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NSN诺西LTE配置详解
参数英文名称功能描述（参数功能原理简介）adIpNoId mainMmeIpAddrPrim mainMmeIpAddrSec mainMmeMainCodeThis parameter is the naming attribute of MOC ADIPNO. This parameter holds the transport network IP address of the Mobility Management Entity (MME) primary interface This parameter holds the transport network IP address of the Mobility Management Entity (MME) secondary interface MME Code contained in main GUMMEI of the Main MMEmainMmeMainGroupId Group Id contained in main GUMMEI of the Main MME mainMmeMainMcc mainMmeMainMnc Mobile Country Code contained in main GUMMEI of the Main MME Mobile Network Code contained in main GUMMEI of the Main MMEmainMmeMainMncLength Length of Main Mobile Network Code of the Main MME mmeIpAddressList mmeIpAddrPrim List of transport network Ip Addresses (IPv4) of up to 15 further MMEs in addition to the Main MME This parameter holds the transport network IP address of the Mobility Management Entity (MME) primary interface This parameter holds the transport network IP address of the Mobility Management Entity (MME) secondary interface MME Code contained in main GUMMEI of the MMEmmeIpAddrSecmmeMainCodemmeMainGroupIdGroup Id contained in main GUMMEI of the MMEmmeMainMccMobile Country Code contained in main GUMMEI of the MMEmmeMainMnc mmeMainMncLength cellTraceRepMode ctrlTsId extCellTraceRep extTraceReportingMobile Network Code contained in main GUMMEI of the MME Length of Main Mobile Network Code of the MME Specifies the trace reporting mode used by OMS for sending Trace Reports for Cell Trace Sessions (Cell Traffic Trace) to NetAct. This parameter is the naming attribute of the MOC CTRLTS. It uniquely identifies a Trace Control instance. Trace reporting support to 3rd Party Tool for Cell Trace. This indicates the support for sending trace reports to 3rd Party address for Cell Traffic Tracing. Trace reporting support to 3rd Party Tool. This indicates the support for sending trace reports to 3rd Party address. Trace reporting support to 3rd Party Tool for Subscriber & Equipment Trace. This indicates the support for sending trace reports to 3rd Party address for Subscriber & Equipment Trace.extUeTraceRepmacTracingmaxUeTraceSessions netActIpAddr omsTracePortNumSupport for tracing MAC protocol information as part of vendor specific extension tracing This indicates support for MAC tracing as part of support for vendor specific extensions tracing. The maximum number of UE trace sessions allowed. This parameter indicates the maximum number of active subscriber or UE trace sessions that can be supported by eNB. NetAct IP address The Trace Port Number to be used while establishing trace connection (TCP) towards OMS/iOMS. Support for tracing RLC protocol information as part of vendor specific extension tracing This indicates support for RLC tracing (part of vendor specific extensions trace support). This parameter describes whether tracing of instantaneous TA value as part of vendor specific extension tracing is enabled or not. The Trace Port Number to be used while establishing trace connection (TCP) towards 3rd Party Tool. Trace reporting mode to be used by OMS for sending trace reports to NetAct. This is the trace reporting mode used at OMS for sending trace reports to NetAct. This indicates if there are any active UE trace sessions running within eNB. This parameter indicates if there are any active UE trace sessions currently running within eNB. Specifies the trace reporting mode used at OMS for sending Trace Reports for User Trace Sessions (Subscriber & Equipment trace) to NetAct. Support for vendor specific extension tracing (at present only RLC and MAC tracing supported) Mobile Country Code in PLMN identity included in GU group ID. MCC and MNC build a unique PLMN ID. GERAN cell reselection timer This parameter uniquely dentifies a GFIM (GERAN frequency Idle Mode Configuration) managed object. The field t-ReselectionGERAN is multiplied with this factor if the UE is in the high mobility state as defined in 36.304 The field t-ReselectionGERAN is multiplied with this factor if the UE is in the medium mobility state as defined in 36.304. The parameter &Speed dependent ScalingFactor for TreselectionGERAN N& in TS 36.304. If the field is not present, the UE behaviour is specified in TS 36.304 This is an indicator to distinguish the GERAN frequency band in case of ARFCN values associated with either GSM 1800 or GSM 1900 carriers. For ARFCN values not associated with one of those bands, the indicator is not relevant. Each ARFCN value explicitly listed Identifies GNFL (GERAN Neighbour Frequency List Configuration) managed object Absolute priority of the GERAN carrier frequency Equal priorities between RATs are not supported according to [3GPP 36.304].rlcTracingtaTracing tceTracePortNumtraceRepModeueActiveTrcSessFlagueTraceRepMode vendorSpecTracing mcc tResGer gfimId gerResTiFHM gerResTiFMM tResGerSFbandIndgerArfcnVal gnflIdgCelResPriogerFrqThrH gerFrqThrLThis specifies the threshold used by the UE when reselecting towards a higher priority frequency X than the currently serving frequency This specifies the threshold used in reselection towards frequency X priority from a higher priority frequencynccpermA field encoded as a bitmap, where bit N is set to &0& if a BCCH carrier with NCC = N-1 is not permitted for monitoring, and set to &1& if the BCCH carrier with NCC = N-1 is perm N = 1 to 8; bit 1 of the bitmap is the leading bit of the bit string.pMaxGerqRxLevMinGer gtpuIdThis is the maximum allowed transmission power for GERAN on an uplink carrier frequency. Applicable for the neighbouring GERAN cells on this carrier frequency. If pmaxGERAN is absent, the maximum power according to the UE capability is used. This specifies the minimum required RX level in the cell in dBm This parameter is the naming attribute of MOC GTPU This parameter holds the number of unanswered GTP-U ECHO REQUESTs (within the time defined by parameter t3Response), after which a GTP-U path failure is declared. The parameter is only relevant in case GTPU path supervision is switched ON (parameter gtpuPathSupint has a non-zero value). This parameter holds the time interval between sending GTP-U ECHO REQUESTs, used for GTP-U user data path supervision on the S1 and X2 interfaces. It defines also if data path supervision is ON OFF. holds the maximum waiting time for GTP-U Thisor parameter ECHO RESPONSE messages, used for GTP-U data path supervision on the S1 and X2 interfaces. This parameter is only relevant in case GTP-U path supervision is switched ON (parameter gtpuPathSupint has a non-zero value). Transport network IP address of the serving SAE gateway (S-GW) for which datapath supervision is switched on. Format: in this release each address is an IPv4 IP address in the dotted decimal form List of IP addresses of serving SAE SGWs to be supervised. This parameter uniquely Identifies an IAFIM (Intra-Frequency Idle Mode configuration) managed object. Defines the intra-frequency blacklisted cell list. Intra-frequency neighbouring cell list Defines the intra-frequency neighbouring cell list. The Physical Cell Identifier is a unique cell identification in a neighboring cell listgtpuN3ReqsgtpuPathSupintgtpuT3RespsgwIpAddresssgwIpAddressList iafimId intrFrBCList intrFrNCList physCellIdNclqOffsetCellThe parameter defines a cell-specific offset (in dB) that is used in the cell reselection procedure.rangeIntraPciIndicates the number of PCIs in the range (including startPCI). Value n4 corresponds with 4, n12 corresponds with 12 and so on. The UE applies value 1 if the field is absent, in which case only the physical cell identity value indicated by start applies.startIntraPciIndicates the lowest PCI in the range The parameter &Speed dependent ScalingFactor for TreselectionEUTRAN& in TS 36.304. If the field is not present, the UE behaviour is specified in TS 36.304 eUTRA Frequency (max value ref to 3GPP 36.331 chapter 6.4) as EARFCN value Absolute priority of the EUTRA carrier frequency Equal priorities between RATs are not supported according to [3GPP 36.304]. The field t-ReselectionEUTRA is multiplied with this factor if the UE is in the High Mobility state as defined in 36.304 The field t-ReselectionEUTRA is multiplied with this factor if the UE is in Medium Mobility state as defined in 36.304. This specifies the threshold used by the UE when reselecting towards a higher priority frequency X than the currently serving frequency This specifies the threshold used in reselection towards frequency X priority from a higher priority frequency Defines the inter-frequency blacklisted cell list. This is a list of neighbouring cells with specific values for idle mode mobility parameters This parameter uniquely identifies an IRFIM (Inter-frequency Idle Mode configuration) managed objects. The IE PresenceAntennaPort1 is used to indicate whether all the neighboring cells use Antenna Port 1. When set to TRUE, the UE may assume that at least two cell-specific antenna ports are used in all neighboring cells. EUTRA Cell Reselection TimertResEutSF dlCarFrqEuteutCelResPrioeutResTiFHM eutResTiFMM interFrqThrH interFrqThrL intFrBCList intFrNCList irfimIdinterPresAntPinterTResEutmeasBdwphysCellIdNclpMaxInterFThe IE AllowedMeasBandwidth is used to indicate the maximum allowed measurement bandwidth common for all neighbouring cells on a carrier frequency. The values mbw6, mbw15, mbw25, mbw50, mbw75, mbw100 indicate 6, 15, 25, 50, 75 and 100 resource blocks respectively. The Physical Cell Identifier is a unique cell identification in a Neighbouring Cell List. It is used to indicate the physical layer identity of the cell, as defined in TS 36.211 Pmax to be used for the neighbouring E-UTRA cells on this carrier frequency. If Pmax is absent, the maximum power according to the UE capability is used.qOffCellThe parameter defines a cell-specific offset (in dB) that is used in the cell reselection procedure. This specifies the offset between two cells.qOffFrqFrequency specific offset for equal priority E-UTRAN frequencies.qRxLevMinInterFSpecifies the minimum required Rx RSRP level for the neighbouring EUTRA cells on this carrier frequency. Indicates the number of PCIs in the range (including startPCI). Value n4 corresponds with 4, n12 corresponds with 12 and so on. The UE applies value 1 if the field is absent, in which case only the physical cell identity value indicated by start applies.rangeInterPcistartInterPci mcc adjEnbId cPlaneIpAddrIndicates the lowest PCI in the range Mobile Country Code in the primary PLMN ID of neighbor eNB. MCC and MNC build the PLMN ID. If ?enbId? is not provided then the associated ?Global eNB Id? is a ? partially specified Global eNB Id?, i.e.: All ?Global eNB Ids? with a PLMN ID which is identical to the associated 'X2 Blacklisted PLMN ID' are considered as members of the 'Global eNB Id X2-link Blacklist'. The parameter determines whether the C-Plane IP address of the neighbor eNB (X2 link) is statically configured or whether eNB is allowed to update the address based on information provided by ANR procedures. oamControlled X2 link: It is the responsibility of the operator to configure the correct cPlaneIpAddr. In terms of the limitation to maximum 32 X2 links oam controlled links have priority. enbControlled X2 link: The IP address will be maintained by ANR procedures if ANR features are activated. It is the default value for neighbor eNBs which have been learnt via ANR procedures. This is a globally unique group identification of the MME(s) connected to the neighbor eNB. The ID is received during the X2 setup procedure for the respective X2 link from the neighboring eNB.is the instance identifier of the object LNADJ. This parameter This appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. It is highly recommended to use for object creation the lowest free lnAdjId value within all LNADJ instances of an eNB. This is to avoid rejection of plan file activation due to colliding lnAdjId values if an LNADJ instance is automatically created by eNB because of activated ANR features. MME group ID included in GU group ID. Mobile Network Code in PLMN identity included in GU group ID. MCC and MNC build a unique PLMN ID. Mobile Network Code in the primary PLMN ID of the neighbor eNB. MCC and MNC build the PLMN ID. The parameter provides information whether the X2 link is successfully established. Mobile Country Code included in the PLMN ID of the GERAN neighbour cell (Part of GERAN global cell ID; CGI) This is the primary PLMN ID of the neighbor eNB. The parameter adjEnbId and plmnId form the globally unique eNB ID. Bandindicator Value of the GERAN neighbour cell (Part of CarrierFrequency) BaseStation Colour Code of GERAN neighbour cell (Part of PhysicalCellId) Cell Identity of GERAN neighbor cellcPlaneIpAddrCtrlguGroupIdListlnAdjIdmmeGroupId mnc mnc x2LinkStatusmccplmnId bandIndicatorGeran basestationColourCodegTargetCi (Part of GERAN global cell ID; CGI)LAC of GERAN neighbour cell (Part of GERAN global cell ID; CGI) gTargetLac used as described in TS36.413 section 9.2.1.6 &0000 and FFFE not allowed.& GeranTarget_INDEX uniquely identifies a set of GERAN neighbour cell parameters within an eNB. Used by the operator on the cell level to associate an GERAN neighbour cell to a particular LTE cell Mobile Network Code included in the PLMN ID of the GERAN neighbour cell (Part of GERAN global cell ID; CGI) Mobile Country Code in broadcast PLMN ID of the cell served by the neighbor eNB. MCC and MNC build a unique PLMN ID. Network Colour Code of GERAN neighbour cell (Part of PhysicalCellId) Network Control Order Value of the GERAN neighbor cell, where the different parameter value mean: NC0: Normal UE control NC1: UE control with measurement reports NC2: Network control RESET: The UE shall return to the broadcast parameters. This Parameter contains the GERAN Systeminformation which shall be included in the RRC MOBILITYFROMEUTRANCOMMAND message Al least one instance of the parameter must be configured if SystemInformationType has the values “si” or “psi”. systemInfoListGeran It shall not be configured if SystemInformationType has the value “none” Constant value maxGERAN-SI is defined in 3GPP TS36.331 section 6.4 The 23 octet 3GPP parameter must be added as character string in hexadecimal notation with leadingto '0x', wherewhich for each octet This Parameter is set by Operator indicate type of two GERAN Systeminformation (if any) shall be included in the RRC MOBILITYFROMEUTRANCOMMAND message ARFCN Value of the GERAN neighbour cell (Part of CarrierFrequency) Uplink and Downlink configuration for each subframe in a radio frame supported by neighbour eNB. Broadcast PLMN ID of the cell served by the neighbor eNB. Up to 6 different PLMN IDs per served cell can be broadcast. bcPlmnIdList At least one entry with the primary PLMN ID of the neighbor eNB is mandatory required in the list. cpConfDL cpConfUL ecgiAdjEnbId Adjacent cyclic prefix configuration in DL Adjacent cyclic prefix configuration in UL This parameter is the Macro eNB identifier which is part of the EUTRAN Cell Global Identifier (ECGI) of the neighbor cell.lnAdjGIdmncmcc networkColourCodenetworkControlOrdersystemInfoType arfcnValueGeran ulDlConfTDecgiLcrId ecgiPlmnId fDlEarfcnThis parameter is the local cell resource ID which is part of the EUTRAN Cell Global Identifier (ECGI) of the neighbor cell. This parameter is the primary PLMN ID which is part of the EUTRAN Cell Global Identifier (ECGI) of the neighbor cell. Downlink EARFCN of the FDD or TDD cell served by neighbor eNB. This is the instance identifier of the object LNADJL. This parameter appears only in the distinguished name (DN) in the plan file and is used for O&M purposes. It is highly recommended to use for object creation the lowest free lnAdjlId value within all LNADJL instances subordinate to an LNADJ object. This is to avoid rejection of plan file activation due to colliding lnAdjlId values if an LNADJL instance is automatically created by eNB because of activated ANR features. Mobile Country Code in PLMN Identity included in ECGI of the cell served by neighbour eNB. MCC and MNC build the plmn Id of ECGI. Mobile Network Code in broadcast PLMN ID of the cell served by the neighbor eNB. MCC and MNC build a unique PLMN ID. Mobile Network Code in PLMN Identity included in ECGI of the cell served by neighbour eNB. MCC and MNC build a plmn Id of ECGI. Country Code of the primary PLMN ID. Mobile This is the physical cell ID of the cell served by the neighbor eNB. The parameter provides information whether the object creation or latest update was based on plan file (OM), X2 information (X2) or UE specific ANR measurements (UE).lnAdjlIdmcc mnc mnc mcc phyCellId sourceOfDataspcSubConfTDSpecial subframe configuration supported by neighbour eNBtactrmBwTDThis is the tracking area code of the cell served by the neighbor eNB. Uplink and Downlink transmission bandwidth of cell served by neighbour eNB. The enumerated values correspond to the number of resource blocks &NRB&. The parameter indicates if PCI/freq duplication has been detected by eNB: If the same PCI value is already in use for the same frequency, this parameter is set to 'false'. The object with 'Validity of Configuration Data' set to 'false' will be ignored by eNB procedures. Uniquely identifies a UTRAN neighbour cell within an eNB. Mobile Country Code of the secondary PLMN ID. Mobile Network Code of the primary PLMN ID. Mobile Network Code of the secondary PLMN ID.validityOfDatalnAdjWId mcc mnc mncdlPollByteAM RLC Poll Byte value in DL direction for UE category 1.primaryPlmnId secondaryPlmnIdLsrvccHoInduTargetCiduTargetFrequTargetLacuTargetRacuTargetRncIduTargetScFddactBbuHotelling actCellTrace actCiphering actConvVoiceThis parameter is the primary PLMN ID which is part of the UTRAN Cell Global Identifier (CGI) of the neighbor cell. Identifies the secondary PLMNs to which a neighbouring UTRAN cell belongs. Multiple PLMNs may be specified. This parameter selects if SRVCC to a WCDMA target cell shall be performed as a combined PS and CS SRVCC or whether SRVCC shall be performed for the CS bearer only. This parameter must be configured individually for every WCDMA cell which shall be used as target for SRVCC. Target C-ID Uniquely identifies a neighbouring cell within the RNC. Required (together with the RNC ID) for the Source RNC To Target RNC Transparent Container IE in the S1AP: HANDOVER REQUIRED message during handover to UTRAN Target Frequency Target Frequency provides the DL Carrier Frequency of the neighbouring UTRAN cell. Received from RRM-CMC in the TCL, which together with the primary scrambling code identifies a neighboring UTRAN cell Target Location Area Code UtranTarget_LAC provides the Location Area Code identifying the Location Area of a neighbouring UTRAN cell. Required for the S1AP: HANDOVER REQUIRED message during handover to UTRAN Target Routing Area Code UtranTarget_RAC provides the Routing Area Code identifying the Routing Area of a neighbouring UTRAN cell. Required for the S1AP: HANDOVER REQUIRED message during handover to UTRAN Target RNC ID Uniquely identifies of a neighbouring UTRAN RNC within the primary PLMN. Required for the S1AP: HANDOVER REQUIRED message during handover to UTRAN. Primary Scrambling Code (FDD) Of The Neighbouring UTRAN Cell UtranTarget_SC_FDD: The primary scrambling code (FDD) of the neighbouring UTRAN cell. Received from RRM-CMC in the TCL, which together with the cell frequency identifies a Defines usage of BBU hotelling feature. This is a feature flag to enable or disable Cell Trace feature. This parameter enables/disables optional ciphering algorithms. This parameter activates the support of the conversational voice bearer. The change becomes active for a cell after the next cell locking/cell unlocking sequence.actCsfbPsHoToUtraThis parameter activates the feature 'Circuit Switched Fallback with Packet Switched Handover to UTRA'. The parameter activates the feature 'Circuit Switched Fallback to UTRAN or GSM via Redirection'. If the feature is activated, mobile originated and mobile terminated CS calls are redirected to targets which are to be configured via REDRT objects. The parameter actDistributedSite allows usage of Distributed Site. That is, a RF unit may lie up to 20 km distance from the system module. The parameter activates the feature 'Emergency Call Via Redirection'. The feature can be only activated if at least one redirection target for UTRAN or GSM has been created before. This parameter enables the feature LTE442 Network Assisted Cell Change from LTE to GSM Activates ETWS support If ETWS support is set to true, ETWS primary and secondary notification are broadcasted (SIB10 and SIB11) in case of WriteReplace Warning Request incl. ETWS data is received from MME This parameter activates the feature 'GSM redirect with system information'. This parameter enables the feature Handover from LTE to TDSCDMA. This parameter enables the feature Handover from LTE to WCDMA This parameter enables the feature Inter Frequency Handover This parameter activates the support IMS Emergency sessions for Release 9 UEs. Activation/deactivation of Location Reporting (feature 'Support of cell based location service') This parameter enables the feature Intra LTE Inter eNodeB Handover via S1 This parameter activates the support of multiple EPS Bearers.actCSFBRediractDistributedSiteactEmerCallRediracteNACCtoGSMactETWSactGsmRedirWithSI actHOtoTdscdma actHOtoWcdma actIfHo actIMSEmerSessR9 actLocRep actLTES1Ho actMultBearers actNonGbrServiceDiffThis parameter activates the Service Differentiation for non-GBR Bearers. This parameter activates the support the establishment of EPS actOperatorQCI bearers with QCI in the range of 128…254. This parameter activates the usage of PDCP Robust Header actPdcpRohc Compression. The parameter activates the feature 'Periodic Intra-Frequency UE Measurements'. actPeriodicIntraUeMeas Feature-activation per cell in SC LTE UEC is handled within eNB by the related parameter activateM see also &Related Parameters& and &Description of Parameter Relationships&. This parameter enables the feature UE context release with actRedirect redirect. This parameter indicates whether S1 Flex feature is enabled or actS1Flex disabled. This parameter activates the feature 'S1 Overload Handling' actS1OlHandling Note: In RL25 the only supported value for this parameter is 'false'. The parameter activates the feature 'Selective Mobility Profiles'. actSelMobPrf Note: In RL25 the only supported value for this parameter is 'false'.actSrvccToWcdma actSubscriberTraceThis parameter enables the feature SRVCC from LTE to WCDMA. Note:is In the only supported value for this parameter is 'false'. This a RL25 feature flag to enable or disable Subscriber & Equipment Trace feature.This parameter indicates if the 'Intra-LTE Intra-Frequency UEactUeBasedAnrIntraFreqLte based ANR' feature is activated by the operator. amRlcPBTab1 AM RLC Poll Byte Table for UE Category 1. It is used to obtain the UL pollByte and DL pollByte values for UE category 1. AM RLC Poll Byte Table for UE Category 2. It is used to obtain the UL pollByte and DL pollByte values for UE category 2. AM RLC Poll Byte Table for UE Category 3. It is used to obtain the UL pollByte and DL pollByte values for UE category 3. AM RLC Poll Byte Table for UE Category 4. It is used to obtain the UL pollByte and DL pollByte values for UE category 4. AM RLC Poll Byte Table for UE Category 5. It is used to obtain the UL pollByte and DL pollByte values for UE category 5. Optional feature flag for feature LTE492 ANR support for LTE with O&M extension Reset request for BTS. Whenever a (delta-)plan modifiying or setting this parameter is downloaded, BTS will reset automatically. This parameter is not intended for use by operator, but will be used by NetAct to perform automatic troubleshooting actions, which require a reset of the BTS. It is recommended to fill this parameter with the current time stamp in the format YYYYMMDD hhnnss, so that the time of the last reset request is AS documented. A list of supported ciphering algorithms. The algorithm is identified by the parameter name, and the assigned value determines the algorithm preference. This parameter indicates the counter group to which the QCI belongs DelayTarget is the maximum packet delay value used by the eNB MAC scheduling algorithm. Downlink EARFCN of the neighbour cell included in the 'pciIpAdrMap' The parameter defines the maximum CQI offset in Outer Loop Link Quality Control (OLQC) for Downlink.amRlcPBTab2amRlcPBTab3amRlcPBTab4amRlcPBTab5 anrOmExtEnablebtsResetRequestcipherPrefLcounterGroupdelayTarget dlEarfcn dlOlqcDeltaCqiMaxdlPollByteAM RLC Poll Byte value in DL direction for UE category 2.dlPollByteAM RLC Poll Byte value in DL direction for UE category 3.dlPollByteAM RLC Poll Byte value in DL direction for UE category 4.dlPollByteAM RLC Poll Byte value in DL direction for UE category 5.drxProfileIndexThis parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest prioritydrxProfileIndexdrxProfileIndexdrxProfileIndexdrxProfileIndexdrxProfileIndexdrxProfileIndexdrxProfileIndexdrxProfileIndexdrxProfileIndexThis parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with the highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for a UE, the eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with the highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for a UE, the eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with the highest priority This parameter specifies the ID of the corresponding DRX profile If several EPS bearers are established for an UE, eNB compares the DRX profiles of the QCIs used for those EPS bearers and selects the DRX profile with highest priority This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46)dscpThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46) This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46)dscpdscpThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46) This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46)dscpdscpThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46) This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46)dscpdscpThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46) This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46)dscpdscpThis parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DSCP value will be set in each IP packet sent for the related bearer to S-GW or target eNB. List of IETF based DSCP values (numerical values in decimal): BE (=0), AF11 (=10), AF12 (=12), AF13 (=14), AF21 (=18), AF22 (=20), AF23 (=22), AF31 (=26), AF32 (=28), AF33 (=30), AF41 (=34), AF42 (=36), AF43 (=38), EF (=46) Macro eNB Id of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed. Null ciphering algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm. SNOW 3G-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm. AES-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm. Null integrity protection algorithm preference. A lower value represents a lower preference and 0 does not admit the algorithm. SNOW 3G-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm. AES-based algorithm preference. A lower value represents a lower preference, and 0 does not admit the algorithm. ARP priority level used by PLMN ID for emergency sessions. The range of the ARP priority level is 1 to 15 with 1 as the highest level of priority. For emergency sessions, only ARP priority levels 1-8 may be applied (cf. also to 3GPP TS23.203) Indication if PLMN ID supporting emergency sessions also supports limited service mode Mobile Country Code of PLMN ID supporting emergency sessions Mobile Network Code of PLMN ID supporting emergency sessionsdscpenbId eea0 eea1 eea2 eia0 eia1 eia2emerSessArpPrioLevemerSessLimServemerSessMccemerSessMncemerSessMncLenLength of MNC of the PLMN ID supporting emergency sessionsThe parameter enables the feature &Automatic locking&. If the feature is enabled, objects are automatically locked and unlocked by eNB if a parameter which requires object locking is modified via delta plan file. If graceful shutdown is enabled by setting enableGrflShdn to 'enabled', the less service impacting but slower graceful cell shutdown procedure is performed instead of immediate locking. The parameter enables the feature 'Graceful Cell Shutdown'. If the feature is activated an additional administrative state 'shuttingdown' is supported. It allows a less service impacting cell locking. Before entering 'locked' state of the cell the UEs will be motivated to leave the cell by stepwise reduction of the eNodeB cell TX power (DL power). Unique macro eNB ID of the neighbor eNB within the Primary PLMN serving the neighbour cell indicated in the PCI-IP Map entry. This is a human-readable name for the eNB. It corresponds to the eNB name according to 3GPP 36.413. The character set is restricted to Printable string according to 3GPP with following supported character: lower case letters 'a' through 'z', upper case letters 'A' through 'Z', the digits '0' through '9' and the characters ' = ( ) + , - . / : ? and space. Duration during which an ETWS primary Notification shall be broadcasted As the broadcast parameter delivered with Write-Replace Warning Request are not to be used for ETWS primary notification (SIB10), the broadcast duration has to be administered.enableAutoLockenableGrflShdnenbIdenbNameetwsPrimNotifBcDurThis list includes the Global eNB IDs of those neighbour eNBs for glbNbEnbIdX2LinkBlacklist which the X2-link establishment is forbidden by the operator. imsEmerPlmnConfig integrityPrefL ipAdr keyRefrMarg PLMN related configuration parameter for support of emergency sessions A list of supported AS integrity protection algorithms. The algorithm is identified by the parameter name, and the assigned value determines the algorithm preference. X2 C-plane V4 IP address of the eNB serving the cell included in the 'pciIpAdrMap' Defines a threshold for PDCP COUNT supervision. If the remaining COUNT space becomes less than this threshold, the eNB key hierarchy should be refreshed. Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according [36.321]lcgidlcgidlcgidlcgidlcgidlcgidlcgidlcgidlcgidlcgidlnBtsId mcc mcc mcc mnc mnc mncnSrsDtx nSrsRec nullFallbackLogical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for the configuration of the buffer status reports of the UE according to [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of the UE according to [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for the configuration of the buffer status reports of the UE according to [36.321] Logical Channel Group Identifier for buffer status reporting This parameter is used for configuration of the buffer status reports of UE according to [36.321] Instance identifier of object Macro eNB and used also as telecom parameter of the 3GPP 'Macro eNB ID', which is part of Global eNB ID. In addition it appears as distinguished name (DN) in the planning data at the Element Manager. Primary Mobile Country Code of eNB. Mobile Country Code included in the Primary PLMN ID of the neighbour eNB serving the cell provided in the PCI-IP Map entry Mobile Country Code of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed. This is the primary Mobile Network Code of the eNB. Mobile Network Code included in the Primary PLMN ID of the neighbour eNB serving the cell provided in the PCI-IP Map entry Mobile Network Code of the Global eNB Id of a neighbour eNB towards which no establishment of an eNB Controlled X2-link is allowed. The parameter defines number of consecutive SRS DTX detections causing radio link failure indication. Special value 0 means that the feature is disabled. The parameter defines number of consecutive SRS non-DTX detections causing radio link failure recovery indication This parameter determines whether a fallback to null ciphering caused by eNB limitations should be accepted (True) or not (False).operationalStateOperational state of the eNB, the value is set by system.pbrNonGbrPrioritized Bit Rate for non-GBR bearers This prioritized bit rate is used by UE for the UL scheduling algorithm according [36.321]. The unit of prioritized bit rate is kilobytes per second.pci pciIpAdrMap pdcpProf1 pdcpProf101 pdcpProf102 pdcpProf2 pdcpProf3 pdcpProf4 pdcpProf5 pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfIdx pdcpProfileId pdcpProfileIdPhysical Cell Identity of the neighbour cell included in the 'pciIpAdrMap' Provides the mapping from cell parameters {dlEarfcn, pci} to the {ipAdr} of the eNB serving this cell, where 'ipAdr' is the IP address required for X2-link establishment. Profile of PDCP parameters Structure {pdcpProfileId,tDiscard,statusReportReq}. Profile 1 of PDCP parameters for RLC UM data radio bearers Profile 2 of PDCP parameters for RLC UM data radio bearers Profile 2 of PDCP parameters for RLC AM data radio bearers Profile 3 of PDCP parameters for RLC AM data radio bearers Profile 4 of PDCP parameters for RLC AM data radio bearers Profile 5 of PDCP parameters for RLC AM data radio bearers This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. This parameter specifies the ID of the corresponding PDCP profile. Identity of the PDCP 0 specifies an invalid dummy profile. Identity of the PDCP profilepdcpProfileId pdcpProfileId pdcpProfileId pdcpProfileId pdcpProfileId pollPduIdentity of the PDCP profile Identity of the PDCP profile Identity of the PDCP profile Identity of the PDCP profile Identity of the PDCP profile This parameter specifies the parameter pollPDU of [36.331] The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set. This parameter specifies the parameter pollPDU of [36.331] The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set.pollPdupollPdupollPdupollPdu prio prio prio prio prio prioThis parameter specifies the parameter pollPDU of [36.331] The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set. This parameter specifies the parameter pollPDU of [36.331] The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set. This parameter specifies the parameter pollPDU of [36.331] The parameter Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set. This parameter gives the priority of the EPS bearer according TS23.203. This parameter gives the priority of the EPS bearer according TS23.203. This parameter gives the priority of the EPS bearer according TS23.203. This parameter gives the priority of the EPS bearer according TS23.203. This parameter gives the priority of the EPS bearer according TS23.203. This parameter gives the priority of the EPS bearer according TS23.203. This parameter is used to define priorities between the 3 topology options for intra LTE handover, which are 1) Intra eNB HO 2) HO via X2 3) HO via S1 It's assumed that Intra eNB HO can not have lower priority than any other topology and S1 HO can not have higher priority than any other topology. Four relations are possible: 1) all topologies have the same priority -& &all equal& 2) intra eNB HO is prioritized over inter eNB HO where X2-based HO and S1-based HO are not discriminated -& &intra eNB HO prior inter eNB HO& 3) intra eNB HO is prioritized over inter eNB HO where X2-based HO is prioritized over S1-based HO -& &intra prior X2 prior S1& 4) intra eNB HO and X2-based handover are not discriminated but S1-based if HO takes lower priority than the others and/or -& &low prio S1& Indicates the Public Warning Systems (ETWS CMAS) make use of Emergency Area IDs. If ETWS or CMAS service is activated, then provision of this parameter is mandatory.prioTopoHOpwsWithEmAreaIdIf 'pwsWithEmAreaId' is true, then for each eNB cell provision of 'Emergency Area ID' is mandatory. If a Warning Message including 'Emergency Area IDs' is received by eNB and 'pwsWithEmAreaId' is 'false' then this Warning Message shall not be broadcasted by eNB. This parameter gives the priority of the EPS bearer according TS23.203. This parameter gives the priority of the EPS bearer according to TS23.203. This parameter gives the priority of the EPS bearer according TS23.203. QoS Class Identifierprio prio prio qciqci qci qci qci qci qci qci qci qci qciSupp qciSupp qciSupp qciSupp qciSupp qciSupp qciSupp qciTab1 qciTab2 qciTab3 qciTab4 qciTab5 qciTab6 qciTab7 qciTab8 qciTab9 qciTabOperator qciSupp qciSupp qciSuppQoS Class Identifier QoS Class Identifier QoS Class Identifier QoS Class Identifier QoS Class Identifier QoS Class Identifier QoS Class Identifier QoS Class Identifier QoS Class Identifier This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled Table to translate the S1AP parameter QCI 1 into QCI characteristics Table to translate the S1AP parameter QCI 2 into QCI characteristics Table to translate the S1AP parameter QCI 3 into QCI characteristics Table to translate the S1AP parameter QCI 4 into QCI characteristics Table to translate the S1AP parameter QCI 5 into QCI characteristics Table to translate the S1AP parameter QCI 6 into QCI characteristics Table to translate the S1AP parameter QCI 7 into QCI characteristics Table to translate the S1AP parameter QCI 8 into QCI characteristics Table to translate the S1AP parameter QCI 9 into QCI characteristics Table to translate the S1AP parameter QCI into QCI characteristics for operator-specific QCIs This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled This parameter indicates whether the given QCI is supported and enabled The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.resTyperesTyperesTyperesTyperesTyperesTyperesTyperesTyperesTyperesTypeThe Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether a bearer is a GBR or a NON-GBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether a bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. The Resource Type indicates whether bearer is a GBR or NONGBR bearer. The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated. This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearerrlcMode rlcMode rlcMode rlcMode rlcMode rlcModerlcMode rlcProf1 rlcProf101 rlcProf102 rlcProf2 rlcProf3 rlcProf4 rlcProf5 rlcMode rlcMode rlcMode rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfIdx rlcProfileId rlcProfileId rlcProfileId rlcProfileIdThis parameter configures the RLC Mode of the data radio bearer Profile 1 of RLC parameters for DRBs in RLC AM mode Profile 101 of RLC parameters for DRBs in RLC UM mode Profile 2 of RLC parameters for DRBs in RLC UM mode Profile 2 of RLC parameters for DRBs in RLC AM mode Profile 3 of RLC parameters for DRBs in RLC AM mode Profile 4 of RLC parameters for DRBs in RLC AM mode Profile 5 of RLC parameters for DRBs in RLC AM mode This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearer This parameter configures the RLC Mode of the data radio bearer This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile This parameter specifies the ID of the corresponding RLC profile Identity of the RLC profile Identity of the RLC profile Identity of the RLC profile Identity of the RLC profile This parameter configures the maximum number of ROHC contexts used for a data radio bearer in one direction. The maximum number of ROHC contexts is also restricted by the UE capabilities. Identity of the RLC profile Identity of the RLC profile Identity of the RLC profilerohcMaxCidrlcProfileId rlcProfileId rlcProfileIdschedulBSDThis parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler For GBR bearers, schedulBSD in used by eNB and UE for the UL scheduling algorithm according [36.321]. The bucket size of a logical channel is calculated by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler For GBR bearers, schedulBSD in used by eNB and UE for the UL scheduling algorithm according [36.321]. The bucket size of a logical channel is calculated by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler For GBR bearers, schedulBSD in used by eNB and UE for the UL scheduling algorithm according [36.321]. The bucket size of a logical channel is calculated by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler For GBR bearers, schedulBSD in used by eNB and UE for the UL scheduling algorithm according [36.321]. The bucket size of a logical channel is calculated by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler The BSD is sent to UE for the UL scheduling algorithm according to [36.321]. The UE calculates the bucket size of a logical channel by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler The BSD is sent to UE for the UL scheduling algorithm according to [36.321]. The UE calculates the bucket size of a logical channel by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler The BSD is sent to UE for the UL scheduling algorithm according [36.321]. The UE calculates the bucket size of a logical channel by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler The BSD is sent to the UE for the UL scheduling algorithm according to [36.321]. The UE calculates the bucket size of a logical channel by PBR * BSD. This parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler The BSD is sent to the UE for the UL scheduling algorithm according to [36.321]. The UE calculates the bucket size of a logical channel by PBR * BSD.schedulBSDschedulBSDschedulBSDschedulBSDschedulBSDschedulBSDschedulBSDschedulBSDschedulBSDschedulPrioschedulPrioschedulPrioschedulPrioschedulPrioschedulPrioschedulPrioschedulTypeschedulPrioschedulPrioschedulPrioschedulWeightThis parameter is used to configure the Bucket Size Duration (BSD) of the UL scheduler The BSD is sent to the UE for the UL scheduling algorithm according to [36.321]. The UE calculates the bucket size of a logical channel by PBR * BSD. Logical Channel Priority for the MAC scheduler For GBR bearers, schedulPrio is used by eNB for the DL scheduling algorithm and by UE for the UL scheduling algorithm according [36.321]. Increasing priority valuesfor indicate a lower priority. Logical Channel Priority the MAC scheduler For GBR bearers, schedulPrio in used by UE for the UL scheduling algorithm according [36.321]. Increasing priority values indicate lower priority. Logical Channel Priority for the MAC scheduler For GBR bearers, schedulPrio in used by UE for the UL scheduling algorithm according [36.321]. Increasing priority values indicate lower priority. Logical Channel Priority for the MAC scheduler For GBR bearers, schedulPrio in used by UE for the UL scheduling algorithm according [36.321]. Increasing priority values indicate lower priority. Logical Channel Priority for the UE scheduler This priority is sent to UE for the UL scheduling algorithm according for DRB [36.321]. Increasing priority values indicate lower priority. Logical Channel Priority for the UE scheduler This priority is sent to the UE for the UL scheduling algorithm according to DRB [36.321]. Increasing priority values indicate a lower priority. Logical Channel Priority for the UE scheduler This priority is sent to the UE for the UL scheduling algorithm according to DRB [36.321]. Increasing priority values indicate a lower priority. This parameter specifies how the EPS bearer with QCI 5 is scheduled. For the scheduling type “SIGNALLING” the bearer is handled like SRBs. The MAC LCGID shall be set to 0 and schedulPrio is used for UL and DL scheduling. For the scheduling type “NON-GBR” the bearer is handled like other non-GBR bearers. The MAC LCGID shall not be to 0 and the schedulWeight is used for DL scheduling. Logical Channel Priority for the UE scheduler This priority is sent to the UE for the UL scheduling algorithm according to DRB [36.321]. Increasing priority values indicate a lower priority. Logical Channel Priority for the UE scheduler This priority is sent to UE for the UL scheduling algorithm according to DRB [36.321]. Increasing priority values indicate a lower priority. Logical Channel Priority for the UE scheduler This priority is sent to UE for the UL scheduling algorithm according to DRB [36.321]. Increasing priority values indicate a lower priority. This parameter specifies the scheduling weight for eNB schedulers The scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DLschedulWeightschedulWeight shutdownStepAmount shutdownWindow schedulWeightThis parameter specifies the scheduling weight for eNB schedulers The scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL This parameter specifies the scheduling weight for eNB schedulers The scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL Number of Steps for Graceful Cell Shutdown Time Interval for Stepwise Output Power Reduction for Graceful Cell Shutdown This parameter specifies the scheduling weight for eNB schedulers The scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL This parameter specifies the scheduling weight for eNB schedulers The scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL This parameter specifies the scheduling weight for eNB schedulers The scheduling weight is used for MAC scheduling (UL and DL), and MAC logical channel priority handling and multiplexing in DL This parameter configures the length of the SN field for RLC UM procedures in downlink direction. If UE does not support the value “5bit”, the value “10bit” is used. This parameter configures the length of the SN field for RLC UM procedures in downlink direction. If UE does not support the value “5bit”, the value “10bit” is used. This parameter configures the length of the SN field for RLC UM procedures in uplink direction. If UE does not support the value “5bit”, the value “10bit” is used. This parameter configures the length of the SN field for RLC UM procedures in uplink direction. If UE does not support the value “5bit”, the value “10bit” is used. This parameter configures the size of the SN field in the PDCP header. If UE does not support the the value “7bit”, will be This parameter configures size of thethe SNvalue field “12bit” in the PDCP header. If UE does not support the value “7bit”, the value will be This parameter determines whether a PDCP status“12bit” report is sent from PDCP receiver to PDCP transmitter. The PDCP status report may be sent from eNB to UE (eNB PDCP status report) or from UE to eNB (UE PDCP status report).schedulWeightschedulWeightsnFieldLengthDLsnFieldLengthDLsnFieldLengthULsnFieldLengthUL snSize snSizestatusRepReq Possible settings: 00: no status report 01: eNB status report 10: UE status report 11: eNB and UE status report This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter. The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report). Possible settings: 00 - no Status Report 01 - eNB Status Report 10 - UE Status Report 11 - eNB and UE Status ReportstatusRepReqtagMaxAM tagMaxUMstatusRepReqThe maximum bound for tag timer calculation valid for RLC-AM DRBs. The maximum bound for tag timer calculation valid for RLC-UM DRBs. This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter. The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report). Possible settings: 00 - no Status Report 01 - eNB Status Report 10 - UE Status Report 11 - eNB and UE Status Report This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter. The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report). Possible settings: 00 - no Status Report 01 - eNB Status Report 10 - UE Status Report 11 - eNB and UE Status Report This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter. The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report). Possible settings: 00 - no Status Report 01 - eNB Status Report 10 - UE Status Report 11 - eNB and UE Status Report This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer should be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to disabled. This parameter specifies the parameter discardTimer of [36.331] This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to infinity. This parameter specifies the parameter discardTimer of [36.331] This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to infinity.statusRepReqstatusRepReqtDiscardtDiscardtDiscardtDiscardtDiscardtDiscardtDiscardThis parameter specifies the parameter discardTimer of [36.331] This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to infinity. This parameter specifies the parameter discardTimer of [36.331] This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to infinity. This parameter specifies the parameter discardTimer of [36.331] This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to infinity. This parameter specifies the parameter discardTimer of [36.331] This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to infinity.tPollRetrThis parameter specifies the parameter t-pollRetransmit of [36.331] This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll. The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.tPollRetrThis parameter specifies the parameter t-pollRetransmit of [36.331] This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll. The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.tPollRetrThis parameter specifies the parameter t-pollRetransmit of [36.331] This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll. The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.tPollRetrThis parameter specifies the parameter t-pollRetransmit of [36.331] This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll. The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.tPollRetrThis parameter specifies the parameter t-pollRetransmit of [36.331] This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll. The used minimum value of the timer shall be larger than the calculated round-trip time with considerations of HARQ retransmissions and out-of-sequence arrival. The value of the timer shall be larger than twice of the timerReorder.tProhibThis parameter specifies the parameter t-StatusProhibit of [36.331] This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDUtProhibThis parameter specifies the parameter t-StatusProhibit of [36.331] This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDUtProhibThis parameter specifies the parameter t-StatusProhibit of [36.331] This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDUtProhibThis parameter specifies the parameter t-StatusProhibit of [36.331] This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDUtProhibThis parameter specifies the parameter t-StatusProhibit of [36.331] This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDUtReordThis parameter specifies the parameter t-Reordering of [36.331] This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ}