3. CAPÍTULO 3: DESARROLLO Y VALIDACIÓN DE SINIBOT
3.4. Casos de Prueba de Aceptación
7.8.1 Description
This KPI can be used to evaluate the relocation preparation success ratio in one RNC, which serves as SRNC.
7.8.2 Definition
Table 7-7 SRNC Relocation Preparation Success Ratio
KPI Name SRNC Relocation Preparation Success Ratio Measurement
Counters See
ANNEX
Notes None
2006-06-07 Huawei Confidential Page 31 of 65
7.9.1 Description
This KPI can be used to evaluate the relocation preparation success ratio in one RNC, which serves as TRNC.
7.9.2 Definition
Table 7-8 TRNC Relocation Preparation Success Ratio
KPI Name TRNC Relocation Preparation Success Ratio Measurement
Scope
RNC
Formula 100%
Pr Re
_ = Re ×
ttempt eparationA location
TRNC
ccess locationSu SR TRNC
TRNCRP
Associated
Counters See
ANNEX
Notes None
2006-06-07 Huawei Confidential Page 32 of 65
Chapter 8 Service Integrity KPIs
8.1 PS Service UL Average Throughput
8.1.1 Description
This grouped KPI can be used to evaluate the busy hour UL throughput of PS service in each cell. According to the experience from commercial network, there are nine services listed in the following definition.
8.1.2 Definition
Table 8-1 PS Service UL Average Throughput
KPI Name PS Service UL Average Throughput Measurement
Counters See
ANNEX
Notes
2006-06-07 Huawei Confidential Page 33 of 65
8.2.1 Description
This grouped KPI can be used to evaluate the busy hour DL throughput of PS service in each cell. According to the experience from commercial network, there are twelve services listed in the following definition.
8.2.2 Definition
Table 8-2 PS Service DL Average Throughput
KPI Name PS Service DL Average Throughput Measurement
Counters See
ANNEX
Notes
2006-06-07 Huawei Confidential Page 34 of 65
8.3 Service UL Average BLER
8.3.1 Description
This grouped KPI can be used to evaluate the UL BLER value of service in each cell.
According to the experience from commercial network, there are three services listed in the following definition.
8.3.2 Definition
Table 8-3 Service UL BLER
KPI Name Service UL BLER Measurement
Scope
Cell
Formula
AMRULBLER VPULBLER
KULBLER PS 64
Associated
Counters See
ANNEX
Notes
8.4 Call Setup Delay
8.4.1 Description
This grouped KPI can be used to evaluate the Call Setup Delay time in one RNC.
According to the experience from commercial network, there are three services listed in the following definition.
2006-06-07 Huawei Confidential Page 35 of 65 Table 8-4 Call Setup Delay
KPI Name Call Setup Delay Measurement
Scope
Cell
Formula
ccessTime RRCSetupSu
e SuccessTim CSRABSetup
e SuccessTim PSRABSetup
Associated
Counters See
ANNEX
Notes
ccessTime
RRCSetupSu based on each cell, e
SuccessTim
CSRABSetup and PSRABSetupSuccessTime based on RNC can be used together to evaluate call setup delay.
8.5 DL RLC Average Retransmission Ratio
8.5.1 Description
This KPI can be used to evaluate the DL RLC average retransmission in one RNC.
2006-06-07 Huawei Confidential Page 36 of 65
8.5.2 Definition
Table 8-5 DL RLC Average Retransmission Ratio
KPI Name DL RLC Average Retransmission Ratio Measurement
Scope
RNC
Formula Re 100%
×
= DLRLCSentBlockAM dBlockAM transmitte
DLRLC DLRLCARR
Associated
Counters See
ANNEX
Notes None
2006-06-07 Huawei Confidential Page 37 of 65
Chapter 9 Availability KPIs
9.1 Worst Cell Ratio
9.1.1 Description
This KPI can be used to evaluate the effect of cells with poor call drop rate or call setup success rate to the deteriorating of network performance in one RNC.
9.1.2 Definition
Table 9-1 Worst Cell Ratio
KPI Name Worst Cell Ratio (WCR) Measurement
A1:See
AMR RAB Setup Success Ratio
A2:See
VP RAB Setup Success Ratio
B1:See
AMR Call Drop Ratio
Associated Counters
B2:See
VP Call Drop Ratio
Notes
95% and 3% are refered by the experience from commercial network while the traffic with AMR voice and video phone is bigger than 0.1 Erlang.
9.2 IU Paging Congestion Ratio
9.2.1 Description
This KPI can be used to evaluate the consumption of PCCH bandwidth on busy hour within IU interface.
2006-06-07 Huawei Confidential Page 38 of 65
9.2.2 Definition
Table 9-2 IU Paging Congestion Ratio
KPI Name IU Paging Congestion Ratio Measurement
Scope
RNC
Formula = ×100%
tempt IUPagingAt
ss IUPagingLo IUPagingCR
Associated
Counters See
ANNEX
Notes None
9.3 Admission Refused Ratio
9.3.1 Description
This KPI can be used to evaluate the admission refused ratio of radio network busy hour in a cell.
2006-06-07 Huawei Confidential Page 39 of 65 Table 9-3 Admission Refused Ratio
KPI Name Admission Refused Ratio Measurement
Scope
Cell
Formula
100 %
Re
Re ×
= Total source questNum nNum NoAdmissio nRatio
NoAdmissio
Associated
Counters See
ANNEX
Notes None
9.4 Congested Cell Ratio
9.4.1 Description
This KPI can be used to evaluate the utility ratio of radio network resources on busy hour in one RNC.
2006-06-07 Huawei Confidential Page 40 of 65
9.4.2 Definition
Table 9-4 Congested Cell Ratio
KPI Name Congested Cell Ratio Measurement
Scope
RNC
Formula = ×100%
sInRNC mberOfCell TheTotalNu
yHour CellsOnBus fCongested
TheNumberO ICR
Associated
Counters See
ANNEX
Notes
yHour CellsOnBus fCongested
TheNumberO is refered by
summing up the number of cells congested in DL or UL radio resources on busy hour.
9.5 Unserviceable Cell Ratio
9.5.1 Description
This KPI can be used to evaluate how serious the unserviceable cells cause the degrading of network performance on busy hour in one RNC.
2006-06-07 Huawei Confidential Page 41 of 65 Table 9-5 Unserviceable Cell Ratio
KPI Name Unserviceable Cell Ratio Measurement
Scope
RNC
Formula , 0 100%
> ×
= TheTotalNumberOfCellsInRNC lTime CellUnavai which
fCells TheNumberO UCR
Associated
Counters See
ANNEX
Notes None
9.6 Average CPU Load
9.6.1 Description
This KPI can be used to evaluate the consumption of CPU on busy hour in RNC system.
2006-06-07 Huawei Confidential Page 42 of 65
9.6.2 Definition
Table 9-6 Average CPU Load
KPI Name Average CPU Load Measurement
Scope
RNC
Formula MeanCPUUtility
Associated
Counters See
ANNEX
Notes
MeanCPUUti lity
is the CPU average load showed by percentage9.7 IUB Bandwidth Utilizing Ratio
9.7.1 Description
This grouped KPI can be used to evaluate the consumption of IUB bandwidth in one NodeB from uplink and downlink on busy hour. However the consumption of interactive and background service can’t keep the full rate all time on the configured IUB bandwidth. For further study, the utilizing rate can be devided into two classes, configuration consumption and real time consumption. So there are four KPIs listed in the following definition.
2006-06-07 Huawei Confidential Page 43 of 65 Table 9-7 IUB Bandwidth Utilizing Ratio
KPI Name IUB Bandwidth Utilizing Ratio Measurement
Counters See
ANNEX
Notes calculation of the transmission configuration of each NodeB in a RNC.
2006-06-07 Huawei Confidential Page 44 of 65
Chapter 10 Traffic KPIs
10.1 CS Equivalent Erlang
10.1.1 Description
This KPI can be used to evaluate the equivalent traffic of all CS service of one RNC.
10.1.2 Definition
Table 10-1 CS Equivalent Traffic KPI Name CS Equivalent Traffic Measurement
Scope
RNC
Formula
CSEquivale ntErl
Associated
Counters See
ANNEX
Notes Unit: Erl
10.2 PS UL Throughput
10.2.1 Description
This KPI can be used to evaluate the UL throughput of all PS service of one RNC.
2006-06-07 Huawei Confidential Page 45 of 65 Table 10-2 PS UL Throughput
KPI Name PS UL Throughput Measurement
Scope
RNC
Formula
UlThroughp ut
Associated
Counters See
ANNEX
Notes Unit: kbps
10.3 PS DL Throughput
10.3.1 Description
This KPI can be used to evaluate the DL throughput of all PS service of one RNC.
10.3.2 Definition
Table 10-3 PS DL Throughput KPI Name PS DL Throughput Measurement
Scope
RNC
Formula
DlThroughp ut
Associated
Counters See
ANNEX
Notes Unit: kbps
2006-06-07 Huawei Confidential Page 46 of 65
10.4 UL Traffic of Typical Radio Bearers
10.4.1 Description
This grouped KPI can be used to evaluate the average UL traffic of typical radio bearers on busy hour in one RNC, which the meaning of the traffic from the different sevice is different despite of in the same unit.
10.4.2 Definition
Table 10-4 UL Traffic of Typical Radio Bearers KPI Name UL Traffic of Typical Radio Bearers Measurement CSConv64 _
Erl KUL PSStr64 _
Erl KUL PSInter64 _
Erl KUL PSInter128 _
Erl KUL PSInter144 _
Erl KUL PSInter384 _
Erl KUL PSBkg64 _
Erl KUL PSBkg128 _
Erl KUL PSBkg144 _
Erl KUL PSBkg384 _
Associated
Counters See
ANNEX
Notes Unit: Erl
2006-06-07 Huawei Confidential Page 47 of 65
10.5.1 Description
This grouped KPI can be used to evaluate the average DL traffic of typical radio bearers on busy hour in one RNC, which the meaning of the traffic from the different sevice is different in despite of the same unit.
10.5.2 Definition
Table 10-5 DL Traffic of Typical Radio Bearers KPI Name DL Traffic of Typical Radio Bearers Measurement CSConv64 _
Erl KDL PSStr64 _
Erl KDL PSStr128 _
Erl KDL PSStr144 _
Erl KDL PSStr384 _
Erl KDL PSInter64 _
Erl KDL PSInter128 _
Erl KDL PSInter144 _
Erl KDL PSInter384 _
Erl KDL PSBkg64 _
Erl KDL PSBkg128 _
Erl KDL PSBkg144 _
Erl KDL PSBkg384 _
Associated
Counters See
ANNEX
Notes Unit: Erl
2006-06-07 Huawei Confidential Page 48 of 65
10.6 UL Throughput of QoS Classes
10.6.1 Description
This grouped KPI can be used to evaluate the cell’s UL throughput of QoS classes in one cell.
10.6.2 Definition
Table 10-6 UL Throughput of QoS Classes KPI Name UL Throughput of QoS Classes Measurement
Scope
Cell
Formula
Throughput CellULConv
hroughput CellULStrT
t rThroughpu CellULInte
hroughput CellULBkgT
Associated
Counters See
ANNEX
Notes Unit: Kbps
10.7 DL Throughput of QoS Classes
10.7.1 Description
This grouped KPI can be used to evaluate the cell’s DL throughput of QoS classes in one cell.
2006-06-07 Huawei Confidential Page 49 of 65 Table 10-7 DL Throughput of QoS classes
KPI Name DL Throughput of QoS Classes Measurement
Scope
Cell
Formula
Throughput CellDLConv
hroughput CellDLStrT
t rThroughpu CellDLInte
hroughput CellDLBkgT
Associated
Counters See
ANNEX
Notes Unit: Kbps
2006-06-07 Huawei Confidential Page 50 of 65
Chapter 11 ANNEX
Associated Counters
Reference Name Associated Counters Specification
MeanRTWP VS.MeanRTWP
Mean RTWP of a cell, that is, mean number of the sum of the RTWP values reported in a certain period
Unit: dBm
MeanTCP VS.MeanTCP
Mean TCP of a cell, that is, mean number of the sum of the TCP values reported in a certain period Unit: dBm
CellUnavailTime VS.Cell.UnavailTime.O
M Unavailability Duration of a cell
IUPagingAttempt VS.RANAP.Paging.Att.I dleUE
Number of Times of Paging Idle UE
IUPagingSuccess VS.RANAP.Paging.Suc
c.IdleUE
Successful Number of Times of Paging Idle UE
RAB.AttEstabCS.Conv
Number of the CS RABs requested to establish for
conversational services in a RNC CSRABSetupAttempt
RAB.AttEstabCS.Strm
Number of the CS RABs requested to establish for streaming services in a RNC
RAB.SuccEstabCSNoQ ueuing.Conv
Numbers of CS RABs Established Successfully on Request (No Queuing) in a RNC
CSRABSetupSuccess
RAB.SuccEstabCSNoQ ueuing.Strm
Numbers of CS RABs Established Successfully on Request (No Queuing) in a RNC
2006-06-07 Huawei Confidential Page 51 of 65 RAB.SuccEstabCSQue
uing.Conv
Numbers of CS RABs Established Successfully on Request
(Queuing) in a RNC
RAB.SuccEstabCSQue uing.Strm
Numbers of CS RABs Established Successfully on Request
(Queuing) in a RNC
RAB.AttEstabPS.Conv
Number of the PS RABs requested to establish for
conversational services in a RNC
RAB.AttEstabPS.Strm
Number of the PS RABs requested to establish for streaming services in a RNC
RAB.AttEstabPS.Intact
Number of the PS RABs requested to establish for interactive services in a RNC PSRABSetupAttempt
RAB.AttEstabPS.Bgrd
Number of the PS RABs requested to establish for background services in a RNC
RAB.SuccEstabPSNoQ ueuing.Conv
Numbers of PS RABs Established Successfully on Request (No Queuing) in a RNC
RAB.SuccEstabPSNoQ ueuing.Strm
Numbers of PS RABs Established Successfully on Request (No Queuing) in a RNC
RAB.SuccEstabPSNoQ ueuing.Intact
Numbers of PS RABs Established Successfully on Request (No Queuing) in a RNC
PSRABSetupSuccess
RAB.SuccEstabPSNoQ ueuing.Bgrd
Numbers of PS RABs Established Successfully on Request (No Queuing) in a RNC
2006-06-07 Huawei Confidential Page 52 of 65 Reference Name Associated Counters Specification
RAB.SuccEstabPSQueu ing.Conv
Numbers of PS RABs Established Successfully on Request
(Queuing) in a RNC
RAB.SuccEstabPSQueu ing.Strm
Numbers of PS RABs Established Successfully on Request
(Queuing) in a RNC
RAB.SuccEstabPSQueu ing.Intact
Numbers of PS RABs Established Successfully on Request
(Queuing) in a RNC
RAB.SuccEstabPSQueu ing.Bgrd
Numbers of PS RABs Established Successfully on Request
(Queuing) in a RNC VS.RRC.AttConnEstab.
OrgConv
Originating Conversational Call in a RNC
VS.RRC.AttConnEstab.
OrgStr
Originating Streaming Call in a RNC
VS.RRC.AttConnEstab.
OrgInt
Originating Interactive Call in a RNC
VS.RRC.AttConnEstab.
OrgBkg
Originating Background Call in a RNC
VS.RRC.AttConnEstab.
OrgSubs
Originating Subscribed traffic Call in a RNC
VS.RRC.AttConnEstab.
TrmConv
Terminating Conversational Call in a RNC
VS.RRC.AttConnEstab.
TrmStr
Terminating Streaming Call in a RNC
VS.RRC.AttConnEstab.
TrmInt
Terminating Interactive Call in a RNC
RRCConnectionAttemptservice
VS.RRC.AttConnEstab.
TrmBkg
Terminating Background Call in a RNC
2006-06-07 Huawei Confidential Page 53 of 65 VS.RRC.AttConnEstab.
OrgHPSig
Originating High Priority Signalling in a RNC
VS.RRC.AttConnEstab.
OrgLPSig
Originating Low Priority Signalling in a RNC
VS.RRC.AttConnEstab.
TmHPSig
Terminating High Priority Signalling in a RNC VS.RRC.AttConnEstab.
TmLPSig
Terminating Low Priority Signalling in a RNC VS.RRC.AttConnEstab.
Rest Call re-Establishment
VS.RRC.SuccConnEsta b.OrgConv
Originating Conversational Call in a RNC
VS.RRC.SuccConnEsta b.OrgStr
Originating Streaming Call in a RNC
VS.RRC.SuccConnEsta b.OrgInt
Originating Interactive Call in a RNC
VS.RRC.SuccConnEsta b.OrgBkg
Originating Background Call in a RNC
VS.RRC.SuccConnEsta b.OrgSubs
Originating Subscribed traffic Call in a RNC
VS.RRC.SuccConnEsta b.TrmConv
Terminating Conversational Call in a RNC
VS.RRC.SuccConnEsta b.TrmStr
Terminating Streaming Call in a RNC
VS.RRC.SuccConnEsta b.TrmInt
Terminating Interactive Call in a RNC
VS.RRC.SuccConnEsta b.TrmBkg
Terminating Background Call in a RNC
RRCConnectionSuccessservice
VS.RRC.SuccConnEsta b.OrgHPSi
Originating High Priority Signalling in a RNC
2006-06-07 Huawei Confidential Page 54 of 65 Reference Name Associated Counters Specification
VS.RRC.SuccConnEsta b.OgLPSig
Originating Low Priority Signalling in a RNC
VS.RRC.SuccConnEsta b.TmHPSi
Terminating High Priority Signalling in a RNC VS.RRC.SuccConnEsta
b.TmLPSi
Terminating Low Priority Signalling in a RNC VS.RRC.SuccConnEsta
b.Rest Call re-establishment in a RNC VS.RRC.AttConnEstab.
Emg Emergency Call in a RNC
VS.RRC.AttConnEstab.
CellRes
Inter-RAT cell re-selection in a RNC
VS.RRC.AttConnEstab.
Reg Registration in a RNC
VS.RRC.AttConnEstab.
Detach Detach in a RNC
VS.RRC.AttConn.UESB
I.UU UESBI-Uu information in a RNC
RRCConnectionAttemptother
VS.RRC.AttConnEstab.
Unknown
Terminating - cause unknown in a RNC
VS.RRC.SuccConnEsta
b.Emg Emergency Call in a RNC
VS.RRC.SuccConnEsta b.CellRes
Inter-RAT cell re-selection in a RNC
VS.RRC.SuccConnEsta
b.Reg Registration in a RNC
VS.RRC.SuccConnEsta
b.Detach Detach in a RNC
RRCConnectionSuccessother
VS.RRC.SuccConn.UE
SBI.UU UESBI-Uu information in a RNC
2006-06-07 Huawei Confidential Page 55 of 65 VS.RRC.SuccConnEsta
bab.Unknown
Terminating - cause unknown in a RNC
AMRRABSetupAttempt VS.RAB.AttEstCSConv0 .32.RNC
Number of CS RABs requested to establish for conversational services (0 ≤ Max DL bit Ratio ≤ 32 kbps) in a RNC
AMRRABSetupSuccess VS.RAB.SucEstCSConv 0.32.RNC
Number of CS RABs successfully established for conversational services (0 ≤ Max DL bit Ratio ≤ 32 kbps) in a RNC
VPRABSetupAttempt VS.RAB.AttEstCSConv3 2.64.RNC
Number of CS RABs requested to establish for conversational services (32 kbps < Max DL bit Ratio ≤ 64 kbps) in a RNC
VPRABSetupSuccess VS.RAB.SucEstCSConv 32.64.RNC
Number of CS RABs successfully established for conversational services (32 kbps < Max DL bit Ratio ≤ 64 kbps) in a RNC VS.RAB.Loss.CS.Abnor
m.RNC
Numbers of abnormally released RABs except RF causes in a RNC CSRABAbnormalRelease
VS.RAB.Loss.CS.RF.R NC
Number of Released RABs Triggered by RNC due to RF Reason
AMRRABAbnormalRelease VS.RAB.Loss.CS.AMR.
RNC
Number of released CS AMR service RABs triggered by RNC in a RNC
VPRABAbnormalRelease VS.RAB.Loss.CS.Conv6 4K.RNC
Number of released CS 64 k service RABs triggered by RNC in a RNC
PSRABAbnormalRelease VS.RAB.Loss.PS.Abnor m.RNC
Numbers of Abnormally Released RABs except RF causes in a RNC
2006-06-07 Huawei Confidential Page 56 of 65 Reference Name Associated Counters Specification
VS.RAB.Loss.PS.RF.R NC
Number of Released RABs triggered by RNC due to RF reason
SHOASUAttempt VS.SHO.Att.RNC The number of attempts of soft handovers in a RNC
SHOASUSuccess VS.SHO.Succ The number of successful soft handovers in a RNC
SoHOASUAttempt VS.SoHO.ASU.AttRNC The number of attempts of softer handovers in a RNC
SoHOASUSuccess VS.SoHo.Succ The number of successful softer handovers in a RNC
HHOAttempt VS.HHO.Att.RNC Number of Hard Handover
Requests
HHOSuccess VS.HHO.Succ.RNC Number of Successful Hard
Handovers
InterHHOAttempt VS.HHO.InterFreq.Att.R NC
Number of Inter-Frequency Hard Handover Requests
InterHHOSuccess VS.HHO.InterFreq.Succ .RNC
Number of Successful
Inter-Frequency Hard Handovers
CSInterRATHOAttempt VS.IRATHO.AttCSOut.R NC
Number of CS Domain Inter-RAT Outgoing Handover Attempts
CSInterRATHOSuccess VS.IRATHO.SuccCSOut .RNC
Number of CS Domain Inter-RAT Outgoing Handover Successes
PSInterRATHOAttemptOut VS.IRATHO.AttPSOutU TRAN.RNC
Number of PS Domain Inter-RAT Outgoing Handover Commit Initiated from RNC
PSInterRATHOSuccessOut VS.IRATHO.SuccPSOut UTRAN.RNC
Number of Successful PS Domain Inter-RAT Outgoing Handovers Initiated by RNC
2006-06-07 Huawei Confidential Page 57 of 65 PSInterRATHOAttemptIn VS.IRATHO.AttPSInUE.
RNC
Number of PS Domain Inter-RAT Incoming Handovers Initiated by UE
PSInterRATHOSuccessIn VS.IRATHO.SuccPSInU E.RNC
Number of Successful PS Domain Inter-RAT Incoming Handovers Initiated by UE
SRNCRelocationPreparationAtte
mpt RELOC.AttPrep Number of Preparations for SRNC
Relocations
SRNCRelocationSuccess RELOC.Succ Number of Successful SRNC Relocation Commits
VS.TRELOC.AttPrep.U EInv
Numbers of Resource Allocations for TRNC Relocations of Different Types
TRNCRelocationPreparationAtte mpt
VS.TRELOC.AttPrep.U ENonInv
Numbers of Resource Allocations for TRNC Relocations of Different Types
VS.TRELOC.SuccExec.
UEInv
Numbers of Successful TRNC Relocations of Different Types TRNCRelocationSuccess
VS.TRELOC.SuccExec.
UENotInv
Numbers of Successful TRNC Relocations of Different Types
NumberOfUEWith1RL VS.SHO.AS.1 Average Number of UEs with One RL
VS.SHO.AS.2Softer Average Number of UEs with Two RLs Combined
NumberOfUEWith2RL
VS.SHO.AS.2Soft Average Number of UEs with Two RLs Uncombined
VS.SHO.AS.3Soft2Softe r
Average Number of UEs with Three RLs and Two Combined NumberOfUEWith3RL
VS.SHO.AS.3Soft Average Number of UEs with Three RLs Uncombined
2006-06-07 Huawei Confidential Page 58 of 65 Reference Name Associated Counters Specification
VS.SHO.AS.3Softer Average Number of UEs with Three RLs Combined
VS.RAC.CodeRejDL Num of Admission refuse because of no code resource
VS.RAC.NoAdmUL Num of Admission refuse because of no UL power resource
VS.RAC.NoAdmDL Num of Admission refuse because of no DL power resource
VS.RRNBCred.EmerCal l.Rej
Num of Admission refuse because of no CE resource during
emergency call request
VS.RRNBCred.NonEme rCall.Rej
Num of Admission refuse because of no CE resource during
non-emergency call request
VS.RRIUB.NonEmerCal l.Rej
Num of Admission refuse because of no IuB resource during
non-emergency call request NoAdmissionNum
VS.RRIUB.EmerCall.Rej
Num of Admission refuse because of no IuB resource during
emergency call request
TotalResourceRequestNum VS.CellResApply.DCH Total num of RNC apply for dedicated resource for UE MeanCPUUtility VS.MeanCPUUtil.SPU CPU Utilization of WSPU
IUBConfigurationTrafficuplink
VS.QAAL2.AllocedAveB wd.AAL2BitRate
Average Value of allocated average AAL2 bit rate in backward direction
IUBConfigurationTrafficdownlink
VS.QAAL2.AllocedAveF wd.AAL2BitRate
Average Value of allocated average AAL2 bit rate in forward direction
IUBRealTimeTrafficuplink
(VS.UNILNK.RXCELL S)×53×8
Bits Received by UNI Link during a statistical period
2006-06-07 Huawei Confidential Page 59 of 65
(VS.IMAGRP.RXCELL S)×53×8
Bits Received by IMA Group during a statistical period
(VS.UNILNK.TXCELL S)×53×8
Bits Sent by UNI Link during a statistical period
IUBRealTimeTrafficdownlink
(VS.IMAGRP.TXCELL S)×53×8
Bits Sent by IMA Group during a statistical period
VS.CN.Page.Loss.IUFC
Number of Paging Messages Discarded due to Iu Interface Flow Control
IUPagingLoss
VS.CN.Page.Loss.PCH
VS.CN.Page.Loss.PCH