCHs in all scheduling periods of the measurement period. Assume that this
value is B. Then, VS.HSUPA.AGCHCodeUtil.Mean = A/B. The NodeB samples the value of
VS.HSUPA.AGCHCodeUtil.Mean in each sampling period (5s) and takes the maximum
sampled value within the measurement period as VS.HSUPA.AGCHCodeUtil.Max.
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Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.AGCHCodeUtil
.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061402
LTE: None
VS.HSUPA.AGCHCodeUtil
.Max
Enhanced Fast UL
Scheduling
Multi-mode: None
GSM: None
UMTS: WRFD-01061402
LTE: None
Enhanced Fast UL
Scheduling
Number of HSUPA Users with Data Transmission in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341850
VS.HSUPA.Dat
aUserNum.Mea
n
Average
number of
HSUPA users
that transmit
data in a cell
BTS3900,
BTS3900
WCDMA
U
50341851
VS.HSUPA.Dat
aUserNum.Max
Maximum
number of
HSUPA users
that transmit
data in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum number of HSUPA users with data
transmission in each TTI during a measurement period in a cell.
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Measurement Points
During the measurement period, the NodeB counts the total number of HSUPA users with data
transmission in all TTIs. This counter is counted once for HSUPA users with 2 ms TTI and five
times for HSUPA users with 10 ms TTI. Assume that this value is A and the number of TTIs in
the measurement period is B. Then, VS.HSUPA.DataUserNum.Mean = A/B. The NodeB
samples the value of VS.HSUPA.DataUserNum.Mean in each sampling period (5s) and takes
the maximum sampled value within the measurement period as VS.HSUPA.DataUserNum.Max.
For DC-HSUPA users, the preceding counter is measured in the anchor carrier and the
supplementary carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.DataUserNum.
Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.DataUserNum.
Max
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of Scheduled HSUPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341852
VS.HSUPA.Sc
heduleUserNu
m.Mean
Average
number of
scheduled
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341853
VS.HSUPA.Sc
heduleUserNu
m.Max
Maximum
number of
scheduled
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum number of scheduled HSUPA users
in each TTI during a measurement period in a cell. When an HSUPA user is scheduled, the
NodeB sends the RG UP, RG DOWN, or AG grant to the HSUPA user.
Measurement Points
During the measurement period, the NodeB counts the total number of scheduled HSUPA users
in all TTIs. Assume that this value is A and the number of TTIs in the measurement period is
B. Then, VS.HSUPA.ScheduleUserNum.Mean = A/B. The NodeB samples the value of
VS.HSUPA.ScheduleUserNum.Mean in each sampling period (5s) and takes the maximum
sampled value within the measurement period as VS.HSUPA.ScheduleUserNum.Max. For DCHSUPA users, the preceding counter is measured in the anchor carrier and the supplementary
carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.ScheduleUserN
um.Mean
Multi-mode: None
GSM: None
UMTS: WRFD-010612
WRFD-01061402
LTE: None
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Package
Enhanced Fast UL
Scheduling
182
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Counter Name
Feature ID
VS.HSUPA.ScheduleUserN
um.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
WRFD-01061402
HSUPA Introduction
Package
Enhanced Fast UL
Scheduling
LTE: None
Proportion of Power-Limited HSUPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341854
VS.HSUPA.Ma
xPwrLmtUserR
atio
Ratio of the
number of
HSUPA users
with limited
UPH to the total
number of
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the ratio of the number of HSUPA users with limited UE Power
Headroom (UPH) to the total number of HSUPA users in a cell. The power is limited when the
rate requested by the UE to send buffered data is higher than the maximum permissible transmit
rate indicated in the UPH field.
Measurement Points
During the measurement period, the NodeB counts the total number of power-limited HSUPA
users in all TTIs. Assume that this value is A and the total number of HSUPA users in all TTIs
in the measurement period is B. Then, VS.HSUPA.MaxPwrLmtUserRatio = A/B. If the power
of an HSUPA user is limited several times during the measurement period, the NodeB counts
the user repeatedly. For DC-HSUPA users, the preceding counter is measured in the anchor
carrier and the supplementary carrier separately.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.MaxPwrLmtUserRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061203
WRFD-01061401
LTE: None
HSUPA Power Control
HSUPA E-AGCH Power
Control (Based on CQI or
HS-SCCH)
Proportion of Load-Limited HSUPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341855
VS.HSUPA.Lef
tPwrLmtUserR
atio
Ratio of the
number of
HSUPA users
with limited
uplink load to
the total number
of HSUPA users
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the ratio of the number of HSUPA users whose requested rate
fails to be reached because of limited load over the air interface to the total number of HSUPA
users in a cell during a measurement period.
Measurement Points
During a measurement period, the NodeB counts the total number of HSUPA users whose
requested rate fails to be reached because of limited load over the air interface in all TTIs. Assume
that this value is A and the total number of HSUPA users in all TTIs in the measurement period
is B. Then, VS.HSUPA.LeftPwrLmtUserRatio = A/B. If the load of an HSUPA user is limited
several times during the measurement period, the NodeB counts the user repeatedly. For DCHSUPA users, the preceding counter is measured in the anchor carrier and the supplementary
carrier separately.
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Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.LeftPwrLmtUserRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061202
WRFD-01061402
LTE: None
HSUPA Admission Control
Enhanced Fast UL
Scheduling
Number of Unhappy HSUPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331877
VS.HSUPA.Un
HappyUserNu
m
Number of
Unhappy
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the number of unhappy HSUPA users in a cell.
Measurement Points
This counter is measured when the NodeB finds that the happy bit value carried by an HSUPA
user is unhappy in MAC-e scheduling. This counter is counted once for HSUPA 2 ms TTI users
and five times for HSUPA 10 ms TTI users. For DC-HSUPA users, the preceding counter is
measured in the anchor carrier and the supplementary carrier separately.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.UnHappyUserNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010639
96 HSUPA Users per Cell
WRFD-01061211
20 HSUPA Users per Cell
WRFD-010634
60 HSUPA Users per Cell
WRFD-010612
HSUPA Introduction
Package
LTE: None
Ratio of Unhappy HSUPA Users to Total HSUPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341849
VS.HSUPA.Un
HappyUserNu
mRatio
Ratio of the
number of
Unhappy
HSUPA users to
the total number
of HSUPA users
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the ratio of the number of unhappy HSUPA users to the total
number of HSUPA users in a cell during a measurement period.
Measurement Points
During a measurement period, the NodeB counts the total number of unhappy HSUPA users in
all TTIs. Assume that this value is A and the total number of HSUPA users in all TTIs in the
measurement period is B. Then, VS.HSUPA.UnHappyUserNumRatio = A/B. If an HSUPA user
reports the unhappy state several times during the measurement period, the NodeB counts the
user repeatedly.
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Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.UnHappyUserNumRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010639
96 HSUPA Users per Cell
WRFD-01061211
20 HSUPA Users per Cell
WRFD-010634
60 HSUPA Users per Cell
WRFD-010612
HSUPA Introduction
Package
LTE: None
Average Number of 2 ms TTI HSUPA Users at Different Rates in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341892
VS.HSUPA.Lo
wRateTTI2msU
serNumber
Average
number of 2 ms
TTI HSUPA
users at a rate
lower than or
equal to 23.25
kbit/s in a cell
BTS3900,
BTS3900
WCDMA
U
50341870
VS.HSUPA.TT
I2msUserNumb
er.0
Average
number of 2 ms
TTI HSUPA
users at a rate of
below 150 kbit/s
in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341871
VS.HSUPA.TT
I2msUserNumb
er.1
Average
number of 2 ms
TTI HSUPA
users at a rate in
the range of
[150 kbit/s,700
kbit/s) in a cell
BTS3900,
BTS3900
WCDMA
U
50341872
VS.HSUPA.TT
I2msUserNumb
er.2
Average
number of 2 ms
TTI HSUPA
users at a rate in
the range of
[700 kbit/s,1500
kbit/s) in a cell
BTS3900,
BTS3900
WCDMA
U
50341873
VS.HSUPA.TT
I2msUserNumb
er.3
Average
number of 2 ms
TTI HSUPA
users at a rate in
the range of
[1500 kbit/s,
3000 kbit/s) in a
cell
BTS3900,
BTS3900
WCDMA
U
50341874
VS.HSUPA.TT
I2msUserNumb
er.4
Average
number of 2 ms
TTI HSUPA
users at a rate in
the range of
[3000 kbit/s,
4000 kbit/s) in a
cell
BTS3900,
BTS3900
WCDMA
U
50341875
VS.HSUPA.TT
I2msUserNumb
er.5
Average
number of 2 ms
TTI HSUPA
users at a rate in
the range of
[4000 kbit/s,
12000 kbit/s) in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the average number of 2 ms TTI HSUPA users at different rates in a
cell within a measurement period.
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Measurement Points
The number of 2 ms TTI HSUPA users at different Mac-e/i rates is sampled every 100 ms. At
the end of a measurement period, the accumulated value is A, and the number of samples is B.
The formula for calculating this counter is: VS.HSUPA.TTI2msUserNumber = A/B. For DCHSUPA users or users in handover scenarios, these counters are measured in each cell. Rate at
the HSUPA Mac-e/i layer = Traffic of Mac-e/i TRBs correctly received from HSUPA users
within a measurement period/Online duration for HSUPA users within the measurement period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.LowRateTTI2m
sUserNumber
Multi-mode: None
GSM: None
UMTS: WRFD-160205
LTE: None
VS.HSUPA.TTI2msUserNumber.0
Feature Name
CE Efficiency Improvement
for HSUPA TTI 2ms
Multi-mode: None
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
VS.HSUPA.TTI2msUserNumber.1
Multi-mode: None
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
VS.HSUPA.TTI2msUserNumber.2
Multi-mode: None
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
VS.HSUPA.TTI2msUserNumber.3
Multi-mode: None
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
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Counter Name
Feature ID
VS.HSUPA.TTI2msUserNumber.4
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
VS.HSUPA.TTI2msUserNumber.5
Multi-mode: None
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
Average Number of 10 ms TTI HSUPA Users at Different Rates in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341884
VS.HSUPA.TT
I10msUserNum
ber.0
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 0 in a
cell
BTS3900,
BTS3900
WCDMA
U
50341885
VS.HSUPA.TT
I10msUserNum
ber.1
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 1 in a
cell
BTS3900,
BTS3900
WCDMA
U
50341886
VS.HSUPA.TT
I10msUserNum
ber.2
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 2 in a
cell
BTS3900,
BTS3900
WCDMA
U
50341887
VS.HSUPA.TT
I10msUserNum
ber.3
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 3 in a
cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341888
VS.HSUPA.TT
I10msUserNum
ber.4
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 4 in a
cell
BTS3900,
BTS3900
WCDMA
U
50341889
VS.HSUPA.TT
I10msUserNum
ber.5
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 5 in a
cell
BTS3900,
BTS3900
WCDMA
U
50341890
VS.HSUPA.TT
I10msUserNum
ber.6
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 6 in a
cell
BTS3900,
BTS3900
WCDMA
U
50341891
VS.HSUPA.TT
I10msUserNum
ber.7
Average
number of 10 ms
TTI HSUPA
users at a rate of
interval 7 in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the average number of 10 ms TTI HSUPA users at different rate intervals
in a cell within a measurement period, reflecting the distribution of HSUPA users at these rate
intervals.
Here,
Interval 0 ranges from 0 kbit/s (included) to 50 kbit/s.
Interval 1 ranges from 50 kbit/s (included) to 100 kbit/s.
Interval 2 ranges from 100 kbit/s (included) to 150 kbit/s.
Interval 3 ranges from 150 kbit/s (included) to 200 kbit/s.
Interval 4 ranges from 200 kbit/s (included) to 400 kbit/s.
Interval 5 ranges from 400 kbit/s (included) to 700 kbit/s.
Interval 6 ranges from 700 kbit/s (included) to 1500 kbit/s.
Interval 7 ranges from 1500 kbit/s (included) to 2000 kbit/s.
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Measurement Points
The number of 10 ms TTI HSUPA users at different Mac-e/i rates is sampled every 100 ms. At
the end of a measurement period, the accumulated value is A, and the number of samples is B.
The formula for calculating this counter is: VS.HSUPA.TTI10msUserNumber = A/B. For DCHSUPA users or users in handover scenarios, these counters are measured in each cell. Rate at
the HSUPA Mac-e/i layer = Traffic of Mac-e/i TRBs correctly received from HSUPA users
within a measurement period/Online duration for HSUPA users within the measurement period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.TTI10msUserNumber.0
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.TTI10msUserNumber.1
GSM: None
LTE: None
GSM: None
LTE: None
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
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Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.TTI10msUserNumber.3
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.TTI10msUserNumber.2
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSUPA Introduction
Package
192
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Counter Name
Feature ID
VS.HSUPA.TTI10msUserNumber.4
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.TTI10msUserNumber.5
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.TTI10msUserNumber.6
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.TTI10msUserNumber.7
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Average Number of Valid Time-Division Scheduling Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341868
VS.HSUPA.TD
MUserNum.Me
an
Average
number of valid
time-division
scheduling
users in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of valid time-division scheduling users in a cell.When
the time-division scheduling takes effect, the number of time-division scheduling users in the
cell is not 0.
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Measurement Points
The number of valid HSUPA time-division scheduling users is sampled every five seconds. At
the end of a measurement period, for example, 15 minutes, the sum of these sampling results is
reported. The average number of valid time-division scheduling users is equal to the result of
the sum of the sampling results divided by the sampling times.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.TDMUserNum.
Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150222
HSUPA Time Division
Scheduling
LTE: None
Number of TTIs with HSUPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331878
VS.HSUPA.Us
erTtiNum
Number of TTIs
in which at least
one HSUPA
user exists in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the number of TTIs when at least one HSUPA user exists in a
cell during a measurement period.
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Measurement Points
This counter is measured when at least one HSUPA user exists in a TTI each time MAC-e
scheduling is performed. For DC-HSUPA users, the preceding counter is measured in the anchor
carrier and the supplementary carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.UserTtiNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of TTIs in Which at Least One HSUPA User Transmits Data in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331879
VS.HSUPA.Dat
aTtiNum
Number of TTIs
in which
HSUPA users
transmit data in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the number of TTIs in which at least one HSUPA user transmits
data in a cell.
Measurement Points
During a measurement period, there is data transmission within a TTI if at least an HSUPA user
transmits data in the TTI. This counter is counted once for HSUPA users with 2 ms TTI and five
times for HSUPA users with 10 ms TTI. A DC-HSUPA user is regarded as an HSUPA user in
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each anchor carrier and supplementary carrier. For DC-HSUPA users, the counter is measured
in the anchor carrier and the supplementary carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.DataTtiNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of TTIs in Which at Least One HSUPA User Transmits the TRB Data in a
Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331908
VS.HSUPA.Dat
aTtiNum.TRB
Number of TTIs
in which
HSUPA users
transmit TRB
data in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the number of TTIs in which at least one HSUPA user transmits
the TRB data in a cell.
Measurement Points
During a measurement period, there is data transmission within a TTI if at least an HSUPA user
transmits the TRB data in the TTI in an HSUPA serving cell. This counter is counted once for
HSUPA users with 2 ms TTI and five times for HSUPA users with 10 ms TTI. A DC-HSUPA
user is regarded as an HSUPA user in each anchor carrier and supplementary carrier. For DCIssue 11 (2015–05–30)
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HSUPA users, the counter is measured in the anchor carrier and the supplementary carrier
separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.DataTtiNum.T
RB
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of HSUPA Users with Data Transmission under Different Uplink Uu
Loads in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331961
VS.HSUPA.Dat
aUserSumNum.
ROTMor3
Number of
HSUPA users
with data
transmission
under the 3 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
50331962
VS.HSUPA.Dat
aUserSumNum.
ROTMor6
Number of
HSUPA users
with data
transmission
under the 6 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331963
VS.HSUPA.Dat
aUserSumNum.
ROTMor7
Number of
HSUPA users
with data
transmission
under the 7 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
50331964
VS.HSUPA.Dat
aUserSumNum.
ROTMor9
Number of
HSUPA users
with data
transmission
under the 9 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
50331965
VS.HSUPA.Dat
aUserSumNum.
ROTMor10
Number of
HSUPA users
with data
transmission
under the 10 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
50331966
VS.HSUPA.Dat
aUserSumNum.
ROTMor13
Number of
HSUPA users
with data
transmission
under the 13 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
50331967
VS.HSUPA.Dat
aUserSumNum.
ROTMor20
Number of
HSUPA users
with data
transmission
under the 20 dB
or above uplink
Uu load in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The counters measure the number of HSUPA users with data transmission under different uplink
Uu loads in a cell. The average number of HSUPA users with data transmission under different
uplink Uu loads in a cell is calculated by dividing this counter by
VS.HSUPA.DataTtiNum.ROTMorX.
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1 NodeBFunction Performance Counter Measurement
Measurement Points
Map Uu loads, which are sampled every 100 ms, to corresponding counters within a
measurement period. Accumulate the number of 2 ms TTI HSUPA users every 100 ms, the result
of which is represented by N. Then, calculate the number of accumulated values of N using the
corresponding cell load counter within a measurement period. At the end of a measurement
period, the calculation result is the number of HSUPA users with data transmission under
different uplink Uu loads. For multi-carrier HSUPA users or users in handover scenarios, these
counters are measured in the cells with the anchor carrier and the supplementary carriers
separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.DataUserSumN
um.ROTMor3
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.DataUserSumN
um.ROTMor6
GSM: None
LTE: None
GSM: None
LTE: None
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
Issue 11 (2015–05–30)
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.DataUserSumN
um.ROTMor9
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.DataUserSumN
um.ROTMor7
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSUPA Introduction
Package
199
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSUPA.DataUserSumN
um.ROTMor10
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.DataUserSumN
um.ROTMor13
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.DataUserSumN
um.ROTMor20
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of TTIs in Which HSUPA Users Have Data to Transmit under Different
Uplink Uu Loads in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331925
VS.HSUPA.Dat
aTtiNum.ROT
Mor3
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 3 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
50331926
VS.HSUPA.Dat
aTtiNum.ROT
Mor6
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 6 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331927
VS.HSUPA.Dat
aTtiNum.ROT
Mor7
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 7 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
50331928
VS.HSUPA.Dat
aTtiNum.ROT
Mor9
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 9 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
50331929
VS.HSUPA.Dat
aTtiNum.ROT
Mor10
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 10 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
50331930
VS.HSUPA.Dat
aTtiNum.ROT
Mor13
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 13 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
50331931
VS.HSUPA.Dat
aTtiNum.ROT
Mor20
Number of TTIs
in which
HSUPA users
have data to
transmit under
the 20 dB or
above uplink Uu
load in a cell
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Description
These counters measure the number of TTIs in which HSUPA users have data to transmit under
different uplink Uu loads in a cell. Uu interface load indicates the ratio of the current RTWP to
the reference RTWP in a cell.
Measurement Points
At the end of a measurement period, the number of TTIs in which HSUPA users have data to
transmit under different uplink Uu loads is measured in a cell. If at least one user transmits data,
there is data transmission within the TTI. For 2 ms TTI HSUPA users, this scenario is measured
once. For 10 ms TTI HSUPA users, this scenario is measured five times. For DC-HSUPA users
or users in handover scenarios, these counters are measured in each cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.DataTtiNum.R
OTMor3
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.DataTtiNum.R
OTMor6
GSM: None
LTE: None
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
Issue 11 (2015–05–30)
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.DataTtiNum.R
OTMor7
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSUPA Introduction
Package
202
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSUPA.DataTtiNum.R
OTMor9
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.DataTtiNum.R
OTMor10
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.DataTtiNum.R
OTMor13
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.DataTtiNum.R
OTMor20
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
HSUPA HARQ Distribution in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331885
VS.HSUPA.AC
KTotal
Number of
transmitted
ACKs
BTS3900,
BTS3900
WCDMA
U
50331886
VS.HSUPA.NA
CKTotal
Number of
transmitted
NACKs
BTS3900,
BTS3900
WCDMA
U
50331887
VS.HSUPA.DT
XTotal
Number of
transmitted
DTXs
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Description
The preceding counters indicate the HSUPA HARQ distribution in a cell.
Measurement Points
During a measurement period, the NodeB uses VS.HSUPA.ACKTotal to count the total number
of HI messages containing ACK on the E-HICH for HSUPA users, VS.HSUPA.NACKTotal to
count the total number of HI messages containing NACK on the E-HICH for HSUPA users, and
VS.HSUPA.DTXTotal to count the total number of HSUPA users without data transmission in
all TTIs. A DC-HSUPA user is regarded as an HSUPA user in each anchor carrier and
supplementary carrier. For DC-HSUPA users, the counter is measured in the anchor carrier and
the supplementary carrier separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.ACKTotal
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.NACKTotal
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.DTXTotal
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
HSUPA Introduction
Package
HSUPA MAC-e/MAC-i PDU Statistics in a Cell
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331888
VS.HSUPA.PD
UNum
Number of
successfully
received MACe/MAC-i PDUs
from the UE in a
cell
BTS3900,
BTS3900
WCDMA
U
50331889
VS.HSUPA.RetransPDUNum
Number of
MAC-e/MAC-i
PDUs to be
retransmitted by
the UE in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSUPA.PDUNum
This counter measures the number of MACe/MAC-i PDUs successfully received in the
serving cell from HSUPA UEs.
VS.HSUPA.RetransPDUNum
This counter measures the number of
retransmitted MAC-e/MAC-i PDUs received
in the serving cell from HSUPA UEs.
Measurement Points
The number of MAC-e/MAC-i PDUs successfully received in the serving cell from HSUPA
UEs is sampled within a measurement period. At the end of the measurement period, the sum
of these sampling results is defined as the value of VS.HSUPA.PDUNum. The number of such
PDUs received from E-RACH UEs is not counted into this counter. The number of retransmitted
MAC-e/MAC-i PDUs received in the serving cell from HSUPA UEs is sampled within a
measurement period. At the end of the measurement period, the sum of these sampling results
is defined as the value of VS.HSUPA.RetransPDUNum. The number of such PDUs
retransmitted by E-RACH UEs is not counted into this counter.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.PDUNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.RetransPDUNum
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
HSUPA MAC Thruput in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332551
VS.HSUPA.Thr
uput
Total traffic
volume of
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the total traffic volume of the MAC-d PDUs successfully received from
all HSUPA users in a cell within a measurement period.
Disuse Statement:
The counter 50332551 VS.HSUPA.Thruput will be deleted in later version. In current version,
the value of this counter take effect. This counter is not recommended.
Measurement Points
The traffic volume of the MAC-d PDUs successfully received from all HSUPA users in a cell
is sampled every 100 ms, and the accumulated value is reported. In softer handover scenarios,
the throughput is averaged among cells.
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Formula
None
Unit
kbit
Related Features
Counter Name
Feature ID
VS.HSUPA.Thruput
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Cell Throughput of HSUPA Users Under Different Uplink Uu Loads
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341876
VS.HSUPA.Thr
uput.ROTMor3
Cell throughput
of HSUPA users
under the 3 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
50341877
VS.HSUPA.Thr
uput.ROTMor6
Cell throughput
of HSUPA users
under the 6 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
50341878
VS.HSUPA.Thr
uput.ROTMor7
Cell throughput
of HSUPA users
under the 7 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
50341879
VS.HSUPA.Thr
uput.ROTMor9
Cell throughput
of HSUPA users
under the 9 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341880
VS.HSUPA.Thr
uput.ROTMor1
0
Cell throughput
of HSUPA users
under the 10 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
50341881
VS.HSUPA.Thr
uput.ROTMor1
3
Cell throughput
of HSUPA users
under the 13 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
50341882
VS.HSUPA.Thr
uput.ROTMor2
0
Cell throughput
of HSUPA users
under the 20 dB
or above uplink
Uu load
BTS3900,
BTS3900
WCDMA
U
50341883
VS.HSUPA.Thr
uput.ROTAll
Cell throughput
of HSUPA users
under all uplink
Uu loads
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the cell throughput of HSUPA users under different uplink Uu loads.
Uu interface load indicates the ratio of the current RTWP to the reference RTWP in a cell.
Measurement Points
At the end of a measurement period, the traffic of Mac-e/Mac-i TRBs successfully received from
all HSUPA users under different uplink Uu loads is measured in a cell. For DC-HSUPA users
or users in handover scenarios, these counters are measured according to the actual traffic in a
cell.
Formula
None
Unit
kbit
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1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.HSUPA.Thruput.ROTMor3
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
VS.HSUPA.Thruput.ROTMor6
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
HSUPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
Issue 11 (2015–05–30)
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor20
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor13
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor10
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor9
HSUPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor7
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSUPA Introduction
Package
209
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSUPA.Thruput.ROTAll
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
HSUPA MAC Average Throughput in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342552
VS.HSUPA.Me
anBitRate
Average
throughput of
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average throughput of MAC-d data flows successfully received from
all HSUPA users in a cell within a measurement period.
Disuse Statement:
The counter 50342552 VS.HSUPA.MeanBitRate will be deleted in later version. In current
version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Assume that the volume of MAC-d data flows successfully received from all HSUPA users in
a cell within a measurement period is A and the length of the measurement period is B. The
formula for calculating this counter is: VS.HSUPA.MeanBitRate = A/B. In softer handover
scenarios, the throughput is averaged among cells. In soft handover scenarios, the throughput is
measured on the basis of the actual traffic volume received in each cell.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.HSUPA.MeanBitRate
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
HSUPA MAC Throughput in a Cell During Data Transmission
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342553
VS.HSUPA.Me
anBitRate.With
Data
Average
throughput of
HSUPA users in
a cell when data
is transmitted
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average throughput of MAC-d data flows successfully received from
HSUPA users that transmit data in a cell within a measurement period.
Disuse Statement:
The counter 50342553 VS.HSUPA.MeanBitRate.WithData will be deleted in later version. In
current version, the value of this counter take effect. This counter is not recommended.
Measurement Points
Assume that the volume of MAC-d data flows successfully received from all HSUPA users that
transmit data in a cell within a measurement period is A and the length of the time when data is
transmitted is B. The formula for calculating this counter is: VS.HSUPA.MeanBitRate.WithData
= A/B. In this formula, B is the number of samples when data is transmitted multiplies the
sampling period, for example, 100 ms. If the traffic volume of received MAC-d PDUs is 0 within
a sampling period, the sampling period is not considered. In softer handover scenarios, the
throughput is averaged among cells. In soft handover scenarios, the throughput is measured on
the basis of the actual traffic volume received in each cell.
Formula
None
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Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.HSUPA.MeanBitRate.
WithData
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Average/Maximum IC Efficiency in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331892
VS.HSUPA.Ic.
MeanEff
Average
Efficiency of
Interference
Cancellation
(IC) in a Cell
BTS3900,
BTS3900
WCDMA
U
50341858
VS.HSUPA.Ic.
MaxEff
Maximum
Efficiency of
Interference
Cancellation
(IC) in a Cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the ratio of RTWP difference to RTWP before IC in a
measurement period. RTWP difference means RTWP before IC minus RTWP after IC. These
counters represent the total IC efficiency in a cell. The total IC includes stage 1 IC (control
channel IC) and stage 2 IC (HSUPA IC).When the MTRU or RRU3801c is used for a cell, the
statistics value is 0xffff, which is invalid.
Measurement Points
Within the measurement period, the NodeB samples the IC efficiency in each sampling period
(5s) and adds up the sampled values. Assume that the sum is A and the number of samples within
the measurement period is B. Then, VS.HSUPA.Ic.MeanEff = A/B. The NodeB takes the
maximum sampled value within the measurement period as VS.HSUPA.Ic.MaxEff.
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Formula
None
Unit
%
Related Features
Counter Name
Feature ID
VS.HSUPA.Ic.MeanEff
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010691
WRFD-010210
WRFD-140202
WRFD-150206
LTE: None
HSUPA UL Interference
Cancellation
Control Channel Parallel
Interference Cancellation
(CCPIC)
Control Channel Parallel
Interference Cancellation
(Phase 2)
Turbo IC
VS.HSUPA.Ic.MaxEff
Multi-mode: None
GSM: None
UMTS: WRFD-010691
WRFD-010210
WRFD-140202
WRFD-150206
LTE: None
HSUPA UL Interference
Cancellation
Control Channel Parallel
Interference Cancellation
(CCPIC)
Control Channel Parallel
Interference Cancellation
(Phase 2)
Turbo IC
Average/Maximum IC Efficiency of Stage 1 in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331907
VS.CellFirstSta
geIcEff.Mean
Average
Efficiency of
Stage 1
Interference
Cancellation
(IC) in a Cell
BTS3900
WCDMA
U
50341867
VS.CellFirstSta
geIcEff.Max
Maximum
Efficiency of
Stage 1
Interference
Cancellation
(IC) in a Cell
BTS3900
WCDMA
U
Description
This counter measures the ratio of the RTWP difference to the RTWP before interference
cancellation (IC) within a measurement period, reflecting stage 1 IC efficiency. The RTWP
difference indicates the difference between the RTWP before IC and the RTWP after stage 1
IC.
If Control Channel Parallel Interference Cancellation (Phase 2) takes effect, stage 1 IC is specific
to the DPCCH. If Control Channel Parallel Interference Cancellation (Phase 3) takes effect,
stage 1 IC is specific to the DPCCH, HS-DPCCH, or E-DPCCH. When the MTRU or RRU3801c
is used, an invalid value 0xffff is displayed.
Disuse Statement:
The counter 50331907 VS.CellFirstStageIcEff.Mean will be deleted and replaced by 50332061
VS.FirstStageIcEff.Mean in later versions. In current version, both the counters take effect but
VS.CellFirstStageIcEff.Mean is not recommended.
The counter 50341867 VS.CellFirstStageIcEff.Max will be deleted and replaced by 50342048
VS.FirstStageIcEff.Max in later versions. In current version, both the counters take effect but
VS.CellFirstStageIcEff.Max is not recommended.
Measurement Points
Within the measurement period, the NodeB samples the IC efficiency in each sampling period
(5s) and adds up the sampled values. Assume that the sum is A and the number of samples within
the measurement period is B. Then, VS.CellFirstStageIcEff.Mean = A/B. The NodeB takes the
maximum sampled value within the measurement period as VS.CellFirstStageIcEff.Max.
Formula
None
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Unit
%
Related Features
Counter Name
Feature ID
VS.CellFirstStageIcEff.Mea
n
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140202
Control Channel Parallel
Interference Cancellation
(Phase 2)
WRFD-160201
LTE: None
VS.CellFirstStageIcEff.Max
Control Channel Parallel
Interference Cancellation
(Phase 3)
Multi-mode: None
GSM: None
UMTS: WRFD-140202
Control Channel Parallel
Interference Cancellation
(Phase 2)
WRFD-160201
LTE: None
Control Channel Parallel
Interference Cancellation
(Phase 3)
Ratio of Unhappy HSUPA Users with SG Limit due to Resource Insufficiency in a
Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341893
VS.HSUPA.SG
Lmt.UnHappyU
serRatio.Iub
Ratio of
Unhappy users
with SG limit
due to Iub
resource
insufficiency in
a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341894
VS.HSUPA.SG
Lmt.UnHappyU
serRatio.RTWP
Ratio of
Unhappy users
with SG limit
due to air
interface load
insufficiency in
a cell
BTS3900,
BTS3900
WCDMA
U
50341895
VS.HSUPA.SG
Lmt.UnHappyU
serRatio.CE
Ratio of
Unhappy users
with SG limit
due to CE
insufficiency in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the ratio of Unhappy HSUPA users with scheduling grant (SG)
limit due to resource insufficiency to all Unhappy HSUPA users. SG limit means that the SG
value is decreased or remains unchanged. For details about SG, see 3GPP TS 25.321.
Measurement Points
Within a measurement period, the number of Unhappy HSUPA users with SG limit due to
resource insufficiency and the number of all Unhappy HSUPA users are sampled every 2 ms.
At the end of the measurement period, the calculated value of Unhappy HSUPA users with SG
limit due to Iub resource insufficiency within each sampling period is recorded as A. The
calculated value of Unhappy HSUPA users with SG limit due to air interface load insufficiency
within each sampling period is recorded as B. The calculated value of Unhappy HSUPA users
with SG limit due to CE insufficiency within each sampling period is recorded as C. The
calculated value of Unhappy HSUPA users within each sampling period is recorded as D.
A divided by D is used as the value of the VS.HSUPA.SGLmt.UnHappyUserRatio.Iub counter.
B divided by D is used as the value of the VS.HSUPA.SGLmt.UnHappyUserRatio.RTWP
counter.
C divided by D is used as the value of the VS.HSUPA.SGLmt.UnHappyUserRatio.CE counter.
Note that the number of Unhappy HSUPA users with SG limit due to resource insufficiency is
E-DCH serving RLS specific only.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.HSUPA.SGLmt.UnHap
pyUserRatio.Iub
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.SGLmt.UnHap
pyUserRatio.RTWP
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
VS.HSUPA.SGLmt.UnHap
pyUserRatio.CE
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Proportion of the Time When FDE is Used in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341856
VS.HSUPA.FD
E.UtilizeTimePermillage
Proportion of
the time when
HSUPA users
use the FDE
mode in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the ratio of samples with HSUPA users using FDE to the total
samples with HSUPA users in a cell during a measurement period.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of samples with HSUPA users using FDE includes the number of samples
with HSUPA users in the local cell using FDE and the number of samples with coordinating
links for UL CoMP (joint reception) users in other cells using FDE in the local cell.
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UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
During a measurement period, the NodeB counts the number of TTIs in which at least one
HSUPA user uses FDE. Assume that this value is A. The NodeB counts the number of TTIs in
which at least one HSUPA user camps on the cell during the measurement period. Assume that
this value is B. Then, VS.HSUPA.FDE.UtilizeTimePermillage = A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.FDE.UtilizeTimePermillage
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010692
HSUPA FDE
LTE: None
Proportion of the Time When 16QAM is Used in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341857
VS.HSUPA.
16QAM.Utilize
TimePermillage
Proportion of
the time when
HSUPA users
uses the
16QAM mode
in a cell
BTS3900,
BTS3900
WCDMA
U
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Description
The preceding counter indicates the ratio of samples with HSUPA users using 16QAM to the
total samples with HSUPA users in a cell during a measurement period.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of samples with HSUPA users using 16QAM includes the number of
samples with HSUPA users in the local cell using 16QAM and the number of samples with
coordinating links for UL CoMP (joint reception) users in other cells using 16QAM in the local
cell.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
During a measurement period, the NodeB counts the number of TTIs in which at least one
HSUPA user uses 16QAM. Assume that this value is A. The NodeB counts the number of TTIs
in which at least one HSUPA user camps on the cell during the measurement period. Assume
that this value is B. Then, VS.HSUPA.16QAM.UtilizeTimePermillage = A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.HSUPA.
16QAM.UtilizeTimePermillage
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010694
UL 16QAM
LTE: None
Proportion of the Time When Boosting is Used in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341859
VS.HSUPA.Bo
osting.UtilizeTimeRatio
Ratio of the
utilize time of
boosting in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the Boosting usage in a cell during a measurement period.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of samples with HSUPA users using Boosting includes the number of
samples with HSUPA users in the local cell using Boosting and the number of samples with
coordinating links for UL CoMP (joint reception) users in other cells using Boosting in the local
cell.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
During a measurement period, the NodeB counts the number of TTIs in which at least one
HSUPA user uses Boosting. Assume that this value is A. The NodeB counts the number of TTIs
in which at least one HSUPA user camps on the cell during the measurement period. Assume
that this value is B. Then, VS.HSUPA.Boosting.UtilizeTimeRatio = A/B.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.HSUPA.Boosting.UtilizeTimeRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010697
E-DPCCH Boosting
LTE: None
Possibility of the Active Anti-Interference Scheduling Algorithm in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341866
VS.HSUPA.An
tiInterfSch.ActRatio
The antiintereference
scheduling
algrithm active
ratio
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counter indicates the possibility of the active anti-interference scheduling
algorithm in a cell during a measurement period.
Measurement Points
During a measurement period, the NodeB counts the number of TTIs in which the antiinterference scheduling algorithm is active. Assume that this value is A. The NodeB counts the
number of TTIs in which the switch for anti-interference scheduling is turned on during the
measurement period. Assume that this value is B. Then, VS.HSUPA.AntiInterfSch.ActRatio =
A/B.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.HSUPA.AntiInterfSch.A
ctRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020136
Anti-Interference
Scheduling for HSUPA
LTE: None
Time-Division Scheduling Algorithm Validity Probability in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341869
VS.HSUPA.TD
MSch.ActRatio
Time-division
scheduling
algorithm
validity
probability in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the time-division scheduling algorithm validity probability in a cell.When
the time-division scheduling takes effect, the number of time-division scheduling users in the
cell is not 0.
Measurement Points
The number of periods for valid HSUPA time-division scheduling is sampled every five seconds.
At the end of a measurement period, for example, 15 minutes, the sum of these sampling results
is reported. The time-division scheduling algorithm validity probability is equal to the result of
the sum of the sampling results divided by the sampling times.
Formula
None
Unit
per mill
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Related Features
Counter Name
Feature ID
VS.HSUPA.TDMSch.ActRatio
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150222
HSUPA Time Division
Scheduling
LTE: None
Number of Transitions from Using All HARQ Processes to Using A Single HARQ
Process In the Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331957
VS.HSUPA.All
toSingleHARQ
Num.RTWPCo
ng
Number of
transitions from
using all HARQ
processes to
using a single
HARQ process
due to limited
RTWP in the
cell
BTS3900,
BTS3900
WCDMA
U
50331958
VS.HSUPA.All
toSingleHARQ
Num.CECong
Number of
transitions from
using all HARQ
processes to
using a single
HARQ process
due to limited
CEs in the cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
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Counter Name
Description
VS.HSUPA.AlltoSingleHARQNum.RTWP
Cong
This counter measures the number of
transitions from using all HARQ processes to
using a single HARQ process due to limited
RTWP in the cell.
VS.HSUPA.AlltoSingleHARQNum.CECong
This counter measures the number of
transitions from using all HARQ processes to
using a single HARQ process due to limited
CEs in the cell.
Measurement Points
The following table describes the Measurement Points of each counter.
Counter Name
Measurement Points
VS.HSUPA.AlltoSingleHARQNum.RTWP
Cong
This counter measures the number of
transitions from using all HARQ processes to
using a single HARQ process within a
measurement period due to limited RTWP in
the service cell.
VS.HSUPA.AlltoSingleHARQNum.CECong
This counter measures the number of
transitions from using all HARQ processes to
using a single HARQ process within a
measurement period due to limited CEs in the
serving cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.AlltoSingleHA
RQNum.RTWPCong
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-160213
Turbo IC Phase 2
LTE: None
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Counter Name
Feature ID
VS.HSUPA.AlltoSingleHA
RQNum.CECong
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-160205
CE Efficiency Improvement
for HSUPA TTI 2ms
LTE: None
Number of Transitions from Using A Single HARQ Process to Using All HARQ
Processes In the Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331959
VS.HSUPA.Sin
gletoAllHARQ
Num
Number of
Transitions
from Using A
Single HARQ
Process to Using
All HARQ
Processes In the
Cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of transitions from using a single HARQ process to using all
HARQ processes in the cell.
Measurement Points
This counter measures the number of transitions from using a single HARQ process to using all
HARQ processes within a measurement period in the serving cell.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSUPA.SingletoAllHARQNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-160213
Turbo IC Phase 2
WRFD-160205
CE Efficiency Improvement
for HSUPA TTI 2ms
LTE: None
HSUPA Mac-d TRB data volume in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332378
VS.HSUPA.Tra
ffic.TRB
HSUPA Mac-d
TRB data
volume in the
cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the traffic volume of HSUPA TRB PDUs in a cell. A DC-HSUPA user
is regarded as one HSUPA user in the primary carrier and one HSUPA user in the secondary
carrier, and this counter is measured in the two carriers separately.
Measurement Points
The traffic volume of Mac-d TRB PDUs successfully received from HSUPA users in the serving
cell is accumulated within a measurement period. For a DC-HSUPA user, the corresponding
counter is measured in the primary and secondary carriers separately.
Formula
None
Unit
kbit
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Related Features
Counter Name
Feature ID
Feature Name
VS.HSUPA.Traffic.TRB
Multi-mode: None
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Number of TTIs in which HSUPA Mac-e/Mac-i TRBs are received in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332379
VS.HSUPA.
2msPDU.TTI.N
um
Number of TTIs
in which
HSUPA 2 ms
Mac-e/Mac-i
TRBs are
received in a cell
BTS3900,
BTS3900
WCDMA
U
50332380
VS.HSUPA.
10msPDU.TTI.
Num
Number of TTIs
in which
HSUPA 10 ms
Mac-e/Mac-i
TRBs are
received in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSUPA.2msPDU.TTI.Num
This counter measures the number of TTIs in
which Mac-e/Mac-i TRBs are received from
HSUPA 2 ms TTI users in the serving cell
within a measurement period. A DC-HSUPA
user is regarded as one HSUPA user in the
primary carrier and one HSUPA user in the
secondary carrier, and this counter is
measured in the two carriers separately.
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Counter Name
Description
VS.HSUPA.10msPDU.TTI.Num
This counter measures the number of TTIs in
which Mac-e/Mac-i TRBs are received from
HSUPA 10 ms TTI users in the serving cell
within a measurement period. A DC-HSUPA
user is regarded as one HSUPA user in the
primary carrier and one HSUPA user in the
secondary carrier, and this counter is
measured in the two carriers separately. This
counter does not involve the number of
HSUPA 10 ms Mac-e/Mac-i TRB PDUs
received by the WBBPa.
Measurement Points
The number of TTIs in which Mac-e/Mac-i TRBs are received from HSUPA 2 ms TTI users in
the serving cell is accumulated within a measurement period, including the number of TTIs in
which TRBs are retransmitted. If Mac-e/Mac-i TRBs are received from multiple users in a TTI,
the VS.HSUPA.2msPDU.TTI.Num counter is repeatedly measured.
The number of TTIs in which Mac-e/Mac-i TRBs are received from HSUPA 10 ms TTI users
in the serving cell is accumulated within a measurement period, including the number of TTIs
in which TRBs are retransmitted. If Mac-e/Mac-i TRBs are received from multiple users in a
TTI, the VS.HSUPA.10msPDU.TTI.Num counter is repeatedly measured.
For a DC-HSUPA user, the corresponding counter is measured in the primary and secondary
carriers separately.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.
2msPDU.TTI.Num
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
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Package
228
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Counter Name
Feature ID
VS.HSUPA.
10msPDU.TTI.Num
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010612
HSUPA Introduction
Package
LTE: None
Average number of users with Turbo IC enabled in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332385
VS.HSUPA.Tur
boIC.Number
Average
number of users
with Turbo IC
enabled in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of users with Turbo IC enabled within a measurement
period in the HSUPA cell.
Measurement Points
This counter is sampled every 10 ms and measures the number of users with Turbo IC enabled
within a measurement period. The accumulated value is A, and the number of samples is B. The
formula for calculating this counter is: VS.HSUPA.TurboIC.Number=A/B.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSUPA.TurboIC.Number
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150206
Turbo IC
LTE: None
Traffic of Mac-e/Mac-i PDUs received from 2 ms TTI HSUPA users in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332386
VS.HSUPA.
2msTTI.Traffic
Traffic of Mace/Mac-i PDUs
received from 2
ms TTI HSUPA
users in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the total traffic of Mac-e/Mac-i PDUs correctly received from all 2 ms
TTI HSUPA users.
Measurement Points
The traffic of Mac-e/Mac-i PDUs correctly received from 2 ms TTI HSUPA users is sampled
in each TTI within a measurement period. At the end of the measurement period, the sum of
these sampling results is used as the value of this counter. This counter is measured in the serving
cell. If SRB over EDCH is enabled, this counter is not incremented when a UE transmits only
SRB data. For DC-HSUPA users, this counter is measured in primary carrier and secondary
carrier separately.
Formula
None
Unit
kbit
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Related Features
Counter Name
Feature ID
VS.HSUPA.2msTTI.Traffic
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010614
HSUPA Phase 2
LTE: None
Traffic of Mac-e/Mac-i PDUs received from 10 ms TTI HSUPA users in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332387
VS.HSUPA.
10msTTI.Traffi
c
Traffic of Mace/Mac-i PDUs
received from
10 ms TTI
HSUPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the total traffic of Mac-e/Mac-i PDUs correctly received from all 10 ms
TTI HSUPA users.
Measurement Points
The traffic of Mac-e/Mac-i PDUs correctly received from 10 ms TTI HSUPA users is sampled
in each TTI within a measurement period. At the end of the measurement period, the sum of
these sampling results is used as the value of this counter. This counter is measured in the serving
cell. If SRB over EDCH is enabled, this counter is not incremented when a UE transmits only
SRB data. For DC-HSUPA users, this counter is measured in primary carrier and secondary
carrier separately.
Formula
None
Unit
kbit
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Related Features
Counter Name
Feature ID
Feature Name
VS.HSUPA.
10msTTI.Traffic
Multi-mode: None
GSM: None
UMTS: WRFD-010612
LTE: None
HSUPA Introduction
Package
1.1.4 CPC Measurement (CPC.LOCELL)
Overview
The function subset consists of CPC-related counters for a cell to indicate the CPC cell status
and performance.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50331748
VS.CPC.DTXCfg.
UserNum
Number of UL_DTX
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331749
VS.CPC.DTXAct.U
serNum
User Numbers with
the status of
UL_DTX and
actived
Configuration
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331750
VS.CPC.DRXCfg.
UserNum
Number of DL_DRX
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331751
VS.CPC.DRXAct.
UserNum
User Numbers with
the status of
UL_DRX and
actived
Configuration
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
50331752
VS.CPC.LesOpCfg
.SceduledNum
Number of users in
Less mode in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50331753
VS.CPC.LesOpCfg
.LesModeNum
Schedule Numbers to
the user configured
Less opration Mode
and actually used less
transferred
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R011C00
Counter Relationship
None
Number of UL_DTX Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331748
VS.CPC.DTXC
fg.UserNum
Number of
UL_DTX users
in a cell
BTS3900,
BTS3900
WCDMA
U
50331749
VS.CPC.DTXA
ct.UserNum
User Numbers
with the status
of UL_DTX and
actived
Configuration
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.CPC.DTXCfg.UserNum
Number of UL_DTX users in a cell.
VS.CPC.DTXAct.UserNum
Number of active users in the status of
UL_DTX.
Measurement Points
During a measurement period, the NodeB counts the number of users configured in UL_DTX
mode within each sampling period (5s). Assume that the sum of these numbers within the
measurement period is A and the total number of sampling periods within the measurement
period is B. Then, VS.CPC.DTXCfg.UserNum = A/B.
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During a measurement period, the NodeB counts the number of users that are configured in
UL_DTX mode and also employ discontinuous transmission in the uplink within each sampling
period (5s). Assume that the sum of these numbers within the measurement period is C and the
total number of sampling periods within the measurement period is D. Then,
VS.CPC.DTXAct.UserNum = C/D.
The VS.CPC.DTXCfg.UserNum counter is measured at point E and the
VS.CPC.DTXAct.UserNum counter is measured at point F in the following figure:
Figure 1-6
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
Feature Name
VS.CPC.DTXCfg.UserNum
Multi-mode: None
GSM: None
UMTS: WRFD-010686
CPC-DTX/DRX
LTE: None
VS.CPC.DTXAct.UserNum
Multi-mode: None
GSM: None
UMTS: WRFD-010686
CPC-DTX/DRX
LTE: None
Number of DL_DRX Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331750
VS.CPC.DRXC
fg.UserNum
Number of
DL_DRX users
in a cell
BTS3900,
BTS3900
WCDMA
U
50331751
VS.CPC.DRXA
ct.UserNum
User Numbers
with the status
of UL_DRX and
actived
Configuration
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.CPC.DRXCfg.UserNum
Number of DL_DRX users in a cell.
VS.CPC.DRXAct.UserNum
Number of active users in the status of
DL_DRX.
Measurement Points
During a measurement period, the NodeB counts the number of users configured in DL_DRX
mode within each sampling period (5s). Assume that the sum of these numbers within the
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measurement period is A and the total number of sampling periods within the measurement
period is B. Then, VS.CPC.DRXCfg.UserNum = A/B.
During a measurement period, the NodeB counts the number of users that are configured in
DL_DRX mode and also employ discontinuous reception in the downlink within each sampling
period (5s). Assume that the sum of these numbers within the measurement period is C and the
total number of sampling periods within the measurement period is D. Then,
VS.CPC.DRXAct.UserNum = C/D.
The VS.CPC.DRXCfg.UserNum counter is measured at point E and the
VS.CPC.DRXAct.UserNum counter is measured at point F in the following figure:
Figure 1-7
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.CPC.DRXCfg.UserNum
Multi-mode: None
GSM: None
UMTS: WRFD-010686
CPC-DTX/DRX
LTE: None
VS.CPC.DRXAct.UserNum
Multi-mode: None
GSM: None
UMTS: WRFD-010686
CPC-DTX/DRX
LTE: None
Number of Users in HS-SCCH-Less Mode in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331752
VS.CPC.LesOp
Cfg.SceduledN
um
Number of users
in Less mode in
a cell
BTS3900,
BTS3900
WCDMA
U
50331753
VS.CPC.LesOp
Cfg.LesModeN
um
Schedule
Numbers to the
user configured
Less opration
Mode and
actually used
less transferred
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.CPC.LesOpCfg.SceduledNum
Total number of times all the users in HSSCCH-less mode in a cell are scheduled
during a measurement period.
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Counter Name
Description
VS.CPC.LesOpCfg.LesModeNum
Total number of times all the users in HSSCCH-less mode in a cell are scheduled and
perform the HS-SCCH-less operation during
a measurement period.
Measurement Points
The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling
is complete.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.CPC.LesOpCfg.SceduledNum
Multi-mode: None
GSM: None
UMTS: WRFD-010687
LTE: None
VS.CPC.LesOpCfg.LesModeNum
Feature Name
CPC-HS-SCCH less
operation
Multi-mode: None
GSM: None
UMTS: WRFD-010687
LTE: None
CPC-HS-SCCH less
operation
1.1.5 ERACH Measurement (ERACH.LOCELL)
Overview
The function subset consists of ERACH-related counters.
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Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332250
VS.ERACH.Occup
iedNum.Mean
Mean used Common
E-DCH number in
one cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50332251
VS.ERACH.Occup
iedNum.Max
Max used Common
E-DCH number in
one cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50332410
VS.ERACH.Thrup
ut
Throughput of ERACH users at the
Mac-i layer in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332411
VS.ERACH.DataTtiNum
Number of TTIs in
which E-RACH
users have data to
transmit in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
Counter Relationship
None
Number of used common E-DCHs in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332250
VS.ERACH.Oc
cupiedNum.Me
an
Mean used
Common EDCH number in
one cell
BTS3900,
BTS3900
WCDMA
U
50332251
VS.ERACH.Oc
cupiedNum.Ma
x
Max used
Common EDCH number in
one cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of used common E-DCHs in a cell.
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Measurement Points
The number of used common E-DCHs in a cell is sampled every five seconds. At the end of a
measurement period, the average number of used common E-DCHs is obtained by dividing the
accumulated value in the period by the number of samples. The maximum of these sampling
results is defined as the maximum number of used common E-DCHs in a cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ERACH.OccupiedNum.
Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
VS.ERACH.OccupiedNum.
Max
Multi-mode: None
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
Throughput of E-RACH users at the Mac-i layer in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332410
VS.ERACH.Th
ruput
Throughput of
E-RACH users
at the Mac-i
layer in a cell
BTS3900,
BTS3900
WCDMA
U
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Description
This counter measures the throughput of E-RACH users at the Mac-i layer within a measurement
period in a cell.
Measurement Points
This counter measures the total throughput of all E-RACH users at the Mac-i layer within a
measurement period.
Formula
None
Unit
bit
Related Features
Counter Name
Feature ID
VS.ERACH.Thruput
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
Number of TTIs in which E-RACH users have data to transmit in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332411
VS.ERACH.Da
taTtiNum
Number of TTIs
in which ERACH users
have data to
transmit in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of TTIs in which E-RACH users have data to transmit within
a measurement period in a cell.
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Measurement Points
This counter measures the total number of TTIs in which E-RACH users have data to transmit
within a measurement period in a cell. If multiple E-RACH users have data to transmit within
a measurement period, this counter is incremented accordingly. For 2 ms TTI HSUPA users,
this counter is measured once. For 10 ms TTI HSUPA users, this counter is measured five times.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.ERACH.DataTtiNum
Multi-mode: None
GSM: None
UMTS: WRFD-010701
LTE: None
Uplink Enhanced
CELL_FACH
1.1.6 SCCPCH Measurement (SCCPCH.LOCELL)
Overview
The function subset consists of SCCPCH-related counters for a cell.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332048
VS.FPNum.Receive
d.FACH
Number of FACH FP
frames correctly
received in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50332049
VS.FPNum.Discar
ded.FACH
Number of FACH FP
frames discarded in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332050
VS.FPNum.Receive
d.PCH
Number of PCH FP
frames correctly
received in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50332051
VS.FPNum.Discar
ded.PCH
Number of PCH FP
frames discarded in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
Counter Relationship
None
Statistics on Received and Discarded FACH FP Frames in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332048
VS.FPNum.Rec
eived.FACH
Number of
FACH FP
frames correctly
received in a cell
BTS3900,
BTS3900
WCDMA
U
50332049
VS.FPNum.Dis
carded.FACH
Number of
FACH FP
frames
discarded in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.FPNum.Received.FACH
Number of FACH FP frames correctly
received on the SCCPCH in a cell.
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Counter Name
Description
VS.FPNum.Discarded.FACH
Number of discarded FACH FP frames on the
SCCPCH in a cell. These frames are
discarded because of CRC errors, invalid
parameters, too-early frame arrival, or toolate frame arrival.
Measurement Points
VS.FPNum.Received.FACH is measured at point A. VS.FPNum.Discarded.FACH is measured
at point B. See the following figure:
Figure 1-8
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
Feature Name
VS.FPNum.Received.FACH
Multi-mode: None
GSM: None
UMTS: WRFD-022000
Physical Channel
Management
LTE: None
VS.FPNum.Discarded.FAC
H
Multi-mode: None
GSM: None
UMTS: WRFD-022000
Physical Channel
Management
LTE: None
Statistics on Received and Discarded PCH FP Frames in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332050
VS.FPNum.Rec
eived.PCH
Number of PCH
FP frames
correctly
received in a cell
BTS3900,
BTS3900
WCDMA
U
50332051
VS.FPNum.Dis
carded.PCH
Number of PCH
FP frames
discarded in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.FPNum.Received.PCH
Number of PCH FP frames correctly received
on the SCCPCH in a cell.
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Counter Name
Description
VS.FPNum.Discarded.PCH
Number of discarded PCH FP frames on the
SCCPCH in a cell. These frames are
discarded because of CRC errors, invalid
parameters, too-early frame arrival, or toolate frame arrival.
Measurement Points
VS.FPNum.Received.PCH is measured at point A. VS.FPNum.Discarded.PCH is measured at
point B. See the following figure:
Figure 1-9
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
Feature Name
VS.FPNum.Received.PCH
Multi-mode: None
GSM: None
UMTS: WRFD-022000
LTE: None
VS.FPNum.Discarded.PCH
Physical Channel
Management
Multi-mode: None
GSM: None
UMTS: WRFD-022000
LTE: None
Physical Channel
Management
1.1.7 DCH Measurement (DCH.LOCELL)
Overview
The function subset consists of DCH-related counters for a cell.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332052
VS.FPNum.Discar
ded.DCH
Number of downlink
DCH FP frames
discarded in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50332053
VS.FPNum.Late.D
CH
Number of downlink
DCH FP frames late
received in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
50332054
VS.FPNum.Receive
d.DCH
Number of downlink
DCH FP frames
correctly received in
a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R013C00
Counter Relationship
None
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Statistics on Received and Discarded Downlink DCH FP Frames in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332052
VS.FPNum.Dis
carded.DCH
Number of
downlink DCH
FP frames
discarded in a
cell
BTS3900,
BTS3900
WCDMA
U
50332053
VS.FPNum.Lat
e.DCH
Number of
downlink DCH
FP frames late
received in a cell
BTS3900,
BTS3900
WCDMA
U
50332054
VS.FPNum.Rec
eived.DCH
Number of
downlink DCH
FP frames
correctly
received in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.FPNum.Discarded.DCH
Number of discarded downlink DCH FP
frames in a cell. These frames are discarded
because of CRC errors, invalid parameters,
too-early frame arrival, or too-late frame
arrival.
VS.FPNum.Late.DCH
Number of downlink DCH FP frames
received later than expected (after ToAWE
but before LTOA) in a cell.
VS.FPNum.Received.DCH
Number of downlink DCH FP frames
correctly received in a cell.
Measurement Points
VS.FPNum.Discarded.DCH and VS.FPNum.Late.DCH are measured at point B.
VS.FPNum.Received.DCH is measured at point A. See the following figure:
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Figure 1-10
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.FPNum.Discarded.DCH
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021000
LTE: None
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Management
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Counter Name
Feature ID
Feature Name
VS.FPNum.Late.DCH
Multi-mode: None
GSM: None
UMTS: WRFD-021000
LTE: None
VS.FPNum.Received.DCH
Transport Channel
Management
Multi-mode: None
GSM: None
UMTS: WRFD-021000
LTE: None
Transport Channel
Management
1.1.8 Cell Algorithm Measurement (ALGO.LOCELL)
Overview
The function subset consists of algorithm-related counters.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50331917
VS.ValidAntRatio.
Mean
Average ratio of the
number of valid
antennas to the
number of
configured antennas
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332061
VS.FirstStageIcEff.
Mean
Average value of
stage 1 interference
cancellation
efficiency
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342048
VS.FirstStageIcEff.
Max
Maximum value of
stage 1 interference
cancellation
efficiency
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342049
VS.DlCode.Used.M
ean
Average number of
normalized
downlink codes used
in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332064
VS.DlCode.Used.M
ax
Maximum number of
normalized
downlink codes used
in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332258
VS.PLVA.User
Numbers of plva user
in one cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332388
VS.IRC.UserNum
Average number of
users using IRC in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332389
VS.CCPICPhase3.
CodeNum.Mean
Average number of
channels for CCPIC
Phase 3 by users in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
Counter Relationship
None
Average Ratio of the Number of Valid Antennas to the Number of Configured
Antennas
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331917
VS.ValidAntRa
tio.Mean
Average ratio of
the number of
valid antennas
to the number of
configured
antennas
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average ratio of the number of valid antennas to the number of
configured antennas.
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This counter will be measured regardless of whether Anti-imbalance in the Interference of the
Different Antenna is enabled. In one of the following scenarios, the counter is not measured and
is directly reported as 1000:
Multiple RRUs share one cell, for example, in 0.5/0.5 configuration mode, distributed sector
configuration mode (digital combination and split), and cell with independent demodulation of
signals from multiple RRUs in one cell mode.
20 W RRU3801Cs are configured.
Cells are created on the WBBPa board.
Measurement Points
This counter is sampled every five seconds and measures the ratio of the number of valid antennas
to the number of configured antennas. The accumulated value is A, and the number of samples
is B. The formula for calculating the counter is as follows: VS.ValidAntRatio.Mean=A/B.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
Feature Name
VS.ValidAntRatio.Mean
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
4-Antenna Receive Diversity
LTE: None
Average/Maximum Efficiency of Stage 1 Interference Cancellation (IC) in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332061
VS.FirstStageIc
Eff.Mean
Average value
of stage 1
interference
cancellation
efficiency
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342048
VS.FirstStageIc
Eff.Max
Maximum value
of stage 1
interference
cancellation
efficiency
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the ratio of the RTWP difference to the RTWP before interference
cancellation (IC) within a measurement period, reflecting stage 1 IC efficiency. The RTWP
difference indicates the difference between the RTWP before IC and the RTWP after stage 1
IC.
If Control Channel Parallel Interference Cancellation (Phase 2) takes effect, stage 1 IC is specific
to the DPCCH. If Control Channel Parallel Interference Cancellation (Phase 3) takes effect,
stage 1 IC is specific to the DPCCH, HS-DPCCH, or E-DPCCH. When the MTRU or RRU3801c
is used, an invalid value 0xffff is displayed.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the accumulated
IC efficiency is A, and the accumulated number of samples is B. The formula for calculating
this counter is: VS.FirstStageIcEff.Mean = A/B. VS.FirstStageIcEff.Max measures the
maximum IC efficiency.
Formula
None
Unit
%
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Related Features
Counter Name
Feature ID
VS.FirstStageIcEff.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140202
Control Channel Parallel
Interference Cancellation
(Phase 2)
WRFD-160201
LTE: None
VS.FirstStageIcEff.Max
Control Channel Parallel
Interference Cancellation
(Phase 3)
Multi-mode: None
GSM: None
UMTS: WRFD-140202
Control Channel Parallel
Interference Cancellation
(Phase 2)
WRFD-160201
LTE: None
Control Channel Parallel
Interference Cancellation
(Phase 3)
Number of Normalized Downlink Codes Used in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342049
VS.DlCode.Use
d.Mean
Average
number of
normalized
downlink codes
used in a cell
BTS3900,
BTS3900
WCDMA
U
50332064
VS.DlCode.Use
d.Max
Maximum
number of
normalized
downlink codes
used in a cell
BTS3900,
BTS3900
WCDMA
U
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Description
These counters indicate the average and maximum number of normalized downlink codes used
in a cell. The used codes are normalized using SF256. SF is short for spreading factor.
Used codes include the code resources used for the common channel, R99 channel, and HSDSCH. For example, if a code in SFk is normalized using SF256, the calculation formula is 256/
k. However, the codes used for service simulation in the NodeB in some scenarios are not
included, such as downlink load simulation or intermodulation interference.
Measurement Points
Within a measurement period, the number of used codes is sampled in a cell every one second.
Then, the used codes are normalized using SF256. At the end of the measurement period, the
number of normalized codes used in a cell is accumulated. The accumulated value divided by
the number of samples is defined as the value of the VS.DlCode.Used.Mean counter, and the
maximum of these sampling results is defined as the value of the VS.DlCode.Used.Max counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.DlCode.Used.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020108
Code Resource Management
LTE: None
VS.DlCode.Used.Max
Multi-mode: None
GSM: None
UMTS: WRFD-020108
Code Resource Management
LTE: None
User Number of PLVA in the local cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332258
VS.PLVA.User
Numbers of plva
user in one cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of users enabled with AMR voice quality improvement based
on PLVA in a cell.
Measurement Points
This counter is sampled every five seconds. Assume that the total number of users enabled with
AMR voice quality improvement based on PLVA in a cell is A, and the number of samples is
B. VS.PLVA.UserNum = A/B.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.PLVA.User
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-140201
LTE: None
AMR Voice Quality
Improvement Based on
PLVA
Average Number of IRC Users in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332388
VS.IRC.UserN
um
Average
number of users
using IRC in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of users using IRC in a cell.
Measurement Points
Within a measurement period, the number of users using IRC is sampled every 10ms. At the
end of the measurement period, the accumulated value of users using IRC is recorded as A, and
the number of samples is recorded as B.
A divided by B is used as the value of the VS.IRC.UserNum counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IRC.UserNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-160250
LTE: None
Interference Rejection
Combining (IRC)
Average Number of Channels for CCPIC Phase 3 in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332389
VS.CCPICPhas
e3.CodeNum.M
ean
Average
number of
channels for
CCPIC Phase 3
by users in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of HS-DPCCHs for CCPIC Phase 3 and E-DPCCHs
for CCPIC Phase 3 in a cell.
Measurement Points
With a measurement period, the number of HS-DPCCHs for CCPIC Phase 3 and E-DPCCHs
for CCPIC Phase 3 is sampled every five seconds in a cell. At the end of the measurement period,
the accumulated value of HS-DPCCHs for CCPIC Phase 3 is recorded as A, the accumulated
value of E-DPCCHs for CCPIC Phase 3 is recorded as A2, and the number of samples is recorded
as B. The sum of A1 and A2 divided by B is used as the value of the
VS.CCPICPhase3.CodNum.Mean counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.CCPICPhase3.CodeNu
m.Mean
Multi-mode: None
GSM: None
UMTS: WRFD-160201
LTE: None
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1.1.9 Cell Reserved Counter Measurement
(CELLRESERVE.LOCELL)
Overview
The function subset indicates measurements reserved for local cells. Reserved counter is used
temporarily in patch versions and will be replaced with a new counter in later versions. For the
detailed information about used reserved counters, see the "Used Reserved Counter List" of the
corresponding version.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50331740
VS.CellReserve.Co
unter1
Reserved 1 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331741
VS.CellReserve.Co
unter2
Reserved 2 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331742
VS.CellReserve.Co
unter3
Reserved 3 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331743
VS.CellReserve.Co
unter4
Reserved 4 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331744
VS.CellReserve.Co
unter5
Reserved 5 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331909
VS.CellReserve.Co
unter6
Reserved 6 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331910
VS.CellReserve.Co
unter7
Reserved 7 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
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Counter ID
Counter Name
Counter
Description
Original Release
50331911
VS.CellReserve.Co
unter8
Reserved 8 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331912
VS.CellReserve.Co
unter9
Reserved 9 in the cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50331913
VS.CellReserve.Co
unter10
Reserved 10 in the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332381
VS.CellReserve.Co
unter11
Reserved 11 in the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332382
VS.CellReserve.Co
unter12
Reserved 12 in the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332576
VS.CellReserve.Co
unter13
Reserved 13 in the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332577
VS.CellReserve.Co
unter14
Reserved 14 in the
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
Counter Relationship
None
Reserved 1 in the cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331740
VS.CellReserve
.Counter1
Reserved 1 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter1
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 2 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331741
VS.CellReserve
.Counter2
Reserved 2 in
the cell
BTS3900,
BTS3900
WCDMA
U
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Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter2
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 3 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331742
VS.CellReserve
.Counter3
Reserved 3 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter3
None.
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Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 4 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331743
VS.CellReserve
.Counter4
Reserved 4 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter4
None.
Measurement Points
None.
Formula
None
Unit
None
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Related Features
None
Reserved 5 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331744
VS.CellReserve
.Counter5
Reserved 5 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter5
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 6 in the cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331909
VS.CellReserve
.Counter6
Reserved 6 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter6
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 7 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331910
VS.CellReserve
.Counter7
Reserved 7 in
the cell
BTS3900,
BTS3900
WCDMA
U
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Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter7
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 8 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331911
VS.CellReserve
.Counter8
Reserved 8 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter8
None.
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Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 9 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331912
VS.CellReserve
.Counter9
Reserved 9 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter9
None.
Measurement Points
None.
Formula
None
Unit
None
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Related Features
None
Reserved 10 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331913
VS.CellReserve
.Counter10
Reserved 10 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter10
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 11 in the cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332381
VS.CellReserve
.Counter11
Reserved 11 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter11
None.
Measurement Points
None
Formula
None
Unit
None
Related Features
None
Reserved 12 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332382
VS.CellReserve
.Counter12
Reserved 12 in
the cell
BTS3900,
BTS3900
WCDMA
U
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Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter12
None.
Measurement Points
None
Formula
None
Unit
None
Related Features
None
Reserved 13 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332576
VS.CellReserve
.Counter13
Reserved 13 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter13
None.
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Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 14 in the cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332577
VS.CellReserve
.Counter14
Reserved 14 in
the cell
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.CellReserve.Counter14
None.
Measurement Points
None.
Formula
None
Unit
None
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Related Features
None
1.1.10 Cell Power Measurement (POWER.LOCELL)
Overview
The function subset consists of counters related to uplink load and downlink power.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332055
VS.DlPwrRatio.SF
256
Average ratio of SF
256 downlink code
channel transmit
power to the
maximum downlink
transmit power in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332056
VS.DlPwrRatio.SF
128
Average ratio of SF
128 downlink code
channel transmit
power to the
maximum downlink
transmit power in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332057
VS.DlPwrRatio.SF
64
Average ratio of SF
64 downlink code
channel transmit
power to the
maximum downlink
transmit power in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332058
VS.DlPwrRatio.SF
32
Average ratio of SF
32 downlink code
channel transmit
power to the
maximum downlink
transmit power in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332059
VS.DlPwrRatio.SF
16
Average ratio of SF
16 downlink code
channel transmit
power to the
maximum downlink
transmit power in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332060
VS.DlPwrRatio.SF
8
Average ratio of SF 8
downlink code
channel transmit
power to the
maximum downlink
transmit power in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332278
VS.DPCCH.R99.P
OWER
DPCCH uplink
power load of R99
services in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332279
VS.DPDCH.R99.
POWER
DPDCH uplink
power load of R99
services in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332280
VS.HSDPCCH.PO
WER
HSDPCCH uplink
power load of
HSDPA services in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332281
VS.DPCCH.
10ms.POWER
DPCCH uplink
power load of 10 ms
TTI HSUPA services
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332282
VS.DPCCH.
2ms.POWER
DPCCH uplink
power load of 2 ms
TTI HSUPA services
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332283
VS.EDPCCH.
10ms.POWER
EDPCCH uplink
power load of 10 ms
TTI HSUPA services
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332284
VS.EDPCCH.
2ms.POWER
EDPCCH uplink
power load of 2 ms
TTI HSUPA services
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332285
VS.EDPDCH.
10ms.POWER
EDPDCH uplink
power load of 10 ms
TTI HSUPA services
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332286
VS.EDPDCH.
2ms.POWER
EDPDCH uplink
power load of 2 ms
TTI HSUPA services
in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50361648
VS.DLDCHPwrRa
tio.SharedOperator0
Average ratio of
downlink DCH
transmit power
occupied by operator
0 in an MOCN
network
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50361649
VS.DLDCHPwrRa
tio.SharedOperator1
Average ratio of
downlink DCH
transmit power
occupied by operator
1 in an MOCN
network
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50361650
VS.DLDCHPwrRa
tio.SharedOperator2
Average ratio of
downlink DCH
transmit power
occupied by operator
2 in an MOCN
network
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50361651
VS.DLDCHPwrRa
tio.SharedOperator3
Average ratio of
downlink DCH
transmit power
occupied by operator
3 in an MOCN
network
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
Counter Relationship
None
Average Ratio of DPCH and F-DPCH Transmit Power over Different SF Code
Channels to the Maximum Downlink Transmit Power in a Cell
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332055
VS.DlPwrRatio
.SF256
Average ratio of
SF 256
downlink code
channel
transmit power
to the maximum
downlink
transmit power
in a cell
BTS3900,
BTS3900
WCDMA
U
50332056
VS.DlPwrRatio
.SF128
Average ratio of
SF 128
downlink code
channel
transmit power
to the maximum
downlink
transmit power
in a cell
BTS3900,
BTS3900
WCDMA
U
50332057
VS.DlPwrRatio
.SF64
Average ratio of
SF 64 downlink
code channel
transmit power
to the maximum
downlink
transmit power
in a cell
BTS3900,
BTS3900
WCDMA
U
50332058
VS.DlPwrRatio
.SF32
Average ratio of
SF 32 downlink
code channel
transmit power
to the maximum
downlink
transmit power
in a cell
BTS3900,
BTS3900
WCDMA
U
50332059
VS.DlPwrRatio
.SF16
Average ratio of
SF 16 downlink
code channel
transmit power
to the maximum
downlink
transmit power
in a cell
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332060
VS.DlPwrRatio
.SF8
Average ratio of
SF 8 downlink
code channel
transmit power
to the maximum
downlink
transmit power
in a cell
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the average ratio of DPCH and F-DPCH transmit power over different
SF code channels to the maximum downlink transmit power in a cell.
Measurement Points
The average permillage of DPCH and F-DPCH transmit power over different SF downlink code
channels to the maximum downlink transmit power in a cell is sampled every 200 ms. At the
end of a measurement period, the accumulated permillage is A, and the number of samples is
B. The formula for calculating this counter is A/B. If the cell is configured on the WBBPa board,
the value of this counter is 0.
Formula
None
Unit
per mill
Related Features
None
Uplink power loads of different services in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332278
VS.DPCCH.R9
9.POWER
DPCCH uplink
power load of
R99 services in
a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332279
VS.DPDCH.R9
9. POWER
DPDCH uplink
power load of
R99 services in
a cell
BTS3900,
BTS3900
WCDMA
U
50332280
VS.HSDPCCH.
POWER
HSDPCCH
uplink power
load of HSDPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
50332281
VS.DPCCH.
10ms.POWER
DPCCH uplink
power load of 10
ms TTI HSUPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
50332282
VS.DPCCH.
2ms.POWER
DPCCH uplink
power load of 2
ms TTI HSUPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
50332283
VS.EDPCCH.
10ms.POWER
EDPCCH
uplink power
load of 10 ms
TTI HSUPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
50332284
VS.EDPCCH.
2ms.POWER
EDPCCH
uplink power
load of 2 ms TTI
HSUPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
50332285
VS.EDPDCH.
10ms.POWER
EDPDCH
uplink power
load of 10 ms
TTI HSUPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
50332286
VS.EDPDCH.
2ms.POWER
EDPDCH
uplink power
load of 2 ms TTI
HSUPA
services in a cell
BTS3900,
BTS3900
WCDMA
U
Description
These counter measures the uplink power loads of different services over control channels or
data channels within a measurement period in a cell.
The following table describes the meanings of each counter:
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Counter Name
Description
VS.DPCCH.R99.POWER
This counter measures the ratio of DPCCH
uplink power of R99 users to the total uplink
power.
VS.DPDCH.R99. POWER
This counter measures the ratio of DPDCH
uplink power of R99 users to the total uplink
power.
VS.HSDPCCH.POWER
This counter measures the ratio of
HSDPCCH uplink power of HSDPA users to
the total uplink power, including only the CQI
load, not ACK/NACK load.
VS.DPCCH.10ms.POWER
This counter measures the ratio of DPCCH
uplink power of 10 ms TTI HSUPA users to
the total uplink power.
VS.DPCCH.2ms.POWER
This counter measures the ratio of DPCCH
uplink power of 2 ms TTI HSUPA users to
the total uplink power.
VS.EDPCCH.10ms.POWER
This counter measures the ratio of EDPCCH
uplink power of 10 ms TTI HSUPA users to
the total uplink power.
VS.EDPCCH.2ms.POWER
This counter measures the ratio of EDPCCH
uplink power of 2 ms TTI HSUPA users to
the total uplink power.
VS.EDPDCH.10ms.POWER
This counter measures the ratio of EDPDCH
uplink power of 10 ms TTI HSUPA users to
the total uplink power.
VS.EDPDCH.2ms.POWER
This counter measures the ratio of EDPDCH
uplink power of 2 ms TTI HSUPA users to
the total uplink power.
Measurement Points
This counter is sampled every 100 ms and measures the uplink power loads of different services
over control channels or data channels within a measurement period. The accumulated value is
A, and the number of samples is B. At the end of the measurement period, the uplink power
loads of different services over control channels or data channels are calculated by dividing A
by B.
Formula
None
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Unit
per mill
Related Features
None
Average Ratio of Downlink DCH Transmit Power Occupied by Operator 0 in an
MOCN Network
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50361648
VS.DLDCHPw
rRatio.SharedO
perator0
Average ratio of
downlink DCH
transmit power
occupied by
operator 0 in an
MOCN network
BTS3900,
BTS3900
WCDMA
U
50361649
VS.DLDCHPw
rRatio.SharedO
perator1
Average ratio of
downlink DCH
transmit power
occupied by
operator 1 in an
MOCN network
BTS3900,
BTS3900
WCDMA
U
50361650
VS.DLDCHPw
rRatio.SharedO
perator2
Average ratio of
downlink DCH
transmit power
occupied by
operator 2 in an
MOCN network
BTS3900,
BTS3900
WCDMA
U
50361651
VS.DLDCHPw
rRatio.SharedO
perator3
Average ratio of
downlink DCH
transmit power
occupied by
operator 3 in an
MOCN network
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average ratio of downlink DCH transmit power for all users served
by each operator to the maximum cell transmit power in an MOCN network. DCH power
consumption indicates the power consumed for DPDCHs and DPCCHs and the power consumed
for F-DPCHs for HSDPA users in CELL_DCH state with SRB over HSDPA enabled.
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Measurement Points
Using VS.DCHPwrRatio.SharedOperator0 as an example, the ratio of downlink DCH transmit
power for all users served by the operator to the maximum cell transmit power is sampled every
100 ms within a measurement period. At the end of the measurement period, the accumulated
value of the transmit power ratio is recorded as A, and the number of samples is recorded as B.
A divided by is used as the value of the VS.DLDCHPwrRatio.SharedOperator0 counter.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
VS.DLDCHPwrRatio.Share
dOperator0
Multi-mode: None
GSM: None
UMTS: WRFD-140223
LTE: None
VS.DLDCHPwrRatio.Share
dOperator1
GSM: None
LTE: None
GSM: None
LTE: None
MOCN Cell Resource
Demarcation
Multi-mode: None
GSM: None
UMTS: WRFD-140223
LTE: None
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MOCN Cell Resource
Demarcation
Multi-mode: None
UMTS: WRFD-140223
VS.DLDCHPwrRatio.Share
dOperator3
MOCN Cell Resource
Demarcation
Multi-mode: None
UMTS: WRFD-140223
VS.DLDCHPwrRatio.Share
dOperator2
Feature Name
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Demarcation
280
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1 NodeBFunction Performance Counter Measurement
1.1.11 EFACH Measurement (EFACH.LOCELL)
Overview
The function subset consists of EFACH-related counters for a cell.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332163
VS.EFACH.AckTti
Num
Number of TTIs in
Which the NodeB
Receives ACKs from
E-FACH Users in a
Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332164
VS.EFACH.NackT
tiNum
Number of TTIs in
Which the NodeB
Receives NACKs
from E-FACH Users
in a Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332165
VS.EFACH.DtxTti
Num
Number of TTIs in
Which the NodeB
Does Not Receive
ACKs or NACKs
from E-FACH Users
in a Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332162
VS.EFACH.DataTtiNum
Number of TTIs in
Which E-FACH
Users Have Data to
Transmit in a Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332161
VS.EFACH.Thrup
ut
E-FACH User
Throughput at the
MAC-ehs Layer in a
Cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341718
VS.EFACH.ScchP
wrRatio.Mean
Average HS-SCCH
transmit power of all
E-FACH users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341719
VS.EFACH.ScchP
wrRatio.Max
Maximum HSSCCH transmit
power of all E-FACH
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter ID
Counter Name
Counter
Description
Original Release
50341720
VS.EFACH.Pdsch
PwrRatio.Mean
Average HS-PDSCH
transmit power of all
E-FACH users in a
cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50341721
VS.EFACH.Pdsch
PwrRatio.Max
Maximum HSPDSCH transmit
power of all E-FACH
users in a cell
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
Counter Relationship
None
E-FACH HARQ Distributing in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332163
VS.EFACH.Ac
kTtiNum
Number of TTIs
in Which the
NodeB
Receives ACKs
from E-FACH
Users in a Cell
BTS3900,
BTS3900
WCDMA
U
50332164
VS.EFACH.Na
ckTtiNum
Number of TTIs
in Which the
NodeB
Receives
NACKs from EFACH Users in
a Cell
BTS3900,
BTS3900
WCDMA
U
50332165
VS.EFACH.Dt
xTtiNum
Number of TTIs
in Which the
NodeB Does
Not Receive
ACKs or
NACKs from EFACH Users in
a Cell
BTS3900,
BTS3900
WCDMA
U
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Description
These counters measure the number of TTIs in which the NodeB does not receive ACKs or
NACKs and receives ACKs and NACKs from E-FACH users over the HS-DPCCH in a cell.
The following table describes the meanings of each counter:
Counter Name
Description
VS.EFACH.AckTtiNum
This counter measures the number of TTIs in
which the NodeB receives ACKs from EFACH users over the HS-DPCCH in a cell.
VS.EFACH.NackTtiNum
This counter measures the number of TTIs in
which the NodeB receives NACKs from EFACH users over the HS-DPCCH in a cell.
VS.EFACH.DtxTtiNum
This counter measures the number of TTIs in
which the NodeB does not receive ACKs or
NACKs from these E-FACH users over the
HS-DPCCH in a cell.
Measurement Points
The number of TTIs in which the NodeB does not receive ACKs or NACKs or receives ACKs
or NACKs from E-FACH users over the HS-DPCCH is sampled every 2 ms. At the end of a
measurement period, the sum of these sampling results is used as the value of the corresponding
counter. The corresponding counter will be measured repeatedly if the NodeB does not receive
ACKs or NACKs or receives ACKs or NACKs from more than one E-FACH user within a TTI.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.EFACH.AckTtiNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
LTE: None
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CELL_FACH
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Counter Name
Feature ID
VS.EFACH.NackTtiNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
VS.EFACH.DtxTtiNum
Multi-mode: None
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
Number of TTIs in Which E-FACH Users Have Data to Transmit in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332162
VS.EFACH.Dat
aTtiNum
Number of TTIs
in Which EFACH Users
Have Data to
Transmit in a
Cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of TTIs in which E-FACH users have data to transmit in a
cell.This counter needs to be measured repeatedly if more than one E-FACH user have data to
transmit within a TTI.
Measurement Points
The number of TTIs in which E-FACH users have data to transmit is sampled every 2 ms. At
the end of a measurement period, the sum of these sampling results is used as the value of this
counter.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.EFACH.DataTtiNum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
E-FACH User Throughput at the MAC-ehs Layer in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332161
VS.EFACH.Thr
uput
E-FACH User
Throughput at
the MAC-ehs
Layer in a Cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the E-FACH user throughput at the MAC-ehs layer in a cell.
Measurement Points
The scheduling traffic volume of E-FACH users in a cell are accumulated within a measurement
period. The scheduling traffic volume includes the ACK scheduling traffic volume when EFACH users have HS-DPCCH feedbacks and the traffic volume of initial transmission when EFACH users have no HS-DPCCH feedbacks.
Formula
None
Unit
bit
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Related Features
Counter Name
Feature ID
VS.EFACH.Thruput
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
Average HS-SCCH transmit power of all E-FACH users in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341718
VS.EFACH.Scc
hPwrRatio.Mea
n
Average HSSCCH transmit
power of all EFACH users in a
cell
BTS3900,
BTS3900
WCDMA
U
50341719
VS.EFACH.Scc
hPwrRatio.Max
Maximum HSSCCH transmit
power of all EFACH users in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
These counters measures the average and maximum HS-SCCH transmit power of all E-FACH
users in a cell.
Measurement Points
The permillage of HS-SCCH transmit power for all E-FACH users to the maximum cell transmit
power is sampled every 2 ms within a TTI. At the end of a measurement period, the accumulated
permillage is A, and the number of TTIs is B. The formula for calculating
VS.EFACH.ScchPwrRatio.Mean is: VS.EFACH.ScchPwrRatio.Mean = A/B. This counter is
sampled every five seconds. At the end of a measurement period, the maximum sampling results
is used as the value of VS.EFACH.ScchPwrRatio.Max.
Formula
None
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Unit
per mill
Related Features
Counter Name
Feature ID
VS.EFACH.ScchPwrRatio.
Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
VS.EFACH.ScchPwrRatio.
Max
Multi-mode: None
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
Average HS-PDSCH transmit power of all E-FACH users in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341720
VS.EFACH.Pds
chPwrRatio.Me
an
Average HSPDSCH
transmit power
of all E-FACH
users in a cell
BTS3900,
BTS3900
WCDMA
U
50341721
VS.EFACH.Pds
chPwrRatio.Ma
x
Maximum HSPDSCH
transmit power
of all E-FACH
users in a cell
BTS3900,
BTS3900
WCDMA
U
Description
These counters measures the average and maximum HS-PDSCH transmit power of all E-FACH
users in a cell.
Measurement Points
The permillage of HS-PDSCH transmit power for all E-FACH users to the maximum cell
transmit power is sampled every 2 ms within a TTI. At the end of a measurement period, the
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accumulated permillage is A, and the number of TTIs is B. The formula for calculating
VS.EFACH.PdschPwrRatio.Mean is: VS.EFACH.PdschPwrRatio.Mean = A/B. This counter is
sampled every five seconds. At the end of a measurement period, the maximum sampling results
is used as the value of VS.EFACH.PdschPwrRatio.Max.
Formula
None
Unit
per mill
Related Features
Counter Name
Feature ID
Feature Name
VS.EFACH.PdschPwrRatio.
Mean
Multi-mode: None
GSM: None
UMTS: WRFD-010701
LTE: None
VS.EFACH.PdschPwrRatio.
Max
Uplink Enhanced
CELL_FACH
Multi-mode: None
GSM: None
UMTS: WRFD-010701
LTE: None
Uplink Enhanced
CELL_FACH
1.1.12 HSDPA Measurement 2 (HSDPA2.LOCELL)
Overview
The function subset indicates the running status and performance of the HSDPA cell on a NodeB.
Unless otherwise stated, HSDPA users are those in the CELL_DCH state.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332175
VS.HSDPA.Pdsch
CodeUsed.0
Number of times 0
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
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Counter ID
Counter Name
Counter
Description
Original Release
50332176
VS.HSDPA.Pdsch
CodeUsed.1
Number of times 1
HS-PDSCH code is
used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332177
VS.HSDPA.Pdsch
CodeUsed.2
Number of times 2
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332178
VS.HSDPA.Pdsch
CodeUsed.3
Number of times 3
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332179
VS.HSDPA.Pdsch
CodeUsed.4
Number of times 4
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332180
VS.HSDPA.Pdsch
CodeUsed.5
Number of times 5
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332181
VS.HSDPA.Pdsch
CodeUsed.6
Number of times 6
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332182
VS.HSDPA.Pdsch
CodeUsed.7
Number of times 7
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332183
VS.HSDPA.Pdsch
CodeUsed.8
Number of times 8
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332184
VS.HSDPA.Pdsch
CodeUsed.9
Number of times 9
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332185
VS.HSDPA.Pdsch
CodeUsed.10
Number of times 10
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
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Counter ID
Counter Name
Counter
Description
Original Release
50332186
VS.HSDPA.Pdsch
CodeUsed.11
Number of times 11
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332187
VS.HSDPA.Pdsch
CodeUsed.12
Number of times 12
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332188
VS.HSDPA.Pdsch
CodeUsed.13
Number of times 13
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332189
VS.HSDPA.Pdsch
CodeUsed.14
Number of times 14
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332190
VS.HSDPA.Pdsch
CodeUsed.15
Number of times 15
HS-PDSCH codes
are used in a cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50341723
VS.HSDPA.UserN
um.Mean
Average Number of
HSDPA Users in a
Cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50331747
VS.HSDPA.Data.Iu
bMacdPdu
Number of MAC-d
PDUs received over
Iub interfaces in a
cell
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50332219
VS.HSDPA.
64QAMCfg.Acted.
Traffic
Traffic of Mac-ehs
PDUs correctly
transmitted by
64QAM users in
64QAM mode in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332193
VS.HSDPA.
64QAMCfg.Traffic
Traffic of Mac-ehs
PDUs correctly
transmitted by all
64QAM users in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332204
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.0
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 0
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332205
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.1
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 1
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332206
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.2
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 2
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332207
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.3
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 3
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332208
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.4
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 4
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332209
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.5
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 5
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332210
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.6
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 6
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332211
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.7
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 7
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332212
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.8
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 8
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332213
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.9
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 9
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332214
VS.HSDPA.FullBu
ffer.Throughput.Su
mNum.10
Number of samples
in which the full
buffer throughput of
a single HSDPA user
is within the range of
interval 10
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332200
VS.HSDPA.DelayS
ensitive.DataOutpu
t.Urgency
Traffic of delay
sensitive BE services
preferentially
transmitted by
HSDPA users in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332199
VS.HSDPA.DelayS
ensitive.DataOutput
Traffic of delay
sensitive BE services
transmitted by all
HSDPA users in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332198
VS.HSDPA.Schedu
leNum.DelaySensiti
ve.Blind
Number of times
HSDPA users
running delay
sensitive BE services
are blind scheduled
in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332197
VS.HSDPA.Schedu
leNum.DelaySensitive
Number of times
HSDPA users
running delay
sensitive BE services
are scheduled in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332194
VS.HSDPA.NotSch
edule.CQI0
Number of times
HSDPA users are not
scheduled in a cell
due to CQI of 0
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332195
VS.HSDPA.NotSch
edule.InvalidCQI
Number of times
HSDPA users are not
scheduled in a cell
due to invalid CQI
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332196
VS.HSDPA.NotSch
edule.CMGAP
Number of times
HSDPA users within
the GAP period in
compressed mode
are not scheduled in a
cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332201
VS.HSDPA.Remai
nResLimit.ScchCo
de
Number of times the
next HSDPA user
cannot be scheduled
due to HS-SCCH
insufficiency in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332202
VS.HSDPA.Remai
nResLimit.PdschC
ode
Number of times the
next HSDPA user
cannot be scheduled
due to HS-PDSCH
insufficiency in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332203
VS.HSDPA.Remai
nResLimit.HSDPA
Pwr
Number of times the
next HSDPA user
cannot be scheduled
due to HSDPA
power insufficiency
in a cell
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332648
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.0
Total TTIs in Interval
0 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332649
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.1
Total TTIs in Interval
1 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332650
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.2
Total TTIs in Interval
2 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332651
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.3
Total TTIs in Interval
3 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332652
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.4
Total TTIs in Interval
4 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332653
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.5
Total TTIs in Interval
5 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332654
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.6
Total TTIs in Interval
6 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332655
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.7
Total TTIs in Interval
7 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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294
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332656
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.8
Total TTIs in Interval
8 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332657
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.9
Total TTIs in Interval
9 for Single HSDPA
Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332658
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.TTINum.10
Total TTIs in Interval
10 for Single
HSDPA Users with
Throughput Minus
Small Data Volume
in a Full Buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341748
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.0
Total data volume in
Interval 0 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341749
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.1
Total data volume in
Interval 1 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341750
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.2
Total data volume in
Interval 2 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341751
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.3
Total data volume in
Interval 3 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50341752
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.4
Total data volume in
Interval 4 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341753
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.5
Total data volume in
Interval 5 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341754
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.6
Total data volume in
Interval 6 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341755
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.7
Total data volume in
Interval 7 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341756
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.8
Total data volume in
Interval 8 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341757
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.9
Total data volume in
Interval 9 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341758
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughput.Traffic.10
Total data volume in
Interval 10 for single
HSDPA users with
throughput minus the
small data volume in
a full buffer
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332670
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughputSatisfied.TT
INum
Total TTIs in a Full
Buffer for Single
HSDPA Users with
Throughput Minus
Small Data Volume
Exceeding the Target
Threshold
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50341759
VS.HSDPA.FullBu
ffer.ThdLimit.Thro
ughputSatisfied.Tr
affic
Total Data Volume
in a Full Buffer for
Single HSDPA Users
with Throughput
Minus Small Data
Volume Exceeding
the Target Threshold
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332192
VS.HSDPAPwrSha
re.TtiNum
Number of TTIs
within which the
HSDPA cell uses
shared power
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
Counter Relationship
Root Counter
Level-1 Counter
VS.HSDPA.64QAMCfg.Traffic
VS.HSDPA.64QAMCfg.Acted.Traffic
VS.HSDPA.DelaySensitive.DataOutput
VS.HSDPA.DelaySensitive.DataOutput.Urgency
VS.HSDPA.ScheduleNum.DelaySensitive
VS.HSDPA.ScheduleNum.DelaySensitive.
Blind
Number of Times Different Quantities of HS-PDSCH Codes Are Used in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332175
VS.HSDPA.Pds
chCodeUsed.0
Number of
times 0 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332176
VS.HSDPA.Pds
chCodeUsed.1
Number of
times 1 HSPDSCH code is
used in a cell
BTS3900,
BTS3900
WCDMA
U
50332177
VS.HSDPA.Pds
chCodeUsed.2
Number of
times 2 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332178
VS.HSDPA.Pds
chCodeUsed.3
Number of
times 3 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332179
VS.HSDPA.Pds
chCodeUsed.4
Number of
times 4 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332180
VS.HSDPA.Pds
chCodeUsed.5
Number of
times 5 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332181
VS.HSDPA.Pds
chCodeUsed.6
Number of
times 6 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332182
VS.HSDPA.Pds
chCodeUsed.7
Number of
times 7 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332183
VS.HSDPA.Pds
chCodeUsed.8
Number of
times 8 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332184
VS.HSDPA.Pds
chCodeUsed.9
Number of
times 9 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332185
VS.HSDPA.Pds
chCodeUsed.10
Number of
times 10 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332186
VS.HSDPA.Pds
chCodeUsed.11
Number of
times 11 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332187
VS.HSDPA.Pds
chCodeUsed.12
Number of
times 12 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332188
VS.HSDPA.Pds
chCodeUsed.13
Number of
times 13 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332189
VS.HSDPA.Pds
chCodeUsed.14
Number of
times 14 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
50332190
VS.HSDPA.Pds
chCodeUsed.15
Number of
times 15 HSPDSCH codes
are used in a cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of times different quantities of HS-PDSCH codes are used
in a cell, which explains the usage of HS-PDSCH codes.
Measurement Points
This counter counts the accumulated TTIs within which a specific number of HS-PDSCH codes
are used. Assume that the number of accumulated TTIs is A and the number of used HS-PDSCH
codes is x. Then, VS.HSDPA.PdschCodeUsed.x = A.
For example, VS.HSDPA.PdschCodeUsed.5 counts the accumulated TTIs within which five
HS-PDSCH codes are used.
Formula
None
Unit
None
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.HSDPA.PdschCodeUsed.0
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPA.PdschCodeUsed.1
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
Issue 11 (2015–05–30)
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.6
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.5
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.4
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.3
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.2
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction
Package
300
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSDPA.PdschCodeUsed.7
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPA.PdschCodeUsed.8
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
Issue 11 (2015–05–30)
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.13
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.12
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.11
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.10
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.PdschCodeUsed.9
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction
Package
301
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSDPA.PdschCodeUsed.14
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.PdschCodeUsed.15
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Average Number of HSDPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341723
VS.HSDPA.Us
erNum.Mean
Average
Number of
HSDPA Users
in a Cell
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of HSDPA users in a cell.
Measurement Points
Within a measurement period, the total number of HSDPA users in each TTI is recorded as A,
and the number of TTIs within the measurement period is recorded as B. The formula for
calculating the counter is: VS.AttRLSETUP.MEAN=A/B. A multicarrier user is regarded as
one HSDPA user in the anchor carrier and one HSDPA user in the supplementary carrier, and
this counter is measured in the two carriers separately.
Formula
None
Unit
None
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.HSDPA.UserNum.Mean
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of MAC-d PDUs received over Iub interfaces in a cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50331747
VS.HSDPA.Dat
a.IubMacdPdu
Number of
MAC-d PDUs
received over
Iub interfaces in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
Number of HSDPA MAC-d PDUs (including those from E-FACH users and E-PCH users)
received over the Iub interface in a cell
Measurement Points
This counter measures the number of HSDPA MAC-d PDUs (including those from E-FACH
users and E-PCH users) received over the Iub interface in a cell within a measurement period.
If there are multi-carrier users in the cell, PDUs of the anchor and supplementary carriers are
counted to the anchor carrier.
Formula
None
Unit
bit
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Related Features
Counter Name
Feature ID
Feature Name
VS.HSDPA.Data.IubMacdPdu
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Traffic of Mac-ehs PDUs Correctly Transmitted by 64QAM Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332219
VS.HSDPA.
64QAMCfg.Act
ed.Traffic
Traffic of Macehs PDUs
correctly
transmitted by
64QAM users in
64QAM mode
in a cell
BTS3900,
BTS3900
WCDMA
U
50332193
VS.HSDPA.
64QAMCfg.Tra
ffic
Traffic of Macehs PDUs
correctly
transmitted by
all 64QAM
users in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSDPA.64QAMCfg.Acted.Traffic
This counter measures the traffic of Mac-ehs
PDUs correctly transmitted by 64QAM users
in 64QAM mode in a cell.
VS.HSDPA.64QAMCfg.Traffic
This counter measures the traffic of Mac-ehs
PDUs correctly transmitted by all 64QAM
users in a cell.
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Measurement Points
The traffic of MAC-ehs PDUs correctly transmitted by a 64QAM user in 64QAM mode and
received with ACKs is sampled in a cell. At the end of a measurement period, the sum of these
sampling results is defined as the value of the VS.HSDPA.64QAMCfg.Acted.Traffic counter.
The traffic of MAC-ehs PDUs correctly transmitted by a 64QAM user and received with ACKs
is sampled in a cell. At the end of a measurement period, the sum of these sampling results is
defined as the value of the VS.HSDPA.64QAMCfg.Traffic counter.
For a multicarrier user, the corresponding counter is measured in the anchor and supplementary
carriers separately.
Formula
None
Unit
bit
Related Features
Counter Name
Feature ID
VS.HSDPA.
64QAMCfg.Acted.Traffic
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010683
WRFD-010693
Downlink 64QAM
DL 64QAM+MIMO
LTE: None
VS.HSDPA.
64QAMCfg.Traffic
Multi-mode: None
GSM: None
UMTS: WRFD-010683
WRFD-010693
Downlink 64QAM
DL 64QAM+MIMO
LTE: None
Throughput Distribution of Single HSDPA User in a Full Buffer
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332204
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
0
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 0
BTS3900,
BTS3900
WCDMA
U
50332205
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
1
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 1
BTS3900,
BTS3900
WCDMA
U
50332206
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
2
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 2
BTS3900,
BTS3900
WCDMA
U
50332207
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
3
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 3
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332208
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
4
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 4
BTS3900,
BTS3900
WCDMA
U
50332209
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
5
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 5
BTS3900,
BTS3900
WCDMA
U
50332210
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
6
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 6
BTS3900,
BTS3900
WCDMA
U
50332211
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
7
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 7
BTS3900,
BTS3900
WCDMA
U
50332212
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
8
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 8
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332213
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
9
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 9
BTS3900,
BTS3900
WCDMA
U
50332214
VS.HSDPA.Ful
lBuffer.Throug
hput.SumNum.
10
Number of
samples in
which the full
buffer
throughput of a
single HSDPA
user is within
the range of
interval 10
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the number of samples for HSDPA users in a full buffer at different
throughput intervals, reflecting the distribution of the single HSDPA user throughput at these
throughput intervals.
After scheduling, HSDPA users have data to transmit in the full buffer.
Here,
Interval 0 ranges from 0 kbit/s to 512 kbit/s.
Interval 1 ranges from 512 kbit/s (included) to 1 Mbit/s.
Interval 2 ranges from 1 Mbit/s (included) to 2 Mbit/s.
Interval 3 ranges from 2 Mbit/s (included) to 3 Mbit/s.
Interval 4 ranges from 3 Mbit/s (included) to 4 Mbit/s.
Interval 5 ranges from 4 Mbit/s (included) to 5 Mbit/s.
Interval 6 ranges from 5 Mbit/s (included) to 7 Mbit/s.
Interval 7 ranges from 7 Mbit/s (included) to 10 Mbit/s.
Interval 8 ranges from 10 Mbit/s (included) to 15 Mbit/s.
Interval 9 ranges from 15 Mbit/s (included) to 21 Mbit/s.
Interval 10 indicates a value greater than or equal to 21 Mbit/s.
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Measurement Points
The downlink traffic of an HSDPA user is sampled every one second. Within a sampling period,
the accumulated value is recorded as A, and the duration in which HSDPA users have data to
transmit is recorded as B. In this counter, however, the traffic of HSDPA users having no data
to transmit in the full buffer after scheduling is not counted into A and the duration in which
HSDPA users having no data to transmit is not counted into B. At the end of the sampling period,
A divided by B is throughput of the HSDPA user, and the throughput is counted into the
corresponding throughput interval. For MC-HSDPA users, the counter is measured in the
corresponding scheduled cell.
Figure 1-11
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.0
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.1
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
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Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.6
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.5
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.4
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.3
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.2
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction
Package
310
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Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.7
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.8
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.9
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thro
ughput.SumNum.10
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Traffic of Delay Sensitive BE Services Transmitted by HSDPA Users in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332200
VS.HSDPA.Del
aySensitive.Dat
aOutput.Urgenc
y
Traffic of delay
sensitive BE
services
preferentially
transmitted by
HSDPA users in
a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332199
VS.HSDPA.Del
aySensitive.DataOutput
Traffic of delay
sensitive BE
services
transmitted by
all HSDPA
users in a cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSDPA.DelaySensitive.DataOutput.Urgency
This counter measures the traffic of MAC-hs/
MAC-ehs sensitive delay BE services
preferentially transmitted by HSDPA users
and received with ACKs in a cell. If the
waiting delay in the queue buffer for delay
sensitive BE services approaches the
maximum buffer delay, the BE services are
preferentially transmitted at the MAC-hs/
Mac-ehs layer. Delay sensitive BE services
are PS interactive and PS background
services that are delay sensitive, for example,
Skype.
VS.HSDPA.DelaySensitive.DataOutput
This counter measures the total traffic of
MAC-hs/MAC-ehs sensitive delay BE
services transmitted by all HSDPA users and
received with ACKs in a cell. Delay sensitive
BE services are PS interactive and PS
background services that are delay sensitive,
for example, Skype.
Measurement Points
The traffic of MAC-hs/MAC-ehs sensitive delay BE services transmitted by an HSDPA user
and received with ACKs is sampled in a cell. At the end of a measurement period, the sum of
these sampling results is defined as the value of the VS.HSDPA.DelaySensitive.DataOutput
counter.
The traffic of MAC-hs/MAC-ehs sensitive delay BE services preferentially transmitted by an
HSDPA user and received with ACKs is sampled in a cell. At the end of a measurement period,
the sum of these sampling results is defined as the value of the
VS.HSDPA.DelaySensitive.DataOutput.Urgency counter.
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For an MC-HSDPA user, the corresponding counter is measured in the anchor and
supplementary carriers separately.
Formula
None
Unit
bit
Related Features
Counter Name
Feature ID
VS.HSDPA.DelaySensitive.
DataOutput.Urgency
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150253
VoIP Application
Management
LTE: None
VS.HSDPA.DelaySensitive.
DataOutput
Multi-mode: None
GSM: None
UMTS: WRFD-150253
VoIP Application
Management
LTE: None
Number of Times HSDPA Users Running Delay Sensitive BE Services Are
Scheduled in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332198
VS.HSDPA.Sc
heduleNum.Del
aySensitive.Bli
nd
Number of
times HSDPA
users running
delay sensitive
BE services are
blind scheduled
in a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332197
VS.HSDPA.Sc
heduleNum.Del
aySensitive
Number of
times HSDPA
users running
delay sensitive
BE services are
scheduled in a
cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSDPA.ScheduleNum.DelaySensitive.
Blind
This counter measures the number of times
HSDPA users running delay sensitive BE
services are blind scheduled in a cell. Delay
sensitive BE services are PS interactive and
PS background services that are delay
sensitive, for example, Skype.
VS.HSDPA.ScheduleNum.DelaySensitive
This counter measures the number of times
HSDPA users running delay sensitive BE
services are scheduled in a cell. Delay
sensitive BE services are PS interactive and
PS background services that are delay
sensitive, for example, Skype.
Measurement Points
These counters are measured after MAC-hs/MAC-ehs scheduling completes. For an MIMO user,
if dual streams are used, these counters are measured twice; if a single stream is used, these
counters are measured once. For an MC user, these counters are measured in the anchor and
supplementary carriers separately.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSDPA.ScheduleNum.
DelaySensitive.Blind
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-150253
VoIP Application
Management
LTE: None
VS.HSDPA.ScheduleNum.
DelaySensitive
Multi-mode: None
GSM: None
UMTS: WRFD-150253
VoIP Application
Management
LTE: None
Number of Times HSDPA Users Are not Scheduled in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332194
VS.HSDPA.No
tSchedule.CQI0
Number of
times HSDPA
users are not
scheduled in a
cell due to CQI
of 0
BTS3900,
BTS3900
WCDMA
U
50332195
VS.HSDPA.No
tSchedule.InvalidCQI
Number of
times HSDPA
users are not
scheduled in a
cell due to
invalid CQI
BTS3900,
BTS3900
WCDMA
U
50332196
VS.HSDPA.No
tSchedule.CMG
AP
Number of
times HSDPA
users within the
GAP period in
compressed
mode are not
scheduled in a
cell
BTS3900,
BTS3900
WCDMA
U
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Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSDPA.NotSchedule.CQI0
This counter measures the number of times
HSDPA users having data to transmit in the
full buffer are not scheduled in a cell because
CQI is 0. CQI of 0 indicates that the CQI
reported by a UE is 0 or uplink
synchronization fails and therefore the CQI
reported by a UE is not obtained when radio
links are established.
VS.HSDPA.NotSchedule.InvalidCQI
This counter measures the number of times
HSDPA users having data to transmit in the
full buffer are not scheduled in a cell because
uplink coverage is poor and a valid CQI
cannot be obtained.
VS.HSDPA.NotSchedule.CMGAP
This counter measures the number of times
HSDPA users having data to transmit in the
full buffer are not scheduled in a cell because
the users are within the GAP period in
compressed mode.
Measurement Points
The VS.HSDPA.NotSchedule.CQI0 counter is incremented by 1 in the HSDPA cell each time
an HSDPA user having data to transmit in the full buffer is not scheduled within a TTI because
CQI is 0.
The VS.HSDPA.NotSchedule.InvalidCQI counter is incremented by 1 in the HSDPA cell each
time an HSDPA user having data to transmit in the full buffer is not scheduled within a TTI
because uplink coverage is poor and a valid CQI cannot be obtained.
The VS.HSDPA.NotSchedule.CMState counter is incremented by 1 in the HSDPA cell each
time an HSDPA user having data to transmit in the full buffer is not scheduled within a TTI
because the user is within the GAP period in compressed mode.
The corresponding counter is measured multiple times if more than one user meets the sampling
requirement within a TTI. For a multicarrier user, the corresponding counter is measured in the
anchor and supplementary carriers separately.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.HSDPA.NotSchedule.C
QI0
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.NotSchedule.In
validCQI
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.NotSchedule.C
MGAP
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of Times the Next HSDPA User Cannot be Scheduled Due to Resource
Insufficiency in a Cell
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332201
VS.HSDPA.Re
mainResLimit.S
cchCode
Number of
times the next
HSDPA user
cannot be
scheduled due to
HS-SCCH
insufficiency in
a cell
BTS3900,
BTS3900
WCDMA
U
50332202
VS.HSDPA.Re
mainResLimit.P
dschCode
Number of
times the next
HSDPA user
cannot be
scheduled due to
HS-PDSCH
insufficiency in
a cell
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332203
VS.HSDPA.Re
mainResLimit.
HSDPAPwr
Number of
times the next
HSDPA user
cannot be
scheduled due to
HSDPA power
insufficiency in
a cell
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.HSDPA.RemainResLimit.ScchCode
This counter measures the number of times
the next HSDPA user (including E-FACH
users and E-PCH users) in the candidate set
cannot be scheduled due to HS-SCCH
insufficiency in an HSDPA cell.
VS.HSDPA.RemainResLimit.PdschCode
This counter measures the number of times
the next HSDPA user (including E-FACH
users and E-PCH users) in the candidate set
cannot be scheduled due to HS-PDSCH
insufficiency in an HSDPA cell.
VS.HSDPA.RemainResLimit.HSDPAPwr
This counter measures the number of times
the next HSDPA user (including E-FACH
users and E-PCH users) in the candidate set
cannot be scheduled due to HSDPA power
insufficiency in an HSDPA cell.
Measurement Points
The VS.HSDPA.RemainResLimit.ScchCode counter is incremented by 1 in the HSDPA cell
each time an HSDPA user (including E-FACH users and E-PCH users) in the candidate set is
not scheduled within a TTI due to HS-SCCH insufficiency.
The VS.HSDPA.RemainResLimit.PdschCode counter is incremented by 1 in the HSDPA cell
each time an HSDPA user (including E-FACH users and E-PCH users) in the candidate set is
not scheduled within a TTI due to HS-PDSCH insufficiency.
The VS.HSDPA.RemainResLimit.HSDPAPwr counter is incremented by 1 in the HSDPA cell
each time an HSDPA user (including E-FACH users and E-PCH users) in the candidate set is
not scheduled within a TTI due to HS-PDSCH or HS-SCCH power insufficiency.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.RemainResLim
it.ScchCode
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.RemainResLim
it.PdschCode
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.RemainResLim
it.HSDPAPwr
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Throughput Distribution of Single HSDPA User in a Full Buffer(by TTIs)
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332648
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.0
Total TTIs in
Interval 0 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332649
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.1
Total TTIs in
Interval 1 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332650
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.2
Total TTIs in
Interval 2 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332651
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.3
Total TTIs in
Interval 3 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332652
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.4
Total TTIs in
Interval 4 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332653
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.5
Total TTIs in
Interval 5 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332654
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.6
Total TTIs in
Interval 6 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332655
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.7
Total TTIs in
Interval 7 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332656
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.8
Total TTIs in
Interval 8 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332657
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.9
Total TTIs in
Interval 9 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
50332658
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
TINum.10
Total TTIs in
Interval 10 for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume in
a Full Buffer
BTS3900,
BTS3900
WCDMA
U
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Description
These counters indicate the TTI distribution for HSDPA users with throughput minus the small
data volume in a full buffer at different throughput intervals.
Users in a full buffer are HSDPA users who have data to transmit in the buffer before scheduling
but are not scheduled or still have data to transmit in the buffer after scheduling.
Interval 0 ranges from 0 kbit/s to 512 kbit/s.
Interval 1 ranges from 512 kbit/s (included) to 1 Mbit/s.
Interval 2 ranges from 1 Mbit/s (included) to 2 Mbit/s.
Interval 3 ranges from 2 Mbit/s (included) to 3 Mbit/s.
Interval 4 ranges from 3 Mbit/s (included) to 4 Mbit/s.
Interval 5 ranges from 4 Mbit/s (included) to 5 Mbit/s.
Interval 6 ranges from 5 Mbit/s (included) to 7 Mbit/s.
Interval 7 ranges from 7 Mbit/s (included) to 10 Mbit/s.
Interval 8 ranges from 10 Mbit/s (included) to 15 Mbit/s.
Interval 9 ranges from 15 Mbit/s (included) to 21 Mbit/s.
Interval 10 indicates a value greater than or equal to 21 Mbit/s.
Measurement Points
The downlink data volume of an HSDPA user in a cell is sampled every one second and the
accumulated value within a sampling period is recorded as A. The duration in which HSDPA
data is transmitted within a sampling period is recorded as B. The downlink data volume in TTIs
for HSDPA users having no data to transmit in the full buffer after scheduling is not counted
into A. The TTIs in which HSDPA users having no data to transmit in the full buffer after
scheduling are not counted into B. If A is greater than or equal to the value of
ULOCELLRSVDPARA9 in the SET ULOCELLRSVDPARA command, A divided by B is
downlink throughput of the HSDPA user at the end of the sampling period. B of the HSDPA
user is accumulated to this counter in the corresponding throughput interval. For multicarrier
users, the counter is measured only over the primary carrier. That is, B is counted over the primary
carrier when HSDPA data is transmitted on any carrier for a multicarrier user.
Formula
None
Unit
None
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1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
0
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
1
GSM: None
UMTS: WRFD-010610
GSM: None
UMTS: WRFD-010610
GSM: None
UMTS: WRFD-010610
GSM: None
UMTS: WRFD-010610
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
Issue 11 (2015–05–30)
HSDPA Introduction
Package
Multi-mode: None
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
6
HSDPA Introduction
Package
Multi-mode: None
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
5
HSDPA Introduction
Package
Multi-mode: None
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
4
HSDPA Introduction
Package
Multi-mode: None
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
3
HSDPA Introduction
Package
Multi-mode: None
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
2
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction
Package
323
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
7
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
8
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
9
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.TTINum.
10
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Throughput Distribution of Single HSDPA User in a Full Buffer(by Data Volume)
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341748
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.0
Total data
volume in
Interval 0 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341749
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.1
Total data
volume in
Interval 1 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341750
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.2
Total data
volume in
Interval 2 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341751
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.3
Total data
volume in
Interval 3 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341752
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.4
Total data
volume in
Interval 4 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341753
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.5
Total data
volume in
Interval 5 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341754
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.6
Total data
volume in
Interval 6 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341755
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.7
Total data
volume in
Interval 7 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341756
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.8
Total data
volume in
Interval 8 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341757
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.9
Total data
volume in
Interval 9 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
50341758
VS.HSDPA.Ful
lBuffer.ThdLim
it.Throughput.T
raffic.10
Total data
volume in
Interval 10 for
single HSDPA
users with
throughput
minus the small
data volume in a
full buffer
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Description
These counters indicate the data volume distribution for HSDPA users with throughput minus
the small data volume in a full buffer at different throughput intervals.
Users in a full buffer are HSDPA users who have data to transmit in the buffer before scheduling
but are not scheduled or still have data to transmit in the buffer after scheduling.
Interval 0 ranges from 0 kbit/s to 512 kbit/s.
Interval 1 ranges from 512 kbit/s (included) to 1 Mbit/s.
Interval 2 ranges from 1 Mbit/s (included) to 2 Mbit/s.
Interval 3 ranges from 2 Mbit/s (included) to 3 Mbit/s.
Interval 4 ranges from 3 Mbit/s (included) to 4 Mbit/s.
Interval 5 ranges from 4 Mbit/s (included) to 5 Mbit/s.
Interval 6 ranges from 5 Mbit/s (included) to 7 Mbit/s.
Interval 7 ranges from 7 Mbit/s (included) to 10 Mbit/s.
Interval 8 ranges from 10 Mbit/s (included) to 15 Mbit/s.
Interval 9 ranges from 15 Mbit/s (included) to 21 Mbit/s.
Interval 10 indicates a value greater than or equal to 21 Mbit/s.
Measurement Points
The downlink data volume of an HSDPA user in a cell is sampled every one second and the
accumulated value within a sampling period is recorded as A. The duration in which HSDPA
data is transmitted within a sampling period is recorded as B. The downlink data volume in TTIs
for HSDPA users having no data to transmit in the full buffer after scheduling is not counted
into A. The TTIs in which HSDPA users having no data to transmit in the full buffer after
scheduling are not counted into B. If A is greater than or equal to the value of
ULOCELLRSVDPARA9 in the SET ULOCELLRSVDPARA command, A divided by B is
downlink throughput of the HSDPA user at the end of the sampling period. A of the HSDPA
user is accumulated to this counter in the corresponding throughput interval. For multicarrier
users, the counter is measured only over the primary carrier. That is, A is counted over the
primary carrier when HSDPA data is transmitted on any carrier for a multicarrier user.
Formula
None
Unit
kbit
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1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.0
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.1
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
HSDPA Introduction
Package
Multi-mode: None
GSM: None
UMTS: WRFD-010610
LTE: None
Issue 11 (2015–05–30)
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.6
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.5
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.4
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.3
HSDPA Introduction
Package
Multi-mode: None
UMTS: WRFD-010610
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.2
Feature Name
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction
Package
328
3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.7
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.8
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.9
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
VS.HSDPA.FullBuffer.Thd
Limit.Throughput.Traffic.10
Multi-mode: None
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Total TTIs in a Full Buffer for Single HSDPA Users with Throughput Minus Small
Data Volume Exceeding the Target Threshold
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332670
VS.HSDPA.Ful
lBuffer.ThdLim
it.ThroughputSa
tisfied.TTINum
Total TTIs in a
Full Buffer for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume
Exceeding the
Target
Threshold
BTS3900,
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Description
These counters indicate the number of TTIs for HSDPA users with throughput minus the small
data volume in a full buffer.
Users in a full buffer are HSDPA users who have data to transmit in the buffer before scheduling
but are not scheduled or still have data to transmit in the buffer after scheduling.
Measurement Points
The downlink data volume of an HSDPA user in a cell is sampled every one second and the
accumulated value within a sampling period is recorded as A. The duration in which HSDPA
data is transmitted within a sampling period is recorded as B. The downlink data volume in TTIs
for HSDPA users having no data to transmit in the full buffer after scheduling is not counted
into A. The TTIs in which HSDPA users having no data to transmit in the full buffer after
scheduling are not counted into B. If A is greater than or equal to the value of
ULOCELLRSVDPARA9 in the SET ULOCELLRSVDPARA command, A divided by B is
downlink throughput of the HSDPA user at the end of the sampling period. If the calculated
downlink throughput is greater than or equal to ULOCELLRSVDPARA10 in the SET
ULOCELLRSVDPARA command, B is accumulated to this counter for the HSDPA user. For
multicarrier users, the counter is measured only over the primary carrier. That is, B is counted
over the primary carrier when HSDPA data is transmitted on any carrier for a multicarrier user.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thd
Limit.ThroughputSatisfied.T
TINum
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
LTE: None
HSDPA Introduction
Package
Total Data Volume in a Full Buffer for Single HSDPA Users with Throughput
Minus Small Data Volume Exceeding the Target Threshold
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50341759
VS.HSDPA.Ful
lBuffer.ThdLim
it.ThroughputSa
tisfied.Traffic
Total Data
Volume in a Full
Buffer for
Single HSDPA
Users with
Throughput
Minus Small
Data Volume
Exceeding the
Target
Threshold
BTS3900,
BTS3900
WCDMA
U
Description
This counter indicates the data volume for HSDPA users with throughput minus the small data
volume in a full buffer.
Users in a full buffer are HSDPA users who have data to transmit in the buffer before scheduling
but are not scheduled or still have data to transmit in the buffer after scheduling.
Measurement Points
The downlink data volume of an HSDPA user in a cell is sampled every one second and the
accumulated value within a sampling period is recorded as A. The duration in which HSDPA
data is transmitted within a sampling period is recorded as B. The downlink data volume in TTIs
for HSDPA users having no data to transmit in the full buffer after scheduling is not counted
into A. The TTIs in which HSDPA users having no data to transmit in the full buffer after
scheduling are not counted into B. If A is greater than or equal to the value of
ULOCELLRSVDPARA9 in the SET ULOCELLRSVDPARA command, A divided by B is
downlink throughput of the HSDPA user at the end of the sampling period. If the calculated
downlink throughput is greater than or equal to ULOCELLRSVDPARA10 in the SET
ULOCELLRSVDPARA command, A is accumulated to this counter for the HSDPA user. For
multicarrier users, the counter is measured only over the primary carrier. That is, A is counted
over the primary carrier when HSDPA data is transmitted on any carrier for a multicarrier user.
Formula
None
Unit
kbit
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
VS.HSDPA.FullBuffer.Thd
Limit.ThroughputSatisfied.T
raffic
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010610
HSDPA Introduction
Package
LTE: None
Number of TTIs within which the HSDPA cell uses shared power
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332192
VS.HSDPAPwr
Share.TtiNum
Number of TTIs
within which the
HSDPA cell
uses shared
power
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of TTIs within which an HSDPA user queue (including EFACH users and E-PCH users) uses the shared power.
Measurement Points
In a measurement period, this counter is incremented by 1 if one or more HSDPA user queues
(including E-FACH users and E-PCH users) use the shared power within the current TTI in a
cell. An HSDPA user queue has used the shared power when both of the following conditions
are met:
1. The HSDPA cell obtains the shared power from other cells within a TTI.
2. The HSDPA user queue uses the shared power from other cells after all HSDPA available
power in the cell is used up.
Formula
None
Unit
None
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Related Features
Counter Name
Feature ID
Feature Name
VS.HSDPAPwrShare.TtiNum
Multi-mode: None
GSM: None
UMTS: WRFD-160251
LTE: None
HSDPA Inter-Cell Power
Sharing
1.2 Measurement of NodeB Performance (NodeB)
Overview
The object type consists of NodeB-related function subnets to indicate the NodeB status and
performance.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
IUB.NODEB
Iub Measurement per NodeB
TRAFFIC.NODEB
NodeB Hardware Baseband Resource
Measurement
NBAP.NODEB
NodeB NBAP Procedure Measurement
NODEBRESERVE.NODEB
NodeB Reserved Counter Measurement
TRAFFIC.TRPIP.NODEB
Iub Transmission Performance Measurement
per NodeB
1.2.1 Iub Measurement per NodeB (IUB.NODEB)
Overview
The function subset measures the traffic and performance on the physical ports of the NodeB
that serve the Iub interface.
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332578
VS.AttRLSETUP.
MEAN
The average number
of RL Setup Request
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332579
VS.AttRLADD.ME
AN
The average number
of RL Add Request
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332580
VS.AttRLRecfg.M
EAN
The average number
of RL
Reconfiguration
Preparation Request
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332581
VS.DedicMeaRpt.
MEAN
The average number
of Dedicated
Measurement
Reporting per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332673
VS.ATMUlTotal.1
ATM physical
port_1 uplink total
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332674
VS.ATMUlMaxUse
d.1
ATM physical
port_1 uplink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332675
VS.ATMUlAvgUse
d.1
ATM physical
port_1 uplink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332676
VS.ATMDlTotal.1
ATM physical
port_1 downlink
total bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332677
VS.ATMDlMaxUse
d.1
ATM physical
port_1 downlink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332678
VS.ATMDlAvgUse
d.1
ATM physical
port_1 downlink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332679
VS.IPUlTotal.1
IP physical port_1
uplink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332680
VS.IPUlMaxUsed.1
IP physical port_1
uplink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332681
VS.IPUlAvgUsed.1
IP physical port_1
uplink average used
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332682
VS.IPDlTotal.1
IP physical port_1
downlink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332683
VS.IPDlMaxUsed.1
IP physical port_1
downlink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332684
VS.IPDlAvgUsed.1
IP physical port_1
downlink average
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332685
VS.ATMUlTotal.2
ATM physical
port_2 uplink total
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332686
VS.ATMUlMaxUse
d.2
ATM physical
port_2 uplink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332687
VS.ATMUlAvgUse
d.2
ATM physical
port_2 uplink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332688
VS.ATMDlTotal.2
ATM physical
port_2 downlink
total bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332689
VS.ATMDlMaxUse
d.2
ATM physical
port_2 downlink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332690
VS.ATMDlAvgUse
d.2
ATM physical
port_2 downlink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332691
VS.IPUlTotal.2
IP physical port_2
uplink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332692
VS.IPUlMaxUsed.2
IP physical port_2
uplink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332693
VS.IPUlAvgUsed.2
IP physical port_2
uplink average used
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332694
VS.IPDlTotal.2
IP physical port_2
downlink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332695
VS.IPDlMaxUsed.2
IP physical port_2
downlink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332696
VS.IPDlAvgUsed.2
IP physical port_2
downlink average
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
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NodeBFunction Performance Counter Reference
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Counter ID
Counter Name
Counter
Description
Original Release
50332697
VS.ATMUlTotal.3
ATM physical
port_3 uplink total
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332698
VS.ATMUlMaxUse
d.3
ATM physical
port_3 uplink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332699
VS.ATMUlAvgUse
d.3
ATM physical
port_3 uplink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332700
VS.ATMDlTotal.3
ATM physical
port_3 downlink
total bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332701
VS.ATMDlMaxUse
d.3
ATM physical
port_3 downlink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332702
VS.ATMDlAvgUse
d.3
ATM physical
port_3 downlink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332703
VS.IPUlTotal.3
IP physical port_3
uplink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332704
VS.IPUlMaxUsed.3
IP physical port_3
uplink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332705
VS.IPUlAvgUsed.3
IP physical port_3
uplink average used
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332706
VS.IPDlTotal.3
IP physical port_3
downlink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332707
VS.IPDlMaxUsed.3
IP physical port_3
downlink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332708
VS.IPDlAvgUsed.3
IP physical port_3
downlink average
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332709
VS.ATMUlTotal.4
ATM physical port
uplink total
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332710
VS.ATMUlMaxUse
d.4
ATM physical
port_4 uplink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332711
VS.ATMUlAvgUse
d.4
ATM physical
port_4 uplink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332712
VS.ATMDlTotal.4
ATM physical
port_4 downlink
total bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332713
VS.ATMDlMaxUse
d.4
ATM physical
port_4 downlink
maximum used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332714
VS.ATMDlAvgUse
d.4
ATM physical
port_4 downlink
average used
bandwidth
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332715
VS.IPUlTotal.4
IP physical port_4
uplink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332716
VS.IPUlMaxUsed.4
IP physical port_4
uplink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332717
VS.IPUlAvgUsed.4
IP physical port_4
uplink average used
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332718
VS.IPDlTotal.4
IP physical port_4
downlink total
bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332719
VS.IPDlMaxUsed.4
IP physical port_4
downlink maximum
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332720
VS.IPDlAvgUsed.4
IP physical port_4
downlink average
used bandwidth
BTS3900 WCDMA:
version earlier than
V200R011C00
50332721
VS.IUB.FlowCtrol.
UL.AdjBW.LgcPor
t1.Max
IUB logic port_1
maximum UL
available bandwidth
BTS3900 WCDMA:
V200R012C00
50332722
VS.IUB.FlowCtrol.
UL.AdjBW.LgcPor
t1.Min
IUB logic port_1
minimum UL
available bandwidth
BTS3900 WCDMA:
V200R012C00
50332723
VS.IUB.FlowCtrol.
UL.AdjBW.LgcPor
t1.Avg
IUB logic port_1
average UL available
bandwidth
BTS3900 WCDMA:
V200R012C00
50332724
VS.IUB.FlowCtrol.
DL.AdjBW.LgcPor
t1.Max
IUB logic port_1
maximum DL
HSDPA available
bandwidth
BTS3900 WCDMA:
V200R012C00
50332725
VS.IUB.FlowCtrol.
DL.AdjBW.LgcPor
t1.Min
IUB logic port_1
minimum DL
HSDPA available
bandwidth
BTS3900 WCDMA:
V200R012C00
50332726
VS.IUB.FlowCtrol.
DL.AdjBW.LgcPor
t1.Avg
IUB logic port_1
average DL HSDPA
available bandwidth
BTS3900 WCDMA:
V200R012C00
50332727
VS.IUB.FlowCtrol.
UL.UpBW.Num.Lg
cPort1
IUB logic port_1
available UL
bandwidth increase
times
BTS3900 WCDMA:
V200R012C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332728
VS.IUB.FlowCtrol.
DL.Delay.UpBW.N
um.LgcPort1
IUB logic port_1 DL
HSDPA available
bandwidth increase
times after jitter
congestion released
BTS3900 WCDMA:
V200R012C00
50332729
VS.IUB.FlowCtrol.
DL.Drop.UpBW.N
um.LgcPort1
IUB logic port_1 DL
HSDPA available
bandwidth increase
times after packet
loss congestion
released
BTS3900 WCDMA:
V200R012C00
50332730
VS.IUB.FlowCtrol.
UL.DelayCong.Do
wnBWNum.LgcPo
rt1
IUB logic port_1
available UL
bandwidth decrease
times for jitter
congestion
BTS3900 WCDMA:
V200R012C00
50332731
VS.IUB.FlowCtrol.
DL.DelayCong.Do
wnBWNum.LgcPo
rt1
IUB logic port_1 DL
HSDPA available
bandwidth decrease
times for jitter
congestion
BTS3900 WCDMA:
V200R012C00
50332732
VS.IUB.FlowCtrol.
UL.DropCong.Dow
nBWNum.LgcPort
1
IUB logic port_1
available UL
bandwidth decrease
times for packet loss
congestion
BTS3900 WCDMA:
V200R012C00
50332733
VS.IUB.FlowCtrol.
DL.DropCong.Dow
nBWNum.LgcPort
1
IUB logic port_1 DL
HSDPA available
bandwidth decrease
times for packet loss
congestion
BTS3900 WCDMA:
V200R012C00
50332734
VS.IUB.FlowCtrol.
UL.SendNum.LgcP
ort1
IUB logic port_1
Number of UL
frames IUB logic
port sent successfully
BTS3900 WCDMA:
V200R012C00
50332735
VS.IUB.FlowCtrol.
DL.ReceiveNum.L
gcPort1
IUB logic port_1
Number of DL
HSDPA frames IUB
logic port received
BTS3900 WCDMA:
V200R012C00
50332736
VS.IUB.FlowCtrol.
UL.DropNum.Lgc
Port1
IUB logic port_1
Number of lost UL
frames
BTS3900 WCDMA:
V200R012C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50332737
VS.IUB.FlowCtrol.
DL.DropNum.Lgc
Port1
IUB logic port_1
Number of lost DL
HSDPA frames
BTS3900 WCDMA:
V200R012C00
50332738
VS.IUB.FlowCtrol.
UL.DelayVara.Lgc
Port1.Max
IUB logic port_1
maximum UL delay
jitter
BTS3900 WCDMA:
V200R012C00
50332739
VS.IUB.FlowCtrol.
UL.DelayVara.Lgc
Port1.Min
IUB logic port_1
minimum UL delay
jitter
BTS3900 WCDMA:
V200R012C00
50332740
VS.IUB.FlowCtrol.
UL.DelayVara.Lgc
Port1.Avg
IUB logic port_1
average UL delay
jitter
BTS3900 WCDMA:
V200R012C00
50332741
VS.IUB.FlowCtrol.
DL.DelayVara.Lgc
Port1.Max
IUB logic port_1
maximum DL
HSDPA delay jitter
BTS3900 WCDMA:
V200R012C00
50332742
VS.IUB.FlowCtrol.
DL.DelayVara.Lgc
Port1.Min
IUB logic port_1
minimum DL
HSDPA delay jitter
BTS3900 WCDMA:
V200R012C00
50332743
VS.IUB.FlowCtrol.
DL.DelayVara.Lgc
Port1.Avg
IUB logic port_1
average DL HSDPA
delay jitter
BTS3900 WCDMA:
V200R012C00
50332744
VS.IUB.FlowCtrol.
UL.CongTime.Lgc
Port1
IUB logic port_1 UL
congestion duration
BTS3900 WCDMA:
V200R012C00
50332745
VS.IUB.FlowCtrol.
DL.CongTime.Lgc
Port1
IUB logic port_1 DL
HSDPA congestion
duration
BTS3900 WCDMA:
V200R012C00
50332746
VS.IUB.FlowCtrol.
UL.AdjBW.LgcPor
t2.Max
IUB logic port_2
maximum UL
available bandwidth
BTS3900 WCDMA:
V200R012C00
50332747
VS.IUB.FlowCtrol.
UL.AdjBW.LgcPor
t2.Min
IUB logic port_2
minimum UL
available bandwidth
BTS3900 WCDMA:
V200R012C00
50332748
VS.IUB.FlowCtrol.
UL.AdjBW.LgcPor
t2.Avg
IUB logic port_2
average UL available
bandwidth
BTS3900 WCDMA:
V200R012C00
50332749
VS.IUB.FlowCtrol.
DL.AdjBW.LgcPor
t2.Max
IUB logic port_2
maximum DL
HSDPA available
bandwidth
BTS3900 WCDMA:
V200R012C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332750
VS.IUB.FlowCtrol.
DL.AdjBW.LgcPor
t2.Min
IUB logic port_2
minimum DL
HSDPA available
bandwidth
BTS3900 WCDMA:
V200R012C00
50332751
VS.IUB.FlowCtrol.
DL.AdjBW.LgcPor
t2.Avg
IUB logic port_2
average DL HSDPA
available bandwidth
BTS3900 WCDMA:
V200R012C00
50332752
VS.IUB.FlowCtrol.
UL.UpBW.Num.Lg
cPort2
IUB logic port_2
available UL
bandwidth increase
times
BTS3900 WCDMA:
V200R012C00
50332753
VS.IUB.FlowCtrol.
DL.Delay.UpBW.N
um.LgcPort2
IUB logic port_2 DL
HSDPA available
bandwidth increase
times after jitter
congestion released
BTS3900 WCDMA:
V200R012C00
50332754
VS.IUB.FlowCtrol.
DL.Drop.UpBW.N
um.LgcPort2
IUB logic port_2 DL
HSDPA available
bandwidth increase
times after packet
loss congestion
released
BTS3900 WCDMA:
V200R012C00
50332755
VS.IUB.FlowCtrol.
UL.DelayCong.Do
wnBWNum.LgcPo
rt2
IUB logic port_2
available UL
bandwidth decrease
times for jitter
congestion
BTS3900 WCDMA:
V200R012C00
50332756
VS.IUB.FlowCtrol.
DL.DelayCong.Do
wnBWNum.LgcPo
rt2
IUB logic port_2 DL
HSDPA available
bandwidth decrease
times for jitter
congestion
BTS3900 WCDMA:
V200R012C00
50332757
VS.IUB.FlowCtrol.
UL.DropCong.Dow
nBWNum.LgcPort
2
IUB logic port_2
available UL
bandwidth decrease
times for packet loss
congestion
BTS3900 WCDMA:
V200R012C00
50332758
VS.IUB.FlowCtrol.
DL.DropCong.Dow
nBWNum.LgcPort
2
IUB logic port_2 DL
HSDPA available
bandwidth decrease
times for packet loss
congestion
BTS3900 WCDMA:
V200R012C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332759
VS.IUB.FlowCtrol.
UL.SendNum.LgcP
ort2
IUB logic port_2
Number of UL
frames IUB logic
port sent successfully
BTS3900 WCDMA:
V200R012C00
50332760
VS.IUB.FlowCtrol.
DL.ReceiveNum.L
gcPort2
IUB logic port_2
Number of DL
HSDPA frames IUB
logic port received
BTS3900 WCDMA:
V200R012C00
50332761
VS.IUB.FlowCtrol.
UL.DropNum.Lgc
Port2
IUB logic port_2
Number of lost UL
frames
BTS3900 WCDMA:
V200R012C00
50332762
VS.IUB.FlowCtrol.
DL.DropNum.Lgc
Port2
IUB logic port_2
Number of lost DL
HSDPA frames
BTS3900 WCDMA:
V200R012C00
50332763
VS.IUB.FlowCtrol.
UL.DelayVara.Lgc
Port2.Max
IUB logic port_2
maximum UL delay
jitter
BTS3900 WCDMA:
V200R012C00
50332764
VS.IUB.FlowCtrol.
UL.DelayVara.Lgc
Port2.Min
IUB logic port_2
minimum UL delay
jitter
BTS3900 WCDMA:
V200R012C00
50332765
VS.IUB.FlowCtrol.
UL.DelayVara.Lgc
Port2.Avg
IUB logic port_2
average UL delay
jitter
BTS3900 WCDMA:
V200R012C00
50332766
VS.IUB.FlowCtrol.
DL.DelayVara.Lgc
Port2.Max
IUB logic port_2
maximum DL
HSDPA delay jitter
BTS3900 WCDMA:
V200R012C00
50332767
VS.IUB.FlowCtrol.
DL.DelayVara.Lgc
Port2.Min
IUB logic port_2
minimum DL
HSDPA delay jitter
BTS3900 WCDMA:
V200R012C00
50332768
VS.IUB.FlowCtrol.
DL.DelayVara.Lgc
Port2.Avg
IUB logic port_2
average DL HSDPA
delay jitter
BTS3900 WCDMA:
V200R012C00
50332769
VS.IUB.FlowCtrol.
UL.CongTime.Lgc
Port2
IUB logic port_2 UL
congestion duration
BTS3900 WCDMA:
V200R012C00
50332770
VS.IUB.FlowCtrol.
DL.CongTime.Lgc
Port2
IUB logic port_2 DL
HSDPA congestion
duration
BTS3900 WCDMA:
V200R012C00
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50342578
VS.AttRLSETUP.
MAX
The max number of
RL Setup Request
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342579
VS.AttRLADD.MA
X
The max number of
RL Add Request per
second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342580
VS.AttRLRecfg.M
AX
The max number of
RL Reconfiguration
Preparation Requeset
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342581
VS.DedicMeaRpt.
MAX
The max number of
Dedicated
Measurement
Reporting per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
Counter Relationship
None
Number of RL Setup Request per second
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332578
VS.AttRLSET
UP.MEAN
The average
number of RL
Setup Request
per second
BTS3900,
BTS3900
WCDMA
U
50342578
VS.AttRLSET
UP.MAX
The max
number of RL
Setup Request
per second
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum of RL Setup Request per second
during a measurement period.
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Measurement Points
Within a measurement period, the number of RL SETUP REQUEST messages per second is
recorded as A, and the number of seconds within the measurement period is recorded as B.
VS.AttRLSETUP.MEAN=A/B. VS.AttRLSETUP.MEAN is sampled every five seconds. At
the end of the measurement period, the maximum of these sampling results is used as the value
of VS.AttRLSETUP.MAX.
Formula
None
Unit
None
Related Features
None
Number of RL Add Request per second
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332579
VS.AttRLADD.
MEAN
The average
number of RL
Add Request per
second
BTS3900,
BTS3900
WCDMA
U
50342579
VS.AttRLADD.
MAX
The max
number of RL
Add Request per
second
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum of RL Add Request per second during
a measurement period.
Measurement Points
Within a measurement period, the number of RL ADD REQUEST messages per second is
recorded as A, and the number of seconds within the measurement period is recorded as B.
VS.AttRLADD.MEAN=A/B. VS.AttRLADD.MEAN is sampled every five seconds. At the end
of the measurement period, the maximum of these sampling results is used as the value of
VS.AttRLADD.MAX.
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NodeBFunction Performance Counter Reference
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Formula
None
Unit
None
Related Features
None
Number of RL Reconfiguration Preparation Request per second
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332580
VS.AttRLRecfg
.MEAN
The average
number of RL
Reconfiguration
Preparation
Request per
second
BTS3900,
BTS3900
WCDMA
U
50342580
VS.AttRLRecfg
.MAX
The max
number of RL
Reconfiguration
Preparation
Requeset per
second
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum of RL Reconfiguration Preparation
Request per second during a measurement period.
Measurement Points
Within a measurement period, the number of RL RECONFIGUATION PREPARE messages
per second is recorded as A, and the number of seconds within the measurement period is
recorded as B. VS.AttRLRecfg.MEAN=A/B. VS.AttRLRecfg.MEAN is sampled every five
seconds. At the end of the measurement period, the maximum of these sampling results is used
as the value of VS.AttRLRecfg.MAX.
Formula
None
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Unit
None
Related Features
None
Number of Dedicated Measurement Reporting per second
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332581
VS.DedicMeaR
pt.MEAN
The average
number of
Dedicated
Measurement
Reporting per
second
BTS3900,
BTS3900
WCDMA
U
50342581
VS.DedicMeaR
pt.MAX
The max
number of
Dedicated
Measurement
Reporting per
second
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and maximum of Dedicated Measurement
Reporting per second during a measurement period.
Measurement Points
Within a measurement period, the number of DEDICATED MEASUREMENT REPORT
messages per second is recorded as A, and the number of seconds within the measurement period
is recorded as B. VS.DedicMeaRpt.MEAN=A/B. VS.DedicMeaRpt.MEAN is sampled every
five seconds. At the end of the measurement period, the maximum of these sampling results is
used as the value of VS.DedicMeaRpt.MAX.
Formula
None
Unit
None
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Related Features
None
Available UL Bandwidth on ATM Physical Ports
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332673
VS.ATMUlTot
al.1
ATM physical
port_1 uplink
total bandwidth
BTS3900,
BTS3900
WCDMA
U
50332685
VS.ATMUlTot
al.2
ATM physical
port_2 uplink
total bandwidth
BTS3900,
BTS3900
WCDMA
U
50332697
VS.ATMUlTot
al.3
ATM physical
port_3 uplink
total bandwidth
BTS3900,
BTS3900
WCDMA
U
50332709
VS.ATMUlTot
al.4
ATM physical
port uplink total
bandwidth
BTS3900,
BTS3900
WCDMA
U
Description
For each of the preceding counters, the NodeB takes statistics about the available UL (outgoing
from the NodeB) bandwidth of an ATM physical port during a measurement period. If the
physical port carries an IMA group, the value of the counter is the total UL bandwidth of the
available IMA links in the IMA group. If the physical port is an STM-1 port or carries a UNI or
fractional ATM link, the value of the counter is the available UL bandwidth of the physical port.
The NodeB can take statistics on these counters for a maximum of four ATM physical ports.
One counter is specific for one physical port, and one physical port corresponds to one counter.
That is, the counters and the physical ports have a one-to-one relation between each other. These
counters are identical in application, since they are all used for traffic measurement at the
physical layer.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.ATMUlTotal.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlTotal.2
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlTotal.3
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlTotal.4
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Used UL Bandwidth on ATM Physical Ports
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332674
VS.ATMUlMa
xUsed.1
ATM physical
port_1 uplink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332675
VS.ATMUlAvg
Used.1
ATM physical
port_1 uplink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332686
VS.ATMUlMa
xUsed.2
ATM physical
port_2 uplink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332687
VS.ATMUlAvg
Used.2
ATM physical
port_2 uplink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332698
VS.ATMUlMa
xUsed.3
ATM physical
port_3 uplink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332699
VS.ATMUlAvg
Used.3
ATM physical
port_3 uplink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332710
VS.ATMUlMa
xUsed.4
ATM physical
port_4 uplink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332711
VS.ATMUlAvg
Used.4
ATM physical
port_4 uplink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
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Counter Name
Description
VS.ATMUlMaxUsed.1
For each of these counters, the NodeB takes
statistics about the maximum used UL
bandwidth on an ATM physical port during a
measurement period. The NodeB measures
the used UL bandwidth on the physical port
every five seconds within a measurement
period and then obtains the maximum value.
The NodeB can take statistics on these
counters for a maximum of four ATM
physical ports. One counter is specific for one
physical port, and one physical port
corresponds to one counter. That is, the
counters and the physical ports have a one-toone relation between each other. These
counters are identical in application, since
they are all used for traffic measurement at
the physical layer.
VS.ATMUlAvgUsed.1
For each of these counters, the NodeB takes
statistics about the average used UL
bandwidth on an ATM physical port during a
measurement period. The NodeB measures
the used UL bandwidth on the physical port
every five seconds within a measurement
period and then calculates the average value.
The NodeB can take statistics on these
counters for a maximum of four ATM
physical ports. One counter is specific for one
physical port, and one physical port
corresponds to one counter. That is, the
counters and the physical ports have a one-toone relation between each other. These
counters are identical in application, since
they are all used for traffic measurement at
the physical layer.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.ATMUlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlAvgUsed.1
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlMaxUsed.2
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlAvgUsed.2
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
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Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
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Counter Name
Feature ID
VS.ATMUlMaxUsed.3
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlAvgUsed.3
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlMaxUsed.4
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMUlAvgUsed.4
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Available DL Bandwidth on ATM Physical Ports
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332676
VS.ATMDlTot
al.1
ATM physical
port_1
downlink total
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332688
VS.ATMDlTot
al.2
ATM physical
port_2
downlink total
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332700
VS.ATMDlTot
al.3
ATM physical
port_3
downlink total
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332712
VS.ATMDlTot
al.4
ATM physical
port_4
downlink total
bandwidth
BTS3900,
BTS3900
WCDMA
U
Description
For each of the preceding counters, the NodeB takes statistics about the available DL (incoming
to the NodeB) bandwidth of an ATM physical port during a measurement period. If the physical
port carries an IMA group, the value of the counter is the total DL bandwidth of the available
IMA links in the IMA group. If the physical port is an STM-1 port or carries a UNI or fractional
ATM link, the value of the counter is the available DL bandwidth of the physical port. The
NodeB can take statistics on these counters for a maximum of four ATM physical ports. One
counter is specific for one physical port, and one physical port corresponds to one counter. That
is, the counters and the physical ports have a one-to-one relation between each other. These
counters are identical in application, since they are all used for traffic measurement at the
physical layer.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.ATMDlTotal.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlTotal.2
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlTotal.3
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlTotal.4
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Used DL Bandwidth on ATM Physical Ports
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332677
VS.ATMDlMa
xUsed.1
ATM physical
port_1
downlink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332678
VS.ATMDlAvg
Used.1
ATM physical
port_1
downlink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332689
VS.ATMDlMa
xUsed.2
ATM physical
port_2
downlink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332690
VS.ATMDlAvg
Used.2
ATM physical
port_2
downlink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332701
VS.ATMDlMa
xUsed.3
ATM physical
port_3
downlink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332702
VS.ATMDlAvg
Used.3
ATM physical
port_3
downlink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332713
VS.ATMDlMa
xUsed.4
ATM physical
port_4
downlink
maximum used
bandwidth
BTS3900,
BTS3900
WCDMA
U
50332714
VS.ATMDlAvg
Used.4
ATM physical
port_4
downlink
average used
bandwidth
BTS3900,
BTS3900
WCDMA
U
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Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.ATMDlMaxUsed.1
For each of these counters, the NodeB takes
statistics about the maximum used DL
bandwidth on an ATM physical port during a
measurement period. The NodeB measures
the used DL bandwidth on the physical port
every five seconds within a measurement
period and then obtains the maximum value.
The NodeB can take statistics on these
counters for a maximum of four ATM
physical ports. One counter is specific for one
physical port, and one physical port
corresponds to one counter. That is, the
counters and the physical ports have a one-toone relation between each other. These
counters are identical in application, since
they are all used for traffic measurement at
the physical layer.
VS.ATMDlAvgUsed.1
For each of these counters, the NodeB takes
statistics about the average used DL
bandwidth on an ATM physical port during a
measurement period. The NodeB measures
the used DL bandwidth on the physical port
every five seconds within a measurement
period and then calculates the average value.
The NodeB can take statistics on these
counters for a maximum of four ATM
physical ports. One counter is specific for one
physical port, and one physical port
corresponds to one counter. That is, the
counters and the physical ports have a one-toone relation between each other. These
counters are identical in application, since
they are all used for traffic measurement at
the physical layer.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
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Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.ATMDlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlAvgUsed.1
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlMaxUsed.2
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlAvgUsed.2
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
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Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
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Counter Name
Feature ID
VS.ATMDlMaxUsed.3
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlAvgUsed.3
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlMaxUsed.4
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
VS.ATMDlAvgUsed.4
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-05030101
WRFD-05030102
LTE: None
ATM over E1T1 on Iub
Interface
ATM over Channelized
STM-1/OC-3 on Iub
Interface
Available UL Bandwidth on IP Physical Ports
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332679
VS.IPUlTotal.1
IP physical
port_1 uplink
total bandwidth
BTS3900
WCDMA
U
50332691
VS.IPUlTotal.2
IP physical
port_2 uplink
total bandwidth
BTS3900
WCDMA
U
50332703
VS.IPUlTotal.3
IP physical
port_3 uplink
total bandwidth
BTS3900
WCDMA
U
50332715
VS.IPUlTotal.4
IP physical
port_4 uplink
total bandwidth
BTS3900
WCDMA
U
Description
For each of the preceding counters, the NodeB takes statistics about the available UL (outgoing
from the NodeB) bandwidth of an IP physical port during a measurement period. If the physical
port carries on MLPPP group or a PPP link, the value of the counter is the total UL bandwidth
of the available MLPPP links in the MLPPP group or the available bandwidth of the PPP link
respectively. If the physical port is a ETHTRUNK port or an Ethernet port, the value of the
counter depends on the negotiation for the port.If the physical port carries on TUNNEL, the
value of the counter is the total available UL bandwidth on current TUNNEL. If rate limitation
is set on the port, the value of the counter is the smaller value between the defined upper limit
of the rate and the measured available bandwidth. The NodeB can take statistics on these counters
for a maximum of four IP physical ports. One counter is specific for one physical port, and one
physical port corresponds to one counter. That is, the counters and the physical ports have a oneto-one relation between each other. These counters are identical in application, since they are
all used for traffic measurement at the physical layer.
Disuse Statement:
Counter 50332679 VS.IPUlTotal.1 will be replaced by counter 1542460296
VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300
VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version,
counters 50332679 VS.IPUlTotal.1 and 1542460296 VS.FEGE.TxTotalBW/1542460302
VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW
are both valid, and the value of counter 50332679 VS.IPUlTotal.1 is properly reported. Counter
50332679 VS.IPUlTotal.1 will be deleted in later versions. Using counter 50332679
VS.IPUlTotal.1 is not recommended.
Counter 50332691 VS.IPUlTotal.2 will be replaced by counter 1542460296
VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300
VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version,
counters 50332691 VS.IPUlTotal.2 and 1542460296 VS.FEGE.TxTotalBW/1542460302
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VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW
are both valid, and the value of counter 50332691 VS.IPUlTotal.2 is properly reported. Counter
50332691 VS.IPUlTotal.2 will be deleted in later versions. Using counter 50332691
VS.IPUlTotal.2 is not recommended.
Counter 50332703 VS.IPUlTotal.3 will be replaced by counter 1542460296
VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300
VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version,
counters 50332703 VS.IPUlTotal.3 and 1542460296 VS.FEGE.TxTotalBW/1542460302
VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW
are both valid, and the value of counter 50332703 VS.IPUlTotal.3 is properly reported. Counter
50332703 VS.IPUlTotal.3 will be deleted in later versions. Using counter 50332703
VS.IPUlTotal.3 is not recommended.
Counter 50332715 VS.IPUlTotal.4 will be replaced by counter 1542460296
VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300
VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version,
counters 50332715 VS.IPUlTotal.4 and 1542460296 VS.FEGE.TxTotalBW/1542460302
VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW
are both valid, and the value of counter 50332715 VS.IPUlTotal.4 is properly reported. Counter
50332715 VS.IPUlTotal.4 will be deleted in later versions. Using counter 50332715
VS.IPUlTotal.4 is not recommended.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IPUlTotal.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlTotal.2
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.IPUlTotal.3
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPUlTotal.4
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
Used UL Bandwidth on IP Physical Ports
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332680
VS.IPUlMaxUs
ed.1
IP physical
port_1 uplink
maximum used
bandwidth
BTS3900
WCDMA
U
50332681
VS.IPUlAvgUs
ed.1
IP physical
port_1 uplink
average used
bandwidth
BTS3900
WCDMA
U
50332692
VS.IPUlMaxUs
ed.2
IP physical
port_2 uplink
maximum used
bandwidth
BTS3900
WCDMA
U
50332693
VS.IPUlAvgUs
ed.2
IP physical
port_2 uplink
average used
bandwidth
BTS3900
WCDMA
U
50332704
VS.IPUlMaxUs
ed.3
IP physical
port_3 uplink
maximum used
bandwidth
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332705
VS.IPUlAvgUs
ed.3
IP physical
port_3 uplink
average used
bandwidth
BTS3900
WCDMA
U
50332716
VS.IPUlMaxUs
ed.4
IP physical
port_4 uplink
maximum used
bandwidth
BTS3900
WCDMA
U
50332717
VS.IPUlAvgUs
ed.4
IP physical
port_4 uplink
average used
bandwidth
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
Counter Name
Description
VS.IPUlMaxUsed.1
For each of these counters, the NodeB takes
statistics about the maximum used UL
bandwidth on an IP physical port during a
measurement period. The NodeB measures
the used UL bandwidth on the physical port
every five seconds within a measurement
period and then obtains the maximum value.
The NodeB can take statistics on these
counters for a maximum of four IP physical
ports. One counter is specific for one physical
port, and one physical port corresponds to one
counter. That is, the counters and the physical
ports have a one-to-one relation between each
other. These counters are identical in
application, since they are all used for traffic
measurement at the physical layer.
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Counter Name
Description
VS.IPUlAvgUsed.1
For each of these counters, the NodeB takes
statistics about the average used UL
bandwidth on an IP physical port during a
measurement period. The NodeB measures
the used UL bandwidth on the physical port
every five seconds within a measurement
period and then calculates the average value.
The NodeB can take statistics on these
counters for a maximum of four IP physical
ports. One counter is specific for one physical
port, and one physical port corresponds to one
counter. That is, the counters and the physical
ports have a one-to-one relation between each
other. These counters are identical in
application, since they are all used for traffic
measurement at the physical layer.
Disuse Statement:
Counter 50332680 VS.IPUlMaxUsed.1 will be replaced by counter 1542455302
VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358
VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current
version, counters 50332680 VS.IPUlMaxUsed.1 and 1542455302 VS.FEGE.TxMaxSpeed/
1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343
VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332680 VS.IPUlMaxUsed.1 is
properly reported. Counter 50332680 VS.IPUlMaxUsed.1 will be deleted in later versions.
Using counter 50332680 VS.IPUlMaxUsed.1 is not recommended.
Counter 50332681 VS.IPUlAvgUsed.1 will be replaced by counter 1542455304
VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360
VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current
version, counters 50332681 VS.IPUlAvgUsed.1 and 1542455304 VS.FEGE.TxMeanSpeed/
1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345
VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332681 VS.IPUlAvgUsed.1
is properly reported. Counter 50332681 VS.IPUlAvgUsed.1 will be deleted in later versions.
Using counter 50332681 VS.IPUlAvgUsed.1 is not recommended.
Counter 50332692 VS.IPUlMaxUsed.2 will be replaced by counter 1542455302
VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358
VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current
version, counters 50332692 VS.IPUlMaxUsed.2 and 1542455302 VS.FEGE.TxMaxSpeed/
1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343
VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332692 VS.IPUlMaxUsed.2 is
properly reported. Counter 50332692 VS.IPUlMaxUsed.2 will be deleted in later versions.
Using counter 50332692 VS.IPUlMaxUsed.2 is not recommended.
Counter 50332693 VS.IPUlAvgUsed.2 will be replaced by counter 1542455304
VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360
VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current
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version, counters 50332693 VS.IPUlAvgUsed.2 and 1542455304 VS.FEGE.TxMeanSpeed/
1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345
VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332693 VS.IPUlAvgUsed.2
is properly reported. Counter 50332693 VS.IPUlAvgUsed.2 will be deleted in later versions.
Using counter 50332693 VS.IPUlAvgUsed.2 is not recommended.
Counter 50332704 VS.IPUlMaxUsed.3 will be replaced by counter 1542455302
VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358
VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current
version, counters 50332704 VS.IPUlMaxUsed.3 and 1542455302 VS.FEGE.TxMaxSpeed/
1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343
VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332704 VS.IPUlMaxUsed.3 is
properly reported. Counter 50332704 VS.IPUlMaxUsed.3 will be deleted in later versions.
Using counter 50332704 VS.IPUlMaxUsed.3 is not recommended.
Counter 50332705 VS.IPUlAvgUsed.3 will be replaced by counter 1542455304
VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360
VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current
version, counters 50332705 VS.IPUlAvgUsed.3 and 1542455304 VS.FEGE.TxMeanSpeed/
1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345
VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332705 VS.IPUlAvgUsed.3
is properly reported. Counter 50332705 VS.IPUlAvgUsed.3 will be deleted in later versions.
Using counter 50332705 VS.IPUlAvgUsed.3 is not recommended.
Counter 50332716 VS.IPUlMaxUsed.4 will be replaced by counter 1542455302
VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358
VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current
version, counters 50332716 VS.IPUlMaxUsed.4 and 1542455302 VS.FEGE.TxMaxSpeed/
1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343
VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332716 VS.IPUlMaxUsed.4 is
properly reported. Counter 50332716 VS.IPUlMaxUsed.4 will be deleted in later versions.
Using counter 50332716 VS.IPUlMaxUsed.4 is not recommended.
Counter 50332717 VS.IPUlAvgUsed.4 will be replaced by counter 1542455304
VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360
VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current
version, counters 50332717 VS.IPUlAvgUsed.4 and 1542455304 VS.FEGE.TxMeanSpeed/
1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345
VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332717 VS.IPUlAvgUsed.4
is properly reported. Counter 50332717 VS.IPUlAvgUsed.4 will be deleted in later versions.
Using counter 50332717 VS.IPUlAvgUsed.4 is not recommended.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.IPUlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlAvgUsed.1
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlMaxUsed.2
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlAvgUsed.2
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlMaxUsed.3
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlAvgUsed.3
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPUlMaxUsed.4
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
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Counter Name
Feature ID
VS.IPUlAvgUsed.4
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
Available DL Bandwidth on IP Physical Ports
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332682
VS.IPDlTotal.1
IP physical
port_1
downlink total
bandwidth
BTS3900
WCDMA
U
50332694
VS.IPDlTotal.2
IP physical
port_2
downlink total
bandwidth
BTS3900
WCDMA
U
50332706
VS.IPDlTotal.3
IP physical
port_3
downlink total
bandwidth
BTS3900
WCDMA
U
50332718
VS.IPDlTotal.4
IP physical
port_4
downlink total
bandwidth
BTS3900
WCDMA
U
Description
For each of the preceding counters, the NodeB takes statistics about the available DL (incoming
to the NodeB) bandwidth of an IP physical port during a measurement period. If the physical
port carries on MLPPP group or a PPP link, the value of the counter is the total DL bandwidth
of the available MLPPP links in the MLPPP group or the available bandwidth of the PPP link
respectively. If the physical port is a ETHTRUNK port or an Ethernet port, the value of the
counter depends on the negotiation for the port.If the physical port carries on TUNNEL, the
value of the counter is the total available DL bandwidth on current TUNNEL. The NodeB can
take statistics on these counters for a maximum of four IP physical ports. One counter is specific
for one physical port, and one physical port corresponds to one counter. That is, the counters
and the physical ports have a one-to-one relation between each other. These counters are identical
in application, since they are all used for traffic measurement at the physical layer.
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Disuse Statement:
Counter 50332682 VS.IPDlTotal.1 will be replaced by counter 1542460297
VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301
VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version,
counters 50332682 VS.IPDlTotal.1 and 1542460297 VS.FEGE.RxTotalBW/1542460303
VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW
are both valid, and the value of counter 50332682 VS.IPDlTotal.1 is properly reported. Counter
50332682 VS.IPDlTotal.1 will be deleted in later versions. Using counter 50332682
VS.IPDlTotal.1 is not recommended.
Counter 50332694 VS.IPDlTotal.2 will be replaced by counter 1542460297
VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301
VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version,
counters 50332694 VS.IPDlTotal.2 and 1542460297 VS.FEGE.RxTotalBW/1542460303
VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW
are both valid, and the value of counter 50332694 VS.IPDlTotal.2 is properly reported. Counter
50332694 VS.IPDlTotal.2 will be deleted in later versions. Using counter 50332694
VS.IPDlTotal.2 is not recommended.
Counter 50332706 VS.IPDlTotal.3 will be replaced by counter 1542460297
VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301
VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version,
counters 50332706 VS.IPDlTotal.3 and 1542460297 VS.FEGE.RxTotalBW/1542460303
VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW
are both valid, and the value of counter 50332706 VS.IPDlTotal.3 is properly reported. Counter
50332706 VS.IPDlTotal.3 will be deleted in later versions. Using counter 50332706
VS.IPDlTotal.3 is not recommended.
Counter 50332718 VS.IPDlTotal.4 will be replaced by counter 1542460297
VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301
VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version,
counters 50332718 VS.IPDlTotal.4 and 1542460297 VS.FEGE.RxTotalBW/1542460303
VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW
are both valid, and the value of counter 50332718 VS.IPDlTotal.4 is properly reported. Counter
50332718 VS.IPDlTotal.4 will be deleted in later versions. Using counter 50332718
VS.IPDlTotal.4 is not recommended.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
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Related Features
Counter Name
Feature ID
VS.IPDlTotal.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPDlTotal.2
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPDlTotal.3
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPDlTotal.4
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
Used DL Bandwidth on IP Physical Ports
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332683
VS.IPDlMaxUs
ed.1
IP physical
port_1
downlink
maximum used
bandwidth
BTS3900
WCDMA
U
50332684
VS.IPDlAvgUs
ed.1
IP physical
port_1
downlink
average used
bandwidth
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332695
VS.IPDlMaxUs
ed.2
IP physical
port_2
downlink
maximum used
bandwidth
BTS3900
WCDMA
U
50332696
VS.IPDlAvgUs
ed.2
IP physical
port_2
downlink
average used
bandwidth
BTS3900
WCDMA
U
50332707
VS.IPDlMaxUs
ed.3
IP physical
port_3
downlink
maximum used
bandwidth
BTS3900
WCDMA
U
50332708
VS.IPDlAvgUs
ed.3
IP physical
port_3
downlink
average used
bandwidth
BTS3900
WCDMA
U
50332719
VS.IPDlMaxUs
ed.4
IP physical
port_4
downlink
maximum used
bandwidth
BTS3900
WCDMA
U
50332720
VS.IPDlAvgUs
ed.4
IP physical
port_4
downlink
average used
bandwidth
BTS3900
WCDMA
U
Description
The following table describes the meanings of each counter:
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Counter Name
Description
VS.IPDlMaxUsed.1
For each of these counters, the NodeB takes
statistics about the maximum used DL
bandwidth on an IP physical port during a
measurement period. The NodeB measures
the used DL bandwidth on the physical port
every five seconds within a measurement
period and then obtains the maximum value.
The NodeB can take statistics on these
counters for a maximum of four IP physical
ports. One counter is specific for one physical
port, and one physical port corresponds to one
counter. That is, the counters and the physical
ports have a one-to-one relation between each
other. These counters are identical in
application, since they are all used for traffic
measurement at the physical layer.
VS.IPDlAvgUsed.1
For each of these counters, the NodeB takes
statistics about the average used DL
bandwidth on an IP physical port during a
measurement period. The NodeB measures
the used DL bandwidth on the physical port
every five seconds within a measurement
period and then calculates the average value.
The NodeB can take statistics on these
counters for a maximum of four IP physical
ports. One counter is specific for one physical
port, and one physical port corresponds to one
counter. That is, the counters and the physical
ports have a one-to-one relation between each
other. These counters are identical in
application, since they are all used for traffic
measurement at the physical layer.
Disuse Statement:
Counter 50332683 VS.IPDlMaxUsed.1 will be replaced by counter 1542455305
VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361
VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current
version, counters 50332683 VS.IPDlMaxUsed.1 and 1542455305 VS.FEGE.RxMaxSpeed/
1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346
VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332683 VS.IPDlMaxUsed.1
is properly reported. Counter 50332683 VS.IPDlMaxUsed.1 will be deleted in later versions.
Using counter 50332683 VS.IPDlMaxUsed.1 is not recommended.
Counter 50332684 VS.IPDlAvgUsed.1 will be replaced by counter 1542455307
VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363
VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current
version, counters 50332684 VS.IPDlAvgUsed.1 and 1542455307 VS.FEGE.RxMeanSpeed/
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1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348
VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332684 VS.IPDlAvgUsed.1
is properly reported. Counter 50332684 VS.IPDlAvgUsed.1 will be deleted in later versions.
Using counter 50332684 VS.IPDlAvgUsed.1 is not recommended.
Counter 50332695 VS.IPDlMaxUsed.2 will be replaced by counter 1542455305
VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361
VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current
version, counters 50332695 VS.IPDlMaxUsed.2 and 1542455305 VS.FEGE.RxMaxSpeed/
1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346
VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332695 VS.IPDlMaxUsed.2
is properly reported. Counter 50332695 VS.IPDlMaxUsed.2 will be deleted in later versions.
Using counter 50332695 VS.IPDlMaxUsed.2 is not recommended.
Counter 50332696 VS.IPDlAvgUsed.2 will be replaced by counter 1542455307
VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363
VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current
version, counters 50332696 VS.IPDlAvgUsed.2 and 1542455307 VS.FEGE.RxMeanSpeed/
1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348
VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332696 VS.IPDlAvgUsed.2
is properly reported. Counter 50332696 VS.IPDlAvgUsed.2 will be deleted in later versions.
Using counter 50332696 VS.IPDlAvgUsed.2 is not recommended.
Counter 50332707 VS.IPDlMaxUsed.3 will be replaced by counter 1542455305
VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361
VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current
version, counters 50332707 VS.IPDlMaxUsed.3 and 1542455305 VS.FEGE.RxMaxSpeed/
1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346
VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332707 VS.IPDlMaxUsed.3
is properly reported. Counter 50332707 VS.IPDlMaxUsed.3 will be deleted in later versions.
Using counter 50332707 VS.IPDlMaxUsed.3 is not recommended.
Counter 50332708 VS.IPDlAvgUsed.3 will be replaced by counter 1542455307
VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363
VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current
version, counters 50332708 VS.IPDlAvgUsed.3 and 1542455307 VS.FEGE.RxMeanSpeed/
1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348
VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332708 VS.IPDlAvgUsed.3
is properly reported. Counter 50332708 VS.IPDlAvgUsed.3 will be deleted in later versions.
Using counter 50332708 VS.IPDlAvgUsed.3 is not recommended.
Counter 50332719 VS.IPDlMaxUsed.4 will be replaced by counter 1542455305
VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361
VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current
version, counters 50332719 VS.IPDlMaxUsed.4 and 1542455305 VS.FEGE.RxMaxSpeed/
1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346
VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332719 VS.IPDlMaxUsed.4
is properly reported. Counter 50332719 VS.IPDlMaxUsed.4 will be deleted in later versions.
Using counter 50332719 VS.IPDlMaxUsed.4 is not recommended.
Counter 50332720 VS.IPDlAvgUsed.4 will be replaced by counter 1542455307
VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363
VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current
version, counters 50332720 VS.IPDlAvgUsed.4 and 1542455307 VS.FEGE.RxMeanSpeed/
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1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348
VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332720 VS.IPDlAvgUsed.4
is properly reported. Counter 50332720 VS.IPDlAvgUsed.4 will be deleted in later versions.
Using counter 50332720 VS.IPDlAvgUsed.4 is not recommended.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IPDlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPDlAvgUsed.1
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPDlMaxUsed.2
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
VS.IPDlAvgUsed.2
IP Transmission Introduction
on Iub Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
LTE: None
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.IPDlMaxUsed.3
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPDlAvgUsed.3
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPDlMaxUsed.4
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
VS.IPDlAvgUsed.4
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
LTE: None
IUB logic port available UL bandwidth
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332721
VS.IUB.FlowCt
rol.UL.AdjBW.
LgcPort1.Max
IUB logic
port_1
maximum UL
available
bandwidth
BTS3900
WCDMA
U
50332722
VS.IUB.FlowCt
rol.UL.AdjBW.
LgcPort1.Min
IUB logic
port_1
minimum UL
available
bandwidth
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332723
VS.IUB.FlowCt
rol.UL.AdjBW.
LgcPort1.Avg
IUB logic
port_1 average
UL available
bandwidth
BTS3900
WCDMA
U
50332746
VS.IUB.FlowCt
rol.UL.AdjBW.
LgcPort2.Max
IUB logic
port_2
maximum UL
available
bandwidth
BTS3900
WCDMA
U
50332747
VS.IUB.FlowCt
rol.UL.AdjBW.
LgcPort2.Min
IUB logic
port_2
minimum UL
available
bandwidth
BTS3900
WCDMA
U
50332748
VS.IUB.FlowCt
rol.UL.AdjBW.
LgcPort2.Avg
IUB logic
port_2 average
UL available
bandwidth
BTS3900
WCDMA
U
Description
The NodeB reports traffic statistics of logical ports that carry PATH. The NodeB takes the traffic
statistics on these counters for a maximum of two logical ports and it preferentially reports the
statistics for IP transmission. If no more than two logical ports exists, the NodeB reports only
the traffic statistics of logical ports that carry PATH. One logical port is associated with one
resource group. The default resource group number is 1. LgcPort1 measures traffic of the
resource group created firstly, and LgcPort2 measures traffic of the resource group created
secondly. The traffic of the resource group includes the traffic of all paths to which the resource
group belongs. For an IP&ATM network: If the IP resource group is created prior to the ATM
resource group, lgcPort1 will report the traffic of the IP resource group, and lgcPort2 will report
the traffic of the ATM resource group. If the ATM resource group is created prior to the IP
resource group, lgcPort1 will report the traffic of the ATM resource group, and lgcPort2 will
report the traffic of the IP resource group. Usually, LgcPort1 reports the traffic of the IP resource
group and LgcPort2 reports the traffic of the ATM resource group. However, the mapping is not
fixed, and it is determined by the sequence of creating the resource groups.
The following table describes the meanings of each counter:
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Counter Name
Description
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.M
ax
The NodeB adjusts the UL port bandwidth
according to the congestion indicator sent by
the RNC, The NodeB calculates the UL
available bandwidth of the physical layer per
five seconds,
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Ma
x is the maximum value of available
bandwidth of the UL physical layer.
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.M
in
The NodeB adjusts the UL port bandwidth
according to the congestion indicator sent by
the RNC, The NodeB calculates the UL
available bandwidth of the physical layer per
five seconds,
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Mi
n is the minimum value of the available
bandwidth of the UL physical layer.
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.A
vg
The NodeB adjusts the UL port bandwidth
according to the congestion indicator sent by
the RNC, The NodeB calculates the UL
available bandwidth of the physical layer per
five seconds, The collected values of
available bandwidth in a statistics period are
accumulated and recorded as A, and the
number of calculation times in a statistics
period is recorded as B. Then,
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Av
g = A/B.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.Max or the
VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.Min or the
VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.Avg or the
VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort2.Max or the
VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used, or they can both be used. The
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reported value of this counter is normal but this counter is not recommended for use. In a later
version, only the VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort2.Min or the
VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version, only the VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort2.Avg or the
VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.This counter
only include the payload of IP packets.
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Adj
BW.LgcPort1.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
VS.IUB.FlowCtrol.UL.Adj
BW.LgcPort1.Min
GSM: None
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
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HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Adj
BW.LgcPort1.Avg
Feature Name
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Adj
BW.LgcPort2.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
VS.IUB.FlowCtrol.UL.Adj
BW.LgcPort2.Min
Multi-mode: None
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
VS.IUB.FlowCtrol.UL.Adj
BW.LgcPort2.Avg
Multi-mode: None
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
IUB logic port available DL HSDPA bandwidth
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332724
VS.IUB.FlowCt
rol.DL.AdjBW.
LgcPort1.Max
IUB logic
port_1
maximum DL
HSDPA
available
bandwidth
BTS3900
WCDMA
U
50332725
VS.IUB.FlowCt
rol.DL.AdjBW.
LgcPort1.Min
IUB logic
port_1
minimum DL
HSDPA
available
bandwidth
BTS3900
WCDMA
U
50332726
VS.IUB.FlowCt
rol.DL.AdjBW.
LgcPort1.Avg
IUB logic
port_1 average
DL HSDPA
available
bandwidth
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332749
VS.IUB.FlowCt
rol.DL.AdjBW.
LgcPort2.Max
IUB logic
port_2
maximum DL
HSDPA
available
bandwidth
BTS3900
WCDMA
U
50332750
VS.IUB.FlowCt
rol.DL.AdjBW.
LgcPort2.Min
IUB logic
port_2
minimum DL
HSDPA
available
bandwidth
BTS3900
WCDMA
U
50332751
VS.IUB.FlowCt
rol.DL.AdjBW.
LgcPort2.Avg
IUB logic
port_2 average
DL HSDPA
available
bandwidth
BTS3900
WCDMA
U
Description
The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the
traffic statistics on these counters for a maximum of two logic ports and it preferentially reports
the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only
one logic port is reported.
The following table describes the meanings of each counter:
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Counter Name
Description
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.M
ax
When the DYNAMIC_BW_SHAPING
algorithm of the NodeB is enabled, the
NodeB adjusts the available bandwidth of
HSDPA according to the result of internal
congestion statistics, and it calculates the
available bandwidth of HSDPA per five
seconds. When the STATIC_BW_SHAPING algorithm of the NodeB is enabled, the
NodeB calculates the available bandwidth of
HSDPA according to the following formula:
Available bandwidth of HSDPA = Total
physical bandwidth * Coefficient. (The
coefficient is 0.8 in ATM mode and 0.9 in IP
mode.) The NodeB calculates the available
bandwidth of HSDPA per five seconds. When
other algorithms are used, the base station
reports 0 as the statistics value.
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Ma
x is the collected maximum value of the
available DL MAC-HS layer bandwidth. The
DL statistics is valid only in the complete
sharing mode of configured bandwidth. The
complete sharing mode of configured
bandwidth is enabled when the following
requirement is met: Bandwidth configured
for each type of PATH (for example RT and
NRT) > Total physical bandwidth x 90%.
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Counter Name
Description
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.M
in
When the DYNAMIC_BW_SHAPING
algorithm of the NodeB is enabled, the
NodeB adjusts the available bandwidth of
HSDPA according to the result of internal
congestion statistics, and it calculates the
available bandwidth of HSDPA per five
seconds. When the STATIC_BW_SHAPING algorithm of the NodeB is enabled, the
NodeB calculates the available bandwidth of
HSDPA according to the following formula:
Available bandwidth of HSDPA = Total
physical bandwidth * Coefficient. (The
coefficient is 0.8 in ATM mode and 0.9 in IP
mode.) The NodeB calculates the available
bandwidth of HSDPA per five seconds. When
other algorithms are used, the base station
reports 0 as the statistics value.
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Mi
n is the collected minimum value of the
available DL MAC-HS layer bandwidth. The
DL statistics is valid only in the complete
sharing mode of configured bandwidth. The
complete sharing mode of configured
bandwidth is enabled when the following
requirement is met: Bandwidth configured
for each type of PATH (for example RT and
NRT) > Total physical bandwidth x 90%.
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Counter Name
Description
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.A
vg
When the DYNAMIC_BW_SHAPING
algorithm of the NodeB is enabled, the
NodeB adjusts the available bandwidth of
HSDPA according to the result of internal
congestion statistics, and it calculates the
available bandwidth of HSDPA per five
seconds. When the STATIC_BW_SHAPING algorithm of the NodeB is enabled, the
NodeB calculates the available bandwidth of
HSDPA according to the following formula:
Available bandwidth of HSDPA = Total
physical bandwidth * Coefficient. (The
coefficient is 0.8 in ATM mode and 0.9 in IP
mode.) The NodeB calculates the available
bandwidth of HSDPA per five seconds. When
other algorithms are used, the base station
reports 0 as the statistics value. The collected
values of available bandwidth of the DL
MAC-HS layer in a statistics period are
accumulated and recorded as A, and the
number of calculation times is recorded as B.
Then,
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Av
g = A/B. The DL statistics is valid only in the
complete sharing mode of configured
bandwidth. The complete sharing mode of
configured bandwidth is enabled when the
following requirement is met: Bandwidth
configured for each type of PATH (for
example RT and NRT) > Total physical
bandwidth x 90%.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.Max or the
VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.Min or the
VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.Avg or the
VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used.
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In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort2.Max or the
VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort2.Min or the
VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort2.Avg or the
VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.This counter
only include the payload of IP packets. If the IP path is carried on loopback interface, the value
of this counter is the total available DL bandwidth on the current loopback interface. (The default
DL bandwidth on the loopback interface is 1 Gbit/s.)
Formula
None
Unit
kbit/s
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Adj
BW.LgcPort1.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Adj
BW.LgcPort1.Min
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Adj
BW.LgcPort1.Avg
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
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Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Adj
BW.LgcPort2.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Adj
BW.LgcPort2.Min
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Adj
BW.LgcPort2.Avg
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port available UL bandwidth increase times
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332727
VS.IUB.FlowCt
rol.UL.UpBW.
Num.LgcPort1
IUB logic
port_1 available
UL bandwidth
increase times
BTS3900
WCDMA
U
50332752
VS.IUB.FlowCt
rol.UL.UpBW.
Num.LgcPort2
IUB logic
port_2 available
UL bandwidth
increase times
BTS3900
WCDMA
U
Description
The NodeB calculates the number of attempts to increase the available UL bandwidth of the
NodeB IUB logic port per five seconds. All collection values in a statistics period are
accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB
can take the traffic statistics on these counters for a maximum of two logic ports and it
preferentially reports the statistics for IP transmission. If only one logic port is configured, the
traffic statistics of only one logic port is reported.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.UL.UpBW.Num.LgcPort1 or the
VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used, or they can both be used. The
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reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.UpBW.Num.LgcPort2 or the
VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version, only the VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.UpB
W.Num.LgcPort1
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
VS.IUB.FlowCtrol.UL.UpB
W.Num.LgcPort2
Feature Name
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
IUB logic port DL HSDPA available bandwidth increase times after jitter
congestion released
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332728
VS.IUB.FlowCt
rol.DL.Delay.U
pBW.Num.Lgc
Port1
IUB logic
port_1 DL
HSDPA
available
bandwidth
increase times
after jitter
congestion
released
BTS3900
WCDMA
U
50332753
VS.IUB.FlowCt
rol.DL.Delay.U
pBW.Num.Lgc
Port2
IUB logic
port_2 DL
HSDPA
available
bandwidth
increase times
after jitter
congestion
released
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates
the number of attempts to increase the available DL MAC-HS layer bandwidth after the
congestion caused by jitter is released. When other algorithms are used, the NodeB reports 0 as
the statistics value. All collected values in a statistics period are accumulated. The NodeB reports
the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on
these counters for a maximum of two logic ports and it preferentially reports the statistics for IP
transmission. If only one logic port is configured, the traffic statistics of only one logic port is
reported.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.DL.Delay.UpBW.Num.LgcPort1
or the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used, or they can both be used.
The reported value of this counter is normal but this counter is not recommended for use. In a
later version , only the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.Delay.UpBW.Num.LgcPort2
or the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used, or they can both be used.
The reported value of this counter is normal but this counter is not recommended for use. In a
later version, only the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela
y.UpBW.Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Dela
y.UpBW.Num.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port DL HSDPA available bandwidth increase times after packet loss
congestion released
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332729
VS.IUB.FlowCt
rol.DL.Drop.Up
BW.Num.LgcP
ort1
IUB logic
port_1 DL
HSDPA
available
bandwidth
increase times
after packet loss
congestion
released
BTS3900
WCDMA
U
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332754
VS.IUB.FlowCt
rol.DL.Drop.Up
BW.Num.LgcP
ort2
IUB logic
port_2 DL
HSDPA
available
bandwidth
increase times
after packet loss
congestion
released
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates
the number of attempts to increase the available DL MAC-HS layer bandwidth after the
congestion caused by packet loss is released. When other algorithms are used, the NodeB reports
0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB
reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic
statistics on these counters for a maximum of two logic ports and it preferentially reports the
statistics for IP transmission. If only one logic port is configured, the traffic statistics of only
one logic port is reported.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.DL.Drop.UpBW.Num.LgcPort1
or the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used, or they can both be used.
The reported value of this counter is normal but this counter is not recommended for use. In a
later version , only the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.Drop.UpBW.Num.LgcPort2
or the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used, or they can both be used.
The reported value of this counter is normal but this counter is not recommended for use. In a
later version, only the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Drop
.UpBW.Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Drop
.UpBW.Num.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port available UL bandwidth decrease times for jitter congestion
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332730
VS.IUB.FlowCt
rol.UL.DelayCo
ng.DownBWNu
m.LgcPort1
IUB logic
port_1 available
UL bandwidth
decrease times
for jitter
congestion
BTS3900
WCDMA
U
50332755
VS.IUB.FlowCt
rol.UL.DelayCo
ng.DownBWNu
m.LgcPort2
IUB logic
port_2 available
UL bandwidth
decrease times
for jitter
congestion
BTS3900
WCDMA
U
Description
The NodeB calculates the number of attempts to decrease the available UL physical layer
bandwidth of the NodeB IUB logic port due to jitter per five seconds. All collected values in a
statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry
PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic
ports and it preferentially reports the statistics for IP transmission. If only one logic port is
configured, the traffic statistics of only one logic port is reported.
Disuse Statement:
In the current version, either this counter
VS.IUB.FlowCtrol.UL.DelayCong.DownBWNum.LgcPort1 or the
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VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is
used.
In the current version, either this counter
VS.IUB.FlowCtrol.UL.DelayCong.DownBWNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is
used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Dela
yCong.DownBWNum.LgcP
ort1
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
VS.IUB.FlowCtrol.UL.Dela
yCong.DownBWNum.LgcP
ort2
Feature Name
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
IUB logic port DL HSDPA available bandwidth decrease times for jitter congestion
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332731
VS.IUB.FlowCt
rol.DL.DelayCo
ng.DownBWNu
m.LgcPort1
IUB logic
port_1 DL
HSDPA
available
bandwidth
decrease times
for jitter
congestion
BTS3900
WCDMA
U
50332756
VS.IUB.FlowCt
rol.DL.DelayCo
ng.DownBWNu
m.LgcPort2
IUB logic
port_2 DL
HSDPA
available
bandwidth
decrease times
for jitter
congestion
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates
the number of attempts to decrease the available DL MAC-HS layer bandwidth of the NodeB
IUB logic port due to jitter. When other algorithms are used, the NodeB reports 0 as the statistics
value. All collected values in a statistics period are accumulated. The NodeB reports the traffic
statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these
counters for a maximum of two logic ports and it preferentially reports the statistics for IP
transmission. If only one logic port is configured, the traffic statistics of only one logic port is
reported.
Disuse Statement:
In the current version, either this counter
VS.IUB.FlowCtrol.DL.DelayCong.DownBWNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is
used.
In the current version, either this counter
VS.IUB.FlowCtrol.DL.DelayCong.DownBWNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is
used.
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Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela
yCong.DownBWNum.LgcP
ort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Dela
yCong.DownBWNum.LgcP
ort2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port available UL bandwidth decrease times for packet loss congestion
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332732
VS.IUB.FlowCt
rol.UL.DropCo
ng.DownBWNu
m.LgcPort1
IUB logic
port_1 available
UL bandwidth
decrease times
for packet loss
congestion
BTS3900
WCDMA
U
50332757
VS.IUB.FlowCt
rol.UL.DropCo
ng.DownBWNu
m.LgcPort2
IUB logic
port_2 available
UL bandwidth
decrease times
for packet loss
congestion
BTS3900
WCDMA
U
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Description
The NodeB calculates the number of attempts to decrease the available UL physical layer
bandwidth of the NodeB IUB logic port due to packet loss per five seconds. All collected values
in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that
carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two
logic ports and it preferentially reports the statistics for IP transmission. If only one logic port
is configured, the traffic statistics of only one logic port is reported.
Disuse Statement:
In the current version, either this counter
VS.IUB.FlowCtrol.UL.DropCong.DownBWNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is
used.
In the current version, either this counter
VS.IUB.FlowCtrol.UL.DropCong.DownBWNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is
used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Drop
Cong.DownBWNum.LgcPo
rt1
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
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Case of Iub Congestion
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1 NodeBFunction Performance Counter Measurement
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Drop
Cong.DownBWNum.LgcPo
rt2
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
IUB logic port DL HSDPA available bandwidth decrease times for packet loss
congestion
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332733
VS.IUB.FlowCt
rol.DL.DropCo
ng.DownBWNu
m.LgcPort1
IUB logic
port_1 DL
HSDPA
available
bandwidth
decrease times
for packet loss
congestion
BTS3900
WCDMA
U
50332758
VS.IUB.FlowCt
rol.DL.DropCo
ng.DownBWNu
m.LgcPort2
IUB logic
port_2 DL
HSDPA
available
bandwidth
decrease times
for packet loss
congestion
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates
the number of attempts to decrease the available DL MAC-HS layer bandwidth of the NodeB
IUB logic port due to packet loss. When other algorithms are used, the NodeB reports 0 as the
statistics value. All collected values in a statistics period are accumulated. The NodeB reports
the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on
these counters for a maximum of two logic ports and it preferentially reports the statistics for IP
transmission. If only one logic port is configured, the traffic statistics of only one logic port is
reported.
Disuse Statement:
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In the current version, either this counter
VS.IUB.FlowCtrol.DL.DropCong.DownBWNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is
used.
In the current version, either this counter
VS.IUB.FlowCtrol.DL.DropCong.DownBWNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is used, or they can both be
used. The reported value of this counter is normal but this counter is not recommended for use.
In a later version , only the VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is
used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Drop
Cong.DownBWNum.LgcPo
rt1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Drop
Cong.DownBWNum.LgcPo
rt2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Number of UL frames IUB logic port sent successfully
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332734
VS.IUB.FlowCt
rol.UL.SendNu
m.LgcPort1
IUB logic
port_1 Number
of UL frames
IUB logic port
sent
successfully
BTS3900
WCDMA
U
50332759
VS.IUB.FlowCt
rol.UL.SendNu
m.LgcPort2
IUB logic
port_2 Number
of UL frames
IUB logic port
sent
successfully
BTS3900
WCDMA
U
Description
The NodeB calculates the number of frames that are successfully sent through the NodeB IUB
logic port per five seconds. All calculation values in a statistics period are accumulated. The
NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic
statistics on these counters for a maximum of two logic ports and it preferentially reports the
statistics for IP transmission. If only one logic port is configured, the traffic statistics of only
one logic port is reported.
Disuse Statement:
In the current version , either this counter VS.IUB.FlowCtrol.UL.SendNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.UL.SendNum counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version,
only the VS.RscGroup.FlowCtrol.UL.SendNum counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.SendNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.UL.SendNum counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.UL.SendNum counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Send
Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
VS.IUB.FlowCtrol.UL.Send
Num.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
Number of DL HSDPA frames IUB logic port received
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332735
VS.IUB.FlowCt
rol.DL.Receive
Num.LgcPort1
IUB logic
port_1 Number
of DL HSDPA
frames IUB
logic port
received
BTS3900
WCDMA
U
50332760
VS.IUB.FlowCt
rol.DL.Receive
Num.LgcPort2
IUB logic
port_2 Number
of DL HSDPA
frames IUB
logic port
received
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates
the number of frames that are successfully received through the NodeB IUB logic port. When
other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a
statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry
PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic
ports and it preferentially reports the statistics for IP transmission. If only one logic port is
configured, the traffic statistics of only one logic port is reported.
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Disuse Statement:
In the current version , either this counter VS.IUB.FlowCtrol.DL.ReceiveNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version, only the VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.ReceiveNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Rece
iveNum.LgcPort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Rece
iveNum.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Number of lost UL frames
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332736
VS.IUB.FlowCt
rol.UL.DropNu
m.LgcPort1
IUB logic
port_1 Number
of lost UL
frames
BTS3900
WCDMA
U
50332761
VS.IUB.FlowCt
rol.UL.DropNu
m.LgcPort2
IUB logic
port_2 Number
of lost UL
frames
BTS3900
WCDMA
U
Description
The NodeB calculates the number of UL frames that are discarded by the NodeB IUB logic port
per five seconds. All calculation values in a statistics period are accumulated. The NodeB reports
the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on
these counters for a maximum of two logic ports and it preferentially reports the statistics for IP
transmission. If only one logic port is configured, the traffic statistics of only one logic port is
reported.
Disuse Statement:
In the current version , either this counter VS.IUB.FlowCtrol.UL.DropNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.UL.DropNum counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version,
only the VS.RscGroup.FlowCtrol.UL.DropNum counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.DropNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.UL.DropNum counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.UL.DropNum counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Drop
Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
VS.IUB.FlowCtrol.UL.Drop
Num.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-010637
HSUPA Iub Flow Control in
Case of Iub Congestion
LTE: None
Number of lost DL HSDPA frames
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332737
VS.IUB.FlowCt
rol.DL.DropNu
m.LgcPort1
IUB logic
port_1 Number
of lost DL
HSDPA frames
BTS3900
WCDMA
U
50332762
VS.IUB.FlowCt
rol.DL.DropNu
m.LgcPort2
IUB logic
port_2 Number
of lost DL
HSDPA frames
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates
the number of DL frames that are lost on the NodeB IUB logic port. These DL HSDPA frames
are discarded by the RNC interface board, intermediate transmission links, or the NodeB. When
other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a
statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry
PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic
ports and it preferentially reports the statistics for IP transmission. If only one logic port is
configured, the traffic statistics of only one logic port is reported.
Disuse Statement:
In the current version , either this counter VS.IUB.FlowCtrol.DL.DropNum.LgcPort1 or the
VS.RscGroup.FlowCtrol.DL.DropNum counter is used, or they can both be used. The reported
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value of this counter is normal but this counter is not recommended for use. In a later version,
only the VS.RscGroup.FlowCtrol.DL.DropNum counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.DropNum.LgcPort2 or the
VS.RscGroup.FlowCtrol.DL.DropNum counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.DL.DropNum counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Drop
Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Drop
Num.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port UL delay jitter
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332738
VS.IUB.FlowCt
rol.UL.DelayVa
ra.LgcPort1.Ma
x
IUB logic
port_1
maximum UL
delay jitter
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332739
VS.IUB.FlowCt
rol.UL.DelayVa
ra.LgcPort1.Mi
n
IUB logic
port_1
minimum UL
delay jitter
BTS3900
WCDMA
U
50332740
VS.IUB.FlowCt
rol.UL.DelayVa
ra.LgcPort1.Av
g
IUB logic
port_1 average
UL delay jitter
BTS3900
WCDMA
U
50332763
VS.IUB.FlowCt
rol.UL.DelayVa
ra.LgcPort2.Ma
x
IUB logic
port_2
maximum UL
delay jitter
BTS3900
WCDMA
U
50332764
VS.IUB.FlowCt
rol.UL.DelayVa
ra.LgcPort2.Mi
n
IUB logic
port_2
minimum UL
delay jitter
BTS3900
WCDMA
U
50332765
VS.IUB.FlowCt
rol.UL.DelayVa
ra.LgcPort2.Av
g
IUB logic
port_2 average
UL delay jitter
BTS3900
WCDMA
U
Description
The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the
traffic statistics on these counters for a maximum of two logic ports and it preferentially reports
the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only
one logic port is reported.
The following table describes the meanings of each counter:
Counter Name
Description
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1
.Max
The NodeB calculates the UL jitter per five
seconds.
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort.
Max is the collected maximum value of UL
jitter.
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1
.Min
The NodeB calculates the UL jitter per five
seconds.
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort.
Min is the collected minimum value of UL
jitter.
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Counter Name
Description
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1
.Avg
The NodeB calculates the UL jitter per five
seconds. All collected values of UL jitter in a
statistics period are accumulated and
recorded as A, and the number of calculation
times is recorded as B. Then,
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort.
Avg = A/B.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1.Max or
the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1.Min or
the VS.RscGroup.FlowCtrol.DL.DropNum counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.DropNum counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1.Avg or
the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort2.Max or
the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version, only the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort2.Min or
the VS.RscGroup.FlowCtrol.UL.DelayVara.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort2.Avg or
the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
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Unit
ms
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Dela
yVara.LgcPort1.Max
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
VS.IUB.FlowCtrol.UL.Dela
yVara.LgcPort1.Min
GSM: None
LTE: None
GSM: None
LTE: None
GSM: None
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
VS.IUB.FlowCtrol.UL.Dela
yVara.LgcPort2.Avg
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Dela
yVara.LgcPort2.Min
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Dela
yVara.LgcPort2.Max
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Dela
yVara.LgcPort1.Avg
Feature Name
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
IUB logic port DL HSDPA delay jitter
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332741
VS.IUB.FlowCt
rol.DL.DelayVa
ra.LgcPort1.Ma
x
IUB logic
port_1
maximum DL
HSDPA delay
jitter
BTS3900
WCDMA
U
50332742
VS.IUB.FlowCt
rol.DL.DelayVa
ra.LgcPort1.Mi
n
IUB logic
port_1
minimum DL
HSDPA delay
jitter
BTS3900
WCDMA
U
50332743
VS.IUB.FlowCt
rol.DL.DelayVa
ra.LgcPort1.Av
g
IUB logic
port_1 average
DL HSDPA
delay jitter
BTS3900
WCDMA
U
50332766
VS.IUB.FlowCt
rol.DL.DelayVa
ra.LgcPort2.Ma
x
IUB logic
port_2
maximum DL
HSDPA delay
jitter
BTS3900
WCDMA
U
50332767
VS.IUB.FlowCt
rol.DL.DelayVa
ra.LgcPort2.Mi
n
IUB logic
port_2
minimum DL
HSDPA delay
jitter
BTS3900
WCDMA
U
50332768
VS.IUB.FlowCt
rol.DL.DelayVa
ra.LgcPort2.Av
g
IUB logic
port_2 average
DL HSDPA
delay jitter
BTS3900
WCDMA
U
Description
The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the
traffic statistics on these counters for a maximum of two logic ports and it preferentially reports
the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only
one logic port is reported.
The following table describes the meanings of each counter:
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Counter Name
Description
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1
.Max
When the DYNAMIC_BW_SHAPING
algorithm is enabled, the NodeB calculates
the DL jitter per five seconds. When other
algorithms are used, the NodeB reports 0 as
the statistics value.
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort.
Max is the collected maximum value of DL
jitter.
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1
.Min
When the DYNAMIC_BW_SHAPING
algorithm is enabled, the NodeB calculates
the DL jitter per five seconds. When other
algorithms are used, the NodeB reports 0 as
the statistics value.
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort.
Min is the collected minimum value of DL
jitter.
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1
.Avg
When the DYNAMIC_BW_SHAPING
algorithm is enabled, the NodeB calculates
the DL jitter per five seconds. When other
algorithms are used, the NodeB reports 0 as
the statistics value. All collected values of DL
jitter in a statistics are accumulated and
recorded as A, and the number of calculation
times is recorded as B. Then,
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort.
Avg = A/B.
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1.Max or
the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1.Min or
the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1.Avg or
the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort2.Max or
the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used.
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In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort2.Min or
the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version, only the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort2.Avg or
the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used, or they can both be used. The
reported value of this counter is normal but this counter is not recommended for use. In a later
version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
ms
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela
yVara.LgcPort1.Max
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Dela
yVara.LgcPort1.Min
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Dela
yVara.LgcPort1.Avg
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Dela
yVara.LgcPort2.Max
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
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Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela
yVara.LgcPort2.Min
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Dela
yVara.LgcPort2.Avg
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port UL congestion duration
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332744
VS.IUB.FlowCt
rol.UL.CongTi
me.LgcPort1
IUB logic
port_1 UL
congestion
duration
BTS3900
WCDMA
U
50332769
VS.IUB.FlowCt
rol.UL.CongTi
me.LgcPort2
IUB logic
port_2 UL
congestion
duration
BTS3900
WCDMA
U
Description
The NodeB determines whether the following requirement is met:
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Avg*0.8 less than Actual physical layer flow of the UL
logic port. If the preceding requirement is met, the UL congestion duration is increased by one
second. If the preceding requirement is not met, the UL congestion duration does not change.
The NodeB collects the UL congestion duration per five seconds. All collected values in a
statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry
PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic
ports and it preferentially reports the statistics for IP transmission. If only one logic port is
configured, the traffic statistics of only one logic port is reported.Under certain circumstances,
the value of this counter may have an error of one measurement period (5 seconds).
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.UL.CongTime.LgcPort1 or the
VS.RscGroup.FlowCtrol.UL.CongTime counter is used, or they can both be used. The reported
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value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.UL.CongTime counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.UL.CongTime.LgcPort2 or the
VS.RscGroup.FlowCtrol.UL.CongTime counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.UL.CongTime counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
Unit
s
Related Features
Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Con
gTime.LgcPort1
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
VS.IUB.FlowCtrol.UL.Con
gTime.LgcPort2
Feature Name
HSUPA Iub Flow Control in
Case of Iub Congestion
Multi-mode: None
GSM: None
UMTS: WRFD-010637
LTE: None
HSUPA Iub Flow Control in
Case of Iub Congestion
IUB logic port DL HSDPA congestion duration
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332745
VS.IUB.FlowCt
rol.DL.CongTi
me.LgcPort1
IUB logic
port_1 DL
HSDPA
congestion
duration
BTS3900
WCDMA
U
50332770
VS.IUB.FlowCt
rol.DL.CongTi
me.LgcPort2
IUB logic
port_2 DL
HSDPA
congestion
duration
BTS3900
WCDMA
U
Description
When the DYNAMIC_BW_SHAPING algorithm is enabled in complete sharing mode of
configured bandwidth, the NodeB determines whether the following requirement is met:
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Avg*0.8 less than HSDPA flow of the DL logic port.
If the preceding requirement is met, the DL congestion duration is increased by one second. If
the preceding requirement is not met, the DL congestion duration does not change. The NodeB
calculates the DL congestion duration per five seconds. When other algorithms are used, the
NodeB reports 0 as the calculation value. All collected values in a statistics period are
accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB
can take the traffic statistics on these counters for a maximum of two logic ports and it
preferentially reports the statistics for IP transmission. If only one logic port is configured, the
traffic statistics of only one logic port is reported.Under certain circumstances, the value of this
counter may have an error of one measurement period (5 seconds).
Disuse Statement:
In the current version, either this counter VS.IUB.FlowCtrol.DL.CongTime.LgcPort1 or the
VS.RscGroup.FlowCtrol.DL.CongTime counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.DL.CongTime counter is used.
In the current version, either this counter VS.IUB.FlowCtrol.DL.CongTime.LgcPort2 or the
VS.RscGroup.FlowCtrol.DL.CongTime counter is used, or they can both be used. The reported
value of this counter is normal but this counter is not recommended for use. In a later version ,
only the VS.RscGroup.FlowCtrol.DL.CongTime counter is used.
Measurement Points
For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula
None
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Unit
s
Related Features
Counter Name
Feature ID
Feature Name
VS.IUB.FlowCtrol.DL.Con
gTime.LgcPort1
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
VS.IUB.FlowCtrol.DL.Con
gTime.LgcPort2
Multi-mode: None
GSM: None
UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
1.2.2 NodeB Hardware Baseband Resource Measurement
(TRAFFIC.NODEB)
Overview
The function subset indicates the availability of the hardware resources at the NodeB side.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332565
VS.HW.DLCredit
Available
Number of Available
Downlink Hardware
CEs
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332566
VS.HW.ULCredit
Available
Number of Available
Uplink Hardware
CEs
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
Counter Relationship
None
Number of Available Downlink Hardware CEs
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332565
VS.HW.DLCre
ditAvailable
Number of
Available
Downlink
Hardware CEs
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of available downlink CEs for hardware in the NodeB within
a measurement period.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the maximum
of these sampling results is defined as the value of the counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HW.DLCreditAvailable
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Available Uplink Hardware CEs
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332566
VS.HW.ULCre
ditAvailable
Number of
Available
Uplink
Hardware CEs
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of available uplink CEs for hardware in the NodeB within a
measurement period.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the maximum
of these sampling results is defined as the value of the counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HW.ULCreditAvailable
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
1.2.3 NodeB NBAP Procedure Measurement (NBAP.NODEB)
Overview
The function subset refers to the measurement of the load and status during the NodeB NBAP
procedure.
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Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332572
VS.BTS.CnbapCap
.UseRate
Average CNBAP
ratio of the NodeB
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50332585
VS.RlSetup.Reject.
License.Cong
Number of radio link
setup rejections
because of license
congestion in terms
of the signaling
processing capability
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332587
VS.RadioLink.Rec
v.Max
Maximum number of
received radio links
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332588
VS.RadioLink.Han
dle.Max
Maximum number of
wireless connection
processing times per
second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332589
VS.RlSetup.Reject.
CP.Cong
Number of radio link
setup rejections
because of control
plane congestion
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332590
VS.RadioLink.Rec
v.Mean
Average number of
received radio links
per second
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
Counter Relationship
None
Average CNBAP ratio of the NodeB
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332572
VS.BTS.Cnbap
Cap.UseRate
Average
CNBAP ratio of
the NodeB
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average ratio of using CNBAP capabilities of the NodeB.
Measurement Points
CNBAP capabilities supported by NodeB hardware are sampled every five seconds. Within a
measurement period, the average number of received radio links per second divided by CNBAP
capabilities supported by NodeB hardware is the ratio of using CNBAP capabilities of the
NodeB. At the end of the measurement period, the average of these sampling results is defined
as the value of the counter.
Formula
None
Unit
%
Related Features
None
Number of radio link setup rejections because of license congestion in terms of the
signaling processing capability
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332585
VS.RlSetup.Rej
ect.License.Con
g
Number of radio
link setup
rejections
because of
license
congestion in
terms of the
signaling
processing
capability
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the total number of radio link setup rejections because the number of
processed radio links exceeds the licensed capacity within a measurement period. The total
number of processed radio links corresponds to the CNBAP times for the three types of signaling
messages that are indicative of processed radio link setup requests in the NodeB, radio link
addition requests in the NodeB, and radio link reconfiguration preparations in the NodeB.
Measurement Points
The measurement is triggered when the request for radio link setup is rejected because the
CNBAP times of processed radio link setup requests in the NodeB, radio link addition requests
in the NodeB, and radio link reconfiguration preparations in the NodeB is beyond the licensed
capacity.
As shown in point A in the following figure, this counter is incremented by 1 each time the
request for radio link setup is rejected because the number of processed radio links is beyond
the licensed capacity after the NodeB receives a RADIO LINK SETUP REQUEST message
from the RNC.
Figure 1-12
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RlSetup.Reject.License.
Cong
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Received Radio Links per Second
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332587
VS.RadioLink.
Recv.Max
Maximum
number of
received radio
links per second
BTS3900,
BTS3900
WCDMA
U
50332590
VS.RadioLink.
Recv.Mean
Average
number of
received radio
links per second
BTS3900,
BTS3900
WCDMA
U
Description
These counters meansure the number of CNBAP times the NodeB receives radio link setup
requests over the Iub interface, radio link addition requests over the Iub interface, and radio link
recofniguration preparations over the Iub interface.
Measurement Points
Within a measurement period, this counter is incremented each time the NodeB receives a radio
link setup request over the Iub interface, a radio link addition request over the Iub interface, or
a radio link reconfiguration preparation over the Iub interface.
As shown in point A in Figure 1, the counter is incremented each time the NodeB receives a
RADIO LINK SETUP REQUEST message from the RNC.
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As shown in point A in Figure 2, the counter is incremented each time the NodeB receives a
RADIO LINK ADDITION REQUEST message from the RNC.
As shown in point A in Figure 3, the counter is incremented each time the NodeB receives a
RADIO LINK RECONFIGURATION PREPARE message from the RNC.
At the end of a measurement period, the average number of received radio links is obtained by
dividing the accumulated value in the period by the number of samples. The maximum of these
sampling results is defined as the maximum number of received radio links per second.
Figure 1-13
Figure 1-14
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Figure 1-15
Formula
None
Unit
None
Related Features
None
Maximum number of wireless connection processing times per second
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332588
VS.RadioLink.
Handle.Max
Maximum
number of
wireless
connection
processing
times per second
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of CNBAP times the NodeB successfully processes radio
link setup requests, radio link addition requests, and radio link reconfiguration preparations. The
number of rejections due to control plane congestion is not counted into the counter.
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Measurement Points
Within a measurement period, this counter is incremented each time the NodeB receives a radio
link setup request over the Iub interface, a radio link addition request over the Iub interface, or
a radio link reconfiguration preparation over the Iub interface and no radio link setup request is
rejected due to congestion on the control plane.
As shown in point A in Figure 1, this counter is incremented each time the NodeB does not reject
the RADIO LINK SETUP REQUEST message even though the control plane is congested.
As shown in point A in Figure 2, this counter is incremented each time the NodeB does not reject
the RADIO LINK ADDITION REQUEST message even though the control plane is congested.
As shown in point A in Figure 3, this counter is incremented each time the NodeB does not reject
the RADIO LINK RECONFIGURATION PREPARE message even though the control plane
is congested.
This counter is sampled every five seconds. The average number of processed radio links per
second is obtained within each measurement period, and then the maximum of these sampling
results is defined as the value of the counter.
Figure 1-16
Figure 1-17
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Figure 1-18
Formula
None
Unit
None
Related Features
None
Total number of times radio link setup requests are rejected because of control
plane congestion (CPU overload) within a measurement period
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332589
VS.RlSetup.Rej
ect.CP.Cong
Number of radio
link setup
rejections
because of
control plane
congestion
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the total number of radio link setup rejections in the NodeB due to
congestion on the control plane, that is, CPU overload.
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Measurement Points
As shown in point A in the following figure, this counter is incremented by 1 each time the
NodeB receives a radio link setup rejection due to congestion on the control plane.
Figure 1-19
Formula
None
Unit
None
Related Features
None
1.2.4 NodeB Reserved Counter Measurement
(NODEBRESERVE.NODEB)
Overview
The function subset indicates measurements reserved for NodeBs. Reserved counter is used
temporarily in patch versions and will be replaced with a new counter in later versions. For the
detailed information about used reserved counters, see the "Used Reserved Counter List" of the
corresponding version.
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Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332567
VS.NodeBReserve.
Counter1.NodeB
Reserved 1 for the
NodeB
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332568
VS.NodeBReserve.
Counter2.NodeB
Reserved 2 for the
NodeB
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332569
VS.NodeBReserve.
Counter3.NodeB
Reserved 3 for the
NodeB
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332570
VS.NodeBReserve.
Counter4.NodeB
Reserved 4 for the
NodeB
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332571
VS.NodeBReserve.
Counter5.NodeB
Reserved 5 for the
NodeB
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
Counter Relationship
None
Reserved 1 for the NodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332567
VS.NodeBRese
rve.Counter1.N
odeB
Reserved 1 for
the NodeB
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
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Counter Name
Description
VS.NodeBReserve.Counter1.NodeB
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 2 for the NodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332568
VS.NodeBRese
rve.Counter2.N
odeB
Reserved 2 for
the NodeB
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.NodeBReserve.Counter2.NodeB
None.
Measurement Points
None.
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Formula
None
Unit
None
Related Features
None
Reserved 3 for the NodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332569
VS.NodeBRese
rve.Counter3.N
odeB
Reserved 3 for
the NodeB
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.NodeBReserve.Counter3.NodeB
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
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Reserved 4 for the NodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332570
VS.NodeBRese
rve.Counter4.N
odeB
Reserved 4 for
the NodeB
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.NodeBReserve.Counter4.NodeB
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 5 for the NodeB
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332571
VS.NodeBRese
rve.Counter5.N
odeB
Reserved 5 for
the NodeB
BTS3900,
BTS3900
WCDMA
U
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Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.NodeBReserve.Counter5.NodeB
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
1.2.5 Iub Transmission Performance Measurement per NodeB
(TRAFFIC.TRPIP.NODEB)
Overview
The function subset measures the transmission bandwidth and rate on the NodeB user plane and
control plane.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50342640
VS.IubIP.TxPackets
Number of userplane and controlplane IP packets
transmitted at the IP
layer over the Iub
interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
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Counter ID
Counter Name
Counter
Description
Original Release
50342641
VS.IubIP.RxPackets
Number of userplane and controlplane IP packets
received at the IP
layer over the Iub
interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50342642
VS.IubIP.TxBytes
Number of bytes in
the user-plane and
control-plane IP
packets transmitted
at the IP layer over
the Iub interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50342643
VS.IubIP.RxBytes
Number of bytes in
the user-plane and
control-plane IP
packets received at
the IP layer over the
Iub interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50342644
VS.IubIP.TxMaxSpeed
Maximum userplane and controlplane transmit rate at
the IP layer over the
Iub interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50342645
VS.IubIP.TxMeanSpeed
Average user-plane
and control-plane
transmit rate at the IP
layer over the Iub
interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50342646
VS.IubIP.RxMaxSpeed
Maximum userplane and controlplane receive rate at
the IP layer over the
Iub interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
50342647
VS.IubIP.RxMeanSpeed
Average user-plane
and control-plane
receive rate at the IP
layer over the Iub
interface
BTS3900:
V100R009C00
BTS3900 WCDMA:
V100R009C00
Counter Relationship
None
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Number of IP Packets at the IP Layer over the Iub Interface
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342640
VS.IubIP.TxPa
ckets
Number of userplane and
control-plane IP
packets
transmitted at
the IP layer over
the Iub interface
BTS3900,
BTS3900
WCDMA
U
50342641
VS.IubIP.RxPa
ckets
Number of userplane and
control-plane IP
packets received
at the IP layer
over the Iub
interface
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the number of user-plane and control-plane IP packets transmitted and
received at the IP layer over the Iub interface with a measurement period, respectively. For userplane IP packets transmitted, only these packets before multiplexing, fragmentation, or IPsec
encryption are counted. For control-plane IP packets transmitted, only these packets before
fragmentation or IPsec encryption are counted. For user-plane IP packets received, only these
packets after demultiplexing, reassembly, or IPsec decryption are counted. For control-plane IP
packets received, only these packets after reassembly or IPsec decryption are counted.
If the WMPT functions as the main control board, the preceding statistics do not take effect.
Measurement Points
The number of IP packets transmitted at the IP layer over the Iub interface and the number of
IP packets received at the IP layer over the Iub interface are sampled every ten seconds within
a measurement period. At the end of the measurement period, the sum of these sampling results
is used as the value of the corresponding counter.
Formula
None
Unit
packet
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Related Features
Counter Name
Feature ID
VS.IubIP.TxPackets
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
WRFD-050411
Fractional IP Function on Iub
Interface
LTE: None
VS.IubIP.RxPackets
Multi-mode: None
GSM: None
UMTS: WRFD-050402
IP Transmission Introduction
on Iub Interface
WRFD-050411
Fractional IP Function on Iub
Interface
LTE: None
Number of Bytes in the IP Packets at the IP Layer over the Iub Interface
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342642
VS.IubIP.TxBy
tes
Number of bytes
in the user-plane
and controlplane IP packets
transmitted at
the IP layer over
the Iub interface
BTS3900,
BTS3900
WCDMA
U
50342643
VS.IubIP.RxBy
tes
Number of bytes
in the user-plane
and controlplane IP packets
received at the
IP layer over the
Iub interface
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the number of bytes in the user-plane and control-plane IP packets
transmitted and received at the IP layer over the Iub interface with a measurement period,
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respectively. For the bytes of user-plane IP packets transmitted, only the bytes of these packets
before multiplexing, fragmentation, or IPsec encryption are counted. For bytes of control-plane
IP packets transmitted, only the bytes of these packets before fragmentation or IPsec encryption
are counted. For bytes of user-plane IP packets received, only the bytes of these packets after
demultiplexing, reassembly, or IPsec decryption are counted. For bytes of control-plane IP
packets received, only these packets after reassembly or IPsec decryption are counted.
If the WMPT functions as the main control board, the preceding statistics do not take effect.
Measurement Points
The number of bytes in the IP packets transmitted at the IP layer over the Iub interface and the
number of bytes in the IP packets received at the IP layer over the Iub interface are sampled
every ten seconds within a measurement period. At the end of the measurement period, the sum
of these sampling results is used as the value of the corresponding counter.
Formula
None
Unit
byte
Related Features
Counter Name
Feature ID
VS.IubIP.TxBytes
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
WRFD-050411
LTE: None
VS.IubIP.RxBytes
IP Transmission Introduction
on Iub Interface
Fractional IP Function on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
WRFD-050411
LTE: None
IP Transmission Introduction
on Iub Interface
Fractional IP Function on Iub
Interface
Rate at the IP Layer over the Iub Interface
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342644
VS.IubIP.TxMa
xSpeed
Maximum userplane and
control-plane
transmit rate at
the IP layer over
the Iub interface
BTS3900,
BTS3900
WCDMA
U
50342645
VS.IubIP.TxMe
anSpeed
Average userplane and
control-plane
transmit rate at
the IP layer over
the Iub interface
BTS3900,
BTS3900
WCDMA
U
50342646
VS.IubIP.RxMa
xSpeed
Maximum userplane and
control-plane
receive rate at
the IP layer over
the Iub interface
BTS3900,
BTS3900
WCDMA
U
50342647
VS.IubIP.RxMe
anSpeed
Average userplane and
control-plane
receive rate at
the IP layer over
the Iub interface
BTS3900,
BTS3900
WCDMA
U
Description
These counters measure the user-plane and control-plane transmit rate at the IP layer over the
Iub interface and user-plane and control-plane receive rate at the IP layer over the Iub interface
every ten seconds within a measurement period. At the end of the measurement period, the
maximum and average of these sampling results are used as the values of the corresponding
counters. For the user-plane transmit rate, only the transmit rate before multiplexing,
fragmentation, or IPsec encryption is counted. For the control-plane transmit rate, only the
transmit rate before fragmentation or IPsec encryption is counted. For the user-plane receive
rate, only the receive rate after demultiplexing, reassembly, or IPsec decryption is counted. For
the control-plane receive rate, only the receive rate after reassembly or IPsec decryption is
counted.
If the WMPT functions as the main control board, the preceding statistics do not take effect.
Measurement Points
The transmit rate at the IP layer over the Iub interface and receive rate at the IP layer over the
Iub interface are sampled every ten seconds within a measurement period. At the end of the
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measurement period, the maximum and average of these sampling results are used as the values
of the corresponding counters.
Formula
None
Unit
bit/s
Related Features
Counter Name
Feature ID
VS.IubIP.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-050402
WRFD-050411
LTE: None
VS.IubIP.TxMeanSpeed
IP Transmission Introduction
on Iub Interface
Fractional IP Function on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
WRFD-050411
LTE: None
VS.IubIP.RxMaxSpeed
IP Transmission Introduction
on Iub Interface
Fractional IP Function on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
WRFD-050411
LTE: None
VS.IubIP.RxMeanSpeed
IP Transmission Introduction
on Iub Interface
Fractional IP Function on Iub
Interface
Multi-mode: None
GSM: None
UMTS: WRFD-050402
WRFD-050411
LTE: None
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Fractional IP Function on Iub
Interface
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1.3 Measurement of CNOperator Performance
(OPERATOR)
Overview
The object type consists of operator-related function subnets to indicate the bandwidth
consumption on a NodeB.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
TRAFFIC.OPERATOR
Traffic Measurement per CNOperator
OPERESERVE.OPERATOR
Operator Reserved Counter Measurement
1.3.1 Traffic Measurement per CNOperator
(TRAFFIC.OPERATOR)
Overview
The function subset measures the consumption of baseband resources on the NodeB side
according to the usage of CEs of each license group.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332555
VS.LC.ULMean.Li
censeGroup
Average number of
uplink CEs
consumed by an
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332556
VS.LC.DLMean.Li
censeGroup
Average number of
downlink CEs
consumed by an
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332557
VS.LC.DLCreditA
vailable.LicenseGr
oup.Dedicated
Number of dedicated
DL CEs configured
for an operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332558
VS.LC.ULCreditA
vailable.LicenseGr
oup.Dedicated
Number of dedicated
UL CEs configured
for an operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332559
VS.LC.ULCreditA
vailable.Shared
Number of UL CEs
configured for a
shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332560
VS.LC.DLCreditA
vailable.Shared
Number of DL CEs
configured for a
shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332561
VS.LC.ULMean.Li
censeGroup.Shared
Average number of
UL CEs consumed in
a shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332562
VS.LC.DLMean.Li
censeGroup.Shared
Average number of
DL CEs consumed in
a shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50332563
VS.HSUPA.LC.UL
Mean.LicenseGroup
Average number of
uplink CEs
consumed by
HSUPA services of
an operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332564
VS.HSUPA.LC.UL
Mean.LicenseGrou
p.Shared
Average number of
shared uplink CEs
consumed by
HSUPA services of a
shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50332593
VS.LC.ULCreditU
sed.Mean.SharedOperator
Average number of
uplink CEs
consumed by each
operator in an
MOCN network
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332594
VS.LC.DLCreditU
sed.Mean.SharedOperator
Average number of
downlink CEs
consumed by each
operator in an
MOCN network
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50342555
VS.LC.ULMax.LicenseGroup
Maximum number of
uplink CEs
consumed by an
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342556
VS.LC.DLMax.LicenseGroup
Maximum number of
downlink CEs
consumed by an
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342561
VS.LC.ULMax.Lic
enseGroup.Shared
Maximum number of
UL CEs consumed in
a shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342562
VS.LC.DLMax.Lic
enseGroup.Shared
Maximum number of
DL CEs consumed in
a shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
version earlier than
V200R011C00
50342563
VS.HSUPA.LC.UL
Max.LicenseGroup
Maximum number of
uplink CEs
consumed by
HSUPA services of
an operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342564
VS.HSUPA.LC.UL
Max.LicenseGroup
.Shared
Maximum number of
shared uplink CEs
consumed by
HSUPA services of a
shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342567
VS.LC.DLMin.Lice
nseGroup.Shared
Minimum Number of
DL CEs consumed in
a shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50342568
VS.LC.ULMin.Lice
nseGroup.Shared
Minimum Number of
UL CEs consumed in
a shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342569
VS.HSUPA.LC.UL
Min.LicenseGroup.
Shared
Minimum Number of
Shared uplink CEs
Consumed by
HSUPA Services of a
shared group
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342570
VS.LC.DLMin.LicenseGroup
Minimum number of
downlink CEs
consumed by an
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342571
VS.LC.ULMin.LicenseGroup
Minimum number of
uplink CEs
consumed by an
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342572
VS.HSUPA.LC.UL
Min.LicenseGroup
Minimum number of
uplink CEs
consumed by
HSUPA services of
an operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R012C00
50342618
VS.ULCoMP.LC.U
LMean.LicenseGroup
Average Number of
UL CEs Configured
for an Operator
Consumed by UL
Coordinating Links
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342619
VS.ULCoMP.LC.U
LMax.LicenseGroup
Maximum Number
of UL CEs
Configured for an
Operator Consumed
by UL Coordinating
Links
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342621
VS.ULCoMP.LC.U
LMean.LicenseGro
up.Shared
Average Number of
UL CEs Configured
for an Operator in a
Shared Group
Consumed by UL
Coordinating Links
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
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1 NodeBFunction Performance Counter Measurement
Counter ID
Counter Name
Counter
Description
Original Release
50342622
VS.ULCoMP.LC.U
LMax.LicenseGrou
p.Shared
Maximum Number
of UL CEs
Configured for an
Operator in a Shared
Group Consumed by
UL Coordinating
Links
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342624
VS.ULCoMP.HSU
PA.LC.ULMean.Li
censeGroup
Average Number of
UL CEs Configured
for an Operator
Consumed by UL
Coordinating Links
Carrying HSUPA
Services
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342625
VS.ULCoMP.HSU
PA.LC.ULMax.LicenseGroup
Maximum Number
of UL CEs
Configured for an
Operator Consumed
by UL Coordinating
Links Carrying
HSUPA Services
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342627
VS.ULCoMP.HSU
PA.LC.ULMean.Li
censeGroup.Shared
Average Number of
UL CEs in a Shared
Group Consumed by
UL Coordinating
Links Carrying
HSUPA Services
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342628
VS.ULCoMP.HSU
PA.LC.ULMax.Lic
enseGroup.Shared
Maximum Number
of UL CEs in a
Shared Group
Consumed by UL
Coordinating Links
Carrying HSUPA
Services
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
Counter Relationship
None
Number of Uplink CEs Consumed by an Operator
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3900 Series Base Station
NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332555
VS.LC.ULMea
n.LicenseGroup
Average
number of
uplink CEs
consumed by an
operator
BTS3900,
BTS3900
WCDMA
U
50342555
VS.LC.ULMax.
LicenseGroup
Maximum
number of
uplink CEs
consumed by an
operator
BTS3900,
BTS3900
WCDMA
U
50342571
VS.LC.ULMin.
LicenseGroup
Minimum
number of
uplink CEs
consumed by an
operator
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of dedicated and shared uplink CEs consumed by an operator.
This counter is only used for operators with RAN sharing.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the average
number of dedicated and shared uplink CEs consumed by an operator is obtained by dividing
the accumulated value in the period by the number of samples. The maximum of these sampling
results is defined as the maximum number of dedicated and shared uplink CEs consumed by an
operator, and the minimum of these sampling results is defined as the minimum number of
dedicated and shared uplink CEs consumed by an operator.
Formula
None
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1 NodeBFunction Performance Counter Measurement
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.ULMean.LicenseGroup
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.ULMax.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.ULMin.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Downlink CEs Consumed by an Operator
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332556
VS.LC.DLMea
n.LicenseGroup
Average
number of
downlink CEs
consumed by an
operator
BTS3900,
BTS3900
WCDMA
U
50342556
VS.LC.DLMax.
LicenseGroup
Maximum
number of
downlink CEs
consumed by an
operator
BTS3900,
BTS3900
WCDMA
U
50342570
VS.LC.DLMin.
LicenseGroup
Minimum
number of
downlink CEs
consumed by an
operator
BTS3900,
BTS3900
WCDMA
U
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NodeBFunction Performance Counter Reference
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Description
This counter measures the number of dedicated and shared downlink CEs consumed by an
operator. This counter is only used for operators with RAN sharing.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the average
number of dedicated and shared downlink CEs consumed by an operator is obtained by dividing
the accumulated value in the period by the number of samples. The maximum of these sampling
results is defined as the maximum number of dedicated and shared downlink CEs consumed by
an operator, and the minimum of these sampling results is defined as the minimum number of
dedicated and shared uplink CEs consumed by an operator.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.DLMean.LicenseGroup
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.DLMax.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.DLMin.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of DL CEs Configured for an Operator
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332557
VS.LC.DLCred
itAvailable.Lice
nseGroup.Dedic
ated
Number of
dedicated DL
CEs configured
for an operator
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of dedicated downlink CEs configured for an operator. This
counter is only used for operators with RAN sharing.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the number of
dedicated downlink CEs configured for an operator is obtained by dividing the accumulated
value in the period by the number of samples.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.DLCreditAvailable.
LicenseGroup.Dedicated
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of UL CEs Configured for an Operator
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332558
VS.LC.ULCred
itAvailable.Lice
nseGroup.Dedic
ated
Number of
dedicated UL
CEs configured
for an operator
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of dedicated uplink CEs configured for an operator. This
counter is only used for operators with RAN sharing.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the number of
dedicated uplink CEs configured for an operator is obtained by dividing the accumulated value
in the period by the number of samples.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.ULCreditAvailable.
LicenseGroup.Dedicated
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of UL CEs Configured for a Shared Group
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332559
VS.LC.ULCred
itAvailable.Shar
ed
Number of UL
CEs configured
for a shared
group
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of uplink CEs configured for a shared group within a
measurement period. This counter is only used for operators with RAN sharing.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the number of
uplink CEs configured for a shared group is obtained by dividing the accumulated value in the
period by the number of samples.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.ULCreditAvailable.
Shared
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of DL CEs Configured for a Shared Group
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332560
VS.LC.DLCred
itAvailable.Shar
ed
Number of DL
CEs configured
for a shared
group
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of downlink CEs configured for a shared group within a
measurement period. This counter is only used for operators with RAN sharing.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the number of
downlink CEs configured for a shared group is obtained by dividing the accumulated value in
the period by the number of samples.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.DLCreditAvailable.
Shared
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Uplink CEs Consumed in a Shared group
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NodeBFunction Performance Counter Reference
1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332561
VS.LC.ULMea
n.LicenseGroup
.Shared
Average
number of UL
CEs consumed
in a shared
group
BTS3900,
BTS3900
WCDMA
U
50342561
VS.LC.ULMax.
LicenseGroup.S
hared
Maximum
number of UL
CEs consumed
in a shared
group
BTS3900,
BTS3900
WCDMA
U
50342568
VS.LC.ULMin.
LicenseGroup.S
hared
Minimum
Number of UL
CEs consumed
in a shared
group
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of uplink CEs consumed in a shared group. This counter is
only used for operators with RAN sharing.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the average
number of uplink CEs consumed in a shared group is obtained by dividing the accumulated value
in the period by the number of samples. The maximum of these sampling results is defined as
the maximum number of uplink CEs consumed in a shared group, and the minimum of these
sampling results is defined as the minimum number of uplink CEs consumed in a shared group.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.LC.ULMean.LicenseGr
oup.Shared
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.ULMax.LicenseGro
up.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.ULMin.LicenseGrou
p.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Downlink CEs consumed in a Shared group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332562
VS.LC.DLMea
n.LicenseGroup
.Shared
Average
number of DL
CEs consumed
in a shared
group
BTS3900,
BTS3900
WCDMA
U
50342562
VS.LC.DLMax.
LicenseGroup.S
hared
Maximum
number of DL
CEs consumed
in a shared
group
BTS3900,
BTS3900
WCDMA
U
50342567
VS.LC.DLMin.
LicenseGroup.S
hared
Minimum
Number of DL
CEs consumed
in a shared
group
BTS3900,
BTS3900
WCDMA
U
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Description
This counter measures the number of shared downlink CEs consumed in a shared group. This
counter is only used for operators with RAN sharing.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the average
number of downlink CEs consumed in a shared group is obtained by dividing the accumulated
value in the period by the number of samples. The maximum of these sampling results is defined
as the maximum number of downlink CEs consumed in a shared group, and the minimum of
these sampling results is defined as the minimum number of downlink CEs consumed in a shared
group.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.DLMean.LicenseGr
oup.Shared
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.DLMax.LicenseGro
up.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.LC.DLMin.LicenseGrou
p.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Uplink CEs Consumed by HSUPA Services of an Operator
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1 NodeBFunction Performance Counter Measurement
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332563
VS.HSUPA.LC
.ULMean.Licen
seGroup
Average
number of
uplink CEs
consumed by
HSUPA
services of an
operator
BTS3900,
BTS3900
WCDMA
U
50342563
VS.HSUPA.LC
.ULMax.LicenseGroup
Maximum
number of
uplink CEs
consumed by
HSUPA
services of an
operator
BTS3900,
BTS3900
WCDMA
U
50342572
VS.HSUPA.LC
.ULMin.LicenseGroup
Minimum
number of
uplink CEs
consumed by
HSUPA
services of an
operator
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of dedicated and shared uplink CEs consumed by HSUPA
services of an operator. This counter is only used for operators with RAN sharing.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the average
number of dedicated and shared uplink CEs consumed by HSUPA services of an operator is
obtained by dividing the accumulated value in the period by the number of samples. The
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1 NodeBFunction Performance Counter Measurement
maximum of these sampling results is defined as the maximum number of dedicated and shared
uplink CEs consumed by HSUPA services of an operator, and the minimum of these sampling
results is defined as the minimum number of dedicated and shared uplink CEs consumed by
HSUPA services of an operator.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.LC.ULMean.Li
censeGroup
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.HSUPA.LC.ULMax.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.HSUPA.LC.ULMin.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Number of Shared Uplink CEs Consumed by HSUPA Services of a Shared Group
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332564
VS.HSUPA.LC
.ULMean.Licen
seGroup.Shared
Average
number of
shared uplink
CEs consumed
by HSUPA
services of a
shared group
BTS3900,
BTS3900
WCDMA
U
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Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342564
VS.HSUPA.LC
.ULMax.Licens
eGroup.Shared
Maximum
number of
shared uplink
CEs consumed
by HSUPA
services of a
shared group
BTS3900,
BTS3900
WCDMA
U
50342569
VS.HSUPA.LC
.ULMin.Licens
eGroup.Shared
Minimum
Number of
Shared uplink
CEs Consumed
by HSUPA
Services of a
shared group
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of shared uplink CEs consumed by HSUPA services of a
shared group. This counter is only used for operators with RAN sharing.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
This counter is sampled every five seconds. At the end of a measurement period, the average
number of dedicated uplink CEs consumed by an operator is obtained by dividing the
accumulated value in the period by the number of samples. The maximum of these sampling
results is defined as the maximum number of dedicated uplink CEs consumed by an operator,
and the minimum of these sampling results is defined as the minimum number of dedicated
uplink CEs consumed by HSUPA services of an operator.
Formula
None
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Unit
None
Related Features
Counter Name
Feature ID
VS.HSUPA.LC.ULMean.Li
censeGroup.Shared
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.HSUPA.LC.ULMax.Lic
enseGroup.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
VS.HSUPA.LC.ULMin.Lic
enseGroup.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-020101
Admission Control
LTE: None
Average number of uplink CEs consumed by each operator in an MOCN network
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332593
VS.LC.ULCred
itUsed.Mean.Sh
aredOperator
Average
number of
uplink CEs
consumed by
each operator in
an MOCN
network
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of uplink CEs consumed by each operator in an
MOCN network. The traffic statistics ID ranges from -1 to 3. The range 0 to 3 corresponds to
the primary/secondary operator indexes configured on the RNC. Value -1 does not take effect.
Remarks:
After Uplink CoMP (Joint Reception) and HetNet Uplink CoMP(Joint Reception) are
introduced, the number of consumed uplink CEs in license groups includes the number of uplink
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CEs consumed by DCH users and HSUPA users and the number of CEs consumed by
coordinating links for UL CoMP (joint reception) users in the local license group.
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
This counter is sampled every five seconds and measures the average number of uplink CEs
consumed by each operator in an MOCN network. At the end of a measurement period (for
example 15 minutes), the average number is obtained by diving the accumulated value in the
period by the number of samples.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.ULCreditUsed.Mean
.SharedOperator
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021311
LTE: None
MOCN Introduction
Package
Average number of downlink CEs consumed by each operator in an MOCN
network
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332594
VS.LC.DLCred
itUsed.Mean.Sh
aredOperator
Average
number of
downlink CEs
consumed by
each operator in
an MOCN
network
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average number of downlink CEs consumed by each operator in an
MOCN network. The traffic statistics ID ranges from -1 to 3. The range 0 to 3 corresponds to
the primary/secondary operator indexes configured on the RNC. Value -1 does not take effect.
Measurement Points
This counter is sampled every five seconds and measures the average number of downlink CEs
consumed by each operator in an MOCN network. At the end of a measurement period (for
example 15 minutes), the average number is obtained by diving the accumulated value in the
period by the number of samples.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.LC.DLCreditUsed.Mean
.SharedOperator
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021311
LTE: None
MOCN Introduction
Package
Number of UL CEs Configured for an Operator Consumed by UL Coordinating
Links
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342618
VS.ULCoMP.L
C.ULMean.Lic
enseGroup
Average
Number of UL
CEs Configured
for an Operator
Consumed by
UL
Coordinating
Links
BTS3900,
BTS3900
WCDMA
U
50342619
VS.ULCoMP.L
C.ULMax.Lice
nseGroup
Maximum
Number of UL
CEs Configured
for an Operator
Consumed by
UL
Coordinating
Links
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of UL CEs in shared and dedicated
groups configured for an operator consumed by UL coordinating links. The measurement results
show how the CEs are additionally consumed after the UL CoMP feature has been enabled. The
consumption can be assessed using the ratio of UL CEs configured for an operator consumed
by UL coordinating links to those of other links. This counter is only used for operators with
RAN sharing.
Remarks:
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
The number of UL CEs in shared and dedicated groups configured for an operator consumed by
UL coordinating links is sampled every 5 seconds. At the end of a measurement period, the
average number of UL CEs in shared and dedicated groups configured for an operator consumed
by UL coordinating links is obtained by dividing the accumulated value within the measurement
by the number of samples. The maximum value within the measurement period is the maximum
number of UL CEs in shared and dedicated groups configured for an operator consumed by UL
coordinating links.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ULCoMP.LC.ULMean.
LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.ULCoMP.LC.ULMax.Li
censeGroup
Feature Name
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Number of UL CEs Configured for an Operator in a Shared Group Consumed by
UL Coordinating Links
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342621
VS.ULCoMP.L
C.ULMean.Lic
enseGroup.Shar
ed
Average
Number of UL
CEs Configured
for an Operator
in a Shared
Group
Consumed by
UL
Coordinating
Links
BTS3900,
BTS3900
WCDMA
U
50342622
VS.ULCoMP.L
C.ULMax.Lice
nseGroup.Share
d
Maximum
Number of UL
CEs Configured
for an Operator
in a Shared
Group
Consumed by
UL
Coordinating
Links
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of UL CEs configured for an operator
in a shared group consumed by UL coordinating links. The measurement results show how the
CEs are additionally consumed after the UL CoMP feature has been enabled. The consumption
can be assessed using the ratio of UL CEs configured for an operator in a shared group consumed
by UL coordinating links to those of other links. This counter is only used for operators with
RAN sharing.
Remarks:
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
The number of UL CEs configured for an operator in a shared group consumed by UL
coordinating links is sampled every 5 seconds. At the end of a measurement period, the average
number of UL CEs configured for an operator in a shared group consumed by UL coordinating
links is obtained by dividing the accumulated value within the measurement by the number of
samples. The maximum value within the measurement period is the maximum number of UL
CEs configured for an operator in a shared group consumed by UL coordinating links.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ULCoMP.LC.ULMean.
LicenseGroup.Shared
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.ULCoMP.LC.ULMax.Li
censeGroup.Shared
Feature Name
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Number of UL CEs Configured for an Operator Consumed by UL Coordinating
Links Carrying HSUPA Services
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342624
VS.ULCoMP.H
SUPA.LC.UL
Mean.LicenseGroup
Average
Number of UL
CEs Configured
for an Operator
Consumed by
UL
Coordinating
Links Carrying
HSUPA
Services
BTS3900,
BTS3900
WCDMA
U
50342625
VS.ULCoMP.H
SUPA.LC.UL
Max.LicenseGr
oup
Maximum
Number of UL
CEs Configured
for an Operator
Consumed by
UL
Coordinating
Links Carrying
HSUPA
Services
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of UL CEs in shared and dedicated
groups configured for an operator consumed by UL coordinating links carrying HSUPA services.
The measurement results show how the CEs are additionally consumed after the UL CoMP
feature has been enabled. The consumption can be assessed using the ratio of UL CEs configured
for an operator consumed by UL coordinating links carrying HSUPA services to those of other
links. This counter is only used for operators with RAN sharing.
Remarks:
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
The number of UL CEs in shared and dedicated groups configured for an operator consumed by
UL coordinating links carrying HSUPA services is sampled every 5 seconds. At the end of a
measurement period, the average number of UL CEs in shared and dedicated groups configured
for an operator consumed by UL coordinating links carrying HSUPA services is obtained by
dividing the accumulated value within the measurement by the number of samples. The
maximum value within the measurement period is the maximum number of UL CEs in shared
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and dedicated groups configured for an operator consumed by UL coordinating links carrying
HSUPA services.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ULCoMP.HSUPA.LC.U
LMean.LicenseGroup
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.ULCoMP.HSUPA.LC.U
LMax.LicenseGroup
Feature Name
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Number of UL CEs in a Shared Group Consumed by UL Coordinating Links
Carrying HSUPA Services
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342627
VS.ULCoMP.H
SUPA.LC.UL
Mean.LicenseG
roup.Shared
Average
Number of UL
CEs in a Shared
Group
Consumed by
UL
Coordinating
Links Carrying
HSUPA
Services
BTS3900,
BTS3900
WCDMA
U
50342628
VS.ULCoMP.H
SUPA.LC.UL
Max.LicenseGr
oup.Shared
Maximum
Number of UL
CEs in a Shared
Group
Consumed by
UL
Coordinating
Links Carrying
HSUPA
Services
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of UL CEs in a shared group consumed
by UL coordinating links carrying HSUPA services. The measurement results show how the
CEs are additionally consumed after the UL CoMP feature has been enabled. The consumption
can be assessed using the ratio of UL CEs in a shared group consumed by UL coordinating links
carrying HSUPA services to those of other links. This counter is only used for operators with
RAN sharing.
Remarks:
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
Measurement Points
The number of UL CEs in a shared group consumed by UL coordinating links carrying HSUPA
services is sampled every 5 seconds. At the end of a measurement period, the average number
of UL CEs in a shared group consumed by UL coordinating links carrying HSUPA services is
obtained by dividing the accumulated value within the measurement by the number of samples.
The maximum value within the measurement period is the maximum number of UL CEs in a
shared group consumed by UL coordinating links carrying HSUPA services.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ULCoMP.HSUPA.LC.U
LMean.LicenseGroup.Share
d
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.ULCoMP.HSUPA.LC.U
LMax.LicenseGroup.Shared
Feature Name
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
1.3.2 Operator Reserved Counter Measurement
(OPERESERVE.OPERATOR)
Overview
The function subset indicates measurements reserved for operators. Reserved counter is used
temporarily in patch versions and will be replaced with a new counter in later versions. For the
detailed information about used reserved counters, see the "Used Reserved Counter List" of the
corresponding version.
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Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332591
VS.OpeReserve.Co
unter1.OP
Reserved 1 for the
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332592
VS.OpeReserve.Co
unter2.OP
Reserved 2 for the
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332595
VS.OpeReserve.Co
unter3.OP
Reserved 3 for the
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332596
VS.OpeReserve.Co
unter4.OP
Reserved 4 for the
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
50332597
VS.OpeReserve.Co
unter5.OP
Reserved 5 for the
operator
BTS3900:
V100R008C00
BTS3900 WCDMA:
V200R014C00
Counter Relationship
None
Reserved 1 for the operator
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332591
VS.OpeReserve
.Counter1.OP
Reserved 1 for
the operator
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
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Counter Name
Description
VS.OpeReserve.Counter1.OP
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 2 for the operator
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332592
VS.OpeReserve
.Counter2.OP
Reserved 2 for
the operator
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.OpeReserve.Counter2.OP
None.
Measurement Points
None.
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Formula
None
Unit
None
Related Features
None
Reserved 3 for the operator
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332595
VS.OpeReserve
.Counter3.OP
Reserved 3 for
the operator
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.OpeReserve.Counter3.OP
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
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Reserved 4 for the operator
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332596
VS.OpeReserve
.Counter4.OP
Reserved 4 for
the operator
BTS3900,
BTS3900
WCDMA
U
Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.OpeReserve.Counter4.OP
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
Reserved 5 for the operator
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332597
VS.OpeReserve
.Counter5.OP
Reserved 5 for
the operator
BTS3900,
BTS3900
WCDMA
U
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Description
None.
The following table describes the meanings of each counter:
Counter Name
Description
VS.OpeReserve.Counter5.OP
None.
Measurement Points
None.
Formula
None
Unit
None
Related Features
None
1.4 Measurement of LoCell_SectorEQM Performance
(LOCELL_SECTOREQM)
Overview
The object type consists of function subsets in a local cell under the sector equipment to indicate
the local cell performance.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
IUB.LOCELL.SECTOREQM
Iub Measurement per LoCell_SectorEQM
PRACH.LOCELL.SECTOREQM
PRACH Measurement per
LoCell_SectorEQM
ERACH.LOCELL.SECTOREQM
ERACH Measurement per
LoCell_SectorEQM
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FunctionSubSet
FunctionSubSet Name
RTWP.LOCELL.SECTOREQM
RTWP Measurement per
LoCell_SectorEQM
1.4.1 Iub Measurement per LoCell_SectorEQM
(IUB.LOCELL.SECTOREQM)
Overview
The function subset consists of counters related to radio link deletion over an Iub interface.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332348
VS.RL.NormRel.L
ocell.SectorEqm
Number of normal
cell-sectoreqm RL
releases
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332349
VS.RL.AbnormRel
.Locell.SectorEqm
Number of abnormal
cell-sectoreqm RL
releases
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
Counter Relationship
None
Number of normal cell-sectoreqm RL releases
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332348
VS.RL.NormRe
l.Locell.SectorEqm
Number of
normal cellsectoreqm RL
releases
BTS3900,
BTS3900
WCDMA
U
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Description
This counter measures the number of normal cell-sectoreqm RL releases within a measurement
period when the Independent Demodulation of Signals from Multiple RRUs in One Cell feature
has been enabled or a 0.5/0.5 cell has been deployed.
Measurement Points
As shown in point A of the following figure, the measurement is triggered in the sector in which
a UE releases an RL when the NodeB receives a RADIO LINK DELETION REQUEST message
from the RNC and the RL is normally released. The measurement is triggered in each sector if
the UE is served by multiple sectors while releasing the RL.
Figure 1-20
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.RL.NormRel.Locell.Sect
orEqm
Multi-mode: None
GSM: None
UMTS: WRFD-021350
LTE: None
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Independent Demodulation
of Signals from Multiple
RRUs in One Cell
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Number of abnormal cell-sectoreqm RL releases
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332349
VS.RL.Abnorm
Rel.Locell.SectorEqm
Number of
abnormal cellsectoreqm RL
releases
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of abnormal cell-sectoreqm RL releases within a
measurement period when the Independent Demodulation of Signals from Multiple RRUs in
One Cell feature has been enabled or a 0.5/0.5 cell has been deployed.
Measurement Points
As shown in point A of the following figure, the measurement is triggered in the sector in which
a UE releases an RL when the NodeB receives a RADIO LINK DELETION REQUEST message
from the RNC but the RL is abnormally released. The measurement is triggered in each sector
if the UE is served by multiple sectors while releasing the RL.
Figure 1-21
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
Feature Name
VS.RL.AbnormRel.Locell.S
ectorEqm
Multi-mode: None
GSM: None
UMTS: WRFD-021350
LTE: None
Independent Demodulation
of Signals from Multiple
RRUs in One Cell
1.4.2 PRACH Measurement per LoCell_SectorEQM
(PRACH.LOCELL.SECTOREQM)
Overview
The function subset consists of PRACH-related counters for the LoCell_SectorEQM.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332350
VS.PositiveNum.AI
CH.Locell.SectorEqm
Number of cellsectoreqm positive
AI
acknowledgments
for RACH users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332351
VS.NegativeNum.A
ICH.Locell.SectorEqm
Number of cellsectoreqm negative
AI
acknowledgments
for RACH users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332352
VS.TBNum.Succ.R
ACH.Locell.SectorEqm
Number of TBs
successfully received
over the cellsectoreqm RACH
with correct CRCs
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50332353
VS.TBNum.Total.
RACH.Locell.SectorEqm
Total number of TBs
received over the
cell-sectoreqm
RACH
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter Relationship
None
Number of cell-sectoreqm positive AI acknowledgments for RACH users
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332350
VS.PositiveNu
m.AICH.Locell.
SectorEqm
Number of cellsectoreqm
positive AI
acknowledgme
nts for RACH
users
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of cell-sectoreqm positive AI acknowledgements for RACH
users within a measurement period. If the Independent Demodulation of Signals from Multiple
RRUs in One Cell feature has not been enabled or a 0.5/0.5 cell has not been deployed, the
measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been
enabled or a 0.5/0.5 cell has been deployed, this counter is sampled in each sector. At the end
of a measurement period, the number of preamble acquisition indicators (AIs) sent to RACH
users with positive acknowledgements transmitted over the downlink AICH is measured in a
sector.
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not
been enabled or a 0.5/0.5 cell has not been deployed, this counter is sampled on a basis of cell,
not a basis of sector. At the end of a measurement period, the number of preamble acquisition
indicators (AIs) sent to RACH users with positive acknowledgements transmitted over the
downlink AICH is measured in a cell.
Formula
None
Unit
None
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Related Features
Counter Name
Feature ID
VS.PositiveNum.AICH.Loc
ell.SectorEqm
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021350
Independent Demodulation
of Signals from Multiple
RRUs in One Cell
LTE: None
Number of cell-sectoreqm negative AI acknowledgments for RACH users
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332351
VS.NegativeNu
m.AICH.Locell.
SectorEqm
Number of cellsectoreqm
negative AI
acknowledgme
nts for RACH
users
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of cell-sectoreqm negative AI acknowledgements for RACH
users within a measurement period. If the Independent Demodulation of Signals from Multiple
RRUs in One Cell feature has not been enabled or a 0.5/0.5 cell has not been deployed, the
measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been
enabled or a 0.5/0.5 cell has been deployed, this counter is sampled in each sector. At the end
of a measurement period, the number of preamble acquisition indicators (AIs) sent to RACH
users with negative acknowledgements transmitted over the downlink AICH is measured in a
sector.
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not
been enabled or a 0.5/0.5 cell has not been deployed, this counter is sampled on a basis of cell,
not a basis of sector. At the end of a measurement period, the number of preamble acquisition
indicators (AIs) sent to RACH users with negative acknowledgements transmitted over the
downlink AICH is measured in a cell.
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Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.NegativeNum.AICH.Lo
cell.SectorEqm
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021350
Independent Demodulation
of Signals from Multiple
RRUs in One Cell
LTE: None
Number of TBs successfully received over the cell-sectoreqm RACH with correct
CRCs
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332352
VS.TBNum.Su
cc.RACH.Locel
l.SectorEqm
Number of TBs
successfully
received over
the cellsectoreqm
RACH with
correct CRCs
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of TBs successfully received over the cell-sectoreqm RACH
with correct CRCs within a measurement period. If the Independent Demodulation of Signals
from Multiple RRUs in One Cell feature has not been enabled or a 0.5/0.5 cell has not been
deployed, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been
enabled or a 0.5/0.5 cell has been deployed, this counter is sampled in each sector. At the end
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of a measurement period, the number of TBs successfully received over the uplink RACH with
correct CRCs is measured in a sector.
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not
been enabled or a 0.5/0.5 cell has not been deployed, this counter is sampled on a basis of cell,
not a basis of sector. At the end of a measurement period, the number of TBs successfully
received over the uplink RACH with correct CRCs is measured in a cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.TBNum.Succ.RACH.Lo
cell.SectorEqm
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-021350
Independent Demodulation
of Signals from Multiple
RRUs in One Cell
LTE: None
Total number of TBs received over the cell-sectoreqm RACH
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332353
VS.TBNum.Tot
al.RACH.Locel
l.SectorEqm
Total number of
TBs received
over the cellsectoreqm
RACH
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of TBs received over the cell-sectoreqm RACH with correct
and incorrect CRCs within a measurement period. If the Independent Demodulation of Signals
from Multiple RRUs in One Cell feature has not been enabled or a 0.5/0.5 cell has not been
deployed, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
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Measurement Points
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been
enabled or a 0.5/0.5 cell has been deployed, this counter is sampled in each sector. At the end
of a measurement period, the number of TBs successfully received over the uplink RACH with
correct CRCs is measured in a sector.
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not
been enabled or a 0.5/0.5 cell has not been deployed, this counter is sampled on a basis of cell,
not a basis of sector. At the end of a measurement period, the number of TBs successfully
received over the uplink RACH with correct CRCs is measured in a cell.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.TBNum.Total.RACH.Lo
cell.SectorEqm
Multi-mode: None
GSM: None
UMTS: WRFD-021350
LTE: None
Independent Demodulation
of Signals from Multiple
RRUs in One Cell
1.4.3 ERACH Measurement per LoCell_SectorEQM
(ERACH.LOCELL.SECTOREQM)
Overview
The function subset consists of ERACH-related counters for the LoCell_SectorEQM.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50332354
VS.ERACH.Positiv
eNum.AICH.Locell
.SectorEqm
Number of cellsectoreqm positive
AI
acknowledgments
for E-RACH users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter ID
Counter Name
Counter
Description
Original Release
50332355
VS.ERACH.Negati
veNum.AICH.Loce
ll.SectorEqm
Number of cellsectoreqm negative
AI
acknowledgments
for E-RACH users
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
Counter Relationship
None
Number of cell-sectoreqm positive AI acknowledgments for E-RACH users
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332354
VS.ERACH.Po
sitiveNum.AIC
H.Locell.Sector
Eqm
Number of cellsectoreqm
positive AI
acknowledgme
nts for E-RACH
users
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of cell-sectoreqm positive AI acknowledgements for ERACH users within a measurement period. If the Independent Demodulation of Signals from
Multiple RRUs in One Cell feature has not been enabled or a 0.5/0.5 cell has not been deployed,
the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been
enabled or a 0.5/0.5 cell has been deployed, the number of positive acknowledgements (with +1
acquisition indicators (AIs)) and the number of positive acknowledgements (with +1 extended
acquisition indicators (EAIs)) transmitted to E-RACH users over the AICH are sampled per
sector within a measurement period. At the end of the measurement period, the sum of these
sampling results is used as the value of this counter.
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not
been enabled or a 0.5/0.5 cell has not been deployed, the number of positive acknowledgements
(with +1 acquisition indicators (AIs)) and the number of positive acknowledgements (with +1
extended acquisition indicators (EAIs)) transmitted to E-RACH users over the AICH are
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sampled per cell within a measurement period. At the end of the measurement period, the sum
of these sampling results is used as the value of this counter.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.ERACH.PositiveNum.A
ICH.Locell.SectorEqm
Multi-mode: None
Feature Name
GSM: None
UMTS: WRFD-010701
Uplink Enhanced
CELL_FACH
LTE: None
Number of cell-sectoreqm negative AI acknowledgments for E-RACH users
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50332355
VS.ERACH.Ne
gativeNum.AIC
H.Locell.Sector
Eqm
Number of cellsectoreqm
negative AI
acknowledgme
nts for E-RACH
users
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the number of cell-sectoreqm negative AI acknowledgements for ERACH users within a measurement period. If the Independent Demodulation of Signals from
Multiple RRUs in One Cell feature has not been enabled or a 0.5/0.5 cell has not been deployed,
the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been
enabled or a 0.5/0.5 cell has been deployed, the number of negative acknowledgements
transmitted to E-RACH users over the AICH is sampled per sector within a measurement period.
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At the end of the measurement period, the sum of these sampling results is used as the value of
this counter.
If the Independent Demodulation of Signals from Multiple RRUs in One Cell featurehas not
been enabled or a 0.5/0.5 cell has not been deployed, the number of negative acknowledgements
transmitted to E-RACH users over the AICH is sampled per cell within a measurement period.
At the end of the measurement period, the sum of these sampling results is used as the value of
this counter.
When extended acquisition indicators (EAIs) are not configured, the number of negative
acknowledgements (with -1 AIs) transmitted to E-RACH users is sampled. When EAIs are
configured, the number of negative acknowledgements (with -1 AIs and -1 EAIs) transmitted
to E-RACH users is sampled.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
Feature Name
VS.ERACH.NegativeNum.
AICH.Locell.SectorEqm
Multi-mode: None
GSM: None
UMTS: WRFD-010701
LTE: None
Uplink Enhanced
CELL_FACH
1.4.4 RTWP Measurement per LoCell_SectorEQM
(RTWP.LOCELL.SECTOREQM)
Overview
The function subset measures the RTWP over antenna ports.
Counters
Counter ID
Counter Name
Counter
Description
Original Release
50342590
VS.MeanRTWP.Lo
cell.SectorEqm.Ant
0
Average RTWP of
Antenna 0
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
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Counter ID
Counter Name
Counter
Description
Original Release
50342591
VS.MeanRTWP.Lo
cell.SectorEqm.Ant
1
Average RTWP of
Antenna 1
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342592
VS.MeanRTWP.Lo
cell.SectorEqm.Ant
2
Average RTWP of
Antenna 2
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342593
VS.MeanRTWP.Lo
cell.SectorEqm.Ant
3
Average RTWP of
Antenna 3
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342594
VS.MinRTWP.Loc
ell.SectorEqm.Ant0
Minimum RTWP of
Antenna 0
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342595
VS.MinRTWP.Loc
ell.SectorEqm.Ant1
Minimum RTWP of
Antenna 1
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342596
VS.MinRTWP.Loc
ell.SectorEqm.Ant2
Minimum RTWP of
Antenna 2
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
50342597
VS.MinRTWP.Loc
ell.SectorEqm.Ant3
Minimum RTWP of
Antenna 3
BTS3900:
V100R008C00
BTS3900 WCDMA:
V100R008C00
Counter Relationship
None
Average number of Ant RTWP
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Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342590
VS.MeanRTW
P.Locell.Sector
Eqm.Ant0
Average RTWP
of Antenna 0
BTS3900,
BTS3900
WCDMA
U
50342591
VS.MeanRTW
P.Locell.Sector
Eqm.Ant1
Average RTWP
of Antenna 1
BTS3900,
BTS3900
WCDMA
U
50342592
VS.MeanRTW
P.Locell.Sector
Eqm.Ant2
Average RTWP
of Antenna 2
BTS3900,
BTS3900
WCDMA
U
50342593
VS.MeanRTW
P.Locell.Sector
Eqm.Ant3
Average RTWP
of Antenna 3
BTS3900,
BTS3900
WCDMA
U
50342594
VS.MinRTWP.
Locell.SectorEq
m.Ant0
Minimum
RTWP of
Antenna 0
BTS3900,
BTS3900
WCDMA
U
50342595
VS.MinRTWP.
Locell.SectorEq
m.Ant1
Minimum
RTWP of
Antenna 1
BTS3900,
BTS3900
WCDMA
U
50342596
VS.MinRTWP.
Locell.SectorEq
m.Ant2
Minimum
RTWP of
Antenna 2
BTS3900,
BTS3900
WCDMA
U
50342597
VS.MinRTWP.
Locell.SectorEq
m.Ant3
Minimum
RTWP of
Antenna 3
BTS3900,
BTS3900
WCDMA
U
Description
The preceding counters indicate the average and minimum antenna RTWP of each receive
antenna during a measurement period
Measurement Points
Within a measurement period, the NodeB accumulates the antenna RTWP per second. Assume
that the sum is A. The NodeB counts the seconds in the measurement period. Assume that this
value is B. Then, Average antenna RTWP = A/B. The system calculates the average antenna
RTWP every 5 seconds and then takes the minimum value within the measurement period as
the minimum antenna RTWP.
Formula
None
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Unit
dBm
Related Features
Counter Name
Feature ID
Feature Name
VS.MeanRTWP.Locell.Sect
orEqm.Ant0
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
VS.MeanRTWP.Locell.Sect
orEqm.Ant1
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
VS.MeanRTWP.Locell.Sect
orEqm.Ant2
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
VS.MeanRTWP.Locell.Sect
orEqm.Ant3
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
VS.MinRTWP.Locell.Secto
rEqm.Ant0
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
VS.MinRTWP.Locell.Secto
rEqm.Ant1
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
LTE: None
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Counter Name
Feature ID
Feature Name
VS.MinRTWP.Locell.Secto
rEqm.Ant2
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
VS.MinRTWP.Locell.Secto
rEqm.Ant3
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive
Diversity
GSM: None
UMTS: WRFD-010209
4-Antenna Receive Diversity
LTE: None
1.5 Measurement of UMTS ULCoMP Group Performance
(UULCOMPGROUP)
Overview
The object type consists of UMTS ULCoMP Group-related function subnets to indicate the
UMTS ULCoMP group status and performance.
FunctionSubSets
FunctionSubSet
FunctionSubSet Name
ALGO.UULCOMPGROUP
ULCoMP Group Algorithm Measurement
1.5.1 ULCoMP Group Algorithm Measurement
(ALGO.UULCOMPGROUP)
Overview
The function subset measures the number of CoMP users in a coordinating cell, which indicates
the CoMP performance on the NodeB.
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Counters
Counter ID
Counter Name
Counter
Description
Original Release
50342610
VS.UUlCoMPGrou
p.UserNum
Average Number of
CoMP Users in a UL
CoMP Cell Pair
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
50342611
VS.UUlCoMPGrou
p.MaxUserNum
Maximum Number
of CoMP Users in a
UL CoMP Cell Pair
BTS3900:
V100R008C01
BTS3900 WCDMA:
V100R008C01
Counter Relationship
None
Number of CoMP Users in a UL CoMP Cell Pair
Counters
Counter ID
Counter
Name
Counter
Description
Network
Element
Applicable
Mode
50342610
VS.UUlCoMP
Group.UserNu
m
Average
Number of
CoMP Users in
a UL CoMP Cell
Pair
BTS3900,
BTS3900
WCDMA
U
50342611
VS.UUlCoMP
Group.MaxUser
Num
Maximum
Number of
CoMP Users in
a UL CoMP Cell
Pair
BTS3900,
BTS3900
WCDMA
U
Description
This counter measures the average and maximum number of CoMP users in a UL CoMP cell
pair. The measurement results confirm whether the CoMP feature takes effect.
Remarks:
UL CoMP (joint reception) user: Users using Uplink CoMP (Joint Reception) or HetNet Uplink
CoMP(Joint Reception) to receive signals on the NodeB side.
Coordinating link: Link specifically established by the NodeB for UL CoMP (joint reception)
users. The link is transparent to the RNC and UEs.
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User in a CoMP cell pair: specifies a user that uses a CoMP cell occupying coordinating links
as the secondary cell and a CoMP cell occupying other links set up by RNC as the primary cell.
Measurement Points
The number of CoMP users in a UL CoMP cell pair is sampled every 5 seconds. At the end of
the measurement period, the average number of CoMP users in a UL CoMP cell pair is obtained
by dividing the accumulated value within the measurement period by the number of samples.
The maximum value within the measurement period is the maximum number of CoMP users in
a UL CoMP cell pair.
Formula
None
Unit
None
Related Features
Counter Name
Feature ID
VS.UUlCoMPGroup.UserNum
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
VS.UUlCoMPGroup.MaxUserNum
Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
Multi-mode: None
GSM: None
UMTS: WRFD-151205
WRFD-151206
WRFD-151207
LTE: None
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Uplink CoMP (Joint
Reception)
HetNet Uplink CoMP (Joint
Reception)
Uplink CoMP (Joint
Reception) Based on
Coordinated BBU
485