Sheet 1: ACCESS
No parameter description
1 RbSetupRspTmr A timer to RNC wait for the RB setup response from UE in the RB procedure.
2MIDRATERLACTTIMEDEFOFFVAL used fo config the time offset of reconfig flow
3 Treselections
If the signal quality (CPICH Ec/No measured by the UE) of a neighboring cell is better than that of the serving cell during the specified time of this parameter, the UE reselects the
neighboring cell. It is used to avoid ping-pong reselection between different cells.
4 Qqualmin
The minimum required quality threshold corresponding to CPICH Ec/No. The UE can camp on the cell only when the measured CPICH Ec/No is greater than the value of this parameter.
5 UlGBR
This parameter specifies the uplink guaranteed bit rate (GBR) of the BE service. GBR is the minimum bit rate that the system can guarantee for the service after it accesses in.
6 DlGBR
This parameter specifies the downlink guaranteed bit rate (GBR) of the BE service. GBR is the minimum bit rate that the system can guarantee for the service after it accesses in.
7 NBMDlCacAlgoSelSwitch Downlink CAC algorithm switch
9
DlConvAMRThd DlConvNonAMRThd DlOtherThd DlHOThd DlCellTotalThd
If the DL load of a cell is higher than this threshold after the access of an AMR speech service, this service will be rejected. If the DL load of a cell will not be higher than this threshold, this service will be admitted.
10UlLdrCreditSfResThd DlLdrCreditSfResThd
The downlink credit LDR could be triggered only when the SF factor corresponding to the downlink reserved credit is higher than the uplink or downlink credit SF reserved threshold.
default value recommand value MML command
5000 10000SET USTATETIMER: RBSETUPRSPTMR=15000;
40 70
MOD
UCELLRLACTTIME:CELLID=XXXXX, MIDRATERLACTTIMEDEFOFFVAL=70;
1 2MOD UCELLSELRESEL: CellId=*****, Treselections=2, Qqualmin=-16;
-18 -16MOD UCELLSELRESEL: CellId=*****, Treselections=2, Qqualmin=-16;
D64 D32
SET UUSERGBR: TrafficClass=**, THPClass=**, BearType=**, UserPriority=**, UlGBR=D32, DlGBR=D32;
D64 D32
SET UUSERGBR: TrafficClass=**, THPClass=**, BearType=**, UserPriority=**, UlGBR=D32, DlGBR=D32; ALGORITHM_FIRST ALGORITHM_THIRD MOD UCELLALGOSWITCH: CellId=*****, NBMDlCacAlgoSelSwitch=ALGORITH M_THIRD, NBMLdcAlgoSwitch=UL_UU_LDR-1&DL_UU_LDR-1&DL_UU_OLC-1; &DL_UU_LDR-0&DL_UU_OLC-0 DL_UU_LDR-1&DL_UU_OLC-1 MOD UCELLALGOSWITCH: CellId=*****, NBMDlCacAlgoSelSwitch=ALGORITH M_THIRD, NBMLdcAlgoSwitch=UL_UU_LDR-1&DL_UU_LDR-1&DL_UU_OLC-1;
DlConvAMRThd=80 DlConvNonAMRThd=85 DlOtherThd=75 DlHOThd=85 DlCellTotalThd=90 DlConvAMRThd=85 DlConvNonAMRThd=85 DlOtherThd=80 DlHOThd=90 DlCellTotalThd=95
MOD UCELLCAC: CellId=*****, DlConvAMRThd=85, DlConvNonAMRThd=85, DlOtherThd=80, DlHOThd=90, DlCellTotalThd=95; UlLdrCreditSfResThd=SF8 DlLdrCreditSfResThd=SF8 UlLdrCreditSfResThd=SF4 DlLdrCreditSfResThd=SF4
MOD UCELLLDR: CellId=*****, UlLdrCreditSfResThd=SF4, DlLdrCreditSfResThd=SF4;
remark relative KPI/cluonter monitor after implement RNC wise AMR RAB Assignment Success Rate PS RAB Assignment Success Rate CELL wise/in R14 can LST
and change directly
AMR RAB Assignment Success Rate PS RAB Assignment Success Rate VS.RAB.FailEstabCS.RNL
VS.RAB.FailEstabPS.RNL
CELL wise,for RRC FAILED edge cells
RRC Connection Setup Success Rate VS.RRC.FailConnEstab.NoReply
CELL wise,for RRC FAILED edge cells
RRC Connection Setup Success Rate VS.RRC.FailConnEstab.NoReply
RNC wise, for easing congestion in different trafficclass/beartype/userprio rity
RRC Connection Setup Success Rate AMR RAB Assignment Success Rate PS RAB Assignment Success Rate VS.RRC.FailConnEstab.Cong VS.RRC.FailConnEstab.Cong VS.RAB.FailEstabPS.Cong RNC wise, for easing
congestion in different trafficclass/beartype/userprio rity
RRC Connection Setup Success Rate AMR RAB Assignment Success Rate PS RAB Assignment Success Rate VS.RRC.FailConnEstab.Cong VS.RRC.FailConnEstab.Cong VS.RAB.FailEstabPS.Cong
CELL wise, for easing congestion VS.RRC.Rej.DLPower.Cong VS.RAB.FailEstabCS.DLPower.Cong VS.RAB.FailEstabPS.DLPower.Cong VS.RRC.Rej.DLCE.Cong VS.RAB.FailEstabCS.DLCE.Cong VS.RAB.FailEstabPS.DLCE.Cong VS.RRC.Rej.Code.Cong VS.RAB.FailEstabCS.Code.Cong VS.RAB.FailEstabPS.Code.Cong
CELL wise, for easing congestion VS.RRC.Rej.DLPower.Cong VS.RAB.FailEstabCS.DLPower.Cong VS.RAB.FailEstabPS.DLPower.Cong VS.RRC.Rej.DLCE.Cong VS.RAB.FailEstabCS.DLCE.Cong VS.RAB.FailEstabPS.DLCE.Cong VS.RRC.Rej.Code.Cong VS.RAB.FailEstabCS.Code.Cong VS.RAB.FailEstabPS.Code.Cong
CELL wise, for easing DLPOWER congestion
VS.RRC.Rej.DLPower.Cong VS.RAB.FailEstabCS.DLPower.Cong VS.RAB.FailEstabPS.DLPower.Cong
CELL wise, for easing CE congestion
VS.RRC.Rej.DLCE.Cong VS.RAB.FailEstabCS.DLCE.Cong VS.RAB.FailEstabPS.DLCE.Cong
Sheet 2: MOBILITY
No parameter
1 InterRATCSThd2DEcN0 InterRATCSThd2FEcN0 InterRATCSThd2DRSCP InterRATCSThd2FRSCP 2 InterRATCSThd2DEcN0 InterRATCSThd2FEcN0 InterRATCSThd2DRSCP InterRATCSThd2FRSCP
3 CIOOffset
description
For coverage-based inter-RAT handovers,Coverage-based handovers are triggered by the event 2D or event 2F Add Cell-Oriented coverage-based inter-RAT handover
measurement algorithm parameters.Coverage-based handovers are triggered by the event 2D or event 2F
This parameter is used for decision making for the inter-RAT handover. The larger the value of the parameter, the higher the handover priority of the GSM cell. The smaller the value of the parameter, the lower the handover priority of the GSM cell. This parameter is used to set measurement control on the event 3C. The event 3C is triggered when the signal quality of the target frequency is above this threshold.
default value InterRATCSThd2DEcN0=-14 InterRATCSThd2FEcN0=-12 InterRATCSThd2DRSCP=-100 InterRATCSThd2FRSCP=-97 InterRATCSThd2DEcN0=-14 InterRATCSThd2FEcN0=-12 InterRATCSThd2DRSCP=-100 InterRATCSThd2FRSCP=-97 0 21
recommend value InterRATCSThd2DEcN0=-12 InterRATCSThd2FEcN0=-10 InterRATCSThd2DRSCP=-98 InterRATCSThd2FRSCP=-95 InterRATCSThd2DEcN0=-12 InterRATCSThd2FEcN0=-10 InterRATCSThd2DRSCP=-98 InterRATCSThd2FRSCP=-95 -3 16
MML command
SET UINTERRATHOCOV: InterRATCSThd2DEcN0=-12, InterRATCSThd2FEcN0=-10, InterRATCSThd2DRSCP=-98, InterRATCSThd2FRSCP=-95;
MOD UCELLINTERRATHOCOV: CellId=*****,
InterRATCSThd2DEcN0=-12, InterRATCSThd2FEcN0=-10, InterRATCSThd2DRSCP=-98, InterRATCSThd2FRSCP=-95; MOD U2GNCELL: RNCId=*, CellId=*****,
GSMCellIndex=*****, CIOOffset=-3;
MOD UCELLINTERRATHONCOV: CellId=*****, InterRATNCovHOCSThd=16;
remark
RNC wise, for CS, PS or H can reference similar parameter CELL wise, for CS, PS or H can reference similar parameter
CELL wise, for TOP target 2G neighbor cells
relative KPI/cluonter monitor after implement CS Inter-RAT Handover Success Rate IRATHO.AttOutCS IRATHO.SuccOutCS
CS Inter-RAT Handover Success Rate IRATHO.AttOutCS IRATHO.SuccOutCS VS.IRATHO.AttRelocPrepOutCS.GCell VS.IRATHO.SuccRelocPrepOutCS.GCell VS.IRATHO.AttOutCS.GCell VS.IRATHO.SuccOutCS.GCell VS.IRATHO.AttRelocPrepOutCS.Service VS.IRATHO.SuccRelocPrepOutCS.Service VS.IRATHO.SuccOutCS.Service
Sheet 3: Call Drop
NO parameter description default value
1 RBRECFGRSPTMR
A timer used to wait for the RB reconfiguration response from UE in the RB procedure
5000
2 NoDiscardMaxDAT the max times of non discard PDU retransmit before resetting RLC D25
3 NInsyncInd
which indicates that the radio link set has been synchronized.The radio link set remains in the initial state until it has received a certain number (the number is defined by NInsyncInd) of successive in-sync indications from L1, and then the NodeB triggers the radio link recovery process
4 NOutsyncInd
When the radio link set is in the synchronized state, the NodeB starts the timer after it receives successive out-of-sync indications of the number defined by
NOutsyncInd.The NodeB shall stop and reset the timer after receiving successive in-sync indications of the number defined by
NInsyncInd.When the timer expires, the NodeB triggers the radio link failure process, and indicates which radio link set is out-of-sync
50
5 TRlFailure
When the radio link set is in the synchronized state, the NodeB starts the timer after it receives successive out-of-sync indications of the number defined by
NOutsyncInd.The NodeB shall stop and reset the timer after receiving successive in-sync indications of the number defined by
NInsyncInd.When the timer expires, the NodeB triggers the radio link failure process, and indicates which radio link set is out-of-sync
50
6 RlMaxDlPwr
For an RL carrying a single service, the RNC directly sets the values based on the CN domain and maximum bit rate of service
NULL
7 RlMinDlPwr
For an RL carrying a single service, the RNC directly sets the values based on the CN domain and maximum bit rate of service
recommend value MML command remark 10000 SET USTATETIMER:RBRECFGRSPTMR= 15000; RNC wise D40 MOD UTYPSRBRLC:SRBINDEX=1, LOCHINDEX=1, DELAYCLASS=1, TRCHTYPE=TRCH_DCH, OPPOSITETRCHTYPE=TRCH_DCH, RLCMODE=AM, AMRLCCFGPARA=EDIT_SENDER_P ARA, AMRLCDISCARDMODE=NO_DISCA RD, NODISCARDMAXDAT=D40, TXWINDOWSIZE=D64, TIMERRST=D300, LASTTXPDUPOLL=TRUE, LASTRETXPDUPOLL=TRUE, TIMERPOLLPROHIBIT=NOTUSED, TIMERPOLL=D200, POLLPDU=NOTUSED, POLLSDU=D1, POLLWINDOW=D50, TIMERPOLLPERIODIC=NOTUSED, CFGPOLLINGPARA=TRUE, POLLPDUFORENL2=D4, POLLSDUFORENL2=D4;
RNC wise/in R14 can LST and change directly
1
MOD UCELL: NInsyncInd=1, NOutsyncInd=100,
TRlFailure=100;
100
MOD UCELL: NInsyncInd=1, NOutsyncInd=100,
TRlFailure=100;
CELL wise
100
MOD UCELL: NInsyncInd=1, NOutsyncInd=100, TRlFailure=100; CELL wise 30 MOD UCELLRLPWR: CNDomainId=CS_DOMAIN, MaxBitRate=12200, RlMaxDlPwr=30, RlMinDlPwr=-120; CELL wise -120 MOD UCELLRLPWR: CNDomainId=CS_DOMAIN, MaxBitRate=12200, RlMaxDlPwr=30, RlMinDlPwr=-120; CELL wise
relative KPI/cluonter monitor after implement VS.CS.AMR.Call.Drop.Cell.Rate VS.RAB.AbnormRel.CS.RF VS.CS.AMR.Call.Drop.Cell.Rate VS.RAB.AbnormRel.CS.RF VS.RAB.AbnormRel.CS.RF VS.RAB.AbnormRel.CS.RF.ULSync
VS.RAB.AbnormRel.CS.RF VS.RAB.AbnormRel.CS.RF.ULSync VS.RAB.AbnormRel.CS.RF VS.RAB.AbnormRel.CS.RF.ULSync VS.RAB.AbnormRel.CS.RF VS.RAB.AbnormRel.CS.RF.UuNoRe ply VS.RAB.AbnormRel.CS.RF VS.RAB.AbnormRel.CS.RF.UuNoRe ply
