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8/10/2019 Success Rate of Uplink TBF Establishments
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GSM BSS Network Performance PS KPI (Downlink TBF Establishment Success Rate)
Optimization Manual INTERNAL
Product Name Confidentiality level
GSM BSS Network Performance PS KPI(Downlink TBF Establishment Success Rate)Optimization Manual
INTERNAL
Product VersionTotal 30 pages
GSM BSS Network Performance PS KPI(Downlink TBF Establishment Success Rate)
Optimization Manual
For internal use only
Prepared by GSM &UMTS Network PerformanceResearch Department
Date 2008-12-26
Reviewed by Date yyyy-mm-dd
Reviewed by Date yyyy-mm-dd
Granted by Date yyyy-mm-dd
Huawei Technologies Co., Ltd.
All rights reserved
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Revision Record
Date Revisionversion
Change Description Author
2008-05-05 V0.8 Initial draft completed Wang Guanghua
2008-08-26 V1.0 Revised according to review suggestions Su Shi
2008-12-26 V1.1 Optimized the document according to theaccumulated optimization experience
Wang Guanghua
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GSM BSS Network Performance PS KPI (Downlink TBF
Establishment Success Rate) Optimization ManualKeywords
Downlink TBF, establishment success rate
Abstract
This manual mainly describes the method of collecting statistics about the downlinkTBF establishment success rate and the methods of optimizing the downlink TBFestablishment success rate.
List of abbreviations
Abbreviation Full Spelling
PDCH Packet Data Channel
PCU Packet Control Unit
MS Mobile Station
CQT Call Quality Test
KPI Key Performance Index
DT Drive Test
GPRS General Packet Radio Service
EDGE Enhanced Data rates for GSM Evolution
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Contents
1Basic Principle .............................................................................................................................. 7
1.1Counter Definition....................................................... ................................................................. .................. 7
1.1.1Definition in the Case of No MS Response...................................................................................... 7
1.1.2Definition in the Case of No Available Resources........................................................................... 7
1.1.3Definition in the Case of No MS Response or No Available Resources...................................... 8
1.2Theory............................................................................................................................................................. 8
2Signaling Procedure .................................................................................................................... 9
2.1Number of Successful Downlink TBF Establishments............................................................................. 9
2.1.1Description............................................................................................................................................ 9
2.1.2Measurement Point................................................................ .............................................................. 9
2.2Number of Failed Downlink TBF Establishments................................................................................... 10
2.2.1Description.......................................................................................................................................... 10
2.2.2Measurement Point................................................................ ............................................................ 11
2.3Number of Downlink TBF Establishment Attempts................................................................ ................. 11
2.3.1Description.......................................................................................................................................... 11
2.3.2Measurement Point................................................................ ............................................................ 11
3Analysis and Optimization Methods ..................................................................................... 13
3.1Checking the Abis Link............................................................................................................................... 16
3.2Checking the Delivery of Assignment Messages......................................................... ........................... 17
3.2.1Failed Downlink TBF Establishments Due to Overloaded CCCH............................................... 17
3.2.2Failed Downlink TBF Establishments Due to No Channel Resources ....................................... 17
3.3Checking the Air Interface............................................................... ........................................................... 20
3.4Checking Failed Downlink TBF Establishments Due to No Response from the MS ......................... 21
3.4.1Failed Downlink TBF Establishments Due to Improper Parameter Configurations.................. 21
3.4.2Failed Downlink TBF Establishments Due to Incorrect Information Elements in Assignment
Messages..................................................................................................................................................... 23
3.4.3Failed Downlink TBF Establishments Due to Imbalance Between the Uplink and the Downlink
....................................................................................................................................................................... 24
3.4.4Checking the Feed System.............................................................. ................................................. 25
3.4.5Checking the KPIs of the PS Field.................................................................................................. 25
4Cases ............................................................................................................................................. 26
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4.1Case 1: Low Success Rate of Downlink TBF Establishment Due to Incorrect Frequency-Hopping
Parameter Settings in Czech Republic.......................................................................................................... 26
4.2Case 2: Low Success Rate of Downlink TBF Establishment Due to No Responses from MSs After
the PCU Is Upgraded....................................................... ................................................................. ................ 29
5Problem Feedback ..................................................................................................................... 31
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Figures
Figure 2-1Successful establishment of downlink TBF on the CCCH ................................................. 10
Figure 2-2Successful downlink TBF establishment on the PACCH ................................................... 10
Figure 2-3Downlink TBF establishment attempts on the CCCH. ....................................................... 12
Figure 2-4Downlink TBF establishment attempts on the PACCH ...................................................... 12
Figure 3-1Uplink and downlink TBF establishment procedure on the CCCH .................................... 14
Figure 3-2Overall analysis process .................................................................................................... 15
Figure 4-1Analysis of the frame error rate of the G-Abis interface is normal ..................................... 27
Figure 4-2Downlink packet assignment message .............................................................................. 27
Figure 4-3MA Numeber in the downlink packet assignment message .............................................. 28
Figure 4-4Frequency-hopping information being null in the SI 13 message...................................... 29
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GSM BSS Network Performance PS KPI (Downlink TBF
Establishment Success Rate) Optimization Manual
1Basic Principle
1.1 Counter Definition
The definition of the downlink TBF establishment success rate varies with theassessment item.
1.1.1 Definition in the Case of No MS Response
If the network side delivers an assignment message to a mobile station (MS) but failsto receive the Packet Control Acknowledgementmessage from the MS, thenumber of failed downlink TBF establishments due to MS no response is added byone.
The definition of the downlink TBF establishment success rate is as follows:
Downlink GPRS TBF Establishment Success Rate= 1 - Number of FailedDownlink GPRS TBF Establishments due to MS No Response/Number ofDownlink GPRS TBF Establishment Attempts
Downlink EGPRS TBF Establishment Success Rate= 1 - Number of FailedDownlink EGPRS TBF Establishments due to MS No Response/Number of
Downlink EGPRS TBF Establishment Attempts
1.1.2 Definition in the Case of No Available Resources
If the downlink TBF establishment fails because the resources such as channels andTFIs at the network side are unavailable, the number of failed downlink TBFestablishments due to no channel is added by one.
The definition of the downlink TBF establishment success rate is as follows:
Downlink GPRS TBF Establishment Success Rate= 1 - Number of FailedDownlink GPRS TBF Establishments due to No Channel/Number of DownlinkGPRS TBF Establishment Attempts
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Downlink EGPRS TBF Establishment Success Rate= 1 - Number of FailedDownlink EGPRS TBF Establishments due to No Channel/Number of DownlinkEGPRS TBF Establishment Attempts
1.1.3Definition in the Case of No MS Response or No AvailableResources
If the downlink TBF establishment fails because the network side fails to receive thePacket Control Acknowledgementmessage from an MS or the resources at thenetwork side are unavailable, the number of failed downlink TBF establishments isadd by one.
The definition of the downlink TBF establishment success rate is as follows:
Downlink GPRS TBF Establishment Success Rate= Number of SuccessfulDownlink GPRS TBF Establishments/Number of Downlink GPRS TBFEstablishment Attempts
Downlink EGPRS TBF Establishment Success Rate= Number of SuccessfulDownlink EGPRS TBF Establishments/Number of Downlink EGPRS TBFEstablishment Attempts
1.2 Theory
The downlink TBF establishment success rate shows the downlink accessperformance and is an important counter for assessing the network. When thedownlink TBF fails to be established, the network side continues to trigger theestablishment of the downlink TBF in a short time because the network side has some
data blocks that are not delivered. Therefore, the downlink TBF establishmentsuccess rate is slightly low in this case, but customer experience is not affected.
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2 Signaling Procedure2.1 Number of Successful Downlink TBF Establishments
2.1.1 Description
This counter provides the number of successful downlink TBF establishments in a measurementperiod.
2.1.2 Measurement Point
Successful downlink TBF establishments involve the following aspects:
1. Successful downlink TBF establishment on the CCCH
The network side initiates the downlink TBF establishment procedure by sending
an IMMEDIATE ASSIGNMENTmessage with Starting Time on the CCCH to theMS. When the starting time is reached, the network side sends a POLLINGmessage to the MS to obtain a TA value. The BSC reserves block resources forthe MS to respond with an assignment acknowledgement message. If thenetwork side receives a Packet Control Acknowledgement message from theMS on the reserved block resources in the assigned channel, it indicates that thedownlink TBF is established. In addition, the network side can calculate the TAvalue by using the Packet Control Acknowledgementmessage that isreceived.
The following figure shows the procedure for establishing downlink TBFs on theCCCH. Each time the network side receives a Packet ControlAcknowledgementmessage (see measurement point A), the value of the
counter Number of Successful Downlink TBF Establishmentsis added byone.
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Figure 2-1Successful establishment of downlink TBF on the CCCH
M S Network
A
IMMEDIATE ASSIGNMENT (CCCH)
POLLING(RRBP)
PACKET Control Acknowledgement
2. Successful downlink TBF establishment on the PACCH
The network side can initiate the downlink TBF establishment procedure bysending a Packet downlink assignmentmessage on the PACCH to the MS.The message contains the information about the block resources reserved by thenetwork side for the MS to respond with an assignment acknowledgementmessage. If the network side receives a Packet Control Acknowledgementmessage from the MS on the reserved block resources in the assigned channel, itindicates that the downlink TBF is established.
Figure 2-2 shows the procedure for establishing the downlink TBF on the PACCH.Each time the network side receives a Packet Control Acknowledgementmessage corresponding to a Packet downlink assignmentmessage (seemeasurement point A), the value of the counter Number of SuccessfulDownlink TBF Establishmentsis added by one.
Figure 2-2Successful downlink TBF establishment on the PACCH
M S Network
A
Packet downlink assignment
PACKET Control Acknowledgement
2.2 Number of Failed Downlink TBF Establishments
2.2.1 Description
This counter measures the number of failed downlink TBF establishments in ameasurement period.
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2.2.2 Measurement Point
Failed downlink TBF establishments involve the following aspects:
1. Failed downlink TBF establishments due to no channel
If the BSC receives a new downlink PDU request from the SGSN but fails to establisha download TBF because channels are unavailable, the value of Number of FailedDownlink TBF Establishments due to No Channel is added by one.
2. Failed downlink TBF establishments due to MS no response
In the procedure for establishing a downlink TBF, the BSC sends a POLLINGmessage on the CCCH or sends a Packet downlink assignmentmessage on thePACCH, and reserves block resources for the MS to respond with an assignmentacknowledgement message. If the BSC does not receive a Packet ControlAcknowledgementmessage from the MS on the reserved block resources, the BSCsends the IMMEDIATE ASSIGNMENTmessages repeatedly until the maximum
number of retry times is exceeded. Each time the maximum number of retrying timesis exceeded, the value of Number of Failed Downlink TBF Establishments due toMS No Response is added by one.
2.3 Number of Downlink TBF Establishment Attempts
2.3.1 Description
This counter measures the number of downlink TBF establishment attempts in ameasurement period.
2.3.2 Measurement Point
Downlink TBF establishment attempts involve the following aspects:
1. Downlink TBF establishment attempts on the CCCH
The network attempts to establish the downlink TBF by sending theIMMEDIATEASSIGNMENTmessage at the sub-timeslot corresponding to the CCCH group towhich the MS belongs. Figure shows the procedure for the network side to sendthe IMMEDIATE ASSIGNMENT message on the CCCH. Each time the networkside sends an IMMEDIATE ASSIGNMENTmessage (see measurement point A),the value of the counterNumber of Downlink TBF Establishment Attemptsisadded by one.
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Figure 2-3Downlink TBF establishment attempts on the CCCH.
M S Network
A
IMMEDIATE ASSIGNMENT
(On CCCH)
2. Downlink TBF establishment attempts on the PACCHThe network side can attempt to establish the downlink TBF by sending aPACKET DOWNLINK ASSIGNMENT message to an MS during the transmissionprocess of the previous uplink TBF or the release process of the current downlinkTBF.Figure 2-4 shows the procedure for the network side to send the PACKETDOWNLINK ASSIGNMENT message on the PACCH. Each time the networkside sends a PACKET DOWNLINK ASSIGNMENTmessage (see measurementpoint A), the value of the counterNumber of Downlink TBF EstablishmentAttemptsis added by one.
Figure 2-4Downlink TBF establishment attempts on the PACCH
M S Network
A
PACKET DOWNLINK ASSIGNMENT
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3 Analysis and Optimization MethodsThe procedure for establishing the downlink TBF on the CCCH is as follows:
1. The RR entity at the network side initiates the downlink TBF establishment byusing the downlink packet assignment procedure. The downlink packetassignment procedure is triggered by a request from upper layers to transfer aLLC PDU. Before transferring an LLC PDU, the network side determines whetherthe MS is in the Readystate. If the MS is in theReadystate, the network sidetransfers an LLC PDU to the BSS. When receiving the LLC PDU, the BSSdelivers an IMMEDIATE ASSIGNMENTmessage. If the MS is in the Standbystate, the network side sends a paging message to the BSS. The network sidesends the LLC PDU only after receiving a paging response from the BSS. Therequest from upper layers contains the priority, including the RLC mode, DRXparameter (optional), QoS script file of the IMSI (optional), and MS radio accesscapability associated with the packet transfer (optional). For such a request, thenetwork side determines whether the MS is in packet idle mode or packet transfermode. If the MS is in packet idle mode, the network side initiates the downlinkpacket assignment procedure on the CCCH. If the MS is in packet transfer mode,
the network side initiates the downlink packet assignment procedure on thePACCH.
2. The network side selects an encoding scheme and applies for radio resourcesaccording to the resource occupation in the accessed cell for establishing thedownlink TBF. After the application is approved, the network side assigns radioresources to the downlink TBF and counts the times the downlink TBF is startedat the network side and at the MS side.
3. The network side delivers an IMMEDIATE ASSIGNMENTmessage. If the MS isin DRX mode, the network side delivers the message in the PCH channel. If theMS is in Non-DRX mode, the network side delivers the message in the AGCHchannel.
4. When the MS receives the IMMEDIATE ASSIGNMENT message, radioresources are assigned. After receiving the frame number indicated by the TBFStarting Time (optional), the MS accesses the assigned channel, starts to listenon the RLC radio block of the downlink TBF, and starts timer T3190.
5. If the network side has the TA value of the MS, the network side directly trasfersthe TA value to the MS by sending a Packet Power Control/Timing Advancemessage after the Starting Time of the downlink TBF is reached. If the networkside does not have the TA value, the network side obtains the TA value bysending a PACKET POLLING REQUEST message after the downlink TBF isstarted.
6. Before timer T3190 times out, if the MS addresses the downlink RLC radio blockin the assigned channel according to the TFI field and the MS receives the
PACKET POLLING REQUEST message from the network side, the MS sends a
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Packet Control Acknowledgement message on the uplink radio blockcorresponding to the message and resets timer T3190. Otherwise, the MSnotifies the upper layers of the downlink TBF establishment failure.
7. The network side obtains the TA value of the MS by using the valid Packet
Control Acknowledgementmessage received on the reserved uplink RLC radioblock. In this case, the network side regards that the downlink TBF establishmentis successful. Otherwise, the network side initiates the downlink immediateassignment procedure again.
Figure 3-1Uplink and downlink TBF establishment procedure on the CCCH
MS PCU
PDCH
IMMEDIATE ASSIGNMENTCCCH
LLC PDU
PACKET POLLING REQUEST
PACKET CONTROL ACKNOWLEDGMENT
PDCH
BTS
This section taske the uplink and downlink TBF establishment on the CCCH as anexample to describe the optimization ideas about identifying the signaling and cellswhere problems occur throughout the signaling procedure. In the downlink TBFestablishment procedure, you can identify problematic singaling and cells as follow:
Checking whether transmission problems occur in the Abis links.
Checking whether the IMMEDIATE ASSIGNMENTandPACKET POLLINGREQUESTmessages are properly sent to the BTS.
Checking whether the IMMEDIATE ASSIGNMENTandPACKET POLLINGREQUESTmessages are sent to MSs according to the air interface quality.
Checking whether MSs respond to POLLING messages by sending PacketControl Acknowledgement messages.
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Figure 3-2Overall analysis process
Analyze the cause of
downlink TBF
establishment failure
Start
Check whether the status of
the Abis link is normal
Yes
Check whether assignmentmessages are sent normally
Check whether the downlinkair interface is normal
Yes
Check whether MSs
respond to ASSIGNMENTand POLLING messages
No
No
Check whether the
problem is solved
Yes
Check the transmission
Check whether the
CCCH is overloaded
Check whether channelsare available
No
Check whether the
downlink air interface
quality is poor
Perform the CQT test
No
Check whether theparameter configurations
are correct
Check whether the
importance cells are
correct
Yes
Check whether the uplink
and downlink are
balanced
Check whether the feedsystem is normal
Check whether theparameters of the CS
fieldNo
Yes
End
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3.1 Checking the Abis Link
Transmission problems such as out-of-synchronization or intermittent Abis interfacelinks may cause the failure to establish the downlink TBF.
You can determine the trasmission status of the Abis interface by calculating theframe error rate of the G-Abis interface as follows:
Frame error rate of the G-Abis interface = (Number of Received Check Error TRAUFrames+ Number of Received Out-of-Synchronization TRAU Frames)/(Numberof Sent Valid TRAU Frames+ Number of Sent Empty TRAU Frames)
1. Generally, the frame error rate is equal to or lower than 10e5, that is, 1/10,000.This indicates one error frame in a channel every four minutes on average. In thiscase, you can infer that the link is of good quality, and the MS can transmit data ina stable way.
2. If the frame error rate is lower than 10e-4, the quality of the transmission link is
poor. In this case, one to three error frames occur in a channel every minute onaverage. Error frames are unpredictable. Therefore, affected MSs are likely toexperience low transmission rate, long transmission delay, or evendisconnection.
3. If the frame error rate is higher than 10e-4, the link becomes unstable.Out-of-synchronization is likely to occur and the rate of out-of-synchronizationframe greatly increases. In this case, MSs may be able to perform data servicesthat require only a small volume, such as the high-layer signaling and certainWAP services. Mass data transmission, such as FTP services, becomes difficult.
In actual running, carriers are not able to directly control leased lines, such asmicrowave satelites. Therefore, a frame error rate lower than 5/1000 is acceptable. Ifyou find that a transmission problem has occurred because the frame error rate of acell stays high for a long time, check the transmission line and optimize the network.
The following table lists the relavant KPIs.
KPI Cell-Level
Frame error rate ofthe G-Abisinterface
G-Abis Measurement -> Performance measurement ofBSC packet assignment ->
Number of Received Normal TRAU Frames
Number of Received Out-of-Synchronization TRAUFrames
Number of Received Check Error TRAU Frames
Number of Sent Valid TRAU Frames
Number of Sent Empty TRAU Frames
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Number of received frames = Number of Received Normal TRAU Frames+ Number ofReceived Out-of-Synchronization TRAU Frames+ Number of Received Check ErrorTRAU Frames+ Number of Sent Empty TRAU Frames. In versions earlier than V9R8C11,Number of Sent Empty TRAU Framesis not included in the statistics about the number of
received frames. Therefore, when the frame error rate of the G-Abis interface is calculated, thesum of Number of Sent Valid TRAU Framesand Number of Sent Empty TRAU Framesisused to indicate the number of received frames. In the version V9R8C12, this problem is solvedby using the sum of Number of Received Normal TRAU Frames, Number of ReceivedOut-of-Synchronization TRAU Frames, Number of Received Check Error TRAU Frames,and Number of Sent Empty TRAU Frames to indicate the number of received frames.
3.2 Checking the Delivery of Assignment Messages
3.2.1 Failed Downlink TBF Establishments Due to Overloaded
CCCHIf the CCCH is overloaded, the IMMEDIATE ASSIGNMENTmessage sent on theCCCH may be discarded. As a result, the downlink TBF fails to be established. Youcan check whether the CCCH is overloaded by viewing flow control traffics. If theCCCH is overloaded, you can increase the load threshold of the CCCH to preventdownlink TBF establishment failure due to flow control.
The following table lists the relevant counters.
Cause Cell-Level
Overloaded CCCH Call Measurement -> Flow control measurement ->
PACKET CCCH LOAD IND Messages Sent on Abis InterfaceMSG ABIS OVERLOAD (CCCH OVERLOAD) Messages Senton Abis Interface
MSG DEL IND Messages Sent on Abis Interface
3.2.2 Failed Downlink TBF Establishments Due to No ChannelResources
Hardware Fault
Faults on hardware such as the TRX may affect the success rate of downlink TBFestablishment. Therefore, you should check hardware faults.
You can locate hardware faults by checking the traffic measurement related to thehardware faults.
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Cause BSC-Level Cell-Level
Equipment faults
BSC Measurement -> AccessMeasurement ->
TCH Availability per BSCConfigured TCHs per BSC
Available TCHs per BSC
KPI Measurement ->
TCH Availability
Available TCHsConfigured TCHs
TRX Measurement ->
Activated TRXs in cell
Available TRXs in cell
Insufficient Channel Resources
Insufficient channel resources, which may cause congestion, occur in the following
situations:
1. The number of channels configured in a cell is small, and the traffic of packetservices is heavy. As a result, MSs are multiplexed on the channels in the cell tothe maximum degree. In this case, you need to add more static and dynamicchannels. In addition, you need to check the PS-domain channel managementparameters and set PDCH Downlink Multiplex Threshold to 80, that is, themaximum number of TBFs multiplexed on the downlink is eight.
2. Check whether the preemption of dynamic PDCHs by CS services leads to theinsufficiency of PDCHs. You can check the number of times of reclaimingdynamic PDCHs by the BSC and the number of times of reclaiming dynamicPDCHs with load. If the numbers are great, you can infer that busy CS services
preempt channel resources of PS services. As a result, you need to add staticPDCHs. You can also set Level of Preempting Dynamic Channelto Controlchannels cannot be preempted.
The following table describes the relevant parameters.
Name Description Setting Principle Value Range
MaximumRatioThresholdof PDCHsin a Cell
The total number ofTCHs and PDCHsavailable in a cell isfixed. This parameterdetermines the
proportion of PDCHs tothe total number of TCHsand PDCHs.
If this parameter is setto an excessive value,there are excessivePDCHs and insufficientTCHs. This affects CS
services.
If this parameter is setto a modest value,there are insufficientPDCHs and excessiveTCHs. This affects PSservices.
Value range:0-100.
Default value:50
PDCHDownlinkMultiplexThreshold
PDCH DownlinkMultiplex Threshold
If this parameter is setto a lower value, theTBFs established onthe PDCH and the
subscribers are fewer,
Value range:10-80
The value 10indicates that at
most one TBF
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Name Description Setting Principle Value Range
and the downlinkbandwidth for eachsubscriber is higher.
If this parameter is setto a higher value, thenumber of TBFsestablished on thePDCH and the numberof subscribers aregreater, and thedownlink bandwidth foreach subscriber is less.
can beaccessed. Thevalue 80
indicates that amaximum of 8TBFs can beaccessed.
Default value:80.
Level ofPreemptin
gDynamicChannel
Level of dynamicchannel preempted by
CS services and PSservices The TCH/Fs aredynamic channels thatcan be preempted. If thisparameter is set to Alldynamic channels canbe pre-empted, it meansthat the CS services canpreempt all dynamicchannels; if thisparameter is set toControl channels cannotbe pre-empted, it meansthat the CS services canpreempt any dynamicchannels except thecontrol channels; if thisparameter is set toDynamic channelscarrying services cannotbe pre-empted, it meansthat the CS servicescannot preempt thedynamic channels thatcarry services.
Generally, CS serviceshave the highest
priority. This parametermust be set to Alldynamic channels canbe pre-empted so thatCS services canpreempt all dynamicchannels.
To ensure dataservices, you can setthis parameter toControl channelscannot be pre-empted
or Dynamic channelscarrying servicescannot be pre-empted.
Value options:
All dynamic
channels can bepreempted,
Controlchannels cannotbe preempted
Dynamicchannelscarryingservices cannotbe preempted
Default value:
All dynamicchannels can bepreempted.
The following table lists the related traffic measurement counters.
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Cause Cell-Level
Insufficientresources
Packet Switch Channel Measurement -> PDCH ResourceCapability Measurement ->
Number of TCH to PDTCH Conversion AttemptsNumber of Successful TCH to PDTCH Conversions
Number of Reclaimed Dynamic PDCHs
Number of Reclaimed Busy Dynamic PDCHs
Packet Switch Call Measurement -> Downlink GPRS TBFEstablish and Release Capability Measurement ->
Number of Downlink GPRS TBF Establishment Attempts
Number of Successful Downlink GPRS TBF Establishments
Number of Failed Downlink GPRS TBF Establishments due to No
ChannelAverage Number of Concurrent Downlink GPRS TBFs
Packet Switch Call Measurement ->Downlink EGPRS TBFEstablish and Release Capability Measurement ->Number of Downlink EGPRS TBF Establishment Attempts
Number of Successful Downlink EGPRS TBF Establishments
Number of Failed Downlink EGPRS TBF Establishments due toNo Channel
Average Number of Concurrent Downlink EGPRS TBFs
3.3 Checking the Air Interface
MSs may not receive downlink ASSIGNMENT messages or POLLING messages dueto poor air interface quality. You can check the air interface quality by checking theBEP distribution or performing the CQT test. To check the BEP distribution, you cancount the 8PSK_MEAN_BEP variants and the GMSK_MEAN_BEP variants. Toconduct the CQT, you can use a dedicated tool, such as the TEMS.
If the air interface is experiencing serious interruption, you can improve the airinterface quality by adjusting the frequency point.
The following table lists the related traffic measurement counters.
KPI Cell-Level
Downlink airinterface quality
Packet Switch Call Measurement ->Measurement of numbers of 8PSK_MEAN_BEP variants
Measurement of numbers of GMSK_MEAN_BEP variants
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3.4 Checking Failed Downlink TBF Establishments Dueto No Response from the MS
3.4.1 Failed Downlink TBF Establishments Due to ImproperParameter Configurations
If the TBF at the network side and the TBF at the MS are not started at the same time,the downlink TBF establishment may fail. Therefore, the TBF at the network sidecannot be started before the TBF at the MS. Otherwise, the MS may miss thePOLLING message from the network side, and thus the downlink TBF establishmentfails.
The parameters are as follows:
Name Description Setting Principle Value Range
Retry Times ofDownlink TBFReassignment
This parameterspecifies the maximumnumber of attempts toresend theIMMEDIATEASSIGNMENTmessage. Themessage is sent whenthe network side fails toreceive a valid PacketControlAcknowledgement
message on thereserved uplink RLCblock in the procedurefor establishing thedownlink TBF. If thenumber is exceeded,the network sidereleases the downlinkTBF.
If the value of thisparameter is toosmall, the networkside will release thedownlink TBF withonly a few attempts toresend theIMMEDIATEASSIGNMENTmessage, whichleads to downlinkestablishment failure.
If the number of faileddownlink TBFestablishments isgreat, you can set thisvalue to a highervalue.
Default value:2.
Retry Times ofDownlink TBFPolling
This parameterspecifies the maximumnumber of attempts toresend the POLLINGmessage in theprocedure forestablishing thedownlink TBF.
If the value of thisparameter is toosmall, the downlinkTBF establishmentmay fail because thesending of thePOLLING messagefails in the procedurefor establishing thedownlink TBF on theCCCH. If the numberof failed downlink TBFestablishments isgreat, you canchange this value to a
higher value.
Default value:5.
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Name Description Setting Principle Value Range
Delay forDownlinkImmediateAssignmentDRX (block)
In DRX mode, thenetwork sidedetermines the time tostart downlink TBF onthe network side byusing this parameter.
In addition, the networkside calculates the TBFStarting Time assignedto MSs to notify theMSs of the time toaccess the assignedchannels.
If the value of thisparameter is great,the starting time ofthe downlink TBF onthe network side islate. After starting thedownlink TBF, thenetwork side sendsthe PACKETPOLLING REQUESTmessage or thedownlink data blocksimmediately. If thevalue of thisparameter is small,
the network sidestarts the downlinkTBF before an MS.The MS fails toreceive thesubsequent downlinkRLC radio blocks sentfrom the network sidebecause the MS hasnot accessed theassigned channel atthe time. Therefore,
the accessperformance isdegraded.
Default value:12.
Delay forDownlinkImmediateAssignmentNon-DRX(block)
In Non-DRX mode, thenetwork sidedetermines the time tostart downlink TBF onthe network side byusing this parameter.
In addition, the networkside calculates the TBFStarting Time assignedto MSs to notify theMSs of the time toaccess the assignedchannels.
If the value of thisparameter is great,the starting time ofthe downlink TBF onthe network side islate. After starting thedownlink TBF, thenetwork side sendsthe PACKET
POLLING REQUESTmessage or thedownlink data blocksimmediately. If thevalue of thisparameter is small,the network sidestarts the downlinkTBF before an MS.Because the MS hasnot accessed theassigned channel at
the time, the MS fails
Default value:26.
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Name Description Setting Principle Value Range
to receive thesubsequent downlinkRLC radio blocks sent
from the network side.Therefore, the accessperformance isdegraded.
3.4.2 Failed Downlink TBF Establishments Due to IncorrectInformation Elements in Assignment Messages
You need to check whether the important cells in assignment messages are correct,including the parameters such as the frequency-hopping parameter. Currently, power
control is not performed for downlink TBF establishment. Therefore, you do not needto check the power control parameters.
Check the frequency-hopping parameters as follows:
Check whether the values of the GPRS Mobile Allocationparameter in the SI 13message and the frequencyparameters in the downlink assignment message areconsistent with data configurations.
The frequency parameters are described as follows:
A downlink assignment message contains the frequency parameters that indicate whetherfrequency hopping is applied for MSs and encoding scheme of the frequency points.
The parameters are as follows:
ARFCN: no frequency hopping
Indirect encoding: frequency hopping and indirect encoding
Direct encoding 1: frequency hopping and direct encoding 1
Direct encoding 2: frequency hopping and direct encoding 2
< Frequency Parameters IE > ::=
< TSC: bit (3) >
{ 00 < ARFCN: bit (10) >
| 01 < Indirect encoding: < Indirect encoding struct > >
| 10 < Direct encoding 1: < Direct encoding 1 struct > >
| 11 < Direct encoding 2: < Direct encoding 2 struct > > } ;
< Indirect encoding struct > ::=
< MAIO: bit (6) >
< MA_NUMBER: bit (4) >
{ 0 | 1 < CHANGE_MARK_1: bit (2) >
{ 0 | 1 < CHANGE_MARK_2: bit (2) > } } ;
< Direct encoding 1 struct > ::=
< MAIO: bit (6) >
< GPRS Mobile Allocation: < GPRS Mobile Allocation IE > > ;
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< Direct encoding 2 struct > ::=
< MAIO: bit (6) >
< HSN: bit (6) >
< Length of MA Frequency List contents: bit (4) >
< MA Frequency List contents: octet (val(Length of MA Frequency List contents) +3) > ;
Indirect encoding: Information used by MSs is obtained from the PSI 2 and PSI or from the SI13 and the previous assignment messages. Therefore, you need to check whether the values ofthe frequency-hopping parameters in the system messages or assignment messages areconsistnet with data configurations according to MA_NUMBER.
MA_NUMBER = 013 shall be used to reference a GPRS mobile allocation received in aPSI2 message;
MA_NUMBER = 14 shall be used to reference a GPRS mobile allocation received in a SI13 orPSI13 message;
MA_NUMBER = 15 shall be used to reference a GPRS mobile allocation received in a
previous assignment message using the direct encoding.
Direct encoding 1: MSs use the frequency-hopping index information specified by the GPRSMobile Allocationparameter in system messages.
Direct encoding 2: MSs use the frequency-hopping information such as MAIO, HSN, Length ofMA Frequency List contents, and MA Frequency List contents specified in assignmentmessages.
3.4.3 Failed Downlink TBF Establishments Due to ImbalanceBetween the Uplink and the Downlink
When the imbalance between the uplink and the downlink occurs, no signals may bereceived on the uplink or downlink at the edge of a cell coverage area. As a result,
TBF fails to be established.
To analyze the balance between the uplink and the downlink, check whether thetransmit power of the BTS is high. Then, check whether the components such as theTMA, BTS amplifier, and antenna port that affect uplink/downlink receive level haveproblems. For details, see the GSM BSS Network Performance KPI (Uplink andDownlink Balance) Optimization Manual.
If the uplink and downlink are imbalanced, the following conditions may occur: Thedifference between the mean uplink receive level and the mean downlink receive levelis great; the uplink and downlink balance level is high; both the immediate assignmentsuccess rate and the assignment success rate are low. The following table lists thetraffic measurement counters related to the balance between the uplink and the
downlink.
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Cause Cell-Level TRX-Level
Balancebetweenuplinkanddownlink
Call Measurement -> Assignment
Measurement ->Success Rate of TCH Assignment
Success Rate of CallEstablishmentCall Measurement -> ImmediateAssignment Measurement ->
Success Rate of ImmediateAssignment
MR Measurement ->
Uplink-and-Downlink BalanceMeasurement
MR Measurement ->
TCHF Receive LevelMeasurement
MR Measurement ->
TCHH Receive LevelMeasurement
3.4.4 Checking the Feed System
Hardware faults in the feed system or incorrect parameter configurations, such as theincorrect TMA factor, lead to low success rate of downlink TBF establishment. Inaddition, the faulty feed system may lead to the imbalance between the uplink and thedownlink. Therefore, you can check whether the feed system is faulty by using thetraffic measurement counters related to the balance between the uplink and thedownlink.
3.4.5 Checking the KPIs of the PS Field
Low success rate of downlink TBF establishment may not be caused simply by theincorrect parameter configurations of the CS field. Incorrect parameter settings of theCS field may affect the KPIs of the PS field. Therefore, you must check whether theimportant KPIs of the CS field are normal. This helps you to locate faults. It isrecommended that you focus on the success rate of immediate assignment. If thesuccess rate is low, you can infer that this is caused by the air interface.
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4 Cases4.1 Case 1: Low Success Rate of Downlink TBFEstablishment Due to Incorrect Frequency-Hopping
Parameter Settings in Czech RepublicSymptom
The success rate of downlink TBF establishment decreased suddenly sinceNovember 4, and the number of abnormal TBF releases increased. The statistics areas follows:
Troubleshooting
1. The frame error rate of the G-Abis interface is normal.
According to the formula for calculating the frame error rate of the G-Abisinterface, the frame error rate was normal and stable on and near November 4.
Formula: Frame error rate of the G-Abis interface = (Number of Received
Check Error TRAU Frames+ Number of Received Out-of-SynchronizationTRAU Frames)/(Number of Sent Valid TRAU Frames+ Number of SentEmpty TRAU Frames)
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Figure 4-1Analysis of the frame error rate of the G-Abis interface is normal
0. 00000000
0. 00200000
0. 00400000
0. 00600000
0. 00800000
0. 01000000
0. 01200000
0. 01400000
0:00:00
1:30:00
3:00:00
4:30:00
6:00:00
7:30:00
9:00:00
10:30:00
12:00:00
13:30:00
15:00:00
16:30:00
18:00:00
19:30:00
21:00:00
22:30:00
03/ 11/ 2008
04/ 11/ 2008
05/ 11/ 2008
06/ 11/ 2008
07/ 11/ 2008
08/ 11/ 2008
09/ 11/ 2008
2. MSs did not respond to assignment messages.
The analysis of the TEMS signaling indicates that the MSs received Downlinkpacket assignment messages but did not send Packet Control Acknowledgement
to respond. Therefore, the problem is cased by no response from MSs.
Figure 4-2Downlink packet assignment message
The MSs did not respond to the downlink assignment messages because of incorrectfrequency-hopping information.
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The frequency-hopping information in the assignment messages were MAnumber=14.
Figure 4-3MA Numeber in the downlink packet assignment message
According to the relevant protocol, the frequency-hopping information is determined
based on the value of the GPRS Mobile Allocation parameter in the SI 13 message. Inthe SI 13 message, the frequency-hopping information is null, which is different fromthe data configuration. Therefore, the fault occurs because of this product defect. Thefrequency-hopping information in the system messages is incorrect due to the productdefect, and thus the downlink TBF establishment fails. When the correspondingchannel is moved to a frequency point that does not involve frequency hopping, thesuccess rate of downlink TBF establishment becomes normal.
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The difference between C04 and C05 is as follows: The numbers of times that thePCU resends theIMMEDIATE ASSIGNMENT message are different. As a result,during the establishment of the downlink TBF, traffic statistics about no response fromthe MS are different.
MS PCU
2.Process
PDCH
3.IMMEDIATE ASSIGNMENTCCCH
8.PACKET POWER CONTROL/TIMING ADVANCE
1.LLC PDU
4.Process 5.PACKET POLLING REQUEST
7.PACKET CONTROL ACKNOWLEDGMENT6.Process
PDCH
9.DOWNLINK RLC DATA BLOCK
MS PCU
2.Process
PDCH
3.IMMEDIATE ASSIGNMENTCCCH
8.PACKET POWER CONTROL/TIMING ADVANCE
1.LLC PDU
4.Process 5.PACKET POLLING REQUEST
7.PACKET CONTROL ACKNOWLEDGMENT6.Process
PDCH
9.DOWNLINK RLC DATA BLOCK
MS PCU
2.Process
PDCH
3.IMMEDIATE ASSIGNMENTCCCH
8.PACKET POWER CONTROL/TIMING ADVANCE
1.LLC PDU
4.Process 5.PACKET POLLING REQUEST
7.PACKET CONTROL ACKNOWLEDGMENT6.Process
PDCH
9.DOWNLINK RLC DATA BLOCK
Resend
IMMEDIATE
ASSIGNMENT
or PACKET
POLLING
REQUEST
messages
Solution
Increase the values of innner software parameters Retry Times of Downlink TBFEstablishment and Retry Times of Downlink TBF Polling.
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5 Problem Feedback1. Traffic counters
Function Type Measurement Type
DSP Measurement DSP CPU Performance Measurement
Abis interfacemeasurement
TRAU link measurement
PTRAU Measurement
PS CallMeasurement
Measurement of packet assignment capability per BSC
Uplink GPRS TBF establishment and release capabilitymeasurement
Uplink EGPRS TBF establishment and release capability
measurement
PDCH resource capability measurement
Performance measurement of PDCH extremes
Downlink GPRS TBF establishment and release capabilitymeasurement
Downlink EGPRS TBF establishment and release capabilitymeasurement
PS ChannelMeasurement
Cell radio channel capability measurement
PDCH resource capability measurement
2. Feedback on signaling tracing at the PCU side (Um and Gb interfaces)
3. Feedback on the versions of the BTS and BSC
4. Data configuration