CoverOperatorLOGOZXWR RNC Radio ParameterVersion: RNCV3.11.10.11

IntroductionIntroduction1, Manual DescriptionThis document lists and gives information about ZTE UMTS Radio Network Parameters. It contains the description of the parameter, such as name, unit, value, range, default value, OMC Aceess pathe and etc. 2, Structure Sheet of Radio Parameters gives information for all parameters. Other sheets are the supplement for default value of some paramters which default value has muti-record. There are hyperlinks to these sheet in default value colume of these parameter in radio network paramters sheet.The following information is presented for each parameter in Radio Parameters Sheet.

3, Intended AudienceNetwork plannersField engineersSystem engineersShift operatorsColume Name In Radio Network Parameters sheetColume DescriptionManaged ObjectManaged object class the parameters belongs to.Logical NameParameter Name defined in Managed Object3GPP Nameparameter name which is defined in 3GPP3GPP Protocolindication which 3GPP protocol defines the parameterGUI NameOMC GUI name of the parameterParameter DescriptionA brief introduction of the parameterInstanceThe instance for which the parameter is configured.Related FGThe Feature Guide Doc in which the parameter is introducedValue Range and StepThe value range and step of the parameterUnitthe value unit of the parameterDefault ValueThe default value, as initially set by the system, if not explicitly set at MO creation.Related Parametersthe related parametersRestriction with Related Parametersdefine the relationship with the related parametersTYPEThe parameter is divided into the following four category:Fixed the parameter value can be set default and need not adjust normally;Fixed-keep monitoringthe parameter value can be initiallly set default and adjust later according to network performance;Network Planing&Optimization: the value is set according to Networ planning and optimiation;Don't Carethe parameter need not care ;Negotiation With CNindication whether the parameter should cordiate with core network settingFuntion SwitchIndication whether the paramter is a switch parameterConfiguration Rule and Adjustment SuggestionA brief configuration rule introduction for the paramterDefault Value Configuration Reasonthe reason for the default value settingChange take effectindicate when the new value will take effect after the parameter value is modifiedService or node impactindicate whether the service or node is affected when the parameter valued is modifiedEquipment Impaction LevelThe equipment impaction when the parameter value is modified can be devided into four level according to the object impacted0indicate no impaction when the parameter is modified1indicate imaction on the cell when the parameter is modifed2indicate imaction on the nodeb when the parameter is modifed3indicate imaction on the RNC when the parameter is modifedService Impaction LevelThe service impaction when the parameter value is modified can be divided into four level0 indicate no impaction on the active user and idle user when the paramter is modified1 indicate impaction on the idle user but no impaction on the active user2 indicate no impaction on the idle user and impaction on the active user. The ongoing service will interrupt but the service can be resume in short time (60s) for example the user can reinitial the service at once; 3 indicate impaction on the idle user and the active user. The network service will interrupt for some time and will resume laterHow to Impactthe detail description of the impaction after the parameter value is modifiedOMC Access pathPath for how to Access the paramter in OMC

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Radio ParametersManaged ObjectLogical Name3GPP Name3GPP ReferenceGUI NameParameter DescriptionInstanceRelated FGValue Range and StepUnitDefault ValueRelated ParameterRestriction with Related ParametersTypeNoegotiatioNo With CnoFunction SwitchConfiguration Rule and Adjustment SuggestionDefault Value Configuration ReasonChange take effectService or Node ImpactEquipment Impaction LevelService Impaction LevelHow to ImpactOMC Access pathCMbmsToAWEToAWETS 25.433: "UTRAN Iub Interface NBAP Signalling"Time of Arrival Window Endpoint(ms)This parameter indicates the window endpoint of the FACH FP. DL data frames are expected to be received before this window endpoint. Time of Arrival Window Endpoint (ToAWE) is defined with a positive value relative Latest Time of Arrival (LToA). ToAWS and ToAWE together define the size of the arrival window in Node B. A data frame arriving outside the arrival window gives a Timing Adjustment Control Frame Response from Node B.UTRAN CellMBMS /Node B Management(0..2559)ms step1msms8msNodeBType of R8NodeBToAWE of MO CMbms: MbmsSuptInd of R6SrvCelOnly valid when the cell supports MBMS.FixedNoN/AThe function of the parameter is to control the lastest acceptable arrival time of a FACH DATA FP about ptm MBMS service in a NodeB.The parameter is configured according to the Transmission jitter tolerance time errors from RNC to a related NodeB.If the value of the parameter is too small, the quality of ptm MBMS service would be dropped.If the value of the parameter is too large, the delay of ptm MBMS service would be increased.The parameter can not be configured too small.according to the faculty of processing FACH DATA FPs in a related NodeB.ImmediatelyY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->UltranCell->UltranCellXXX->Modify Advanced Parameter->MBMS Configuration Information In A Cell->Time of Arrival Window EndpointCMbmsToAWSToAWSTS 25.433: "UTRAN Iub Interface NBAP Signalling"Time of Arrival Window Startpoint(ms)This parameter is one factor of the protocal parameter that indicates the window startpoint of the FACH FP. DL data frames are expected to be received after this window startpoint. Time of Arrival Window Startpoint (ToAWS) is defined with a positive value relative Time of Arrival Window Endpoint (ToAWE). ToAWS and ToAWE together define the size of the arrival window in Node B. A data frame arriving outside the arrival window gives a Timing Adjustment Control Frame Response from Node B.UTRAN CellMBMS /Node B Management(0..1279)ms step 1msms44msNodeBType of R8NodeBToAWE of MO CMbmsS: MbmsSuptInd of R6SrvCelOnly valid when the cell supports MBMS.FixedNoN/AThe protocol parameter TOAWS is configured according to the OMCR parameters of TOAWS and jitter. The function of the protocal paramter TOAWS is to control the earliest acceptable arrival time of a FACH DATA FP in a NodeB.The parameter of TOAWS is configured according to the faculty of processing FACH FPs in a RNC.The parameter of jitter is configured according to the transport delay jitter from a RNC to a related NodeB.If the value of the parameter is too small, the quality of ptm MBMS service would be dropped.If the value of the parameter is too large, the delay of ptm MBMS service would be increased.The protocol parameter TOAWS is configured according to adjusting the value of the parameter of jitter because the RNC's process faculity is more steady.according to the faculty of processing FACH DATA FPs in a RNC.ImmediatelyY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->UltranCell->UltranCellXXX->Modify Advanced Parameter->MBMS Configuration Information In A Cell->Time of Arrival Window StartpointexternalUtranCellATimeDelayN/AN/ATransport Time DelayThis parameter indicates the transport time delay between the rnc and the adjacent cell.There are three time delay levels: 20ms (Low Earth Orbit and Terrestrial transmission), 100ms (Medium Earth Orbit transmission), 400ms (Geostationary Earth Orbit transmission).External UTRAN CellRAN Transmission Overview/Handover ControlOMCR: 20ms, 100ms, 250ms; RNC: 0..2ms20msN/AN/ANetwork Planing&OptimizationNoN/AThe parameter is configuredaccording to the transmission delay from SRNC to NodeB, including: 1: The value 20 is configuredif the transmission environment is about LEO(Low Earth Orbit) or the transmission delay is not more than 20ms .2: The value 100 is configuredif the transmission environment is about MEO(Medium Earth Orbit) or the transmissiondelay between SRNC and NodeB is between 20ms and 100ms .3: The maximum value is configuredif the transmission environment is about GEO(Geostationary Earth Orbit) or the transmission delay between SRNC and NodeB is more than 100ms .If the value of the parameter is too small, the maxium bit rate of a service may be not be fulfilled, the HS-DSCH/E-DCH congestion detection action may be triggered more easily and the quality of service with HS-DSCH/E-DCH would be dropped.If the value of the parameter is too large, the buffer of a SRNC and UE may be applied too high, the HS-DSCH/E-DCH congestion detection action may be triggered less easily and the quality of service with HS-DSCH/E-DCH would be dropped.If the value of the parameter is configured falsely in respective NodeB, the action of a soft/hard handover would be processed falsely and the quality of service would be dropped.according to the transport delay from a SRNC to a related NodeB that ATM/IP is usually be used.New SessionN00If the value of the parameter is configured too large or too little , Some processes may be performed inaccuratly such as the congestion detection on E-DCH , FP Node synchronisation, FP transport channel synchronisation.View->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Transport Time DelayexternalUtranCellATimeDelayJitterN/AN/ATransport Time Delay JitterThis parameter indicates the transport delay jitter between the RNC and the adjacent cell. The value of FP TOAWS is related with the parameter.External UTRAN CellRAN Transmission Overview0..100msms5msN/AN/ANetwork Planing&OptimizationNoN/AThe protocol parameter TOAWS is configured according to the OMCR parameters of TOAWS and jitter. The function of the protocal paramter TOAWS is to control the earliest acceptable arrival time of a FACH DATA FP in a NodeB.The parameter of jitter is configured according to the transport delay jitter from a RNC to a related NodeB in which the external neighboring cell of the SRNC is configured.If the value of the OMCR parameters of TOAWS and jitter is too small, NodeB can not response a Timing Adjustment Control Frame to RNC in time , the probability that some DCH data to DRNS can not be sent on uu interface would be increased and the quality of service with IUR DCH channel would be dropped.If the value of the parameter is too large, The DRNS NodeB would store more DCH DATA FPs and the delay of service with IUR DCH channel would be increased more.The protocol parameter TOAWS is configured according to adjusting the value of the parameter of jitter because the RNC's process faculity is more steady.according to the transport delay jitter from a RNC to a related NodeB in which the external neighboring cell of the SRNC is configured.New SessionN00If the value of the parameter is configured too large, the downlink data will be buffered in NodeB for a long time. If the value of the parameter is configured too little, the downlink data may not be transferred at the right moment on uu interface.View->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Transport Time Delay JitterrncFunctionFachToAWEToAWETS 25.433: "UTRAN Iub Interface NBAP Signalling"Time of Arrival Window Endpoint(ms) for FACH transmission channelThis parameter indicates the window endpoint of the FACH FP. DL data frames are expected to be received before this window endpoint. Time of Arrival Window Endpoint (ToAWE) is defined with a positive value relative Latest Time of Arrival (LToA). ToAWS and ToAWE together define the size of the arrival window in Node B. A data frame arriving outside the arrival window gives a Timing Adjustment Control Frame Response from Node B.RNCNode B Management(0..2559)ms step1msms8msTOAWE of PCHThe FACH TOAWE and PCH TOAWE MUST be configured to be the same value in one CELL.Fixed-keep monitoringNoN/AThe function of the parameter is to control the lastest acceptable arrival time of a FACH DATA FP in a NodeB.The parameter is configured according to the Transmission jitter tolerance time errors from RNC to a related NodeB.If the value of the parameter is too small, NodeB can not response a Timing Adjustment Control Frame to RNC in time , the probability that a FACH DATA FP can not be sent on uu interface would be increased and the quality of service with FACH channel would be dropped.If the value of the parameter is too large, The NodeB would store more FACH DATA FPs and the delay of service with FACH channel would be increased more.The parameter can not be configured too small.according to the faculty of processing FACH DATA FPs in a related NodeB.ImmediatelyY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->Modify Advanced Parameter->RNC Radio Resource Management->Time of Arrival Window Endpoint for FACHrncFunctionFachToAWSToAWSTS 25.433: "UTRAN Iub Interface NBAP Signalling"Time of Arrival Window Startpoint(ms) for FACH transmission channelThis parameter is one factor of the protocal parameter that indicates the window startpoint of the FACH FP. DL data frames are expected to be received after this window startpoint. Time of Arrival Window Startpoint (ToAWS) is defined with a positive value relative Time of Arrival Window Endpoint (ToAWE). ToAWS and ToAWE together define the size of the arrival window in Node B. A data frame arriving outside the arrival window gives a Timing Adjustment Control Frame Response from Node B.RNCNode B Management(0..1279)ms step 1msms44msTOAWE of PCHThe FACH TOAWS and PCH TOAWS MUST be configured to be the same value in one CELL.Fixed-keep monitoringNoN/AThe protocol parameter TOAWS is configured according to the OMCR parameters of TOAWS and jitter. The function of the protocal paramter TOAWS is to control the earliest acceptable arrival time of a FACH DATA FP in a NodeB.The parameter of TOAWS is configured according to the faculty of processing FACH FPs in a RNC.The parameter of jitter is configured according to the transport delay jitter from a RNC to a related NodeB.If the value of the parameter is too small, the probability that a FACH DATA FP may be received out of the arrival window in a NodeB would be increased and the quality of service with FACH channel would be dropped.If the value of the parameter is too large, The NodeB would store more FACH DATA FPs and the delay of service with FACH channel would be increased more.The protocol parameter TOAWS is configured according to adjusting the value of the parameter of jitter because the RNC's process faculity is more steady.according to the faculty of processing FACH DATA FPs in a RNC.ImmediatelyY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->Modify Advanced Parameter->RNC Radio Resource Management->Time of Arrival Window Startpoint for FACHrncFunctionPchToAWEToAWETS 25.433: "UTRAN Iub Interface NBAP Signalling"Time of Arrival Window Endpoint(ms) for PCH transmission channelThis parameter indicates the window endpoint of the PCH FP. DL data frames are expected to be received before this window endpoint. Time of Arrival Window Endpoint (ToAWE) is defined with a positive value relative Latest Time of Arrival (LToA). ToAWS and ToAWE together define the size of the arrival window in Node B. A data frame arriving outside the arrival window gives a Timing Adjustment Control Frame Response from Node B.RNCNode B Management(0..2559)ms step1msms8msTOAWE of FACHThe FACH TOAWE and PCH TOAWE MUST be configured to be the same value in one CELL.FixedNoN/AThe function of the parameter is to control the lastest acceptable arrival time of a PCH DATA FP in a NodeB.The parameter is configured according to the Transmission jitter tolerance time errors from RNC to a related NodeB.If the value of the parameter is too small, NodeB can not response a Timing Adjustment Control Frame to RNC in time , the probability that a PCH data can not be sent on uu interface would be increased and the quality of service with PCH channel such as a paging type1 would be dropped.If the value of the parameter is too large, The NodeB would store more PCH DATA FPs and the delay of service with PCH channel such as a paging type1 would be increased more.The parameter can not be configured too small.according to the faculty of processing PCH DATA FPs in a related NodeB.ImmediatelyY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->Modify Advanced Parameter->RNC Radio Resource Management->Time of Arrival Window Endpoint for PCHrncFunctionPchToAWSToAWSTS 25.433: "UTRAN Iub Interface NBAP Signalling"Time of Arrival Window Startpoint(ms) for PCH transmission channelThis parameter is one factor of the protocal parameter that indicates the window startpoint of the PCH FP. DL data frames are expected to be received after this window startpoint. Time of Arrival Window Startpoint (ToAWS) is defined with a positive value relative Time of Arrival Window Endpoint (ToAWE). ToAWS and ToAWE together define the size of the arrival window in Node B. A data frame arriving outside the arrival window gives a Timing Adjustment Control Frame Response from Node B.RNCNode B Management(0..1279)ms step 1msms44msTOAWE of FACHThe FACH TOAWS and PCH TOAWS MUST be configured to be the same value in one CELL.FixedNoN/AThe protocol parameter TOAWS is configured according to the OMCR parameters of TOAWS and jitter. The function of the protocal paramter TOAWS is to control the earliest acceptable arrival time of a FACH DATA FP in a NodeB.The parameter of TOAWS is configured according to the faculty of processing FACH FPs in a RNC.The parameter of jitter is configured according to the transport delay jitter from a RNC to a related NodeB.If the value of the parameter is too small, NodeB can not response a Timing Adjustment Control Frame to RNC in time , the probability that a PCH data can not be sent on uu interface would be increased and the quality of service with PCH channel such as a paging type1 would be dropped.If the value of the parameter is too large, The NodeB would store more PCH DATA FPs and the delay of service with PCH channel such as a paging type1 would be increased more.The protocol parameter TOAWS is configured according to adjusting the value of the parameter of jitter because the RNC's process faculity is more steady.according to the faculty of processing FACH DATA FPs in a RNC.ImmediatelyY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->Modify Advanced Parameter->RNC Radio Resource Management->Time of Arrival Window Startpoint for PCHrncFunctionIuUlInSeqDlvIndN/AN/AIU Uplink in Sequence Delivery IndicatorThis parameter indicates whether Iu uplink data is delivered in sequence based on indication of RAB assignment from CN.RNCIP UTRAN0: Not up to CN1: Up to CNN/A1: Up to CNN/AN/AFixed-keep monitoringNoYesThe function of the parameter is to get configuration of sending IUPS data in order from CN The parameter is configured to be consistent with CN configuration of sending IUPS dataIf the value of the parameter is up to cn, RNC will follow CN's indication of IUPS data in orderIf the value of the parameter is not up to cn, RNC will decide to send IUPS data in order by OMCR's configurationPackets of IU service are defined by CN is preferred.New SessionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->RNC Configuration->IU Uplink in Sequence Delivery Indicator whether According to Indication from CNCnInfoMCCMCC; Mobile Country CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Country CodeMCC uniquely identifiesthe country that the UE users (or system) belong to. MCC is allocated uniformly and internationally.RNC and PLMNBasic Identification Parameter0..999N/A460MCC of R8CnInfo, MNC of R8CnInfoThe MNC and MCC are used to identify the same PLMN.Network Planing&OptimizationYesN/AMain function: MCC uniquely identifiesthe country that the UE users (or system) belong to. MCC is allocated uniformly and internationally.Influence factor: the value should set by the Newwork Planning&Optimization.460 is the MCC of CHINACan't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->CN NAS ConfigurationCnInfoMNCMNC; Mobile Network CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Network CodeMNC identifies a specific PLMN inside one country (decided by MCC).RNC and PLMNBasic Identification Parameter0..999N/A-MCC of R8CnInfo, MNC of R8CnInfoThe MNC and MCC are used to identify the same PLMN.Network Planing&OptimizationYesN/AMain function: MNC identifies a specific PLMN inside one country (decided by MCC).Influence factor: the value should set by the Newwork Planning&Optimization.NoneCan't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->CN NAS ConfigurationexternalGsmCellAdjPhyGsmCIdN/AN/APhysical Adjacent GSM Cell IdentityThe parameter indicates physical adjacent GSM cell identity., it identifies a neighboring GSM cell uniquely. One physical cell corresponds to four logic cell (MCC+MNC+LAC+CI) at most.GSM Neighboring CellRAN Sharing0.. 2^32-1N/AN/AN/AN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: Unique physical Identify code of Neighbour GSM Cell In RncFactors of consideration: It's recommended that the PhyGsmCid contain the LAC and logical GSM Cell IDN/ACan't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXXexternalGsmCellBandindicatorBand indicatorTS 25.331: "RRC Protocol Specification"Band IndicatorThis parameter identifies which frequency band the BCCH ARFCN GSM neighboring cell usesGSM Neighboring CellAdjacent Gsm cell Basic Parameter0: DCS 1800 Band Used; 1: PCS 1900 Band Used; 2: Standard GSM 900 Band Used3: GSM 450 Band Used4: GSM 480 Band Used5: GSM 750 Band Used6: GSM 850 Band Used7: Extended GSM 900 Band Used8: Railways GSM 900 Band UsedN/ADCS 1800 Band UsedBandindicator of externalGsmCelll, BCCHARFCN of externalGsmCellBandindicator: DCS 1800, BCCHARFCN: (512..885)Bandindicator: PCS 1900, BCCHARFCN: (512 .. 812)Bandindicator: Standard GSM900, BCCHARFCN: (1..124)and(955..1023)Bandindicator: GSM 450, BCCHARFCN: 259-293Bandindicator: GSM480, BCCHARFCN: 306-340Bandindicator: GSM750, BCCHARFCN: 438-511Bandindicator: GSM850, BCCHARFCN: 128-251Bandindicator: Extended GSM900, BCCHARFCN: (0..124)and(975..1023)Bandindicator: Raiways GSM900, BCCHARFCN: (1..124)and(955..1023)Network Planing&OptimizationNoN/AFunction: neighboring GSM cells' BCCH ARFCN.Configuration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Band IndicatorexternalGsmCellBCCBase Station Colour Code (BCC)TS 25.331: "RRC Protocol Specification"Base Station Colour CodeWhen the neighboring cell is GSM cell, its BSIC (Base transceiver Station Identity Code) consists of NCC (Network Colour Code) and BCC (Base Station Colour Code). NCC identifies the network, such as, different GSM networks beside the border. BCC identifies the cells that use the same BCCH frequency point.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..7N/A-NCCBCCN/ANetwork Planing&OptimizationNoN/AFunction: neighboring GSM cells' BSIC.Configuration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Base Station Colour CodeexternalGsmCellBCCHARFCNBCCH ARFCNTS 25.331: "RRC Protocol Specification"BCCH ARFCNThis parameter indicates BCCH absolute radio frequency channel No. of GSM neighboring cell, which corresponds to the central frequency of the carrier used by BCCH.[512, 885] corresponds to Band DCS1800[512, 812] corresponds to Band PCS1900[0, 124] and [9575, 1023] correspond to band GSM900[259, 293] corresponds to Band GSM450[306, 340] corresponds to Band GSM480[438, 511] corresponds to Band GSM750[128, 251] corresponds to Band GSM850GSM Neighboring CellAdjacent Gsm cell Basic Parameter0-1023N/A-Bandindicator of externalGsmCelll, BCCHARFCN of externalGsmCellBandindicator: DCS 1800, BCCHARFCN: (512..885)Bandindicator: PCS 1900, BCCHARFCN: (512 .. 812)Bandindicator: Standard GSM900, BCCHARFCN: (1..124)and(955..1023)Bandindicator: GSM 450, BCCHARFCN: 259-293Bandindicator: GSM480, BCCHARFCN: 306-340Bandindicator: GSM750, BCCHARFCN: 438-511Bandindicator: GSM850, BCCHARFCN: 128-251Bandindicator: Extended GSM900, BCCHARFCN: (0..124)and(975..1023)Bandindicator: Raiways GSM900, BCCHARFCN: (1..124)and(955..1023)Network Planing&OptimizationNoN/AFunction: neighboring GSM cells' absolute radio frequencyConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->BCCH ARFCNexternalGsmCellBSCIdN/AN/ABSC IdentifierThis parameter indicates BSC Identifier, which GSM Cell belongs to.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0-65535N/A-N/AN/ANetwork Planing&OptimizationNoN/AFunction: neighboring GSM cells' BSC IdentifierConfiguration Rule: This parameter should be set according to operator network deploymentThis parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->BSC IdentifierexternalGsmCellCICI; Cell IdentityTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 23.003: "Numbering, addressing and identification"Cell IdentifierThis parameter is neighboring cell identity, it is valid only in the LAC where the cell locates.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..65535N/A-MCCMNCLACCI).N/ANetwork Planing&OptimizationNoN/AFunction: neighboring cell identityConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Cell IdentifierexternalGsmCellGeranCellIndN/AN/AGERAN Cell IndicatorThis parameter indicates whether the GSM cell is GERAN cellGSM Neighboring CellHandover Control0: Not GERAN Cell1: GERAN CellN/A-RACN/ANetwork Planing&OptimizationNoN/AFunction: GERAN Cell IndicatorConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->GERAN Cell IndicatorexternalGsmCellLACLAC; Location Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Location Area CodeThis parameter indicates the LAC of the neighboring cell locates. It identifies different location area. LAC belongs to LAI (LAI = MCC + MNC + LAC). One location area includes many cells.GSM Neighboring CellAdjacent Gsm cell Basic Parameter1..0xfffd, 0xffffN/A-MCCMNCLACCIN/ANetwork Planing&OptimizationNoN/AFunction: LAC of the neighboring cellConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Location Area CodeexternalGsmCellMaxULTxPwrmaximum allowed UL TX powerTS 25.331: "RRC Protocol Specification"Maximum Allowed UL TX Power(dBm)This parameter indicates the maximum allowed uplink transmit power in the GSM cell.GSM Neighboring CellAdjacent Gsm cell Basic ParameterOMCR: (-50..33)dBm; RNC: D=P+50, 0..83dBm30 dBmN/AN/AFixedNoN/AFunction: maximum allowed uplink transmit power in the GSM cellConfiguration Rule: UE capabilityThe parameter is configured by UE transmit capability.Adjustment Suggestion: Not suggest to modify this parameterUE capability is taken into account in default value.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Modify Advanced Parameter->Maximum Allowed UL TX PowerexternalGsmCellMCC[4]MCC; Mobile Country CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Country CodeMCC uniquely identifies the country that the UE users (or system) belong to. MCC is allocated uniformly and internationally.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..999N/A460MCCMNCLACCIN/ANetwork Planing&OptimizationNoN/AFunction: neighboring GSM cells' MCC.Configuration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXXexternalGsmCellMNC[4]MNC; Mobile Network CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Network CodeThis parameter indicates the LAC of the neighboring cell locates. It identifies different location area. LAC belongs to LAI (LAI = MCC + MNC + LAC). One location area includes many cells.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..999N/A-MCCMNCLACCIN/ANetwork Planing&OptimizationNoN/AFunction: neighboring GSM cells' MNC.Configuration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXXexternalGsmCellMNCBcdCodeLen[4]N/AN/AMNC BCD Code LengthThis parameter indicates the code length of the MNC BCD of the neighboring GSM cell.GSM Neighboring CellAdjacent Gsm cell Basic Parameter2..3N/A2N/AN/AFixedNoN/AFunction: neighboring GSM cells' MNC BCD LengthConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXXexternalGsmCellNCCNetwork Colour Code (NCC)TS 25.331: "RRC Protocol Specification"Network Colour CodeWhen the neighboring cell is GSM cell, its BSIC (Base transceiver Station Identity Code) consists of NCC (Network Colour Code) and BCC (Base Station Colour Code). NCC identifies the network, such as, different GSM networks beside the border. BCC identifies the cells that use the same BCCH frequency point.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..7N/A-BSICBCCN/ANetwork Planing&OptimizationNoN/AFunction: neighboring GSM cells' NCCConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Network Colour CodeexternalGsmCellPLmnNumN/AN/APLMN Number of Sharing the GSM CellThe parameter indicates PLMN number of Sharing the GSM cell.GSM Neighboring CellRAN Sharing1..4N/A1N/AN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: configure the PLMN of GSM CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the PLMN of the neighbour GSM CellThe default value is deicided by the factor that the dedicated carrier sharing is mainly usedNew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->PLMN Number of Sharing the GSM CellexternalGsmCellRACRAC; Routing Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Routing Area CodeThe parameter indicates RAC of the Gsm cell.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..255N/AN/AMCC of R8GsmCel, MNC of R8GsmCel, LAC of R8GsmCel, RAC of R8Gsm CelRAI contain MCC, MNC, LAC and RAC(RAI = MCC + MNC + LAC+ RAC), only valid when GeranCellInd is1Network Planing&OptimizationNoN/AFunction of this parameter: configure the RAC of GSM CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the RAC of the neighbour GSM CellN/ANew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Routing Area CodeexternalGsmCellSNAC[4]SNAC; Shared Network Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 23.003: "Numbering, addressing and identification"Shared Network Area CodeThis parameter indicates the shared network area code that the neighboring cell belongs to. One cell can belong to at most four SNACs (shared network area code).GSM Neighboring CellAdjacent Gsm cell Basic Parameter0..65535N/AN/ASNACNum of R8AdjCel, SNAC[4] of R8AdjCelSNAC[4] is a list. the max element number of list is 4. the valid element number is SNACNum .Network Planing&OptimizationNoN/AFunction of this parameter: configure the SANC info of GSM CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the SNAC info of the neighbour GSM Cell. If network sharing is not used, this parameter don't need to configuredN/ANew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXXexternalGsmCellSNACNumN/AN/AShared Network Area Code NumberThis parameter indicates the number of shared network area code that the neighboring cell belongs to.GSM Neighboring CellAdjacent Gsm cell Basic Parameter0.. MAX_NUM_SNAC_PER_GSMCEL,N/A0SNACNum of R8AdjCel, SNAC[4] of R8AdjCelSNAC[4] is a list. the max element number of list is 4. the valid element number is SNACNum .Network Planing&OptimizationNoN/AFunction of this parameter: configure the SANC number of GSM CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the SNAC number of the neighbour GSM Cell. If network sharing is not used, this parameter is set as zeroThe default value is deicided by the factor that no network sharing is used in most networksNew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External GSM Cell->External GSM Cell XXX->Shared Network Area Code NumberexternalUtranCellAdjPhyCIdN/AN/APhysical Adjacent Cell IdentityThe parameter indicates physical adjacent cell identity., it identifies a neighboring cell uniquely. One physical cell corresponds to four logic cell at most.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0.. 2^32-1N/AN/AN/AN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: Unique physical Identify code of Neighbour RNC Cell Factors of consideration: It's recommended that the AdjPhyCId contain the neighbour RNC ID and neighbour logical UMTS Cell IDN/ACan't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXXexternalUtranCellCIdC-Id; Cell IdentifierTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.331: "RRC Protocol Specification"TS 25.401: "UTRAN Overall Description "Cell IdentityThe parameter indicates the neighboring cell identity, which is valid only in the RNC where the cell locates.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0..65535N/AN/AMCC of R8AdjCel, MNC of R8AdjCel, RncId of R8AdjCel, CId of R8AdjCelN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: configure cell-id of umts neighbour cellFactors of consideration: This parameter need to be negotiated with the UMTS neighbour cell, and configurated according to the Cell-Id of the neighbour UMTS CellN/ANew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Cell IdentityexternalUtranCellClm1SuptIndClosed Loop Mode1 Support Indicator; Diversity Mode; TX Diversity ModeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.433: "UTRAN Iub Interface NBAP Signalling"TS 25.331: "RRC Protocol Specification"Closed Loop Mode 1 Support IndicatorThis parameter indicates if the neighboring cell supports Closed Loop Mode1.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Supported1: Not SupportedN/ANot SupportedN/AN/AFixedNoN/AFunction: This parameter indicates if the neighboring cell of DRNC supports Closed Loop Mode1.Configuration Rule: It should be set according to if the neighboring cell of DRNC actually supports Closed Loop Mode1.Default value is set to "Not Support", which should be adjusted according to the actual supported diversity mode of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Closed Loop Mode 1 Support IndicatorexternalUtranCellCpcDtxDrxSuptIndContinuous Packet Connectivity DTX-DRX Support IndicatorTS 25.423: "UTRAN Iur interface RNSAP signalling"CPC DTX-DRX Support IndicatorThis parameter indicates whether continuous packet connectivity DTX-DRX operation is supported by the neighboring cell or not.External UTRAN CellHSPA Evolution0: Not Support1: SupportN/ASupportN/AN/AFixed-keep monitoringNoN/AFunction: This parameter indicates if the neighboring cell of DRNC supports CPC DTX-DRX.Configuration Rule: It should be set according to if the neighboring cell of DRNC actually supports CPC DTX-DRX.Default value is set to "Support", which should be adjusted according to the actual CPC DTX-DRX capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->CPC DTX-DRX Support IndicatorexternalUtranCellCpcHslessSuptIndContinuous Packet Connectivity HS-SCCH less Support IndicatorTS 25.423: "UTRAN Iur interface RNSAP signalling"Max U CPC HS-SCCH less Support Indicator E DTX CycleThis parameter indicates whether continuous packet connectivity HS-SCCH less operation is supported by the neighboring cell or not.External UTRAN CellHSPA Evolution0: Not Support1: SupportN/ASupportN/AN/AFixed-keep monitoringNoN/AFunction: This parameter indicates if the neighboring cell of DRNC supports HS-SCCH less.Configuration Rule: It should be set according to if the neighboring cell of DRNC actually supports HS-SCCH less.Default value is set to "Support", which should be adjusted according to the actual CPC DTX-DRX capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Max U CPC HS-SCCH less Support Indicator E DTX CycleexternalUtranCellDIurCmbIndN/AN/ADRNC Diversity Combination IndicatorThis parameter defines the neighboring cell diversity combination indicator when the current RNC is DRNC.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Combined1: Not CombinedN/ACombinedN/AN/AFixedNoN/AFunction of this parameter: configure combine method of DRNC Iur radio LinkFactors of consideration: the consumed transmission resource and DRNC combine campatibilty.When this parametre is set as combined, the transmission resource can be saved , but need the support of DRNC. When this parametre is set as not combined, the transmission resource can not be saved, but not need the support of DRNC.The default value is to save transmission resource.Next Radio Link Add Request Over IurN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->DRNC Diversity Combination IndicatorexternalUtranCellDivCtrlFldDiversity Control FieldTS 25.423: "UTRAN Iur interface RNSAP signalling"SRNC Diversity Combination IndicatorThis parameter defines the neighboring cell diversity combination indicator when the current RNC is SRNC.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: May 1: Must2: Must notN/AMayN/AN/AFixedNoN/AFunction of this parameter: SRNC indicate the combine method of DRNC Iur radio LinkFactors of consideration: this parametre is influenced by the combine capability and campatibility of DRNC. When it's set as 'may', the better compatiablity can be acquired. When it's set as 'must' or 'must not', The consumed transmission resource can be controlled by SRNC, but need the support of DRNCThe default value is to ensure best compatiablityNext Radio Link Add Request Over IurN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->SRNC Diversity Combination IndicatorexternalUtranCellDl64QAMSuptIndN/AN/A64QAM DL Support IndicatorThis parameter indicates whether the neighboring cell supports downlink 64QAM or not.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Not Supported1: SupportedN/ANot SupportedN/AN/ANetwork Planing&OptimizationNoN/AFunction: This parameter indicates if the neighboring cell of DRNC supports 64QAM.Configuration Rule: It should be set according to if the neighboring cell of DRNC actually supports 64QAM.Default value is set to "Not Support", which should be adjusted according to the actual DL 64QAM capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->64QAM DL Support IndicatorexternalUtranCellDUARFCNUARFCN downlink (Nd); DL UARFCN; UARFCN; UTRA Absolute Radio Frequency Channel NumberTS 25.331: "RRC Protocol Specification"TS25.423TS 25.433: "UTRAN Iub Interface NBAP Signalling"; TS 25.401: "UTRAN Overall Description "DUARFCNThis parameter indicates the occupied downlink carrier central frequency point of the cell. It is UTRA absolute radio frequency channel No., corresponding to the central frequency of the carrier used by the downlink channel.External UTRAN CellInter_RNC Adjencent cell Basic ParameterBand I: 10562..10838Band II: 9662..9938, 412, 437, 462, 487, 512, 537, 562, 587, 612, 637, 662, 687Band III: 1162.. 1513Band V: 4357... 4458, 1007, 1012, 1032, 1037, 1062, 1087Band VI: 4387 ...4413, 1037, 1062Band VIII: 2937..3088N/A-DUARFCNFreqBandIndN/ANetwork Planing&OptimizationNoN/AFunction: downlink carrier central frequency point of the cellConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->DUARFCNexternalUtranCellEdchHarqCombCapCell Capability Container FDDTS 25.423: "UTRAN Iur interface RNSAP signalling"E-DCH HARQ Combining CapabilityThe parameter indicates the E-DCH HARQ combining capability of the neighboring cell.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: IR Combining Capable1: Combining Capable2: IR and Chase Combining CapableN/AIR and Chase Combining CapableN/AN/AFixedNoN/AFunction: The parameter indicates the E-DCH HARQ combining capability of the neighboring cell of DRNC.Configuration Rule: It should be set according to the actual HARQ combining capability of the neighboring cell of the DRNC.Default value is set to "IR and Chase Combining Capable", which should be adjusted according to the actual E-DCH HARQ combining capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->E-DCH HARQ Combining CapabilityexternalUtranCellEdchSfCapCell Capability Container FDDTS 25.423: "UTRAN Iur interface RNSAP signalling"E-DCH SF CapabilityThis parameter indicates the E-DCH SF capability of the neighboring cell.External UTRAN CellInter_RNC Adjencent cell Basic Parameter(SF8[0], SF4[1], 2SF4[2], 2SF2[3], 2SF2 and 2SF4[4])N/A2SF2 and 2SF4N/AN/AFixedNoN/AFunction: The parameter indicates the E-DCH SF capability of the neighboring cell of DRNC.Configuration Rule: It should be set according to the actual E-DCH SF capability of the neighboring cell of the DRNC.Default value is set to "2SF2 and 2SF4", which should be adjusted according to the actual E-DCH SF capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->E-DCH SF CapabilityexternalUtranCellEdchTti2SuptIndCell Capability Container FDDTS 25.423: "UTRAN Iur interface RNSAP signalling"2ms E-TTI Support IndicatorThis parameter indicates if the neighboring cell supports E-DCH TTI 2ms.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Not Supported1: SupportedN/ASupportedN/AN/ANetwork Planing&OptimizationNoN/AFunction: The parameter indicates whether E-DCH 2ms TTI is supported by the neighboring cell of DRNC.Configuration Rule: It should be set according to the actual E-DCH TTI capability of the neighboring cell of the DRNC.Default value is set to "Supported", which should be adjusted according to the actual E-DCH TTI capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->2ms E-TTI Support IndicatorexternalUtranCellEfdpchSupIndCell Capability Container FDDTS 25.423Neighboring Cell Enhanced F-DPCH Support IndicatorThis parameter indicates whether the neighboring cell supports Enhanced F-DPCH.External UTRAN CellHSPA Evolution0: Supported1: Not SupportedN/A1: Not SupportedFDpchSuptInd of External UTRAN CellThis parameter can be set to 'supported' only when the FDpchSuptInd of externalUtranCell is set to 'supported'FixedNoN/AIt shoulde be set to "Supported" if the external neighbouring cell supports Enhanced F-DPCH.N/ATake effect for the next callN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Neighboring Cell Enhanced F-DPCH Support IndicatorexternalUtranCellFDpchSuptIndCell Capability Container FDDTS 25.423: "UTRAN Iur interface RNSAP signalling"F-DPCH Support IndicatorThis parameter indicates whether the neighboring cell supports F-DPCH.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Supported1: Not SupportedN/A1: Not SupportedN/AN/AFixedNoN/AIt shoulde be set to "Supported" if the external neighbouring cell supports F-DPCH.N/ATake effect for the next callN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->F-DPCH Support IndicatorexternalUtranCellFlexMacdSuptIndN/AN/AFlexible MAC-d PDU Size Support IndicatorThis parameter indicates whether the neighboring cell supports flexible MAC-d PDU size or not.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Not Supported1: SupportedN/ANot SupportedN/AN/ANetwork Planing&OptimizationNoN/AThe function of this parameter: This paratmeter indicates whether the neighboring cells of DRNC support flexible MAC-d PDUThe involved factor for setting this parameter: the actual cell capability of the cell in C-RNC.Influence of this parameter: This paratmeter indicates whether the neighboring cells of DRNC support flexible MAC-d PDU, and should be set according to the actual cell capability of the cell in C-RNC.Suggestion for setting this parameter: It should be set according to the actual cell capability of the cell in C-RNC.the desault value is "0: closed" and should be set according to operator's requirement.ImmediatelyN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Flexible MAC-d PDU Size Support IndicatorexternalUtranCellFreqBandIndFrequency Band Indicator; Frequency band indicator; Frequency band indicator 2TS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.331: "RRC Protocol Specification"Frequency Band IndicatorThis parameter indicates the frequency band of the central frequency of the neighboring cell.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Band I1: Band II2: Band III4: Band V5: Band VI7: Band VIIIN/A-N/AN/ANetwork Planing&OptimizationNoN/AFunction: frequency band of the central frequency of the neighboring cellConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Frequency Band IndicatorexternalUtranCellHspaSptMethN/AN/AHSPA Support MethodThis parameter indicates the supporting type of DCH, HSDPA and HSUPA of the neighboring cell.External UTRAN CellHandover Control / Load Balance /Admission Control /HSDPA Introduction , /HSUPA Introduction0: Not Support HSUPA and HSDPA1: Support HSDPA and DCH3: Support HSUPA , HSDPA and DCHN/ASupport HSUPA , HSDPA and DCHN/AN/ANetwork Planing&OptimizationNoN/AFunction: Neighboring cells' HSPA capabilityConfiguration Rule: This parameter is configured by neighboring cells' HSPA capabilityIn general, HSPA capability will be support.When best cell is changedN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->HSPA Support MethodexternalUtranCellLACLAC; Location Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Location Area CodeThis parameter indicates the LAC of the neighboring cell. This parameter is to confirm the location of the MS. The coverage areas of each PLMN are divided into many location areas. LAC identifies different location area. LAC belongs to LAI (LAI = MCC + MNC + LAC). One location area includes many cells.External UTRAN CellHandover Control1..0xfffd, 0xffffN/A-MCCMNCLACCIN/ANetwork Planing&OptimizationNoN/AFunction: Location area codeConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Location Area CodeexternalUtranCellMaxDtxCycMax UE DTX CycleTS 25.423: "UTRAN Iur interface RNSAP signalling"Max UE DTX Cycle (subframes)This parameter indicates the maximum UE DTX cycle supported by the neighboring cell for continuous packet connectivity DTX-DRX operation.External UTRAN CellHSPA Evolution(5, 10, 20, 40, 64, 80, 128, 160) subframesN/A160 subframesN/AN/AFixed-keep monitoringNoN/AFunction: The parameter indicates the Max UE DTX Cycle capability of the neighboring cell of DRNC.Configuration Rule: It should be set according to the actual Max UE DTX Cycle capability of the neighboring cell of the DRNC.Default value is set to "160 subframes", which should be adjusted according to the actual Max UE DTX Cycle capability of the neighboring cell of DRNC.At next judgment (i.e., shall not affect ongoing connections)N00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Max UE DTX CycleexternalUtranCellMaxRACHTxPwrMaximum Allowed UL Tx PowerTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.331: "RRC Protocol Specification"RACH Maximum Allowed UL TX Power(dBm)This parameter is the maximum allowed RACH transmit power of the neighboring cell.External UTRAN CellIdle Mode and Common Channel BehaviorOMCR: (-50..33)dBmRNC: D=P+500..83dBm24dBmN/AN/AFixedNoN/AFunction: maximum transmit powerConfiguration Rule: ue capability(maximum transmit power)When this parameter is smaller than actual UE maximum Tx Power, if the parameter is smaller, uplink power is smaller, and vice versa.Adjustment Suggestion: In general, this parameter will not be adjusted.UE capability is taken into account in default value.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->RACH Maximum Allowed UL TX PowerexternalUtranCellMCC[4]MCC; Mobile Country CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Country CodeMCC uniquely identifiesthe country that the UE users (or system) belong to. MCC is allocated uniformly and internationally.External UTRAN CellRAN Sharing0..999N/A460N/AN/ANetwork Planing&OptimizationNoN/AFunction: Mobile country codeConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXXexternalUtranCellMCC[4]MCC; Mobile Country CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Country CodeMCC uniquely identifiesthe country that the UE users (or system) belong to. MCC is allocated uniformly and internationally.External UTRAN CellRAN Sharing0..999N/A460N/AN/ANetwork Planing&OptimizationNoN/AFunction: Mobile country codeConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXXexternalUtranCellMimo64QamSuptIndN/AN/AMimo64Qam Support IndicatorThis parameter indicates whether the neighboring cell supports to activate MIMO and downlink 64QAM at the same time.External UTRAN Cellparameter for future use0: Not Supported1: SupportedN/A0: Not SupportedN/AN/ADon't CareNoN/AIt shoulde be set to "Supported" if the external neighbouring cell supports MIMO and downlink 64QAM simutaneously.N/ATake effect for the next callN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Mimo64Qam Support IndicatorexternalUtranCellMimoSuptIndN/AN/AMIMO Support IndicatorThis parameter indicates whether the neighboring cell supports MIMO or not.External UTRAN CellHandover Control0: Not Supported1: SupportedN/A0: Not SupportedN/AN/AFixedNoN/AIt shoulde be set to "Supported" if the external neighbouring cell supports.N/ATake effect for the next callN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->MIMO Support IndicatorexternalUtranCellMNC[4]MNC; Mobile Network CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Mobile Network CodeMNC identifies a specific PLMN inside one country (decided by MCC).External UTRAN CellRAN Sharing0..999N/AN/AMCC of R8AdjCel, MNC of R8AdjCel, RncId of R8AdjCel, CId of R8AdjCelN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: configure MNC of umts neighbour cellFactors of consideration: This parameter need to be negotiated with the UMTS neighbour cell, and configurated according to the MNC of the neighbour UMTS CellN/ANew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXXexternalUtranCellPcpichPwrPrimary CPICH Power; Primary CPICH Tx PowerTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.433: "UTRAN Iub Interface NBAP Signalling"TS 25.331: "RRC Protocol Specification"Primary CPICH Power(dBm)This parameter indicates PCPICH transmission power of the neighboring cell. It is an absolute value.External UTRAN CellInter_RNC Adjencent cell Basic ParameterOMCR: (-10..50)dBm step 0.1dBm; RNC: D=(P+10)*10, 0..600dBm33.0dBmPcpichPwrPre of ExternalUtranCellOnly valid when PcpichPwrPre is True.FixedNoN/AParameter Function: This parameter indicates PCPICH transmission power of the neighboring cell.Configuration Rule: The parameter value is configured to satisfy the requirement of probability of right receive, coverage and system capacity.Adjustment Suggestion: If the parameter value is too small, the PCPICH coverage would be so small that the UE's probability of right receiving would be bad when UE is in the edge of the cell.If the parameter value is too large, it would increase the unnecessary interference, and waste the downlink power and decrease the downlink capacity.If PcpichPwrPre is "False", this parameter is invalid.The default value is configured by network planning & optimization engineer based on the actual requirement of coverage and system capacity.The P-CPICH power usually is 33dBm when cell maximum power is 43dBm.ImmediatelyN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Primary CPICH PowerexternalUtranCellPcpichPwrPreN/AN/APrimary CPICH Power Configuration TagThis parameter indicates whether PCPICH transmission power is configured.PCPICH transmission power is valid when this parameter is set "True". Otherwise, PCPICH transmission power is invalid.External UTRAN CellHandover Control0: False; 1: TrueN/AN/AN/AFixedNoN/AParameter Function: This parameter indicates whether PCPICH transmission power of neighboring cell is configured.Configuration Rule: It needs to consider whether the pathloss of neighboring cell needs to be calculated for intra-frequency or intra-frequency measurement.If the pathloss of neighboring cell needs to be calculated for intra-frequency or inter-frequency measurement, "Cell info" IE of intra-frequency or inter-frequency measurement should include the PCPICH transmission power of this neighboring cell, and this parameter should be "Ture".If the pathloss of neighboring cell not needs to be calculated for intra-frequency or intra-frequency measurement, "Cell info" IE of intra-frequency or inter-frequency measurement shall not include the PCPICH transmission power of this neighboring cell, and this parameter should be "False".Adjustment Suggestion: At present, the pathloss of neighboring cell not need to be calculated for intra-frequency or intra-frequency measurement, so this parameter not needs to be adjusted.The default value is configured by the network planning & optimization engineer based on the situation. At present, the pathloss of neighboring cell not need to be calculated for intra-frequency or intra-frequency measurement, so the default value of this parameter is "False".ImmediatelyN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Primary CPICH Power Configuration TagexternalUtranCellPLmnNumN/AN/APLMN Number of Sharing the CellThe parameter indicates PLMN number of Sharing the cell.External UTRAN CellRAN Sharing1..4N/A1N/AN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: configure PLMN number of umts neighbour cellFactors of consideration: This parameter need to be negotiated with the UMTS neighbour cell, and configurated according to the PLMN number of the neighbour UMTS CellThe default value is deicided by the factor that the dedicated carrier sharing is mainly usedNew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->PLMN Number of Sharing the CellexternalUtranCellPrimScraCodePrimary Scrambling CodeTS 25.331: "RRC Protocol Specification"TS 25.423: "UTRAN Iur interface RNSAP signalling"TS25.433Cell Primary Scrambling CodeThe cell primary scrambling code is used to distinguish the cell. There are 512 downlink primary scrambling codes in UTRAN totally.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0..511N/A-N/AN/ANetwork Planing&OptimizationNoN/AThis parameter indicates the Primary Scrambling Code of the neighbouring cell of adjcent RNCN/ATake effect after the the system information is updatedN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Cell Primary Scrambling CodeexternalUtranCellRACRAC; Routing Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 25.331: "RRC Protocol Specification"TS 23.003: "Numbering, addressing and identification"Routing Area CodeThis parameter indicates routing area code of the neighboring cell. It is only valid when supporting PS services. The routing area code identifies one routing area in PLMN of GSM-MAP type for packeting services. RAC belongs to RAI (RAI = PLMN-ID + LAC + RAC). RAC is set by the operator via RNC O&M.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0..255N/A-MCCMNCLACRACN/ANetwork Planing&OptimizationNoN/AFunction: Routing area codeConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Routing Area CodeexternalUtranCellRncIdRNC-ID; RNC IdentifierTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 23.003: "Numbering, addressing and identification"RNC Identity of Adjacent cellThis parameter indicates the RNC ID of the neighboring cell. RNC ID is distributed uniformly in PLMN.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0..4095N/A-N/AN/ANetwork Planing&OptimizationNoN/AFunction: RNC ID of the neighboring cellConfiguration Rule: This parameter should be set according to network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->RNC IdentityexternalUtranCellSACBSAC; Service Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 23.003: "Numbering, addressing and identification"Service Area Code for BC DomainThis parameter indicates the BC domain service area code of the neighboring cell. Serving area code is unique, belongs to one or several cells in the same Location Are (LA). Serving area code indicates the UE location to CN. SAC belongs to SAI (SAI = PLMN-ID + LAC + SAC). SAC is set by the operator via RNC O&M. One cell contains one or two SAC: One is CS + PS domain SACs and the other is BC domain SAC. One of them must be CS + PS domain SAC. SA of BC domain can only contain one cell.External UTRAN CellParameter for future use0..65535N/AN/ASACBPreMCCMNCLACSACN/ADon't CareNoN/AThis parameter is not used in current SW version.not used parameterN/AN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Service Area Code for BC DomainexternalUtranCellSACBPreN/AN/ASACB Configuration TagThis parameter indicates whether SACB (service area code for BC domain) parameter is configured or not. It is required to be configured when the cell supports the cell broadcast service. Otherwise, this parameter is not required to be configured.External UTRAN CellParameter for future use0: False1: TrueN/AN/AN/ADon't CareNoN/AThis parameter is not used in current SW version.not used parameterN/AN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->SACB Configuration TagexternalUtranCellSACPCSAC; Service Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 23.003: "Numbering, addressing and identification"Service Area Code for CS and PS DomainThis parameter indicates the CS + PS domain service area code of the neighboring cell. Service area code uniquely identifies one or several cells belonging to the same Location Are (LA). Service area code indicates the UE location for CN. SAC belongs to SAI (SAI = PLMN-ID + LAC + SAC). SAC is set by the operator via RNC O&M. One cell may belong to one or two SACs: One is CS + PS domain SAC and the other is BC domain SAC. One of them must be CS + PS domain SAC.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0..65535N/A-MCCMNCLACSACPCN/ANetwork Planing&OptimizationYesN/AFunction: Service area code for CS and PS domainConfiguration Rule: This parameter should be set according to network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Service Area Code for CS and PS DomainexternalUtranCellSNAC[4]SNAC; Shared Network Area CodeTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.413: "UTRAN Iu Interface RANAP Signalling"TS 23.003: "Numbering, addressing and identification"Shared Network Area CodeThis parameter indicates the shared network area code that the neighboring cell belongs to. One cell can belong to at most four SNACs (shared network area code).External UTRAN CellHandover Control0..65535N/AN/ASNACNum of R8AdjCel, SNAC[4] of R8AdjCelSNAC[4] is a list. the max element number of list is 4. the valid element number is SNACNum .Network Planing&OptimizationNoN/AFunction of this parameter: configure the SANC info of neighbour UMTS CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the SNAC info of the neighbour neighbour UMTS Cell. If network sharing is not used, this parameter don't need to be configuredN/ANew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXXexternalUtranCellSNACNummaxnoofSNAsTS 25.423: "UTRAN Iur interface RNSAP signalling"Shared Network Area Code NumberThis parameter indicates the number of shared network area code that the neighboring cell belongs to.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0.. MAX_NUM_SNAC_PER_GSMCEL, MAX_NUM_SNAC_PER_GSMCEL=4N/A0SNACNum of R8AdjCel, SNAC[4] of R8AdjCelSNAC[4] is a list. the max element number of list is 4. the valid element number is SNACNum .Network Planing&OptimizationNoN/AFunction of this parameter: configure the SANC number of neighbour UMTS CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the SNAC number of the neighbour neighbour UMTS Cell. If network sharing is not used, this parameter is set as zeroThe default value is deicided by the factor that no network sharing is used in most networksNew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Shared Network Area Code NumberexternalUtranCellSttdSuptIndSTTD Support Indicator; STTD Indicator; STTD indicatorTS 25.423: "UTRAN Iur interface RNSAP signalling"TS25.433TS25.331STTD Support IndicatorThis parameter indicates whether STTD can be used on the downlink DPCH of the cell.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Supported1: Not SupportedN/ANot SupportedN/AN/AFixedNoN/AFunction: STTD indicatorConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.At next useN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->STTD Support IndicatorexternalUtranCellSuptCgtDetIndN/AN/ASupport R5/R6Congestion Detection IndicatorThis parameter indicates if the neighboring cell supports R5/R6 congestion detection.External UTRAN Cellhsupa packet schedulingBit0: Not Support/Support HS-DSCH Congestion Detection(0/1)Bit1: Not Support/Support E-DCH Congestion Detection(0/1)Bit2-Bit7 Reserved, Fixed 0N/A0Bit0: Not Support HS-DSCH Congestion Detection=0Bit1: Not Support E-DCH Congestion Detection =0N/AN/AFixed-keep monitoringNoN/AIt is set to be "Support HS-DSCH Congestion Detection" in the following cases: 1: The exterior cell supports the HS-DSCH congestion control function.2: The parameter of ATimeDelay is configured a appropriate value matching the transmission environment, or HS-DSCH service rate may be dropped more.It is set to be "Support E-DCH Congestion Detection" in the following cases: 1: The exterior cell supports the E-DCH congestion control function.2: The parameter of ATimeDelayJitter is configured a appropriate value matching the transmission environment, or E-DCH service rate may be dropped more.If A congestion control function is configured to be "Support", the speed of a service over a related bearer type such as HS-DSCH or E-DCH may try to be adjusted according to the transmission environment between SRNC and the related NodeB.The feature of most RNCs and NodeBs is not stable, so it is configured to "not support".New SessionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->Support R5/R6 Congestion Detection IndicatorexternalUtranCellTutranGpsSptIndN/AN/ATUTRAN-GPS Measurement Support IndicatorThis parameter indicates if the neighboring cell supports TUTRAN-GPS common measurement.External UTRAN CellParameter for future use0: Not Supported; 1: SupportedN/ANot SupportedN/AN/ADon't CareNoN/AThis parameter is not used in current SW versionN/Aat next useN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->TUTRAN-GPS Measurement Support IndicatorexternalUtranCellTxDivIndTx Diversity Indicator; TX Diversity Indicator; Transmit Diversity IndicatorTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.331: "RRC Protocol Specification"TS 25.433: "UTRAN Iub Interface NBAP Signalling"TX Diversity IndicatorThis parameter indicates if the transmit diversity is active in the neighboring cell. It is decided by PSCH/SSCH TSTD indicator, PCPICH STTD indicator and PCCPCH STTD indicator. Only when the three indicators are all active, this parameter will be active, otherwise, this parameter will be inactive.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0: Inactive1: ActiveN/AInactiveN/AN/AFixedNoN/AFunction: neighboring cells's transmit diversity indicatorConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.At next useN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->TX Diversity IndicatorexternalUtranCellURA[4]URA-ID; URA ID; URA IdentityTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.331: "RRC Protocol Specification"TS25.401URA IdentityThis parameter indicates the UTRAN registration area ID. One cell can belong to at most four URAs. Different UEs that reside in this cell can belong to different URA.External UTRAN CellInter_RNC Adjencent cell Basic Parameter0..65535N/AN/AURANum of R8AdjCel, URA[4] of R8AdjCelURA[4] is a list. the max element number of list is 4. the valid element number is URANum .Network Planing&OptimizationNoN/AFunction of this parameter: configure the URA info of neighbour UMTS CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the URA info of the neighbour neighbour UMTS Cell.N/ANew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXXexternalUtranCellURANummaxURATS 25.331: "RRC Protocol Specification"URA NumberThis parameter indicates the number of UTRAN registration areas that the cell belongs to.External UTRAN CellInter_RNC Adjencent cell Basic Parameter1.. MAX_URA, MAX_URA=4N/A1URANum of R8AdjCel, URA[4] of R8AdjCelURA[4] is a list. the max element number of list is 4. the valid element number is URANum .Network Planing&OptimizationNoN/AFunction of this parameter: configure the URA number of neighbour UMTS CellFactors of consideration: This parameter need to be negotiated with the GSM neighbour cell, and configurated according to the URA number of the neighbour neighbour UMTS Cell.The default value is decided by the mobilty of UE and the complexity of network planningNew usersN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->URA NumberexternalUtranCellUUARFCNUARFCN uplink (Nu); UL UARFCN; UARFCN; UTRA Absolute Radio Frequency Channel NumberTS 25.331: "RRC Protocol Specification"TS25.423TS 25.433: "UTRAN Iub Interface NBAP Signalling"; TS 25.401: "UTRAN Overall Description "UUARFCNThis parameter indicates the occupied uplink carrier central frequency point of the cell. It is UTRA absolute radio frequency channel No., corresponding to the central frequency of the carrier used by the uplink channelExternal UTRAN CellInter_RNC Adjencent cell Basic ParameterBand I: 9612..9888 Band II: 9262..9538, 12, 37, 62, 87, 112, 137, 162, 187, 212, 237, 262, 287Band III: 937..1288Band V: 4132..4233, 782, 787, 807, 812, 837, 862Band VI: 4162 ... 4188, 812, 837Band VIII: 2712 ..2863N/A-FreqBandIndDUARFCNN/ANetwork Planing&OptimizationNoN/AFunction: occupied uplink carrier central frequency point of the cellConfiguration Rule: This parameter should be set according to network deployment.This parameter should be set according to operator network deployment.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->External UTRAN Cell->External UTRAN Cell XXX->UUARFCNgsmRelationCIdC-Id; Cell IdentifierTS 25.423: "UTRAN Iur interface RNSAP signalling"TS 25.331: "RRC Protocol Specification"TS 25.401: "UTRAN Overall Description "Cell IdentityCell Identity is valid only in the RNC where the cell locates.UTRAN CellBasic Identification Parameter0..65534N/A-N/AN/ANetwork Planing&OptimizationNoN/AFunction: neighboring GSM Cell IdentifierConfiguration Rule: This parameter should be set according to operator network deployment.This parameter should be set according to operator network deployment.Can't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->UltranCell->GSM Neighbouring Cell XXX->Cell IdentitygsmRelationGsmShareCoverN/AN/AShare Cover IndicationThis parameter describes the neighboring relationship of the serving cell and Gsm neighboring cell.GSM Neighboring CellHandover Control /Load Balance0: Neighbor1: Overlap2: Covers3: Contained inN/ANeighborN/AN/ANetwork Planing&OptimizationNoN/AFunction: relation between UTRAN cell and GSM neighboring cells.Configuration Rule: network model between UTRAN and GSM interactiveIf load balance from UTRAN to GSM is expected, this parameter should be set "Overlap".If inter-rat handover is expected, this parameter could be set "neighbor".This parameter should be set according to operator network deployment.At next useN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->UltranCell->GSM Neighbouring Cell XXX->Share Cover IndicationgsmRelationNPhyGsmCIdN/AN/ANeighboring Physical GSM Cell IdentityThe parameter indicates neighboring physical GSM cell identity., it identifies a cell uniquely. One physical cell corresponds to four logic cell at most.Gsm Cell RelationAdjacent Gsm cell Basic Parameter0.. 2^32-1N/AN/AN/AN/ANetwork Planing&OptimizationNoN/AFunction of this parameter: Unique physical Identify code of Neighbour GSM Cell In Rnc, and related parameter AdjPhyGsmCId must exist in externalGsmCell MO.Factors of consideration: It's recommended that the PhyGsmCid contain the BSC ID and logical GSM Cell IDN/ACan't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->UltranCell->GSM Neighbouring Cell XXXiuCnstTigORTigORTS 25.413: "UTRAN Iu Interface RANAP Signalling"Timer for Ignoring all OVERLOAD Messages or Signalling Point Congested Information(TigOR)(s)Specifies the timer for Ignoring OVERLOAD.While this timer is running, all OVERLOAD messages or signalling point congested information received at the RNC are ignored.RNCIu Flex(0..255)s Step5ss60TinTRTigORConfiguration Management->RNC NE->RNC Radio Resource Management->Logical RNC Associated With PLMN Configuration Information->Logical RNC XXX->Modify Advanced Parameter->Iu Interface Timers and Constants Information->Timer for Ignoring all OVERLOAD Messages or Signalling Point Congested Information(TigOR)iuCnstTinTRTinTRTS 25.413: "UTRAN Iu Interface RANAP Signalling"Timer for Not Allowing to Increase Traffic(TinTR)(s)Specifies the timer for not allowing to increase traffic.While this timer is running, the RNC is not allowed to increase traffic.RNCIu Flex(0..300)s Step 10ss100TigORTigORConfiguration Management->RNC NE->RNC Radio Resource Management->Logical RNC Associated With PLMN Configuration Information->Logical RNC XXX->Modify Advanced Parameter->Iu Interface Timers and Constants Information->Timer for Not Allowing to Increase Traffic(TinTR)nodeBAuditTimerN/AN/ANodeB Resource Audit Timer(100ms)This parameter indicates the audit timer of Node B resource. According to the timer, RNC audits resource in Node B periodly.Node BNode B Management200..65535 Unit: 100ms100ms300, unit: 100msN/AN/AFixedNoN/AMain function: This parameter indicates the audit timer of Node B resource. According to the timer, RNC audits resource in Node B periodly.Influence factor: the timer interval of the NODEB sending audit response periadly; system cost. If the parameter is too big, The RNC may can't get the resource status of the NODEB. If the parameter is too small, The RNC may consumpt too much system cost.The default value is considering all factors: the timer interval of the NODEB sending audit response periadly; system cost.ImmediatelyN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->NodeB Configuration Information->NODEB XXX->Modify Advanced Parameter->NodeB Resource Audit TimernodeBDivContrlFieldDiversity Control FieldTS 25.433: "UTRAN Iub Interface NBAP Signalling"Diversity Control FieldWhen there exists a radio link and needs to build another radio link, this parameters indicates whether the current radio link and the existing radio link will be combined in Node B. If they are combined, the radio link will use the Iub inferface resource of the existing radio link and not setup new FP connection any more.Node BNode B Management0: May1: Must2: Must notN/AMayN/AN/AFixedNoYesFunction: combination of soft handover indicatorConfiguration Rule: softer handover combination gainThere are two combination methods for uplink combination of soft handover: one is maximum ratio combination at the NodeB Rake receiver, which gives the highest combination gain; the other is selective combination at the RNC, which gives a relatively smaller combination gain. When MAY is selected, the NodeB decides whether to implement maximum ratio combination according to its own physical conditionsWhen MUST is selected, the NodeB is forced to carry out maximum ratio combination which is usually used in tests.When MUST_NOT is selected, the NodeB is forbidden to carry out maximum ratio combinationAdjustment suggestion: Not suggest to adjustCombination of soft handover is considered to define this default value.New connectionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->NodeB Configuration Information->NODEB XXX->Modify Advanced Parameter->Diversity Control FieldnodeBNodebNoN/AN/ANodeB No.This parameter indicates the Node B number, which is valid in RNC.Node BBasic Identification Parameter0..65535N/A-N/AN/ANetwork Planing&OptimizationNoN/AMain function: This parameter indicates the Node B number, which is valid in RNC.Influence factor: the value should set by the Newwork Planning&Optimization.NoneCan't ModifyCan't Modify00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->NodeB Configuration Information->NODEB XXX->NodeB No.nodeBNodeBTypeN/AN/ANodeB TypeThis parameter indicates the Node B type.Node BBasic Identification Parameter0: General NodeB1: Pico Node B2: Home NodeBN/A0: General NodeBN/AN/AFixedNoN/AConfiguration Rule: Generally, this parameter is set to "General NodeB"Suggestion for setting this parameter: not suggest to adjustThe parameter should be set to "General NodeB"ImmediatelyN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->NodeB Configuration Information->NODEB XXX->NodeB TypenodeBSuptCgtDetIndN/AN/ASupport R5/R6 Congestion Detection IndicatorThis parameter indicates whether Node B supports R5/R6 congestion detection.Node Bhsupa packet schedulingBit0: Not Support/Support HS-DSCH Congestion Detection (0/1)Bit1: Not Support/Support E-DCH Congestion Detection (0/1)Bit2-Bit7 Reseverd, Fixed 0N/ABit0: Not Support HS-DSCH Congestion Detection (0/1)Bit1: Not Support E-DCH Congestion Detection (0/1)N/AN/AFixed-keep monitoringNoYESIt is set to be "Support HS-DSCH Congestion Detection" in the following cases: 1: The NodeB supports the HS-DSCH congestion control function.2: The parameter of TimeDelay is configured a appropriate value matching the transmission environment, or HS-DSCH service rate may be dropped more.It is set to be "Support E-DCH Congestion Detection" in the following cases: 1: The NodeB supports the E-DCH congestion control function.2: The parameter of ATimeDelayJitter is configured a appropriate value matching the transmission environment, or E-DCH service rate may be dropped more.If A congestion control function is configured to be "Support", the speed of a service over a related bearer type such as HS-DSCH or E-DCH may try to be adjusted according to the transmission environment between SRNC and the related NodeB.The feature of most RNCs and NodeBs is not stable, so it is configured to "not support".New SessionN00N/AView->Configuration Management->RNC NE->RNC Radio Resource Management->NodeB Configuration Information->NODEB XXX->Modify Advanced Parameter->Support R5/R6 Congestion Detection IndicatornodeBTimeDelayN/AN/ATransport Time DelayThis parameter indicates theIub inferface satellite transport delay.There are three time delay levels: 20ms (Low Earth Orbit and Terrestrial transmission), 100ms (Medium Earth Orbit transmission), 250ms (Geostationary Earth Orbit transmission).Node BRAN Transmission Overview /Handover Control /HSUPA Packet Scheduling/Admission ControlOMCR: 20ms, 100ms, 250ms; RNC: 0..2ms20msN/AN/ANetwork Planing&OptimizationNoN/AThe parameter is configuredaccording to the transmission delay from SRNC to NodeB, including: 1: The value 20 is configuredif the transmission environment is about LEO(Low Earth Orbit) or the transmission delay is not more than 20ms .2: The value 100 is configuredif the transmission environment is about MEO(Medium Earth Orbit) or the transmissiondelay between SRNC and NodeB is between 20ms and 100ms .3: The maximum value is configuredif the transmission environment is about GEO(Geostationary Earth Orbit) or the transmission delay between SRNC and NodeB is more than 100ms .If the value of the parameter is too small, the maxium bit rate of a service may be not be fulfilled, the HS-DSCH/E-DCH congestion detection action may be triggered more easily and the quality of service with HS-DSCH/E-DCH would be dropped.If the value of the parameter is too large, the buffer of a RNC and UE may be applied too high, the HS-DSCH/E-DCH congestion detection action may be triggered less easily and the quality of service with HS-DSCH/E-DCH would be dropped.If the value of the parameter is configured falsely in respective NodeB, the action of a soft/hard handover would be processed falsely and the quality of service would be dropped.according to the transport delay from a RNC to a related NodeB that ATM/IP is usually be used.Immediately to cell.New SessionY03The Related common transport channel will be reconfiged.View->Configuration Management->RNC NE->RNC Radio Resource Management->NodeB Configuration Information->NODEB XXX->Transport Time DelaynodeBTimeDelayJitterN/AN/ATransport Time Delay Jitter(ms)This parameter indicates the Iub interface transport delay jitter. Radio network lay user-plane will add jitter to TOAWS in FP SETUP procedure.Node BRAN Transmission Overview /HSUPA Packet Scheduling0..100msms5msN/AN/ANetwork Planing&OptimizationNoN/AThe protocol parameter TOAWS is configured according to the OMCR parameters of TOAWS and jitter. The function of the protocal paramter TOAWS is to control the earliest acceptable arrival time of a FACH DATA FP in a NodeB.The parameter of TOAWS is configured according to the faculty of processing PCH/FACH/DCH FPs in a RNC.The parameter of jitter is configured according to the transport delay jitter from a RNC to a related NodeB.If the value of the OMCR parameters of TOAWS and jitter is too small, NodeB can not response a Timing Adjustment Control Frame to RNC in time , the probability that a PCH/FACH/DCH data can not be sent on uu interface would be increased and the quality of service with PCH/FACH/DCH channel such as a paging type1, RRC CONNECTION SETUP, signalling and data wth FACH/RACH or downlink DCH would be dropped.If the value of the parameter is too large, The NodeB would store more PCH/FACH/DCH DATA FPs and the delay of service with PCH/FACH/DCH channel such as a paging type1, RRC CONNECTION SETUP, signalling and data wth FACH/RACH or downlink DCH would be increased more.The protocol pa