parameters nokrnc rn7 0 alldata
DESCRIPTION
Parameters NOKRNC RN7 0 AlldataTRANSCRIPT
Sheet0Abbreviated nameParameter nameNetwork element, releaseManaged objectModificationDescriptionRange and stepWinACRABsetupULUL measurement averaging window for ACNOKRNC, RN7.0WBTSonLineThis parameter determines the uplink load measurement averaging window size in number of the scheduling periods for admission control. This window is used in averaging the estimated received wide band power sample values for the admission decision in the uplink DCH resource allocation. The sliding type window is used: the oldest sample value of the received wide band power is removed when a new one is drawn.1..20 step 1FallbackForDCHQoSPri9Fallback for DCH QoS Priority 9 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)RNCOMConnStateRNC-RNC O&M Connection StateNOKRNC, RN7.0COSRNCunmodifiableThis field indicates the state of the RNC-RNC O&M connection as visible on co-site Master RNC. It can have three possible values Enabled (1), Disabled (0) and Not Known (255).Disabled (0), Enabled (1), Not Known (255)SABEnabledService Area Broadcast EnabledNOKRNC, RN7.0WCELobjectLockingThis parameter enables Service Area Broadcast in a WCDMA cell. If the parameter value is set as Enabled, Service Area Broadcast is activated. When it is set to Disabled, there will not be any Service Area Broadcast handling in the WCEL. For activation of RAN2527 SAB Support with 2SCCPCHs, License for legacy SAB and RAN 2527 are required.Disabled (0), Enabled (1)NrtFmciIdentifierNRT FMCI IdentifierNOKRNC, RN7.0VCELonLineThis parameter identifies the Measurement Control Parameter Set (FMCI object) which controls the inter-frequency measurements of a non-real time (NRT) radio bearer.1..100 step 1PtxHighHSDPAPwrHigh threshold of PtxTotal for dynamic HSDPA pwr allocNOKRNC, RN7.0WCELonLineThis parameter defines the threshold of the PtxTotal measurement that indicates high usage of HSDPA power. Indication is used as a trigger for the adjustment of the dynamic target level for DCH packet scheduling when one or more HS-DSCH MAC-d flows is set up in the cell in the case of HSDPA dynamic resource allocation.-10..50 step 0.1FallbackForDCHQoSPri2Fallback for DCH QoS Priority 2 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)SchedulingPeriodScheduling periodNOKRNC, RN7.0WBTSonLineThis parameter defines the period of the resource allocation for the resource requests of the PS interactive and background services. The PS interactive and background service resource requests, which result in the allocation of a DCH in either of the two transfer directions, are processed each scheduling period. If the HSPA channels are selected only for the resource request, then the MAC-d flows are established without waiting for the next scheduling moment. All RT type of resource requests are handled without waiting for the next scheduling moment.50..2000 step 50FallbackForDCHQoSPri1Fallback for DCH QoS Priority 1 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)EbNoDCHRateGainCSAMRData rate gain for the Eb/N0 of the CS AMRNOKRNC, RN7.0WRABobjectLockingThis parameter defines the value of the data rate gain for the planned Eb/N0s of the DCHs which transfer the radio bearers of the CS AMR RAB. Higher transmission power is used for the DPCCH with the higher physical channel data rates, which improves the channel estimation and, consequently, the Eb/N0 performance. Therefore the rate matching Eb/N0s can be reduced also for the low data rate bearers, such as CS AMR, when they are transferred in the multiservice configuration of an aggregate data rate which is high enough. The selector parameters "Data rate gain selector for the Eb/N0 of the UL DCH" and "Data rate gain selector for the Eb/N0 of the DL DCH" define the physical channel data rates (spreading factors) for which the data rate gain is valid. If the value of the selector parameter shows that with the maximum DPDCH data rate the gain is applicable, then the value of the actual gain parameter is added to the value of the rate matching Eb/N0 values of the AMR service. The parameter is significant with all mode sets of the NB-AMR and the WB-AMR. To modify this parameter, you must manually lock and later unlock all WCEL objects related to this WRAB. This will severely impact the network. You can avoid it by creating a new WRAB and gradually transferring the WCELs to this one.-6..0 step 0.1FallbackForDCHQoSPri4Fallback for DCH QoS Priority 4 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)FallbackForDCHQoSPri3Fallback for DCH QoS Priority 3 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)AdjgMNCMobile Network CodeNOKRNC, RN7.0ADJGonLineGSM and GAN neighbour cells are identified with the Cell Global Identifier (CGI), which is composed of the PLMN Identifier, Location Area Code and Cell Identifier. Furthermore, the PLMN Identifier is composed of the Mobile Country Code (MCC) and the Mobile Network Code (MNC).2..3 charsFallbackForDCHQoSPri6Fallback for DCH QoS Priority 6 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)FallbackForDCHQoSPri5Fallback for DCH QoS Priority 5 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)FallbackForDCHQoSPri8Fallback for DCH QoS Priority 8 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)WBTSSWBuildIdWBTS SW build identifierNOKRNC, RN7.0WBTSunmodifiableThis parameter indicates the BTS SW build version information. RNC gets the parameter value from BTS NE.0..255 charsFallbackForDCHQoSPri7Fallback for DCH QoS Priority 7 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)AMRLCOnDCHOfStreamMaxMRWAM RLC MaxMRW transmissions for PS streaming with DCHNOKRNC, RN7.0RNRLConLineThe parameter defines the value of the RLC protocol parameter MaxMRW for the AM RLC entity of the PS streaming radio bearer when data is transferred over DCH. The value of the parameter defines the maximum number of transmissions for the move MRW command, which is set equal to the MaxMRW-1. The value of the parameter is configured as such to the RLC entity of the RNC and it is signalled to the RLC entity of the UE rounded up to the closest value or down to the maximum value allowed in the RRC signaling. Parameter is significant only if the SDU discard after MaxDAT retransmissions or the timer-based SDU discard is applied.1..32 step 1MNCMobile Network CodeNOKRNC, RN7.0IUOonLineUnique network identification within country. MNC consists of two or three digits. MNC together with MCC identifies the PLMN uniquely (globally). MNC cannot be modified in case it is mapped to any WCEL or CBCI0..999 step 1MACdflowtputStrTtTLow throughput time to trigger of streaming MAC-d flowNOKRNC, RN7.0RNHSPAonLineThis parameter defines the low throughput time necessary to trigger the timer of the throughput measurement of the MAC-d flow for streaming.0..300 step 0.2AdministrativeStateAdministrative StateNOKRNC, RN7.0COSRNConLineThis parameter provides the Administrative control of the co-siting functionality. User can decide when to take the co-siting functionality into use (locked->unlocked) or vice-versa (unlocked->locked). ShuttingDown is meant to gracefully terminate the co-siting. Note! AdministrativeState transition from Locked to ShuttingDown is not allowed. Note! While COSRNC object creation AdministrativeState is not allowed to have ShuttingDown as the initial value, it could only be Locked or Unlocked. Note! Deletion of COSRNC object shall not be allowed in case COSRNC-AdministrativeState is other than Locked or value of COSRNC-AdminStateInfo is Operation Ongoing (1).Locked (0), ShuttingDown (1), Unlocked (2)PrachBetaC120Gain factor for control part of PRACH message with 120 kspsNOKRNC, RN7.0RNAConLineDefines the gain factor for the control part of a PRACH message when the data part symbol rate is 120 ksps.1..15 step 1CNBAPCDVT01IngC-NBAP VCLtp CDVT ingressNOKRNC, RN7.0COCOobjectLockingThis parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the ingress direction.0..16777215 step 1N312ConnN312 for connected modeNOKRNC, RN7.0WCELonLineThis parameter defines the maximum number of "in sync" indications received from L1 during the establishment of a physical channel (UE counter used in connected mode). When a physical dedicated channel establishment is initiated by the UE, the UE shall start a timer T312 and wait for layer 1 to indicate N312 "in sync" indications. On receiving N312 "in sync" indications, the physical channel is considered established and the timer T312 is stopped and reset. If the timer T312 expires before the physical channel is established, the UE considers this as a "physical channel failure".1 (0), 2 (1), 4 (2), 10 (3), 20 (4), 50 (5), 100 (6), 200 (7), 400 (8), 600 (9), 800 (10), 1000 (11)HSDSCHStrPSFilterReTXAM RLC retransmission filter for PS stream with HS-DSCHNOKRNC, RN7.0RNRLConLineThe parameter defines the AMD PDU retransmission filtering period in relation to the RLC round trip time for the PS streaming radio bearers when data is transferred over HS-DSCH. The RLC timer is used in filtering out extra retransmissions of the AMD PDUs. The timer is started in the sender for a particular received status report that indicates a missing AMD PDU. While the timer is running, all status reports received by the sender, except ACK SUFIs, are discarded; NACKs in the status reports do not trigger retransmission of any of the AMD PDUs indicated missing. When an ACK is received for the last missing AMD PDU which was included in the status report of the timer, the timer is stopped. After the expiration of the timer, a new retransmission is triggered based on the last status report received while the timer was running. If no status report is received during the timer, a new retransmission is triggered based on the next status report received after the expiration of the timer. A retransmission filter timer is used in the RLC entity of the RNC only if it has been activated with the "AM RLC status report triggers for PS NRT with HS-DSCH" parameter.1..600 step 1nameNameNOKRNC, RN7.0WCELonLineName of managed object.1..80 chars$instanceRNHSPA IdentifierNOKRNC, RN7.0RNHSPAunmodifiableThis parameter is the identifier for the RNHSPAobject.1..1 step 1EDCHStrPSMaxRSTAM RLC maxRST transmissions for PS streaming E-DCHNOKRNC, RN7.0RNRLConLineThis parameter defines the value of the RLC protocol parameter MaxRST for the AM RLC entity of the PS streaming radio bearers when data is transferred over E-DCH. The value of the parameter defines the maximum number of transmissions for the RLC RESET PDU, which is set equal to the MaxRST-1. The value of the parameter is signalled to the RLC entity of the UE rounded up to the closest value allowed in the RRC signalling.1..32 step 1RNFCChangeOriginChange originNOKRNC, RN7.0RNFCunmodifiableThe parameter defines the origin of the last configuration action affecting the object.Not Defined (0), Network originated configuration action (1), NetAct RNW plan originated configuration action (2), Element Manager originated configuration action (3), Configuration action by automatic tuning function (4), Element Manager originated mass config action (5), NetAct originated direct RNW change (6)BTSIDBTS IdentifierNOKRNC, RN7.0PREBTSonLineThis parameter defines the unique identifier by which the BTS identifies itself to the Network. Note: All parameters are equivalent related to each other. If more than one identification parameter has been defined, all parameters should be matched.1..65534 step 1PagingRestrictionIndPaging Restriction Indication for PPACNOKRNC, RN7.0RNAConLineThe parameter defines the paging response restriction per CN domain. Valid when RNFC - PPACEnabled parameter is enabled.All paging responses are restricted (0), CS domain paging response is restricted (1), PS domain paging response is restricted (2), No paging response restriction (3)PRACHDelayRangePRACH Propagation Delay Statistics Cell RangeNOKRNC, RN7.0WCELonLineThis parameter is used to describe the WCEL size related characteristic in order to get more accurate and meaningful statistics from some measured values reported by WBTS. This parameter defines which counter boundary value set is used when updating the received values to individual counters. This parameter is used only in performance related functions. This parameter is used with the following measurements: PRACH propagation delay counters of M1006 RRC Signalling measurement. Transmitted Carrier Power and Transmitted Code power counters of M1000 Cell resource measurement See the document "RNC Counters - RNW Part" for more information on the related counters.5 km (1), 10 km (2), 20 km (3), 60 km (4), 180 km (5)PointAndCirclePoint And Uncertainty Circle PriorityNOKRNC, RN7.0WSMLConLineThis parameter defines the priority of the Ellipsoid point with uncertainty circle shape.Shape is not used (0), Highest priority (1), Second priority (2), Third priority (3), Fourth priority (4), Fifth priority (5), Sixth priority (6), Lowest priority (7)PFLMIMOAMR.PrefLayerMIMOAMRPreferred Layer for MIMO AMRNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for HSDPA MIMO capable UE that has only an AMR RAB allocated. (CS RABs other than AMR use the same parameter as AMR.) The frequencies are given in UTRA Absolute Radio Frequency Channel Number (UARFCN) format, which defines the downlink channel number and the downlink carrier frequency of the preferred cell. Up to eight different preferred layers can be defined.0..16383 step 1RtFmciIdentifierRT FMCI IdentifierNOKRNC, RN7.0VCELonLineThis parameter identifies the Measurement Control Parameter Set (FMCI object) which controls the inter-frequency measurements of a real time (RT) radio bearer.1..100 step 1SRBDCHFmcsIdFMCS identifier for standalone SRB on DCHNOKRNC, RN7.0WCELonLineThis parameter identifies the measurement control parameter set (FMCS object) controlling the intra-frequency measurements of a user having standalone SRB allocated on DCH. If the value of this parameter is "Not defined" or the value of the WCEL parameter FastHSPAMobilityEnabled is "Disabled", the WCEL parameter RtFmcsIdentifier identifies the FMCS parameter set for standalone SRB on DCH.1..100 step 1PFLDBHSDNRTPreferred Frequency Layer for DB-DC-HSDPA NRTNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for DB-DC-HSDPA capable UE that has only NRT RAB(s) allocated.IPQMIdCSIPQM object id for IuCSNOKRNC, RN7.0IUCSIPonLineThe IPQM identification gives the reference to the IPQM object used for the CS CN. The IPQM object defines the UMTS traffic class to DSCP mapping to be used for the IP connections at the Iu interface. IPQM reference needs to be given in the CN definitions if the IP transport is used at the interface towards the corresponding CN element. The referred IPQM instance has to exist in the system before IUCSIP is created. This parameter is used only with CN nodes that use the IP over Ethernet as transmission technology.1..8 step 1SRBMapRRCSetupECSRB mapping in RRC setup based on ECNOKRNC, RN7.0WCELonLineThis parameter defines the Establishment Cause (EC) values which prefer SRB mapping to the common channels (CCH) in the RRC connection setup. Establishment Cause is RRC information element which is received from the UE in the RRC message RRC Connection Request. The value 0 means that the corresponding Establishment Cause prefers SRB mapping to the dedicated channel (DCH) or to the high speed packet access (HSPA, that is, on HS-DSCH/E-DCH) in the RRC connection setup. The value 1 means that the corresponding Establishment Cause prefers SRB mapping to the common channels in the RRC connection setup. Bit 9: Emergency call does not effect, SRBs of emergency call are always mapped to DCH in the RRC connection setup. The parameter SRBBitRateRRCSetupEC defines the preferred bit rate for the SRB DCH if DCH is selected to be preferred instead of CCH in the RRC connection setup. The parameter FDPCHSetup defines allocation procedure of the F-DPCH in the RRC connection setup.bits mask: Originating conversational call (0), Originating streaming call (1), Originating interactive call (2), Originating background call (3), Originating subscribed traffic call (4), Terminating conversational call (5), Terminating streaming call (6), Terminating interactive call (7), Terminating background call (8), Emergency call (9), Inter-RAT cell re-selection (10), Inter-RAT cell change order (11), Registration (12), Detach (13), Originating high priority signalling (14), Originating low priority signalling (15), Call re-establishment (16), Terminating high priority signalling (17), Terminating low priority signalling (18), Terminating cause unknown (19), MBMS reception (20), MBMS ptp RB request (21)NonHSEventECommMeasEvent E measurement of non HS transmitted carrier powerNOKRNC, RN7.0WCELonLineThis parameter defines whether the Event E based common measurement is initiated for the Transmitted carrier power of all codes not used for HS transmission. The Event E measurement is initiated only when the HSDPA is configured in the BTS cell. The parameter is significant in the cell of BTS, which is applying the 3GPP NBAP function Measurements on Common Resources for the measurement of the Transmitted carrier power of all codes not used for HS transmission.Event E measurement not initiated (0), Event E measurement initiated (1)MBLBInactivityEnabledMBLB in Inactivity EnabledNOKRNC, RN7.0WCELobjectLockingThis parameter defines if Multi-Band Load Balancing is enabled when inactivity is detected in Cell_DCH state. If this parameter is enabled, Multi-Band Load Balancing is done with handover based on (CM) measurements on Cell_DCH state. When this parameter is enabled, HSPA capability based HO, MIMO capability based HO and DC-HSDPA capability based HO are not done in case of inactivity detected in Cell_DCH state.Disabled (0), Enabled (1)IFHOOverIurExtIFHO Over Iur ExtensionNOKRNC, RN7.0RNFConLineThis parameter enables or disables the IFHO Over Iur Enhancements functionality introduced by IUR Mobility Enhancements feature in the RNC.Disabled (0), Enabled (1)FallbackForDCHQoSPri0Fallback for DCH QoS Priority 0 MappingNOKRNC, RN7.0TQMonLineThis parameter contains the fallback information (whether or not the transport bearer should be protected during a fallback scenario) for the transport bearer as defined according to the PS RAB priority. The Iub Transport QoS feature is needed as a prerequisite to use the TQM object and the QoS Priority definition.NOT PROTECTED (0), PROTECTED (1)AMRLCSRBHSPAPollWindowAM RLC period Poll_Window for SRB on HSPANOKRNC, RN7.0RNRLConLineThis parameter defines the value of the RLC protocol parameter Poll_window for the AM RLC entity of the SRB on HSPA when the signalling is transferred over E-DCH or HS-DSCH. The value of the parameter indicates how often the sender polls the receiver in accordance with the activation of the poll trigger "window based polling". The value is configured as such to the RLC entity of the RNC. The value is signalled to the RLC entity of the UE rounded up to the closest value allowed in the RRC signalling. The trigger is applied if it has been activated with the "AM RLC status report triggers for SRB on HSPA".50..99 step 1PFLDBHSDNRT.PrefLayerDBHSDNRTPreferred Layer for DB-DC-HSDPA NRTNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for Dual Band HSDPA capable UE that has only NRT RAB(s) allocated. The frequencies are given in UTRA Absolute Radio Frequency Channel Number (UARFCN) format, which defines the downlink channel number and the downlink carrier frequency of the preferred cell. Up to eight different preferred layers can be defined.0..16383 step 1CellAccessRestrictionCell Access RestrictionNOKRNC, RN7.0CMOBonLineThe Cell Access Restriction parameter defines the percentage of the cell that is restricted. The parameter defines the number of Access Classes (AC0, AC1, ..., AC9) that are restricted in a cell at the same time. - 10% indicates that one Access Class is barred in a cell - 20% indicates that two ACs are barred at the same time ... - 90% indicates that nine ACs are barred at the same time - 100% indicates that the cell is blocked from ACs 0 to 910..100 step 10PtxOffsetHSSCCHThe power offset of the HS-SCCHNOKRNC, RN7.0VCELonLineThis parameter defines the transmission power of the High Speed Shared Control Channel, HS-SCCH. HS-SCCH power is defined in relation to the pilot bits on the DL DPCCH.-32..31.75 step 0.25HeaderCompressionMethodHeader compression algorithm of PDCPNOKRNC, RN7.0RNACunmodifiableThe parameter defines whether the header compression function of the PDCP is employed or not. If it is employed, the parameter defines the header compression algorithm.Header compression not used (0), Algorithm RFC2507 used (1)DeltaPtxMaxUpMaximum downlink power increase in packet schedulingNOKRNC, RN7.0WCELonLineThis parameter defines the maximum transmitted downlink power increase in a cell, used when bit rates are allocated or increased by the packet scheduler. The absolute maximum transmitted downlink power increase is calculated by using PtxTarget as a reference point. This constant value is used in the whole load range of the cell (PtxTotal). If the parameter is given the maximum value 5 dB the power increase limitation is not applied in the downlink DCH scheduling.0..5 step 0.2PtxAlphaType of measurement filter for downlink total transmitted powerNOKRNC, RN7.0WBTSonLinePtxAlpha defines the type of measurement filter for the total transmitted power (PtxTotal) in a cell. If the value is 0, pure sliding window mean filter is used and if the value is 0.5, sliding window median filter is used. If the value is between 0 - 0.5, trimmed mean filter is used.0..0.5 step 0.05MinUDPPortIubMinimum UDP port value for the IubNOKRNC, RN7.0WBTSonLineThe minimum UDP port number that can be allocated at common channel or call setup for the transport bearer at the Iub interface. The UDP port related to the RNC source UDP port is assigned by the system having the value selected above the specified minimum UDP port number. The modified value will be applied for the new transport bearers and the already admitted connections are not modified.1026..65535 step 1COCOChangeOriginChange originNOKRNC, RN7.0COCOunmodifiableThe parameter defines the origin of the last configuration action affecting the object.Not defined (0), Network originated configuration action (1), NetAct RNW plan originated configuration action (2), Element Manager originated configuration action (3), Configuration action by automatic tuning function (4), Element Manager originated mass config action (5), NetAct originated direct RNW change (6)TrafVolThresholdULHighDCH64Traffic volume threshold for UL NRT DCH of 64 kbpsNOKRNC, RN7.0RNPSonLineThe parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold triggers the uplink traffic volume measurement report when the UE is in a Cell_DCH state and 64 kbps DCH is allocated for the radio bearer.8 bytes (0), 16 bytes (1), 32 bytes (2), 64 bytes (3), 128 bytes (4), 256 bytes (5), 512 bytes (6), 1024 bytes. 1KB (7), 2048 bytes. 2KB (8), 3072 bytes. 3KB (9), 4096 bytes. 4KB (10), 6144 bytes. 6KB (11), 8192 bytes. 8 KB (12), 12288 bytes. 12KB (13), 16384 bytes. 16 KB (14), 24576 bytes. 24 KB (15)HSPAQoSPri9ToAAL2PTHSPA QoSPri9 to AAL2 Path Type mappingNOKRNC, RN7.0TQMonLineThe parameter contains the mapping information for the transport bearer setup. The AAL2 Path type information and the AAL2 priority queue information for the transport bearer can be defined according to the HSPA RB scheduling priority. The radio network layer QoS priority utilized at packet scheduling within the UTRAN is mapped from the RAB QoS characteristics received from the core network: UMTS traffic class, THP and ARP. In case of HSPA RB the radio network layer QoS priority is used as SPI (3GPP, Scheduling Priority Indicator) in the air interface scheduling. The given ITU-T Q.2630.2 standard AAL2 Path type is used for the AAL2 VCC selection and the value is signalled to adjacent AAL2 node via the ALCAP ERQ message. The RNC and BTS utilize the AAL2 priority queue information to select the AAL2 queue in the AAL2 layer scheduling accordingly in DL and UL directions. RNC signals the assigned UL AAL2 queue to the BTS during the call setup. The ENUM values are formulated with having the standard AAL2 path type value in the lower four bits and the AAL2 queue number in the higher four bits of the octet.StringentQ1 (17), TolerantQ1 (18), Stringent bi-levelQ1 (21), StringentQ2 (33), TolerantQ2 (34), Stringent bi-levelQ2 (37), StringentQ3 (49), TolerantQ3 (50), Stringent bi-levelQ3 (53), StringentQ4 (65), TolerantQ4 (66), Stringent bi-levelQ4 (69)RNARDSACCell_DCHAccess class restriction level for Cell_DCHNOKRNC, RN7.0RNAConLineThis parameter defines the threshold of access class restriction level. If the access class restriction level goes above the threshold, whenever UE becomes inactive RNC does not transfer UE to Cell_FACH or Cell/URA_PCH but releases the UE to the idle if the following is true: - the last digit of the IMSI of the UE matches the restricted access class and RNARDSACGuardTimer is not running. If the minimum parameter value is used, UE's can be moved to IDLE with low access class restriction level. If the maximum parameter value is used UE can be moved to IDLE only when the all access classes are restricted. The functionality is applied in cells as enabled with CMOB-TrafficRestriction.10..100 step 10AAL2TP.AAL2SignLinkVCIAAL2 signalling link Virtual Channel IdentifierNOKRNC, RN7.0COCOobjectLockingThe virtual channel identifier for the AAL2 signalling link.1..65535 step 1NonHCSTcrMaxEvaluating period for amount of reselections in non-HCSNOKRNC, RN7.0WCELonLineThe parameter defines the duration for evaluating the allowed amount of cell reselections. If the number of cell reselections during the time period defined by NonHCSTcrMax exceeds NonHCSNcr, high mobility is detected. The parameter is needed only if HCS is not used. The parameter is used for cell selection and re-selection in both idle and connected mode.Not used (0), 30 s (1), 60 s (2), 120 s (3), 180 s (4), 240 s (5)TargetCellDNTarget Cell DNNOKRNC, RN7.0ADJIonLinePointer to the adjacency target WCEL or external UTRAN cell (EWCE/EXUCE). Distinguished Name of the corresponding object.0..256 charsNumofEagchNumber of E-AGCH channels of HSUPA CellNOKRNC, RN7.0WCELonLineIndicates the amount of E-AGCH channels of HSUPA cell1..10 step 1FactorEDCHMaxBitRate2NRTFactor E-DCH max. Bit Rate for 2 NRT RAB combinationsNOKRNC, RN7.0RNHSPAonLineThis parameter defines the E-DCH maximum bitrate in relation to RAB parameter UL/DL Maximum Bit Rate in case of 2 NRT RAB combinations. The E-DCH maximum bitrate specifies the rate of the Transport Channel below MAC-e. Node B uses it for E-DCH scheduling decision. The E-DCH maximum bitrate is sent in NBAP Radio Link Setup/Addition/Reconfiguration to Node B. The parameter is unitless.0.1..5 step 0.1PrxAlphaType of measurement filter for uplink total received powerNOKRNC, RN7.0WBTSonLinePrxAlpha defines the type of measurement filter used for the total received wideband power (PrxTotal) in a cell. If the value is 0, pure sliding window mean filter is used and if the value is 0.5, sliding window median filter is used. If the value is between 0 - 0.5, trimmed mean filter is used.0..0.5 step 0.05S10msMACInacThrMAC Inactivity Threshold Str 10ms TTINOKRNC, RN7.0RNHSPAonLineThe parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH transmission only at given times. This is part of Discontinuous UL Reception (MAC DTX) subfeature. This parameter is used for streaming when 10 ms TTI is used on E-DCH.Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)HSDPA16KBPSReturnChannelHSDPA 16 kbps UL DCH return channel on/off switchNOKRNC, RN7.0RNFConLineThis parameter defines whether the usage of the 16 kbps UL DCH return channel is allowed for HSDPA. The value of the parameter is read in conjunction with the allocation, upgrade or downgrade of the UL DCH return channel. The HSDPA 16 kbps UL DCH return channel is applicable only if HSDPA is enabled in the cell.Disabled (0), Enabled (1)AMRLCSRBHSPAPeriodMinAM RLC status period min for SRB on HSPANOKRNC, RN7.0RNRLConLineThe parameter defines the minimum status reporting period of the AM RLC for the SRB on HSPA when signaling is transferred over E-DCH or HS-DSCH. The value of the parameter is set to the AM RLC timers Timer_Poll_Prohibit and Timer_Status_Prohibit in accordance with their activation with the "AM RLC status report triggers for SRB on HSPA" parameter. The value is configured as such to the RLC entity of the RNC. The value is signaled to the RLC entity of the UE rounded up to the closest value or down to the maximum value allowed in the RRC signaling.10..1000 step 10DNBAP.SCTPPortNumberDNBAPSCTP Port Number for D-NBAPNOKRNC, RN7.0IPNBunmodifiableThis parameter defines the SCTP port for the D-NBAP. The value is allocated by the system at D-NBAP resource creation based on the minimum SCTP port number definition. Calculation rule: MinSCTPPortIub + CControlPortId.49152..65535 step 1HSPAQoSPri15ToAAL2PTHSPA QoSPri15 to AAL2 Path Type mappingNOKRNC, RN7.0TQMonLineThe parameter contains the mapping information for the transport bearer setup. The AAL2 Path type information and the AAL2 priority queue information for the transport bearer can be defined according to the HSPA RB scheduling priority. The radio network layer QoS priority utilized at packet scheduling within the UTRAN is mapped from the RAB QoS characteristics received from the core network: UMTS traffic class, THP and ARP. In case of HSPA RB the radio network layer QoS priority is used as SPI (3GPP, Scheduling Priority Indicator) in the air interface scheduling. The given ITU-T Q.2630.2 standard AAL2 Path type is used for the AAL2 VCC selection and the value is signalled to adjacent AAL2 node via the ALCAP ERQ message. The RNC and BTS utilize the AAL2 priority queue information to select the AAL2 queue in the AAL2 layer scheduling accordingly in DL and UL directions. RNC signals the assigned UL AAL2 queue to the BTS during the call setup. The ENUM values are formulated with having the standard AAL2 path type value in the lower four bits and the AAL2 queue number in the higher four bits of the octet.StringentQ1 (17), TolerantQ1 (18), Stringent bi-levelQ1 (21), StringentQ2 (33), TolerantQ2 (34), Stringent bi-levelQ2 (37), StringentQ3 (49), TolerantQ3 (50), Stringent bi-levelQ3 (53), StringentQ4 (65), TolerantQ4 (66), Stringent bi-levelQ4 (69)IuStateState of Iu interfaceNOKRNC, RN7.0IUCSonLineThis parameter describes the state of the Iu interface of the CN Node connected to the RNC. This parameter is given to every CN Node connected to RNC. The parameter is used by the NAS node selection function in load balancing and routing decisions. The descriptions of the parameter values: - WO-EX = working normally, Default - BAL-US = barred from load balancing only - BAR-US = barred from all connections Note: IUCS object cannot be deleted unless the IuState parameter of the object has value BAR-US.WO-EX (0), BAL-US (1), BAR-US (2)SIRDPCCHInitialDCHOffsetSIR target for UL outerloop power control with DPDCHNOKRNC, RN7.0WRABobjectLockingThis parameter defines the initial SIR target offset for the UL outer loop power control when the radio link has only DCHs configured in the uplink transfer direction. If the initial SIR target value is sent to the BTS and to the outer loop power controller of the RNC, the value of the parameter is added to the produced initial SIR target value. To modify this parameter, you must manually lock and later unlock all WCEL objects related to this WRAB. This will severely impact the network. You can avoid it by creating a new WRAB and gradually transferring the WCELs to this one.-6..6 step 0.1TargetCellDNTarget Cell DNNOKRNC, RN7.0ADJDonLinePointer to the adjacency target WCEL or external UTRAN cell (EWCE/EXUCE). Distinguished Name of the corresponding object.0..256 charsAdminWBTSStateAdmin WBTS StateNOKRNC, RN7.0WBTSonLineWith this parameter it is possible to change the administrative state of the all WCELs under the WBTS. The parameter can be used only with Direct Activation operations started from NetAct.Locked (0), Unlocked (1), Not defined (2)Af8RTPSAMULActivity factor for 8 RT PS AM UL bearerNOKRNC, RN7.0RNTRMonLineThis parameter defines the activity factor for the RT PS AM 8 kbps DCH UL bearer for streaming. The activity factor value 1 means that there is no overbooking for this bearer and, for example, the value 0.5 means that the overbooking ratio for the bearer is 2. When you change the parameter value, the new value is taken into use for any new established bearers.0..1 step 0.01DNBAPTP.DNBAPEgressMDCRD-NBAP Egress Minimum Desired Cell RateNOKRNC, RN7.0COCOobjectLockingThe Egress MDCR Egress is an optional parameter for UBR+ connections and it is used to define a long-term target for a minimum service guarantee.0..353207 step 1ADJSChangeOriginChange originNOKRNC, RN7.0ADJSunmodifiableThe parameter defines the origin of the last configuration action affecting the object.Not defined (0), Network originated configuration action (1), NetAct RNW plan originated configuration action (2), Element Manager originated configuration action (3), Configuration action by automatic tuning function (4), Element Manager originated mass config action (5), NetAct originated direct RNW change (6)RTservicesForPSPS domain RT serviceNOKRNC, RN7.0RNConLineThis parameter defines whether PS domain RT services are available in the RNC or not. RT services use either a 'conversational' or 'streaming' traffic class RAB. This parameter is significant in both the assignment of the RAB and the relocation of the serving RNC.PS RT services not available (0), PS conversational service available (1), PS streaming service available (2), PS RT services available (3)LHOHystTimeHardBlockingHysteresis for hard blocking measurement of LHONOKRNC, RN7.0WCELonLineThis parameter defines the hysteresis time for a hard blocking measurement to start load-based handovers. Load-based handover procedures are started if the result of the hard blocking measurement exceeds the threshold and remains there for the requested hysteresis time.0..10 step 1HSLoadStateHSUResThrHSPA Load State HSUPA Resource ThresholdNOKRNC, RN7.0WCELonLineThis parameter defines a threshold at which HSUPA resource indications can set the cell to the HSPA load state. If the number of limited HSUPA resource status indications received from the BTS divided by all HSUPA resource status indications received from BTS is equal or higher than this parameter value, the RNC sets the cell to the HSPA load state. Recommended value is 0.7.0.3..1 step 0.1HSFACHActTimeToTriggerTime to trigger for activity measurement on HS-FACHNOKRNC, RN7.0WCELonLineThis parameter defines the activity time to the trigger timer used for the activity measurement of the HS-DSCH MAC-d flow of PS RB on CELL_FACH state using HS-FACH. If the result of the activity measurement is higher than or equal to the HSFACHActivityThr, the HSFACHActTimeToTrigger is started. If the result of the activity measurement is lower than the HSFACHActivityThr, the HSFACHActTimeToTrigger is stopped and reset. If the timer expires, it triggers a downlink capacity request with a state change request from CELL_FACH to CELL_DCH.0 ms (0), 10 ms (10), 20 ms (20), 40 ms (40), 60 ms (60), 80 ms (80), 100 ms (100), 120 ms (120), 160 ms (160), 200 ms (200), 240 ms (240), 320 ms (320), 640 ms (640), 1280 ms (1280), 2560 ms (2560), 5000 ms (5000)DRRCptxMarginPtx Margin for DRRCNOKRNC, RN7.0WCELonLineThis parameter determines the threshold level which the downlink load of the cell may not exceed in order for the Directed RRC Connection Setup to be possible from another cell (source cell) of the same sector. The Admission control of the RNC calculates the threshold level by adding the value of the parameter to the total transmitted power level of the source cell.-30..30 step 0.1DSCPStatisticsGroupTCPackDSCP code for DL TCP Ack statisticsNOKRNC, RN7.0RNConLineThis parameter defines which Iu-PS GTP user plane data DSCP code is mapped to counter M1022Cxx DL TCP ACKs. This parameter defines the value of a DSCP code that the operator sets for DL TCP ACKs for a specific UL data. This DSCP value will be mapped to one of the six application groups configured by operator. This parameter is used to update cell level counter to track number of incoming DL TCP ACK packets with this specific DSCP marking.0..63 step 1MBLBMobilityEnabledMBLB in Mobility EnabledNOKRNC, RN7.0WCELobjectLockingThis parameter defines if Multi-Band Load Balancing is enabled due to mobility in Cell_DCH state. If this parameter is enabled, Multi-Band Load Balancing is done with handover based on (CM) measurements on Cell_DCH state.Disabled (0), Enabled (1)HSDPAFlowControlLowThresholdDedicatedVCCHSDPA flow control AAL2 low threshold for dedicated VCCNOKRNC, RN7.0RNTRMonLineThe low threshold is an AAL2 buffer occupancy threshold in a dedicated VCC, which triggers sending the "full rate" (maximum allowed rate) flow control messages to HSDPA data sending entities when it is passed downward (when the buffer is getting emptier). This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is being terminated in NPS1 hardware, this parameter is not relevant.0..5000 step 1RestrictionGroupTypeRestriction group typeNOKRNC, RN7.0CMOBunmodifiableRestriction group type. Only parameter values 3 (RNAR),4 (CS-DSAC), and 5 (PS-DSAC) are available for the user. Other values are set by system.Forced RNAR (0), Forced CS-DSAC (1), Forced PS-DSAC (2), RNAR (3), CS-DSAC (4), PS-DSAC (5)PSOpThroUsageThroughput based optimisation of the PS algorithm usageNOKRNC, RN7.0RNFConLineThis parameter activates Throughput based optimisation of the PS algorithm feature. Activation and deactivation can be done separately for the interactive traffic class within all traffic handling priorities and background traffic class traffics. 'Throughput based optimisation usage' uses a binary notation of 4 bits where - bit 0 indicates whether or not the feature is activated for the interactive traffic class traffic handling priority 1 traffics - bit 1 indicates whether or not the feature is activated for the interactive traffic class traffic handling priority 2 traffics - bit 2 indicates whether or not the feature is activated for the interactive traffic class traffic handling priority 3 traffics - bit 3 indicates whether or not the feature is activated for the background traffic class traffics If a bit is set to 1, the feature is activated for the corresponding traffics. If a bit is set to 0, the feature is not activated for the corresponding traffics. If Interactive Traffic Class (TC) Traffic Handling priority (THP) 1 is indicated as active, throughput measurements (release, lower bit rate, and upper bit rate) for the allocated NRT DCH are allowed for that traffic type.bits mask: Interactive TC THP 1 (0), Interactive TC THP 2 (1), Interactive TC THP 3 (2), Background TC (3)AMRLCHSFACHPSPollSDUAM RLC period Poll_SDU for PS NRT with HS-FACHNOKRNC, RN7.0RNRLConLineThis parameter defines the value of the RLC protocol parameter Poll_SDU for the AM RLC entity of the PS interactive and background radio bearers when data is transferred over HS-FACH/RACH and HS-DSCH DL transport channel is used on CELL_FACH state. The value of the parameter indicates in number of RLC SDUs how often the sender polls the receiver in accordance with the activation of the poll trigger 'polling every Poll_SDU SDU'. The value is configured as such to the RLC entity of the RNC. The value is signalled to the RLC entity of the UE rounded up to the closest value or down to the maximum value allowed in the RRC signalling. The trigger is applied if it has been activated with the "AM RLC status report triggers for PS NRT with HS-FACH" parameter.1..64 step 1PrxOffsetWPSOffset for received Wireless Priority Service powerNOKRNC, RN7.0WCELonLineWhen adding a WPS call bearer, the estimated received non-controlable power can exceed its target (Target for received power) by the value of this parameter before the cell is considered to be overloaded in the uplink.0..6 step 0.1CSCNNRINRI for CS Core routingNOKRNC, RN7.0IUCSonLineThis parameter is a structure that contains the NRIMinForCSCN and NRIMaxForCSCN parameters. NOTE: NRIMinForCSCN and NRIMaxForCSCN can have the same configuration, indicating one NRI value instead of a value range.PCrangeDLRadio link downlink power control rangeNOKRNC, RN7.0RNAConLineThe parameter defines the downlink power control range in relation to the maximum allocated transmission power of the radio link. The minimum transmission power is achieved by subtracting the value of the parameter from the maximum transmission power of the radio link. However, the minimum BTS output power of the code channel defines the absolute lower limit for the minimum transmission power.0..25 step 1DCHUtilLowerDowngradeThr256Lower downgrade threshold for the NRT DCH of 256 kbpsNOKRNC, RN7.0RNPSonLineThis parameter defines the target lower downgrade data rate for the NRT DCH whose allocated user plane data rate is 256 kbps. This parameter together with DCHUtilBelowDowngradeThr defines the bit rate threshold that is used in the lower throughput measurement for the NRT DCH whose allocated user plane data rate is 256 kbps. The allocated data rate corresponds to the highest bit rate in the TFS from which the TFCS is constructed.8 kbps (8), 16 kbps (16), 32 kbps (32), 64 kbps (64), 128 kbps (128)$instanceCOSITE IdentifierNOKRNC, RN7.0COSITEunmodifiableThis parameter uniquely identifies the COSITE object.1..255 step 1PICStatePIC stateNOKRNC, RN7.0WCELunmodifiableEach cell in a PIC pool has one state. There are three different states: 'Disabled', 'Enabled' and 'Automatic'. The parameter indicates whether the cell supports HSUPA interference cancellation or not. The default value is 'Disabled'.Enabled (0), Disabled (1), Automatic (2)WaitTimeRRCconversationalRRC wait time for conversational causesNOKRNC, RN7.0WAConLineDefines the value of the Wait Time included in the RRC: RRC Connection Reject message, when the Establishment Cause value received originally in the RRC: RRC Connection Request message is: Originating Conversational Call, Terminating Conversational Call.0..15 step 1HSPA72UsersPerCellHSPA 72 Users per CellNOKRNC, RN7.0WCELobjectLockingThis parameter determines whether the HSPA 72 users per cell feature is enabled in the cell or not. If this feature is enabled, a maximum of 72 HSDPA and 72 HSUPA users can be supported per cell. If this feature is not enabled, the RNC allows only 16, 48, or 64 HSDPA users per cell. In this case, see the status of the RNC management parameter HSDPA 64 users enabled (HSDPA64UsersEnabled). For HSUPA users, see the status of the RNC management parameter HSUPAXUsersEnabled. Using HSUPAXUsersEnabled, the RNC allows 3, 12, 24, or 60 HSUPA users per BTS. User amounts can also be restricted with the following parameters: - MaxNumberEDCHCell - MaxNumberEDCHLCG - MaxNumberHSDSCHMACdFlows - MaxNumberHSDPAUsers - MaxNumbHSDPAUsersS - MaxNumbHSDSCHMACdFS. The cell-specific parameter CPCEnabled is used to enable/disable the feature Continous Packet Connectivity. The cell-specific parameter FDPCHEnabled is used to enable/disable the feature Fractional DPCH. This parameter has no effect, if the feature HSPA 128 Users Per Cell is activated to the cell with the parameter HSPA128UsersPerCell.Disabled (0), Enabled (1)PFLDCMIStrPreferred Frequency Layer for DC and MIMO StreamingNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for UE that supports both Dual Cell HSDPA and MIMO and that has a streaming RAB and 0...3 NRT RAB(s) allocated.AdjiMinEcNoNCHOMinimum CPICH Ec/No for non-critical IFHONOKRNC, RN7.0HOPIonLineThe parameter determines the minimum level required of CPICH Ec/No that the average measurement result of the best inter-frequency neighbour cell must exceed before the non-critical reason inter-frequency handover is possible. "Non-critical handovers" are, for example, service and UE capability type handovers. Service and load based handover make use of this parameter.-24..0 step 0.5HSDPAFmcsIdentifierHSDPA FMCS identifierNOKRNC, RN7.0WCELonLineThe parameter identifies the measurement control parameter set (FMCS object) controlling the intra-frequency measurements of a user having HS-DSCH allocated.1..100 step 1PFLHSDPANRTPreferred Frequency Layer for HSDPA NRTNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for HSDPA capable UE that has only NRT RAB(s) allocated.DCHUtilMeasGuardTimeGuard time for throughput measurementNOKRNC, RN7.0RNPSonLineThis parameter defines the period of time during which downgrading the allocated DCH bit rate of the NRT RB is denied due to throughput measurements. Guard timer is started if a bit rate other than DCH 0/0 kbps is allocated for the NRT RB. Guard timer is restarted when the NRT DCH bit rate is downgraded or upgraded.0..30 step 1IUOIdentifierIUO Object IdentifierNOKRNC, RN7.0CBCIonLineThe IUO identification gives the reference to the IUO object used for the CBCI. The IUO object contains Iu Operator information.1..255 step 1PFLFastMovUECSPreferred Frequency Layer for fast moving UE CSNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for fast moving UE with AMR RAB or other CS RAB, 0...1 streaming RAB and 0...3 NRT RAB(s) allocated.nameNameNOKRNC, RN7.0ADJDunmodifiableName of managed object, same as target WCEL or external UTRAN cell (EWCE/EXUCE) Name. Copied automatically from target cell during send to network or plan prepare operation.1..80 charsAf16And17DCCHULActivity factor for 1.6/1.7 DCCH UL bearerNOKRNC, RN7.0RNTRMonLineThis parameter defines the activity factor for the 1.6/1.7 kbps DCCH UL bearer. The activity factor value 1 means that there is no overbooking for this bearer and, for example, the value 0.5 means that the overbooking ratio for the bearer is 2. When you change the parameter value, the new value is taken into use for any new established bearers.0..1 step 0.01V2msCPCOptObjectiveCPC Optimization objective Voi 2ms TTINOKRNC, RN7.0RNHSPAonLineThe parameter defines the CPC Optimization objective for UEs supporting and using Continuous Packet Connectivity. The Optimization objective can be: - Round Trip Time (RTT) optimization, - Battery consumption optimization. The RNC delivers the parameter value to the BTS which takes care of the optimization. This parameter is used when 2 ms TTI is used on E-DCH with CS voice over HSPA feature.RTT (0), Battery (1)AAL2SignLinkTP.AAL2SigEarlyPacketDiscardAAL2 SL Early Packet DiscardNOKRNC, RN7.0COCOunmodifiableEarly Packet Discard option for the ATM termination point.Disabled (0), Enabled (1)TrafVolThresholdULHighDCH32Traffic volume threshold for UL NRT DCH of 32 kbpsNOKRNC, RN7.0RNPSonLineThe parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold triggers the uplink traffic volume measurement report when the UE is in a Cell_DCH state and 32 kbps DCH is allocated for the radio bearer.8 bytes (0), 16 bytes (1), 32 bytes (2), 64 bytes (3), 128 bytes (4), 256 bytes (5), 512 bytes (6), 1024 bytes. 1KB (7), 2048 bytes. 2KB (8), 3072 bytes. 3KB (9), 4096 bytes. 4KB (10), 6144 bytes. 6KB (11), 8192 bytes. 8 KB (12), 12288 bytes. 12KB (13), 16384 bytes. 16 KB (14), 24576 bytes. 24 KB (15)SintersearchS intersearchNOKRNC, RN7.0WCELonLineThis parameter defines the threshold for inter-frequency measurements and for the HCS measurement rules. The parameter is used for cell selection and re-selection in idle mode.0..20 step 2AMRLCOnHSDSCHOfNRTPSPollPDUAM RLC period Poll_PDU for PS NRT with HS-DSCHNOKRNC, RN7.0RNRLConLineThis parameter defines the minimum value of the RLC protocol parameter Poll_PDU for the AM RLC entity of the PS interactive and background radio bearers when data is transferred over HS-DSCH. The value of the parameter indicates how often the sender polls the receiver in accordance with the activation of the poll trigger 'polling every Poll_PDU PDU'. The value of the parameter is expressed in relation to the size of the allocated transmission window for the AMR RLC entity. It is transformed into the corresponding number of the AMD PDUs rounding up to the closest integer and it is configured to the AM RLC entity. Poll_PDU can be set to a bigger value with other means. The value is configured as such to the RLC entity of the RNC. The trigger is applied if it has been activated with the "AM RLC status report triggers for PS NRT with HS-DSCH" parameter.1..100 step 1CBCSourceIPAddressSource IP address for IuBC interfaceNOKRNC, RN7.0RNConLineSource IP address used for SABP application towards one CBC. Same address can be used for max 4 CBCs. Examples: IPv4, 255.255.255.255, 1.1.1.17..15 charsPrxNoiseUplink noise levelNOKRNC, RN7.0WCELonLineDefines the noise level in the BTS digital receiver when there is no load (thermal noise + noise figure). This parameter is needed in noise rise calculations.-130..-50 step 0.1AbsPrioCellReselecAbsolute priority level for cell reselectionNOKRNC, RN7.0WCELonLineThis parameter defines the absolute priority level for the cell which is used in the absolute priority based cell-reselection. Value 0 indicates the lowest absolute priority and value 7 indicates the highest absolute priority. The absolute priority based cell re-selection procedure for idle and connected mode UEs is used in case of a cell reselection to LTE. If absolute priority based cell reselection is not used, then this parameter is not needed. This parameter is not applicable for inter-frequency and gsm cell reselection.0..7 step 1EbNoDCHRateGainPSConvSpeData rate gain for the Eb/N0 of the PS conv speechNOKRNC, RN7.0WRABobjectLockingThis parameter defines the value of the data rate gain for the planned Eb/N0s of the DCHs which transfer the radio bearers of the PS conversational speech RABs. Data services are generally encoded with Turbo, which becomes more efficient with the higher data rates, in the same way as interleaving does. Higher transmission power is used for the DPCCH with the higher data rates; it improves the channel estimation and consequently the Eb/N0 performance. Therefore the rate matching Eb/N0s can be reduced also for the low data rate bearers when they are transferred in the multiservice configuration of an aggregate data rate which is high enough. The selector parameters "Data rate gain selector for the Eb/N0 of the UL DCH" and "Data rate gain selector for the Eb/N0 of the DL DCH" define the physical channel data rates (spreading factors) for which the data rate gain is valid. If the value of the selector parameter shows that with the maximum DPDCH data rate the gain is applicable, then the value of the actual gain parameter is added to the value of the rate matching Eb/N0 value of the data service. The parameter WCEL-EbNoSetIdentifier identifies the WRAB object set for a cell. The parameter is significant with the push to talk services. To modify this parameter, you must manually lock and later unlock all WCEL objects related to this WRAB. This will severely impact the network. You can avoid it by creating a new WRAB and gradually transferring the WCELs to this one.-6..0 step 0.1HSPAQoSPri11ToAAL2PTHSPA QoSPri11 to AAL2 Path Type mappingNOKRNC, RN7.0TQMonLineThe parameter contains the mapping information for the transport bearer setup. The AAL2 Path type information and the AAL2 priority queue information for the transport bearer can be defined according to the HSPA RB scheduling priority. The radio network layer QoS priority utilized at packet scheduling within the UTRAN is mapped from the RAB QoS characteristics received from the core network: UMTS traffic class, THP and ARP. In case of HSPA RB the radio network layer QoS priority is used as SPI (3GPP, Scheduling Priority Indicator) in the air interface scheduling. The given ITU-T Q.2630.2 standard AAL2 Path type is used for the AAL2 VCC selection and the value is signalled to adjacent AAL2 node via the ALCAP ERQ message. The RNC and BTS utilize the AAL2 priority queue information to select the AAL2 queue in the AAL2 layer scheduling accordingly in DL and UL directions. RNC signals the assigned UL AAL2 queue to the BTS during the call setup. The ENUM values are formulated with having the standard AAL2 path type value in the lower four bits and the AAL2 queue number in the higher four bits of the octet.StringentQ1 (17), TolerantQ1 (18), Stringent bi-levelQ1 (21), StringentQ2 (33), TolerantQ2 (34), Stringent bi-levelQ2 (37), StringentQ3 (49), TolerantQ3 (50), Stringent bi-levelQ3 (53), StringentQ4 (65), TolerantQ4 (66), Stringent bi-levelQ4 (69)HappyBitDelayConditionEDCHHappy bit delay condition for E-DCHNOKRNC, RN7.0RNHSPAonLineThis parameter determines the value for the Happy bit delay condition information element. The information element is signalled to the UE using the RRC protocol. The UE utilises information for setting the E-DCH related happy bit. The happy bit is signalled to the BTS in E-DPCCH.2 ms (0), 10 ms (1), 20 ms (2), 50 ms (3), 100 ms (4), 200 ms (5), 500 ms (6), 1000 ms (7)PriForIntTHP2ARP3Priority for Interactive TC with THP 2 and ARP 3NOKRNC, RN7.0RNPSonLineThis parameter defines priority for Radio Access Bearers having Traffic Class Interactive with traffic handling priority 2 and Allocation and Retention priority 3. In case of High Speed (HS-DSCH or E-DCH+HS-DSCH) channels, priority is directly used as Scheduling Priority Indication (SPI) value. In case of Dedicated channels (DCH) priority is just value 0 - 11 (0 is the lowest and 11 the highest priority). This priority is used inside RAN when resources related to this kind of Radio Access Bearer are handled.0..11 step 1PriForIntTHP2ARP2Priority for Interactive TC with THP 2 and ARP 2NOKRNC, RN7.0RNPSonLineThis parameter defines priority for Radio Access Bearers having Traffic Class Interactive with traffic handling priority 2 and Allocation and Retention priority 2. In case of High Speed (HS-DSCH or E-DCH+HS-DSCH) channels, priority is directly used as Scheduling Priority Indication (SPI) value. In case of Dedicated channels (DCH) priority is just value 0 - 11 (0 is the lowest and 11 the highest priority). This priority is used inside RAN when resources related to this kind of Radio Access Bearer are handled.0..11 step 1PriForIntTHP2ARP1Priority for Interactive TC with THP 2 and ARP 1NOKRNC, RN7.0RNPSonLineThis parameter defines priority for Radio Access Bearers having Traffic Class Interactive with traffic handling priority 2 and Allocation and Retention priority 1. In case of High Speed (HS-DSCH or E-DCH+HS-DSCH) channels, priority is directly used as Scheduling Priority Indication (SPI) value. In case of Dedicated channels (DCH) priority is just value 0 - 11 (0 is the lowest and 11 the highest priority). This priority is used inside RAN when resources related to this kind of Radio Access Bearer are handled.0..11 step 1WinLCHSDPAPtxnonHSPA averaging window size for LCNOKRNC, RN7.0WBTSonLineThis parameter defines the averaging window size for the estimated transmitted non HSPA carrier power. The window size is used for averaging the estimated Transmitted carrier power of all codes not used for HS-PDSCH, HS-SCCH, E-AGCH, E-RGCH or E-HICH transmission (PtxNonHSPA) in the downlink DCH overload control. The window size is defined in the number of the scheduling periods. Arithmetic mean value of the samples is calculated. The sliding type window is used: the oldest sample value of the estimated power is removed when a new one is drawn.0..20 step 1PWSMDriftAllowedCell shutdown allowed with drifting UENOKRNC, RN7.0RNFConLineThis parameter determines whether the cell shutdown is allowed with drifting UEs or not. If there are drifting UEs in a cell and the parameter has value NO, then the cell cannot be shutdown.NO (0), YES (1)oldDNOld Distinguished NameNOKRNC, RN7.0WBTSonLineThe parameter specifies the distinguished name of the managed object under the old controller before the rehosting operation is performed.1..256 charsCSCNNRI.NRIMaxForCSCNMaximum value of NRI range for CS Core routingNOKRNC, RN7.0IUCSonLineThis parameter indicates the maximum value of the NRI value range that is used in CS CN selection. NOTE: NRIMinForCSCN and NRIMaxForCSCN can be configured to use the same value, indicating one NRI value instead of value range.0..1024 step 1HSDSCHGuardTimerLowThroughputHS-DSCH guard timer due to low throughputNOKRNC, RN7.0RNHSPAonLineHSDSCHGuardTimerLowThroughput is a UE-specific timer. It is started after a release of the MAC-d flow, which was triggered by low throughput. The timer is started just if DCH 0/0 is allocated. When the timer is running HS-DSCH allocation is not allowed to the UE.0..240 step 1AdjiPrioritySLHONeighbour cell priority for service and load IFHONOKRNC, RN7.0HOPIonLineInter-frequency measurement procedure will measure one frequency at a time. If there is more than one carrier frequency to be measured, the RNC selects a subset of inter-frequency neighbour cells (having the same UTRA RF channel number) that are measured first. In case of a service and load reason handover, the measurement order is controlled by the parameter AdjiPrioritySLHO. The range of the parameter varies from zero to 7. Zero is the lowest and 7 the highest priority level.0..7 step 1$instanceIdentifier of additional intra-frequency adjacencyNOKRNC, RN7.0ADJDunmodifiableIdentification of ADJD (Additional Intra-frequency Adjacency) within a WCDMA cell.0..31 step 1PointPoint PriorityNOKRNC, RN7.0WSMLConLineThis parameter defines the Ellipsoid point shape priority.Shape is not used (0), Highest priority (1), Second priority (2), Third priority (3), Fourth priority (4), Fifth priority (5), Sixth priority (6), Lowest priority (7)AMRLCMaximumBufferUE50AM RLC maximum buffer allocation for UE capability 50NOKRNC, RN7.0RNRLConLineThis parameter defines the maximum AM RLC buffer of the UE, which has reported the value of 50 kBytes for its nominal Total RLC AM and MAC-hs/MAC-ehs buffer size.50..100 step 5HSDPAUserThresholdHSDPA User ThresholdNOKRNC, RN7.0WBTSonLineThis parameter defines the HSDPA user amount threshold for each cell handled in the BTS HSDPA scheduler, to start the capacity split for HSDPA resources in the scheduler. BTS scheduler checks whether the number of HSDPA users in the scheduler has exceeded this threshold value before starting HSDPA capacity split actions.1..128 step 1SmartLTELayeringServSmart LTE Layering service controlNOKRNC, RN7.0RNMOBIonLineThe parameter defines what services are allowed to be moved to LTE by Smart LTE Layering feature. Only services of PS domain can be controlled with this parameter. UEs with services not supported in LTE should not be redirected to LTE, because it is possible that those UEs comes back to WCDMA right away. Smart LTE Layering is enabled with the SmartLTELayeringEnabled parameter.bits mask: Background (0), Interactive (1), PS Streaming (2), PS Conversational (3)CPICHECNOThreEDCH2MSCPICH ECNO Threshold for E-DCH TTI 2 msNOKRNC, RN7.0RNHSPAonLineThis parameter defines the coverage of the E-DCH TTI 2 ms within the HSPA serving cell. This is used during the state transition from CELL_FACH, CELL_PCH, and CELL_URA to CELL_DCH state.-24..0 step 1NRncIdNeighbour RNC identifierNOKRNC, RN7.0IURunmodifiableThis parameter identifies the neighbor RNC. A unique identification for an RNC node within the UTRAN. For RAN 2054 feature "Extension of RNC ids" only, extended range of 4096..65534 will be used , otherwise older range 1..4095 will be used as this extended range violates 3GPP specifications.1..65534 step 1V2msMACInacThrMAC Inactivity Threshold Voi 2ms TTINOKRNC, RN7.0RNHSPAonLineThe parameter defines E-DCH inactivity time in TTIs after which the UE can start E-DCH transmission only at given times. This is part of Discontinuous UL Reception (MAC DTX) subfeature. This parameter is used when 2 ms TTI is used on E-DCH with CS voice over HSPA feature.Infinity (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8), 256 (9), 512 (10)VPLTP.VPLTPTrafficShapingVPLtp VP level traffic shapingNOKRNC, RN7.0COCOunmodifiableThis parameter specifies if traffic is shaped on VP level before leaving the system.none (1), full (2)FastCompletionOfSCCFaster Completion of SCC ProcedureNOKRNC, RN7.0WCELonLineThis parameter indicates whether the Faster Completion of SCC Procedure functionality is enabled in the cell. When enabled in the cell, this functionality introduces faster completion of SCC procedure by including the Delay Restriction Flag IE in RRC: RADIO BEARER RECONFIGURATION message. Inclusion is done on condition that RL is not reconfigured during SCC and UE is rel6 or newer. The included IE indicates that UE shall send RRC: RADIO BEARER RECONFIGURATION COMPLETE message as soon as possible without waiting CFN to elapse, but still perform the serving cell change based on received CFN. The Faster Completion of SCC Procedure is not applied if either the value of this parameter is "Disabled" or the value of the WCEL parameter FastHSPAMobilityEnabled is "Disabled".Disabled (0), Enabled (1)TQMIdTQM object identifierNOKRNC, RN7.0WBTSonLineThe TQM identification gives the reference to the TQM object used for the WBTS. The TQM object defines the transport bearer prioritization mapping based on the air interface channel type and the radio network layer scheduling priority. ATM transport: If the TQM is not related to the WBTS then the system default mapping is used for the transport bearer prioritization. IP Transport: If the TQM is not related to the WBTS then the basic RT/NRT DSCP mapping is applied according to the DSCP definitions in the WBTS object.1..4 step 1ServHONumbUEInterFreqNumber of inter-frequency service HOsNOKRNC, RN7.0WCELonLineThis parameter defines how many UEs are selected in each period to a service-based inter-frequency handover procedure. The required number of UEs cannot necessarily be selected if suitable candidates are not available. Note that the number of UEs in a compressed mode due to service or load reason is limited with the RNP parameter MaxNumberUECmSLHO.0..32 step 1DestIPAddressCSIP address for the IUCS destination subnetNOKRNC, RN7.0IUCSIPonLineThe DestIPAddressCS attribute with the IPNetmaskCS parameter forms a destination IP subnet definition for the Iu-CS user plane connections. The RNC performs the IP Based Route id reference selection for the new Iu-CS connection in between the destination IP subnet and the destination IP address (RANAP:Transport Layer Address) that is received at the RAB assignment request. There has to be at least one IP Based Route id reference towards a certain CN element. In most of the cases one IP Based Route instance reference is enough and the destination IP subnet can be set simply to 0.0.0.0/0. The configured IP Based Route id reference is then selected for any IP address signalled by the CN and there is only one IUCSIP object instance needed under the IUCS object instance. Example IPv4: 0.0.0.0 / 0 -> IP Based Route id x. In case that several IP Based Route references are needed towards a certain CN element the subnet specific references can be added with configuring several IUCSIP objects under the IUCS. Example IPv4: IUCSIP#1 192.168.0.0 / 28 -> IP Based Route id y, IUCSIP#2 192.168.0.16 / 28 -> IP Based Route id z. This parameter is used with IP over Ethernet Iu-CS connectivity in cRNC and mcRNC. In case of Flexi Direct RNC the parameter is always used for the Iu-CS connectivity.7..15 charsPtxOffsetERGCHDPCCHThe power offset of the E-RGCHNOKRNC, RN7.0WCELonLineThis parameter defines the transmission power of the E-DCH Relative Grant Channel. E-RGCH power is defined in relation to the pilot bits on the DL DPCCH except when Fractional DPCH (F-DPCH) is configured. When F-DPCH is configured, the E-RGCH power is defined in relation to the power of transmitted TPC bits on the F-DPCH. In case of WBTS, by using this parameter, it is possible to adjust signaled power level of the E-RGCH in relation to target level which is -14 dB below P-CPICH power. In case of WBTS, the value of the parameter is meant for E-DCH TTI 10 ms and no E-DCH soft handover case. In case of WBTS, if E-DCH TTI is 2 ms, the value of the parameter PtxOffsetExxCH2ms is added to the signaled value. In case of WBTS, if UE is in E-DCH soft handover state (that is non-serving E-DCH RLS exists) and F-DPCH does not exist, the value of the parameter PtxOffsetExxCHSHO is added to signaled value. RNC signals 3GPP specific E-AGCH, E-RGCH and E-HICH power offsets to WBTS when it supports E-DCH TTI = 2 ms. For NB/RSxxx signaled value is parameter value as such and signaled always when E-DCH is configured.-32..31.75 step 0.25DynHSUPABLERContDataRx2Retransmissions in Dyn HSUPA BLER for Cont Data 2 ms TTINOKRNC, RN7.0RNAConLineThis management parameter defines the L1 HARQ retransmissions threshold for the outer loop power control entities dedicated to the E-DCH 2 ms TTI MAC-d flows of the PS NRT RABs. Its value is used by the outer loop power control of the RNC for the detection of the block error when the L1 BLER target is defined with the management parameter "Layer1 Continuous BLER target for E-DCH". Block error occurs if the number of the retransmissions equals to or is bigger than the value of the parameter or an E-HARQ failure has been observed. Outer loop power control adjusts the uplink DPCCH SIR target after block errors occurs. Note: Parameter values 2 and 3 will produce high BLER for first transmission. Also those values will increase SIR target increase interval and thus effective BLER is even higher.1..3 step 1TDMultForHSDPAStreamingTransfer Delay multiplier for HSDPA streamingNOKRNC, RN7.0RNAConLineThis parameter defines the multiplier that is used to multiply the Transfer delay received from RANAP to get a value for Discard Timer that is sent to the BTS. The Discard Timer is used in BTS to discard data packets that contain old data. The result of multiply is rounded toward the closest value of the following list: 20, 40, 60, 80, 100, 120, 140, 160, 180, 200, 250, 300, 400, 500, 750, 1000, 1250, 1500, 1750, 2000, 2500, 3000, 3500, 4000, 4500, 5000, 7500 ms.0.5..15 step 0.5Af128NRTDCHULActivity factor for 128 NRT DCH UL bearerNOKRNC, RN7.0RNTRMonLineThis parameter defines the activity factor for the NRT PS AM 128 kbps DCH UL bearer. The activity factor value 1 means that there is no overbooking for this bearer and, for example, the value 0.50 means that the overbooking ratio for the bearer is 2. When you change the parameter value, the new value is taken into use for any new established bearers.0..1 step 0.01HSDPACPICHAveWindowAveraging window of the CPICH Ec/No measurementNOKRNC, RN7.0RNMOBIonLineThis parameter determines the averaging window for the periodical CPICH Ec/No measurement reporting, which is used as a criterion for the serving HS-DSCH cell change procedure. Averaging is executed in the RNC. This parameter is overruled if Fast HSPA Mobility is enabled in the serving HS-DSCH cell with the WCEL parameter FastHSPAMobilityEnabled and the averaging window for the periodical CPICH Ec/No measurement reporting is determined on cell level with the WCEL parameter HSDPACPICHAveWindow of the serving HS-DSCH cell.1..10 step 1PFLChangeOriginChange OriginNOKRNC, RN7.0PFLunmodifiableThe parameter defines the origin of the last configuration action affecting the object.Not defined (0), Network originated configuration action (1), NetAct RNW plan originated configuration action (2), Element Manager originated configuration action (3), Configuration action by automatic tuning function (4), Element Manager originated mass config action (5), NetAct originated direct RNW change (6)EnablDelayHHOEnabling Delay HHONOKRNC, RN7.0RNHSPAonLineThe parameter defines, in radio frames, how long the DTX/DRX is disabled after a reconfiguration. This parameter is applied to procedures for which the propagation delay cannot be given by the RNC to the BTS (for example HHO).0 (0), 1 (1), 2 (2), 4 (3), 8 (4), 16 (5), 32 (6), 64 (7), 128 (8)InactDetForStreamingRBInactivation detection for streaming radio bearerNOKRNC, RN7.0RNPSonLineThis parameter defines whether inactivity detection for streaming radio bearers is activated. If inactivity detection is activated, then the system can release resources used by the inactive streaming radio bearer. If resources of a radio bearer are released and a need to transfer data is detected, then new resources will be reserved. Releasing of resources reserved for streaming radio bearer can cause that UE is put to CELL_FACH state if there are no other active radio bearers. If there are some other active radio bearers for this UE, then streaming radio bearer is put to DCH 0/0. Inactivity detection is used when streaming radio bearer is mapped to High Speed or DCH transport channels.Not in use (0), In use (1)AdditionTimeAddition TimeNOKRNC, RN7.0FMCSonLineWhen a monitored cell enters the reporting range (addition window), the cell must continuously stay within the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to add the cell into the active set (event 1A). The length of this period is controlled by the parameter Addition Time.0 ms (0), 10 ms (1), 20 ms (2), 40 ms (3), 60 ms (4), 80 ms (5), 100 ms (6), 120 ms (7), 160 ms (8), 200 ms (9), 240 ms (10), 320 ms (11), 640 ms (12), 1280 ms (13), 2560 ms (14), 5000 ms (15)TrafVolThresholdULHighDCH16Traffic volume threshold for UL NRT DCH of 16 kbpsNOKRNC, RN7.0RNPSonLineThe parameter defines the threshold of data in RLC buffer of RB in bytes. This threshold triggers the uplink traffic volume measurement report when the UE is in a Cell_DCH state and 16 kbps DCH is allocated for the radio bearer.8 bytes (0), 16 bytes (1), 32 bytes (2), 64 bytes (3), 128 bytes (4), 256 bytes (5), 512 bytes (6), 1024 bytes. 1KB (7), 2048 bytes. 2KB (8), 3072 bytes. 3KB (9), 4096 bytes. 4KB (10), 6144 bytes. 6KB (11), 8192 bytes. 8 KB (12), 12288 bytes. 12KB (13), 16384 bytes. 16 KB (14), 24576 bytes. 24 KB (15)NeighbouringRNWElementType of the Neighbouring RNW ElementNOKRNC, RN7.0IURonLineThis parameter indicates whether the neighboring WCDMA Controller Node is a 3G RNC or a Flexi Direct RNC.3G-WCDMA RNC (0), Flexi Direct RNC (1)RelocComm_in_InterRNC_HHOUsage of Relocation Commit procedure in inter RNC HHONOKRNC, RN7.0WCELonLineThis parameter controls the usage of the RNSAP:Relocation Commit procedure during the execution of an Inter-RNC hard handover. When the Relocation Commit procedure is used, the MS is not allowed to return to the old channel. If the establishment of a new physical channel fails, the call (RT RB's) is dropped.Not used (0), Used (1)AdjgMinRxLevNCHOMinimum RX level for non-critical HONOKRNC, RN7.0HOPGonLineThe parameter determines the minimum required GSM RSSI level that the average RSSI value of the GSM neighbour cell must exceed before the non-critical handover to GSM is possible. "Non-critical handovers" are, for example, service and UE capability type handovers. Service and load based handover make use of this parameter.-110..-47 step 1ExtendedULDLactivationTmrExtended Cell_FACH inactivity supervision timerNOKRNC, RN7.0RNConLineThis parameter defines an extended Cell_FACH state inactivity supervision time used by the RNC instead of the normal UL_DL_Activation_Timer. If set to a value greater than zero, this value is used for all UEs not supporting the Cell/URA_PCH state. Otherwise, normal WAC-UL_DL_Activation_Timer is used for all UEs not supporting Cell/URA_PCH.0..120 step 1Af59AMRDLActivity factor for 5.9 AMR DCH DL bearerNOKRNC, RN7.0RNTRMonLineThis parameter defines the activity factor for the AMR 5.9 kbps DCH and HSDPA DL bearer. The activity factor value 1 means that there is no overbooking for this bearer and, for example, the value 0.50 means that the overbooking ratio for the bearer is 2. When the parameter value is changed, the new value is taken into use for new established bearers.0.6..1 step 0.01RTWPEventECommHystHysteresis time of RTWP Event E measurementsNOKRNC, RN7.0WCELonLineThis parameter defines the value of the Measurement Hysteresis Time for the Event E based common measurement of the received total wide band power. The parameter is applied for the measurements of the common measurement types 'Received Total Wide Band Power' and 'Received Scheduled E-DCH Power Share'. Measurement Hysteresis Time provides the period during which a reporting criterion Event E has to be fulfilled for the Measurement Reporting procedure to be triggered. The parameter is significant in the cell of the BTS which is applying the 3GPP NBAP Measurements on Common Resources function.200..60000 step 100AdjgPrioritySLHONeighbour cell priority for SLHONOKRNC, RN7.0HOPGonLineIf there are several GSM neighbour cells that meet the required radio link properties for the service- or load-reason handover at the same time, the RNC ranks the potential target cells according to priority levels and selects the highest ranked GSM neighbour cell to be the target cell. The priority level of a GSM neighbour cell in service and load handover is controlled by the parameter AdjgPrioritySLHO. The range of the parameter varies from zero to 7. Zero is the lowest and 7 the highest priority level.0..7 step 1DLOptimisationPwrOffsetPower offset for dynamic link optimisationNOKRNC, RN7.0RNPSonLineThe parameter is used to define the DL transmission power level that triggers the dynamic link optimisation. The value defines a power level relative to the maximum DL transmission power (Ptx,max). Dynamic link optimisation is triggered if the measured average RL transmission power (Ptx,average) added to the value of the parameter exceeds the maximum DL transmission power. Only the cells under the SRNC can trigger dynamic link optimisation.0..6 step 0.1PFLDCHSDStr.PrefLayerDCHSDStrPreferred Layer for DC-HSDPA StreamingNOKRNC, RN7.0PFLonLineThis parameter defines the preferred layers for Dual Cell HSDPA capable UE that has a streaming RAB and 0...3 NRT RAB(s) allocated. The frequencies are given in UTRA Absolute Radio Frequency Channel Number (UARFCN) format, which defines the downlink channel number and the downlink carrier frequency of the preferred cell. Up to eight different preferred layers can be defined.0..16383 step 1nbrRepeaterNumber of external RepeatersNOKRNC, RN7.0WBTSonLineNumber of external repeaters (equipment to increase radio transmission power)0..100 step 1UMRLCPTTDiscardTimeUM RLC SDU discard time in UE for PTTNOKRNC, RN7.0RNRLConLineThe parameter defines the SDU discard timer value for the UM RLC entity of the UE for push to talk service. The value of the parameter is signaled as such to UE. Discard time is applied in the uplink transmission. With the default value of the parameter timer based SDU discard is not used by the UE. This is selected as default, so that data would not be discarded too early in setup cases (discard of setup data cause setup delay). After setup phase too low or too high value can cause voice quality problems.10..100 step 10ShutdownStepAmountShutdown step amountNOKRNC, RN7.0WCELonLineThe parameter indicates the number of steps required for the transmission power to shut down.1..16 step 1L1BLERTEDCHVoice2BLER target for the HS CS voice E-TTI 2 msNOKRNC, RN7.0WRABonLineThis parameter defines the L1 BLER target for the E-DCH MAC-d flow of the CS voice when the E-TTI equals to 2 ms. It is used by the outer loop power control of the RNC. E-HARQ retransmission threshold for the block error detection is defined with the management parameter "HARQ threshold for OLPC of HS CS voice E-TTI 2 ms". Value of the parameter equals to the log10 of the BLER value.-6.3..0 step 0.1DeltaSIRDownlinkDownlink delta SIR in the compressed modeNOKRNC, RN7.0WRABonLineThis parameter defines the offset in the downlink SIR target value to be set in the UE during the frame containing the start of the first transmission gap in the transmission gap pattern. The value of the parameter does not include the effect of the bit rate increase during the compressed frame.0..3 step 0.1UETxPowerMaxRefMaximum Reference UE transmission powerNOKRNC, RN7.0RNMOBIonLineThis parameter defines the maximum transmission power level a reference UE can use. It is used with CPICHRSCPThresEDCH2MS to define the E-DCH 2 ms TTI coverage area of the UE. If the maximum RF output power capability of the UE is higher than the one set by this parameter, the coverage area of the UE is wider than the coverage area set by the CPICHRSCPThresEDCH2MS parameter.-50..33 step 1IUCSChangeOriginChange originNOKRNC, RN7.0IUCSunmodifiableThis parameter defines the origin of the last configuration action affecting the object.Not defined (0), Network originated configuration action (1), NetAct RNW plan originated configuration action (2), Element Manager originated configuration action (3), Configuration action by automatic tuning function (4), Element Manager originated mass config action (5), NetAct originated direct RNW change (6)AntBearingAntenna BearingNOKRNC, RN7.0WLCSEonLineThe parameter defines the antenna direction measured clockwise from the North [in degrees].0..359 step 1AutoACResEnabledAutomatic Access Class Restriction EnabledNOKRNC, RN7.0RNFConLineThis parameter enables/disables the use of Automatic Access Class restriction in the RNC for different overload triggers. Activation and deactivation can be done separately for different overload triggers. Automatic Access Class Restriction uses a binary notation of 4 bits where: - bit 0 indicates whether or not the feature is activated for the Total Received wideband power - bit 1 indicates whether or not the feature is activated for NRT scheduling queue length - bit 2 indicates whether or not the feature is activated for the CN overload - bit 3 indicates whether or not the feature is activated for the RNC overload If a bit is set to 1, the feature is activated for the corresponding overload trigger. If a bit is set to 0, the feature is not activated for the corresponding overload trigger e.g. If a bit0 is set to 1 then Total Received wideband power trigger is activated. If a bit0 is set to 0 then Total Received wideband power trigger is de-activated. Active triggers can restricted the number of UE Access Classes using SIB messages in case overload is detected due to those triggers. Restricted access classes cannot access radio network. Automatic Access Class restriction feature is enabled, if at least one bit (bit0, bit1, bit2, bit3) is set to 1. Note: Parameters of mass event handler must be configured if NRT queue length functionality is activated (bit1 is set to 1).bits mask: Received total wideband power (0), NRT scheduling queue length (1), CN overload (2), RNC overload (3)ToAWEOffsetNRTDCHIPToAWE Offset for NRT DCH connections over IPNOKRNC, RN7.0WBTSonLineThis parameter specifies the offset value to be added to the corresponding ToAWE_NRT_DCH_ttiXX parameter value whenever the IP transport mode is used for NRT DCH in the Iub interface. The R99 DCH FP receiving window offset values can be used to compensate for the jitter generated by the Iub transport network. The required offset values are dependent on the characteristics of the corresponding transport network. Note: When Satellite Iub is enabled, this parameter value is taken into account for both ATM Iub and IP Iub.0..50 step 1AMRLCOnEDCHOfNRTPSPeriodMaxAM RLC status period max for PS NRT with E-DCHNOKRNC, RN7.0RNRLConLineThis parameter defines the maximum status reporting period of the AM RLC in relation to the RLC round trip time for the PS interactive and background radio bearers when data is transferred over E-DCH. The maximum value is used as the value of the AM RLC timers Timer_Poll, Timer_poll_periodic, Timer_status_periodic, and Timer_MRW and Timer_RST in accordance with their activations with the "AM RLC status report triggers for PS NRT with E-DCH" parameter. The value is configured as such to the RLC entity of the RNC. The value is signalled to the RLC entity of the UE rounded up to the closest value or down to the maximum value allowed in the RRC signalling.1..600 step 1AMRLCMaximumBufferUE1kAM RLC maximum buffer allocation for UE capability 1000NOKRNC, RN7.0RNRLConLineThis parameter defines the maximum AM RLC buffer of the UE, which has reported the value of 1000 kBytes for its nominal Total RLC AM and MAC-hs/MAC-ehs buffer size. This parameter allows to define the maximum buffer smaller than the reported value of UE RLC buffer. In certain cases the reported value of UE RLC buffer is unnecessary big and a smaller buffer is enough to store data received during one L2 TTI. Therefore, it is reasonable to define smaller maximum buffer size in this case.200..1500 step 5TigORTigORNOKRNC, RN7.0IUPSonLineThis parameter is a timer which is used to determine when the additional level of traffic reduction in Core Network overload should take place. When this timer is running, all OVERLOAD messages or signalling point congested information received by the RNC are ignored.1..120 step 1nameNameNOKRNC, RN7.0IPNBonLineThe name of managed object.1..80 charsInactivityTimerUplinkDCH128Inactivity timer for uplink 128kbps DCHNOKRNC, RN7.0WAConLineThe time indicating how long the radio and transmission resources are reserved after silence detection on uplink DCH before release procedures. Timer is defined separately for each bit rate. Parameter value 255 (infinity) means that NRT DCH inactivity supervision is not used.0..20 step 1RTOverNRTPriThresholdARP3RT-over-NRT priority threshold for ARP3NOKRNC, RN7.0RNPSonLineThis parameter defines the highest priority used by PS NRT RAB that can be used as a target for RT-over-NRT functionality when streaming PS RAB with Allocation and Retention Priority (ARP) 3 needs resources in RAB establishment phase. PS NRT RABs with higher priority cannot be used as a target for RT-over-NRT actions. This parameter has no effect in cases where resources are tried to be reserved for existing streaming PS RAB . This parameter has no effect to overload control.0..11 step 1TraceLCSWaitPeriodTrace LCS Wait PeriodNOKRNC, RN7.0RNConLineThis parameter defines how soon the RNC generates a Subscriber Trace location request after transferring the UE to Cell_DCH state. The same delay value is also used to define how soon the next location request is triggered after the results of the previous requests are available. By setting the parameter to the special value "disabled", the location data is not included in the Subscriber Trace records.5..60 step 5AMRLCTXWindowSizeSRB4AM RLC transmission window size for SRB 4NOKRNC, RN7.0RNRLConLineThis parameter defines the transmission and receiving window sizes of the AM RLC entities for the signalling radio bearer RB4. The value is expressed in the number of AMD PDUs.16 (0), 32 (1), 64 (2), 128 (3), 256 (4), 512 (5), 768 (6), 1024 (7), 1536 (8), 2047 (9)RTOverNRTPriThresholdARP1RT-over-NRT priority threshold for ARP1NOKRNC, RN7.0RNPSonLineThis parameter defines the highest priority used by PS NRT RAB that can be used as a target for RT-over-NRT functionality when streaming PS RAB with Allocation and Retention Priority (ARP) 1 needs resources in RAB establishment phase. PS NRT RABs with higher priority cannot be used as a target for RT-over-NRT actions. This parameter has no effect in cases where resources are tried to be reserved for existing streaming PS RAB . This parameter has no effect to overload control.0..11 step 1AMRLCTXWindowSizeSRB3AM RLC transmission window size for SRB 3NOKRNC, RN7.0RNRLConLineThis parameter defines the transmission and receiving window sizes of the AM RLC entities for the signalling radio bearer RB3. The value is expressed in the number of AMD PDUs.16 (0), 32 (1), 64 (2), 128 (3), 256 (4), 512 (5), 768 (6), 1024 (7), 1536 (8), 2047 (9)RTOverNRTPriThresholdARP2RT-over-NRT priority threshold for ARP2NOKRNC, RN7.0RNPSonLineThis parameter defines the highest priority used by PS NRT RAB that can be used as a target for RT-over-NRT functionality when streaming PS RAB with Allocation and Retention Priority (ARP) 2 needs resources in RAB establishment phase. PS NRT RABs with higher priority cannot be used as a target for RT-over-NRT actions. This parameter has no effect in cases where resources are tried to be reserved for existing streaming PS RAB . This parameter has no effect to overload control.0..11 step 1AMRLCTXWindowSizeSRB2AM RLC transmission window size for SRB 2NOKRNC, RN7.0RNRLConLineThis parameter defines the transmission and receiving window sizes of the AM RLC entities for the signalling radio bearer RB2. The value is expressed in the number of AMD PDUs.16 (0), 32 (1), 64 (2), 128 (3), 256 (4), 512 (5), 768 (6), 1024 (7), 1536 (8), 2047 (9)angleTilt AngleNOKRNC, RN7.0WCELmodifiableAntenna element electrical tilt angle. Note: Parameter should be modified via plan based provisioning as it is not supported by Send to Network functionality in CM Editor.-90..90 step 0.1S10msUEDTXLongPreambleUE DTX Long Preamble Str 10ms TTINOKRNC, RN7.0RNHSPAonLineThe parameter determines in slots the length of the long preamble associated with the UE DTX Cycle 2. This is part of DPCCH Gating (UL DTX) subfeature. This parameter is used for streaming when 10 ms TTI is used on E-DCH.2 (0), 4 (1), 15 (2)DropTimeDrop TimeNOKRNC, RN7.0FMCSonLineWhen an active set cell leaves the reporting range (drop window), the cell must continuously stay outside the reporting range for a given period of time before the UE can send a Measurement Report to the RNC in order to remove the cell from the active set (event 1B). The length of this period is controlled by the parameter Drop Time.0 ms (0), 10 ms (1), 20 ms (2), 40 ms (3), 60 ms (4), 80 ms (5), 100 ms (6), 120 ms (7), 160 ms (8), 200 ms (9), 240 ms (10), 320 ms (11), 640 ms (12), 1280 ms (13), 2560 ms (14), 5000 ms (15)AdjiMinRSCPMinimum CPICH RSCP for IFHONOKRNC, RN7.0HOPIonLineThis parameter determines the minimum required CPICH RSCP level which the averaged measurement result of the best inter-frequency neighbour cell must exceed before the quality reason inter-frequency handover is possible.-115..-25 step 1TCPMeasFilterCoeffFiltering Coefficient of TCP common measurementsNOKRNC, RN7.0WCELonLineThis parameter defines the value of the Measurement Filter Coefficient for the common measurement of the transmitted carrier power. The parameter is applied for the measurements of the common meas