Front page

WCDMA RAN, Rel. RU30, Operating Documentation, Parameters (Excel)

WCDMA Radio Network Configuration Parameters

Nokia Siemens Networks Proprietary and Confidential

DN00211177Issue 11L2012-02-15The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This documentation is intended for theuse of Nokia Siemens Networks customers only for the purposes of the agreement under whichthe document is submitted, and no part of it may be used, reproduced, modified or transmittedin any form or means without the prior written permission of Nokia Siemens Networks. Thedocumentation has been prepared to be used by professional and properly trained personnel,and the customer assumes full responsibility when using it. Nokia Siemens Networks welcomescustomer comments as part of the process of continuous development and improvement of thedocumentation.

The information or statements given in this documentation concerning the suitability, capacity,or performance of the mentioned hardware or software products are given "as is" and all liabilityarising in connection with such hardware or software products shall be defined conclusively andfinally in a separate agreement between Nokia Siemens Networks and the customer. However,Nokia Siemens Networks has made all reasonable efforts to ensure that the instructionscontained in the document are adequate and free of material errors and omissions. NokiaSiemens Networks will, if deemed necessary by Nokia Siemens Networks, explain issues whichmay not be covered by the document.

Nokia Siemens Networks will correct errors in this documentation as soon as possible. IN NOEVENT WILL Nokia Siemens Networks BE LIABLE FOR ERRORS IN THIS DOCUMENTATIONOR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT,INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITEDTO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESS OPPORTUNITYOR DATA,THAT MAY ARISE FROM THE USE OF THIS DOCUMENT OR THE INFORMATIONIN IT.This documentation and the product it describes are considered protected by copyrights andother intellectual property rights according to the applicable laws.

The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademarkof Nokia Corporation. Siemens is a registered trademark of Siemens AG.

Other product names mentioned in this document may be trademarks of their respectiveowners, and they are mentioned for identification purposes only.

Copyright Nokia Siemens Networks 2012. All rights reserved

Important Notice on Product Safety Elevated voltages are inevitably present at specific points in this electrical equipment. Some of the parts may also have elevated operating temperatures.

Non-observance of these conditions and the safety instructions can result in personal injury or in property damage.

Therefore, only trained and qualified personnel may install and maintain the system.

The system complies with the standard EN 60950 / IEC 60950. All equipment connected has to comply with the applicable safety standards.

The same text in German: Wichtiger Hinweis zur Produktsicherheit In elektrischen Anlagen stehen zwangslufig bestimmte Teile der Gerte unter Spannung. Einige Teile knnen auch eine hohe Betriebstemperatur aufweisen.

Eine Nichtbeachtung dieser Situation und der Warnungshinweise kann zu Krperverletzungen und Sachschden fhren.

Deshalb wird vorausgesetzt, dass nur geschultes und qualifiziertes Personal die Anlagen installiert und wartet.

Das System entspricht den Anforderungen der EN 60950 / IEC 60950. Angeschlossene Gerte mssen die zutreffenden Sicherheitsbestimmungen erfllen.

ReportMO ClassFull NameAbbreviated Name3GPP nameDescriptionMultiplicityRelated functionsSystem informationRelated parametersParameter relationshipsGroupClassificationInterfacesRange and stepDefault valueDefault value notesSpecial valueFormula for getting Internal ValueRequired on creationModificationRelated featuresADJDChange originADJDChangeOriginThe parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-Value is set by the systemValue set by the systemNot modifiableSoft Handover Based on Detected Set Reporting (optional)ADJDIdentifier of additional intra-frequency adjacencyADJDIdIdentification of ADJD (Additional Intra-frequency Adjacency) within a WCDMA cell.1IdentificationOperation and MaintenanceRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI0...31, step 1-Default value is not possibleinternal_value = gui_valueMandatoryNot modifiableSoft Handover Based on Detected Set Reporting (optional)ADJDCell IdentifierAdjdCICell Identity; C-IdAn additional intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier.1Handover ControlHCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, Planner RAC1...65535, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDPrimary CPICH powerAdjdCPICHTxPwrPrimary CPICH powerThe parameter indicates the transmission power level of the Primary CPICH (Common Pilot Channel) of the additional intra-frequency neighbour cell.1Handover ControlPtxPrimaryCPICH of WCEL - If the target cell is in the same RNC, ADJD- Primary CPICH power shall have the same value as WCEL-Transmission power of the primary CPICH channel parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, Planner RAC-10...50 dBm, step 0.1 dBm-Default value is not possibleinternal_value = gui_value * 10MandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDDisable Effect on Reporting RangeAdjdDERRCells forbidden to affect Reporting rangeThe parameter indicates whether the additional intra-frequency neighbour cell is forbidden to affect the reporting range (addition/drop window) calculation, if it belongs to the active set.1Handover ControlHCMeasurementsRadio Resource UtilisationRNC -> UE, RAC RNC, EM RNC, RACApp RACNo (0), Yes (1)No (0)The additional neighbour cell can affect the reporting range.OptionalOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDHSDPA HOPS identifierAdjdHSDPAHopsIdThe parameter identifies the parameter set (HOPS object) which controls the intra-frequency handover to the additional neighbour cell when a user has HS-DSCH allocated.1Handover ControlHOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)HSDPAenabled of WCEL - If HSDPA is enabled in the parent cell of the additional intra-frequency neighbour cell, the special value 'Not defined' is not allowed for AdjdHSDPAHopsId. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC1...100, step 10Not definedNot defined (0)internal_value = gui_valueOptionalOn-lineSoft Handover Based on Detected Set Reporting (optional) AND HSDPA (optional)ADJDLocation Area CodeAdjdLACLocation Area Code; LACThe PLMN Identifier and the Location Area Code (LAC) determine the Location Area (LAI) to which the additional intra-frequency neighbour cell belongs to.1Handover ControlLAC of WCEL - If the target cell is in the same RNC, ADJD- Location Area Code shall have the same value as WCEL-Location Area Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDMobile Country CodeAdjdMCCMobile Country Code; MCCAn additional intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier. Furthermore, the Global RNC Identifier is composed of the PLMN Identifier, which consists of the Mobile Country Code (MCC), the Mobile Network Code (MNC), and the RNC Identifier.1Handover ControlWCELMCC of WCEL - If the target cell is in the same RNC, ADJD- Mobile Country Code shall have the same value as WCEL-Mobile Country Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDMobile Network CodeAdjdMNCMobile Network Code; MNCAn additional intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier. Furthermore, the Global RNC Identifier is composed of the PLMN Identifier, which consists of the Mobile Country Code (MCC), the Mobile Network Code (MNC), and the RNC Identifier.1Handover ControlWCELMNC of WCEL - If the target cell is in the same RNC, ADJD- Mobile Network Code shall have the same value as WCEL-Mobile Network Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDMobile Network Code LengthAdjdMNCLengthThe parameter defines whether 2 or 3 digits are used in the mobile network code (MNC) of the additional intra-frequency neighbour cell.1AdjdMNC of ADJD - When this parameter is modified also the value of the mobile network code is always changed. (public)WCELMNCLength of WCEL - If the target cell is in the same RNC, ADJD- Mobile Network Code Length shall have the same value as WCEL-Mobile Network Code Length parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC2 digits (2), 3 digits (3)2 digits (2)OptionalOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDNRT HOPS IdentifierAdjdNRTHopsIdThe parameter defines the parameter set (HOPS object) which controls the intra-frequency handover of a non-real time (NRT) radio bearer to the additional neighbour cell.1Handover ControlHOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC1...100, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDRouting Area CodeAdjdRACRouting Area Code; RACThe Location Area (LAI) and the Routing Area Code (RAC) determine the Routing Area to which the additional intra-frequency neighbour cell belongs to.1Handover ControlRAC of WCEL - If the target cell is in the same RNC, ADJD- Routing Area Code shall have the same value as WCEL-Routing Area Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...255, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDRNC IdentifierAdjdRNCIdRNC Identifier; RNC-IdAn additional intra-frequency neighbor cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier. The Global RNC Identifier is composed of the PLMN Identifier and the RNC Identifier.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.1Handover ControlHCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65534, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDRT HOPS IdentifierAdjdRTHopsIdThe parameter defines the parameter set (HOPS object) which controls the intra-frequency handover of a real time (RT) radio bearer to the additional neighbour cell.1Handover ControlHOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC1...100, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDHSDPA HOPS identifier for AMR multi-serviceAdjdRTWithHSDPAHopsIdThe parameter identifies the parameter set (HOPS object) which controls the intra-frequency handover to the additional neighbour cell when a user has HS-DSCH allocated simultaneously with the AMR speech CS RAB.1Handover ControlHOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)HSDPAenabled of WCEL - If AMR service can be used with HS-DSCH and HSDPA is enabled in the parent cell of the additional intra-frequency neighbour cell, the special value 'Not defined' is not allowed for AdjdRTWithHSDPAHopsId. (public)AMRWithHSDSCH of RNFC - If AMR service can be used with HS-DSCH and HSDPA is enabled in the parent cell of the additional intra-frequency neighbour cell, the special value 'Not defined' is not allowed for AdjdRTWithHSDPAHopsId. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC1...100, step 10Not definedNot defined (0)internal_value = gui_valueOptionalOn-lineSoft Handover Based on Detected Set Reporting (optional) AND HSDPA (optional)ADJDPrimary Scrambling CodeAdjdScrCodePrimary scrambling codeThe downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the additional intra-frequency neighbour cell.

Primary Scrambling Code of an additional intra-frequency neighbour cell must be unique within the basic and additional intra-frequency neighbour cells.1Handover ControlPriScrCode of WCEL - If the target cell is in the same RNC, ADJD- Primary Scrambling Code shall have the same value as WCEL-Primary downlink scrambling code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC0...511, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJDTx Diversity IndicatorAdjdTxDivTx diversity indicatorThe parameter indicates whether the Primary CPICH of the additional intra-frequency neighbour cell is broadcast from two antennas. If the Primary CPICH is broadcast from two antennas, the UE measures the received code power from each antenna separately and sums the measurement results together in order to get the total received code power on the Primary CPICH.1Handover ControlHCConfigurationRadio Resource UtilisationRNC -> UE, RAC RNC, EM RNC, RACApp RACTx Diversity not used (0), Tx Diversity in use (1)Tx Diversity not used (0)Tx Diversity not usedOptionalOn-lineSoft Handover Based on Detected Set Reporting (optional)ADJGChange originADJGChangeOriginThe parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-Value is set by the systemValue set by the systemNot modifiableADJGInter-system adjacency identifierADJGIdIdentification of inter-system adjacency (GSM or GAN) within a WCDMA cell. If Wireless Priority Service is enabled, then operator shall specify a unique GSM cell as the target cell of blind handover. When Wireless Priority Service feature is enabled, then value 0 is a special value which indicates that cell is target cell of blind handover. This means that Inter-system adjacency identifier 0 shall be defined by operator if Wireless Priority Service feature is enabled.1IdentificationOperation and MaintenanceRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI0...31, step 1-Default value is not possibleZero has special meaning only when WPS is enabled. (0)internal_value = gui_valueMandatoryNot modifiableWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGInter-system Neighbour Cell TypeADJGTypeThe parameter indicates whether the inter-system neighbour cell is a GSM cell or a GAN cell.1Handover ControlHCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RACGSM cell (0), GAN cell (1)GSM cell (0)GSM cellMandatoryNot modifiableWCDMA - GSM Inter-system Handover (optional) AND UTRAN-GAN Interworking (optional)ADJGBase Station Colour CodeAdjgBCCBase Station Colour Code (BCC)Base Station Identity Code (BSIC) is composed of Network Colour Code (NCC) and Base Station Colour Code (BCC). The parameter value is set by the system for the GAN neighbour cell.1Handover Control, Mobile Device ControlSIB11, SIB12ADJGType of ADJG - Parameter value is always 0 if the value of ADJGType is 'GAN cell'. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC0...7, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGBCCH ARFCNAdjgBCCHBCCH ARFCNThis parameter contains the absolute RF channel number of the Broadcast Control Channel (BCCH) of the GSM neighbour cell. The parameter value is set by the system for the GAN neighbour cell.1Handover Control, Mobile Device ControlSIB11, SIB12AdjgBandIndicator of ADJG - Indicates whether the BCCH ARFCN belongs to the GSM 1900 band. (public)ADJGType of ADJG - Parameter value is always 0 if the value of ADJGType is 'GAN cell'. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...1023, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGBand IndicatorAdjgBandIndicatorBand indicatorThis parameter indicates whether the BCCH ARFCN of the neighbour cell belongs to the GSM 1900 band. The parameter value is set by the system for the GAN neighbour cell.1Handover Control, Mobile Device ControlSIB11, SIB12AdjgBCCH of ADJG - Contains the absolute RF channel number of the Broadcast Control Channel (BCCH) of the GSM neighbour cell. (public)ADJGType of ADJG - Parameter value is always 'No' if the value of ADJGType is 'GAN cell'. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNCNo (0), GSM 1900 (1)-Default value is not possible.MandatoryNot modifiableWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGCell IdentifierAdjgCICell Identifier; CIGSM 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.1Handover Control, Mobile Device ControlHCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGLocation Area CodeAdjgLACLocation Area Code; LACThe PLMN Identifier and Location Area Code (LAC) determine the Location Area (LAI) to which the GSM or GAN neighbour cell belongs to. The PLMN identifier is composed of the Mobile Country Code (MCC) and the Mobile Network Code(MNC).1Handover Control, Mobile Device ControlHCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGMobile Country CodeAdjgMCCMobile Country Code; MCCGSM 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).1Handover Control, Mobile Device ControlSIB18HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> UE, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGMobile Network CodeAdjgMNCMobile Network Code; MNCGSM 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).1Handover Control, Mobile Device ControlSIB18AdjgMNCLength of ADJG - Value range depends from the AdjgMNCLength: 00..99 (if AdjgMNCLength is 2) or 000..999 (if AdjgMNCLength is 3). (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> UE, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGMobile Network Code LengthAdjgMNCLengthThis parameter defines whether 2 or 3 digits are used in Mobile Network Code.

When this parameter is modified also the value of MNC used by system is always changed.1SIB18HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC2 digits (2), 3 digits (3)2 digits (2)MandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGNetwork Colour CodeAdjgNCCNetwork Colour Code (NCC)Base Station Identity Code (BSIC) is composed of Network Colour Code (NCC) and Base Station Colour Code (BCC). The parameter value is set by the system for the GAN neighbour cell.1Handover Control, Mobile Device ControlSIB11, SIB12ADJGType of ADJG - Parameter value is always 0 if the value of ADJGType is 'GAN cell'. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC0...7, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGInclude in System InformationAdjgSIBThe parameter indicates whether the GSM neighbour cell is included in the System Information Block 11&11bis&12&18 for the cell selection and re-selection procedures. The GSM neighbour cell is included in the system information when the value of the parameter is "SIB". The GSM neighbour cell is included in the extended system information when the value of the parameter is "SIBbis". The value of the parameter is set by the system for the GAN neighbour cell.

If the Wireless Priority Service feature is enabled, then the parameter Include in System Information shall be set to have value "SIB" for ADJG-0.

The total number of intra-frequency, inter-frequency and GSM neighbour cells, which can be included in the System Information Block type 11 (SIB11), is 47. When HCS is used, the capacity is limited to 35 cells.

System Information Block type 11bis (SIB11bis) increases the maximum number of adjacencies to 96. SIB11bis can only be decoded by the UEs which support 3GPP R6.

If the total number of intra-frequency, inter-frequency and GSM neighbour cells, which are included in the System Information, exceeds the physical size of SIB data, the NBAP interface is not able to pack the neighbour cell information into the SIB data and the scheduling of the system information blocks fails. The cell is blocked by the system and an alarm 7771 WCDMA CELL OUT OF USE (BCCH scheduling error) is reported for the cell.

Note: The parameter AdjgSIB does not affect GSM measurements in CELL_DCH state of the connected mode. That is, all GSM neighbour cells are monitored for the inter-system handover regardless of the value of the parameter AdjgSIB.1Handover ControlSIB11, SIB12, SIB18, SIB11bisAdjiSIB of ADJI - Parameter indicates whether the inter-frequency neighbour cell is included in the System Information for the cell selection and re-selection procedures. (public)AdjsSIB of ADJS - Parameter indicates whether the intra-frequency neighbour cell is included in the system information for the cell selection and re-selection procedures. (public)ADJGType of ADJG - Parameter value is always "No" if the value of ADJGType is "GAN cell". (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RAC RACAppNo (0), SIB (1), SIBbis (2)SIB (1)The GSM neighbour cell is included in the system information.MandatoryOn-line( WCDMA - GSM Inter-system Handover (optional) AND Extension of sib11 (standard) ) OR UTRAN-GAN Interworking (optional)ADJGMaximum UE TX Power on RACHAdjgTxPwrMaxRACHMaximum allowed UL TX power; UE_TXPWR_MAX_RACHThis parameter indicates the maximum transmission power level that a UE can use when accessing the GSM neighbour cell on the RACH. The UE uses the parameter in the cell re-selection procedure. If the maximum output power of the UE is lower than the value of the parameter, the UE adds the power difference (dB value) to the minimum required GSM RSSI level, which the measurement result of the GSM neighbour cell must exceed before the cell re-selection is possible. The parameter value is set by the system for the GAN neighbour cell.1Mobile Device ControlSIB11, SIB12ADJGType of ADJG - Parameter value is always 0 dBm if the value of ADJGType is 'GAN cell'. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC0...33 dBm, step 1 dBm-Default value is not possible.internal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGMaximum UE TX Power on TCHAdjgTxPwrMaxTCHThis parameter indicates the maximum transmission power level that a UE may use on a TCH in the GSM neighbour cell. The RNC uses the parameter in the decision algorithm of the inter-RAT (GSM) handover. If the maximum output power of the UE is lower than the value of the parameter, the RNC adds the power difference (dB value) to the minimum required GSM RSSI level, which the measurement result of the GSM neighbour cell must exceed before the handover is possible. The parameter value is set by the system for the GAN neighbour cell.1Handover ControlAdjgRxLevMinHO of HOPG - Determines the minimum required GSM RSSI level which the averaged RSSI value of the GSM neighbour cell must exceed before the coverage (or quality) reason handover to GSM is possible. (public)ADJGType of ADJG - Parameter value is always 0 dBm if the value of ADJGType is 'GAN cell'. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC0...43 dBm, step 1 dBm-Default value is not possible.internal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGNRT HOPG IdentifierNrtHopgIdentifierDefines the parameter set (HOPG object) which controls the inter-RAT handover of a non-real time (NRT) radio bearer to the GSM neighbour cell. The parameter value is set by the system for the GAN neighbour cell.1Handover ControlSIB11, SIB12, SIB18HOPGId of HOPG - Check that the relevant HOPG object exists in the database. (public)ADJGType of ADJG - Special value 'Not defined' is mandatory if the value of the parameter ADJGType is 'GAN cell'. Otherwise, the special value is not allowed. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...100, step 1-Default value is not possible.Not defined (0)internal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJGRT HOPG IdentifierRtHopgIdentifierDefines the parameter set (HOPG object) which controls the inter-RAT handover of a real time (RT) radio bearer to the GSM neighbour cell. The parameter value is set by the system for the GAN neighbour cell.1Handover ControlSIB11, SIB12, SIB18HOPGId of HOPG - Check that the relevant HOPG object exists in the database. (public)ADJGType of ADJG - Special value 'Not defined' is mandatory if the value of the parameter ADJGType is 'GAN cell'. Otherwise, the special value is not allowed. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...100, step 1-Default value is not possible.Not defined (0)internal_value = gui_valueMandatoryOn-lineWCDMA - GSM Inter-system Handover (optional) OR UTRAN-GAN Interworking (optional)ADJIChange originADJIChangeOriginThe parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-Value is set by the systemValue set by the systemNot modifiableADJIInter-frequency adjacency identifierADJIIdIdentification of ADJI (Inter-Frequency Adjacency) within a WCDMA Cell.1IdentificationOperation and MaintenanceRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI0...63, step 1-Default value is not possibleinternal_value = gui_valueMandatoryNot modifiableADJICell IdentifierAdjiCICell Identity; C-IdAn inter-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJI objects is required.1Handover Control, Mobile Device ControlHCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJIPrimary CPICH powerAdjiCPICHTxPwrPrimary CPICH powerThis parameter indicates the transmission power level of the Primary CPICH (Common Pilot Channel) of the inter-frequency neighbour cell.1Handover ControlPtxPrimaryCPICH of WCEL - If the target cell is in the same RNC, ADJI- Primary CPICH power shall have the same value as WCEL-Transmission power of the primary CPICH channel parameter of the target cell. (public)The modification is always possible except if the new target cell is existing in local RNC. In this case the modification is done via the WCEL object. Cross-check between RNC, WCEL and ADJI objects is required.HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, Planner RAC-10...50 dBm, step 0.1 dBm-internal_value = gui_value * 10MandatoryOn-lineADJINCHO activity of common load measurement DRNC cellAdjiComLoadMeasDRNCCellNCHOThis parameter controls the activity of common load measurement of certain inter-frequency neighbour cell that is controlled by the DRNC. The measurement is controlled over Iur by using RNSAP signalling.

The measurement is used to detect whether non-critical handovers are possible. If common load measurement is activated, the measurement is event based (event A and event B), and the following RNC configuration parameters define the measurement: NCHOThrComLoadMeasDRNCCell, NCHOHystComLoadMeasDRNCCell, and NCHOFilterCoeffComLoadMeasDRNCCell.

Value 1 of the parameter means that the measurement is activated. Note that the DRNC may reject activation due to capacity reasons or if it does not support this measurement.

"Non-critical handovers" are, for example, service and UE capability type handovers. Service and load based handover and Multi-Band Load Balancing make use of this parameter.1Admission Control, Handover ControlNCHOFilterCoeffComLoadMeasDRNCCell of RNMOBI - This parameter defines the filter coefficient for the common load measurements. (public)NCHOHystComLoadMeasDRNCCell of RNMOBI - This parameter defines the hysteresis time for the common load measurements. (public)NCHOThrComLoadMeasDRNCCell of RNMOBI - This parameter defines the load threshold for the common load measurements. (public)HCConfigurationRadio Resource UtilisationEM RNC, RAC RNC, RAC RACAppNot activated (0), Activated (1)Not activated (0)As a default measurement is not activated.MandatoryOn-lineLoad and Service Based Inter-System/Inter-Frequency Handover (optional)ADJICPICH EcNo offset for the non-critical HO procedureAdjiEcNoOffsetNCHOThis parameter defines CPICH EcNo offset for the non-critical inter-frequency handover procedure.

If the measured frequency includes a cell that is blocked in the non-critical handover procedure, the handover to the selected target cell can be done if the blocked cell is not inside the soft handover range of the target cell.

A cell is not inside the soft handover range if the measured EcNo of the best target cell subtracted with the value of this parameter is higher than measured EcNo value of the blocked cell. EcNo offset of the target cell is used in the calculation.

"Non-critical handovers" are, for example, service and UE capability type handovers. Service and load based handover make use of this parameter.1Handover ControlHCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RAC RACApp0...20 dB, step 0.5 dB6 dBinternal_value = gui_value * 2MandatoryOn-lineLoad and Service Based Inter-System/Inter-Frequency Handover (optional)ADJIHandling of blocked IF neighbour cell in SLHO procedureAdjiHandlingBlockedCellSLHOThis parameter defines if an inter-frequency neighbour cell that is blocked from the service- and load-based handover procedure blocks all inter-frequency neighbour cells in that WCDMA frequency from the SLHO procedure.

If the parameter has the value 0 and the cell is blocked from the SLHO procedure, all inter-frequency neighbour cells in the WCDMA frequency are removed from the list of possible handover targets in the SLHO procedure.

If the parameter has the value 1 and the cell is blocked from the SLHO procedure, RNC measures this WCDMA frequency in a normal manner. A handover to the selected target cell can be done if the blocked cell is not inside the soft handover range. The soft handover range for each target cell is defined with the RNP parameter AdjiEcNoOffsetNCHO.1Handover ControlAdjiEcNoOffsetNCHO of ADJI - This parameter defines the soft handover range of the target cell. (public)HCMeasurementsRadio Resource UtilisationRAC RNC, EM RNC, RAC RACAppAll cells in that frequency are blocked (0), Frequency is measured (1)All cells in that frequency are blocked (0)As a default all cells in that frequency are blocked if this cell is blocked.MandatoryOn-lineLoad and Service Based Inter-System/Inter-Frequency Handover (optional)ADJILocation Area CodeAdjiLACLocation Area Code; LACPLMN Identifier and Location Area Code (LAC) determine the Location Area (LAI) to which the inter-frequency neighbour cell belongs to.1Handover Control, Mobile Device ControlLAC of WCEL - If the target cell is in the same RNC, ADJI- Location Area Code shall have the same value as WCEL-Location Area Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC UE, RNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJIMobile Country CodeAdjiMCCMobile Country Code; MCCAn inter-frequency neighbour cell is identified with UTRAN Cell Identifier which is composed of Global RNC Identifier and Cell Identifier. Furthermore, Global RNC Identifier is composed of RNC Identifier and PLMN Identifier, which in turn consists of Mobile Country Code (MCC) and Mobile Network Code (MNC).

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJI objects is required.1Handover Control, Mobile Device ControlSIB18HCConfigurationRadio Resource UtilisationRNC UE, RNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJIMobile Network CodeAdjiMNCMobile Network Code; MNCAn inter-frequency neighbour cell is identified with UTRAN Cell Identifier, which is composed of Global RNC Identifier and Cell Identifier. Furthermore, Global RNC Identifier is composed of RNC Identifier and PLMN Identifier, which in turn consists of Mobile Country Code (MCC) and Mobile Network Code (MNC).

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJI objects is required.1Handover Control, Mobile Device ControlSIB18AdjiMNCLength of ADJI - Value range depends from the AdjiMNCLength: 00..99 (if AdjiMNCLength is 2) or 000..999 (if AdjiMNCLength is 3). (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJIMobile Network Code LengthAdjiMNCLengthThe parameter defines whether 2 or 3 digits are used in the Mobile Network Code (MNC).

When this parameter is modified, also the value of the MNC used by the system is always changed.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJI objects is required.1SIB11, SIB12, SIB18AdjiMNC of ADJI - The value range of Mobile Network Code depends on the value of Mobile Network Code Length (AdjiMNCLenth). (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC2 digits (2), 3 digits (3)2 digits (2)MandatoryOn-lineADJIADJI HSPA Cell for Non Critical HandoverAdjiNCHOHSPASupportThis parameter indicates whether the neighbouring cell provides the HSPA support for non-critical handovers.1Handover ControlHCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RAC RACAppNo HSPASupport (0), HSPASupport (1)No HSPASupport (0)The neighbouring cell does not support HSPA.OptionalOn-lineHSDPA inter-frequency handover (optional)ADJIRouting Area CodeAdjiRACRouting Area Code; RACLocation Area (LAI) and Routing Area Code (RAC) determine the Routing Area to which the inter-frequency neighbour cell belongs to.1Handover Control, Mobile Device ControlRAC of WCEL - If the target cell is in the same RNC, ADJI- Routing Area Code shall have the same value as WCEL-Routing Area Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...255, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJIRNC IdentifierAdjiRNCidRNC Identifier; RNC-IdAn inter-frequency neighbor cell is identified with UTRAN Cell Identifier, which is composed of Global RNC Identifier and Cell Identifier. Global RNC Identifier is composed of PLMN Identifier and RNC Identifier.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL, and ADJI objects is required.

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.1Handover Control, Mobile Device ControlHCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65534, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJIInclude in System InformationAdjiSIBThis parameter indicates whether the inter-frequency neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The inter-frequency neighbour cell is included in the system information when the value of the parameter is "SIB". The inter-frequency neighbour cell is included in the extended system information when the value of the parameter is "SIBbis".

The maximum number of inter-frequency neighbour cells that can be included in the System Information Block 11&12&18 is 32. The neighbouring cells can be distributed to up to two FDD carriers (ref. 3GPP TS 25.133).

The total number of intra-frequency, inter-frequency and GSM neighbour cells, which can be included in the System Information Block type 11 (SIB11), is 47. When HCS is used, the capacity is limited to 35 cells.

System Information Block type 11bis (SIB11bis) increases the maximum number of adjacencies to 96. SIB11bis can only be decoded by the UEs which support 3GPP R6.

If the total number of intra-frequency, inter-frequency and GSM neighbour cells, which are included in the System Information, exceeds the physical size of SIB data, the NBAP interface is not able to pack the neighbour cell information into the SIB data and the scheduling of the system information blocks fails. The cell is blocked by the system and an alarm 7771 WCDMA CELL OUT OF USE (BCCH scheduling error) is reported for the cell.

Note: The parameter AdjiSIB does not affect inter-frequency measurements in CELL_DCH state of connected mode. That is, all inter-frequency neighbour cells are monitored for the inter-frequency handover regardless of the value of the parameter AdjiSIB.1Handover ControlSIB11, SIB12, SIB18, SIB11bisAdjsSIB of ADJS - The parameter indicates whether the intra-frequency neighbour cell is included in the system information for the cell selection and re-selection procedures. (public)AdjgSIB of ADJG - The parameter indicates whether the GSM neighbour cell is included in the system information for the cell selection and re-selection procedures. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RACNo (0), SIB (1), SIBbis (2)SIB (1)The inter-frequency neighbour cell is included in the SIB.MandatoryOn-lineExtension of sib11 (standard)ADJIPrimary Scrambling CodeAdjiScrCodePrimary scrambling codeDefines the downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the inter-frequency neighbour cell.1Handover Control, Mobile Device ControlSIB11, SIB12PriScrCode of WCEL - Primary Scrambling Code and UTRA RF Channel Number combination of an inter-frequency neighbour cell must be unique within inter-frequency neighbour cells. The modification is always possible except if the new target cell is existing in the local RNC. In this case the modification is done via the WCEL object. Cross-check between RNC, WCEL and ADJI objects is required. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC0...511, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJITx Diversity IndicatorAdjiTxDivTx Diversity IndicatorIndicates, whether the Primary CPICH of the inter-frequency neighbour cell is broadcast from two antennas. If the Primary CPICH is broadcast from two antennas, the UE measures the received code power from each antenna separately, and sums the measurement results together in order to get the total received code power on the Primary CPICH.1Handover Control, Mobile Device ControlSIB11, SIB12The value must always be 0 (not used) if the inter-frequency neighbour cell is controlled by the local RNC; cross-check between RNC, WCEL and ADJI objects is required.HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, RACApp RACTx Diversity not used (0), Tx Diversity in use (1)Tx Diversity not used (0)MandatoryOn-lineADJIMaximum UE TX Power on DPCHAdjiTxPwrDPCHMaximum allowed UL TX powerThis parameter indicates the maximum transmission power level that a UE may use on the DPCH in the neighbouring cell. The RNC uses the parameter in the decision algorithm of the inter-frequency handover. If the maximum output power of the UE is lower than the value of the parameter, the RNC adds the power difference (dB value) to the minimum required CPICH RSCP level, which the measurement result of the neighbour cell must exceed before the handover is possible.1Handover ControlAdjiMinRSCP of HOPI - 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. (public)UEtxPowerMaxDPCH of WCEL - Defines the maximum transmission power level a UE can use on DPCH. If the target cell is in the same RNC, ADJI-Maximum UE TX Power on DPCH shall have the same value as WCEL-Maximum UE transmission power on DPCH parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC-50...33 dBm, step 1 dBm-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJIMaximum UE TX Power on RACHAdjiTxPwrRACHMaximum allowed UL TX power; UE_TXPWR_MAX_RACHThis parameter indicates the maximum transmission power level that a UE can use when accessing the neighbouring cell on the RACH. The UE uses the parameter in the cell re-selection procedure. If the maximum output power of the UE is lower than the value of the parameter, the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level, which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible.1Mobile Device ControlSIB11, SIB12UEtxPowerMaxPRACH of WCEL - The modification is always possible except if the new target cell is existing in the local RNC. In this case the modification is done via the WCEL object. Cross-check between RNC, WCEL and ADJI objects is required. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC-50...33 dBm, step 1 dBm-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJIUTRA Absolute Radio Frequency Channel NumberAdjiUARFCNUARFCNThis parameter defines the UTRA Absolute Radio Frequency Channel Number of the inter-frequency neighbour cell.

This parameter defines the downlink channel number and the downlink carrier frequency. The RNC calculates the uplink carrier frequency and the uplink channel number from the downlink carrier frequency and the duplex distance used in the RF band.

RF band I: Allowed DL channel numbers are 10562-10838.

RF band II: Allowed DL channel numbers are 9662-9938. In the US allowed DL channel numbers are 9663-9712, 9763-9812, and 9888-9937. Allowed additional DL channel numbers are 412, 437, 462, 487, 512, 537, 562, 587, 612, 637, 662, and 687.

RF band III: Allowed DL channel numbers are 1162-1513.

RF band IV: Allowed DL channel numbers are: 1537-1738. Allowed additional DL channel numbers are 1887, 1912, 1937, 1962, 1987, 2012, 2037, 2062, and 2087.

RF band V : Allowed DL channel numbers are 4357-4458. Allowed additional DL channel numbers are 1007, 1012, 1032, 1037, 1062, and 1087.RF band VI: Allowed DL channel numbers are 4387 - 4413. Allowed additional DL channel numbers are 1037 and 1062.RF band VII: Allowed DL channel numbers are 2237 - 2563. Allowed additional DL channel numbers are 2587, 2612, 2637, 2662, 2687, 2712, 2737, 2762, 2787, 2812, 2837, 2862, 2887 and 2912.

RF band VIII: Allowed DL channel numbers are: 2937-3088.

RF band IX: Allowed DL channel numbers are 9237-9387.RF band X: Allowed DL channel numbers are 3112-3388. Allowed additional DL channel numbers are 3412, 3437, 3462, 3487, 3512, 3537, 3562, 3587, 3612, 3637, 3662 and 3687.RF band XI: Allowed DL channel numbers are 3712-3812.RF band XII: Allowed DL channel numbers are 3837 - 3903. Allowed additional DL channel numbers are 3927, 3932, 3957, 3962, 3987 and 3992.RF band XIII: Allowed DL channel numbers are 4017 - 4043. Allowed additional DL channel numbers are 4067 and 4092.RF band XIV: Allowed DL channel numbers are 4117 - 4143. Allowed additional DL channel numbers are 4167 and 4192. RF band XIX: Allowed DL channel numbers are 712 - 763. Allowed additional DL channel numbers are 787, 812 and 837

Note UEs that support band XIX should also support band VI RF requirements and signalling requirements. Note that if the UE is on a network with MCC set to Japan then it assumes that any DL UARFCN sent by the network from the overlapping region of Band V and Band VI is from Band VI. If the UE is on a network with a MCC other than Japan then it assumes that any DL UARFCN sent by the network from the overlapping region of Band V and Band VI is from Band V.1Handover ControlSIB11, SIB12UARFCN of WCEL - If the target cell is in the same RNC, ADJI- UTRA Absolute Radio Frequency Channel Number shall have the same value as WCEL-UTRA Absolute Radio Frequency Channel Number parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC0...16383, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineWCDMA 1900 (optional) OR WCDMA 850 (optional) OR WCDMA 1700 & 1800 (optional) OR WCDMA 1700/2100 (optional) OR WCDMA 900 (optional) OR Full WCDMA 1900 UARFCN range (optional)ADJIBlind HO target cellBlindHOTargetCellThis parameter indicates whether the neighbor cell is defined as a target cell for inter-frequency blind handover. Only one target cell per frequency can be defined.1Handover ControlAdjiRNCid of ADJI - The system checks that the target cell RNC id (AdjiRNCid) is the same as the source cell RNC id (RNCid). (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RACdisabled (0), enabled (1)disabled (0)The target cell of this adjacency is not used as a target for Blind HO.OptionalOn-lineMulti-Band Load Balancing (optional)ADJINRT HOPI IdentifierNrtHopiIdentifierDefines the parameter set (HOPI object) which controls the inter-frequency handover of a non-real time (NRT) radio bearer to the neighbouring cell.1Handover ControlSIB11, SIB12, SIB18HOPIId of HOPI - Check that the relevant HOPI object exists in the database. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...100, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJIRT HOPI IdentifierRtHopiIdentifierDefines the parameter set (HOPI object) which controls the inter-frequency handover of a real time (RT) radio bearer to the neighbouring cell.1Handover ControlSIB11, SIB12, SIB18HOPIId of HOPI - Check that the relevant HOPI object exists in the database. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...100, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJLChange originADJLChangeOriginThe parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-Value is set by the systemValue set by the systemNot modifiableLTE Interworking-Cell Reselection to LTE (optional)ADJLIdentifier of inter- system adjacency to LTEADJLIdThis parameter is an identification of ADJL within a WCDMA cell.1IdentificationOperation and MaintenanceRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI0...7, step 1-internal_value = gui_valueMandatoryNot modifiableLTE Interworking-Cell Reselection to LTE (optional)ADJLE-UTRA Absolute Radio Frequency Channel NumberAdjLEARFCNEARFCNThis parameter defines the E-UTRA Absolute Radio Frequency Channel Number of the neighboring E-UTRA frequency. This parameter defines the EARFCN of the downlink carrier frequency.1Handover Control, Mobile Device ControlSIB19SystemInfoRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI0...65535, step 1-internal_value = gui_valueMandatoryOn-lineLTE Interworking-Cell Reselection to LTE (optional)ADJLMeasurement BandwidthAdjLMeasBwMeasurement BandwidthThis parameter indicates the measurement bandwidth information common for all neighboring E-UTRA cells on the carrier frequency. It is defined by the parameter Transmission Bandwidth Configuration, NRB [36.104]. The values indicate the number of resource blocks over which the UE could measure.1SIB19SystemInfoTelecomRAC RNC, EM RNC, RACApp RAC6 (6), 15 (15), 25 (25), 50 (50), 75 (75), 100 (100)6 (6)Minimum value.OptionalOn-lineLTE Interworking-Cell Reselection to LTE (optional)ADJLHOPL IdentifierHopLIdentifierDefines the parameter set (HOPL object) which controls the inter-RAT handover of idle and connected mode UEs to the E-UTRA neighbor cell during cell reselection procedure.1Handover ControlHOPLId of HOPL - Check if the relevant HOPL object exists in the database. (internal)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...10, step 1-internal_value = gui_valueMandatoryOn-lineLTE Interworking-Cell Reselection to LTE (optional)ADJSChange originADJSChangeOriginThe parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-Value is set by the systemValue set by the systemNot modifiableADJSIntra-frequency adjacency identifierADJSIdIdentification of ADJS (Intra-Frequency Adjacency) within a WCDMA cell.1SIB11, SIB12IdentificationOperation and MaintenanceRAC RNC, EM RNC, RACApp RAC, RNC -> UE, RNC -> OMS topology, RNC -> OMS topology UI1...31, step 1-Default value is not possibleinternal_value = gui_valueMandatoryNot modifiableADJSCell IdentifierAdjsCICell Identity; C-IdAn intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJS objects is required.1Handover ControlHCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJSPrimary CPICH powerAdjsCPICHTxPwrPrimary CPICH powerThis parameter indicates the transmission power level of the Primary CPICH (Common Pilot Channel) of the intra-frequency neighbour cell.1Handover ControlPtxPrimaryCPICH of WCEL - If the target cell is in the same RNC, ADJS- Primary CPICH power shall have the same value as WCEL-Transmission power of the primary CPICH channel parameter of the target cell. (public)The modification is always possible except if the new target cell is existing in local RNC. In this case the modification is done via the WCEL object. Cross-check between RNC, WCEL and ADJS objects is required.HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, Planner RAC-10...50 dBm, step 0.1 dBm-internal_value = gui_value * 10MandatoryOn-lineADJSDisable Effect on Reporting RangeAdjsDERRCells forbidden to affect Reporting rangeThis parameter indicates whether the neighbouring cell is forbidden to affect the reporting range (addition/drop window) calculation, if it belongs to the active set.1Handover ControlHCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, RACApp RACNo (0), Yes (1)No (0)The neighbouring cell can affect the reporting range calculation, if it belongs to the active set.MandatoryOn-lineADJSCPICH Ec/No OffsetAdjsEcNoOffsetCell individual offsetThe CPICH Ec/No Offset determines an offset value, which the UE adds to the CPICH Ec/No measurement result of the neighbouring cell before it compares the Ec/No value with the reporting criteria.1Handover Control, Mobile Device ControlSIB11, SIB12DropWindow of FMCS - The dB values of the CPICH Ec/No Offset and Drop Window parameters must satisfy the following equation, otherwise the UE triggers off a huge amount of active set updates which leads to unstable behaviour:

0 < DropWindow + AdjsEcNoOffset. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, RACApp RAC-10...10 dB, step 0.5 dB0 dBinternal_value = gui_value * 2MandatoryOn-lineADJSLocation Area CodeAdjsLACLocation Area Code; LACThe PLMN Identifier and the Location Area Code (LAC) determine the Location Area (LAI) to which the intra-frequency neighbour cell belongs to.1Handover ControlLAC of WCEL - If the target cell is in the same RNC, ADJS- Location Area Code shall have the same value as WCEL-Location Area Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, RNC UE, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65535, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJSMobile Country CodeAdjsMCCMobile Country Code; MCCAn intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier. Furthermore, the Global RNC Identifier is composed of the PLMN Identifier, which consists of the Mobile Country Code (MCC), the Mobile Network Code (MNC), and the RNC Identifier.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJS objects is required.1Handover ControlSIB18HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, RNC UE, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJSMobile Network CodeAdjsMNCMobile Network Code; MNCAn intra-frequency neighbour cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier. Furthermore, the Global RNC Identifier is composed of the PLMN Identifier, which consists of the Mobile Country Code (MCC), the Mobile Network Code (MNC), and the RNC Identifier.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJS objects is required.1Handover ControlSIB18AdjsMNCLength of ADJS - Value range depends from the AdjsMNCLength: 00..99 (if AdjsMNCLength is 2) or 000..999 (if AdjsMNCLength is 3). (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, RNC UE, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...999, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJSMobile Network Code LengthAdjsMNCLengthThe parameter defines whether 2 or 3 digits are used in the Mobile Network Code (MNC).

When this parameter is modified also the MNC value used by the system is always changed.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL and ADJS objects is required.1SIB11, SIB12, SIB18AdjsMNC of ADJS - The value range of Mobile Network Code depends on the value of Mobile Network Code Length (AdjiMNCLenth). (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC2 digits (2), 3 digits (3)2 digits (2)MandatoryOn-lineADJSRouting Area CodeAdjsRACRouting Area Code; RACThe Location Area (LAI) and the Routing Area Code (RAC) determine the Routing Area to which the intra-frequency neighbour cell belongs to.1Handover ControlRAC of WCEL - If the target cell is in the same RNC, ADJS- Routing Area Code shall have the same value as WCEL-Routing Area Code parameter of the target cell. (public)HCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI0...255, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJSRNC IdentifierAdjsRNCidRNC Identifier; RNC-IdAn intra-frequency neighbor cell is identified with the UTRAN Cell Identifier, which is composed of the Global RNC Identifier and the Cell Identifier. The Global RNC Identifier is composed of the PLMN Identifier and the RNC Identifier.

The modification is not possible if the new target cell is under the controlling RNC. Cross-check between RNC, WCEL, and ADJS objects is required.

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.1Handover ControlHCConfigurationRadio Resource UtilisationRNC MSC, RAC RNC, EM RNC, Planner RAC, RNC -> OMS topology, RNC -> OMS topology UI1...65534, step 1-Default value is not possible.internal_value = gui_valueMandatoryOn-lineADJSInclude in System InformationAdjsSIBThe parameter determines whether the intra-frequency neighbour cell is included in the System Information Block 11&12&18 for the cell selection and re-selection procedures. The intra-frequency neighbour cell is included in the system information when the value of the parameter is "SIB". The intra-frequency neighbour cell is included in the extended system information when the value of the parameter is "SIBbis".

The total number of intra-frequency, inter-frequency and GSM neighbour cells, which can be included in the System Information Block type 11 (SIB11), is 47. When HCS is used, the capacity is limited to 35 cells.

System Information Block type 11bis (SIB11bis) increases the maximum number of adjacencies to 96. SIB11bis can only be decoded by the UEs which support 3GPP R6.

If the total number of intra-frequency, inter-frequency and GSM neighbour cells, which are included in the System Information, exceeds the physical size of SIB data, the NBAP interface is not able to pack the neighbour cell information into the SIB data and the scheduling of the system information blocks fails. The cell is blocked by the system and an alarm 7771 WCDMA CELL OUT OF USE (BCCH scheduling error) is reported for the cell.

Note: The parameter AdjsSIB does not affect intra-frequency measurements in CELL_DCH state of connected mode. That is, all intra-frequency neighbour cells are monitored for the soft(er) handover regardless of the value of the parameter AdjsSIB.1Handover ControlSIB11, SIB12, SIB18, SIB11bisHCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RAC RACAppNo (0), SIB (1), SIBbis (2)SIB (1)The intra-frequency neighbour cell is included in the System Information.MandatoryOn-lineExtension of sib11 (standard)ADJSPrimary Scrambling CodeAdjsScrCodePrimary scrambling codeThe downlink scrambling code of the Primary CPICH (Common Pilot Channel) of the intra-frequency neighbour cell.1Handover Control, Mobile Device ControlSIB11, SIB12PriScrCode of WCEL - Primary Scrambling Code of an intra-frequency neighbour cell must be unique within intra-frequency neighbour cells. The modification is always possible except if the new target cell is existing in the local RNC. In this case the modification is done via the WCEL object. Cross-check between RNC, WCEL and ADJS objects is required. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, Planner RAC0...511, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJSTx Diversity IndicatorAdjsTxDivTx diversity indicatorThis parameter indicates whether the Primary CPICH of the intra-frequency neighbour cell is broadcast from two antennas. If the Primary CPICH is broadcast from two antennas, the UE measures the received code power from each antenna separately and sums the measurement results together in order to get the total received code power on the Primary CPICH.1Handover Control, Mobile Device ControlSIB11, SIB12The value must always be 0 (not used) if the intra-frequency neighbour cell is controlled by the local RNC; cross-check between RNC, WCEL and ADJS objects is required.HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC, RACApp RACTx Diversity not used (0), Tx Diversity in use (1)Tx Diversity not used (0)MandatoryOn-lineADJSMaximum UE TX Power on RACHAdjsTxPwrRACHMaximum allowed UL TX power; UE_TXPWR_MAX_RACHThis parameter indicates the maximum transmission power level that a UE can use when accessing the neighbouring cell on the RACH. The UE uses the parameter in the cell re-selection procedure. If the maximum output power of the UE is lower than the value of the parameter, the UE adds the power difference (dB value) to the minimum required CPICH Ec/No level, which the measurement result of the neighbouring cell must exceed before the cell re-selection is possible.1Mobile Device ControlSIB11, SIB12UEtxPowerMaxPRACH of WCEL - The modification is always possible except if the new target cell is existing in the local RNC. In this case the modification is done via the WCEL object. Cross-check between RNC, WCEL and ADJS objects is required. (public)HCConfigurationRadio Resource UtilisationRNC UE, RAC RNC, EM RNC-50...33 dBm, step 1 dBm-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJSHSDPA HOPS identifierHSDPAHopsIdentifierThe parameter identifies the parameter set (HOPS object) controlling the intra-frequency handovers of a user having HS-DSCH allocated.1Handover ControlHSDPAenabled of WCEL - If Intra-Frequency Adjacency (ADJS) parent WCEL HSDPAenabled parameter value is 'Enabled', HSDPAHopsIdentifier special value Not defined' is not allowed. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC1...100, step 10Not DefinedNot defined (0)internal_value = gui_valueOptionalOn-lineHSDPA (optional)ADJSNRT HOPS IdentifierNrtHopsIdentifierThis parameter defines the parameter set (HOPS object) which controls the intra-frequency handover of a non-real time (NRT) radio bearer to the neighbouring cell.1Handover ControlSIB11, SIB12, SIB18HOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...100, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineADJSHSDPA HOPS identifier for AMR multi-serviceRTWithHSDPAHopsIdentifierThis parameter identifies the parameter set (HOPS object) controlling intra-frequency handovers of a user having HS-DSCH allocated simultaneously with AMR speech CS RAB.1Handover ControlHOPSId of HOPS - Parameter must point to the existing HOPSId. (public)HSDPAenabled of WCEL - If parameters AMRWithHSDSCH and Intra-Frequency Adjacency (ADJS) parent HSDPAenabled are set to enabled, special value 'Not defined' is not allowed. (public)AMRWithHSDSCH of RNFC - If parameters AMRWithHSDSCH and Intra-Frequency Adjacency (ADJS) parent HSDPAenabled are set to enabled, special value 'Not defined' is not allowed. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC1...100, step 10Not DefinedNot defined (0)internal_value = gui_valueOptionalOn-lineHSDPA (optional) AND HSDPA with Simultaneous AMR Voice Call (optional)ADJSRT HOPS IdentifierRtHopsIdentifierThis parameter defines the parameter set (HOPS object) which controls the intra-frequency handover of a real time (RT) radio bearer to the neighbouring cell.1Handover ControlSIB11, SIB12, SIB18HOPSId of HOPS - Check that the relevant HOPS object exists in the database. (public)HCConfigurationRadio Resource UtilisationRAC RNC, EM RNC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI1...100, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineCBCICBCI Change OriginCBCIChangeOriginThis parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-The value is set by the system.Value set by the systemNot modifiableCBCICBCI IdentifierCBCIIdThis parameter is the identifier for the Cell Broadcast center data related to the Service Area Broadcast.1IdentificationOperation and MaintenanceRNC -> OMS topology, RNC -> OMS topology UI, RACApp RAC, RAC RNC, RNC EM1...255, step 1-internal_value = gui_valueMandatoryNot modifiableCBCIType of CBC IP addressCBCIPaddrTypeIndicates the used IP-address (Ipv4 or Ipv6). Only one type of IP-address is allowed to be used for one CBC.1TelecomRAC RNC, EM RNC, RACApp RACIP v4 (0), IP v6 (1)IP v4 (0)IP v4MandatoryOn-lineService Area Broadcast (optional)CBCIIP address of the CBCCBCIPaddressCBC-IP address for the Cell Broadcast Service. Each CBC can have a maximum of four different CBC-IP addresses to control Cell Broadcast Service.

Examples:IPv4, 255.255.255.255, 1.1.1.1IPv6, FFFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF4TelecomRAC RNC, EM RNC, RACApp RAC7...39 characters-The default value is not possibleMandatoryOn-lineService Area Broadcast (optional)CBCICBC PLMN idCBCPLMNIdPublic Land Mobile Network identity for the Cell Broadcast Service. A maximum of four different PLMN-Ids are allowed for the Cell Broadcast Service.

A Public Land Mobile Network is uniquely identified by its PLMN identity. PLMNid consists of Mobile Country Code (MCC) and Mobile Network Code (MNC).4TelecomRAC RNC, EM RNC, RACApp RACMandatoryOn-lineService Area Broadcast (optional)CBCIMobile Country CodeMCCMobile Country Code; MCCUnique country identification. MCC consists of three digits. MCC together with MNC identifies the PLMN uniquely (globally).1IdentificationTelecomRNC UE, RNC MSC, Planner RAC, RAC RNC, EM RNC, RACApp RAC0...999, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineCBCIMobile Network CodeMNCMobile Network Code; MNCUnique network identification within country. MNC consists of two or three digits. MNC together with MCC identifies the PLMN uniquely (globally).1MCC of CBCI - null (public)MNCLength of CBCI - Value range depends from the MNCLength: 00..99 (if MNCLength is 2) or 000..999 (if MNCLength is 3). (public)IdentificationTelecomRNC UE, RNC MSC, Planner RAC, RAC RNC, EM RNC, RACApp RAC0...999, step 1-Default value is not possibleinternal_value = gui_valueMandatoryOn-lineCBCIMobile Network Code LengthMNCLengthThis parameter defines whether 2 or 3 digits are used in Mobile Network Code.

When this parameter is modified also the value of MNC used by system is always changed.1IdentificationTelecomRAC RNC, EM RNC2 digits (2), 3 digits (3)2 digits (2)MandatoryOn-lineCBCIICSU for CBCICSUforCBCThis parameter defines the logical address of the ICSU unit which handles the CBC with the assigned PLMN Id. This is needed for sending restart and failure messages to the CBCs. The message is sent from one ICSU unit only and the parameter defines the ICSU that sends the service area restart or failure message to the CBC. The logical addresses can be checked by a MML command (ZUSI:ICSU;).1TelecomRNC -> EM, RNC -> RAC0...65535, step 1-Value set by the systemNot defined (65535)internal_value = gui_valueValue set by the systemNot modifiableService Area Broadcast (optional)CMOBAccess Class Barred List given by SystemACBarredListSystemAccess Class Barred listThis parameter is used when the Radio Network Access Regulation Function feature is active. The parameter tells which access classes (AC0, AC1, ..., AC9) are barred. The Access Class Barred List System parameter uses binary notation of 10 bits where- bit 0 indicates whether access is barred for AC0- bit 1 indicates whether access is barred for AC1- bit 2 indicates whether access is barred for AC2...- bit 9 indicates whether access is barred for AC9

If a bit is set to 1, the corresponding Access Class is in the 'barred' state. If a bit is set to 0, the corresponding Access Class is in the 'not barred' state. If all bits are set to 0, this means that none of the Access Classes 0...9 are in the 'barred' state.

This parameter replaces the barring information for AC0 to AC9 in the cells that have the AccessClassRegulation parameter set to 'enabled' when the Radio Network Access Regulation Function feature is active.

Note: This parameter is updated by the RNC every time a restriction period is started (length defined with 'RestrictionInterval').

This parameter is part of the System Information Block 3.1SIB3ACBarredList of WCEL - Parameter value shall be partly overridden when 'Radio Network Access Regulation Function' or 'Domain Specific Access Class Restriction' is active in the cell. Access Class barring for access classes 10 through 15 will not be affected by the 'Radio Network Access Regulation Function' or 'Domain Specific Access Class Restriction'. (public)RestrictionInterval of RNC - RNC has a timer that uses 'RestrictionInterval' as the timer value. When the timer expires, RNC selects the next Access Classes to be barred. Timer is used only when feature 'Radio Network Access Regulation Function' or 'Domain Specific Access Class Restriction' is active in RNC. (public)CellAccessRestriction of CMOB - Amount of simultaneosly barred Access Classes (out of Access Classes 0...9). This parameter is used only when 'Radio Network Access Regulation Function' or 'Domain Specific Access Class Restriction' is active in the cell. (public)SystemInfoTelecomRNC -> EM, RNC -> RACBit 0: Access Class 0, Bit 1: Access Class 1, Bit 2: Access Class 2, Bit 3: Access Class 3, Bit 4: Access Class 4, Bit 5: Access Class 5, Bit 6: Access Class 6, Bit 7: Access Class 7, Bit 8: Access Class 8, Bit 9: Access Class 9,0The value is set by the system.Value set by the systemNot modifiableRadio Network Access Regulation Function (optional)CMOBChange originCMOBChangeOriginThe parameter defines the origin of the last configuration action affecting the object.1Operation and MaintenanceRNC -> RAC, RNC -> EMNot 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)-The value is set by the system.Value set by the systemNot modifiableRadio Network Access Regulation Function (optional)CMOBCongestion Management Group IdentifierCMOBIdThis parameter uniquely identifies the CMOB (Congestion Management Group) within the RNC. Parameter values from 4 to 13 are available for the user. Values 1 to 3 are reserved for system usage.1IdentificationOperation and MaintenanceRACApp RAC, RAC RNC, RNC EM, RNC -> OMS topology, RNC -> OMS topology UI1...13, step 1-internal_value = gui_valueMandatoryNot modifiableRadio Network Access Regulation Function (optional)CMOBCell Access RestrictionCellAccessRestrictionThe 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 91RestrictionInterval of RNC - RNC has a timer using "RestrictionInterval" as the timer value. When the timer expires, RNC selects the next Access Classes to be barred. (public)ACBarredListSystem of CMOB - ACBarredListSystem is updated by the system to show the barring situation whenever access class barring situation is changed. This parameter is used only when "Radio Network Access Regulation Function" or "Domain Specific Access Class Restriction" is active. RestrictionInterval 0s and any of the restriction groups (CMOB's) are active. (public)SystemInfoTelecomRAC RNC, EM RNC, RACApp RAC10...100 %, step 10 %10 %internal_value = gui_value / 10OptionalOn-lineRadio Network Access Regulation Function (optional)CMOBRestriction group nameRestrictionGroupNameUser-defined name for the restriction group.1Operation and MaintenanceRNC EM, RNC RAC, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UI0...40 characters-Group name can be left empty.OptionalOn-lineRadio Network Access Regulation Function (optional)CMOBRestriction group typeRestrictionGroupTypeRestriction 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.1Operation and MaintenanceRNC RAC, RNC EM, RACApp RAC, RNC -> OMS topology, RNC -> OMS topology UIForced RNAR (0), Forced CS-DSAC (1), Forced PS-DSAC (2), RNAR (3), CS-DSAC (4), PS-DSAC (5)-MandatoryNot modifiableRadio Network Access Regulation Function (optional)CMOBTraffic RestrictionTrafficRestrictionThe parameter is a switch to enable or disable traffic restriction.1Operation and MaintenanceRNC RAC, RNC EM, RACApp RACdisabled (0), enabled (1)disabled (0)Traffic restriction disabled.OptionalOn-lineRadio Network Access Regulation Function (optional)COCOAAL2 CPS-SDU loss ratioAAL2LossRatioThis parameter enables you to specify the allowed AAL type 2 CPS-SDU (Common Part Sublayer Service Data Unit) loss ratio by giving its order of magnitude. The resulting loss ratios are between 10^-9 and 10^-2 and entered as integers from -9 to -2. The parameter is given in the COCO creation and it is applied for all ATM end points related to the COCO object.

It is recommended that values -4-9 are not used since using them decrease the amount of admitted calls significantly.

The parameter range is applied in NPS1 unit only partially. When the ATM end points are terminated in NPS1 unit only values -2 and -3 are supported. If parameter has other value, the default is being used instead.1AAL2MuxDelay of COCO - AAL2LossRatio value -3 should be used with AAL2MuxDelay value 100 and AAL2LossRatio value -2 should be used with AAL2MuxDelay value 200. (public)TransmissionRAC RNC, EM RNC, RACApp RAC-9...-2, step 1-3internal_value = gui_valueMandatoryRequires object lockingCOCOBTS AAL2 multiplexingAAL2MultiplexingThis parameter indicates whether the BTS AAL2 multiplexing functionality is enabled in the Iub interface.1AAL2TPList of COCO - If the AAL2 multiplexing is enabled, the same VCI value can be given to many AAL2 user plane links. The same VCI value indicates that the connections are multiplexed to the same AAL2 VCC in the Iub interface. (public)TransmissionRAC RNC, EM RNC, RACApp RACMultiplexing disabled (0), Multiplexing enabled (1)Multiplexing disabled (0)MandatoryRequires object lockingBTS AAL2 Multiplexing Function (standard)COCOAAL2 CPS-SDU multiplexing delayAAL2MuxDelayThis parameter specifies the allowed AAL type 2 CPS-SDU (Common Part Sublayer Service Data Unit) multiplexing delay in 0.1 milliseconds. The value range is from 10 to 200, step 1. The parameter is given in COCO creation and it is applied for all ATM end points related to the COCO object.

It is recommended that values 1099 are not used since using them decrease the amount of admitted calls significantly.

The parameter range is applied in NPS1 unit only partially. When the ATM end points are terminated in NPS1 unit only values 100 and 200 are supported. If parameter has other value, the default is being used instead.1AAL2LossRatio of COCO - AAL2LossRatio value -3 should be used with AAL2MuxDelay value 100 and AAL2LossRatio value -2 should be used with AAL2MuxDelay value 200. (public)TransmissionRAC RNC, EM RNC, RACApp RAC10...200, step 1100internal_value = gui_valueMandatoryRequires object lockingCOCOAAL2 Queue Length for HSDPA With Flow ControlAAL2QueueHSDPAWithFCThis parameter defines the length of the AAL2 queue for NRT HSDPA (tolerant) traffic in a VCC when dynamic HSDPA internal flow control is used. This applies to all VCCs which carry NRT HSDPA traffic.This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is terminated in NPS1, the parameter is not used.1TransmissionEM RNC, RAC RNC, RACApp RAC1...7000 cps, step 1 cps7000 cpsinternal_value = gui_valueOptionalRequires object lockingPath Selection (optional)COCOAAL2 Queue Length for HSDPA Without Flow ControlAAL2QueueHSDPAWithoutFCThis parameter defines the length of the AAL2 queue for NRT HSDPA (tolerant) traffic in a VCC when dynamic internal flow control is not used. This applies to all VCCs which carry NRT HSDPA traffic.This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is terminated in NPS1, the parameter is not used.1TransmissionEM RNC, RAC RNC, RACApp RAC1...7000 cps, step 1 cps2048 cpsinternal_value = gui_valueOptionalRequires object lockingHSDPA (optional) AND Path Selection (optional)COCOAAL2 Queue Length for HSUPAAAL2QueueHSUPAThis parameter defines the length of the DL AAL2 queue for all HSUPA traffic. This applies to all VCC types which carry HSUPA traffic.This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is terminated in NPS1, the parameter is not used.1TransmissionEM RNC, RAC RNC, RACApp RAC1...512 cps, step 1 cps512 cpsinternal_value = gui_valueOptionalRequires object lockingHSUPA (optional) AND Path Selection (optional)COCOAAL2 Queue Length for NRT DCH With Flow ControlAAL2QueueNRTDCHWithFCThis parameter defines the length of the AAL2 queue for NRT DCH (stringent bi-level) traffic in a VCC when dynamic internal flow control is used.This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is terminated in NPS1, the parameter is not used.1TransmissionEM RNC, RAC RNC, RACApp RAC1...7000 cps, step 1 cps7000 cpsinternal_value = gui_valueOptionalRequires object lockingPath Selection (optional) AND Dynamic Scheduling for NRT DCH with Path Selection (optional)COCOAAL2 Queue Length for NRT DCH Without Flow ControlAAL2QueueNRTDCHWithoutFCThis parameter defines the length of the AAL2 queue for NRT DCH (stringent bi-level) traffic in a VCC when dynamic internal flow control is not used.This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is terminated in NPS1, the parameter is not used.1TransmissionEM RNC, RAC RNC, RACApp RAC1...7000 cps, step 1 cps2048 cpsinternal_value = gui_valueOptionalRequires object lockingPath Selection (optional)COCOAAL2 Queue Length for RT DCHAAL2QueueRTDCHThis parameter defines the length of the AAL2 queues in VCC where only the stringent and stringent bi-level RT traffic is carried. This defines also the length of all AAL2 queue in a VCC when NRT DCH (stringent bi-level) traffic is carried in same VCC with RT DCH (stringent) traffic.This parameter applies only if the VCC is being terminated in A2SU hardware. In case the VCC is terminated in NPS1, the parameter is not used.1TransmissionEM RNC, RAC RNC, RACApp RAC1...512 cps, step 1 cps512 cpsinternal_value = gui_valueOptionalRequires object lockingPath Selection (optional)COCOAAL2 signalling link configurationAAL2SignLinkTPAAL2 signalling link configuration.6TransmissionRAC RNC, EM RNC, RACApp RACMandatoryRequires object lockingCOCOAAL2 signalling link VCLtp CDVT egressAAL2SigCDVT01EgrThis parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the egress direction.1CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is disabled for the COCO (public)CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is enabled for the COCO (public)TransmissionRAC RNC, EM RNC, RACApp RAC0...16777215, step 1-internal_value = gui_valueOptionalRequires object lockingCOCOAAL2 signalling link VCLtp CDVT ingressAAL2SigCDVT01IngThis parameter defines the cell delay variation tolerance for total traffic (CLP=0 and CLP=1) in the ingress direction.1CalculateCDVT of COCO - The parameter is mandatory if the CalculateCDVT is disabled for the COCO. (public)CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is enabled for the COCO. (public)TransmissionRAC RNC, EM RNC, RACApp RAC0...16777215, step 1-internal_value = gui_valueOptionalRequires object lockingCOCOAAL2 SL Early Packet DiscardAAL2SigEarlyPacketDiscardEarly Packet Discard option for the ATM termination point.1CreateATMTP of COCO - The parameter value is used in the ATM TP creation when the CreateATMTP is enabled for COCO. (public)TransmissionRAC RNC, RACApp RAC, RNC EMdisabled (0), enabled (1)disabled (0)OptionalNot modifiableCOCOAAL2 SL Egress Minimum Desired Cell RateAAL2SigEgressMDCRThe Egress MDCR is an optional parameter for UBR+ connections to define a long-term target for a minimum service guarantee.1AAL2SigServiceCategory of COCO - If parameter AAL2SigServiceCategory has value 'UBR+' the AAL2SigEgressMDCR special value 'Not defined' is not allowed. (public)TransmissionRAC RACApp, RAC RNC, EM RNC0...353207, step 10If the MDCR is set to 0 then the UBR+ connection behaves like a normal UBR connectionNot defined (4294967295)internal_value = gui_valueMandatoryRequires object lockingCOCOAAL2 SL Egress UBR Share Weight Of Excessive BandwidthAAL2SigEgressUBRShareThis Egress parameter defines a weight which is used in sharing the excessive bandwidth among the UBR+ connections. The excessive bandwidth here means the amount of bandwidth currently available for all UBR+ connections.1AAL2SigServiceCategory of COCO - If parameter AL2SigServiceCategory has value 'UBR+' the AAL2SigEgressUBRShare special value 'Not defined' is not allowed. (public)TransmissionRAC RACApp, RAC RNC, EM RNC1...1000, step 11The UBR+ connection will get some service even with the lowest priority.Not defined (0)internal_value = gui_valueMandatoryRequires object lockingCOCOAAL2 SL Ingress Minimum Desired Cell RateAAL2SigIngressMDCRThe Ingress MDCR is an optional parameter for UBR+ connections and it is used to define a long-term target for a minimum service guarantee.1AAL2SigServiceCategory of COCO - If parameter AAL2SigServiceCategory has value 'UBR+' the AAL2SigIngressMDCR special value 'Not defined' is not allowed. (public)TransmissionRAC RACApp, RAC RNC, EM RNC0...353207, step 10If the MDCR is set to 0, then the UBR+ connection behaves like a normal UBR connection.Not defined (4294967295)internal_value = gui_valueMandatoryRequires object lockingCOCOAAL2 SL Ingress UBR Share Weight Of Excessive BandwidthAAL2SigIngressUBRShareThis Ingress parameter defines a weight which is used in sharing the excessive bandwidth among the UBR+ connections. The excessive bandwidth here means the amount of bandwidth currently available for all UBR+ connections.1AAL2SigServiceCategory of COCO - If parameter AAL2SigServiceCategory has value 'UBR+' the AAL2SigIngressUBRShare special value 'Not defined' is not allowed. (public)TransmissionRAC RACApp, RAC RNC, EM RNC1...1000, step 11The UBR+ connection will get some service even with the lowest priority.Not defined (0)internal_value = gui_valueMandatoryRequires object lockingCOCOAAL2 signalling link VCLtp PCR egressAAL2SigPCR01EgrThis parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the egress direction.1CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is enabled for COCO. (public)TransmissionRAC RNC, EM RNC, RACApp RAC1...353207, step 1-Default value is not possibleinternal_value = gui_valueOptionalRequires object lockingCOCOAAL2 signalling link VCLtp PCR ingressAAL2SigPCR01IngThis parameter defines the peak cell rate allowed for total traffic (CLP=0 and CLP=1) in the ingress direction.1CreateATMTP of COCO - The parameter is mandatory if the CreateATMTP is enabled for COCO. (public)TransmissionRAC RNC, EM RNC, RACApp RAC0...353207, step 1-internal_value = gui_valueOptionalRequires object lockingCOCOAAL2 SL Partial Packet DiscardAAL2SigPartialPacketDiscardPartial Pac