MS Excel (All parameter fields) Generated: Product: LTE BTS Rel/ver: LN1.0/inc18 MO Class Parameter Id Parameter Name Abbreviated Name 3GPP Name Data Type ADIPNO 52986 ADIPNO Configurat adIpNoId Number ADIPNO 52987 Adjacent ENB Conf adjEnbIpAddressMap Structure ADIPNO 52988 Adjacent ENB IP A adjEnbIpAddress String ADIPNO 52989 Macro eNB Id Of A adjMacroEnbId Number ADIPNO 52990 MCC Of Adjacent E adjMcc Number ADIPNO 52991 MNC Of Adjacent E adjMnc Number ADIPNO 52992 Length of MNC Of adjMncLength Number
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
MS Excel (All parameter fields) Generated: Fri Mar 19 18:12:59 EET 2010
Product: LTE BTSRel/ver: LN1.0/inc18
MO Class Parameter Id Parameter Name Abbreviated Name 3GPP Name Data Type Status
ADIPNO 52986 ADIPNO ConfigurationadIpNoId Number proposal
MHA 53197 Antenna Operation GantOperGain Gain in each o Number proposalMHA 53198 Antenna Bearing antBearing Antenna Beari Number proposalMHA 53199 Antenna Model NumantModel Antenna modelString proposalMHA 53200 Antenna Serial Num antSerial Antenna serial String proposal
MHA 53201 Antenna Line IdentifiantlId Number proposalMHA 53202 Base Station ID baseStationID Base Station I String proposal
MHA 53204 Gain Resolution gainResolution Number proposalMHA 53205 Installation Date installDate Installation Dat String proposalMHA 53206 Installers ID installerID Installer's ID String proposal
MHA 53207 LNA Number lnaNumber Enumerationproposal
MHA 53208 Maximum SupportedmaxGain Number proposal
QOS 54073 Per Hop Behaviour pHB Enumerationapproved
QOS 54074 Traffic type trafficType String approvedRET 53225 3GPP Realese ID ReleaseId3Gpp Number proposal
RET 53226 Active active Boolean proposal
RET 53227 Angle angle Number proposal
RET 53228 Antenna Band List antBandList Structure proposal
RET 53229 Antenna Beamwidth antBeamwidth Beamwidth in eNumber proposal
RET 53230 Antena Operating F antOperFreqBand Antenna operatEnumerationproposal
RET 53231 Antenna Operation GantOperGain Gain in each o Number proposalRET 53232 Antenna Bearing antBearing Antenna Beari Number proposalRET 53233 Antenna Height antHeight Number proposalRET 53234 Antenna Location antLocation Number proposalRET 53235 Antenna Model NumantModel Antenna modelString proposalRET 53236 Antenna Serial Num antSerial Antenna serial String proposal
RET 53237 Antenna TechnologyantTechnology Enumerationproposal
RET 53238 Antenna Type antType Enumerationproposal
RET 53239 Antenna Line IdentifiantlIdList Number proposalRET 53240 Base Station ID baseStationID Base Station I String proposal
RET 53241 Calibrate calibrate Boolean proposal
RET 53242 Calibration Done calibrationDone Boolean proposal
RET 53243 ConfigurationFile D configFileDlNeeded Boolean proposal
RET 53244 Configuration Done configurationDone Boolean proposal
RET 53245 Configuration File configurationFile String proposal
RET 53246 Connection connection EnumerationproposalRET 53247 Installation Date installDate Installation Dat String proposalRET 53248 Installers ID installerID Installer's ID String proposal
RET 53249 Manufacturer manufacturer String proposal
RET 53250 Max Angle maxAngle Number proposal
RET 53251 Mechanical Angle mechanicalAngle Number proposal
RET 53252 Min Angle minAngle Number proposal
RET 53253 Product Code prodCode String proposal
RET 53254 RET Identifier retId Number proposal
RET 53255 Scanned Antenna IntscannedAntennaInterface EnumerationproposalRET 53256 Sector ID sectorID Sector ID String proposal
RET 53257 Serial Number serNum String proposal
RET 53258 SW Version swVersion String proposal
SCTP 52979 SCTP maximum inboumaxInboundStreams Number proposal
SCTP 52981 SCTP path failure re pathMaxRetrans Number proposal
SCTP 52982 SCTP heartbeat messsctpHeartbeatInterval Number proposal
SCTP 52983 SCTP configuration idsctpId Number proposal
SCTP 52984 SCTP Port Number sctpPortNumber Number proposal
STPG 54081 The synchronization synchroSourceList Structure approved
STPG 54082 Protocol of the clock clockProtocol Enumerationapproved
STPG 54083 Interface Number interfaceNumber Number approved
STPG 54084 Clock source priority priority Number approved
STPG 54085 SSM enabling flag ssmEnabled Boolean approved
STPG 54086 SSM message timeossmTimeout Number approved
STPG 54087 Unit Number unitNumber Number approved
STPG 54088 Synchronisation protetimingGenPgId Number approved
SYNC 54080 Clock synchronizationsyncId Number approved
TOPIK 54076 Administrative State administrativeState Enumerationapproved
TOPIK 54077 Log mean synchronizlogMeanSyncValue Number approved
TOPIK 54078 IP address of the To masterIpAddr String approved
TOPIK 54079 Time over Packet conftopId Number approved
UNIT 54089 UNIT identifier unitId Number approved
UNIT 54090 Installed hardware ununitTypeActual String approved
Generated: Fri Mar 19 18:12:59 EET 2010
Hidden Description Short Description Additional Information
proposal Naming attribute of MOC ADIPNO Author: Ercuement Canver (
proposal Author: Ercuement Canver
proposal Author: Ercuement Canver (
proposal Macro eNB Id of the adjacent eNB Author: Ercuement Canver (
proposal Author: Ercuement Canver (
proposal Author: Ercuement Canver (
proposal Author: Ercuement Canver (
This parameter is the naming attribute of MOC ADIPNO
This parameter holds the list of IP addresses and global eNB ids of the adjacent eNBs. Global eNB id consists of Macro eNB Id, MCC and MNC (PLMN)
List of IP addresses and global eNB ids of the adjacent eNBs.
This parameter holds the IP address of this adjacent eNB.Format: the format of this parameter allows either for an IPv4 IP address in dotted decimal form or for an IPv6 IP address in one of the formats defined in RFC 2373. Note that in this release only IPv4 dotted decimal form is used.
Transport network IP address of adjacent eNB
This parameter holds the Macro eNB Id of the adjacent eNB.
Mobile Country Code of adjacent eNB
Mobile Country Code of adjacent eNB
Mobile Network Code of adjacent eNB
Mobile Network Code of adjacent eNB
Length of Mobile Network Code of adjacent eNB
Length of Mobile Network Code of adjacent eNB
proposal Author: Ercuement Canver
proposal Author: Ercuement Canver (
approved
approved
approved
proposal
proposal
proposal
This parameter holds the transport network IP address of the Mobility Management Entity (MME)
Transport network IP address of the Mobility Management Entity (MME)
Transport network IP address of the serving SAE gateway (S-GW) for which datapath supervision shall be switched on.Format: in this release each address shall be an IPv4 IP address in dotted decimal form and 1 or 2 serving gateways are allowed.
Transport network IP address of the serving SAE gateway (S-GW).
This parameter identifies the account manager. The value is always 1.
This parameter identifies the account manager. The value is always 1.
This parameter holds the port number of the primary LDAP server.
This parameter holds the port number of the primary LDAP server.
This parameter holds the IP address of the primary LDAP server.
Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373.
This parameter holds the IP address of the primary LDAP server.
Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373.
Defines if antenna line DC power is enabled/disabled for an antenna line. The DC power is enabled by default (when the file or parameter is not available for an AL). This parameter is most meaningful for an AL DC power
Defines if antenna line is allowed to supplied by DC voltage
Identifies the specific antenna port in Flexi Radio Module for antenna line.
Identifies the specific antenna port in Flexi Radio Module for antenna line.
The total delay of all the passive units of antenna line can be entered into this parameter, which is then used as the RTT value instead of calculating the value using the BTS Site Manager.
The total delay of all the passive units of antenna line can be entered into this parameter, which is then used as the RTT value instead of calculating the value using the BTS Site Manager.
proposal
proposal Identifies the specific antenna line. Identifies the specific antenna line. This parameter is only for d
proposal
proposal
proposal
proposal
proposal
proposalproposal Defines the BTS in question. Defines the BTS in question.
proposal
proposal Defines specific Base Station site. Defines specific Base Station site. This parameter is only for d
proposal Defines the cabinet type.
This parameter contains the total loss calculated from the feederLoss and passive units.
This parameter contains the total loss calculated from the feederLoss and passive units.
Defines if device scan functionality is enabled/disabled for an capable 3GPP antenna line. The scan is enabled by default (when the file or parameter is not available for an AL).
Defines if device scan functionality is enabled/disabled for an capable 3GPP antenna line.
Defines the voltage level supplied to the antenna line. The values entered for this parameter depend on the MHA type. Non-AISG NSN MHAs: WMHA, WMHB: 12 WMHC: BTS1 Automatic value (Manual voltage override is allowed: possible values [0 V / +12 V/ +24V/ +28 V (+24 /+28 only for Main branch, value depends on the radio module type)]), BTS2 12 Non-AISG Other (3rd party) MHA: 0 (User can change the line voltage to 12V. AISG MHAs: Currently for all AISG MHA Automatic value is used.
Defines the voltage level supplied to the antenna line.
Identifies the specific Flexi Radio module for antenna line.
Identifies the specific Flexi Radio module for antenna line.
Defines the product code of the unit in question.
Defines the product code of the unit in question.
Defines a VSWR (voltage standing wave ratio) major alarm level.
Defines a VSWR (voltage standing wave ratio) major alarm level.
Defines a VSWR (voltage standing wave ratio) minor alarm level.
Defines a VSWR (voltage standing wave ratio) minor alarm level.
This parameter can be used for identification of the BTS.
This parameter can be used for identification of the BTS.
Defines the cabinet type. The allowed value for Flexi LTE BTS is 19.
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
The list defines the external alarm input signals.
The list defines the external alarm input signals.
Sets the cancellation delay for the alarm
Sets the cancellation delay for the alarm
Defines the external alarm description.
Defines the external alarm description.
Defines the external alarm lines. module, inUse, description, polarity, severity, startDelay and cancelDelay must be defined for input signals.
Defines the external alarm lines. module, inUse, description, polarity, severity, startDelay and cancelDelay must be defined for input signals.
Defines is particular EAC line in use or not in use.
Defines is particular EAC line in use or not in use.
Defines the module where EAC inputs are commissioned. Allowed modules are FSM1, FR1, FR2 and FR3
Defines the module where EAC inputs are commissioned.
Defines the used polarity of the external alarm line: normally open or normally closed. Normally_open: when the connector is open, there is no alarm. Normally_closed: when the connector is closed, there is alarm.
Defines the used polarity of the external alarm line.
Defines the seriousness of the external alarm condition in question. Minor = 1 Major = 2 Critical = 3
Defines the seriousness of the external alarm condition.
Sets the activation delay for the alarm
Sets the activation delay for the alarm
The list defines the external alarm output signals.
The list defines the external alarm output signals.
Defines the external control description.
Defines the external control description.
Defines the external alarm lines. module, inUse, description and initialState must be defined for Control Signals.
Defines the external alarm lines. module, inUse, description and initialState must be defined for Control Signals.
Defines is particular external control line in use or not in use.
Defines is particular external control line in use or not in use.
Defines the initial state of the external control line after a reset of the BTS. The options are "On" and "Off". If the initial state is "On", current is going through.
Defines the initial state of the external control line after a reset of the BTS.
Defines the module where EAC inputs are commissioned. Allowed modules are FSM1, FR1, FR2 and FR3
Defines the module where EAC inputs are commissioned.
proposal Defines the usage of the GPS. Defines the usage of the GPS.
proposal
proposal Defines a Flexi module.
proposal Defines a location of Flexi module.
proposal
proposal
proposal
proposal
proposal
proposal
proposal Defines the used Time Zone.
proposal
proposal
proposal
The list defines the module and its location e.g. place or address.
The list defines the module and its location.
Defines one of the following Flexi modules: Module="FSM1" | Module ="FR1" | Module ="FR2" | Module ="FR3" Location information can be defined to these modules.
Defines a location of Flexi module in free text with maximum 50 characters or has the value -1 (Not defined). The value -1 (Not defined) is not used at the commissioning file. Location can be e.g. place or address of the module.
The list defines commissioned passive units.
The list defines commissioned passive units.
Free text about the passive unit in question.
Free text about the passive unit in question.
Defines the name of the passive unit in question.
Defines the name of the passive unit in question.
Defines the product code of the passive unit in question.
Defines the product code of the passive unit in question.
Defines the serial number of the passive unit in question.
Defines the serial number of the passive unit in question.
Defines the version of the passive unit in question.
Defines the version of the passive unit in question.
Defines the used Time Zone.
The format is predefined, for example for Helsinki "(GMT+2) Europe/Helsinki".
The list defines the unit information for offline mode commissioning.
The list defines the unit information for offline mode commissioning.
Defines the product code of the passive unit in question.
Defines the product code of the passive unit in question.
Defines the name of the unit or module in the BTS. This parameter is used in the offline commissioning mode. Following values will be defined: FSM, FR, MHA, RET, RAS. Exaxt module or unit type is defined in variant parameter.
Defines the name of the unit or module in the BTS. This parameter is used in the offline commissioning mode. Following values will be defined: FSM, FR, MHA, RET, RAS. Exaxt module or unit type is defined in variant parameter.
proposal
proposal
approved
approved
approved
approved
approved
Defines the number of the unit or module in the BTS. This parameter is used in the offline commissioning mode.
Defines the number of the unit or module in the BTS.
Defines the variant of the unit or module. This parameter is used in the offline commissioning mode. In case of FSMD is used D or in case of FRGF is used GF.
Defines the variant of the unit or module. This parameter is used in the offline commissioning mode. In case of FSMD is used D or in case of FRGF is used GF.
This parameter is used to lock and unlock the ethernet link interface.Locking the interface deactivates it.
This parameter is used to lock and unlock the ethernet link interface.Locking the interface deactivates it.
This parameter shows the actual link characteristics for bitrate and duplex / non-duplex mode.
This parameter shows the actual link characteristics for bitrate and duplex / non-duplex mode.
This parameter identifies the ethernet interface within the FTM.
Format: "slot#-if#"where slot#: 1 = slot number of the unit of the ethernet interface. This is always 1 (only 1 slot is available).if#: 1..3 = the interface number (physical interface on the unit).
Example 1-1: refers to physical ethernet interface 1 in slot 1.
This parameter identifies the ethernet interface within the FTM. Format: "slot#-if#"
Example 1-1: refers to physical ethernet interface 1 in slot 1.
This parameter shows the MAC address of the ethernet interface.
This parameter shows the MAC address of the ethernet interface.
This parameter holds the operational state of the ethernet link.
This parameter holds the operational state of the ethernet link.
approved
approved
approved
approved
approved
This parameter shows the received optical power on the ethernet interface.
The parameter contains one of the following:1) a floating point for unit dBm number rounded to one digit, e.g. "-4.1" 2) not supported -- the HW does not support this measurement 3) not connected -- the hot-pluggable transceiver is not in place4) -INF -- the measured value is below the valid measurement range: log(0) yields the negative infinity.
This is the received optical power on the ethernet interface, i.e. one of the following:1) a number in dBm, rounded to one digit, e.g. "-4.1" 2) not supported (measurement not supported)3) not connected (HW not in place)4) -INF (infinite)
This parameter specificies if the ethernet link characteristics are autonegotiated or not.If not, the attribute contains the capacity and the duplex mode to be set forcibly. Note that 1000 MBit is available only on Gigabit Ethernet interfaces (GE).
This parameter specificies if the ethernet link characteristics are autonegotiated or not.If not, the attribute contains the capacity and the duplex mode to be set forcibly.
This parameter holds the major software release version supported by the FTM. AdaptationVersionMajor is contained in the Site Configuration File on download and upload. In this release the value is fixed to "LN1.0" (without the quotation marks).
This parameter holds the major software release version supported by the FTM. AdaptationVersionMajor is contained in the Site Configuration File on download and upload.In this release the value is fixed to "LN1.0" (without the quotation marks).
This parameter identifies the transport module of the network element. The value is always 1.
This parameter identifies the transport module of the network element. The value is always 1.
This parameter holds the description of the geographical location of the network element. The format can be freely decided by the operator. The parameter may also be empty.
This parameter holds the description of the geographical location of the network element. The format can be freely decided by the operator. The parameter may also be empty.
approved
approved
approved
proposal Naming attribute of MOC GTPU Author: Ercuement Canver (
proposal Author: Ercuement Canver (
proposal
proposal Author: Ercuement Canver (
approved
This parameter shows the major SW release version of the FTM.
This parameter shows the major SW release version of the FTM.
This parameter holds the the name of the network element. The operator can freely define the value of this parameter.
This parameter holds the the name of the network element. The operator can freely define the value of this parameter.
This parameter holds a short description of the network element. The format can be freely decided by the operator. The parameter may also remain empty.
This parameter holds a short description of the network element. The format can be freely decided by the operator. The parameter may also remain empty.
This parameter is the naming attribute of MOC GTPU
This parameter holds the number of unanswered GTP-U ECHO REQUESTs (within the time defined by parameter t3Response), after which a GTP-U path failure is declared. The parameter is only relevant in case GTPU path supervision is switched ON (parameter gtpuPathSupint has non-zero value).
The number of unanswered GTP-U ECHO REQUESTs (within the time defined by gtpuT3Resp), used for declaring a GTP-U path failure.
This parameter holds the time interval between sending GTP-U ECHO REQUESTs, used for GTP-U user data path supervision on the S1 and X2 interfaces. It defines also if data path supervision is ON or OFF.
Time interval between sending GTP-U ECHO REQUESTs, used for GTP-U user data path supervision.
Disabling of GTP-U data path supervision (parameter value=0) or modifying of GTP-U data path supervision interval must be blocked while GTP-U data path is in failure condition.Author: Ercuement Canver (C-Plane); SFS abbrev. name: gtpuPathSupint (internal)
This parameter holds the maximum waiting time for GTP-U ECHO RESPONSE messages, used for GTP-U data path supervision on the S1 and X2 interfaces. This parameter is only relevant in case GTP-U path supervision is switched ON (parameter gtpuPathSupint has non-zero value).
The maximum waiting time for GTP-U ECHO RESPONSE messages, used for GTP-U data path supervision.
This parameter identifies the ethernet based IP interface within the FTM. The value is always 1.
This parameter identifies the ethernet based IP interface within the FTM. The value is always 1.
approved
approved
approved
approved
approved
approved
approved
approved
approved
This is the IP address of the plain Ethernet Interface towards the external transport network. It has an associated subnet mask.
If the address is set to 0.0.0.0, the interface is taken out of use. Instead VLAN interfaces shall be used (IVIF object instance).
This is the IP address of the plain Ethernet Interface towards the external transport network. It has an associated subnet mask.
If the address is set to 0.0.0.0, the interface is taken out of use. Instead VLAN interfaces shall be used (IVIF object instance).
This is the maximum transfer unit of the IP interface.
This is the maximum transfer unit of the IP interface.
This is the subnetwork mask of the IP address of the FTM in the transport network (of the "external IP address" of the FTM).
This is the subnetwork mask of the IP address of the FTM in the transport network (of the "external IP address" of the FTM).
This parameter specifies if multiple queues are used over this interface or only a single one. Multiple queues allow DSCP based traffic priorisation.
The plain IP interface by default has the 6 PHB queue scheduler.
This parameter specifies if multiple queues are used over this interface or only a single one. Multiple queues allow DSCP based traffic priorisation.
The plain IP interface by default has the 6 PHB queue scheduler.
This parameter holds the shaper burst size for the interface.
This parameter holds the shaper burst size for the interface.
The Total Shaper Burst Size ("SBS") defines the maximum burst size that is allowed to pass at the output of the WFQ aggregator.
The Total Shaper Burst Size ("SBS") defines the maximum burst size that is allowed to pass at the output of the WFQ aggregator.
This parameter holds the shaper information rate for the interface.
This parameter holds the shaper information rate for the interface.
This parameter holds the total Shaper Information Rate ("SIR") at the output of the WFQ aggregator.
This parameter holds the total Shaper Information Rate ("SIR") at the output of the WFQ aggregator.
This parameters decides if shaping shall be performed per network interface or on the level of the WQFQ aggregator. Shaping may also be switched off entirely.
This parameters decides if shaping shall be performed per network interface or on the level of the WQFQ aggregator. Shaping may also be switched off entirely.
approved
approved
approved
approvedapproved Base station identifier. Base station identifier.
approved
approved
approved
approved The management system shall
This parameter decides if shaping takes the ethernet overhead into account when shaping the bandwidth or not. If the flag has value true, the associated shapedBandwidth is the bandwidth on the IP layer only. If the flag has value false the Ethernet header is counted also.
If this flag = true, the associated shapedBandwidth is the bandwidth on the IP layer only. If the flag = false the Ethernet header is counted also.
This is the weight value to be used in the WFQ aggregation scheduler for this interface.
This is the weight value to be used in the WFQ aggregation scheduler for this interface.
This parameter identifies the unique NTP configuration entity of the BTS. The value is always 1. Exactly 1 NTP configuration entity always exists on the BTS.
This parameter identifies the unique NTP configuration entity of the BTS. The value is always 1. Exactly 1 NTP configuration entity always exists on the BTS.
Specifies the IP addresses of the NTP servers. To be entered in dotted decimal format.
Specifies the IP addresses of the NTP servers. To be entered in dotted decimal format.
This parameter identifies the IP node configuration within the FTM. The value is always 1.
This parameter identifies the IP node configuration within the FTM.The value is always 1.
This parameter holds the transport network IP address of the O&M system for the FTM.
Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373.
This parameter holds the transport network IP address of the O&M system for the FTM.
Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373.
This parameter identifies the IP routing table. The value is always 1.
This parameter identifies the IP routing table. The value is always 1.
This is a set of entries, each defining a static IP route.
This is a set of entries, each defining a static IP route.
approved
approved
approved
proposal
This parameter specifies the host or network address for the destination of an IP route. It needs to be inline with the network mask. Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373. Examples: IPv4: 10.12.11.0 IPv6: 805B:2D9D:DC28:0:0:FC57:D4C8:0
This parameter specifies the host or network address for the destination of an IP route. It needs to be inline with the network mask. Format: either dotted decimal form (IPv4) or an address according to RFC 2373 (IPv6).
This parameter specifies the IP address of the next IP hop via which a remote network can be reached. Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373. Examples: IPv4: 10.12.11.101IPv6: 805B:2D9D:DC28:0:0:FC57:D4C8:1FFE
This parameter specifies the IP address of the next IP hop via which a remote network can be reached.Format: either dotted decimal form (IPv4) or an address according to RFC 2373 (IPv6).
Specifies the mask of the remote network. The type (IPv4 or IPv6) must match the type of parameter destIpAddr.
Specifies the subnetwork mask of the remote network.Specifies the mask of the remote network. The type (IPv4 or IPv6) must match the type of parameter destIpAddr.
Identifies the specific antenna lines assigned to the local cell.
Identifies the specific antenna lines assigned to the local cell.
proposal
proposal Author: Qingmei Tong (C-Pl
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (Cproposal Determines the range of MNC Length of MNC in digits Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C-
proposal Primary PLMN Id of neighbour eNB. Author: Bernd Burckgard (C
The Local cell resource is an object, which consists of the HW required by one cell for transmission and receiving. Local cell resource identifier is used to address one particular local cell resource at the BTS. The lCelId is unique within a BTS. With the Configuration Data message the local cell resource can be associated to the cell identifier used at the radio interface. In cases when configuration is initialized at the BTS, the signalling related to a cell is addressed using cell identifier instead of the local cell resource identifier.
Local cell resource identifier is used to address one particular local cell resource at the BTS.
It is the unique Id of the neighbour eNB within PLMN received over the X2 interface. adjEnbId and plmnId form the neighbour global eNB Id.
Unique Id of the neighbour eNB within PLMN.
Globally unique group identification of the MME(s) connected to neighbour eNB. The IE is received during X2 setup procedure for the respective X2 link from the neighbouring eNB.
Neighbour eNB Globally Unique Group Id.
Mobile Country Code in PLMN Identity included in GU group Id. MCC and MNC builds a unique plmn Id.
Mobile Country Code included in GU group Id.
MME Group Id Included In GU Group Id
MME Group Id Included In GU Group Id.
Mobile Network Code in PLMN Identity included in GU group Id. MCC and MNC builds a unique plmn Id.
Mobile Network Code included in GU group Id.
Instance identifier of object LNADJ.This parameter appears only in the distinguished name (DN) in plan file and is used for O&M purposes.
Instance identifier of object LNADJ. It is the unique Id of the neighbour eNB within PLMN received over the X2 interface.
Primary PLMN Id of neighbour eNB. Parameter adjEnbId and plmnId form the globally unique eNB Id.
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Length of MNC in digits Author: Bernd Burckgard (C
proposal Author: Qingmei Tong (C-Pla
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (Cproposal Determines the range of MNC Length of MNC in digits Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Length of MNC in digits Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
Mobile Country Code in primary plmn id of neighbour eNB. MCC and MNC build the plmn Id.
Mobile Country Code in primary plmn Id of neighbour eNB
Mobile Network Code in primary plmn id of neighbour eNB. MCC and MNC build the plmn Id.
Mobile Network Code in primary plmn Id of neighbour eNB
MNC Length determines the range of MNC in primary plmn id
This parameter is the E-UTRAN Cell Identifier (eutraCelId) which is part of the E-Utran cell global identifier (ECGI) of the cell served by neighbour eNB.
E-UTRA Cell Identifier included in ECGI of the cell served by neighbour eNB.
Broadcast PLMN id of cell served by neighbour eNB. Up to 6 different PLMN Ids per served cell may be broadcasted.
Broadcast PLMN IDs of cell served by naighbour eNB.
Mobile Country Code in Broadcast PLMN ID of cell served by neighbour eNB. MCC and MNC build a unique plmn Id.
Mobile Country Code of eNB in broadcast PLMN ID of cell served by neighbour eNB
Mobile Network Code in Broadcast PLMN ID of cell served by neighbour eNB. MCC and MNC build a unique plmn Id.
Mobile Network Code of eNB in broadcast PLMN ID of cell served by neighbour eNB
Downlink transmission bandwidth of cell served by neighbour eNB. The enumerated values correspond to the number of resource blocks "NRB".
Downlink Transmission Bandwidth Of Cell Served By Neighbour ENB
Plmn Id included in ECGI of cell served by neighbour eNB. Parameter ecgiPlmnId and adjEutraCelId form the E-UTRA cell global Identifier (ECGI).
Plmn Id included in ECGI of cell served by neighbour eNB.
Mobile Country Code in PLMN Identity included in ECGI of the cell served by neighbour eNB. MCC and MNC build the plmn Id of ECGI.
Mobile Country Code in PLMN Identity included in ECGI of the cell served by neighbour eNB
Mobile Network Code in PLMN Identity included in ECGI of the cell served by neighbour eNB. MCC and MNC build a plmn Id of ECGI.
Mobile Country Code in PLMN Identity included in ECGI of the cell served by neighbour eNB
MNC Length determines the range of MNC in primary plmn id.
Downlink EARFCN of FDD cell served by neighbour eNB.
Downlink EARFCN of FDD cell served by neighbour eNB.
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C-
proposal Author: Burckgard Bernd (C-
proposal Author: Bernd Burckgard (C
proposal Author: Bernd Burckgard (C
proposal Author: Marko Saarinen (U
proposal Author: Marko Saarinen (U
Uplink EARFCN of FDD cell served by neighbour eNB.
Uplink EARFCN of FDD cell served by neighbour eNB
Instance identifier of object LNADJL.This parameter is also the E-UTRAN Cell Identifier (eutraCelId) which is part of the E-Utran cell global identifier (ECGI) of the cell served by neighbour eNB.
Instance identifier of object LNADJL and used as eutraCellId in ECGI of neighbour eNB
Physical Cell Id of the cell served by neighbour eNB.
Physical Cell Id of the cell served by neighbour eNB.
Tracking area code of cell served by neighbour eNB.
Tracking area code of cell served by neighbour eNB.
Uplink transmission bandwidth of cell served by neighbour eNB. The enumerated values correspond to the number of resource blocks "NRB".
Uplink Transmission Bandwidth Of Cell Served By Neighbour ENB
The parameter defines CQI compensation value for DL AMC for case where Spatial Multiplexing transmission mode is used but Rank Indication of 1 is received from UE. Applicable in the case when Dynamic Open Loop MIMO Spatial Multiplexing has been configured to use i.e. when dlMimoMode parameter is 3. This parameter is vendor specific.
CQI compensation for DL AMC in case of Dynamic Open Loop MIMO SM mode is used and RI with value 1 is received
The parameter defines CQI compensation value for DL AMC for case where TX Diversity transmission mode is used but Rank Indication of 2 is received from UE. Applicable in the case when Dynamic Open Loop MIMO Spatial Multiplexing has been configured to use i.e. when dlMimoMode parameter is 3. This parameter is vendor specific.
CQI compensation for DL AMC in case of Dynamic Open Loop MIMO Tx Div mode is used and RI with value 2 is received
Author: Marko Saarinen (U
proposal Author: Marko Saarinen (U
proposal Author: Marko Saarinen (U
proposal Author: Tillmann Richter (
approved Author: Tillmann Richter (C-
The parameter defines CQI ageing factor for old CQI reports for downlink Adaptive Modulation and Coding use. CQI ageing is done in radio frame basis until configured default CQI is reached. No ageing is performed for old CQIs with value setting 1 and so CQIs are valid until timer dlamcTHistCqi expires. Note that CQI ageing is not performed in AMC in case downlink Outer Loop Quality Control (OLQC) has been enabled. This is vendor specific parameter.
DL AMC ageing factor per radio frame for old CQI reports.
The parameter defines the time in TTIs for which an historical CQIs shall be remembered in downlink Adaptive Modulation and Coding algorithms. The default CQI (cqiDefaultDl) shall be used after the timer expiry. This is vendor specific parameter.
Time in TTIs for which old CQIs shall be remembered.
Time averaging constant for equal throughput criterion in Downlink. Mean throughput of Data Radio Bearer is defined over this time constant.
Time averaging constant for equal throughput criterion in DL
This parameter is used by the transmitting side of each AM RLC entity to count the number of transmissions of an AMD PDU. This parameter shall be set in a way that a radio link failure can be detected by eNB before the maximum number of transmissions has been reached. This parameter is only used in DRB configuration. Parameter is on higher level than ARQ and HARQ. Parameter is vendor specific
Defines the maximum number of restransmission on TX side (DRB). Parameter is on higher level than ARQ and HARQ.
Downlink scheduling priority for DRB for UE Configuration (Alpha 1).
Downlink Scheduling priority for DRB
proposal Author: Marko Saarinen (U-
proposal Human readable name of the eNB
proposal
proposal
proposal
approved Local state of cell.
proposal Author: Jussi Rajala (U-P
The parameter enables / disables the improved PHICH control algorithm. In case of the parameter is false, the first uplink demodulation reference symbol which is not overlap with contention based Random Access Msg3 is selected. If the parameter is true, uplink demodulation reference symbol is selected aiming to an equal distribution among PHICH groups as well as individual PHICH index for each UE per TTI. This parameter is vendor specific.
Activates enchanged PHICH control algorithm
This is a human readable name for the eNB
Author: Hema Penthakota (C-Plane)SFS abbreviated name: lnBtsName (internal)
Minimum data volume which shall be transferred by a Dummy Grant.Parameter is vendor specific.
Minimum data volume which shall be transferred by a Dummy Grant.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ilMinDatVolUL (internal)
Improved Latency Reaction Timer in Uplink defines the time in which the UE has to send some useful data after either the initial dummy grant or after previous reception of useful data. Parameter is vendor specific.
Improved Latency Reaction Timer in Uplink defines the time in which the UE has to send some useful data after either the initial dummy grant or after previous reception of useful data
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ilReactionTimeUL (internal)
This is the instance identifier of object LNBTS, used by NetAct and BTS Site Manager. This parameter appears only in the distinguished name (DN) in plan file, but is additionally used as telecom parameter in the meaning of 3GPP parameter 'Macro eNB ID', which is part of Global eNB ID.
Instance identifier of object LNBTS and used as Macro eNB Id.
Local state of the eNB, value is set by the operator
Defines the maximum number of PRBs which shall be assigned in the frequency domain to UEs scheduled because of the Scheduling Request.Parameter is vendor specific.
Maximum number of PRBs for Scheduling Request users
Primary MCC and primary MNC together form the primary PLMN IdentityAuthor: E.Holzer (C-Plane)SFS abbreviated name: eNbPrMcc (internal)
Averaging filter constant for open loop CQI measurements
Averaging filter constant for open loop CQI measurements
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoAlphaCqiAvgOl (internal)
CQI Compensation applied to CQI Measurements when reported RI=2 (in CQI). The reported CQI in open loop spatial multiplexing case is smaller than for Diversity transmission. By this compensation a normalization towards Diversity is obtained.
CQI Compensation applied to CQI Measurements when reported RI=2
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoCqiCompSmDivOl (internal)
Averaging filter constant for open loop Rank measurements
Averaging filter constant for open loop Rank measurements
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoAlphaRiAvgOl (internal)
Primary Mobile Network Code of eNB
Primary MCC and primary MNC together form the primary PLMN IdentityAuthor: E.Holzer (C-Plane)SFS abbreviated name: eNbPrMnc (internal)
PDCP Status Report:This parameter determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter.The PDCP Status Report may be sent from eNB to UE (eNB PDCP Status Report) or from UE to eNB (UE PDCP Status Report).Possible settings:00: no Status Report01: eNB Status Report10: UE Status Report11: eNB and UE Status Report
Determines whether a PDCP Status Report is sent from PDCP receiver to PDCP transmitter.
This parameter indicates the delay before a PDCP PDU along with the corresponding PDCP SDU is discarded from the buffer. This timer shall be set in a way that the packet delay defined by the QCI characteristics is kept. The timer can be disabled by setting the parameter to disabled.
Scheduling priority of a HARQ retransmission in DL, higher number means higher priority.Parameter is vendor specifc parameter.
Scheduling priority of a HARQ retransmission in DL
Scheduling priority of the HARQ retransmissions in UL, higher number means higher priority.Parameter is vendor specifc parameter.
Scheduling priority of the HARQ retransmissions in UL
Scheduling priority of the Scheduling Request Procedure, higher number means higher priority.Parameter is vendor specifc parameter.
Schedulign Priority of the Scheduling Request Procedure
Scheduling priority of the Signalling Radio Bearer in DL, higher number means higher priority.Parameter is vendor specifc parameter.
Scheduling priority of the Signalling Radio Bearer in DL
proposal Author: Jussi Rajala (U-Pl
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
Scheduling priority of the Signalling Radio Bearer in UL, higher number means higher priority.Parameter is vendor specifc parameter.
Scheduling priority of the Signalling Radio Bearer in UL
Table to translate the S1AP parameter QCI into QCI characteristics. Structure {qci, resType, prio, packDelay, packLoss, qciSupp, rlcMode, rlcProfId, pdcpProfId, dscp, ulsPrio, ulsBSD }
Translation table to map S1AP parameter into QCI caractaristics
This parameter configures the DSCP (Differentiated Services Code Point) value associated with the QCI. The DCSP value will be set in each IP packet sent for the related bearer to S-GW or target eNB.DSCP values are defined by IETF and shall be configured
Configures the DSCP value associated with the QCI
The Packet Delay Budget denotes the time that a packet may be delayed between the UE and the PDN GW. For a certain QCI the value of the PDB is the same in uplink and downlink
The Packet Delay Budget denotes the time that a packet may be delayed between the UE and the PDN GW
The Packet Loss Rate determines the rate of SDUs (e.g. IP packets) that have been processed by the sender of a link layer protocol (e.g. RLC in E-UTRAN) but that are not successfully delivered by the corresponding receiver to the upper layer (e.g. PDCP in E-UTRAN)
The Packet Loss Rate determines the rate of SDUs
This parameter specifies the ID of a corresponding PDCP profile in the PDCP Profile List.pdcpProfileId 0 specifies an invalid profile.
This parameter specifies the ID of the PDCP profile.
proposal Author: Tillmann Richter (C-proposal QoS Class Identifier QoS Class Identifier Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C
proposal Author: Tillmann Richter (C-
proposal Author: Tillmann Richter (C
This parameter gives the priority of the EPS bearer.
This parameter gives the priority of the EPS bearer.
This parameter indicates whether the given QCI is supported and enabled in this release. NOT_SUPPORTED: QCI is not supported in this release. ENABLED: QCI is supported in this release and has been enabled. DISABLED: QCI is supported in this release, but has been disabled.
This parameter indicates whether the given QCI is supported and enabled
The Resource Type determines if dedicated network resources related to a service or bearer level Guaranteed Bit Rate (GBR) value are permanently allocated.
The Resource Type indidates whether bearer is GBR or NON-GBR
This parameter configures the RLC Mode of the radio bearer based on the corresponding QCI.
This parameter configures the RLC Mode of the radio bearer
This parameter specifies the ID of a corresponding RLC AM / RLC UM profile (separate IDs for RLC AM and RLC UM) in the AM RLC DRB Profile List. rlcProfileId 0 specifies an invalid profile.
This parameter specifies the ID of the RLC AM / RLC UM profile
The BSD is sent to UE for the UL scheduling algorithm according 36.321.The UE calculates the bucket size of a logical channel by PBR x BSD.
This parameter is used to calculate the ul scheduler bucket size duration
proposal Priority for UE UL scheduler Author: Tillmann Richter (C
proposal Author: Jussi Rajala (U-
proposal Author: Jussi Rajala, SF
proposal Author: Jussi Rajala (U-
proposal RLC Profile for DRBs Structure {rlcProfileId, pollP
proposal Author: Tillmann Richter (
proposal Author: Tillmann Richter (C-
proposal Author: Tillmann Richter (
proposal Author: Tillmann Richter (
This priority is sent to UE for the UL scheduling algorithm according for DRB 36.321.Increasing priority values indicate lower priority.
Defines the modulation and coding scheme (MCS) to be used for large size Random Access Message 3 in case of initial access or handover.Parameter is vendor specific.
MCS to be used for the transmission of large size RACH message 3 in case of initial access or handover
Defines the data volume to be used for large size Random Access Message 3 in case of initial access or handover. This parameter is vendor specific.
Data volume assigned for the transmission of large size RACH message 3 in case of initial access or handover
Defines the modulation and coding scheme (MCS) to be used for the small size Random Access Message 3 in case of UL or DL data arrival.Parameter is vendor specifc parameter.
MCS for the small size RACH Access Procedure in case of UL or DL data arrival
Profile of RLC AM parameters for DRB
The AM RLC Poll PDU defines the number of RLC PDUs that are sent on a logical channel before the RLC polling bit is set. Element is defined for DRB
Number of RLC PDUs before RLC poll bit set
Identity of the RLC AM profile, 0 specifies an invalid, dummy profile
Identity of the RLC AM profile, 0 specifies an invalid, dummy profile
This timer is used by the transmitting side of an AM RLC entity in order to retransmit a poll. This timer is only used when it has been activated with the AMRLCPollingTriggers. The used minimum value of the timer shall be larger than the calculated round-
Timer for re-transmission of Poll PDU
This timer is used by the receiving side of an AM RLC entity in order to prohibit transmission of a STATUS PDU. Element is defined for DRB.
Prohibit Status PDU as long as timer is active
proposal Author: Tillmann Richter (
proposal Author: Marko Saarinen (U-
proposal Author: Marko Saarinen (U-
proposal Author: Marko Saarinen (U-
approved
proposal Author: Hema Penthakota,E
proposal
This timer is used by the receiving side of an AM RLC entity for reordering, PDU loss detection and delay of STATUS PDU transmission. This timer depends on HARQ RTT and number of HARQ retransmissions.
Timer for re-ordering, PDU loss detection, delay of Status PDU
Determines the number DL PDSCH transmission with correct HARQ feedback until detected radio link problems are assumed to be over. Parameter is vendor specific
Determines the number DL PDSCH transmission with correct HARQ feedback until detected radio link problems are assumed to be over.
Determines the maximum number of failed DL PDSCH transmission attempts until radio link problems are detected. Parameter is vendor specific
Determines the maximum number of failed DL PDSCH transmission attempts until radio link problems are detected.
Determines the time frame for failed DL PDSCH transmission attempts until radio link problems are detected. Parameter is vendor specific
Determines the time frame for failed DL PDSCH transmission attempts until radio link problems are detected.
This timer is started when an RRC message for setup, modification or release of a radio bearer is sent to the UE. When the timer expires, the corresponding procedure is aborted.
RRC guard timer for outgoing radio bearer requests
Vendor Configurable Timer that specifies the amount of time an eNB should wait for S1AP:RESET ACKNOWLEDGE before assuming the procedure has failed
Timout duration while waiting for a S1 Reset Acknowledge
Vendor configurable timer that specifies the amount of time an eNB should wait for S1AP: SETUP RESPONSE before assuming the procedure has failed. Parameter is vendor specific
Timeout duration while waiting for a S1 Setup Response
Author: Hema Penthakota (C-Plane)SFS abbreviated name: TimerS1SetupWaitForResponse (internal)
proposal Author: Mayer Walter (C-Pl
proposal Author: Mayer Walter (C-Pl
proposal
proposal
proposal Author: Mayer Walter (C-Pl
This timer is started in the source eNB when the X2AP: RELEASE RESOURCE message is received.When the timer expires the eNB closes its S1-U connection.Parameter is vendor specific parameter.
Data Forwarding timer at Source eNB for Inter eNB Handover
This timer is normally started in the target eNB when the S1AP: PATH SWITCH REQUEST ACKNOWLEDGE message is received.When the timer expires the eNB closes its user data tunnels at X2.Note: This timer should usually be greater than TDATAfwdS1, see note at MM.605. A semantic check may be useful, but it is not required.Parameter is vendor specific parameter.
Data Forwarding timer at Target eNB for Inter eNB Handover
Timer to supervise the establishment of a UE-associated logical S1-connection. Parameter is vendor specific
The minimal time period eNB waits for first answer from MME after having sent a S1AP INITIAL UE MESSAGE.
The minimal time period during which the internal state and the resources associated with an half-open RRC connection (i.e. one for which no RRC Connection Setup Complete msg. has yet been received) must not be deleted in the eNB. Parameter is vendor specific
The minimal time period eNB waits for an RRC CONNECTION SETUP COMPLETE after having sent a RRC CONNECTION SETUP.
Covers the estimated time taken to send an RRC:CONNECTION RECONFIGURATION message to the UE (no RLC Ack needed)- send an RRC:CONNECTION RECONFIGURATION COMPLETE message from the UETHOoverall = T304 + T311 + T301 + THOoverallDeltaParameter is vendor specific parameter.
Supervision of Complete Handover phase at Source and Target side for Intra eNB Handover
proposal
proposal Author: Mayer Walter (C-P
proposal Author: Mayer Walter (C-P
proposal Author: Mayer Walter (C-Pla
The minimal time period Indicates the time after which the RRC L3 shall release the RRC Connection, if no positive Ack is received from L2 to RRC:RRC Connection Release message. Parameter is vendor specific
The minimal time period eNB waits for a L2 Ack on a RRC CONNECTION RELEASE.
This timer is started in the target eNB when the S1AP: PATH SWITCH REQUEST message is sent to the MME and is typically stopped whenthe S1AP: PATH SWITCH REQUEST ACKNOWLEDGE message is received in return.When the timer expires the eNB initiated context release procedure is started.Parameter is vendor specific parameter.
Supervision of Handover Completion phase at target side for Inter eNB Handover
Covers the estimated time taken to- send an X2AP:HANDOVER REQUEST ACKNOWLEDGE message to the source eNB- send an RRC:CONNECTION RECONFIGURATION message to the UE (no RLC Ack needed)- send an RRC:CONNECTION RECONFIGURATION COMPLETE message from the UETX2RELOCexec = T304 + T311max + TX2RELOCexecDeltaParameter is vendor specific parameter
Supervision of Handover Execution phase at target side for Inter eNB Handover
This timer is started in the source eNB when the X2AP: HANDOVER CANCEL message is sent to the target eNB and is typically stopped when the X2AP: HANDOVER REQUEST ACKNOWLEDGE or X2AP: HANDOVER PREPARATION FAILURE message is received.When the timer expires X2 signalling connections at Source eNB shall be closed. Parameter is vendor specific
Spare time at source side after sent of X2AP: HANDOVER CANCEL for Inter eNB Handover
proposal Author: Mayer Walter (C-P
proposal Author: Jussi Rajala (U-Pl
proposal Author: Jussi Rajala (U-Pl
proposal Author: Mayer Walter (C-Pl
This timer is started in the source eNB when the X2AP: HANDOVER REQUEST message is sent to the target eNB and is typically stopped when the X2AP: HANDOVERREQUEST ACKNOWLEDGE message is received in return.When the timer expires the X2AP: HANDOVER CANCEL procedure is started.Parameter is vendor specific parameter
Supervision of Handover Preparation phase at source side for Inter eNB Handover
The number of times the Timing Advance Command will be retried before LTE MAC assumes the UE has gone Out-of-Synch. Parameter is vendor specific.
The number of times the Timing Advance Command will be retried before LTE MAC assumes the UE has gone Out-of-Synch.
Determines time alignment offset limit for the uplink sceduler to stop considering the UE for scheduling. Multiplicative factor to taMaxOffset. Parameter is vendor specific.
Determines time alignment offset limit for the uplink sceduler to stop considering the UE for scheduling. Multiplicative factor to taMaxOffset.
Covers at a minimum the estimated time taken to- send an RRC:CONNECTION RECONFIGURATION message to the UE (no RLC Ack needed)- send an RRC:CONNECTION RECONFIGURATION COMPLETE or RRC:CONNECTION REESTABLISHMENT REQUEST message from the UE- send an S1AP: PATH SWITCH REQUEST message from the target eNBNote that this value can be extended to also include the estimated time for the target eNB to complete the full Handover Completion phase.TX2RELOCoverall = T304max + T311 + T301 + TX2RELOCoverallDeltaParameter is vendor specific parameter.
Supervision of Handover Execution and Completion Phase at source side for Inter eNB Handover
proposal Author: Jussi Rajala (U-P
proposal Author: Jussi Rajala (U-P
proposal Author: Jussi Rajala (U-P
The parameter defines the stepsize up value for uplink Outer Loop Link Adaption compensation delta C. Stepsize down value for delta C can be caluclated by using this parameter and UL target BLER (ulAmcTargetBler).The parameter is vendor specific.
UL OLLA Compensation Stepsize Up
The parameter defines the initial value for uplink Outer Loop Link Adaption compensation delta C. The initial value is used for initialization.Parameter is vendor specific.
UL OLLA initial Value for Compensation
The parameter defines the maximum limit for uplink Outer Loop Link Adaption compensation value delta C. If delta C value reaches maximum limit, UL MCS is increased by one. Parameter is vendor specific.
UL OLLA maximum Limit for Compensation
proposal Author: Jussi Rajala (U-P
proposal Author: Jussi Rajala (U-P
proposal UL AMC timer for Inactivity Author: Jussi Rajala (U-P
proposal Author: Jussi Rajala (U-
proposal Author: Jussi Rajala (U-Pl
The parameter defines the minimum limit for uplink Outer Loop Link Adaption compensation value delta C. If delta C value reaches the minimum limit, UL MCS is decreased by one. Parameter is vendor specific.
UL OLLA minimum Limit for Compensation
The parameter defines time in TTIs for remembering of selected Modulation and Coding Scheme (MCS) for uplink when UL AMC has been enabled (ulAmcEnable).Parameter is vendor specific.
Time for remembering of historical MCS in UL AMC
The parameter defines the time in TTIs for starting uplink Adaptive Modulation and Coding inactivity actions. Parameter is vendor specific.
The parameter defines uplink adaptive modulation and coding factor to calculation of modulation and coding scheme (MCS) downgrade and upgrade thresholds. The thresholds depend also on UL targer BLER (ulAmcTargetBler).Parameter is vendor specific.
UL AMC Factor to calculate Downgrade and Upgrade BLER Thresholds
The parameter defines forgetting factor for UE power headroom reports (PHRs) which is used for time averaging PHR reports. PHR averaging functionality is the part of Uplink Adaptive Transmission Bandwidth (ATB).Parameter is vendor specific.
UE PHR averaging period in UL ATB
proposal Author: Jussi Rajala (U-P
proposal
proposal
proposal Handover margin for better cell HO. Author: Mayer Walter (C-Pl
proposal Author: Mayer Walter (C-Pl
proposal Author: Mayer Walter (C-Pla
proposal Author: Mayer Walter (C-Pla
Time averaging constant for equal throughput criterion in Uplink. Mean throughput of Data Radio Bearer is defined over this time constant.Parameter is vendor specific.
Time averaging constant for equal throughput criterion in UL
Vendor configurable timer that specifies the amount of time an eNB should wait for X2AP: RESET RESPONSE before assuming the procedure has failed
Timout duration while waiting for a X2 Reset Response
Handover margin for better cell HO. Used in measurement event type A3 where the event is triggered when the neighbor cell becomes A3 offset better than the serving cell. The actual value is parameter value multiplied by 0.5 dB.
Defines the maximum number of measurement reports that will be sent as long as the specific criteria for the measurement event A3 is met.
Defines the maximum number of measurement reports that will be sent as long as the specific criteria for the measurement event A3 is met.
Defines the interval with which measurement reports are repeatedly sent as long as the specific criteria for the measurement event A3 is met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while value MIN1 corresponds to 1 min, MIN6 to 6 min and so on.
Defines the interval with which measurement reports are sent as long as the specific criteria for the measurement event A3 is met.
Time for which the specific criteria for the measurement event A3 must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
Time for which the specific criteria for the measurement event A3 must be met in order to trigger a measurement report.
proposal Author: Mayer Walter (C-Pl
proposal Author: Mayer Walter (C-Pla
proposal Author: Mayer Walter (C-Pl
proposal Author: Mayer Walter (C-Pl
proposal Author: Mayer Walter (C-Pl
approved
Defines the maximum number of measurement reports that will be sent as long as the specific criteria for the measurement event A5 is met.
Defines the maximum number of measurement reports that will be sent as long as the specific criteria for the measurement event A5 is met.
Defines the interval with which measurement reports are repeatedly sent as long as the specific criteria for the measurement event A5 is met. Value definitions as stated in 3GPP TS36.331: value MS120 corresponds to 120 ms, MS240 to 240 ms and so on, while value MIN1 corresponds to 1 min, MIN6 to 6 min and so on.
Defines the interval with which measurement reports are sent as long as the specific criteria for the measurement event A5 is met.
Receive level threshold for serving cell in A5 event. Used in measurement event type A5 where the event is triggered if the serving cell becomes worse than a5Threshold1 AND the neighbor cell becomes better than a5Threshold2. The actual threshold value is parameter value -140 dBm.
Receive level threshold for serving cell in A5 event.
Receive level threshold for neighbour cell in A5 event. Used in measurement event type A5 where the event is triggered if the serving cell becomes worse than a5Threshold1 AND the neighbor cell becomes better than a5Threshold2. The actual threshold value is parameter value -140 dBm.
Receive level threshold for neighbour cell in A5 event.
Time for which the specific criteria for the measurement event A5 must be met in order to trigger a measurement report. Value definitions as stated in 3GPP TS36.331: value MS0 corresponds to 0 ms, MS40 to 40 ms and so on.
Time for which the specific criteria for the measurement event A5 must be met in order to trigger a measurement report.
The Access Barred for Mobile Terminating Calls Flag indicates that the cell status is access barred for mobile terminating calls in this cell, True means barred.
Indicates access is barred for mobile terminating calls in this cell.
approved
approved
proposal
proposal Author: Bernd Burckgard (C-
proposal Author: Bernd Burckgard (C-
approved Administrative State of cell
proposal
proposal
approved Indicates if the cell is barred or not.
The Access Class Barring Time defines the time that the access barring check remains unsuccessful while UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter.
Defines the Access Class Barring Time.
The Access Probability Factor defines a probability for a UE to establish an RRC connection. The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the Access probability factor then the UE considers the Access barring check to be unsuccessful.
Defines a probability for a UE to establish an RRC connection.
The Additional Spectrum Emission Mask parameter is broadcasted into a cell to indicate that the UE shall meet an additional requirement.
Additional Spectrum Emission Mask for UE
Neighbouring cell information list which contains the E-Utran Cell Identities of adjacent cells in own eNB and the neighbour eNBs connected via X2.
Neighbouring cell information list which contains the E-Utran Cell Identities of adjacent cells.
E-Utran Cell Identity of adjacent cells in own eNB or the neighbour eNBs connected via X2.
E-Utran Cell Identity of adjacent cells.
Administrative State of the cell, value is set by operator.
The Cell Reselection Timer (t-ReselectionEUTRAN) is multiplied with this factor if the UE is in Medium High Mobility state.
Cell Reselection Timer factor if the UE is in High Mobility state.
The Cell Reselection Timer (t-ReselectionEUTRAN) is multiplied with this factor if the UE is in Medium Mobility state.
Cell Reselection Timer factor if the UE is in Medium Mobility state.
The Cell Barred Flag indicates if the cell status is barred or not. A barred cell is a cell a UE is not allowed to camp on, not even for emergency calls. If a cell on which a UE is currently camped becomes barred, a cell reselection is triggered.
proposal
proposal
proposal Author: Christian Reim (C
proposal
proposal Author: Christian Reim;
proposal
proposal Parameter is vendor specific. Author: Christian Reim;
The Cell Reselection Priority parameter defines the absolute priority of the serving layer. 0 means lowest priority.
Defines the absolute priority of the serving layer.
Cell which are 'cell reserved for operator use' are treated as barred by 'normal' UE without an USIMwith AC 11 or 15 inserted. UEs with AC 11 or 15 USIM inserted are specific operator Ues and thus allowed tocamp on and access such cells. Default value not reserved.Instance Number 1 of this list is related to the primary PLMN-Id.The remaining instances are related to the further PLMN-Ids.
Indicates if the cell is reserved for operator use.
Author: M. Guessregen (C-Plane)SFS abbrev. name:cellReservedForOperatorUse (internal)
Scheduling Request Periodicity in a cell. Parameter is vendor specific
Scheduling Request Periodicity in a cell
O&M switch for enabling / disabling aperiodic CQI / RI / PMI reporting on PUSCH
Enables / disables aperiodic CQI / RI / PMI reporting
Author: Marko Saarinen (U-Plane)SFS abbreviated name: enableApCqiRep (internal)
Corresponds to cqi-ReportingModeAperiodic of 3GPP-36.213. CQI format indicator for aperiodic reporting on PUSCH. Operator can chose one of the 2 families modes available, the MIMO algorithm embedded in RRM will chose the effective mode on a base of the UE capabilities and family mode chosen by operator and will forward this to UE; FTB1 pre-selects reporting mode 2.x, FTB2 selects reporting mode 3.x; x is determined by Mimo algorithm internal in eNB.
CQI aperiodc reporting mode for PUSCH
Defines a timer in TTIs for polling aperiodic CQI / RI / PMI feedback. Scheduler takes care about the aperiodic feedback requesting based on this timer.
Sets the aperiodic CQI Reporting Time-Limit by Polling to be taken into account by Scheduler
CQI format indicator for periodic reporting on PUCCH / PUSCH
proposal Author: Christian Reim;
proposal Author: Christian Reim;
proposal Author: Christian Reim;
proposal
proposal
proposal Used to define the PUCCH format.
proposal Used to define the PUCCH format.
proposal Used to define the PUCCH format.
proposal Used to define the PUCCH format.
proposal Used to define the PUCCH format.
Defines periodicity of periodic CQI / PMI feedback on PUCCH or PUSCH. Periodic CQI / RI / PMI reporting can be switched completely off by setting this parameter to off.Parameter is vendor specific parameter.
Periodic CQI / PMI feedback reporting period
Number of periodic sub-band reporting cycles (K). Required only for configuring a periodic wideband + subband reporting. Indicate the number of periodic sub-band reporting cycles between two consecutive periodic wideband reporting instances.Parameter is vendor specific.
Amount of periodic subband CQI cycles K between two consecutive periodic wideband CQIs.
O&M switch for enabling / disabling simultaneous transmission of periodic CQI / RI / PMI feedback and HARQ ACK/NACK on PUCCH.
Enables / disables CQI and Ack/Nack simultaneous transmission
The parameter defines cyclic prefix configuration/length for OFDM symbol in downlink and uplink.Parameter is vendor specific
Cyclic prefix length in downlink and uplink
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: cycConf (internal)
dFListPucch: SEQUENCE (see values below)
dFListPucch: SEQUENCE (see values below)
Author: Jussi Rajala (U-Plane)SFS abbreviated name: deltaFListPUCCH (internal)
The parameter 'deltaF PUCCH Format 1' is used to define the PUCCH format.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: deltaF-PUCCH-Format1 (internal)
The parameter 'deltaF PUCCH Format 1b' is used to define the PUCCH format.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: deltaF-PUCCH-Format1b (internal)
The parameter 'deltaF PUCCH Format 2' is used to define the PUCCH format.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: deltaF-PUCCH-Format2 (internal)
The parameter 'deltaF PUCCH Format 2a' is used to define the PUCCH format.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: deltaF-PUCCH-Format2a (internal)
The parameter 'deltaF PUCCH Format 2b' is used to define the PUCCH format.
Author: Jussi Rajala (U-Plane)SFS abbreviated name:deltaF-PUCCH-Format2b (internal)
proposal
proposal
proposal
proposal
Maximum number of allowed dedicated Scheduling Requests. Once this limit is exceeded, UE shall release all PUCCH resources. The value 4n corresponds to 4 transmissions, 8n corresponds to 8 transmissions and so on.
Indirectly provides the UE-specific maximal time within the UE must receive a valid uplink grant for a new transmission on UL-SCH. In case this time expires the UE shall release PUCCH resources and shall no longer perform a dedicated Scheduling Request but instead shall perform a Random Access Scheduling Request. This time could be calculated by Cell Scheduling Request Periodicity * Dedicated SR Transmission Maximum
Maximum number of allowed dedicated Scheduling Requests
The Default Paging Cycle defines the cell specific paging DRX cycle duration. It also determines the maximum paging DRX duration applicable in the cell. Referred to as ' T ' in TS 36.304. Value rf32 corresponds to 32 radio frames, rf64 corresponds to 64 radio frames and so on.
Cell specific paging DRX cycle duration
Author: M. Gussregen (C-Plane)SFS abbrev. name: defaultPagingCycle (internal)
Used for the calculation of P0_NOMINAL_PUSCH(j=2) for PUSCH (re)transmission corresponding to the random access response grant.
Used for the calculation of P0_NOMINAL_PUSCH(j=2) for PUSCH (re)transmission corresponding to the random access response grant.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: deltaPreambleMsg3 (internal)
Delta cyclic shift for PUCCH formats 1/1a/1b. Shift is the cyclic shift difference between two adjacent ACK/NACK/Scheduling Request resources using the same orthogonal cover sequence and can be decided considering multipath delay spreads for the given cell deployment. )Parameter is vendor specific
Delta cyclic shift for PUCCH formats 1/1a/1b.
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: Delta_CS_PUCCH (internal)
proposal
proposal ENABLE_DL_64QAM (intern
proposal
proposal
Enabling/disabling of transport format dependent offset on a per UE basis. In case that this parameter is enabled, PUSCH power calculation in UE uplink power control equation (P1) takes transport block size in account during power calculation.
Enabling/disabling of transport format dependent offset on a per UE basis.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: DELTA_TF_ENABLED (internal)
Enables/disables downlink 64 QAM modulation for link adaptation use in PDSCH.
The Support of 64 QAM for PDSCH parameter controls if link adaptation is allowed to select 64 QAM modulation for PDSCH.
User can define lower cell output power by the cell power reduction. Reduction is set down from a antenna maximum TX power.
Sets the power reduction from a antenna maximum Tx power
Author: Marko Saarinen (U-plane);SFS abbreviated name: CELL_PWR_RED (internal)
Downlink Channel Bandwidth defines DL bandwidth for the eNode-B transmission in a cell, and also defines the number of available Physical Resource Blocks.The Downlink Channel Bandwidth mapping to Number of Physical Resource Blocks is:5.0 MHz = 25 DL PRBS10.0 MHz = 50 DL PRBS15.0 MHz = 75 DL PRBS20.0 MHz = 100 DL PRBS
Downlink Channel Bandwidth parameter defines DL bandwidth for the eNode-B transmission in a cell
The used DL mimo mode for each physical channel is the following: 0: Single Stream Downlink: All downlink physical channels are transmitted using this mode; 1: Single Stream Downlink Transmit Diversity: All downlink physical channels are transmitted using this mode; 2: Dual Stream MIMO Spatial Multiplexing: SRB1 (DCCH) and RBs(DTCH) on PDSCH are transmitted using Dual Stream MIMO with spatial multiplexing; SRB0 (CCCH), BCCH and PCCH on PDSCH and all other physical channels are transmitted using Single Stream Downlink Transmit Diversity; 3: Dynamic Open Loop MIMO: SRB1 (DCCH) and RBs(DTCH) on PDSCH are transmitted using either Single Stream Downlink Transmit Diversity or Dual Stream MIMO with spatial multiplexing depending on radio conditions; SRB0 (CCCH), BCCH and PCCH on PDSCH and all other physical channels are transmitted using Single Stream Downlink Transmit Diversity; 4: Dynamic Closed Loop MIMO: SRB1 (DCCH) and RBs(DTCH) on PDSCH are transmitted using either Single Stream Downlink Transmit Diversity or Single or Dual Stream MIMO with Closed Loop spatial multiplexing depending on radio conditions and UE category; SRB0 (CCCH), BCCH
Parameter to select the static DL mimo mode for each physical channel and to enable the UE specific dynamic open loop as well as closed loop MIMO Mode control Algorithm
Author: Tuomas HakuliSFS abbreviated name: dlMimoMode (internal)
proposal Enables / disables OLQC
approved
proposal BLER target for downlink LA in %
proposal Default CQI value for DL LA
O&M switch for enabling / disabling downlink Outer loop Link Quality Control which is acting based on 1st transmission HARQ result i.e. 1st transmission BLER
Author: Marko Saarinen (U-plane);SFS abbreviated name: ENABLE_OLQC (internal)
Trigger Condition for Power Headroom submission due to Pathloss change; Named ULATB_DLPL_CHANGE in RRM SFS
Trigger Condition for Power Headroom submission due to Pathloss change;
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ulAtbPhrPlChange (internal)
Defines target block error ratio (BLER) for downlink Link Adaptation in percent. Used with downlink outer loop link quality control (OLQC) functionality.
Author: Marko Saarinen (U-plane);SFS abbreviated name: BLER_TARGET (internal)
Defines the default Channel Quality Indicator (CQI) value for downlink Link Adaptation use. Default CQI is used when there is no valid CQI available i.e. CQI report is not received or it is too old.
Author: Marko Saarinen (U-plane);SFS abbreviated name: CQI_DEFAULT_DL (internal)
proposal Enables / disables DL AMC Author: Marko Saarinen (U
O&M switch for enabling / disabling downlink Adaptive Modulation and Coding
proposal
proposal
proposal
The parameter determines power compensation factor for antenna specific maximum power in case of downlink transmission using at least two TX antennas. This means that every single subcarrier power determined for multiple TX antenna transmission is reduced by this factor. The parameter does not apply in case of single TX (TM1) transmission, and thus neither affect to power of cell specific reference signal transmission. Note that only the limited set of dlpcMimoComp values (0dB, 1.77dB, 3dB, 4.77dB, 6dB) can be communicated to UE due to p-a signalling restrictions and the extended range has been determined only for fine tuning purposes. Please be informed that Nokia Siemens Networks does not quarantee successful DL transmission using amplitude dependent modulations, especially 64QAM, in case other values than values presented in the limited set (0dB, 1.77dB, 3dB, 4.77dB, 6dB) is used.
Set the compensation in TxDiv and 2x2 MIMO SM case in to the DL power control.
Author: Marko Saarinen (U-Plane)SFS abbreviated name: MIMO_COMP (internal)
Determines if PRBs partly allocated for transmission of Primary (PSS) and Secondary Syncronisation Signals (SSS) and Physical Broadcasting Channel (BPCH) shall be used in dynamic scheduling
Determines if PRBs partly allocated for transmission of common channels shall be used in dynamic scheduling
Author: Marko Saarinen (U-Plane)SFS abbreviated name: usePartPrbDl (internal)
The Access Barred for Emergency Calls Flag indicates that the access is barred for emergency calls in this cell.
Indicates that the access is barred for emergency calls in this cell.
E-UTRA Absolute Radio Frequency Channel Number in downlink.Supported Bands and related EARFCNs are the following:
E-UTRA Absolute Radio Frequency Channel Number in downlink.
Author: Tuomas Hakuli(U-Plane) SFS abbreviated name: EARFCN_DL(internal) (internal)
proposalproposal Flag if better cell HO is enabled Flag if better cell HO is enabled Author: Mayer Walter (C-proposal Flag if coverage HO is enabled Flag if coverage HO is enabled Author: Mayer Walter (C-P
proposal
proposal
proposal Filter coefficient for RSRP measur. Author: Tillmann Richter (C-
proposal Further PLMN ids of the Cell.
E-UTRA Absolute Radio Frequency Channel Number in uplinkSupported Bands and related EARFCNs are the following:Band 7 : 20750 - 21449Band 12: 23000 - 23179Band 17: 23730 - 23849
E-UTRA Absolute Radio Frequency Channel Number in uplink.
Author: Tuomas Hakuli(U-Plane) SFS abbreviated name: EARFCN_UL(internal) (internal)
The E-UTRAN Cell Identifier is unique within one PLMN and has a length of 28 bits. The leftmost 20 bits of the value correspond to the value of the eNB ID (parameter lnBtsId) and the 8 rightmost bits correspond to the value of local cell resource Id (lcrId). This parameter cannot be set by operator, it is calculated system internally and only readable.
The E-UTRAN Cell Identifier is unique within one PLMN and has a length of 28 bits.
This parameter defines absolute Tx frequency in kHz for overriding normal Filter Center frequency tuning.
Parameter can be used to override normal filter tuning to minimize noise to neighbouring frequency band. If parameter value is not defined, Tx filter frequency is evaluated as an average of the configured center frequencies.
This parameter defines absolute Tx frequency in kHz for overriding normal Filter Center frequency tuning.
Filter coefficient for RSRP measurements used to calculate path loss as specified in [3GPP-36.213. 5.1.1.1]. Value fc0 corresponds to k = 0, fc1 corresponds to k = 1, and so on.
Further PLMN ids of the Cell. Indicates which operators(PLMNID) networks areavailable from the Cell. These PLMNIdentitys have cell scope.Primary PLMN id has to be provided separately for eNB.
Author: M. Guessregen (C-Plane)SFS abbrev. name:furtherPlmn-id (internal)
proposal Indicates the Mobile Country Code.
proposal Indicates the Mobile Network Code.
proposal
approved
proposal Author: Raimo Karjalainen
proposal Author: Raimo Karjalainen
proposal
proposal Hopping Bandwidth of PUSCH
proposal
approved HW state of cell
approved T_INACTIVE:internal (intern
proposal Duration for which SRS is valid Author: Christian Reim (
approved
The Mobile Country Code parameter indicates the Mobile Country Code and is part of the PLMN Identifier.
Author: M. Guessregen (C-Plane)SFS abbrev. name:mcc (internal)
The Mobile Network Code parameter indicates the Mobile Network Code and is part of the PLMN Identifier.
Author: M. Guessregen (C-Plane)SFS abbrev. name:mnc (internal)
The Mobile Network Code Length parameter indicates the length of the Mobile Network Code, either 2 or 3 digits.
Indicates the length of the Mobile Network Code.
Author: M. Guessregen (C-Plane)SFS abbrev. name:n.a. (internal)
The GrpAssigPUSCH parameter defines assigned PUSCH group.
The GrpAssigPUSCH parameter defines assigned PUSCH group.
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: (internal)
Indicates the maximum number of HARQ transmissions used for Message 3 of the contention based random access procedure.
Indicates the maximum number of HARQ transmissions used for Msg3 of the contention based random access procedure.
Indicates the maximum number of HARQ transmissions in DL that is configured for each UE at Initial Access to a specific cell.
Indicates the maximum number of HARQ transmissions in DL that is configured for each UE at Initial Access to a specific cell.
Indicates the maximum number of HARQ transmissions in UL that is configured for each UE at Initial Access to a specific cell
Indicates the maximum number of HARQ transmissions in UL that is configured for each UE at Initial Access to a specific cell
36.331 specifies larger values of 8,10,12,16,20,24 and 28 which are only intended to be used when TTI bundling is enabled. Until TTI bundling is introduced, the range will be restricted to 1...7.Author: Raimo KarjalainenSFS abbreviated name: MaxNumberOfHarqTransmissionsUL (internal)
Number of PRBs that are used for PUSCH hoppingParameter is vendor specific
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: hopBwPusch (internal)
Parameter HopModePUSCH defines if hopping is only inter-subframe or both inter- and intra-subframe
Parameter HopModePUSCH defines the hopping mode
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: HopModePusch (internal)
HW state of the cell, value is set by the system.
Defines the time period for the indication of the UE inactivityin both DL and UL directions.
Time period for the indication of the UE inactivity. Same period for UL and DL directions.
Duration for which the Sounding RS shall be sent. single shot / indefinite
Defines an initial modulation and coding scheme (MCS) to be used on PDSCH for other use than BCCH, PCH or Random Access messages.
Initial modulation and coding scheme in DL
Author: Marko Saarinen (U-plane);SFS abbreviated name: INI_MCS_DL (internal)
approved
proposal
proposal Intra-Frequency Blacklisted Cell List
proposal
proposal
proposal
proposal
proposal
proposal
proposalapproved Id of the local cell resource Local Cell Resource ID
proposal
approved Local state of cell.
Defines an initial modulation and coding scheme (MCS) to be used on PUSCH for other use than RA message 3.
Initial modulation and coding scheme in UL
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULAMC_INI_MCS (internal)
Defines the initial amount of PRBs in uplink.
Initial maximum amount of PRBs in UL.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULATB_INIPRBs (internal)
Defines the Intra-Frequency Blacklisted Cell List.
Author: M. Gussregen (C-Plane)SFS abbrev. name:IntraFreqBlacklistedCellList (internal)
Indicates the number of PCIs in the range (including startPCI). Value n4 corresponds with 4, n12 corresponds with 12 and so on. The UE shall apply value 1 in case the field is absent, inwhich case only the physical cell identity value indicated by start applies.
Indicates the number of PCIs in the range
Author: M. Guessregen (C-Plane)SFS abbrev. name: range (internal)
Indicates the lowest PCI in the range
Indicates the lowest PCI in the range
Author: M. Guessregen (C-Plane)SFS abbrev. Name: start (internal)
Defines the Intra-Frequency Neighbouring Cell List.
Intra-Frequency Neighbouring Cell List
The Physical Cell Identifier is a unique cell identification in a Neighbouring Cell List
Identifies the cell in a Neighbouring Cell List
Author: M. Gussregen (C-Plane)SFS abbrev. name:physicalCellIdentity (internal)
The parameter defines a cell-specific offset (in dB) that is used in the cell reselection procedure.
Defines a cell-specific offset used for cell reselection.
Used to control cell reselection on intra-frequency cells when the highest ranked cell is barred, or is considered as barred by the UE, as specified in TS 36.304
Indicates if intra-frequency cell reselection is allowed or not
Author: M. Gussregen (C-Plane)SFS abbrev. name: intraFrequencyReselection (internal)
The IE PresenceAntennaPort1 is used to indicate whether all the neighboring cells use Antenna Port 1.When set to TRUE, UE may assume that at least two cellspecific antenna ports are used in all neighboring cells.
PresenceAntennaPort1 is used to indicate whether all the neighboring cells use Antenna Port 1.
Author: M. Guessregen (C-Plane)SFS abbrev. name: presenceAntennaPort1intra (internal)
This is the instance identifier of object LNCEL, used by NetAct and BTS Site Manager. This parameter appears only in the distinguished name (DN) in plan file and is used for O&M purposes.
Instance identifier of MOC LNCEL used by NetAct and Site Manager.
Local state of the cell, value is set by the operator
proposal Author: Christian Reim (
proposal Maximum bitrate in uplink for DRB Author: Christian Reim (
proposal Maximum code rate for Paging
proposal
proposal
proposal
proposal
proposal Author: Christian Reim
proposal Maximum number of active Ues Author: Christian Reim
proposal Author: Christian Reim (
Maximum Bit Rate that shall not be exceeded in DL due to UE capability
Maximum bitrate in downlink for DRB
Maximum Bit Rate that shall not be exceeded in UL due to UE capability.
The parameter defines the maximum coderate for paging. This maximum coderate is taken into account during PDSCH scheduling.
Author: Marko Saarinen (U-plane);SFS abbreviated name: MAX_CR_PG_DL (internal)
The parameter defines the maximum coderate for Random Access Procedure messages 4 (SRB0 message) This maximum coderate is taken into account during PDSCH scheduling.
Maximum code rate for Random Access Procedure message 4
Author: Marko Saarinen (U-Plane)SFS abbreviated name:MAX_CR_RAMSG4_DL (internal)
The parameter defines the maximum coderate for Random Access Procedure messages 2 (RA response) This maximum coderate is taken into account during PDSCH scheduling.
Maximum code rate for Random Access Procedure message 2
Author: Marko Saarinen (U-Plane)SFS abbreviated name:MAX_CR_RA_DL (internal)
The parameter defines the maximum coderate for System Information Broadcast. This maximum coderate is taken into account during PDSCH scheduling.
Maximum code rate for System Information Broadcast
Author: Marko Saarinen (U-plane);SFS abbreviated name: MAX_CR_SSI_DL (internal)
The MaximumNumberOfOFDMSymbolsForPDCCH parameter defines how many OFDM symbols can be used for PDCCH channel transmission. eNB selects the actual value for each TTI, which is signalled to UE in PCFICH
Number of OFDM symbols that are used for PDCCH channel transmission.
Maximum number of UEs in the cell with established DRB including succesfully handovered Ues
Maximum number of active Ues entered through handover
Maximum number of UEs in the cell with established DRB
Maximum number of UEs in the cell with established RRC connection
Maximum number of active signalling connections
proposal
proposal
proposal Author: Christian Reim (
approved Parameter is FFS.
proposal
proposal
proposal
proposal
Maximum number of simultaneous users scheduled in a TTI in downlink
Maximum number of simultaneous users scheduled in a TTI in DL
Author: Marko Saarinen (U-plane); SFS abbrev. name: MAX_#_UE_DLDefault value depends on Uplink Channel Bandwidth parameter as follows:5.0 MHz => 410.0 MHz => 420.0 MHz => 10 (internal)
Maximum number of simultaneous users scheduled in a TTI in uplink
Maximum number of simultaneous users scheduled in a TTI in UL
Author: Jussi RajalaSFS abbreviated name: MAX_#_UE_UL (internal)
Selects whether the UECapability or O and M parameters limits the Maximum Bitrate UL and Maximum Bitrate DL
Selects the source of the limits for Maximum Bitrates
The MBSFN Neighbour Cell Configuration parameter is FFS.
CQI Threshold for fallback to open loop MIMO Diversity (in CQI)
CQI Threshold for fallback to open loop MIMO Diversity (in CQI)
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoDivCqiThDownOl (internal)
CQI Threshold for activation of open loop MIMO Spatial Multiplexing (in CQI)
CQI Threshold for activation of open loop MIMO Spatial Multiplexing (in CQI)
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoSmCqiThUpOl (internal)
Rank Threshold for fallback to open loop MIMO Diversity
Rank Threshold for fallback to open loop MIMO Diversity
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoDivRiThDownCl (internal)
Rank Threshold for activation of open loop MIMO Spatial Multiplexing
Rank Threshold for activation of open loop MIMO Spatial Multiplexing
Author: Marko Saarinen (U-plane);SFS abbreviated name: mimoSmRiThUpCl (internal)
proposal Minimum bitrate in downlink for DRB Author: Christian Reim (
proposal Minimum bitrate in uplink for DRB Author: Christian Reim (
proposal
proposal
proposal
proposal
proposal
proposal
proposal
proposal
Minimum Bit Rate to be granted by the DL scheduler
Minimum Bit Rate to be granted by the UL scheduler
The parameter Modification Period Coefficient defines the length of the Modification Period.Modification period = modificationPeriodCoeff * defaultPagingCycle.(n2 corresponds to value 2, n4 corresponds to value 4 and n8 corresponds to value 8.)
Defines the length of the Modification Period.
Author: M. Gussregen (C-Plane)SFS abbrev. name: modificationPeriodCoeff (internal)
AckNack index offset relative to the lowest CCE index of the associated DL scheduling PDCCH.Parameter is vendor specific
Offset used to calculate ACK/NACK resource from PDCCH CCE
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: N_1_PUCCH_AN (internal)
Maximum number of consecutive "out of sync" indications received from lower layers.n1 corresponds to 1 and so on.
Constant for 'out of sync' indications n310
Author: M. Gussregen (C-Plane)SFS abbrev. name: n310 (internal)
Maximum number of consecutive "in-sync" indications received from lower layers.n1 corresponds to 1 and so on.
Constant for 'in-sync' indications n311
Author: M. Gussregen (C-Plane)SFS abbrev. name: n311 (internal)
Parameter "Number CellChanges High Mobility" defines the number of cell changes to enter high mobility state. For idle mode it corresponds to NCR_H in TS 36.304.
Defines the number of cell changes to enter high mobility state.
Parameter "Number CellChanges Medium Mobility" defines the number of cell changes to enter medium mobility state. For idle mode it corresponds to NCR_M in TS 36.304.
Defines the number of cell changes to enter medium mobility state.
Number of physical resource blocks that are reserved for PUCCH formats 2/2a/2b. Must be smaller than numPrbs.Parameter is vendor specific
Number of physical resource blocks that are reserved for PUCCH formats 2/2a/2b
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: N_cqi_rb (internal)
The shift Delta Offset is given by the parameter nomPDSCH-RS-EPRE-Offset which is configured by higher-layer signalling. Parameter is vendor specific
Is the offset to the ration of PSCH EPRE to cell-specific RS EPRE
Author: Christian Reim (C-Plane)SFS abbreviated name: nomPdschRsEpreOffset (internal)
proposal
proposal
proposal
proposal
approved Operational State of cell
proposal
The Number of Transmission Antenna Ports parameter defines whether eNode-B is has one or two antennas for downlink signal transmission.
The Number of Transmission Antenna Ports parameter defines whether eNB has 1 or 2 TX antennas
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: NumOfTransAntPorts (internal)
Access Class Barring List (5 Bit) for Originating calls forAC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on).Default is no access class barred is applied.
Access Class Barring List (5 Bit) for Originating calls
Author: M. Guessregen (C-Plane)SFS abbrev. name:ac-BarringForSpecialAC (internal)
The Access Class Barring Time defines the time that the access barring check remains unsuccessful while UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
Defines the Access Class Barring Time.
The Access Probability Factor defines a probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the Access probability factorthen the UE considers the Access barring check to be unsuccessful.
Defines a probability for a UE to establish an RRC connection.
Author: M. Guessregen (C-Plane)SFS abbrev. name:ac-BarringFactor (internal)
Operational State of the cell, value is set by the system.
UE specific nominal power to be used for PUCCH power calculation in UE uplink power control equation (P2), for controlling mean received SNR for control data
Controls mean received SNR for control data in UE uplink power control algorithm
Author: Jussi Rajala (U-Plane)SFS abbreviated name:P0_NOMINAL_PUCCH (internal)
proposal
proposal
proposal
proposal
approved
proposal PDCCH Aggregation for Paging
UE specific nominal power for the PUSCH. Used for P0_PUSCH calculation in UE uplink power control equation (P1) for controlling the mean received SNR for user data during (re)transmission corresponding to a received PDCCH with DCI format 0 associated with a new packet transmission. This parameter is used to control mean received SNR for user data.
UE specific PUSCH mean power for controllling the mean received SNR for user data in UE uplink power control algorithm
Author: Jussi Rajala (U-Plane)SFS abbreviated name:P0_NOMINAL_PUSCH (internal)
UE specific power offset to be used for PUCCH power calculation in UE uplink power control equation (P2). Parameter is vendor specific
UE specific parameter, used to control mean received SNR for control data
Author: Jussi Rajala (U-Plane)SFS abbreviated name:P0_UE_PUCCH (internal)
UE specific power offset to be used for PUSCH power calculation in UE uplink power control equation (P1) which controls mean received SNR for user data during (re)transmission corresponding to a received PDCCH with DCI format 0 associated with a new packet transmission. Parameter is vendor specific
UE specific PUSCH power offset for controlling the mean received SNR for user data in UE uplink power control algorithm
Author: Jussi Rajala (U-Plane)SFS abbreviated name:P0_UE_PUSCH (internal)
This parameter defines the maximum output power of the cell. The maximum output power is the maximum value for the linear sum of the power of all downlink physical channels that is allowed to be used in a cell. The reference point is the antenna connector.Parameter is vendor specific
This parameter defines the maximum output power of the cell.
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: RL1_SFS (internal)
Paging nB defines the number of possible paging occasions per radio frame, i.e. the density of paging occasions. This parameter is used to calculate the number of paging occasions within one paging DRX duration, which in turn is used to calculate the paging occasion.
The number of possible paging occasions per radio frame
Author: Ercuement CanverSFS abbrev. name: nBThe enumeration value range defined by 3GPP TS 36.331 for the corresponding SIB parameters includes two additional values not supported by in Inc15. To simplify the mapping from PDDB parameter to SIB parameter, the value range for the PDDB parameter starts with 2 (leaving possibility to add the two additional values in front as present in 3GPP). (internal)
PDCCH Aggregation for Paging. Defines how many CCEs shall be used for one PDCCH.
Author: Marko Saarinen (U-plane);SFS abbreviated name: PDCCH_AGG_PAGING (internal)
proposal
proposal
proposal
approved
approved Indicates the PHICH resource size
proposal Default value not possible to
The parameter defines aggregation level by means of control channel elements (CCEs) for preamble assignments on PDCCH. Preamble assignment is message 0 sent during non-contention based Random Access procedure in case of DL data arrival during UL out-of-sync.
Aggregation level of preamble assignments on PDCCH
Author: Marko Saarinen (U-plane);SFS abbreviated name: PDCCH_AGG_PREAMBASSIGN (internal)
PDCCH Aggregation for Random Access Response Message. Defines how many CCEs shall be used for one PDCCH.
PDCCH Aggregation for Random Access Responce Message
Author: Marko Saarinen (U-plane);SFS abbreviated name: PDCCH_AGG_RACHRESP (internal)
PDCCH Aggregation for Secondary System Information. Defines how many CCEs shall be used for one PDCCH.
PDCCH Aggregation for Secondary System Information
Author: Marko Saarinen (U-plane);SFS abbreviated name: PDCCH_AGG_BROADCAST (internal)
The configured PHICH duration puts a lower limit on the size of the control region signalled by the PCFICH. The Non-MBSFN subframes are supported.
Indicates the duration of PHICH physical channel in OFDM symbols
The Physical Hybrid ARQ Indicatior Channel (PHICH) carries the hybrid-ARQ ACK/NAK. Multiple PHICHs mapped to the same set of resource elements constitute a PHICH group and PHICH Resource parameter defines the number of PHICH groups.
Physical Layer Cell Identity defines uniquely a cell. It consists of the two parts; Physical layer Cell Identity Group and Physical layer Identity and is calculated with the following formula:Physical Layer Cell Identity = 3 x Physical layer Cell Identity Group + Physical layer Identity
Physical layer cell identity parameter defines uniquely a cell
approved
proposal
proposal
approved
proposal
proposal
proposal
proposal
proposal
Preamble cyclic shift defines the configuration which is used for preamble generation. The configuration determines how many cyclic shifts are needed to generate preamble. Unrestricted set is supported. Configuration also defines the zero correlation zone and respective maximum cell range.
Defines the PRACH Cyclic Shift configuration for preamble generation
Defines allowed System frame and sub-frame numbers for random access attempts, and the preamble format.
Defines subframes and preamble format for random access attempt opportunities.
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: RL1_SFS
Range is restricted to two different ranges: 3-8 and 19-24 (internal)
First physical resource block available for PRACH in the UL system frequency band.
Defines the location in frequency for the PRACH transmissions.
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: PrachFrequencyOffset (internal)
High speed flag for PRACH preamble generation determines whether unrestricted or restricted set has to be used by UE. Unrestricted set, and thus parameter value false is supported.
High speed flag for PRACH preamble generation
The Power Ramping Step Size parameter defines the power increment step size for Random Access Preamble transmission.
Defines the power increment step size for Random Access Preamble transmission.
The parameter Preamble Transmission Maximum defines the maximum number of random access transmissions. Note: The values n50, n100 and n200 shall not be used.
Defines the maximum number of random access transmissions.
Author: M. Gussregen (C-Plane)SFS abbrev. name: preambleTransMax (internal)
Number of cyclic shift for PUCCH formats 1/1a/1b in a resource block used for a mix of formats 1/1a/b and 2/2a/2bParameter is vendor specific
PUCCH Cyclic Shift for Mixed Formats
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: N_an_cs (internal)
The parameter defines the delta offset index for the decoding of the HARQ ACK / NACK information on PUSCH channel.
Delta offset index for HARQ ACK/NACK information decoding on PUSCH
The parameter defines the delta offset index for the decoding of the Channel Quality Indicator (CQI) / Precoding Matrix Indicator information on PUSCH channel.
Delta offset index for CQI information decoding on PUSCH
proposal PUSCH Hopping Offset Author: Tuomas Hakuli (U-P
proposal
proposal
proposal
proposal
proposal
proposal
approved Author: Raimo Karjalainen (
proposal Author: Raimo Karjalainen
The Pusch Hopping Offset parameter defines the offset used for PUSCH frequency hopping, expressed in number of resource blocks
The parameter defines the delta offset index for the decoding of the Rank Indicator information on PUSCH channel.
Delta offset index for RI information decoding on PUSCH
The Qhyst parameter provides the hysteresis value in dB for ranking criteria in the cell reselection procedure. Parameter is used to minimize pingpong.
Provides the hysteresis value for the cell reselection procedure.
Parameter defines an additional hysteresis value to be applied in High Mobility stateto the Cell Reselection Procedure Hysteresis Value (q-Hyst).Value db-6 corresponds to -6dB, db-4 corresponds to -4dB and so on.
Hysteresis value in High Mobility state applied to the Cell Reselection Procedure Hysteresis Value.
Author: M. Guessregen (C-Plane)SFS abbrev. name: sf-High (internal)
Parameter defines an additional hysteresis value to be applied in Medium Mobility stateto the Cell Reselection Procedure Hysteresis Value (q-Hyst).Value db-6 corresponds to -6dB, db-4 corresponds to -4dB and so on.
Hysteresis value in Medium Mobility state applied to the Cell Reselection Procedure Hysteresis Value.
Author: M. Guessregen (C-Plane)SFS abbrev. name: sf-Medium (internal)
Specifies the minimum required Rx RSRP level in the cell.(Qrxlevmin in 36.304)
Indicates the minimum required RX level in the cell (dBm).
Author: M. Guessregen (C-Plane)SFS abbrev. name:q-RxLevMin (internal)
Specifies the minimum required Rx RSRP level for the intra-frequency neighbouring E-UTRA cells.(Qrxlevmin in 36.304)
Indicates the minimum required RX level in the cell (dBm) for intra-frequency
Author: M. Gussregen (C-Plane)SFS abbrev. name:q-RxLevMin-intraFrequency (internal)
The Random Access Backoff parameter defines the backoff in TTIs that should be applied if a random access fails.
Defines the backoff that should be applied if a random access fails.
The Maximum Content Resolution Timer parameter defines the maximum amount of time allowed for contention resolution.
The Maximum Content Resolution Timer parameter defines the maximum amount of time allowed for contention resolution.
proposal C-RNTI reuse timer Author: Raimo Karjalainen
proposal
proposal Author: Raimo Karjalainen
approved Power Ramping Setup
proposal Author: Raimo Karjalainen
proposal Author: Raimo Karjalainen
proposal
proposal Author: Christian Reim (C
proposal Author: Christian Reim (
After being informed that a UE has gone to RRC_IDLE, the eNB will not be able to re-allocate the C-RNTI of an UE to another UE until this time has elapsed. Parameter is vendor specific parameter.
Path loss threshold in dB required for selecting one of the two groups of Random Access Preambles.The UE will only use preambles from group B if it needs to send a large Msg3 AND its measured path loss is less than Pmax - PREAMBLE_INITIAL_RECEIVED_TARGET_POWER - DELTA_PREAMBLE_MSG3 - messagePowerOffsetGroupB (see 36.321 ch 5.1.2)
Path loss threshold in dB required for selecting one of the two groups of Random Access Preambles
This replaces the parameter previously called raPartPlThr.Only Inf is specified in 36.331, other values are FFSInf effectively disables group A.Author: Raimo KarjalainenSFS abbreviated name: messagePowerOffsetGroupB (internal)
This parameter is used to determine the total number of non dedicated RA preambles that UE can select from (i.e. for contention based RA). The minimum cannot be zero.
Defines the total number of RA Preambles that a UE can select.
Power Ramping Setup - WA in 3GPP
Defines the size of the Random Access Preambles Group A.
Defines the size of the Random Access Preambles Group A.
Random Access Response Window Size parameter defines the window size for the random access response in TTIs.
Random Access Response Window Size parameter defines the window size for the random access response in TTIs.
Defines the data volume to be used for small size Random Access Message 3 in case of UL or DL data arrival.
Data volume assigned for the small size RACH Access Procedure in case of UL or DL data arrival
Author: Jussi Rajala (U-Plane)SFS abbreviated name: VOLUME_RAPROC_SMALL_UL (internal)
Defines if RI reporting is enabled (true) or not (false)
Defines if RI reporting is enabled (true) or not (false)
The parameter defines the offset for periodic Rank Indicator reporting instance in relation to the CQI reporting subframe. If for example the subframe 5 is chosen for CQI reporting and riPerOffset is -1 than the subframe 4 is chosen for Ri report.
Multiplier M for defining periodic RI feedback reporting period
proposal Author: Christian Reim (C
approved Author: Tuomas Hakuli (U-P
proposal Author: Tuomas Hakuli (inte
proposal
proposal
approved
approved
The parameter defines the offset for periodic Rank Indicator reporting instance. The offset tells time shift for periodic CQI/PMI reporting instance. The range of the offset depends on the periodicity (cqiPerNp) of periodic CQI/PMI reporting.
Time offset for periodic CQI/PMI reporting for defining the periodic RI reporting instance
Preable generation is started from the Root Sequence which is pointed by the logical root sequence number. 64 preambles can be transmitted in the PRACH frame. If one root is not enough to generate all the 64 preambles, then the concecutive number is selected until the full set is generated. RACH root sequence is cell specific information and neighbouring cells shall have a different value. RACH root sequence is transmitted in system information.
RACH Root Sequence defines the physical root sequence number which is used as starting point to generate preamble sequencies
Rx Antenna Specific Power Scaling Factor describes the RF module bit scaling.Defines mapping of the RP3 I and Q values amplitude in to the power.
Rx Antenna Specific Power Scaling Factor describes the RF module bit scaling factor.
The Sintrasearch parameter defines the threshold (in dB) for intra frequency measurements. UE can omit measurements of intra-frequency neighbor cells if serving cell is above a certain threshold.
Defines the threshold (in dB) for intra frequency measurements
Author: M. Gussregen (C-Plane)SFS abbrev. name:s-IntraSearch (internal)
The sNonintrsearch parameter defines the threshold (in dB) for inter-RAT and inter-frequency measurements.
Defines the threshold (in dB) for inter-RAT and inter-frequency measurements.
Author: M. Gussregen (C-Plane)SFS abbrev. name:s-NonIntraSearch (internal)
The parameter System Information 2 Mapping Information indicates which System Information Blocks are contained in the SI-2 message.
Indicates which System Information Blocks are contained in the SI-2 message.
The parameter System Information 2 Periodicity indicates the repetition period of the SI-2 message.
Indicates the repetition period of the SI-2 message.
proposal
approved
approved
proposal
approved
approved
proposal
proposal
proposal
proposal
The parameter System Information 2 Repetition indicates the repetition of the SI-2 message within the SI window.
Indicates the repetition of the SI-2 message within the SI window.
The parameter System Information 2 Mapping Information indicates which System Information Blocks are contained in the SI-3 message.
Indicates which System Information Blocks are contained in the SI-3 message.
The parameter System Information 2 Periodicity indicates the repetition period of the SI-3 message.
Indicates the repetition period of the SI-3 message.
The parameter System Information 3 Repetition indicates the repetition of the SI-3 message within the SI window.
Indicates the repetition of the SI-3 message within the SI window.
The parameter System Information 2 Mapping Information indicates which System Information Blocks are contained in the SI-4 message.
Indicates which System Information Blocks are contained in the SI-4 message.
The parameter System Information 2 Periodicity indicates the repetition period of the SI-4 message.
Indicates the repetition period of the SI-4 message.
The parameter System Information 4 Repetition indicates the repetition of the SI-4 message within the SI window.
Indicates the repetition of the SI-4 message within the SI window.
The parameter SI Window Length defines the common System Information scheduling window for all SIs.
Defines the common System Information scheduling window.
Access Class Barring List (5 Bit) for Signalling forAC 11-15 (leftmost bit is for AC 11, the second bit in the list is for AC 12, and so on).Default is no access class barred is applied.
Access Class Barring List (5 Bit) for Signalling
Author: M. Guessregen (C-Plane)SFS abbrev. name:ac-BarringForSpecialAC (internal)
The Access Class Barring Time defines the time that the access barring check remains unsuccessful while UE is not performing an emergency call. In this case, the UE starts timer T303 using this parameter. Timer value in minutes.
Defines the Access Class Barring Time.
proposal
proposal Author: Christian Reim (
approved
approved
proposal SRS Bandwidth Layer
proposal SRS Bandwidth Author: Christian Reim (
proposal Defines SRS hopping bandwidth
proposal
proposal Author: Christian Reim (
The Access Probability Factor defines a probability for a UE to establish an RRC connection.The UE draws a random number (0 = rand < 1). If rand is higher than the value indicated by the Access probability factorthen the UE considers the Access barring check to be unsuccessful.
Defines a probability for a UE to establish an RRC connection.
Author: M. Guessregen (C-Plane)SFS abbrev. name:ac-BarringFactor (internal)
Enable/disable Uplink Sounding Reference signal
Enable/disable Uplink Sounding Reference signal
Downlink scheduling wieght for signalling radio bearer 1 and 2 for the uplink scheduler in MAC
Downlink scheduling weight for SRB for MAC
Uplink scheduling wieght for signalling radio bearer 1 and 2 for the uplink scheduler in MAC
Uplink scheduling weight for SRB for MAC
Selects one of the four possible layers for sending SRS.
Defines the allowed BW for SRS in the given System
Defines if in the cell it is allowed to have SRS frequency Hopping. Hopping is automatically enabled when the configured Bandwidth for hopping is larger then the UE dedicated sounding band.
Author: Christian Reim (C-Plane); RRM_LTE_SFS_RRM.1284; SFS Name: SoundingRS_FREQHOP0 = the whole BW1 = 1/2 whole BW 2 = 1/3 whole BW3 = 4 RB (narrower possible bandwidth) (internal)
UE specific power offset to be used for Sounding Reference Signal transmission power calculation in UE uplink power control equation (P3).
Defines the power offset for SRS in UE uplink power control algorithm
Author: Jussi Rajala (U-Plane)SFS abbreviated name:P_SRS_OFFSET (internal)
Defines if SRS and ACK/NACK are allowed (enabled) to be transfered simultaneously
Defines if SRS can be transmit simultaneosly to ACK/NACK
proposal Periodicy of SRS Author: Christian Reim (
approved
approved SW state of cell.
proposal
Determines the periodicy of SRS in Subframes (mapping through TS36211 Table 5.5.3.3-1) According to [SFS_L1] the TS36.211 provide in table 5.5.3.3-1 the possible values for this parameter that define the cell specific subframe configuration period and the cell specific offset, relative to a frame, for the transmission of a SRS.16 different configurations are possible according to list in Table 5.5.3.3-1 of TS36.211.The UE_SRS_Periodicity shall be equal or a multiple of the configuration period here defined.With the choice of SoundingRS_SUBF_CONFIG = 3, the configuration period by UE is in RL T always a2 times multiple of the period here defined (i.e 10 ms).
The SU2 Repetition Period indicates the repetition period of the Scheduling Unit 2 (SU-2). Parameter is used to calculate SB parameter SU_REP: SU_REP = SU2Repetition / radio frame duration.
Indicates the repetition period of the Scheduling Unit 2.
SW state of the cell, value is set by the system.
The parameter Synchronization Signals Transmission mode defines whether Primary and Secondary Synchronization signals (PSS, SSS) are transmitted into a cell via one antenna port (SingeTx) or via two antenna ports using Tx Diversity with Precoding Vector Switching (PVS).
Defines whether Primary and Secondary Synchronization signals (PSS, SSS) are transmitted into a cell via one antenna port or via two antenna ports using Tx Diversity with PVS.
proposal
proposal
proposal
proposal Author: Mayer Walter (C-Pl
proposal
proposal
proposal
The Timer T300 supervises the RRC Connnection Establishment procedure. Start: Transmission of RRCConnectionRequestStop: Reception of RRCConnectionSetup or RRCConnectionReject message,cell re-selection and upon abortion of connection establishment by upper layersAt expiry: Perform the actions as specified in 36.331, 5.3.3.6
T300 supervises the RRC Connnection Establishment procedure.
Author: M. Guessregen (C-Plane)SFS abbrev. name: t300 (internal)
The Timer T301 supervises the RRC Connnection Re-Establishment procedure. Start: Transmission of RRCConnectionReestabilshmentRequestStop: Reception of RRCConnectionReestablishment or RRCConnectionReestablishmentReject message as well as when the selected cell becomes unsuitableAt expiry: Go to RRC_IDLE
T301 supervises the RRC Connnection Establishment procedure.
Author: M. Guessregen (C-Plane)SFS abbrev. name: t301 (internal)
eNB sends this parameter to UE in the message RRC CONNECTION REJECT.UE will consider access to the cell as barred for the time specified by t302.
T302 suppresses reselection of a cell for a short while.
The Timer T304 supervises the successful completion of handover or cell change
The Timer T304 supervises the successful completion of handover or cell change
The Timer T310 supervises the recovery from physical layer problems.
T310 supervises the recovery from physical layer problems.
The Timer T311 supervises the RRC Connnection Re-Establishment.
T311 supervises the RRC Connnection Re-Establishment.
Author: M. Gussregen (C-Plane)SFS abbrev. name: t311 (internal)
Timer TCRmax defines the duration for evaluating the criteria to enter mobility states. For idle mode it corresponds to TCRmax in TS 36.304.
Defines the duration for evaluating the criteria to enter mobility states.
proposal
proposal
proposal
proposal
proposal Time the Regular BSRs is repeated Author: Tillmann Richter (
proposal
proposal
proposal
approved
proposal
The Timer TCRmaxHyst defines the additional duration for evaluating the criteria to enter normal mobility state. For idle mode it corresponds to TCRmaxHyst in TS 36.304.
Defines the additional duration for evaluating the criteria to enter normal mobility state.
Time period of the periodic Buffer Status Report for the reporting of the UE transmission buffer utilisation. Further information to the O&M parameter can be found in [SFS-BM].
Time period of the periodic Buffer Status Report for the reporting of the UE transmission buffer utilisation.
UE configuration for sending periodic sounding reports
UE configuration for sending periodic sounding reports.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ulAtbPhrPeriod (internal)
Minimum Intermediate Time between two consecutive Power Headroom reports
Minimum Intermediate Time within 2 consecutive Power Headroom reports.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ulAtbPhrProhibit (internal)
Time the Regular BSRs is repeated when UE has data available for transmission and no corresponding UL grant is received so far.
The Treselection parameter defines the cell reselection timer value. It allows averaging of the target cell quality before cell reselection is performed.
Defines the cell reselection timer value.
Determines the maximum allowed time alignment offset. The maximum offset is represented by the multiples of 16Ts (0,52us). If value is exceeded TA Command is sent to UE to adjust UL timing.
Determines the maximum allowed time alignment offset
Author: Jussi RajalaSFS abbreviated name: TimeAlignmentMaxOffset (internal)
Determines the number of subframes after which a UE assumes being Out-of-Sync in UL if no Time Alignment Command was received
Determines the number of subframes after which a UE assumes being Out-of-Sync in UL if no Time Alignment Command was received
Author: Jussi RajalaSFS abbreviated name: TimeAlignTimer (internal)
The Tracking Area Code is a code that commonly identifies the Tracking Area for all the PLMNs listed for this cell.
Identifies the Tracking Area for this cell.
Specifies the threshold for serving frequency used in reselection evaluation towards lower priority EUTRAN frequency or RAT
Specifies the low threshold for serving frequency usedin reselection evaluation.
Author: M. Gussregen (C-Plane)SFS abbrev. name:threshServingLow (internal)
proposal
proposal
proposal
proposal Enables uplink group hopping.
approved
proposal
approved PUSCH channel sequence shift
proposal Target BLER for AMC UL
proposal
proposal Author: Jussi Rajala (U-P
Selects between TPC step-size sets {-1; 0; 1; 3} and {-1; 1} to be used for power control command on PDCCH (single parameter for PUSCH and PUCCH).
Selects step-size set. It is used for power control command on PDCCH (single parameter for PUSCH and PUCCH)
Defines mapping of the RP3 I and Q values amplitude in to the Tx power on the cell.
Defines mapping of the RP3 I and Q values amplitude in to the Tx power on the cell.
Uplink Channel Bandwidth defines UL bandwidth for the eNode-B transmission in a cell, and also defines the number of available Physical Resource Blocks.The Uplink Channel Bandwidth mapping to Number of Physical Resource Blocks is:5.0 MHz = 25 UL PRBS10.0 MHz = 50 UL PRBS15.0 MHz = 75 UL PRBS20.0 MHz = 100 UL PRBS
Uplink Channel Bandwidth parameter defines UL bandwidth for the eNode-B transmission in a cell
Enables uplink group hopping in PUSCH and PUCCH
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: UlGrpHop (internal)
The parameter defines cyclic shift of uplink reference signals.
The parameter defines cyclic shift of uplink reference signals.
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: (internal)
Defines if sequence hopping is enabled or disabled. Part of SIB2Parameter is vendor specific.
Defines if sequence hopping is enabled or disabled
Author: Tuomas Hakuli (U-Plane)SFS abbreviated name: UlSeqHop (internal)
PUSCH channel sequence shift which is related to PUCCH
Defines target Block Error Ratio for uplink Adaptive Modulation and Coding
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULAMC_TARGET_BLER (internal)
O&M switch for enabling / disabling the counting of all Transport Blocks instead of 1st transmission transport blocks for defining uplink Adaptive Modulation and Coding inner loop factor.
Switch the counting of all TBs in UL AMC on/off
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULAMC_ENABLE_ALLTBS (internal)
O&M switch for enabling / disabling 1st transmission BLER based Emergency Downgrade and Fast Upgrade functionality included in the UL AMC Outer Loop Link Adaptation.
Switch UL OLLA Emergency Downgrade and Fast Upgrade on/off
proposal Enables / disables UL AMC Author: Jussi Rajala (U-P
proposal
proposal Switch the UL ATB on/off
O&M switch for enabling / disabling the whole uplink Adaptive Modulation and Coding functionality and use an initial UL MCS instead.
The parameter defines the period in sent Transport Blocks (TBs) when uplink Adaptive Modulation and Coding inner loop functionalities shall be executed. Depending on the parameter ulAmcEnableAllTbs, all TBs or 1st transmission TBs have been calculated for the period. MCS increase / decrease based on UL AMC inner loop factor can be only made after the period ends.
UL AMC inner loop MCS increase / decrease period
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULAMC_SWITCH_PERIOD (internal)
O&M switch for enabling / disabling the uplink Adaptive Transmission Bandwidth (ATB) functionalities. ATB is based on Power Headroom Reports (PHRs) from UE.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULATB_ENABLE (internal)
proposal UL ATB execution period
proposal
proposal
proposal
proposal
The parameter defines the period in MCS increase / decrease events when uplink Adaptive Transmission Bandwidth (ATB) functionality shall be performed. MCS change events are calculated and UL ATB functionality is executed every time the event counter reaches the value defined in the parameter.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ULATB_EVENTS (internal)
Enables/disables the accumulation of PUSCH/PUCCH TPC commands. The power control command for the PUSCH/PUCCH can be sent to the UE in two ways. One is to use the uplink scheduling grant, i.e. whenever an UE is scheduled, it will get a TPC command together with being informed which resources and transport format is assigned. The other way of conveying the TPC information is through the TPC-PUSCH format, which is a special PDCCH payload and contains jointly coded UL TPC commands for a set of up to N users. Parameter is vendor specific
Enables/disables the accumulation of PUSCH/PUCCH TPC commands
Author: Jussi Rajala (U-Plane)SFS abbreviated name:ACCUMULATION_ENABLED (internal)
UE specific fractional path loss compensation factor: alpha value in UE uplink power control equations (P1) and (P3) to control received SNR variance (fairness) for user data and sounding reference symbol.
Used as a fractional path loss compensation factor: alpha. It controls received SNR variance (fairness) for user data and sounding reference symbol.
Author: Jussi Rajala (U-Plane)SFS abbreviated name: ALPHA (internal)
The Preamble Initial Received Target Power parameter defines the initial power for Random Access Preamble transmission.
Defines the initial power for Random Access Preamble transmission.(dBm)
TPC command indicated in the random access response related to Random Access message 3 or 1st scheduled uplink transmission.
TPC command indicated in the random access response.
Author: Jussi Rajala (U-Plane)SFS abbreviated name:deltaMsg2 (internal)
proposal Instance identifier of object LNMME.proposal 3GPP protocol version 3GPP protocol version Author: Lukasz Jelen (intern
proposalproposal AISG protocol version AISG protocol version Author: Lukasz Jelen (intern
proposal
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
This is the instance identifier of object LNMME, used by NetAct and BTS Site Manager. This parameter appears only in the distinguished name (DN) in plan file and is used only for O&M purposes.
Defines is MHA AISG MHA or Non-AISG MHA. Selectable values is 0 (false)= Non-AISG MHA and 1 (true )= AISG MHA .
Defines is MHA AISG MHA or Non-AISG MHA.
Defines a configurable alarm threshold level for the mast-head amplifier, used if the MHA Alarm Detection parameter has the value 1 (in use). Default value is depending on Flexi Filter (FF).
Defines a configurable alarm threshold level for the mast-head amplifier, used if the MHA Alarm Detection parameter has the value 1 (in use).
A list containing: operating frequency band, beamwidth and the operation gain
A list containing: operating frequency band, beamwidth and the operation gain
The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
Antenna operating band(s): 1 - 3GPP band I: 2100 MHz2 - 3GPP band II: 1900 MHz3 - 3GPP band III: 1800 MHz4 - 3GPP band IV: 1700 MHz5 - 3GPP band V: 850 MHz6 - 3GPP band VI: 800 MHz7 - 3GPP band VII: 2600 MHz8 - 3GPP band VIII: 900 MHz9 - 3GPP band IX: 1800 MHz10 - 3GPP band X: 1700 MHz11 - 3GPP band XI: 1500 MHz12 - 3GPP band XII: 700 MHz13 - 3GPP band XIII: 700 MHz14 - 3GPP band XIV: 700 MHz
The antenna operation band. Some RET types may automatically update the band information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field. One frequency band may be given only once.
proposal Author: Lukasz Jelen (internproposal Antenna Bearing Antenna Bearing Author: Lukasz Jelen (internproposal Antenna model number Antenna model number Author: Lukasz Jelen (internproposal Antenna serial number Antenna serial number Author: Lukasz Jelen (intern
proposal Identifies the specific antenna line. Identifies the specific antenna line.proposal Base Station ID Base Station ID Author: Lukasz Jelen (intern
proposal
proposal Author: Lukasz Jelen (internproposal Installation Date Installation Date Author: Lukasz Jelen (internproposal Installer's ID Installer's ID Author: Lukasz Jelen (intern
proposal
proposal Author: Lukasz Jelen (intern
proposal
proposal
proposal This parameter is only for d
The antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
The antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
Defines the connection type for MHA/LNA.
Defines the connection type for MHA/LNA.
Gain resolution given as the gain resolution figure expressed in dB.
Gain resolution given as the gain resolution figure expressed in dB.
Parameter for MHA telling LNA number inside one MHA. For Non AISG MHAs is used -1 (not defined).
Parameter for MHA telling LNA number inside one MHA
Maximum supported gain given as gain figure expressed in dB.
Maximum supported gain given as gain figure expressed in dB.
Defines if alarm detection is used or not. The options are 0 (false) and 1 (true). Default values for Non-AISG MHAs and AISG MHAs in passive mode: 1 Default values for AISG and third party MHAs:0 Note: Configurable MHA alarms are allowed only for passive MHAs
Defines if alarm detection is used or not.
Defines the gain of the mast-head amplifier.
Defines the gain of the mast-head amplifier.
Defines the specific mast-head amplifier unit.
Defines the specific mast-head amplifier unit.
proposal Defines the type of the MHA.
proposal Author: Lukasz Jelen (intern
proposal
proposalproposal Sector ID Sector ID Author: Lukasz Jelen (intern
proposalproposal Substance version number Substance version number Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (internproposal TMA Subunit type TMA Subunit type Author: Lukasz Jelen (intern
proposal
Defines the type of the MHA. The supported MHA types are: WMHA, WMHB, WMHC, WMHD, MDTA, MDPA, MDGA, MDDA, FLJA, DTMAFV1, DTMAFV3, DTMAFV4, DTMARETFV1, DTMARETFV2, DTMARETFV3, DTMARETFV4, SDTMARETFV1, SDTMARETFV2, SDTMARETFV3, TMAFV1, TMAFV3, TMAFV4, TMARETFV1, FLHA and Other.
Minimum supported gain given as gain figure expressed in dB.
Minimum supported gain given as gain figure expressed in dB.
Defines the product code of the unit in question.
Defines the product code of the unit in question.
Defines which antenna interface is scanned. Expected value: FRx-ANTx and empty string where FRx: 1...3 and ANTx: 1...6 It is depending on radio module type which antennas are capable for scanning / AISG device detection.
Defines which antenna interface is scanned.
Defines the serial number of the unit in question.
Defines the serial number of the unit in question.
TMA Subunit receive frequency band
TMA Subunit receive frequency band
TMA Subunit receive frequency band
TMA Subunit receive frequency band
TMA Subunit transmit frequency band
TMA Subunit transmit frequency band
TMA Subunit transmit frequency band
TMA Subunit transmit frequency band
Defines the MHA connector in question of WMHC and TMARET MHA types. The options are BTS1 (Pass-through) and BTS2 (Power) for WMHC, NODEB0 and NODEB1 for TMARET MHA types. If other than WMHC or TMARET MHA types are used then wmhConnector parameter value is None
Defines the WMH connector. If other than WMHC or TMARET MHA types are used then wmhConnector parameter value is None.
approved The FTM has also a queue fo
approved
approved
approved
approved
approved
approved
approved
approved
This is a set of 5 weight values for the traffic queues associated to the Per Hop Behaviours:- Assured Forwarding 4 (AF4)- Assured Forwarding 3 (AF3)- Assured Forwarding 2 (AF2)- Assured Forwarding 1 (AF1)- Best Effort (BE.Weight value range is between 1 and 10.000.
This is a set of 5 weight values for the traffic queues associated to the Per Hop Behaviours:- AF4- AF3- AF2- AF1- BE.Weight value range is between 1 and 10.000.
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 1 (AF1).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 1 (AF1).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 2 (AF2).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 2 (AF2).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 3 (AF3).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 3 (AF3).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 4 (AF4).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 4 (AF4).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Best Effort (BE).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Best Effort (BE).
This parameter identifies the Quality of Service (QOS) configuration of the FTM. The value is always 1.
This parameter identifies the Quality of Service (QOS) configuration of the FTM. The value is always 1.
This tables maps traffic types to Per Hop Behaviours and to DSCP values.
This tables maps traffic types to Per Hop Behaviours and to DSCP values.
QCI_7: AF21 18QCI_8: AF11 10QCI_9: BE 00GTPU_MPLANE: t.b.d. t.b.d. (internal)
This is the list of Diff Servce Code Point (DSCP) codes that relate to the per hop behaviour value defined in parameter pHB of the traffic types map. The list is a csv string containing up to 64 decimal DSCP values. At least one DSCP value shall be defined.
This is the list of Diff Servce Code Point (DSCP) codes that relate to the per hop behaviour value defined in parameter pHB of the traffic types map. The list is a csv string containing up to 64 decimal DSCP values. At least one DSCP value shall be defined.
approved
approvedproposal 3GPP protocol version 3GPP protocol version Author: Lukasz Jelen (intern
proposal
This parameter designates a per hop behaviour wird drop precedence within the PHB group for Assured Forwarding (AF). 4 PHB classes are defined within this group (AF1 to AF4) and three drop precedences within each class. Within each class the drop precedence is as follows: 1 (e.g. AF41) = low drop precedence, 2 (e.g. AF42) = medium drop precedence and 3 ( e.g. AF43) = high drop precedence.
This parameter designates a per hop behaviour wird drop precedence within the PHB group for Assured Forwarding (AF). 4 PHB classes are defined within this group (AF1 to AF4) and three drop precedences within each class. Within each class the drop precedence is as follows: 1 (e.g. AF41) = low drop precedence, 2 (e.g. AF42) = medium drop precedence and 3 ( e.g. AF43) = high drop precedence.
This parameter designates a traffic type.
This parameter designates a traffic type.
GTP-U management procedure messages "QCI_1" to "QCI_9":According to 3GPP 23.203 (public)
Defines is RET AISG RET or Non-AISG RET. Selectable values is 0 (false)= Siemens AISG1.1, TMARET RET, Siemens proprietary AISG1.1 RET and 1 (true )= 3GPP RET.
Defines is RET AISG RET or Non-AISG RET.
proposal minAngle; maxAngle (intern
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
The elevation angle between the direction orthogonal to the antenna element axis and the maximum of its main beam in the elevation plane. A positive electrical tilt angle means that the antenna beam is directed below the direction orthogonal to the antenna axis. BTS creates parameter to SCF. Parameter value is read from device. User shall set the parameter value at least once according to configuration/network plan. Otherwise present value (factory or old setting) exists. Setting tilt angle of a RET device might last up-to 2 minutes according to 3GPP stardards. Typical time for the calibration is approximately 15-30 seconds. According to 3GPP standards, setting tilt of several devices connected onto one antenna line shall be done as consecutive operations by the system. In addition, set tilt and calibration (for more details of calibration, see calibrate parameter documentation) shall be done as consecutive operations. When such situation exists, accumulative time for the operations may be increased long to not be feasible to be activated in the one plan. Thus, in such case, time consuming operations should be devided into the 2 or more plans.
Defines the elevation angle. Parameter value is read from device. User shall set the parameter value at least once according to configuration/network plan. Otherwise present value (factory or old setting) exists. SetTilt is time consuming procedure and might need more detail planning in certain circumstances. For more information, see appropriate documentation.
A list containing: operating frequency band, beamwidth and the operation gain
A list containing: operating frequency band, beamwidth and the operation gain
The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
The antenna beamwidth for the band. Some RET types may automatically update the beamwidth information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (internproposal Antenna Bearing Antenna Bearing Author: Lukasz Jelen (internproposal Antenna height Antenna height Author: Lukasz Jelen (internproposal Antenna location Antenna location Author: Lukasz Jelen (internproposal Antenna model number Antenna model number Author: Lukasz Jelen (internproposal Antenna serial number Antenna serial number Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
proposal Author: Lukasz Jelen (intern
proposalproposal Base Station ID Base Station ID Author: Lukasz Jelen (intern
Antenna operating band(s): 1 - 3GPP band I: 2100 MHz2 - 3GPP band II: 1900 MHz3 - 3GPP band III: 1800 MHz4 - 3GPP band IV: 1700 MHz5 - 3GPP band V: 850 MHz6 - 3GPP band VI: 800 MHz7 - 3GPP band VII: 2600 MHz8 - 3GPP band VIII: 900 MHz9 - 3GPP band IX: 1800 MHz10 - 3GPP band X: 1700 MHz11 - 3GPP band XI: 1500 MHz12 - 3GPP band XII: 700 MHz13 - 3GPP band XIII: 700 MHz14 - 3GPP band XIV: 700 MHz
The antenna operation band. Some RET types may automatically update the band information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field. One frequency band may be given only once.
The antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
The antenna gain for the band. Some RET types may automatically update the gain information based on the configuration data downloaded into the RET device. Some devices may also restrict ovewriting the field.
Identifies the specific antenna line(s) assigned to the RET.
Identifies the specific antenna line(s) assigned to the RET.
proposal configFileDlNeeded (interna
proposal Defines if Calibration done Defines if Calibration done calibrate (internal)
proposal configurationFile (internal)
proposal Defines if Configuration done Defines if Configuration done configurationFile (internal)
Exercise the antenna drive unit over its entire range of travel to ensure fault-free operation and synchronise the measured and actual beam tilt of the antenna. Calibration of a RET device might last up-to 4 minutes according to 3GPP stardards. Typical time for the calibration is approximately 1-2 minutes. According to 3GPP standards, calibration of several devices connected onto one antenna line shall be done as consecutive operations by the system. In addition, calibration and set tilt (for more details of set tilt, see set tilt parameter documentation) shall be done as consecutive operations. When such situation exists, accumulative time for the operations may be increased long to not be feasible to be activated in the one plan. Thus, in such case, time consuming operations should be devided into the 2 or more plans.
Defines the usage of calibration. Calibration is time consuming procedure and might need more detail planning in certain circumstances. For more information, see appropriate documentation.
Defines if Configuration File DL is needed.
Defines if Configuration File DL is needed.
proposal configFileDlNeeded (interna
proposalproposal Installation Date Installation Date Author: Lukasz Jelen (internproposal Installer's ID Installer's ID Author: Lukasz Jelen (intern
proposal
proposal
This parameter is used to store and tranfer a device specific configuration data to the BTS. Configuration data included within this parameter is downloaded to the device when requested by the user (see referred parameters). Configuration data download and usage is specified within 3GPP 25.463. Note: The typical configuration file size is between about 20 and 150 bytes. If size of the file to be downloaded is big, for example over 1 kilobytes, it's not probably a proper configuration file.
This parameter is used to store and tranfer a device specific configuration data to the BTS. Configuration data included within this parameter is downloaded to the device when requested by the user (see referred parameters). Configuration data download and usage is specified within 3GPP 25.463. Note: The typical configuration file size is between about 20 and 150 bytes. If size of the file to be downloaded is big, for example over 1 kilobytes, it's not probably a proper configuration file.
Defines the connection type for RET.
Defines the connection type for RET.
Defines the manufacturer of the device
Defines the manufacturer of the device
Defines the minimum allowed electrical tilt value. Changing the minimum or maximum values may cause incorrect tilt functionality if the values are not in the proper range. It is recommended to enter values only if they are not retrieved from the device after configuration file activation.User defined values are not taken into use, if configuration file is updated with same plan file (i.e. user defined values are overwritten). The minimum value should be smaller than the maximum value.
Defines the minimum allowed electrical tilt value. Changing the minimum or maximum values may cause incorrect tilt functionality if the values are not in the proper range. It is recommended to enter values only if they are not retrieved from the device after configuration file activation.User defined values are not taken into use, if configuration file is updated with same plan file (i.e. user defined values are overwritten). The minimum value should be smaller than the maximum value.
proposal
proposal
proposal
proposal This parameter is only for d
proposalproposal Sector ID Sector ID Author: Lukasz Jelen (intern
proposal
proposal Defines RET Firmware SW Version
The elevation angle between the direction orthogonal to the antenna element axis and the maximum of its main beam in the elevation plane. BTS creates parameter to SCF. Parameter value is read from device. User shall set the parameter value at least once according to installation. Otherwise present value (factory or old setting) exists.
Defines the mechanical tilt fixed by the geometry of the installation. BTS creates parameter to SCF. Parameter value is read from device. User shall set the parameter value at least once according to installation. Otherwise present value (factory or old setting) exists.
Defines the minimum allowed electrical tilt value. Changing the minimum or maximum values may cause incorrect tilt functionality if the values are not in the proper range. It is recommended to enter values only if they are not retrieved from the device after configuration file activation.User defined values are not taken into use, if configuration file is updated with same plan file (i.e. user defined values are overwritten). The minimum value should be smaller than the maximum value.
Defines the minimum allowed electrical tilt value. Changing the minimum or maximum values may cause incorrect tilt functionality if the values are not in the proper range. It is recommended to enter values only if they are not retrieved from the device after configuration file activation.User defined values are not taken into use, if configuration file is updated with same plan file (i.e. user defined values are overwritten). The minimum value should be smaller than the maximum value.
Defines the product code of the unit in question. Mandatory for 3GPP RET
Defines the product code of the unit in question. Mandatory for 3GPP RET
Defines the specific RET (Remote Electrical Tilting) wich is vertical tilting for antenna.
Defines the specific RET (Remote Electrical Tilting) wich is vertical tilting for antenna.
Defines which antenna interface is scanned. Expected value: FRx-ANTx and empty string where RFx: 1...3 and ANTx: 1...6 It is depending on radio module type which antennas are capable for scanning / AISG device detection.
Defines which antenna interface is scanned.
Defines the serial number of the unit in question. Mandatory for 3GPP RET
Defines the serial number of the unit in question. Mandatory for 3GPP RET
Defines Configuration File SW Version
proposal Author: Ercuement Canver
proposal Author: Ercuement Canver (
proposal Author: Ercuement Canver (
proposal Naming attribute of MOC SCTP Author: Ercuement Canver (
proposal Author: Ercuement Canver (
approved
approved
This is the maximum number of SCTP streams that the association can support at receiving side.
The maximum number of SCTP streams that the association can support at receiving side.
This is the number of unanswered heartbeat messages or data acknowledgements (within a time defined by RTO and calculated internally in SCTP), used for declaring SCTP path failure.
The maximum number retransmissions (within a time defined by RTO and calculated internally in SCTP), before declaring SCTP path failure.
This parameter holds the interval between two SCTP heartbeat messages, counted in seconds.
The interval between two SCTP heartbeat messages.
This parameter is the naming attribute of MOC SCTP
The local and the remote SCTP Port Number used for SCTP associations with MME and peer eNBs
The SCTP Port Number for SCTP associations with MME and peer eNBs
This is the list of synchronization sources of the BTS. Up to 2 clock sources can be configured.
This is the list of synchronization sources of the BTS. Up to 2 clock sources can be configured.
This parameter holds the protocol of this clock source: PDH, synchronuous Ethernet, Time over Packet or the external clock.
In this release only the Time Over Packet clock is supported.
This parameter holds the protocol of this clock source: PDH, synchronuous Ethernet, Time over Packet or the external clock.
In this release only the Time Over Packet clock is supported.
approved
approved
approved
approved
approved
This parameter- specifies either the physical location of the PDH interface location on the unit (value range 1..16) for a PDH synchronization source- or the physical location of the ethernet interface of the unit (value range 1..3) for the synchronous ethernet clock synchronization source.
In case the external clock is selected as synchronization source the parameter is ignored by the BTS. Recommended value is 0 in this case.
In case the Time Over Packet clock is selected as synchronization source the parameter is also ignored by the BTS. The physical interface used for Time Over Packet is the unique active ethernet link of the unique ethernet based IP interface. This is detected by the BTS SW automatically.
In this release only the Time Over Packet clock source can be detected, the parameter is therefore ignored by the BTS.
The physical interface used for Time Over Packet is the unique active ethernet link of the unique ethernet based IP interface. This is detected by the BTS SW automatically.
In this release only the Time Over Packet clock source can be detected, the parameter is therefore ignored by the BTS.
This parameter holds the priority in which the clock sources of the BTS are to be taken into use. Value 1 ist highest priority: this clock source will be taken first.
This parameter holds the priority in which the clock sources of the BTS are to be taken into use. Value 1 ist highest priority: this clock source will be taken first.
This parameter enables SSM support (Synchronization Status Message) for Synchronuous Ethernet.
This parameter enables SSM support (Synchronization Status Message) for Synchronuous Ethernet.
This is the maximum duration in seconds for which the actual SSM value may be less than ssmPRC clock quality. If the duration is surpassed, an alarm will be raised.
This is the maximum duration in seconds for which the actual SSM value may be less than ssmPRC clock quality. If the duration is surpassed, an alarm will be raised.
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
approved
approved
approved
approved
approved
approved
approved
approved
This parameter identifies the synchronisation protection group. The value is always 1.
This parameter identifies the synchronisation protection group. The value is always 1.
This parameter identifies the clock synchronization configuration of the FTM. The value is always 1.
This parameter identifies the clock synchronization configuration of the FTM. The value is always 1.
Used to lock and unlock the TOP object instance.Locking the object deactivates it and supresses all its alarms.
Used to lock and unlock the TOP object instance.Locking the object deactivates it and supresses all its alarms.
This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration request period. (The transmission duration request period is currently fixed to 300 seconds.)The following values are defined:-3: 8 per second-4: 16 per second-5: 32 per second
This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration request period (of 300 seconds).
IP address of the ToP master.
Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373.Examples:IPv4: 10.12.11.0IPv6: 805B:2D9D:DC28:0:0:FC57:D4C8:0
IP address of the ToP master.
Format: this is either an IPv4 IP address in dotted decimal form or an IPv6 IP address in one of the formats defined in RFC 2373.Examples:IPv4: 10.12.11.0IPv6: 805B:2D9D:DC28:0:0:FC57:D4C8:0
This parameter identifies the Time Over Packet configuration of the FTM. The value is always 1.
This parameter identifies the Time Over Packet configuration of the FTM. The value is always 1.
This parameter holds the slot number of the hardware unit of the FTM. The value is always 1 (only 1 slot is available).
This parameter holds the slot number of the hardware unit of the FTM. The value is always 1 (only 1 slot is available).
This parameter shows the hardware type of the installed unit.
This parameter shows the hardware type of the installed unit.
Multiplicity Related Functions System information Related Parameters
1 S1/X2 Common Signalling
16 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
adjMacroEnbId of ADIPNO - null (public)adjMcc of ADIPNO - null (public)adjMnc of ADIPNO - null (public)
adjEnbIpAddress of ADIPNO - null (public)adjMcc of ADIPNO - null (public)adjMnc of ADIPNO - null (public)
adjEnbIpAddress of ADIPNO - null (public)adjMacroEnbId of ADIPNO - null (public)adjMnc of ADIPNO - null (public)
adjEnbIpAddress of ADIPNO - null (public)adjMacroEnbId of ADIPNO - null (public)adjMcc of ADIPNO - null (public)
adjMnc of ADIPNO - null (public)
1 S1/X2 Common Signalling
2 E-RAB Control
1
1
1
1
1
1
1
1
1
1
1
1
1
11
1
1
1
38
1
1
1
1
1
1
1
1
18
1
1
1
1
1
1
5
1
1
100
1
1
1
1
1
1
200
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1
gtpuPathSupint of GTPU - null (public)gtpuT3Resp of GTPU - null (public)
gtpuN3Reqs of GTPU - null (public)gtpuT3Resp of GTPU - null (public)
gtpuN3Reqs of GTPU - null (public)gtpuPathSupint of GTPU - null (public)
1
1
1
1
1
1
1
1
1
1
1
1
31
1
1
1
100
1
1
1
2
antlId of ANTL - Identifies the specific antenna lines id assigned to the local cell. (public)
1
1 S1/X2 Common Signalling
16 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
6 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
mncLength of LNADJL - null (public)
plmnId of LNADJ - null (public)
mncLength of LNADJL - null (public)
mnc of LNADJ - null (public)
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 Packet Scheduler
1 Packet Scheduler
dlMimoMode of LNCEL - If not 3: Dynamic Open Loop MIMO, cqiCompSmRi1Ol not applicable (public)dlamcEnable of LNCEL - If false, cqiCompSmRi1Ol not applicable (public)
dlMimoMode of LNCEL - If not 3: Dynamic Open Loop MIMO, cqiCompTdRi2Ol not applicable (public)dlamcEnable of LNCEL - If false, cqiCompTdRi2Ol not applicable (public)
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 E-RAB Control
1 Packet Scheduler
dlOlqcEnable of LNCEL - If false, dlamcCqiAgeing is not applicable (public)dlamcEnable of LNCEL - If false, dlamcCqiAgeing is not applicable (public)
dlamcEnable of LNCEL - If false, dlamcTHistCqi is not applicable (public)
1 Packet Scheduler
1 S1/X2 Common Signalling
1 Packet Scheduler
1 Packet Scheduler
1 S1/X2 Common Signalling
1
1 Packet Scheduler
ilReacTimerUl of LNBTS - If 0, ilMinDatvolUl not applicable (public)
ilMinDatvolUl of LNBTS - Not applicable if ilReacTimerUl is 0 (public)
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
12 E-RAB Control
1 E-RAB Control
dlMimoMode of LNCEL - If not 3, mimoOlCqiAvg is not applicable (public)
dlMimoMode of LNCEL - If not 3, mimoOlCqiComp is not applicable (public)
dlMimoMode of LNCEL - If not 3, mimoOlRiAvg is not applicable (public)
1 E-RAB Control
1 E-RAB Control
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
9 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control1 E-RAB Control
1 E-RAB Control
1
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
qci of LNBTS - qci of LNBTS - If qci value is from 1 to 4 then resType value is 0. When qci value is from 5 to 9 then resType value is 1. (public) (public)
1 E-RAB Control
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
2 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 E-RAB Control
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
rlpDetMaxNoDl of LNBTS - If 0 and rlpDetMaxTimeDl is 0, rlpDetEndNoDl is not applicable (public)rlpDetMaxTimeDl of LNBTS - If 0 and rlpDetMaxNoDl is 0, rlpDetEndNoDl is not applicable (public)
rlpDetEndNoDl of LNBTS - Not applicable if rlpDetMaxNoDl and rlpDetMaxTimeDl are 0 (public)
rlpDetEndNoDl of LNBTS - Not applicable if rlpDetMaxNoDl and rlpDetMaxTimeDl are 0 (public)
1 Handover Control
1 Handover Control
1
1
1 Handover Control
1
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1 Packet Scheduler
1 Packet Scheduler
1 Handover Control
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcCStepUp shall not be defined and the default value is used. (public)
ulamcDeltaCmax of LNBTS - ulamcDeltaCini <= ulamcDeltaCmax (public)ulamcDeltaCmin of LNBTS - ulamcDeltaCmin <= ulamcDeltaCini (public)ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcDeltaCini shall not be defined and the default value is used. (public)
ulamcDeltaCini of LNBTS - ulamcDeltaCini <= ulamcDeltaCmax (public)ulamcDeltaCmin of LNBTS - ulamcDeltaCmin <= ulamcDeltaCmax (public)ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcDeltaCmax shall not be defined and the default value is used. (public)
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
ulamcDeltaCini of LNBTS - ulamcDeltaCmin <= ulamcDeltaCini (public)ulamcDeltaCmax of LNBTS - ulamcDeltaCmin <= ulamcDeltaCmax (public)ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcDeltaCmin shall not be defined and the default value is used. (public)
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcHistMcsT shall not be defined and the default value is used. (public)
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcInactT shall not be defined and the default value is used. (public)
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcUpdowngrF shall not be defined and the default value is used. (public)
ulatbEnable of LNCEL - If ulatbEnable is FALSE, ulatbPhrAvgF shall not be defined and the default value is used. (public)
1 Packet Scheduler
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1 Handover Control
1
1
1
1
50 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1
1 System Information Broadcast
1 System Information Broadcast
1
1
6 System Information Broadcast
1 Scheduling Request Configuration
1 Packet Scheduler, Aperiodic CQI Configuration
1 Aperiodic CQI Configuration
1 Packet Scheduler
1 Periodic CQI Configuration
1 Periodic CQI Configuration
1 Periodic CQI Configuration
1 Periodic CQI Configuration
1 Packet Scheduler
1 Power Control
1 Power Control
1 Power Control
1 Power Control
1 Power Control
1 Power Control
1 Packet Scheduler
1 System Information Broadcast
1
1 Packet Scheduler, Uplink PHY
modPeriodCoeff of LNCEL - The product of parameter modPeriodCoeff and defPagCyc must not exceed 1024 (public)
1 Power Control
1 Packet Scheduler
1 Power Control
1 Packet Scheduler
iniMcsDl of LNCEL - The highest value is 16 if dl64QamEnable is false (public)
1 Packet Scheduler
applicable if dlMimoMode is not 4 (public)cqiCompTdRi2Cl of LNBTS ( hidden )- Not applicable if dlMimoMode is not 4 (public)mimoOlCqiAvg of LNBTS - Not applicable if dlMimoMode is not 3 (public)mimoOlCqiComp of LNBTS - Not applicable if dlMimoMode is not 3 (public)mimoOlRiAvg of LNBTS - Not applicable if dlMimoMode is not 3 (public)cqiCompSmRi1Ol of LNCEL - Not applicable if dlMimoMode is not 3 (public)cqiCompTdRi2Ol of LNCEL - Not applicable if dlMimoMode is not 3 (public)dlpcMimoComp of LNCEL - Not applicable if dlMimoMode is 0
1 Packet Scheduler
1
1 Packet Scheduler
1 Packet Scheduler
dlOlqcDeltaCqiIni of LNBTS ( hidden )- Not applicable if dlOlqcEnable is false (public)dlOlqcDeltaCqiMax of LNBTS ( hidden )- Not applicable if dlOlqcEnable is false (public)dlOlqcDeltaCqiMin of LNBTS ( hidden )- Not applicable if dlOlqcEnable is false (public)dlOlqcDeltaCqiStepUp of LNBTS ( hidden )- Not applicable if dlOlqcEnable is false (public)dlamcCqiAgeing of LNBTS - Not applicable if dlOlqcEnable is false (public)dlTargetBler of LNCEL - Not applicable if dlOlqcEnable is false (public)
dlOlqcEnable of LNCEL - If false, dlTargetBler is not applicable (public)
1 Packet Scheduler
1 Power Control
1 Packet Scheduler
1 System Information Broadcast
1 Packet Scheduler
dlMimoMode of LNCEL - If 0: Single TX, dlpcMimoComp is not applicable (public)
1 Packet Scheduler1 Handover Control1 Handover Control
1
1
1 Power Control
5 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1
1 Packet Scheduler
1
1 Packet Scheduler
dl64QamEnable of LNCEL - Can only be set to higher value than 16 in case dl64QamEnable is true. (public)
1 Packet Scheduler
1 Packet Scheduler
16 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
16
1 System Information Broadcast
1
1 System Information Broadcast
1 System Information Broadcast1
1
1
1 Admission Control
1 Admission Control
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Admission Control
1 Admission Control
1 Admission Control
1 Packet Scheduler
1 Packet Scheduler
1 Admission Control
1
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
dlChBw of LNCEL - Range and default value depend on Downlink Channel Bandwidth parameter. Range depends on Downlink Channel Bandwidth parameter as follows:5.0 MHz => 1...710.0 MHz => 1...1020.0 MHz => 1...10 (public)
ulChBw of LNCEL - Range and default value depend on Uplink Channel Bandwidth parameter. Range depends on Uplink Channel Bandwidth parameter as follows:5.0 MHz => 1...410.0 MHz => 1...4 (public)
dlMimoMode of LNCEL - If not 3, mimoOlCqiThD is not applicable (public)
dlMimoMode of LNCEL - If not 3, mimoOlCqiThU is not applicable (public)
dlMimoMode of LNCEL - If not 3, mimoOlRiThD is not applicable (public)
dlMimoMode of LNCEL - If not 3, mimoOlRiThU is not applicable (public)
1 Admission Control
1 Admission Control
1 System Information Broadcast
1 Packet Scheduler
1 System Information Broadcast
1 System Information Broadcast
1
1
1 Packet Scheduler
1 Power Control
defPagCyc of LNCEL - The product of parameter modPeriodCoeff and defPagCyc must not exceed 1024 (public)
1 Packet Scheduler, Downlink Mimo Configuration
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1
1 Power Control
1 Power Control
1 Power Control
1 Power Control
1 Packet Scheduler, Power Control
1 System Information Broadcast
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
1 Random Access
1 Random Access
1 Packet Scheduler, Random Access
1 Random Access
1
1 System Information Broadcast
1 Packet Scheduler, Uplink PHY
1
1
ulChBw of LNCEL - null (public)
1 Packet Scheduler
1
1
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1
1
1
1
1
1
1 Random Access
1
1 Packet Scheduler
1 Periodic CQI Configuration
1 Periodic CQI Configuration
1 Periodic CQI Configuration
1 Random Access
2 Power Control
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
riPerM of LNCEL - null (public)
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 System Information Broadcast
1 Sounding Reference Symbol Configuration
1
1
1 Sounding Reference Symbol Configuration
1 Sounding Reference Symbol Configuration
1 Sounding Reference Symbol Configuration
1 Power Control
1 Sounding Reference Symbol Configuration
defPagCyc of LNCEL - null (public)
1 Sounding Reference Symbol Configuration
1 System Information Broadcast
1
1 Packet Scheduler
1 System Information Broadcast
1 System Information Broadcast
1
1 Handover Control
1
1 System Information Broadcast
1
1
1
1
1
1 E-RAB Control
1
1 Packet Scheduler
1 Packet Scheduler
1
1 System Information Broadcast
taTimerMargin of LNBTS ( hidden )- Shall be less or an equal than taTimer (public)
1 Power Control
1 Power Control
1 Packet Scheduler
1 Uplink PHY
1 Uplink PHY
1 Uplink PHY
1
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcAllTbEn shall not be defined and the default value is used. (public)
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcEdgFugEn shall not be defined and the default value is used. (public)
1 Packet Scheduler
1 Packet Scheduler
1 Packet Scheduler
ulamcCStepUp of LNBTS - If ulamcEnable is FALSE, ulamcCStepUp shall not be defined and the default value is used. (public)ulamcDeltaCini of LNBTS - If ulamcEnable is FALSE, ulamcDeltaCini shall not be defined and the default value is used. (public)ulamcDeltaCmax of LNBTS - If ulamcEnable is FALSE, ulamcDeltaCmax shall not be defined and the default value is used. (public)ulamcDeltaCmin of LNBTS - If ulamcEnable is FALSE, ulamcDeltaCmin shall not be defined and the default value is used. (public)ulamcHistMcsT of LNBTS - If ulamcEnable is FALSE, ulamcHistMcsT shall
ulamcEnable of LNCEL - If ulamcEnable is FALSE, ulamcSwitchPer shall not be defined and the default value is used. (public)
1 Packet Scheduler
1 Power Control
1 Power Control
1
1 Power Control
ulatbEnable of LNCEL - If ulatbEnable is FALSE, ulatbEventPer shall not be defined and the default value is used. (public)
11
11
1
4
1
1
1111
11
1
111
1
1
1
1
1
antlId of ANTL - Identifies the specific antenna line id. (public)
1
1
1
11
11
1
1
1
11
1
1
1
1
1
1
1
1
20
1
1
11
1
1
4
1
maxAngle of RET - value of parameter angle shall be less or equal than this (public)minAngle of RET - value of parameter angle shall be less or equal than this (public)
1
111111
1
1
21
antlId of ANTL - Identifies the specific antenna line id. (public)
1
1
1
1
calibrationDone of RET - When calibrationDone = FALSE, calibrate is required (public)configFileDlNeeded of RET - When configFileDlNeeded is required, user shall be recommended (not mandatory) to request calibration also (public)
calibrate of RET - When calibrationDone = FALSE, calibrate is required (public)
configurationFile of RET - When configFileDlNeeded = TRUE, configurationFile is required (public)
configurationFile of RET - When configurationDone = FALSE, configurationFile is required (public)
1
111
1
1
configFileDlNeeded of RET - configurationFile is downloaded if configFileDlNeeded = TRUE also (public)
1
1
1
1
11
1
1
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
1 S1/X2 Common Signalling
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Description of Parameter Relationships Group Classification Interfaces
EM <-> LTE
EM <-> LTE BTS, RAC <-> LTE BTS, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
The combination of the related parameters result in the global eNB Id of the adjacent eNB correpsonding to this IP address.
The combination with the related parameters adjMcc and adjMnc results in the Global eNB Id of the adjacent eNB which has IP address adjEnbIpAddress
The combination with the related parameters adjMacroEnbId and adjMnc results in the Global eNB Id of the adjacent eNB which has IP address adjEnbIpAddress
The combination with the related parameters adjMacroEnbId and adjMcc results in the Global eNB Id of the adjacent eNB which has IP address adjEnbIpAddress. The length of the MNC can be 2 or 3 digits and is indicated by the related parameter adjMncLength.
The length of MNC can be 2 or 3 digits; if adjMnc is in the range 100...999 then adjMncLength must be 3, for range 0...99 adjMncLength can be set to 3 (with leading '0' digit) or to 2 (without leading '0' digit)
EM <-> LTE
EM <-> LTE
Transmission EM <-> LTE
Transmission EM <-> LTE
Transmission EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> WBT
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTEEM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
Transmission EM <-> LTE
Transmission LTE BTS ->
Transmission EM <-> LTE
Transmission LTE BTS ->
Transmission LTE BTS ->
Transmission LTE BTS ->
Transmission EM <-> LTE
Transmission EM <-> LTE
Transmission EM <-> LTE
Transmission EM <-> LTE
Transmission LTE BTS ->
Transmission EM <-> LTE
Transmission EM <-> LTE
EM <-> LTE
3GPPIntN EM <-> LTE
3GPPIntN EM <-> LTE
3GPPIntN EM <-> LTE
Transmission EM <-> LTE
Parameter n3Requests is only relevant in case parameter gtpuPathSupint has non-zero value.The number of unanswered requests of parameter gtpuN3Reqs relates to the timeframe defined in parameter gtpuT3Resp.
Restriction: gtpuPathSupint can not take a value which causes a violation of the folllowing formula:gtpuPathSupint >= (gtpuT3Resp *(gtpuN3Reqs+1)).
Parameter gtpuT3Resp is only relevant in case parameter gtpuPathSupint has non-zero value (GTP-U supervision is switched ON).
determines length of MNC Identification LTE BTS ->
no relations LTE BTS ->
actual range depends on MNC length: if length=2 then range 00...99, if length=3 then range 000...999
actual range depends on MNC length: if length=2 then range 00...99, if length=3 then range 000...999
actual range depends on MNC length: if length=2 then range 00...99, if length=3 then range 000...999
no relations LTE BTS ->
no relations LTE BTS ->
no relations LTE BTS ->
no relations LTE BTS ->
no relations LTE BTS ->
LTE BTS <-
LTE BTS <-
In case (dlamcEnable is FALSE) OR (dlMimoMode is not 3: Dynamic Open Loop MIMO), cqiCompSmRi1Ol shall not be determined and the default value is used implicitly
In case (dlamcEnable is FALSE) OR (dlMimoMode is not 3: Dynamic Open Loop MIMO), cqiCompTdRi2Ol shall not be determined and the default value is used implicitly
LTE BTS <-
LTE BTS <-
No relations LTE BTS <-
no relations EM <-> LTE
no relations EM <-> LTE
In case (dlamcEnable is FALSE) OR (dlOqcEnable is FALSE), dlamcCqiAgeing shall not be defined and the default value is used implicitly
In case dlamcEnable is FALSE, dlamcTHistCqi shall not be defined and the default value is used implicitly
In case rlpDetMaxNoDl is 0 AND rlpDetMaxTimeDl is 0, rlpDetEndNoDl shall not be defined and the default value shall be used implicitly
In case rlpDetMaxNoDl is 0 AND rlpDetMaxTimeDl is 0, rlpDetEndNoDl shall not be defined and the default value shall be used implicitly
In case rlpDetMaxNoDl is 0 AND rlpDetMaxTimeDl is 0, rlpDetEndNoDl shall not be defined and the default value shall be used implicitly
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
EM <-> LTE
EM <-> LTE
no relations EM <-> LTE
LTE BTS <-
LTE BTS <-
LTE BTS <-
In case ulamcEnable is FALSE, ulamcCStepUp shall not be defined and the default value is used implicitly
In case ulamcEnable is FALSE, ulamcDeltaCini shall not be defined and the default value is used implicitlyulamcDeltaCmin <= ulamcDeltaCini <= ulamcDeltaCmax
In case ulamcEnable is FALSE, ulamcDeltaCmax shall not be defined and the default value is used implicitlyulamcDeltaCmin <= ulamcDeltaCini <= ulamcDeltaCmax
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
In case ulamcEnable is FALSE, ulamcDeltaCmin shall not be defined and the default value is used implicitlyulamcDeltaCmin <= ulamcDeltaCini <= ulamcDeltaCmax
In case ulamcEnable is FALSE, ulamcHistMcsT shall not be defined and the default value is used implicitly
In case ulamcEnable is FALSE, ulamcInactT shall not be defined and the default value is used implicitly
In case ulamcEnable is FALSE, ulamcUpdowngrF shall not be defined and the default value is used implicitly
In case ulatbEnable is FALSE, ulatbPhrAvgF shall not be defined and the default value is used implicitly
Required when periodic reporting mode (cqiPerMode) is set to 'widebandAndSubbandCqi'
no relations EM <-> LTE
EM <-> LTE
LTE BTS <-
LTE BTS <-
The product of parameter modPeriodCoeff and defPagCyc must not exceed 1024
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
LTE BTS <-
LTE BTS <-
If dl64QamEnable is false, the highest possible value for iniMcsDl is 16.
3GPPIntN LTE BTS <-
MIMO), cqiCompSmRi1Ol shall not be determined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 3: Dynamic Open Loop MIMO), cqiCompTdRi2Ol shall not be determined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 4: Closed loop Mimo), cqiCompSmRi1Cl shall not be determined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 4: Closed loop Mimo), cqiCompTdRi2Cl shall not be determined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClCqiAvg shall not be defined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClCqiComp shall not be defined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClRiAvg shall not be defined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClCqiThD shall not be defined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClCqiThU shall not be defined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClRiThD shall not be defined and the default value is used implicitlyIn case dlMimoMode is not 4: Closed loop Mimo, mimoClRiThU shall not be defined and the default value is used implicitly
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
EM <-> LTE
LTE BTS <-
No relations LTE BTS <-
In case dlOlqcEnable is FALSE, dlTargetBler shall not be determined and the default value is used implicitly.In case dlOlqcEnable is FALSE, dlOlqcDeltaCqiStepUp shall not be determined and the default value is used implicitly.In case dlOlqcEnable is FALSE, dlolqcDeltaCqiIni shall not be determined and the default value is used implicitly.In case dlOlqcEnable is FALSE, dlolqcDeltaCqiMax shall not be determined and the default value is used implicitly.In case dlOlqcEnable is FALSE, dlolqcDeltaCqiMin shall not be determined and the default value is used implicitly.In case dlOlqcEnable is FALSE, dlamcCqiAgeing shall not be determined and the default value is used implicitly.
In case dlOlqcEnable is FALSE, dlTargetBler shall not be determined and the default value is used implicitly
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
In case dlamcEnable is FALSE, dlamcCqiAgeing shall not be defined and the default value is used implicitlyIn case dlamcEnable is FALSE, dlamcTHistCqi shall not be defined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 3: Dynamic Open Loop MIMO), cqiCompSmRi1Ol shall not be determined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 3: Dynamic Open Loop MIMO), cqiCompTdRi2Ol shall not be determined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 4: Closed loop Mimo), cqiCompSmRi1Cl shall not be determined and the default value is used implicitlyIn case (dlamcEnable is FALSE) OR (dlMimoMode is not 4: Closed loop Mimo), cqiCompTdRi2Cl shall not be determined and the default value is used implicitly
LTE BTS <-
No relations LTE BTS <-
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
LTE BTS <-
dlpcMimoComp is not used in case dlMimoMode is set to 0: Single TX
EM <-> LTECan only be set to higher value than 16 in case dl64QamEnable is true.
EM <-> LTE
EM <-> LTE
no relations EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
no relations EM <-> LTE
no relations EM <-> LTE
EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACApp
no relations LTE BTS <-
LTE BTS <-
no relations EM <-> LTE
no relations EM <-> LTE BTS, LTE BTS <-> RAC, RAC <-> RACAppEM <-> LTE
EM <-> LTE
EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
No relations LTE BTS <-
No relations LTE BTS <-
No relations LTE BTS <-
No relations LTE BTS <-
LTE BTS <-
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
LTE BTS <-
LTE BTS <-
no relations EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
Range and default value depend on Downlink Channel Bandwidth parameter. Range depends on Downlink Channel Bandwidth parameter as follows:5.0 MHz => 1...710.0 MHz => 1...1020.0 MHz => 1...10
Range and default value depend on Uplink Channel Bandwidth parameter. Range depends on Uplink Channel Bandwidth parameter as follows:5.0 MHz => 1...410.0 MHz => 1...4
In case dlMimoMode is not 3: Dynamic Open Loop MIMO, mimoOlCqiThD shall not be defined and the default value is used implicitly
In case dlMimoMode is not 3: Dynamic Open Loop MIMO, mimoOlCqiThU shall not be defined and the default value is used implicitly
In case dlMimoMode is not 3: Dynamic Open Loop MIMO, mimoOlRiThD shall not be defined and the default value is used implicitly
In case dlMimoMode is not 3: Dynamic Open Loop MIMO, mimoOlRiThU shall not be defined and the default value is used implicitly
no relations EM <-> LTE
no relations EM <-> LTE
EM <-> LTE
LTE BTS <-
no relations EM <-> LTE
no relations EM <-> LTE
EM <-> LTE
EM <-> LTE
LTE BTS <-
LTE BTS <-
The product of parameter modPeriodCoeff and defPagCyc must not exceed 1024.
LTE BTS <-
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
LTE BTS ->
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
no relations SystemInfo EM <-> LTE
No relations LTE BTS <-
No relations LTE BTS <-
No relations LTE BTS <-
No relations LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
EM <-> LTE
no relations EM <-> LTE
LTE BTS <-
LTE BTS <-
LTE BTS <-
Range: 0,1,2, ulChBw in PRBs - 8, ulChBw in PRBs -7, ulChBw in PRBs -6Default value: 1
When ulChBw = 20 MHz, then srsBwConf is to be set to 2. When ulChBw = 15 MHz, then srsBwConf is to be set to 3. When ulChBw = 10 MHz, then srsBwConf is to be set to 4. When ulChBw = 5 MHz, then srsBwConf is to be set to 6.
For DELTA_TF_ENABLED = 1 (-> KS = 1.25) the actual parameter value is "srsPwrOffset-3" corresponding to the dB-range of -3 dB to 12 dB in steps of 1 dB. For DELTA_TF_ENABLED = 0 (-> KS = 0) the actual parameter value is "-10.5 + 1.5 * srsPwrOffset" value corresponding to the dB-range -10.5 dB to 12 dB in steps of 1.5 dB.
EM <-> LTE
no relations EM <-> LTE
LTE BTS ->
LTE BTS <-
When ulChBw is set to 10, 15, 20 MHz, then srsSubfrConf default value is 3. When ulChBw is set to 5 MHz, then srsSubfrConf default value is 1.
If dlMimoMode is set to value 0:singleTx then syncSigTxMode is also set to 0:SingleTx. If dlMimoMode is set to some other value than 0:SingleTx, then syncSigTxMode can be set to 0:SingleTx or 1:Txdiv
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
no relations EM <-> LTE
EM <-> LTE
no relations EM <-> LTE
EM <-> LTE
EM <-> LTE
EM <-> LTE
LTE BTS <-
LTE BTS <-
no relations EM <-> LTE
EM <-> LTE
LTE BTS <-
EM <-> LTE
SystemInfo EM <-> LTE
no relations EM <-> LTE
taTimerMargin shall be less or an equal than taTimer
LTE BTS <-
LTE BTS <-
LTE BTS <-
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
LTE BTS <-
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
LTE BTS <-
LTE BTS <-
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
In case ulamcEnable is FALSE, ulamcAllTbEn shall not be defined and the default value is used implicitly
In case ulamcEnable is FALSE, ulamcEdgFugEn shall not be defined and the default value is used implicitly
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
LTE BTS <-
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
In case ulamcEnable is FALSE, ulamcAllTbEn shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcEdgFugEn shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcSwitchPer shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcCStepUp shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcDeltaCini shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcDeltaCmin shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcDeltaCmax shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcHistMcsT shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcInactT shall not be defined and the default value is used implicitlyIn case ulamcEnable is FALSE, ulamcUpdowngrF shall not be defined and the default value is used implicitly
In case ulamcEnable is FALSE, ulamcSwitchPer shall not be defined and the default value is used implicitly
LTE BTS <-
LTE BTS <-> EM, LTE BTS <-> RAC, RACApp <-> RAC
LTE BTS <-
EM <-> LTE
LTE BTS <-
In case ulatbEnable is FALSE, ulatbEventPer shall not be defined and the default value is used implicitly
-24 dB (0), -22 dB (1), -20 dB (2), -18 dB (3), -16 dB (4), -14 dB (5), -12 dB (6), -10 dB (7), -8 dB (8), -6 dB (9), -5 dB (10), -4 dB (11), -3 dB (12), -2 dB (13), -1 dB (14), 0 dB (15), 1 dB (16), 2 dB (17), 3 dB (18), 4 dB (19), 5 dB (20), 6 dB (21), 8 dB (22), 10 dB (23), 12 dB (24), 14 dB (25), 16 dB (26), 18 dB (27), 20 dB (
Band I (1), Band II (2), Band III (3), Band IV (4), Band V (5), Band VI (6), Band VII (7), Band VIII (8), Band IX (9), Band X (10), Band XI (11), Band XII (12), Band XIII (13), Band XIV (14)
Band I (1), Band II (2), Band III (3), Band IV (4), Band V (5), Band VI (6), Band VII (7), Band VIII (8), Band IX (9), Band X (10), Band XI (11), Band XII (12), Band XIII (13), Band XIV (14)