6.3.2 Radio resource control information elements

36.3313GPPEvolved Universal Terrestrial Radio Access (E-UTRA)Protocol specificationRadio Resource Control (RRC)Release 15TS

AntennaInfo

The IE AntennaInfoCommon and the AntennaInfoDedicated are used to specify the common and the UE specific antenna configuration respectively.

AntennaInfo information elements

— ASN1START

AntennaInfoCommon ::= SEQUENCE {

antennaPortsCount ENUMERATED {an1, an2, an4, spare1}

}

AntennaInfoDedicated ::= SEQUENCE {

transmissionMode ENUMERATED {

tm1, tm2, tm3, tm4, tm5, tm6,

tm7, tm8-v920},

codebookSubsetRestriction CHOICE {

n2TxAntenna-tm3 BIT STRING (SIZE (2)),

n4TxAntenna-tm3 BIT STRING (SIZE (4)),

n2TxAntenna-tm4 BIT STRING (SIZE (6)),

n4TxAntenna-tm4 BIT STRING (SIZE (64)),

n2TxAntenna-tm5 BIT STRING (SIZE (4)),

n4TxAntenna-tm5 BIT STRING (SIZE (16)),

n2TxAntenna-tm6 BIT STRING (SIZE (4)),

n4TxAntenna-tm6 BIT STRING (SIZE (16))

} OPTIONAL, — Cond TM

ue-TransmitAntennaSelection CHOICE{

release NULL,

setup ENUMERATED {closedLoop, openLoop}

}

}

AntennaInfoDedicated-v920 ::= SEQUENCE {

codebookSubsetRestriction-v920 CHOICE {

n2TxAntenna-tm8-r9 BIT STRING (SIZE (6)),

n4TxAntenna-tm8-r9 BIT STRING (SIZE (32))

} OPTIONAL — Cond TM8

}

AntennaInfoDedicated-r10 ::= SEQUENCE {

transmissionMode-r10 ENUMERATED {

tm1, tm2, tm3, tm4, tm5, tm6, tm7, tm8-v920,

tm9-v1020, tm10-v1130, spare6, spare5, spare4,

spare3, spare2, spare1},

codebookSubsetRestriction-r10 BIT STRING OPTIONAL, — Cond TMX

ue-TransmitAntennaSelection CHOICE{

release NULL,

setup ENUMERATED {closedLoop, openLoop}

}

}

AntennaInfoDedicated-v10i0::= SEQUENCE {

maxLayersMIMO-r10 ENUMERATED {twoLayers, fourLayers, eightLayers} OPTIONAL — Need OR

}

AntennaInfoDedicated-v1250 ::= SEQUENCE {

alternativeCodebookEnabledFor4TX-r12 BOOLEAN

}

AntennaInfoDedicated-v1430 ::= SEQUENCE {

ce-UE-TxAntennaSelection-config-r14 ENUMERATED {on} OPTIONAL — Need OR

}

AntennaInfoDedicatedSTTI-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

transmissionModeDL-MBSFN-r15 ENUMERATED {tm9, tm10} OPTIONAL, — Need OR

transmissionModeDL-nonMBSFN-r15 ENUMERATED {tm1, tm2, tm3, tm4, tm6, tm8, tm9,

tm10} OPTIONAL, –_Need OR

codebookSubsetRestriction CHOICE {

n2TxAntenna-tm3-r15 BIT STRING (SIZE (2)),

n4TxAntenna-tm3-r15 BIT STRING (SIZE (4)),

n2TxAntenna-tm4-r15 BIT STRING (SIZE (6)),

n4TxAntenna-tm4-r15 BIT STRING (SIZE (64)),

n2TxAntenna-tm5-r15 BIT STRING (SIZE (4)),

n4TxAntenna-tm5-r15 BIT STRING (SIZE (16)),

n2TxAntenna-tm6-r15 BIT STRING (SIZE (4)),

n4TxAntenna-tm6-r15 BIT STRING (SIZE (16)),

n2TxAntenna-tm8-r15 BIT STRING (SIZE (6)),

n4TxAntenna-tm8-r15 BIT STRING (SIZE (64)),

n2TxAntenna-tm9and10-r15 BIT STRING (SIZE (6)),

n4TxAntenna-tm9and10-r15 BIT STRING (SIZE (96)),

n8TxAntenna-tm9and10-r15 BIT STRING (SIZE (109))

} OPTIONAL, — Cond TM

maxLayersMIMO-STTI-r15 ENUMERATED {twoLayers, fourLayers} OPTIONAL, — Need OR

slotSubslotPDSCH-TxDiv-2Layer-r15 BOOLEAN,

slotSubslotPDSCH-TxDiv-4Layer-r15 BOOLEAN

}

}

AntennaInfoDedicated-v1530 ::= CHOICE {

release NULL,

setup CHOICE {

ue-TxAntennaSelection-SRS-1T4R-Config-r15 NULL,

ue-TxAntennaSelection-SRS-2T4R-NrOfPairs-r15 ENUMERATED {two, three}

}

}

— ASN1STOP

AntennaInfo field descriptions

alternativeCodebookEnabledFor4TX

Indicates whether code book in TS 36.213 [23] Table 7.2.4-0A to Table 7.2.4-0D is being used for deriving CSI feedback and reporting. E-UTRAN only configures the field if the UE is configured with a) tm8 with 4 CRS ports, tm9 or tm10 with 4 CSI-RS ports and b) PMI/RI reporting.

antennaPortsCount

Parameter represents the number of cell specific antenna ports where an1 corresponds to 1, an2 to 2 antenna ports etc. see TS 36.211 [21], clause 6.2.1.

ce-ue-TxAntennaSelection-config

Configuration of UL closed-loop transmit antenna selection for non-BL UE in CE Mode A, see TS 36.212 [22].

codebookSubsetRestriction

Parameter: codebookSubsetRestriction, see TS 36.213 [23], clause 7.2 and TS 36.211 [21], clause 6.3.4.2.3. The number of bits in the codebookSubsetRestriction for applicable transmission modes is defined in TS 36.213 [23], Table 7.2-1b. If the UE is configured with transmissionMode tm8, E-UTRAN configures the field codebookSubsetRestriction if PMI/RI reporting is configured. If the UE is configured with transmissionMode tm9, E-UTRAN configures the field codebookSubsetRestriction if PMI/RI reporting is configured and if the number of CSI-RS ports is greater than 1. E-UTRAN does not configure the field codebookSubsetRestriction in other cases where the UE is configured with transmissionMode tm8 or tm9. Furthermore, E-UTRAN does not configure the field codebookSubsetRestriction if the UE is configured with eMIMO-Type unless it is set to beamformed, alternativeCodebookEnabledBeamformed is set to FALSE and csi-RS-ConfigNZPIdListExt is not configured.

maxLayersMIMO

Indicates the maximum number of layers for spatial multiplexing used to determine the rank indication bit width and Kc determination of the soft buffer size for the corresponding serving cell according to TS 36.212 [22]. EUTRAN configures this field only when transmissionMode is set to tm3, tm4, tm9 or tm10 for the corresponding serving cell. When configuring the field for a serving cell which transmissionMode is set to tm3 or tm4, EUTRAN only configures value fourLayers: For a serving cell which transmissionMode is set to tm9 or tm10, EUTRAN only configures the field only if intraBandContiguousCC-InfoList or FeatureSetDL-PerCC is indicated for the band and the band combination of the corresponding serving cell or the UE supports maxLayersMIMO-Indication.

maxLayersMIMO-STTI

Indicates the maximum number of layers, for each serving cell, to be used when determining if the shifted DMRS pattern is applicable TS 36.211 [21], clause 6.10.3.2.

slotSubslotPDSCH-TxDiv-2Layer, slotSubslotPDSCH-TxDiv-4Layer

Indicates the table to be used in case of dynamic TX diversity fallback for TM9 and 10 for up to 2-layer/4-layer slot or subslot PDSCH operation, see TS 36.212 [22], clause 5.3.3.1.22.

transmissionMode

Points to one of Transmission modes defined in TS 36.213 [23], clause 7.1, where tm1 refers to transmission mode 1, tm2 to transmission mode 2 etc.

transmissionModeDL-MBSFN

Indicates, for MBSFN, the transmission mode as defined in TS 36.213 [23], clause 7.1, where tm1 refers to transmission mode 1, tm2 to transmission mode 2 etc for slot or subslot operation. In case of FDD, TM8 is not applicable.

transmissionModeDL-nonMBSFN

Indicates, for non-MBSFN, the transmission mode as defined in TS 36.213 [23], clause 7.1, where tm1 refers to transmission mode 1, tm2 to transmission mode 2 etc. for slot or subslot operation. In case of FDD, TM8 is not applicable.

ue-TransmitAntennaSelection

For value setup, the field indicates whether UE transmit antenna selection control is closed-loop or open-loop as described in TS 36.213 [23], clause 8.7.

ue-TxAntennaSelection-SRS-1T4R-Config

Configuration of UL closed-loop transmit antenna selection for UE to select one antenna among four antennas to transmit SRS for the corresponding serving cell as described in TS 36.213 [23]. When ue-TxAntennaSelection-SRS-1T4R-Config and ue-TransmitAntennaSelection are configured simultaneously for a given serving cell, the UE selects one of the first two antennas for PUSCH transmission and selects one antenna among four antennas at each SRS instance for SRS transmission for the corresponding serving cell as described in TS 36.213 [23].

ue-TxAntennaSelection-SRS-2T4R-NrOfPairs

Presence of the field indicates configuration of UL closed-loop transmit antenna selection for UE to select two antennas among four antennas to transmit SRS simultaneously for the corresponding serving cell as described in TS 36.213 [23]. Further, the field indicates the number of antenna pairs to select from for SRS transmission for a given serving cell as described in TS 36.213 [23]. Value two indicates the UE to select one antenna pair between two antenna pairs to transmit SRS simultaneously at each SRS instance for the corresponding serving cell. Value three indicates the UE to select one antenna pair among three antenna pairs to transmit SRS simultaneously at each SRS instance for the corresponding serving cell. EUTRAN does not simultaneously configure ue-TransmitAntennaSelection and ue-TxAntennaSelection-SRS-2T4R-NrOfPairs for a given serving cell.

Conditional presence

Explanation

TM

The field is mandatory present if the transmissionMode is set to tm3, tm4, tm5 or tm6. Otherwise the field is not present and the UE shall delete any existing value for this field.

TM8

The field is optional present, need OR, if AntennaInfoDedicated is included and transmissionMode is set to tm8. If AntennaInfoDedicated is included and transmissionMode is set to a value other than tm8, the field is not present and the UE shall delete any existing value for this field. Otherwise the field is not present.

TMX

The field is mandatory present if the transmissionMode-r10 is set to tm3, tm4, tm5 or tm6. The field is optionally present, need OR, if the transmissionMode-r10 is set to tm8 or tm9. Otherwise the field is not present and the UE shall delete any existing value for this field.

– AntennaInfoUL

The IE AntennaInfoUL is used to specify the UL antenna configuration.

AntennaInfoUL information elements

— ASN1START

AntennaInfoUL-r10 ::= SEQUENCE {

transmissionModeUL-r10 ENUMERATED {tm1, tm2, spare6, spare5,

spare4, spare3, spare2, spare1} OPTIONAL, — Need OR

fourAntennaPortActivated-r10 ENUMERATED {setup} OPTIONAL — Need OR

}

AntennaInfoUL-STTI-r15 ::= SEQUENCE {

transmissionModeUL-STTI-r15 ENUMERATED {tm1, tm2} OPTIONAL — Need OR

}

— ASN1STOP

AntennaInfoUL field descriptions

fourAntennaPortActivated

Parameter indicates if four antenna ports are used. See TS 36.213 [23], clause 8.2. E-UTRAN optionally configures fourAntennaPortActivated only if transmissionModeUL is set to tm2.

transmissionModeUL

Points to one of UL Transmission modes defined in TS 36.213 [23], clause 8.0, where tm1 refers to transmission mode 1, tm2 to transmission mode 2 etc.

transmissionModeUL-STTI

Indicates the UL transmission mode as defined in TS 36.213 [23], clause 8.0, where tm1 refers to transmission mode 1 and tm2 to transmission mode 2 for slot or subslot operation.

AUL-Config

The IE AUL-Config is used to specify the autonomous uplink configuration.

AUL-Config information element

— ASN1START

AUL-Config-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

aul-CRNTI-r15 C-RNTI,

aul-Subframes-r15 BIT STRING (SIZE (40)),

aul-HARQ-Processes-r15 INTEGER (1..16),

transmissionModeUL-AUL-r15 ENUMERATED {tm1,tm2},

aul-StartingFullBW-InsideMCOT-r15 BIT STRING (SIZE (5)),

aul-StartingFullBW-OutsideMCOT-r15 BIT STRING (SIZE (7)),

aul-StartingPartialBW-InsideMCOT-r15 ENUMERATED {o34, o43, o52, o61, oOS1},

aul-StartingPartialBW-OutsideMCOT-r15 ENUMERATED {o16, o25, o34, o43, o52, o61, oOS1},

aul-RetransmissionTimer-r15 ENUMERATED {psf4, psf5, psf6, psf8, psf10, psf12, psf20, psf28, psf37, psf44, psf68, psf84, psf100,

psf116, psf132, psf164, psf324},

endingSymbolAUL-r15 INTEGER(12..13),

subframeOffsetCOT-Sharing-r15 INTEGER(2..4),

contentionWindowSizeTimer-r15 ENUMERATED {n0, n5, n10}

}

}

— ASN1STOP

AUL-Config field descriptions

aul-CRNTI

AUL C-RNTI, see TS 36.321 [6].

aul-HARQ-Processes

This field indicates which HARQ process IDs are configured for AUL operation as described in TS 36.321 [6]. In case tm1 is configured for the transmissionModeUL-AUL the number of configured HARQ processes equals to field value. In case tm2 is configured for the transmissionModeUL-AUL the number of configured HARQ processes equals to double of the field value. The largest value of the HARQ process ID is equal to the number of configured HARQ processes – 1.

aul-RetransmissionTimer

This timer is used to restrict both new transmission and retransmission for the same HARQ process for AUL operation as described in TS 36.321 [6]. Value psf4 corresponds to 4 PDCCH subframes etc.

aul-StartingFullBW-InsideMCOT

This field indicates the AUL-specific set of PUSCH starting offset values for the AUL transmission inside of eNB obtained MCOT when a UE configured with AUL configuration is allocated to occupy the full channel bandwidth as described in TS 36.213 [23], clause 8.0. The first/leftmost bit corresponds to value 34, second bit corresponds to value 43, third bit corresponds to value 52, fourth bit corresponds to value 61 and last bit corresponds to value OS#1.

aul-StartingFullBW-OutsideMCOT

This field indicates the AUL-specific set of PUSCH starting offset values for the AUL transmission outside of eNB obtained MCOT when a UE configured with AUL configuration is allocated to occupy the full channel bandwidth as described in TS 36.213 [23], clause 8.0. The first/leftmost bit corresponds to value 16, second bit corresponds to value 25, third bit corresponds to value 34, fourth bit corresponds to value 43, fifth bit corresponds to value 52, sixth bit corresponds to value 61 and last bit corresponds to value OS#1.

aul-StartingPartialBW-InsideMCOT

This field indicates the exact AUL-specific PUSCH starting offset value for the AUL transmission inside of eNB obtained MCOT when a UE configured with AUL configuration is allocated to occupy partial channel bandwidth as described in TS 36.213 [23], clause 8.0. The value o34 corresponds to 34, and the value o43 corresponds to 43 and so on.

aul-StartingPartialBW-OutsideMCOT

This field indicates the exact AUL-specific PUSCH starting offset value for the AUL transmission outside of eNB obtained MCOT when a UE configured with AUL configuration is allocated to occupy partial channel bandwidth as described in TS 36.213 [23], clause 8.0. The value o16 corresponds to 16, the value o25 corresponds to 25 and so on.

aul-Subframes

This field indicates which subframes are allowed for AUL operation as described in TS 36.321 [6]. The first/leftmost bit corresponds to the subframe #0 of the radio frame satisfying SFN mod 4 = 0. Value 0 in the bitmap indicates that the corresponding subframe is not allowed for AUL. Value 1 in the bitmap indicates that the corresponding subframe is allowed for AUL.

contentionWindowSizeTimer

This field indicates contention window size adjustment timer as described in TS 37.213 [94], clause 4.2.2. The value n0 corresponds to 0ms, value n5 corresponds to 5ms, value n10 corresponds to 10ms. The value is set to n0 or n5 if the absence of other technologies on the same carrier cannot be guaranteed. The value is set to n0 or n10 if the absence of other technologies on the same carrier can be guaranteed.

endingSymbolAUL

This field indicates PUSCH ending symbol of the last AUL subframe in an AUL burst as described in TS 36.211 [21], clause 4.1.3.

subframeOffsetCOT-Sharing

This field is COT sharing indication parameter X indicating if subframe n+X is an applicable subframe for UL to DL sharing as described in TS 37.213 [94], clause 4.1.3.

transmissionModeUL-AUL

This field indicates which UL transmission mode is used for AUL as described in TS 36.213 [23], clause 8.0, where tm1 refers to transmission mode 1, tm2 to transmission mode 2.

CQI-ReportAperiodic

The IE CQI-ReportAperiodic is used to specify the aperiodic CQI reporting configuration.

CQI-ReportAperiodic information elements

— ASN1START

CQI-ReportAperiodic-r10 ::= CHOICE {

release NULL,

setup SEQUENCE {

cqi-ReportModeAperiodic-r10 CQI-ReportModeAperiodic,

aperiodicCSI-Trigger-r10 SEQUENCE {

trigger1-r10 BIT STRING (SIZE (8)),

trigger2-r10 BIT STRING (SIZE (8))

} OPTIONAL — Need OR

}

}

CQI-ReportAperiodic-v1250 ::= CHOICE {

release NULL,

setup SEQUENCE {

aperiodicCSI-Trigger-v1250 SEQUENCE {

trigger-SubframeSetIndicator-r12 ENUMERATED {s1, s2},

trigger1-SubframeSetIndicator-r12 BIT STRING (SIZE (8)),

trigger2-SubframeSetIndicator-r12 BIT STRING (SIZE (8))

}

}

}

CQI-ReportAperiodic-v1310 ::= CHOICE {

release NULL,

setup SEQUENCE {

aperiodicCSI-Trigger-v1310 SEQUENCE {

trigger1-r13 BIT STRING (SIZE (32)),

trigger2-r13 BIT STRING (SIZE (32)),

trigger3-r13 BIT STRING (SIZE (32)),

trigger4-r13 BIT STRING (SIZE (32)),

trigger5-r13 BIT STRING (SIZE (32)),

trigger6-r13 BIT STRING (SIZE (32))

} OPTIONAL, — Need ON

aperiodicCSI-Trigger2-r13 CHOICE {

release NULL,

setup SEQUENCE {

trigger1-SubframeSetIndicator-r13 BIT STRING (SIZE (32)),

trigger2-SubframeSetIndicator-r13 BIT STRING (SIZE (32)),

trigger3-SubframeSetIndicator-r13 BIT STRING (SIZE (32)),

trigger4-SubframeSetIndicator-r13 BIT STRING (SIZE (32)),

trigger5-SubframeSetIndicator-r13 BIT STRING (SIZE (32)),

trigger6-SubframeSetIndicator-r13 BIT STRING (SIZE (32))

}

} OPTIONAL — Need ON

}

}

CQI-ReportAperiodicProc-r11 ::= SEQUENCE {

cqi-ReportModeAperiodic-r11 CQI-ReportModeAperiodic,

trigger01-r11 BOOLEAN,

trigger10-r11 BOOLEAN,

trigger11-r11 BOOLEAN

}

CQI-ReportAperiodicProc-v1310 ::= SEQUENCE {

trigger001-r13 BOOLEAN,

trigger010-r13 BOOLEAN,

trigger011-r13 BOOLEAN,

trigger100-r13 BOOLEAN,

trigger101-r13 BOOLEAN,

trigger110-r13 BOOLEAN,

trigger111-r13 BOOLEAN

}

CQI-ReportAperiodicHybrid-r14 ::= SEQUENCE {

triggers-r14 CHOICE {

oneBit-r14 SEQUENCE {

trigger1-Indicator-r14 BIT STRING (SIZE (8))

},

twoBit-r14 SEQUENCE {

trigger01-Indicator-r14 BIT STRING (SIZE (8)),

trigger10-Indicator-r14 BIT STRING (SIZE (8)),

trigger11-Indicator-r14 BIT STRING (SIZE (8))

},

threeBit-r14 SEQUENCE {

trigger001-Indicator-r14 BIT STRING (SIZE (32)),

trigger010-Indicator-r14 BIT STRING (SIZE (32)),

trigger011-Indicator-r14 BIT STRING (SIZE (32)),

trigger100-Indicator-r14 BIT STRING (SIZE (32)) ,

trigger101-Indicator-r14 BIT STRING (SIZE (32)),

trigger110-Indicator-r14 BIT STRING (SIZE (32)),

trigger111-Indicator-r14 BIT STRING (SIZE (32))

}

} OPTIONAL — Need OR

}

CQI-ReportModeAperiodic ::= ENUMERATED {

rm12, rm20, rm22, rm30, rm31,

rm32-v1250, rm10-v1310, rm11-v1310

}

— ASN1STOP

CQI-ReportAperiodic field descriptions

aperiodicCSI-Trigger

Indicates for which serving cell(s) the aperiodic CSI report is triggered when one or more SCells are configured. trigger1-r10 corresponds to the CSI request field 10 while trigger1-r13 corresponds to the CSI request field 010, trigger2-r10 corresponds to the CSI request field 11 while trigger2-r13 corresponds to the CSI request field 011, trigger3-r13 corresponds to the CSI request field 100, see TS 36.213 [23], table 7.2.1-1A and table 7.2.1-1D, and so on. The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex=1 etc. Each bit has either value 0 (means no aperiodic CSI report is triggered) or value 1 (means the aperiodic CSI report is triggered). At most 5 bits can be set to value 1 in the bit string in aperidociCSI-Trigger-r10 and in aperiodicCSI-Trigger-v1250 and at most 32 bits can be set to value 1 in the bit string in aperiodicCSI-Trigger-v1310. E-UTRAN configures value 1 only for cells configured with transmissionMode set in range tm1 to tm9. One value applies for all serving cells configured with transmissionMode set in range tm1 to tm9 and belonging to the same PUCCH group (the associated functionality is common i.e. not performed independently for each cell).

trigger-SubframeSetIndicator

For a serving cell configured with csi-MeasSubframeSets-r12, indicates for which CSI subframe set the aperiodic CSI report is triggered for the serving cell if the aperiodic CSI is triggered by the CSI request field 01 or 001, see TS 36.213 [23], table 7.2.1-1C or table 7.2.1.-1E. Value s1 corresponds to CSI subframe set 1 and value s2 corresponds to CSI subframe set 2.

trigger001

Indicates whether or not reporting for this CSI-process or reporting for this CSI-process corresponding to a CSI subframe set is triggered by CSI request field set to 001, for a CSI request applicable for the serving cell on the same frequency as the CSI process, see TS 36.213 [23], table 7.2.1-1D and 7.2.1-E.

trigger001-IndicatorN..trigger111-IndicatorN

Indicates for which eMIMO-Type the aperiodic CSI report is triggered (the corresponding CSI process, CSI subframe set}-pair(s) and/or a serving cell) as applicable, See TS 36.213 [23], table 7.2.1-1A, 7.2.1-1B, and 7.2.1-1C.

trigger01

Indicates whether or not reporting for this CSI-process or reporting for this CSI-process corresponding to a CSI subframe set is triggered by CSI request field set to 01, for a CSI request applicable for the serving cell on the same frequency as the CSI process, see TS 36.213 [23], table 7.2.1-1D and 7.2.1-1E.

trigger010, trigger011, trigger100, trigger101, Trigger110, Trigger111

Indicates whether or not reporting for this CSI-process or reporting for this CSI-process corresponding to a CSI subframe set is triggered by CSI request field set to 010, 011, 100, 101, 110 or 111, see TS 36.213 [23], table 7.2.1-1D and 7.2.1-1E.

trigger10, trigger11

Indicates whether or not reporting for this CSI-process or reporting for this CSI-process corresponding to a CSI subframe set is triggered by CSI request field set to 10 or 11, see TS 36.213 [23], table 7.2.1-1B. EUTRAN configures at most 5 CSI processes, across all serving frequencies within each CG, to be triggered by a CSI request field set to value 10. The same restriction applies for value 11. In case E-UTRAN simultaneously triggers CSI requests for more than 5 CSI processes some limitations apply, see TS 36.213 [23].

trigger1-SubframeSetIndicator

If signalled in the aperiodicCSI-Trigger-v1250, indicates for which CSI subframe set the aperiodic CSI report is triggered when aperiodic CSI is triggered by the CSI request field 10, see TS 36.213 [23], table 7.2.1-1C, or by the CSI request field 010, see TS 36.213 [23], table 7.2.1-1E.The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex=1 etc. Each bit has either value 0 (means that aperiodic CSI report is triggered for CSI subframe set 1) or value 1 (means that aperiodic CSI report is triggered for CSI subframe set 2).

trigger2-SubframeSetIndicator

If signalled in the aperiodicCSI-Trigger-v1250, indicates for which CSI subframe set the aperiodic CSI report is triggered when aperiodic CSI is triggered by the CSI request field 11, see TS 36.213 [23], table 7.2.1-1C, or by the CSI request field 011, see TS 36.213 [23], table 7.2.1-1E.The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex=1 etc. Each bit has either value 0 (means that aperiodic CSI report is triggered for CSI subframe set 1) or value 1 (means that aperiodic CSI report is triggered for CSI subframe set 2).

trigger3-SubframeSetIndicator

Indicates for which CSI subframe set the aperiodic CSI report is triggered when aperiodic CSI is triggered by the CSI request field100, see TS 36.213 [23], table 7.2.1-1E.The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex =1 etc. Each bit has either value 0 (means that aperiodic CSI report is triggered for CSI subframe set 1) or value 1 (means that aperiodic CSI report is triggered for CSI subframe set 2).

trigger4-SubframeSetIndicator

Indicates for which CSI subframe set the aperiodic CSI report is triggered when aperiodic CSI is triggered by the CSI request field 101, see TS 36.213 [23], table 7.2.1-1E.The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex =1 etc. Each bit has either value 0 (means that aperiodic CSI report is triggered for CSI subframe set 1) or value 1 (means that aperiodic CSI report is triggered for CSI subframe set 2).

trigger5-SubframeSetIndicator

Indicates for which CSI subframe set the aperiodic CSI report is triggered when aperiodic CSI is triggered by the CSI request field 110, see TS 36.213 [23], table 7.2.1-1E.The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex =1 etc. Each bit has either value 0 (means that aperiodic CSI report is triggered for CSI subframe set 1) or value 1 (means that aperiodic CSI report is triggered for CSI subframe set 2).

trigger6-SubframeSetIndicator

Indicates for which CSI subframe set the aperiodic CSI report is triggered when aperiodic CSI is triggered by the CSI request field 111, see TS 36.213 [23], table 7.2.1-1E.The leftmost bit, bit 0 in the bit string corresponds to the cell with ServCellIndex=0 and bit 1 in the bit string corresponds to the cell with ServCellIndex =1 etc. Each bit has either value 0 (means that aperiodic CSI report is triggered for CSI subframe set 1) or value 1 (means that aperiodic CSI report is triggered for CSI subframe set 2).

CQI-ReportBoth

The IE CQI-ReportBoth is used to specify the CQI reporting configuration common to both periodic and aperiodic configurations.

CQI-ReportBoth information elements

— ASN1START

CQI-ReportBoth-r11 ::= SEQUENCE {

csi-IM-ConfigToReleaseList-r11 CSI-IM-ConfigToReleaseList-r11 OPTIONAL, — Need ON

csi-IM-ConfigToAddModList-r11 CSI-IM-ConfigToAddModList-r11 OPTIONAL, — Need ON

csi-ProcessToReleaseList-r11 CSI-ProcessToReleaseList-r11 OPTIONAL, — Need ON

csi-ProcessToAddModList-r11 CSI-ProcessToAddModList-r11 OPTIONAL — Need ON

}

CQI-ReportBoth-v1250 ::= SEQUENCE {

csi-IM-ConfigToReleaseListExt-r12 CSI-IM-ConfigId-v1250 OPTIONAL, — Need ON

csi-IM-ConfigToAddModListExt-r12 CSI-IM-ConfigExt-r12 OPTIONAL — Need ON

}

CQI-ReportBoth-v1310 ::= SEQUENCE {

csi-IM-ConfigToReleaseListExt-r13 CSI-IM-ConfigToReleaseListExt-r13 OPTIONAL, — Need ON

csi-IM-ConfigToAddModListExt-r13 CSI-IM-ConfigToAddModListExt-r13 OPTIONAL — Need ON

}

CSI-IM-ConfigToAddModList-r11 ::= SEQUENCE (SIZE (1..maxCSI-IM-r11)) OF CSI-IM-Config-r11

CSI-IM-ConfigToAddModListExt-r13 ::= SEQUENCE (SIZE (1..maxCSI-IM-v1310)) OF CSI-IM-ConfigExt-r12

CSI-IM-ConfigToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxCSI-IM-r11)) OF CSI-IM-ConfigId-r11

CSI-IM-ConfigToReleaseListExt-r13 ::= SEQUENCE (SIZE (1..maxCSI-IM-v1310)) OF CSI-IM-ConfigId-v1310

CSI-ProcessToAddModList-r11 ::= SEQUENCE (SIZE (1..maxCSI-Proc-r11)) OF CSI-Process-r11

CSI-ProcessToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxCSI-Proc-r11)) OF CSI-ProcessId-r11

CQI-ReportBothProc-r11 ::= SEQUENCE {

ri-Ref-CSI-ProcessId-r11 CSI-ProcessId-r11 OPTIONAL, — Need OR

pmi-RI-Report-r11 ENUMERATED {setup} OPTIONAL — Need OR

}

— ASN1STOP

CQI-ReportBoth field descriptions

csi-IM-ConfigToAddModList

For a serving frequency E-UTRAN configures one or more CSI-IM-Config only when transmission mode 10 is configured for the serving cell on this carrier frequency.

csi-ProcessToAddModList

For a serving frequency E-UTRAN configures one or more CSI-Process only when transmission mode 10 is configured for the serving cell on this carrier frequency.

cqi-ReportModeAperiodic

Parameter: reporting mode. Value rm12 corresponds to Mode 1-2, rm20 corresponds to Mode 2-0, rm22 corresponds to Mode 2-2 etc. PUSCH reporting modes are described in TS 36.213 [23], clause 7.2.1. The UE shall ignore cqi-ReportModeAperiodic-r10 when transmission mode 10 is configured for the serving cell on this carrier frequency. The UE shall ignore cqi-ReportModeAperiodic-r10 configured for the PCell/ PSCell when the transmission bandwidth of the PCell/PSCell in downlink is 6 resource blocks.

pmi-RI-Report

See TS 36.213 [23], clause 7.2. The presence of this field means PMI/RI reporting is configured; otherwise the PMI/RI reporting is not configured. EUTRAN configures this field only when transmissionMode is set to tm8, tm9 or tm10. The UE shall ignore pmi-RI-Report-r9/ pmi-RI-Report-r10 when transmission mode 10 is configured for the serving cell on this carrier frequency.

ri-Ref-CSI-ProcessId

CSI process whose RI value the UE inherits when reporting RI, in the same subframe, for CSI reporting. E-UTRAN ensures that the CSI process that inherits the RI value is configured in accordance with the conditions specified in TS 36.213 [23], clauses 7.2.1 and 7.2.2.

CQI-ReportConfig

The IE CQI-ReportConfig is used to specify the CQI reporting configuration.

CQI-ReportConfig information elements

— ASN1START

CQI-ReportConfig ::= SEQUENCE {

cqi-ReportModeAperiodic CQI-ReportModeAperiodic OPTIONAL, — Need OR

nomPDSCH-RS-EPRE-Offset INTEGER (-1..6),

cqi-ReportPeriodic CQI-ReportPeriodic OPTIONAL — Need ON

}

CQI-ReportConfig-v920 ::= SEQUENCE {

cqi-Mask-r9 ENUMERATED {setup} OPTIONAL, — Cond cqi-Setup

pmi-RI-Report-r9 ENUMERATED {setup} OPTIONAL — Cond PMIRI

}

CQI-ReportConfig-r10 ::= SEQUENCE {

cqi-ReportAperiodic-r10 CQI-ReportAperiodic-r10 OPTIONAL, — Need ON

nomPDSCH-RS-EPRE-Offset INTEGER (-1..6),

cqi-ReportPeriodic-r10 CQI-ReportPeriodic-r10 OPTIONAL, — Need ON

pmi-RI-Report-r9 ENUMERATED {setup} OPTIONAL, — Cond PMIRIPCell

csi-SubframePatternConfig-r10 CHOICE {

release NULL,

setup SEQUENCE {

csi-MeasSubframeSet1-r10 MeasSubframePattern-r10,

csi-MeasSubframeSet2-r10 MeasSubframePattern-r10

}

} OPTIONAL — Need ON

}

CQI-ReportConfig-v1130 ::= SEQUENCE {

cqi-ReportPeriodic-v1130 CQI-ReportPeriodic-v1130,

cqi-ReportBoth-r11 CQI-ReportBoth-r11

}

CQI-ReportConfig-v1250 ::= SEQUENCE {

csi-SubframePatternConfig-r12 CHOICE {

release NULL,

setup SEQUENCE {

csi-MeasSubframeSets-r12 BIT STRING (SIZE (10))

}

} OPTIONAL, — Need ON

cqi-ReportBoth-v1250 CQI-ReportBoth-v1250 OPTIONAL, — Need ON

cqi-ReportAperiodic-v1250 CQI-ReportAperiodic-v1250 OPTIONAL, — Need ON

altCQI-Table-r12 ENUMERATED {

allSubframes, csi-SubframeSet1,

csi-SubframeSet2, spare1} OPTIONAL — Need OP

}

CQI-ReportConfig-v1310 ::= SEQUENCE {

cqi-ReportBoth-v1310 CQI-ReportBoth-v1310 OPTIONAL, — Need ON

cqi-ReportAperiodic-v1310 CQI-ReportAperiodic-v1310 OPTIONAL, — Need ON

cqi-ReportPeriodic-v1310 CQI-ReportPeriodic-v1310 OPTIONAL — Need ON

}

CQI-ReportConfig-v1320 ::= SEQUENCE {

cqi-ReportPeriodic-v1320 CQI-ReportPeriodic-v1320 OPTIONAL — Need ON

}

CQI-ReportConfig-v1430 ::= SEQUENCE {

cqi-ReportAperiodicHybrid-r14 CQI-ReportAperiodicHybrid-r14 OPTIONAL — Need ON

}

CQI-ReportConfig-v1530 ::= SEQUENCE {

altCQI-Table-1024QAM-r15 ENUMERATED {

allSubframes, csi-SubframeSet1,

csi-SubframeSet2, spare1} OPTIONAL — Need OP

}

CQI-ReportConfig-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

cqi-ReportConfig-r10 CQI-ReportConfig-r10 OPTIONAL, — Need ON

cqi-ReportConfig-v1130 CQI-ReportConfig-v1130 OPTIONAL, — Need ON

cqi-ReportConfigPCell-v1250 CQI-ReportConfig-v1250 OPTIONAL, — Need ON

cqi-ReportConfig-v1310 CQI-ReportConfig-v1310 OPTIONAL, — Need ON

cqi-ReportConfig-v1320 CQI-ReportConfig-v1320 OPTIONAL, — Need ON

cqi-ReportConfig-v1430 CQI-ReportConfig-v1430 OPTIONAL, — Need ON

altCQI-Table-1024QAM-r15 ENUMERATED {allSubframes, csi-SubframeSet1,

csi-SubframeSet2, spare1} OPTIONAL — Need OP

}

}

CQI-ReportConfigSCell-r10 ::= SEQUENCE {

cqi-ReportModeAperiodic-r10 CQI-ReportModeAperiodic OPTIONAL, — Need OR

nomPDSCH-RS-EPRE-Offset-r10 INTEGER (-1..6),

cqi-ReportPeriodicSCell-r10 CQI-ReportPeriodic-r10 OPTIONAL, — Need ON

pmi-RI-Report-r10 ENUMERATED {setup} OPTIONAL — Cond PMIRISCell

}

CQI-ReportConfigSCell-r15 ::= SEQUENCE {

cqi-ReportPeriodicSCell-r15 CQI-ReportPeriodicSCell-r15 OPTIONAL, — Need ON

altCQI-Table-1024QAM-r15 ENUMERATED {allSubframes, csi-SubframeSet1,

csi-SubframeSet2, spare1} OPTIONAL — Need OP

}

— ASN1STOP

CQI-ReportConfig field descriptions

altCQI-Table, altCQI-Table-1024QAM

Indicates the applicability of the alternative CQI table (i.e. Table 7.2.3-2 and Table 7.2.3-4 in TS 36.213 [23]) for both aperiodic and periodic CSI reporting for the concerned serving cell. Value allSubframes means the alternative CQI table applies to all the subframes and CSI processes, if configured, and value csi-SubframeSet1 means the alternative CQI table applies to CSI subframe set1, and value csi-SubframeSet2 means the alternative CQI table applies to CSI subframe set2. EUTRAN sets the value to csi-SubframeSet1 or csi-SubframeSet2 only if transmissionMode is set in range tm1 to tm9 and csi-SubframePatternConfig-r10 is configured for the concerned serving cell and different CQI tables apply to the two CSI subframe sets; otherwise EUTRAN sets the value to allSubframes. EUTRAN does not configure altCQI-Table-r12 in CQI-ReportConfig-v1250 and altCQI-Table-1024QAM-r15 in CQI-ReportConfig-v1530 or in CQI-ReportConfigSCell-r15 in the same serving cell simultaneously. If altCQI-Table-r12 and altCQI-Table-1024QAM-r15 are absent, the UE shall use Table 7.2.3-1 in TS 36.213 [23] for all subframes and CSI processes, if configured.

cqi-Mask

Limits CQI/PMI/PTI/RI reports to the on-duration period of the DRX cycle, see TS 36.321 [6]. One value applies for all CSI processes and all serving cells (the associated functionality is common i.e. not performed independently for each cell).

cqi-ReportAperiodic

E-UTRAN does not configure CQI-ReportAperiodic when transmission mode 10 is configured for all serving cells. E-UTRAN configures cqi-ReportAperiodic-v1250 only if cqi-ReportAperiodic-r10 and csi-MeasSubframeSets-r12 are configured. E-UTRAN configures cqi-ReportAperiodic-v1310 only if cqi-ReportAperiodic-r10 is configured.

cqi-ReportModeAperiodic

Parameter: reporting mode. Value rm12 corresponds to Mode 1-2, rm20 corresponds to Mode 2-0, rm22 corresponds to Mode 2-2 etc. PUSCH reporting modes are described in TS 36.213 [23], clause 7.2.1. The UE shall ignore cqi-ReportModeAperiodic-r10 when transmission mode 10 is configured for the serving cell on this carrier frequency. The UE shall ignore cqi-ReportModeAperiodic-r10 configured for the PCell/ PSCell when the transmission bandwidth of the PCell/PSCell in downlink is 6 resource blocks.

cqi-ReportPeriodic

E-UTRAN does not configure CQI-ReportPeriodic for sTTI within CQI-ReportConfig.

csi-MeasSubframeSets

Indicates the two CSI subframe sets. Value 0 means the subframe belongs to CSI subframe set 1 and value 1 means the subframe belongs to CSI subframe set 2. CSI subframe set 1 refers to CCSI,0 in TS 36.213 [23], clause 7.2, and CSI subframe set 2 refers to CCSI,1 in TS 36.213 [23], clause 7.2. EUTRAN does not configure csi-MeasSubframeSet1-r10 and csi-MeasSubframeSet2-r10 if either csi-MeasSubframeSets-r12 for PCell or eimta-MainConfigPCell-r12 is configured.

csi-MeasSubframeSet1, csi-MeasSubframeSet2

Indicates the CSI measurement subframe sets. csi-MeasSubframeSet1 refers to CCSI,0 in TS 36.213 [23], clause 7.2 and csi-MeasSubframeSet2 refers to CCSI,1 in TS 36.213 [23], clause 7.2. E-UTRAN only configures the two CSI measurement subframe sets for the PCell.

nomPDSCH-RS-EPRE-Offset

Parameter: see TS 36.213 [23], clause 7.2.3. Actual value = field value * 2 [dB].

pmi-RI-Report

See TS 36.213 [23], clause 7.2. The presence of this field means PMI/RI reporting is configured; otherwise the PMI/RI reporting is not configured. EUTRAN configures this field only when transmissionMode is set to tm8, tm9 or tm10. The UE shall ignore pmi-RI-Report-r9/ pmi-RI-Report-r10 when transmission mode 10 is configured for the serving cell on this carrier frequency.

Conditional presence

Explanation

cqi-Setup

This field is not present for an Scell except for the PSCell, while it is conditionally present for the PCell and the PSCell according to the following. The field is optional present, need OR, if the cqi-ReportPeriodic in the cqi-ReportConfig is set to setup. If the field cqi-ReportPeriodic is present and set to release, the field is not present and the UE shall delete any existing value for this field. Otherwise the field is not present.

PMIRI

The field is optional present, need OR, if cqi-ReportPeriodic is included and set to setup, or cqi-ReportModeAperiodic is included. If the field cqi-ReportPeriodic is present and set to release and cqi-ReportModeAperiodic is absent, the field is not present and the UE shall delete any existing value for this field. Otherwise the field is not present.

PMIRIPCell

The field is optional present, need OR, if cqi-ReportPeriodic is included in the CQI-ReportConfig-r10 and set to setup, or cqi-ReportAperiodic is included in the CQI-ReportConfig-r10 and set to setup. If the field cqi-ReportPeriodic is present in the CQI-ReportConfig-r10 and set to release and cqi-ReportAperiodic is included in the CQI-ReportConfig-r10 and set to release, the field is not present and the UE shall delete any existing value for this field. Otherwise the field is not present.

PMIRISCell

The field is optional present, need OR, if cqi-ReportPeriodicSCell is included and set to setup, or cqi-ReportModeAperiodic-r10 is included in the CQI-ReportConfigSCell. If the field cqi-ReportPeriodicSCell is present and set to release and cqi-ReportModeAperiodic-r10 is absent in the CQI-ReportConfigSCell, the field is not present and the UE shall delete any existing value for this field. Otherwise the field is not present.

CQI-ReportPeriodic

The IE CQI-ReportPeriodic is used to specify the periodic CQI reporting configuration elements.

CQI-ReportPeriodic information elements

— ASN1START

CQI-ReportPeriodic ::= CHOICE {

release NULL,

setup SEQUENCE {

cqi-PUCCH-ResourceIndex INTEGER (0..1185),

cqi-pmi-ConfigIndex INTEGER (0..1023),

cqi-FormatIndicatorPeriodic CHOICE {

widebandCQI NULL,

subbandCQI SEQUENCE {

k INTEGER (1..4)

}

},

ri-ConfigIndex INTEGER (0..1023) OPTIONAL, — Need OR

simultaneousAckNackAndCQI BOOLEAN

}

}

CQI-ReportPeriodic-r10 ::= CHOICE {

release NULL,

setup SEQUENCE {

cqi-PUCCH-ResourceIndex-r10 INTEGER (0..1184),

cqi-PUCCH-ResourceIndexP1-r10 INTEGER (0..1184) OPTIONAL, — Need OR

cqi-pmi-ConfigIndex INTEGER (0..1023),

cqi-FormatIndicatorPeriodic-r10 CHOICE {

widebandCQI-r10 SEQUENCE {

csi-ReportMode-r10 ENUMERATED {submode1, submode2} OPTIONAL — Need OR

},

subbandCQI-r10 SEQUENCE {

k INTEGER (1..4),

periodicityFactor-r10 ENUMERATED {n2, n4}

}

},

ri-ConfigIndex INTEGER (0..1023) OPTIONAL, — Need OR

simultaneousAckNackAndCQI BOOLEAN,

cqi-Mask-r9 ENUMERATED {setup} OPTIONAL, — Need OR

csi-ConfigIndex-r10 CHOICE {

release NULL,

setup SEQUENCE {

cqi-pmi-ConfigIndex2-r10 INTEGER (0..1023),

ri-ConfigIndex2-r10 INTEGER (0..1023) OPTIONAL — Need OR

}

} OPTIONAL — Need ON

}

}

CQI-ReportPeriodic-v1130 ::= SEQUENCE {

simultaneousAckNackAndCQI-Format3-r11 ENUMERATED {setup} OPTIONAL, — Need OR

cqi-ReportPeriodicProcExtToReleaseList-r11 CQI-ReportPeriodicProcExtToReleaseList-r11 OPTIONAL, — Need ON

cqi-ReportPeriodicProcExtToAddModList-r11 CQI-ReportPeriodicProcExtToAddModList-r11 OPTIONAL — Need ON

}

CQI-ReportPeriodic-v1310 ::= SEQUENCE {

cri-ReportConfig-r13 CRI-ReportConfig-r13 OPTIONAL, — Need OR

simultaneousAckNackAndCQI-Format4-Format5-r13 ENUMERATED {setup} OPTIONAL– Need OR

}

CQI-ReportPeriodic-v1320 ::= SEQUENCE {

periodicityFactorWB-r13 ENUMERATED {n2, n4} OPTIONAL — Need OR

}

CQI-ReportPeriodicSCell-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

cqi-pmi-ConfigIndexDormant-r15 INTEGER (0..1023),

ri-ConfigIndexDormant-r15 INTEGER (0..1023) OPTIONAL, — Need OR

csi-SubframePatternDormant-r15 CHOICE {

release NULL,

setup SEQUENCE {

csi-MeasSubframeSet1-r15 MeasSubframePattern-r10,

csi-MeasSubframeSet2-r15 MeasSubframePattern-r10

}

} OPTIONAL, — Need ON

cqi-FormatIndicatorDormant-r15 CHOICE {

widebandCQI-r15 SEQUENCE {

csi-ReportMode-r15 ENUMERATED {submode1, submode2} OPTIONAL — Need OR

},

subbandCQI-r15 SEQUENCE {

k-r15 INTEGER (1..4),

periodicityFactor-r15 ENUMERATED {n2, n4}

}

} OPTIONAL — Need OR

}

}

CQI-ReportPeriodicProcExtToAddModList-r11 ::= SEQUENCE (SIZE (1..maxCQI-ProcExt-r11)) OF CQI-ReportPeriodicProcExt-r11

CQI-ReportPeriodicProcExtToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxCQI-ProcExt-r11)) OF CQI-ReportPeriodicProcExtId-r11

CQI-ReportPeriodicProcExt-r11 ::= SEQUENCE {

cqi-ReportPeriodicProcExtId-r11 CQI-ReportPeriodicProcExtId-r11,

cqi-pmi-ConfigIndex-r11 INTEGER (0..1023),

cqi-FormatIndicatorPeriodic-r11 CHOICE {

widebandCQI-r11 SEQUENCE {

csi-ReportMode-r11 ENUMERATED {submode1, submode2} OPTIONAL — Need OR

},

subbandCQI-r11 SEQUENCE {

k INTEGER (1..4),

periodicityFactor-r11 ENUMERATED {n2, n4}

}

},

ri-ConfigIndex-r11 INTEGER (0..1023) OPTIONAL, — Need OR

csi-ConfigIndex-r11 CHOICE {

release NULL,

setup SEQUENCE {

cqi-pmi-ConfigIndex2-r11 INTEGER (0..1023),

ri-ConfigIndex2-r11 INTEGER (0..1023) OPTIONAL — Need OR

}

} OPTIONAL, — Need ON

…,

[[ cri-ReportConfig-r13 CRI-ReportConfig-r13 OPTIONAL — Need ON

]],

[[ periodicityFactorWB-r13 ENUMERATED {n2, n4} OPTIONAL — Need ON

]]

}

CQI-ShortConfigSCell-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

cqi-pmi-ConfigIndexShort-r15 INTEGER (0..1023),

ri-ConfigIndexShort-r15 INTEGER (0..1023) OPTIONAL, — Need OR

cqi-FormatIndicatorShort-r15 CHOICE {

widebandCQI-Short-r15 SEQUENCE {

csi-ReportModeShort-r15 ENUMERATED {submode1, submode2} OPTIONAL — Need OR

},

subbandCQI-Short-r15 SEQUENCE {

k-r15 INTEGER (1..4),

periodicityFactor-r15 ENUMERATED {n2, n4}

}

} OPTIONAL — Need OR

}

}

CRI-ReportConfig-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

cri-ConfigIndex-r13 CRI-ConfigIndex-r13,

cri-ConfigIndex2-r13 CRI-ConfigIndex-r13 OPTIONAL — Need OR

}

}

CRI-ConfigIndex-r13 ::= INTEGER (0..1023)

— ASN1STOP

CQI-ReportPeriodic field descriptions

cqi-FormatIndicatorPeriodic

Parameter: PUCCH CQI Feedback Type, see TS 36.213 [23], table 7.2.2-1. Depending on transmissionMode, reporting mode is implicitly given from the table.

cqi-Mask

Limits CQI/PMI/PTI/RI reports to the on-duration period of the DRX cycle, see TS 36.321 [6]. One value applies for all CSI processes and all serving cells (the associated functionality is common i.e. not performed independently for each cell).

cqi-pmi-ConfigIndex

Parameter: CQI/PMI Periodicity and Offset Configuration Index ICQI/PMI, see TS 36.213 [23], tables 7.2.2-1A and 7.2.2-1C. If subframe patterns for CSI (CQI/PMI/PTI/RI) reporting are configured (i.e. csi-SubframePatternConfig is configured), the parameter applies to the subframe pattern corresponding to csi-MeasSubframeSet1 or corresponding to the CSI subframe set 1 indicated by csi-MeasSubframeSets-r12.

cqi-pmi-ConfigIndex2

Parameter: CQI/PMI Periodicity and Offset Configuration Index ICQI/PMI, see TS 36.213 [23], tables 7.2.2-1A and 7.2.2-1C. The parameter applies to the subframe pattern corresponding to csi-MeasSubframeSet2 or corresponding to the CSI subframe set 2 indicated by csi-MeasSubframeSets-r12.

cqi-PUCCH-ResourceIndex, cqi-PUCCH-ResourceIndexP1

Parameter for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 7.2. E-UTRAN does not apply value 1185. One value applies for all CSI processes.

cqi-ReportAperiodic

E-UTRAN does not configure CQI-ReportAperiodic when transmission mode 10 is configured for all serving cells. E-UTRAN configures cqi-ReportAperiodic-v1250 only if cqi-ReportAperiodic-r10 and csi-MeasSubframeSets-r12 are configured. E-UTRAN configures cqi-ReportAperiodic-v1310 only if cqi-ReportAperiodic-r10 is configured.

cqi-ReportModeAperiodic

Parameter: reporting mode. Value rm12 corresponds to Mode 1-2, rm20 corresponds to Mode 2-0, rm22 corresponds to Mode 2-2 etc. PUSCH reporting modes are described in TS 36.213 [23], clause 7.2.1. The UE shall ignore cqi-ReportModeAperiodic-r10 when transmission mode 10 is configured for the serving cell on this carrier frequency. The UE shall ignore cqi-ReportModeAperiodic-r10 configured for the PCell/ PSCell when the transmission bandwidth of the PCell/PSCell in downlink is 6 resource blocks.

CQI-ReportPeriodicProcExt

A set of periodic CQI related parameters for which E-UTRAN may configure different values for each CSI process. For a serving frequency E-UTRAN configures one or more CQI-ReportPeriodicProcExt only when transmission mode 10 is configured for the serving cell on this carrier frequency.

cri-ConfigIndex

Parameter: cri-ConfigIndex ICRIsee TS 36.213 [23]. The parameter applies to the subframe pattern corresponding to csi-MeasSubframeSet1. EUTRAN configures the field if subframe patterns for CSI (CQI/PMI/PTI/RI/CRI) reporting are configured (i.e. csi-SubframePatternConfig is configured).

cri-ConfigIndex2

Parameter: cri-ConfigIndex ICRIsee TS 36.213 [23]. The parameter applies to the subframe pattern corresponding to csi-MeasSubframeSet2 or corresponding to the CSI subframe set 2 indicated by csi-MeasSubframeSets. E-UTRAN configures cri-ConfigIndex2 only if cri-ConfigIndex is configured.

cri-ReportConfig

E-UTRAN configures the field only if the UE is configured with eMIMO-Type set to "beamformed" and if multiple references to RS configuration using non-zero power transmission are configured (i.e. if csi-RS-ConfigNZPIdListExt is configured).

csi-ConfigIndex

E-UTRAN configures csi-ConfigIndex only for PCell and only if csi-SubframePatternConfig is configured. The UE shall release csi-ConfigIndex if csi-SubframePatternConfig is released.

csi-ProcessToAddModList

For a serving frequency E-UTRAN configures one or more CSI-Process only when transmission mode 10 is configured for the serving cell on this carrier frequency.

csi-ReportMode

Parameter: PUCCH_format1-1_CSI_reporting_mode, see TS 36.213 [23], clause 7.2.2.

K

Parameter: K, see TS 36.213 [23], clause 7.2.2.

nomPDSCH-RS-EPRE-Offset

Parameter: see TS 36.213 [23], clause 7.2.3. Actual value = field value * 2 [dB].

periodicityFactor, periodicityFactorWB

Parameter: , see TS 36.213 [23], clause 7.2.2. EUTRAN configures field periodicityFactorWB only when the UE is configured with eMIMO-Type set to nonPrecoded and with cqi-FormatIndicatorPeriodic set to widebandCQI.

ri-ConfigIndex

Parameter: RI Config Index IRI, see TS 36.213 [23], clause 7.2.2-1B. If subframe patterns for CSI (CQI/PMI/PTI/RI/CRI) reporting are configured (i.e. csi-SubframePatternConfig is configured), the parameter applies to the subframe pattern corresponding to csi-MeasSubframeSet1.

ri-ConfigIndex2

Parameter: RI Config Index IRI, see TS 36.213 [23], clause 7.2.2-1B. The parameter applies to the subframe pattern corresponding to csi-MeasSubframeSet2 or corresponding to the CSI subframe set 2 indicated by csi-MeasSubframeSets-r12. E-UTRAN configures ri-ConfigIndex2 only if ri-ConfigIndex is configured.

simultaneousAckNackAndCQI

Parameter: Simultaneous-AN-and-CQI, see TS 36.213 [23], clause 10.1. TRUE indicates that simultaneous transmission of ACK/NACK and CQI is allowed. One value applies for all CSI processes. For SCells except for the PSCell and PUCCH SCell this field is not applicable and the UE shall ignore the value.

simultaneousAckNackAndCQI-Format3

Indicates that the UE shall perform simultaneous transmission of HARQ A/N and periodic CQI report multiplexing on PUCCH format 3, see TS 36.213 [23], clauses 7.2 and 10.1.1. E-UTRAN configures this information only when pucch-Format is set to format3. One value applies for all CSI processes. For SCells except for the PSCell and PUCCH SCell this field is not applicable and the UE shall ignore the value.

simultaneousAckNackAndCQI-Format4-Format5

Indicates that the UE shall perform simultaneous transmission of HARQ A/N and periodic CSI report multiplexing on PUCCH format 4 and format 5, see TS 36.213 [23], clause 10.1.1. E-UTRAN configures this information only when pucch-Format is set to format4 or format5. One value applies for all CSI processes. For SCells except for the PSCell and PUCCH SCell this field is not applicable and the UE shall ignore the value.

CQI-ReportPeriodicProcExtId

The IE CQI-ReportPeriodicProcExtId is used to identify a periodic CQI reporting configuration that E-UTRAN may configure in addition to the configuration specified by the IE CQI-ReportPeriodic-r10. These additional configurations are specified by the IE CQI-ReportPeriodicProcExt-r11. The identity is unique within the scope of a carrier frequency.

CQI-ReportPeriodicProcExtId information elements

— ASN1START

CQI-ReportPeriodicProcExtId-r11 ::= INTEGER (1..maxCQI-ProcExt-r11)

— ASN1STOP

CrossCarrierSchedulingConfig

The IE CrossCarrierSchedulingConfig is used to specify the configuration when the cross carrier scheduling is used in a cell.

CrossCarrierSchedulingConfig information elements

— ASN1START

CrossCarrierSchedulingConfig-r10 ::= SEQUENCE {

schedulingCellInfo-r10 CHOICE {

own-r10 SEQUENCE { — No cross carrier scheduling

cif-Presence-r10 BOOLEAN

},

other-r10 SEQUENCE { — Cross carrier scheduling

schedulingCellId-r10 ServCellIndex-r10,

pdsch-Start-r10 INTEGER (1..4)

}

}

}

CrossCarrierSchedulingConfig-r13 ::= SEQUENCE {

schedulingCellInfo-r13 CHOICE {

own-r13 SEQUENCE { — No cross carrier scheduling

cif-Presence-r13 BOOLEAN

},

other-r13 SEQUENCE { — Cross carrier scheduling

schedulingCellId-r13 ServCellIndex-r13,

pdsch-Start-r13 INTEGER (1..4),

cif-InSchedulingCell-r13 INTEGER (1..7)

}

}

}

CrossCarrierSchedulingConfigLAA-UL-r14 ::= SEQUENCE {

schedulingCellId-r14 ServCellIndex-r13,

cif-InSchedulingCell-r14 INTEGER (1..7)

}

— ASN1STOP

CrossCarrierSchedulingConfig field descriptions

cif-Presence

The field is used to indicate whether carrier indicator field is present (value TRUE) or not (value FALSE) in PDCCH/ EPDCCH DCI formats, see TS 36.212 [22], clause 5.3.3.1.

cif-InSchedulingCell

The field indicates the CIF value used in the scheduling cell to indicate this cell, see TS 36.212 [22], clause 5.3.3.1. In case of carrier indicator field is present, the CIF value is 0.

pdsch-Start

The starting OFDM symbol of PDSCH for the concerned SCell, see TS 36.213 [23]. clause 7.1.6.4. Values 1, 2, 3 are applicable when dl-Bandwidth for the concerned SCell is greater than 10 resource blocks, values 2, 3, 4 are applicable when dl-Bandwidth for the concerned SCell is less than or equal to 10 resource blocks, see TS 36.211 [21], Tables 6 and 7-1.

schedulingCellId

Indicates which cell signals the downlink allocations and uplink grants, if applicable, for the concerned SCell. In case the UE is configured with DC, the scheduling cell is part of the same cell group (i.e. MCG or SCG) as the scheduled cell. In case the UE is configured with crossCarrierSchedulingConfigLAA-UL, schedulingCellId indicated in crossCarrierSchedulingConfigLAA-UL only indicates which cell signals the uplink grants.

CSI-IM-Config

The IE CSI-IM-Config is the CSI Interference Measurement (IM) configuration that E-UTRAN may configure on a serving frequency, see TS 36.213 [23], clause 7.2.6.

CSI-IM-Config information elements

— ASN1START

CSI-IM-Config-r11 ::= SEQUENCE {

csi-IM-ConfigId-r11 CSI-IM-ConfigId-r11,

resourceConfig-r11 INTEGER (0..31),

subframeConfig-r11 INTEGER (0..154),

…,

[[ interferenceMeasRestriction-r13 BOOLEAN OPTIONAL — Need ON

]]

}

CSI-IM-ConfigExt-r12 ::= SEQUENCE {

csi-IM-ConfigId-v1250 CSI-IM-ConfigId-v1250,

resourceConfig-r12 INTEGER (0..31),

subframeConfig-r12 INTEGER (0..154),

…,

[[ interferenceMeasRestriction-r13 BOOLEAN OPTIONAL, — Need ON

csi-IM-ConfigId-v1310 CSI-IM-ConfigId-v1310 OPTIONAL — Need ON

]]

}

— ASN1STOP

CSI-IM-Config field descriptions

resourceConfig

Parameter: CSI reference signal configuration, see TS 36.213 [23], clause 7.2.6 and TS 36.211 [21], tables 6.10.5.2-1 and 6.10.5.2-2 for 4 REs.

subframeConfig

Parameter: , see TS 36.213 [23], clause 7.2.6 and TS 36.211 [21], table 6.10.5.3-1.

CSI-IM-ConfigId

The IE CSI-IM-ConfigId is used to identify a CSI-IM configuration that is configured by the IE CSI-IM-Config. The identity is unique within the scope of a carrier frequency.

CSI-IM-ConfigId information elements

— ASN1START

CSI-IM-ConfigId-r11 ::= INTEGER (1..maxCSI-IM-r11)

CSI-IM-ConfigId-r12 ::= INTEGER (1..maxCSI-IM-r12)

CSI-IM-ConfigId-v1250 ::= INTEGER (maxCSI-IM-r12)

CSI-IM-ConfigId-v1310 ::= INTEGER (minCSI-IM-r13..maxCSI-IM-r13)

CSI-IM-ConfigId-r13 ::= INTEGER (1..maxCSI-IM-r13)

— ASN1STOP

CSI-Process

The IE CSI-Process is the CSI process configuration that E-UTRAN may configure on a serving frequency.

CSI-Process information elements

— ASN1START

CSI-Process-r11 ::= SEQUENCE {

csi-ProcessId-r11 CSI-ProcessId-r11,

csi-RS-ConfigNZPId-r11 CSI-RS-ConfigNZPId-r11,

csi-IM-ConfigId-r11 CSI-IM-ConfigId-r11,

p-C-AndCBSRList-r11 P-C-AndCBSR-Pair-r13a,

cqi-ReportBothProc-r11 CQI-ReportBothProc-r11 OPTIONAL, — Need OR

cqi-ReportPeriodicProcId-r11 INTEGER (0..maxCQI-ProcExt-r11) OPTIONAL, — Need OR

cqi-ReportAperiodicProc-r11 CQI-ReportAperiodicProc-r11 OPTIONAL, — Need OR

…,

[[ alternativeCodebookEnabledFor4TXProc-r12 ENUMERATED {true} OPTIONAL, — Need ON

csi-IM-ConfigIdList-r12 CHOICE {

release NULL,

setup SEQUENCE (SIZE (1..2)) OF CSI-IM-ConfigId-r12

} OPTIONAL, — Need ON

cqi-ReportAperiodicProc2-r12 CHOICE {

release NULL,

setup CQI-ReportAperiodicProc-r11

} OPTIONAL — Need ON

]],

[[ cqi-ReportAperiodicProc-v1310 CHOICE {

release NULL,

setup CQI-ReportAperiodicProc-v1310

} OPTIONAL, — Need ON

cqi-ReportAperiodicProc2-v1310 CHOICE {

release NULL,

setup CQI-ReportAperiodicProc-v1310

} OPTIONAL, — Need ON

eMIMO-Type-r13 CSI-RS-ConfigEMIMO-r13 OPTIONAL — Need ON

]],

[[ dummy CSI-RS-ConfigEMIMO-v1430 OPTIONAL, — Need ON

eMIMO-Hybrid-r14 CSI-RS-ConfigEMIMO-Hybrid-r14 OPTIONAL, — Need ON

advancedCodebookEnabled-r14 BOOLEAN OPTIONAL — Need ON

]],

[[ eMIMO-Type-v1480 CSI-RS-ConfigEMIMO-v1480 OPTIONAL — Need ON

]],

[[ feCOMP-CSI-Enabled-v1530 BOOLEAN OPTIONAL, — Need ON

eMIMO-Type-v1530 CSI-RS-ConfigEMIMO-v1530 OPTIONAL — Need ON

]]

}

— ASN1STOP

CSI-Process field descriptions

advancedCodebookEnabled

Value TRUE indicates that the UE should use the advanced code book defined in TS 36.213 [23]. EUTRAN does not configure the field when the UE is configured with eMIMO-Type is set to beamformed, when the UE is configured with eMIMO-Hybrid or when the UE is configured with semiOpenLoop.

alternativeCodebookEnabledFor4TXProc

Indicates whether code book in TS 36.213 [23] Table 7.2.4-0A to Table 7.2.4-0D is being used for deriving CSI feedback and reporting for a CSI process. EUTRAN may configure the field only if the number of CSI-RS ports for non-zero power transmission CSI-RS configuration is 4.

cqi-ReportAperiodicProc

If csi-MeasSubframeSets-r12 is configured for the same frequency as the CSI process, cqi-ReportAperiodicProc

applies for CSI subframe set 1. If csi-MeasSubframeSet1-r10 or csi-MeasSubframeSet2-r10 are configured for the same frequency as the CSI process, cqi-ReportAperiodicProc applies for CSI subframe set 1 or CSI subframe set 2. Otherwise, cqi-ReportAperiodicProc applies for all subframes. E-UTRAN configures cqi-ReportAperiodicProc-v1310 only if cqi-ReportAperiodicProc-r11 is configured

cqi-ReportAperiodicProc2

cqi-ReportAperiodicProc2 is configured only if csi-MeasSubframeSets-r12 is configured for the same frequency as the CSI process. cqi-ReportAperiodicProc2 is for CSI subframe set 2. E-UTRAN shall set cqi-ReportModeAperiodic-r11 in cqi-ReportAperiodicProc2 the same as in cqi-ReportAperiodicProc. E-UTRAN configures cqi-ReportAperiodicProc2-v1310 only if cqi-ReportAperiodicProc2-r12 is configured.

cqi-ReportBothProc

Includes CQI configuration parameters applicable for both aperiodic and periodic CSI reporting, for which CSI process specific values may be configured. E-UTRAN configures the field if and only if cqi-ReportPeriodicProcId is included and/ or if cqi-ReportAperiodicProc is included.

cqi-ReportPeriodicProcId

Refers to a periodic CQI reporting configuration that is configured for the same frequency as the CSI process. Value 0 refers to the set of parameters defined by the REL-10 CQI reporting configuration fields, while the other values refer to the additional configurations E-UTRAN assigns by CQI-ReportPeriodicProcExt-r11 (and as covered by CQI-ReportPeriodicProcExtId).

csi-IM-ConfigId

Refers to a CSI-IM configuration that is configured for the same frequency as the CSI process. If csi-IM-ConfigId-v1250 or csi-IM-ConfigId-v1310 is configured, the UE only considers this extension (i.e., UE ignores csi-IM-ConfigId-r11 and csi-IM-ConfigId-r12).

csi-IM-ConfigIdList

Refers to one or two CSI-IM configurations that are configured for the same frequency as the CSI process. csi-IM-ConfigIdList can include 2 entries only if csi-MeasSubframeSets-r12 is configured for the same frequency as the CSI process.

csi-RS-ConfigNZPId

Refers to a CSI RS configuration using non-zero power transmission that is configured for the same frequency as the CSI process.

dummy

This field is not used in the specification. If received it shall be ignored by the UE.

eMIMO-Type

Parameter: eMIMO-Type, see TS 36.213 [23], TS 36.211 [21]. If eMIMO-Type is set to nonPrecoded, the codebooks used for deriving CSI feedback are in TS 36.213 [23], Table 7.2.4-10 to Table 7.2.4-17. Choice values nonPrecoded and beamformed correspond to ‘CLASS A‘ and ‘CLASS B‘ respectively, see TS 36.212 [22] and TS 36.213 [23].

feCOMP-CSI-Enabled

Parameter: FeCoMPCSIEnabled, see TS 36.213 [23], clause 7.1.10. Refers to CSI feedback based on FeCoMP. E-UTRAN only configures the field when the UE is configured with eMIMO-Type-r13 set to beamformed with two NZP CSI-RS resources using the IE CSI-RS-ConfigBeamformed-r13 which contains the two NZP CSI-RS reources configued with csi-RS-ConfigNZPIdListExt-r13.

p-C-AndCBSRList

The UE shall ignore p-C-AndCBSRList-r11 if configured with eMIMO-Type unless it is set to beamformed, alternativeCodebookEnabledBeamformed (in CSI-RS-ConfigBeamformed) is set to FALSE and csi-RS-ConfigNZPIdListExt is not configured,

CSI-ProcessId

The IE CSI-ProcessId is used to identify a CSI process that is configured by the IE CSI-Process. The identity is unique within the scope of a carrier frequency.

CSI-ProcessId information elements

— ASN1START

CSI-ProcessId-r11 ::= INTEGER (1..maxCSI-Proc-r11)

— ASN1STOP

CSI-RS-Config

The IE CSI-RS-Config is used to specify the CSI (Channel-State Information) reference signal configuration.

CSI-RS-Config information elements

— ASN1START

CSI-RS-Config-r10 ::= SEQUENCE {

csi-RS-r10 CHOICE {

release NULL,

setup SEQUENCE {

antennaPortsCount-r10 ENUMERATED {an1, an2, an4, an8},

resourceConfig-r10 INTEGER (0..31),

subframeConfig-r10 INTEGER (0..154),

p-C-r10 INTEGER (-8..15)

}

} OPTIONAL, — Need ON

zeroTxPowerCSI-RS-r10 ZeroTxPowerCSI-RS-Conf-r12 OPTIONAL — Need ON

}

CSI-RS-Config-v1250 ::= SEQUENCE {

zeroTxPowerCSI-RS2-r12 ZeroTxPowerCSI-RS-Conf-r12 OPTIONAL, — Need ON

ds-ZeroTxPowerCSI-RS-r12 CHOICE {

release NULL,

setup SEQUENCE {

zeroTxPowerCSI-RS-List-r12 SEQUENCE (SIZE (1..maxDS-ZTP-CSI-RS-r12)) OF ZeroTxPowerCSI-RS-r12

}

} OPTIONAL — Need ON

}

CSI-RS-Config-v1310 ::= SEQUENCE {

eMIMO-Type-r13 CSI-RS-ConfigEMIMO-r13 OPTIONAL — Need ON

}

CSI-RS-Config-v1430 ::= SEQUENCE {

dummy CSI-RS-ConfigEMIMO-v1430 OPTIONAL, — Need ON

eMIMO-Hybrid-r14 CSI-RS-ConfigEMIMO-Hybrid-r14 OPTIONAL, — Need ON

advancedCodebookEnabled-r14 BOOLEAN OPTIONAL — Need ON

}

CSI-RS-Config-v1480 ::= SEQUENCE {

eMIMO-Type-v1480 CSI-RS-ConfigEMIMO-v1480 OPTIONAL — Need ON

}

CSI-RS-Config-v1530 ::= SEQUENCE {

eMIMO-Type-v1530 CSI-RS-ConfigEMIMO-v1530 OPTIONAL — Need ON

}

CSI-RS-Config-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

csi-RS-Config-r10 CSI-RS-Config-r10 OPTIONAL, — Need ON

csi-RS-Config-v1250 CSI-RS-Config-v1250 OPTIONAL, — Need ON

csi-RS-Config-v1310 CSI-RS-Config-v1310 OPTIONAL, — Need ON

csi-RS-Config-v1430 CSI-RS-Config-v1430 OPTIONAL — Need ON

}

}

ZeroTxPowerCSI-RS-Conf-r12 ::= CHOICE {

release NULL,

setup ZeroTxPowerCSI-RS-r12

}

ZeroTxPowerCSI-RS-r12 ::= SEQUENCE {

zeroTxPowerResourceConfigList-r12 BIT STRING (SIZE (16)),

zeroTxPowerSubframeConfig-r12 INTEGER (0..154)

}

— ASN1STOP

CSI-RS-Config field descriptions

advancedCodebookEnabled

Value TRUE indicates that the UE should use the advanced code book defined in TS 36.213 [23]. EUTRAN does not configure the field when the UE is configured with eMIMO-Type is set to beamformed, when the UE is configured with eMIMO-Hybrid or when the UE is configured with semiOpenLoop.

antennaPortsCount

Parameter represents the number of antenna ports used for transmission of CSI reference signals where value an1 corresponds to 1 antenna port, an2 to 2 antenna ports and so on, see TS 36.211 [21], clause 6.10.5.

ds-ZeroTxPowerCSI-RS

Parameter for additional zeroTxPowerCSI-RS for a serving cell, concerning the CSI-RS included in discovery signals.

dummy

This field is not used in the specification. If received it shall be ignored by the UE.

eMIMO-Type

Parameter: eMIMO-Type, see TS 36.213 [23], TS 36.211 [21]. If eMIMO-Type is set to nonPrecoded, the codebooks used for deriving CSI feedback are in TS 36.213 [23], Table 7.2.4-10 to Table 7.2.4-17. Choice values nonPrecoded and beamformed correspond to ‘CLASS A‘ and ‘CLASS B‘ respectively, see TS 36.212 [22] and TS 36.213 [23].

p-C

Parameter: , see TS 36.213 [23], clause 7.2.5. The UE shall ignore p-C-r10 if configured with eMIMO-Type unless it is set to beamformed, alternativeCodebookEnabledBeamformed (in CSI-RS-ConfigBeamformed) is set to FALSE and csi-RS-ConfigNZPIdListExt is not configured.

resourceConfig

Parameter: CSI reference signal configuration, see TS 36.211 [21], tables 6.10.5.2-1 and 6.10.5.2-2.

subframeConfig

Parameter: , see TS 36.211 [21], table 6.10.5.3-1.

zeroTxPowerCSI-RS2

Parameter for additional zeroTxPowerCSI-RS for a serving cell. E-UTRAN configures the field only if csi-MeasSubframeSets-r12 and TM 1 – 9 are configured for the serving cell.

zeroTxPowerResourceConfigList

Parameter: ZeroPowerCSI-RS, see TS 36.213 [23], clause 7.2.7.

zeroTxPowerSubframeConfig

Parameter: , see TS 36.211 [21], table 6.10.5.3-1.

CSI-RS-ConfigBeamformed

The IE CSI-RS-ConfigBeamformed is used to specify the beamforming configuration of EBF/ FD-MIMO.

CSI-RS-ConfigBeamformed information elements

— ASN1START

CSI-RS-ConfigBeamformed-r13 ::= SEQUENCE {

csi-RS-ConfigNZPIdListExt-r13 SEQUENCE (SIZE (1..7)) OF CSI-RS-ConfigNZPId-r13 OPTIONAL, — Need OR

csi-IM-ConfigIdList-r13 SEQUENCE (SIZE (1..8)) OF CSI-IM-ConfigId-r13 OPTIONAL, — Need OR

p-C-AndCBSR-PerResourceConfigList-r13 SEQUENCE (SIZE (1..8)) OF P-C-AndCBSR-Pair-r13 OPTIONAL, — Need OR

ace-For4Tx-PerResourceConfigList-r13 SEQUENCE (SIZE (1..7)) OF BOOLEAN OPTIONAL, — Need OR

alternativeCodebookEnabledBeamformed-r13 ENUMERATED {true} OPTIONAL, — Need OR

channelMeasRestriction-r13 ENUMERATED {on} OPTIONAL — Need OR

}

CSI-RS-ConfigBeamformed-r14 ::= SEQUENCE {

csi-RS-ConfigNZPIdListExt-r14 SEQUENCE (SIZE (1..7)) OF CSI-RS-ConfigNZPId-r13 OPTIONAL, — Need OR

csi-IM-ConfigIdList-r14 SEQUENCE (SIZE (1..8)) OF CSI-IM-ConfigId-r13 OPTIONAL, — Need OR

p-C-AndCBSR-PerResourceConfigList-r14 SEQUENCE (SIZE (1..8)) OF P-C-AndCBSR-Pair-r13 OPTIONAL, — Need OR

ace-For4Tx-PerResourceConfigList-r14 SEQUENCE (SIZE (1..7)) OF BOOLEAN OPTIONAL, — Need OR

alternativeCodebookEnabledBeamformed-r14 ENUMERATED {true} OPTIONAL, — Need OR

channelMeasRestriction-r14 ENUMERATED {on} OPTIONAL, — Need OR

csi-RS-ConfigNZP-ApList-r14 SEQUENCE (SIZE (1..8)) OF CSI-RS-ConfigNZP-r11

OPTIONAL, — Need OR

nzp-ResourceConfigOriginal-v1430 CSI-RS-Config-NZP-v1430 OPTIONAL, — Need OR

csi-RS-NZP-Activation-r14 CSI-RS-ConfigNZP-Activation-r14 OPTIONAL — Need OR

}

CSI-RS-ConfigBeamformed-v1430::= SEQUENCE {

csi-RS-ConfigNZP-ApList-r14 SEQUENCE (SIZE (1..8)) OF CSI-RS-ConfigNZP-r11

OPTIONAL, — Need OR

nzp-ResourceConfigOriginal-v1430 CSI-RS-Config-NZP-v1430 OPTIONAL, — Need OR

csi-RS-NZP-Activation-r14 CSI-RS-ConfigNZP-Activation-r14 OPTIONAL — Need OR

}

CSI-RS-Config-NZP-v1430::= SEQUENCE {

transmissionComb-r14 NZP-TransmissionComb-r14 OPTIONAL, — Need OR

frequencyDensity-r14 NZP-FrequencyDensity-r14 OPTIONAL — Need OR

}

CSI-RS-ConfigNZP-Activation-r14::= SEQUENCE {

csi-RS-NZP-mode-r14 ENUMERATED {semiPersistent, aperiodic},

activatedResources-r14 INTEGER (0..4)

}

— ASN1STOP

CSI-RS-ConfigBeamformed field descriptions

ace-For4Tx-PerResourceConfigList

The field indicates the alternativeCodeBookEnabledFor4TX-r12 per CSI-RS resource. E-UTRAN configures the field only if csi-RS-ConfigNZPIdListExt is configured.

activatedResources

The number of activated CSI-RS resources, which concerns a subset of the aperiodic CSI-RS resources (for both semi-persistent and aperiodic mode). E-UTRAN configures at most the minimum between nMaxResource as configured by MIMO-UE-ParametersPerTM-r1430 and the number of resources as configured by csi-RS-ConfigNZP-ApList-r14.

alternativeCodebookEnabledBeamformed

The field indicates whether code book in TS 36.213 [23], Table 7.2.4-18 to Table 7.2.4-20, is being used for deriving CSI feedback and reporting for a CSI process. E-UTRAN configures the field only for a process referring to a single RS configuration using non-zero power transmission (i.e a process for which csi-RS-ConfigNZPIdListExt is not configured). Field alternativeCodebookEnabledBeamformed corresponds to parameter alternativeCodebookEnabledCLASSB_K1 in TS 36.212 [22] and TS 36.213 [23].

csi-IM-ConfigIdList

E-UTRAN configures the field csi-IM-ConfigIdList only if the IE is included in CSI-Process is configured (i.e. when TM10 is configured for the serving cell).

CSI-RS-ConfigBeamformed

If csi-RS-ConfigNZPIdListExt-r13 is configured, E-UTRAN configures the same total number of entries for NZP, csi-IM-ConfigIdList-r13 and p-C-AndCBSR-PerResourceConfigList-r13.

csi-RS-ConfigNZP-ApList

The field is used to configure NZP configurations for aperiodic or semi-persistent CSI RS reporting for which MAC controls activation. EUTRAN configures this field only when the UE is configured to use 2, 4 or and 8 ports CSI-RS, in which case EUTRAN configures the number of entries to be the same as the number of NZP resource configurations. For all these entries the UE shall ignore field subframeConfig. EUTRAN always configures this field together with csi-RS-NZP-Activation. Furthermore, for a given process, E-UTRAN does not simultaneously configure the periodic NZP configuration(s) and NZP CSI RS configurations for aperiodic or semi-persistent reporting.

csi-RS-ConfigNZP-EMIMO

The field is used to configure NZP configurations additional to the one defined by the original NZP configuration as included in CSI-RS-Config/ CSI-Process when using 12 and 16 ports CSI-RS.

csi-RS-ConfigNZPIdListExt (in CSI-RS-ConfigBeamformed)

Indicates the NZP configuration(s)in addition to the original NZP configuration, as defined by csi-RS-Config-r10 (TM9) or csi-RS-ConfigNZPId-r11 (TM10). I.e. extends the size of the NZP configuration list (originally a single entry i.e. list of size 1) using the general principles specified in 5.1.2.

p-C-AndCBSR-PerResourceConfigList

E-UTRAN does not configure the field p-C-AndCBSR-PerResourceConfigList if the UE is configured with eMIMO-Type set to beamformed, alternativeCodebookEnabledBeamformed is set to FALSE and csi-RS-ConfigNZPIdListExt is not configured.

CSI-RS-ConfigEMIMO

The IE CSI-RS-ConfigEMIMO is used to specify the CSI (Channel-State Information) reference signal configuration for EBF/ FD-MIMO.

CSI-RS-ConfigEMIMO information elements

— ASN1START

CSI-RS-ConfigEMIMO-r13 ::= CHOICE {

release NULL,

setup CHOICE {

nonPrecoded-r13 CSI-RS-ConfigNonPrecoded-r13,

beamformed-r13 CSI-RS-ConfigBeamformed-r13

}

}

CSI-RS-ConfigEMIMO-v1430 ::= CHOICE {

release NULL,

setup CHOICE {

nonPrecoded-v1430 CSI-RS-ConfigNonPrecoded-v1430,

beamformed-v1430 CSI-RS-ConfigBeamformed-v1430

}

}

CSI-RS-ConfigEMIMO-v1480 ::= CHOICE {

release NULL,

setup CHOICE {

nonPrecoded-v1480 CSI-RS-ConfigNonPrecoded-v1480,

beamformed-v1480 CSI-RS-ConfigBeamformed-v1430

}

}

CSI-RS-ConfigEMIMO-v1530 ::= CHOICE {

release NULL,

setup CHOICE {

nonPrecoded-v1530 CSI-RS-ConfigNonPrecoded-v1530

}

}

CSI-RS-ConfigEMIMO2-r14 ::= CHOICE {

release NULL,

setup CSI-RS-ConfigBeamformed-r14

}

CSI-RS-ConfigEMIMO-Hybrid-r14 ::= CHOICE {

release NULL,

setup SEQUENCE {

periodicityOffsetIndex-r14 INTEGER (0..1023) OPTIONAL, — Need OR

eMIMO-Type2-r14 CSI-RS-ConfigEMIMO2-r14 OPTIONAL — Need ON

}

}

— ASN1STOP

CSI-RS-ConfigEMIMO field descriptions

periodicityOffsetIndex

This parameter is associated with the first EMIMO configuration of the hybrid eMIMO configuration.

CSI-RS-ConfigNonPrecoded

The IE CSI-RS-ConfigNonPrecoded is used to specify the non-precoded EBF/ FD-MIMO configuration.

— ASN1START

CSI-RS-ConfigNonPrecoded-r13 ::= SEQUENCE {

p-C-AndCBSRList-r13 P-C-AndCBSR-Pair-r13 OPTIONAL, — Need OR

codebookConfigN1-r13 ENUMERATED {n1, n2, n3, n4, n8},

codebookConfigN2-r13 ENUMERATED {n1, n2, n3, n4, n8},

codebookOverSamplingRateConfig-O1-r13 ENUMERATED {n4, n8} OPTIONAL, — Need OR

codebookOverSamplingRateConfig-O2-r13 ENUMERATED {n4, n8} OPTIONAL, — Need OR

codebookConfig-r13 INTEGER (1..4),

csi-IM-ConfigIdList-r13 SEQUENCE (SIZE (1..2)) OF CSI-IM-ConfigId-r13 OPTIONAL, — Need OR

csi-RS-ConfigNZP-EMIMO-r13 CSI-RS-ConfigNZP-EMIMO-r13 OPTIONAL — Need ON

}

CSI-RS-ConfigNonPrecoded-v1430::= SEQUENCE {

csi-RS-ConfigNZP-EMIMO-v1430 CSI-RS-ConfigNZP-EMIMO-v1430 OPTIONAL, — Need ON

codebookConfigN1-v1430 ENUMERATED {n5, n6, n7, n10, n12, n14, n16},

codebookConfigN2-v1430 ENUMERATED {n5, n6, n7},

nzp-ResourceConfigTM9-Original-v1430 CSI-RS-Config-NZP-v1430

}

CSI-RS-ConfigNonPrecoded-v1480::= SEQUENCE {

csi-RS-ConfigNZP-EMIMO-v1480 CSI-RS-ConfigNZP-EMIMO-v1430 OPTIONAL, — Need ON

codebookConfigN1-v1480 ENUMERATED {n5, n6, n7, n10, n12, n14, n16} OPTIONAL, — Need OR

codebookConfigN2-r1480 ENUMERATED {n5, n6, n7} OPTIONAL, — Need OR

nzp-ResourceConfigTM9-Original-v1480 CSI-RS-Config-NZP-v1430

}

CSI-RS-ConfigNonPrecoded-v1530 ::= SEQUENCE {

p-C-AndCBSRList-r15 P-C-AndCBSR-Pair-r15 OPTIONAL — Need OR

}

— ASN1STOP

CSI-RS-ConfigNonPrecoded field descriptions

codebookConfig

Indicates a sub-set of the codebook entry, see TS 36.213 [23].

codebookConfigNx

Indicates the number of antenna ports per polarization in dimension x as used for transmission of CSI reference signals. Value n1 corresponds to 1, value n2 corresponds to 2 and so on, see TS 36.213 [23]. E-UTRAN configures the field in accordance with the restrictions as specified in TS 36.213 [23]. If codebookConfigNx in CSI-RS-ConfigNonPrecoded-v1480 is configured, the UE shall ignore the field codebookConfigNx in CSI-RS-ConfigNonPrecoded-r13.

codebookOverSamplingRateConfig-Ox

Indicates the spatial over-sampling rate in dimension x as used for transmission of CSI reference signals. Value n4 corresponds to 4 and value n8 corresponds to 8, see TS 36.213 [23].

csi-IM-ConfigId(List)

E-UTRAN configures the field csi-IM-ConfigIdList only if the IE is included in CSI-Process is configured (i.e. when TM10 is configured for the serving cell).

csi-RS-ConfigNZP-EMIMO

The field is used to configure NZP configurations additional to the one defined by the original NZP configuration as included in CSI-RS-Config/ CSI-Process when using more than 8 ports CSI-RS as defined in TS 36.211 [21], table 6.10.5-1.

CSI-RS-ConfigNZP

The IE CSI-RS-ConfigNZP is the CSI-RS resource configuration using non-zero power transmission that E-UTRAN may configure on a serving frequency.

CSI-RS-ConfigNZP information elements

— ASN1START

CSI-RS-ConfigNZP-r11 ::= SEQUENCE {

csi-RS-ConfigNZPId-r11 CSI-RS-ConfigNZPId-r11,

antennaPortsCount-r11 ENUMERATED {an1, an2, an4, an8},

resourceConfig-r11 INTEGER (0..31),

subframeConfig-r11 INTEGER (0..154),

scramblingIdentity-r11 INTEGER (0..503),

qcl-CRS-Info-r11 SEQUENCE {

qcl-ScramblingIdentity-r11 INTEGER (0..503),

crs-PortsCount-r11 ENUMERATED {n1, n2, n4, spare1},

mbsfn-SubframeConfigList-r11 CHOICE {

release NULL,

setup SEQUENCE {

subframeConfigList MBSFN-SubframeConfigList

}

} OPTIONAL — Need ON

} OPTIONAL, — Need OR

…,

[[ csi-RS-ConfigNZPId-v1310 CSI-RS-ConfigNZPId-v1310 OPTIONAL — Need ON

]],

[[ transmissionComb-r14 NZP-TransmissionComb-r14 OPTIONAL, — Need OR

frequencyDensity-r14 NZP-FrequencyDensity-r14 OPTIONAL — Need OR

]],

[[ mbsfn-SubframeConfigList-v1430 CHOICE {

release NULL,

setup SEQUENCE {

subframeConfigList-v1430 MBSFN-SubframeConfigList-v1430

}

} OPTIONAL — Need OP

]]

}

CSI-RS-ConfigNZP-EMIMO-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

nzp-resourceConfigList-r13 SEQUENCE (SIZE (1..2)) OF NZP-ResourceConfig-r13,

cdmType-r13 ENUMERATED {cdm2, cdm4} OPTIONAL — Need OR

}

}

CSI-RS-ConfigNZP-EMIMO-v1430 ::= SEQUENCE {

— All extensions are for Non-Precoded so could be grouped by setup/ release choice

nzp-resourceConfigListExt-r14 SEQUENCE (SIZE (0..4)) OF NZP-ResourceConfig-r13,

cdmType-v1430 ENUMERATED {cdm8 } OPTIONAL — Need OR

}

NZP-ResourceConfig-r13 ::= SEQUENCE {

resourceConfig-r13 ResourceConfig-r13,

…,

[[ transmissionComb-r14 NZP-TransmissionComb-r14 OPTIONAL, — Need OR

frequencyDensity-r14 NZP-FrequencyDensity-r14 OPTIONAL — Need OR

]]

}

ResourceConfig-r13 ::= INTEGER (0..31)

NZP-TransmissionComb-r14 ::= INTEGER (0..2)

NZP-FrequencyDensity-r14 ::= ENUMERATED {d1, d2, d3}

— ASN1STOP

CSI-RS-ConfigNZP field descriptions

antennaPortsCount

Parameter represents the number of antenna ports used for transmission of CSI reference signals where an1 corresponds to 1, an2 to 2 antenna ports etc. see TS 36.211 [21], clause 6.10.5.

cdmType

Parameter: CDMType, see TS 36.211 [21], clause 6.10.5.2.

csi-RS-ConfigNZPId

Refers to a CSI RS configuration using non-zero power transmission that is configured for the same frequency as the CSI process. UE shall ignore CSI-RS-ConfigNZPId-r11 if CSI-RS-ConfigNZPId-v1310 is signalled.

frequencyDensity

Indicates the freqency-domain density reduction. E-UTRAN configures the values in accordance with the restrictions specified in TS 36.213 [23].

mbsfn-SubframeConfigList

Indicates the MBSFN configuration for the CSI-RS resources. If qcl-CRS-Info-r11 is absent, the field is released.

nzp-resourceConfigList

Indicate a list of non-zero power transmission CSI-RS resources using parameter resourceConfig.

qcl-CRS-Info

Indicates CRS antenna ports that is quasi co-located with the CSI-RS antenna ports, see TS 36.213 [23], clause 7.2.5. EUTRAN configures this field if and only if the UE is configured with qcl-Operation set to typeB.

resourceConfig

Parameter: CSI reference signal configuration, see TS 36.211 [21], table 6.10.5.2-1 and 6.10.5.2-2.

subframeConfig

Parameter: , see TS 36.211 [21], table 6.10.5.3-1.

scramblingIdentity

Parameter: Pseudo-random sequence generator parameter, , see TS 36.213 [23], clause 7.2.5.

transmissionComb

Indicates the transmission combining offset. E-UTRAN configures the values in accordance with the restrictions specified in TS 36.213 [23].

CSI-RS-ConfigNZPId

The IE CSI-RS-ConfigNZPId is used to identify a CSI-RS resource configuration using non-zero transmission power, as configured by the IE CSI-RS-ConfigNZP. The identity is unique within the scope of a carrier frequency.

CSI-RS-ConfigNZPId information elements

— ASN1START

CSI-RS-ConfigNZPId-r11 ::= INTEGER (1..maxCSI-RS-NZP-r11)

CSI-RS-ConfigNZPId-v1310 ::= INTEGER (minCSI-RS-NZP-r13..maxCSI-RS-NZP-r13)

CSI-RS-ConfigNZPId-r13 ::= INTEGER (1..maxCSI-RS-NZP-r13)

— ASN1STOP

CSI-RS-ConfigZP

The IE CSI-RS-ConfigZP is the CSI-RS resource configuration, for which UE assumes zero transmission power, that E-UTRAN may configure on a serving frequency.

CSI-RS-ConfigZP information elements

— ASN1START

CSI-RS-ConfigZP-r11 ::= SEQUENCE {

csi-RS-ConfigZPId-r11 CSI-RS-ConfigZPId-r11,

resourceConfigList-r11 BIT STRING (SIZE (16)),

subframeConfig-r11 INTEGER (0..154),

}

CSI-RS-ConfigZP-ApList-r14 ::= CHOICE {

release NULL,

setup SEQUENCE (SIZE (1..maxCSI-RS-ZP-r11)) OF CSI-RS-ConfigZP-r11

}

— ASN1STOP

CSI-RS-ConfigZP field descriptions

CSI-RS-ConfigZP-ApList

Indicates the aperiodic zero power CSI-RS present in a given subframe. See 36.213 [23], Table 7.1.9-2. First entry in the list corresponds to aperiodic trigger 00, second entry in the list corresponds to aperiodic trigger 01 and so on.

resourceConfigList

Parameter: ZeroPowerCSI-RS, see TS 36.213 [23], clause 7.2.7.

subframeConfig

Parameter: , see TS 36.211 [21], table 6.10.5.3-1.

CSI-RS-ConfigZPId

The IE CSI-RS-ConfigZPId is used to identify a CSI-RS resource configuration for which UE assumes zero transmission power, as configured by the IE CSI-RS-ConfigZP. The identity is unique within the scope of a carrier frequency.

CSI-RS-ConfigZPId information elements

— ASN1START

CSI-RS-ConfigZPId-r11 ::= INTEGER (1..maxCSI-RS-ZP-r11)

— ASN1STOP

DataInactivityTimer

The IE DataInactivityTimer is used to control Data inactivity operation. Corresponds to the timer for data inactivity monitoring in TS 36.321 [6]. Value s1 corresponds to 1 second, s2 corresponds to 2 seconds and so on.

DataInactivityTimer information element

— ASN1START

DataInactivityTimer-r14 ::= ENUMERATED {

s1, s2, s3, s5, s7, s10, s15, s20, s40, s50, s60,

s80, s100, s120, s150, s180}

— ASN1STOP

DMRS-Config

The IE DMRS-Config is the DMRS configuration that E-UTRAN may configure on a serving frequency.

DMRS-Config information elements

— ASN1START

DMRS-Config-r11 ::= CHOICE {

release NULL,

setup SEQUENCE {

scramblingIdentity-r11 INTEGER (0..503),

scramblingIdentity2-r11 INTEGER (0..503)

}

}

DMRS-Config-v1310 ::= SEQUENCE {

dmrs-tableAlt-r13 ENUMERATED {true} OPTIONAL — Need OR

}

— ASN1STOP

DMRS-Config field descriptions

scramblingIdentity, scramblingIdentity2

Parameter: , see TS 36.211 [21], clause 6.10.3.1.

dmrs-tableAlt

The field indicates whether to use an alternative table for DMRS upon PDSCH transmission, see TS 36.213 [23].

DRB-Identity

The IE DRB-Identity is used to identify a DRB used by a UE.

DRB-Identity information elements

— ASN1START

DRB-Identity ::= INTEGER (1..32)

— ASN1STOP

EPDCCH-Config

The IE EPDCCH-Config specifies the subframes and resource blocks for EPDCCH monitoring that E-UTRAN may configure for a serving cell.

EPDCCH-Config information element

— ASN1START

EPDCCH-Config-r11 ::= SEQUENCE{

config-r11 CHOICE {

release NULL,

setup SEQUENCE {

subframePatternConfig-r11 CHOICE {

release NULL,

setup SEQUENCE {

subframePattern-r11 MeasSubframePattern-r10

}

} OPTIONAL, — Need ON

startSymbol-r11 INTEGER (1..4) OPTIONAL, — Need OP

setConfigToReleaseList-r11 EPDCCH-SetConfigToReleaseList-r11 OPTIONAL, — Need ON

setConfigToAddModList-r11 EPDCCH-SetConfigToAddModList-r11 OPTIONAL — Need ON

}

}

}

EPDCCH-SetConfigToAddModList-r11 ::= SEQUENCE (SIZE(1..maxEPDCCH-Set-r11)) OF EPDCCH-SetConfig-r11

EPDCCH-SetConfigToReleaseList-r11 ::= SEQUENCE (SIZE(1..maxEPDCCH-Set-r11)) OF EPDCCH-SetConfigId-r11

EPDCCH-SetConfig-r11 ::= SEQUENCE {

setConfigId-r11 EPDCCH-SetConfigId-r11,

transmissionType-r11 ENUMERATED {localised, distributed},

resourceBlockAssignment-r11 SEQUENCE{

numberPRB-Pairs-r11 ENUMERATED {n2, n4, n8},

resourceBlockAssignment-r11 BIT STRING (SIZE(4..38))

},

dmrs-ScramblingSequenceInt-r11 INTEGER (0..503),

pucch-ResourceStartOffset-r11 INTEGER (0..2047),

re-MappingQCL-ConfigId-r11 PDSCH-RE-MappingQCL-ConfigId-r11 OPTIONAL, — Need OR

…,

[[ csi-RS-ConfigZPId2-r12 CHOICE {

release NULL,

setup CSI-RS-ConfigZPId-r11

} OPTIONAL — Need ON

]],

[[ numberPRB-Pairs-v1310 CHOICE {

release NULL,

setup ENUMERATED {n6}

} OPTIONAL, — Need ON

mpdcch-config-r13 CHOICE {

release NULL,

setup SEQUENCE {

csi-NumRepetitionCE-r13 ENUMERATED {sf1, sf2, sf4, sf8, sf16, sf32},

mpdcch-pdsch-HoppingConfig-r13 ENUMERATED {on,off},

mpdcch-StartSF-UESS-r13 CHOICE {

fdd-r13 ENUMERATED {v1, v1dot5, v2, v2dot5, v4,

v5, v8, v10},

tdd-r13 ENUMERATED {v1, v2, v4, v5, v8, v10,

v20, spare1}

},

mpdcch-NumRepetition-r13 ENUMERATED {r1, r2, r4, r8, r16,

r32, r64, r128, r256},

mpdcch-Narrowband-r13 INTEGER (1..maxAvailNarrowBands-r13)

}

} OPTIONAL — Need ON

]]

}

EPDCCH-SetConfigId-r11 ::= INTEGER (0..1)

— ASN1STOP

EPDCCH-Config field descriptions

csi-NumRepetitionCE

Number of subframes for CSI reference resource, see TS 36.213 [23]. Value sf1 corresponds to 1 subframe, sf2 corresponds to 2 subframes and so on.

csi-RS-ConfigZPId2

Indicates the rate matching parameters in addition to those indicated by re-MappingQCL-ConfigId. E-UTRAN configures this field only when tm10 is configured.

dmrs-ScramblingSequenceInt

The DMRS scrambling sequence initialization parameter or defined in TS 36.211 [21], clause 6.10.3A.1.

EPDCCH-SetConfig

Provides EPDCCH configuration set. See TS 36.213 [23], clause 9.1.4. E-UTRAN configures at least one EPDCCH-SetConfig when EPDCCH-Config is configured. For BL UEs or UEs in CE, EUTRAN does not configure more than one EPDCCH-SetConfig.

mpdcch-Narrowband

Parameter: , see TS 36.211 [21], clause 6.8B.5. Field values (1..maxAvailNarrowBands-r13) correspond to narrowband indices (0..maxAvailNarrowBands-r13-1) as specified in TS 36.211 [21].

mpdcch-NumRepetition

Maximum numbers of repetitions for UE-SS for MPDCCH, see TS 36.213 [23].

mpdcch-pdsch-HoppingConfig

Frequency hopping activation/deactivation for unicast MPDCCH/PDSCH, see TS 36.211 [21]. E-UTRAN does not configure the value on if freqHoppingParametersDL is not present in SystemInformationBlockType1.

mpdcch-StartSF-UESS

Starting subframe configuration for an MPDCCH UE-specific search space, see TS 36.213 [23]. Value v1 corresponds to 1, value v1dot5 corresponds to 1.5, and so on.

numberPRB-Pairs

Indicates the number of physical resource-block pairs used for the EPDCCH set. Value n2 corresponds to 2 physical resource-block pairs; n4 corresponds to 4 physical resource-block pairs and so on. Value n8 is not supported if dl-Bandwidth is set to 6 resource blocks. EUTRAN only configures values up to n6 for BL UEs or UEs in CE. Value n6 is only applicable to BL UEs or UEs in CE.

pucch-ResourceStartOffset

PUCCH format 1a, 1b and 3 resource starting offset for the EPDCCH set. See TS 36.213 [23], clause 10.1.

re-MappingQCL-ConfigId

Indicates the starting OFDM symbol, the related rate matching parameters and quasi co-location assumption for EPDCCH when the UE is configured with tm10. This field provides the identity of a configured PDSCH-RE-MappingQCL-Config. E-UTRAN configures this field only when tm10 is configured.

resourceBlockAssignment

Indicates the index to a specific combination of physical resource-block pair for EPDCCH set. See TS 36.213 [23], clause 9.1.4.4. The size of resourceBlockAssignment is specified in TS 36.213 [23], clause 9.1.4.4, and based on numberPRB-Pairs and the signalled value of dl-Bandwidth. If numberPRB-Pairs-v1310 field is present, the total number of physical resource-block pairs is 6 and it is composed of one subset of 2 physical resource-block pairs and another subset of 4 physical resource-block pairs, and the resourceBlockAssignment field defines the subset of 2 physical resource-block pairs.

setConfigId

Indicates the identity of the EPDCCH configuration set.

startSymbol

Indicates the OFDM starting symbol for any EPDCCH and PDSCH scheduled by EPDCCH on the same cell, see TS 36.213 [23], clause 9.1.4.1. If not present, the UE shall release the configuration and shall derive the starting OFDM symbol of EPDCCH and PDSCH scheduled by EPDCCH from PCFICH. Values 1, 2, and 3 are applicable for dl-Bandwidth greater than 10 resource blocks. Values 2, 3, and 4 are applicable otherwise. E-UTRAN does not configure the field for UEs configured with tm10.

subframePatternConfig

Configures the subframes which the UE shall monitor the UE-specific search space on EPDCCH, except for pre-defined rules in TS 36.213 [23], clause 9.1.4. If the field is not configured when EPDCCH is configured, the UE shall monitor the UE-specific search space on EPDCCH in all subframes except for pre-defined rules in TS 36.213 [23], clause 9.1.4.

transmissionType

Indicates whether distributed or localized EPDCCH transmission mode is used as defined in TS 36.211 [21], clause 6.8A.1.

– EIMTA-MainConfig

The IE EIMTA-MainConfig is used to specify the eIMTA-RNTI used for eIMTA and the subframes used for monitoring PDCCH with eIMTA-RNTI. The IE EIMTA-MainConfigServCell is used to specify the eIMTA related parameters applicable for the concerned serving cell.

EIMTA-MainConfig information element

— ASN1START

EIMTA-MainConfig-r12 ::= CHOICE {

release NULL,

setup SEQUENCE {

eimta-RNTI-r12 C-RNTI,

eimta-CommandPeriodicity-r12 ENUMERATED {sf10, sf20, sf40, sf80},

eimta-CommandSubframeSet-r12 BIT STRING (SIZE(10))

}

}

EIMTA-MainConfigServCell-r12 ::= CHOICE {

release NULL,

setup SEQUENCE {

eimta-UL-DL-ConfigIndex-r12 INTEGER (1..5),

eimta-HARQ-ReferenceConfig-r12 ENUMERATED {sa2, sa4, sa5},

mbsfn-SubframeConfigList-v1250 CHOICE {

release NULL,

setup SEQUENCE {

subframeConfigList-r12 MBSFN-SubframeConfigList

}

}

}

}

— ASN1STOP

EIMTA-MainConfig field descriptions

eimta-CommandPeriodicity

Configures the periodicity to monitor PDCCH with eIMTA-RNTI, see TS 36.213 [23], clause 13.1. Value sf10 corresponds to 10 subframes, sf20 corresponds to 20 subframes and so on.

eimta-CommandSubframeSet

Configures the subframe(s) to monitor PDCCH with eIMTA-RNTI within the periodicity configured by eimta-CommandPeriodicity. The 10 bits correspond to all subframes in the last radio frame within each periodicity. The left most bit is for subframe 0 and so on. Each bit can be of value 0 or 1. The value of 1 means that the corresponding subframe is configured for monitoring PDCCH with eIMTA-RNTI, and the value of 0 means otherwise. In case of TDD as PCell, only the downlink and the special subframes indicated by the UL/ DL configuration in SIB1 can be configured for monitoring PDCCH with eIMTA-RNTI. In case of FDD as PCell, any of the ten subframes can be configured for monitoring PDCCH with eIMTA-RNTI.

eimta-HARQ-ReferenceConfig

Indicates UL/ DL configuration used as the DL HARQ reference configuration for this serving cell. Value sa2 corresponds to Configuration2, sa4 to Configuration4 etc, as specified in TS 36.211 [21], table 4.2-2. E-UTRAN configures the same value for all serving cells residing on same frequency band.

eimta-UL-DL-ConfigIndex

Index of I, see TS 36.212 [22], clause 5.3.3.1.4. E-UTRAN configures the same value for all serving cells residing on same frequency band.

mbsfn-SubframeConfigList

Configure the MBSFN subframes for the UE on this serving cell. An uplink subframe indicated by the DL/UL subframe configuration in SIB1 can be configured as MBSFN subframe.

LogicalChannelConfig

The IE LogicalChannelConfig is used to configure the logical channel parameters.

LogicalChannelConfig information element

— ASN1START

LogicalChannelConfig ::= SEQUENCE {

ul-SpecificParameters SEQUENCE {

priority INTEGER (1..16),

prioritisedBitRate ENUMERATED {

kBps0, kBps8, kBps16, kBps32, kBps64, kBps128,

kBps256, infinity, kBps512-v1020, kBps1024-v1020,

kBps2048-v1020, spare5, spare4, spare3, spare2,

spare1},

bucketSizeDuration ENUMERATED {

ms50, ms100, ms150, ms300, ms500, ms1000, spare2,

spare1},

logicalChannelGroup INTEGER (0..3) OPTIONAL — Need OR

} OPTIONAL, — Cond UL

…,

[[ logicalChannelSR-Mask-r9 ENUMERATED {setup} OPTIONAL — Cond SRmask

]],

[[ logicalChannelSR-Prohibit-r12 BOOLEAN OPTIONAL — Need ON

]],

[[ laa-UL-Allowed-r14 BOOLEAN OPTIONAL, — Need ON

bitRateQueryProhibitTimer-r14 ENUMERATED {

s0, s0dot4, s0dot8, s1dot6, s3, s6, s12,

s30} OPTIONAL –Need OR

]],

[[ allowedTTI-Lengths-r15 CHOICE {

release NULL,

setup SEQUENCE {

shortTTI-r15 BOOLEAN,

subframeTTI-r15 BOOLEAN

}

} OPTIONAL, — Need ON

logicalChannelSR-Restriction-r15 CHOICE {

release NULL,

setup ENUMERATED {spucch, pucch}

} OPTIONAL, — Need ON

channelAccessPriority-r15 CHOICE {

release NULL,

setup INTEGER (1..4)

} OPTIONAL, — Need ON

lch-CellRestriction-r15 BIT STRING (SIZE (maxServCell-r13)) OPTIONAL — Need ON

]]

}

— ASN1STOP

LogicalChannelConfig field descriptions

allowedTTI-Lengths

Indicates the allowed TTI lengths for the logical channel. If not configured, the UE is allowed to transmit the logical channel using any TTI length.

bitRateQueryProhibitTimer

The timer is used for bit rate recommendation query in TS 36.321 [6], clause 5.18, in seconds. Value s0 means 0s, s0dot4 means 0.4s and so on.

bucketSizeDuration

Bucket Size Duration for logical channel prioritization in TS 36.321 [6]. Value in milliseconds. Value ms50 corresponds to 50 ms, ms100 corresponds to 100 ms and so on.

channelAccessPriority

Indicates the channel access priority class for the logical channel. UE shall select the lowest channel access priority class (i.e. highest signalled value) of the logical channel with MAC SDU multiplexed into the MAC PDU. MAC CEs except padding BSR apply the highest channel access priority class (i.e. lowest signalled value) , as defined in TS 36.300 [9].

laa-UL-Allowed

Indicates whether the data of a logical channel is allowed to be transmitted via UL of LAA SCells. Value TRUE indicates that the logical channel is allowed to be sent via UL of LAA SCells. Value FALSE indicates that the logical channel is not allowed to be sent via UL of LAA SCells.

lch-CellRestriction

Indicates cells which are restricted for the logical channel, The bit is set to 1 if the cell is restricted and to 0 if the cell is not restricted, for each cell. The least significant bit corresponds to the serving cell with index 0, the next bit corresponds to the serving cell with index 1, and so on. If the cell is restricted for the logical channel, then data for the logical channel is not allowed to be sent using that cell. If the field is not included, no cells are restricted. See also TS 36.321 [6], clause 5.4.3.1. The restriction is only active when PDCP duplication using CA is activated.

logicalChannelGroup

Mapping of logical channel to logical channel group for BSR reporting in TS 36.321 [6].

logicalChannelSR-Mask

Controlling SR triggering on a logical channel basis when an uplink grant is configured. See TS 36.321 [6].

logicalChannelSR-Prohibit

Value TRUE indicates that the logicalChannelSR-ProhibitTimer is enabled for the logical channel. E-UTRAN only (optionally) configures the field (i.e. indicates value TRUE) if logicalChannelSR-ProhibitTimer is configured. See TS 36.321 [6].

logicalChannelSR-Restriction

Defines the restricted SR configuration for the logical channel. Value spucch indicates that the SR cannot be sent on SPUCCH and value pucch indicates that the SR cannot be sent on PUCCH. If not configured, the UE is allowed to transmit the SR on any SR resource.

prioritisedBitRate

Prioritized Bit Rate for logical channel prioritization in TS 36.321 [6]. Value in kilobytes/second. Value kBps0 corresponds to 0 kB/second, kBps8 corresponds to 8 kB/second, kBps16 corresponds to 16 kB/second and so on. Infinity is the only applicable value for SRB1 and SRB2

priority

Logical channel priority in TS 36.321 [6]. Value is an integer.

shortTTI, subframeTTI

For short TTIs and subframe TTIs respectively: Value TRUE indicates that the UE is allowed to transmit using this TTI length for the logical channel and the value FALSE indicates that the UE is not allowed to transmit using this TTI length for the logical channel. If not configured for a TTI length, then the UE is allowed to transmit this logical channel using this TTI length.

Conditional presence

Explanation

SRmask

The field is optionally present if ul-SpecificParameters is present, need OR; otherwise it is not present.

UL

The field is mandatory present for UL logical channels; otherwise it is not present.

LWA-Configuration

The IE LWA-Configuration is used to setup/modify/release LTE-WLAN Aggregation.

— ASN1START

LWA-Configuration-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

lwa-Config-r13 LWA-Config-r13

}

}

LWA-Config-r13 ::= SEQUENCE {

lwa-MobilityConfig-r13 WLAN-MobilityConfig-r13 OPTIONAL, — Need ON

lwa-WT-Counter-r13 INTEGER (0..65535) OPTIONAL, — Need ON

…,

[[ wt-MAC-Address-r14 OCTET STRING (SIZE (6)) OPTIONAL — Need ON

]]

}

— ASN1STOP

LWA-Configuration field descriptions

lwa-MobilityConfig

Indicates the parameters used for WLAN mobility.

lwa-WT-Counter

Indicates the parameter used by UE for WLAN authentication.

wt-MAC-Address

Indicates the WT MAC address of the WT handling the LWA operation for the UE. The UE uses this MAC address in uplink transmissions to enable routing of LWA uplink data from the AP to the WT. E-UTRAN configures the field only if ul-LWA-Config-r14 is configured for at least one LWA bearer.

LWIP-Configuration

The IE LWIP-Configuration is used to add, modify or release DRBs that are using LWIP Tunnel.

— ASN1START

LWIP-Configuration-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

lwip-Config-r13 LWIP-Config-r13

}

}

LWIP-Config-r13 ::= SEQUENCE {

lwip-MobilityConfig-r13 WLAN-MobilityConfig-r13 OPTIONAL, — Need ON

tunnelConfigLWIP-r13 TunnelConfigLWIP-r13 OPTIONAL, — Need ON

}

— ASN1STOP

LWIP-Configuration field descriptions

lwip-MobilityConfig

Indicates the WLAN mobility set for LWIP.

tunnelConfigLWIP

Indicates the parameters used for establishing the LWIP tunnel.

MAC-MainConfig

The IE MAC-MainConfig is used to specify the MAC main configuration for signalling and data radio bearers. All MAC main configuration parameters can be configured independently per Cell Group (i.e. MCG or SCG), unless explicitly specified otherwise.

MAC-MainConfig information element

— ASN1START

MAC-MainConfig ::= SEQUENCE {

ul-SCH-Config SEQUENCE {

maxHARQ-Tx ENUMERATED {

n1, n2, n3, n4, n5, n6, n7, n8,

n10, n12, n16, n20, n24, n28,

spare2, spare1} OPTIONAL, — Need ON

periodicBSR-Timer PeriodicBSR-Timer-r12 OPTIONAL, — Need ON

retxBSR-Timer RetxBSR-Timer-r12,

ttiBundling BOOLEAN

} OPTIONAL, — Need ON

drx-Config DRX-Config OPTIONAL, — Need ON

timeAlignmentTimerDedicated TimeAlignmentTimer,

phr-Config CHOICE {

release NULL,

setup SEQUENCE {

periodicPHR-Timer ENUMERATED {sf10, sf20, sf50, sf100, sf200,

sf500, sf1000, infinity},

prohibitPHR-Timer ENUMERATED {sf0, sf10, sf20, sf50, sf100,

sf200, sf500, sf1000},

dl-PathlossChange ENUMERATED {dB1, dB3, dB6, infinity}

}

} OPTIONAL, — Need ON

…,

[[ sr-ProhibitTimer-r9 INTEGER (0..7) OPTIONAL — Need ON

]],

[[ mac-MainConfig-v1020 SEQUENCE {

sCellDeactivationTimer-r10 ENUMERATED {

rf2, rf4, rf8, rf16, rf32, rf64, rf128,

spare} OPTIONAL, — Need OP

extendedBSR-Sizes-r10 ENUMERATED {setup} OPTIONAL, — Need OR

extendedPHR-r10 ENUMERATED {setup} OPTIONAL — Need OR

} OPTIONAL — Need ON

]],

[[ stag-ToReleaseList-r11 STAG-ToReleaseList-r11 OPTIONAL, — Need ON

stag-ToAddModList-r11 STAG-ToAddModList-r11 OPTIONAL, — Need ON

drx-Config-v1130 DRX-Config-v1130 OPTIONAL — Need ON

]],

[[ e-HARQ-Pattern-r12 BOOLEAN OPTIONAL, — Need ON

dualConnectivityPHR CHOICE {

release NULL,

setup SEQUENCE {

phr-ModeOtherCG-r12 ENUMERATED {real, virtual}

}

} OPTIONAL, — Need ON

logicalChannelSR-Config-r12 CHOICE {

release NULL,

setup SEQUENCE {

logicalChannelSR-ProhibitTimer-r12 ENUMERATED {sf20, sf40, sf64, sf128, sf512, sf1024, sf2560, spare1}

}

} OPTIONAL — Need ON

]],

[[ drx-Config-v1310 DRX-Config-v1310 OPTIONAL, — Need ON

extendedPHR2-r13 BOOLEAN OPTIONAL, — Need ON

eDRX-Config-CycleStartOffset-r13 CHOICE {

release NULL,

setup

CHOICE {

sf5120 INTEGER(0..1),

sf10240 INTEGER(0..3)

}

} OPTIONAL — Need ON

]],

[[ drx-Config-r13 CHOICE {

release NULL,

setup DRX-Config-r13

} OPTIONAL — Need ON

]],

[[ skipUplinkTx-r14 CHOICE {

release NULL,

setup SEQUENCE {

skipUplinkTxSPS-r14 ENUMERATED {true} OPTIONAL, — Need OR

skipUplinkTxDynamic-r14 ENUMERATED {true} OPTIONAL — Need OR

}

} OPTIONAL, — Need ON

dataInactivityTimerConfig-r14 CHOICE {

release NULL,

setup SEQUENCE {

dataInactivityTimer-r14 DataInactivityTimer-r14

}

} OPTIONAL — Need ON

]],

[[ rai-Activation-r14 ENUMERATED {true} OPTIONAL — Need OR

]],

[[ shortTTI-AndSPT-r15 CHOICE {

release NULL,

setup SEQUENCE {

drx-Config-r15 DRX-Config-r15 OPTIONAL, — Need ON

periodicBSR-Timer-r15 ENUMERATED {

sf1, sf5, sf10, sf16, sf20, sf32, sf40,

sf64, sf80, sf128, sf160, sf320, sf640,

sf1280, sf2560, infinity}

OPTIONAL, — Need ON

proc-Timeline-r15 ENUMERATED {nplus4set1, nplus6set1,

nplus6set2, nplus8set2 } OPTIONAL, — Need ON

ssr-ProhibitTimer-r15 INTEGER (0..7) OPTIONAL — Need ON

}

} OPTIONAL, — Need ON

mpdcch-UL-HARQ-ACK-FeedbackConfig-r15 BOOLEAN OPTIONAL, — Need ON

dormantStateTimers-r15 CHOICE {

release NULL,

setup SEQUENCE {

sCellHibernationTimer-r15 ENUMERATED {

rf2, rf4, rf8, rf16, rf32, rf64, rf128, spare} OPTIONAL, — Need OR

dormantSCellDeactivationTimer-r15 ENUMERATED {

rf2, rf4, rf8, rf16, rf32, rf64,

rf128, rf320, rf640, rf1280, rf2560,

rf5120, rf10240, spare3, spare2, spare1} OPTIONAL — Need OR

}

} OPTIONAL — Need ON

]]

}

MAC-MainConfigSCell-r11 ::= SEQUENCE {

stag-Id-r11 STAG-Id-r11 OPTIONAL, — Need OP

}

DRX-Config ::= CHOICE {

release NULL,

setup SEQUENCE {

onDurationTimer ENUMERATED {

psf1, psf2, psf3, psf4, psf5, psf6,

psf8, psf10, psf20, psf30, psf40,

psf50, psf60, psf80, psf100,

psf200},

drx-InactivityTimer ENUMERATED {

psf1, psf2, psf3, psf4, psf5, psf6,

psf8, psf10, psf20, psf30, psf40,

psf50, psf60, psf80, psf100,

psf200, psf300, psf500, psf750,

psf1280, psf1920, psf2560, psf0-v1020,

spare9, spare8, spare7, spare6,

spare5, spare4, spare3, spare2,

spare1},

drx-RetransmissionTimer ENUMERATED {

psf1, psf2, psf4, psf6, psf8, psf16,

psf24, psf33},

longDRX-CycleStartOffset CHOICE {

sf10 INTEGER(0..9),

sf20 INTEGER(0..19),

sf32 INTEGER(0..31),

sf40 INTEGER(0..39),

sf64 INTEGER(0..63),

sf80 INTEGER(0..79),

sf128 INTEGER(0..127),

sf160 INTEGER(0..159),

sf256 INTEGER(0..255),

sf320 INTEGER(0..319),

sf512 INTEGER(0..511),

sf640 INTEGER(0..639),

sf1024 INTEGER(0..1023),

sf1280 INTEGER(0..1279),

sf2048 INTEGER(0..2047),

sf2560 INTEGER(0..2559)

},

shortDRX SEQUENCE {

shortDRX-Cycle ENUMERATED {

sf2, sf5, sf8, sf10, sf16, sf20,

sf32, sf40, sf64, sf80, sf128, sf160,

sf256, sf320, sf512, sf640},

drxShortCycleTimer INTEGER (1..16)

} OPTIONAL — Need OR

}

}

DRX-Config-v1130 ::= SEQUENCE {

drx-RetransmissionTimer-v1130 ENUMERATED {psf0-v1130} OPTIONAL, –Need OR

longDRX-CycleStartOffset-v1130 CHOICE {

sf60-v1130 INTEGER(0..59),

sf70-v1130 INTEGER(0..69)

} OPTIONAL, –Need OR

shortDRX-Cycle-v1130 ENUMERATED {sf4-v1130} OPTIONAL –Need OR

}

DRX-Config-v1310 ::= SEQUENCE {

longDRX-CycleStartOffset-v1310 SEQUENCE {

sf60-v1310 INTEGER(0..59)

} OPTIONAL –Need OR

}

DRX-Config-r13 ::= SEQUENCE {

onDurationTimer-v1310 ENUMERATED {psf300, psf400, psf500, psf600,

psf800, psf1000, psf1200, psf1600}

OPTIONAL, –Need OR

drx-RetransmissionTimer-v1310 ENUMERATED {psf40, psf64, psf80, psf96, psf112,

psf128, psf160, psf320}

OPTIONAL, –Need OR

drx-ULRetransmissionTimer-r13 ENUMERATED {psf0, psf1, psf2, psf4, psf6, psf8, psf16,

psf24, psf33, psf40, psf64, psf80, psf96,

psf112, psf128, psf160, psf320}

OPTIONAL –Need OR

}

DRX-Config-r15 ::= SEQUENCE {

drx-RetransmissionTimerShortTTI-r15 ENUMERATED {

tti10, tti20, tti40, tti64, tti80, tti96,

tti112,tti128, tti160, tti320} OPTIONAL, –Need OR

drx-UL-RetransmissionTimerShortTTI-r15 ENUMERATED {

tti0, tti1, tti2, tti4, tti6, tti8, tti16,

tti24, tti33, tti40, tti64, tti80, tti96, tti112,

tti128, tti160, tti320} OPTIONAL –Need OR

}

PeriodicBSR-Timer-r12 ::= ENUMERATED {

sf5, sf10, sf16, sf20, sf32, sf40, sf64, sf80,

sf128, sf160, sf320, sf640, sf1280, sf2560,

infinity, spare1}

RetxBSR-Timer-r12 ::= ENUMERATED {

sf320, sf640, sf1280, sf2560, sf5120,

sf10240, spare2, spare1}

STAG-ToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxSTAG-r11)) OF STAG-Id-r11

STAG-ToAddModList-r11 ::= SEQUENCE (SIZE (1..maxSTAG-r11)) OF STAG-ToAddMod-r11

STAG-ToAddMod-r11 ::= SEQUENCE {

stag-Id-r11 STAG-Id-r11,

timeAlignmentTimerSTAG-r11 TimeAlignmentTimer,

}

STAG-Id-r11::= INTEGER (1..maxSTAG-r11)

— ASN1STOP

MAC-MainConfig field descriptions

dl-PathlossChange

DL Pathloss Change and the change of the required power backoff due to power management (as allowed by P-MPRc, see TS 36.101 [42]) for PHR reporting in TS 36.321 [6]. Value in dB. Value dB1 corresponds to 1 dB, dB3 corresponds to 3 dB and so on. The same value applies for each serving cell (although the associated functionality is performed independently for each cell).

dormantSCellDeactivationTimer

SCell deactivation timer for UEs supporting dormant state as specified in TS 36.321 [6]. Value in number of radio frames. Value rf4 corresponds to 4 radio frames, value rf8 corresponds to 8 radio frames and so on. E-UTRAN only configures the field if the UE is configured with one or more SCells other than the PSCell and PUCCH SCell. The same value applies for each SCell of a Cell Group (i.e. MCG or SCG) (although the associated functionality is performed independently for each SCell). Field dormantSCellDeactivationTimer does not apply for the PUCCH SCell.

drx-Config

Used to configure DRX as specified in TS 36.321 [6]. E-UTRAN configures the values in DRX-Config-v1130 only if the UE indicates support for IDC indication. E-UTRAN configures drx-Config-v1130, drx-Config-v1310 and drx-Config-r13 only if drx-Config (without suffix) is configured. E-UTRAN configures drx-Config-r13 only if UE supports CE or if the UE is configured with uplink of an LAA SCell.

drx-InactivityTimer

Timer for DRX in TS 36.321 [6]. Value in number of PDCCH sub-frames. Value psf0 corresponds to 0 PDCCH sub-frame and behaviour as specified in 7.3.2 applies, value psf1 corresponds to 1 PDCCH sub-frame, psf2 corresponds to 2 PDCCH sub-frames and so on.

drx-RetransmissionTimer

Timer for DRX in TS 36.321 [6]. Value in number of PDCCH sub-frames. Value psf0 corresponds to 0 PDCCH sub-frame and behaviour as specified in 7.3.2 applies, value psf1 corresponds to 1 PDCCH sub-frame, psf2 corresponds to 2 PDCCH sub-frames and so on. In case drx-RetransmissionTimer-v1130 or drx-RetransmissionTimer-v1310 is signalled, the UE shall ignore drx-RetransmissionTimer (i.e. without suffix).

drx-RetransmissionTimerShortTTI

Timer for DRX in TS 36.321 [6]. Value in number of short TTIs when short TTI is configured. Value tti10 corresponds to 10 TTIs, value tti20 corresponds to 20 TTIs and so on.

drx-ULRetransmissionTimer

Timer for DRX in TS 36.321 [6]. Value in number of PDCCH sub-frames. Value psf0 correponds to 0 PDCCH sub-frame and behaviour as specified in 7.3.2 applies, value psf1 corresponds to 1 PDCCH sub-frame, psf2 corresponds to 2 PDCCH sub-frames and so on.

drx-UL-RetransmissionTimerShortTTI

Timer for DRX in TS 36.321 [6]. Value in number of short TTIs when short TTI is configured. Value tti0 corresponds to 0 TTIs and behaviour as specified in 7.3.2 applies, value tti1 corresponds to 1 TTI and so on.

drxShortCycleTimer

Timer for DRX in TS 36.321 [6]. Value in multiples of shortDRX-Cycle. A value of 1 corresponds to shortDRX-Cycle, a value of 2 corresponds to 2 * shortDRX-Cycle and so on.

dualConnectivityPHR

Indicates if power headroom shall be reported using Dual Connectivity Power Headroom Report MAC Control Element defined in TS 36.321 [6] (value setup). For both LTE DC and (NG)EN-DC, if PHR functionality is configured, E-UTRAN always configures the value setup for this field and configures phr-Config and dualConnectivityPHR. For LTE DC, E-UTRAN configures the field for both CGs while for (NG)EN-DC, E-UTRAN configures the field only for MCG.

e-HARQ-Pattern

TRUE indicates that enhanced HARQ pattern for TTI bundling is enabled for FDD. E-UTRAN enables this field only when ttiBundling is set to TRUE.

eDRX-Config-CycleStartOffset

Indicates longDRX-Cycle and drxStartOffset in TS 36.321 [6]. The value of longDRX-Cycle is in number of sub-frames. The value of drxStartOffset, in number of subframes, is indicated by the value of eDRX-Config-CycleStartOffset multiplied by 2560 plus the offset value configured in longDRX-CycleStartOffset. E-UTRAN only configures value setup when the value in longDRX-CycleStartOffset is sf2560.

extendedBSR-Sizes

If value setup is configured, the BSR index indicates extended BSR size levels as defined in TS 36.321 [6], Table 6.1.3.1-2.

extendedPHR

Indicates if power headroom shall be reported using the Extended Power Headroom Report MAC control element defined in TS 36.321 [6] (value setup). E-UTRAN always configures the value setup if more than one and up to eight Serving Cell(s) with uplink is configured and none of the serving cells with uplink configured has a servingCellIndex higher than seven and if PUCCH on SCell is not configured and if dual connectivity is not configured. E-UTRAN configures extendedPHR only if phr-Config is configured. The UE shall release extendedPHR if phr-Config is released.

extendedPHR2

Indicates if power headroom shall be reported using the Extended Power Headeroom Report MAC Control Element defined in TS 36.321 [6] (value setup). E-UTRAN always configures the value setup if any of the serving cells with uplink configured has a servingCellIndex higher than seven in case dual connectivity is not configured or if PUCCH SCell (with any number of serving cells with uplink configured) is configured. E-UTRAN configures extendedPHR2 only if phr-Config is configured. The UE shall release extendedPHR2 if phr-Config is released.

logicalChannelSR-ProhibitTimer

Timer used to delay the transmission of an SR for logical channels enabled by logicalChannelSR-Prohibit. Value sf20 corresponds to 20 subframes, sf40 corresponds to 40 subframes, and so on. See TS 36.321 [6].

longDRX-CycleStartOffset

longDRX-Cycle and drxStartOffset in TS 36.321 [6] unless eDRX-Config-CycleStartOffset is configured. The value of longDRX-Cycle is in number of sub-frames. Value sf10 corresponds to 10 sub-frames, sf20 corresponds to 20 sub-frames and so on. If shortDRX-Cycle is configured, the value of longDRX-Cycle shall be a multiple of the shortDRX-Cycle value. The value of drxStartOffset value is in number of sub-frames. In case longDRX-CycleStartOffset-v1130 is signalled, the UE shall ignore longDRX-CycleStartOffset (i.e. without suffix). In case longDRX-CycleStartOffset-v1310 is signalled, the UE shall ignore longDRX-CycleStartOffset (i.e. without suffix).

maxHARQ-Tx

Maximum number of transmissions for UL HARQ in TS 36.321 [6].

mpdcch-UL-HARQ-ACK-FeedbackConfig

TRUE indicates E-UTRAN may send UL HARQ-ACK feedback or UL grant corresponding to a new transmission for early termination of PUSCH transmission, or positive acknowledgement of completed PUSCH transmissions as specified in TS 36.321 [6] and TS 36.212 [22]. In case of acknowledgement of RRC Connection Release, MPDCCH monitoring is terminated.

onDurationTimer

Timer for DRX in TS 36.321 [6]. Value in number of PDCCH sub-frames. Value psf1 corresponds to 1 PDCCH sub-frame, psf2 corresponds to 2 PDCCH sub-frames and so on. In case onDurationTimer-v1310 is signalled, the UE shall ignore onDurationTimer (i.e. without suffix).

periodicBSR-Timer

Timer for BSR reporting in TS 36.321 [6]. Value in number of sub-frames. Value sf10 corresponds to 10 sub-frames, sf20 corresponds to 20 sub-frames and so on.

periodicPHR-Timer

Timer for PHR reporting in TS 36.321 [6]. Value in number of sub-frames. Value sf10 corresponds to 10 subframes, sf20 corresponds to 20 subframes and so on.

phr-ModeOtherCG

Indicates the mode (i.e. real or virtual) used for the PHR of the activated cells that are part of the other Cell Group (i.e. MCG or SCG), when DC is configured.

proc-Timeline

Minimum processing timeline for short TTI with subslot operation. Value nplus4set1 indicates processing time n+4 for set 1, value nplus6set1 indicates processing time n+6 for set 1, value nplus6set2 indicates processing time n+6 for set and value nplus8set2 indicates processing time n+8 for set 2. See also UE capability min-Proc-TimelineSubslot for sTTI.

prohibitPHR-Timer

Timer for PHR reporting in TS 36.321 [6]. Value in number of sub-frames. Value sf0 corresponds to 0 subframes and behaviour as specified in 7.3.2 applies, sf100 corresponds to 100 subframes and so on.

rai-Activation

Activation of release assistance indication (RAI) in TS 36.321 [6] for BL UEs.

retxBSR-Timer

Timer for BSR reporting in TS 36.321 [6]. Value in number of sub-frames. Value sf640 corresponds to 640 sub-frames, sf1280 corresponds to 1280 sub-frames and so on.

sCellDeactivationTimer

SCell deactivation timer in TS 36.321 [6]. Value in number of radio frames. Value rf4 corresponds to 4 radio frames, value rf8 corresponds to 8 radio frames and so on. E-UTRAN only configures the field if the UE is configured with one or more SCells other than the PSCell and PUCCH SCell. If the field is absent, the UE shall delete any existing value for this field and assume the value to be set to infinity. The same value applies for each SCell of a Cell Group (i.e. MCG or SCG) (although the associated functionality is performed independently for each SCell). Field sCellDeactivationTimer does not apply for the PUCCH SCell.

sCellHibernationTimer

SCell hibernation timer for UEs supporting dormant SCell state as specified in TS 36.321 [6]. Value in number of radio frames. Value rf4 corresponds to 4 radio frames, value rf8 corresponds to 8 radio frames and so on. E-UTRAN only configures the field if the UE is configured with one or more SCells other than the PSCell and PUCCH SCell. The same value applies for each SCell of a Cell Group (i.e. MCG or SCG) (although the associated functionality is performed independently for each SCell). Field sCellHibernationTimer does not apply for the PUCCH SCell.

shortDRX-Cycle

Short DRX cycle in TS 36.321 [6]. Value in number of sub-frames. Value sf2 corresponds to 2 sub-frames, sf5 corresponds to 5 subframes and so on. In case shortDRX-Cycle-v1130 is signalled, the UE shall ignore shortDRX-Cycle (i.e. without suffix). Short DRX cycle is not configured for UEs in CE.

skipUplinkTxDynamic

If configured, the UE skips UL transmissions for an uplink grant other than a configured uplink grant if no data is available for transmission in the UE buffer as described in TS 36.321 [6].

skipUplinkTxSPS

If configured, the UE skips UL transmissions for a configured uplink grant if no data is available for transmission in the UE buffer as described in TS 36.321 [6]. E-UTRAN always configures skipUplinkTxSPS when there is at least one SPS configuration with semiPersistSchedIntervalUL shorter than sf10 or when at least one SPS-ConfigUL-STTI is configured for the cell group.

sr-ProhibitTimer

Timer for SR transmission on PUCCH in TS 36.321 [6]. Value in number of SR period(s) of shortest SR period of any serving cell with PUCCH. Value 0 means that behaviour as specified in 7.3.2 applies. Value 1 corresponds to one SR period, Value 2 corresponds to 2*SR periods and so on. SR period is defined in TS 36.213 [23], table 10.1.5-1.

ssr-ProhibitTimer

Timer for prohibiting SR transmission on SPUCCH in TS 36.321 [6]. Value in number of SR period(s) of shortest SR period of any serving cell with SPUCCH. Value 0 means that behaviour as specified in 7.3.2 applies. Value 1 corresponds to one SR period, value 2 corresponds to 2 SR periods and so on. SR period is defined in TS 36.213 [23], table 10.1.5-1.

stag-Id

Indicates the TAG of an SCell, see TS 36.321 [6]. Uniquely identifies the TAG within the scope of a Cell Group (i.e. MCG or SCG). If the field is not configured for an SCell (e.g. absent in MAC-MainConfigSCell), the SCell is part of the PTAG.

stag-ToAddModList, stag-ToReleaseList

Used to configure one or more STAGs. E-UTRAN ensures that a STAG contains at least one SCell with configured uplink. If, due to SCell release a reconfiguration would result in an ’empty’ TAG, E-UTRAN includes release of the concerned TAG.

timeAlignmentTimerSTAG

Indicates the value of the time alignment timer for an STAG, see TS 36.321 [6].

ttiBundling

TRUE indicates that TTI bundling TS 36.321 [6] is enabled while FALSE indicates that TTI bundling is disabled. TTI bundling can be enabled for FDD and for TDD for configurations 0, 1 and 6 and additionally for configurations 2 and 3 when symPUSCH-UpPTS-r14 is configured. The functionality is performed independently per Cell Group (i.e. MCG or SCG), but E-UTRAN does not configure TTI bundling for the SCG. For a TDD PCell, E-UTRAN does not simultaneously enable TTI bundling and semi-persistent scheduling in this release of specification. Furthermore, for a Cell Group, E-UTRAN does not simultaneously configure TTI bundling and SCells with configured uplink, and E-UTRAN does not simultaneously configure TTI bundling and eIMTA.

– P-C-AndCBSR

The IE P-C-AndCBSR is used to specify the power control and codebook subset restriction configuration.

P-C-AndCBSR information elements

— ASN1START

P-C-AndCBSR-r11 ::= SEQUENCE {

p-C-r11 INTEGER (-8..15),

codebookSubsetRestriction-r11 BIT STRING

}

P-C-AndCBSR-r13 ::= SEQUENCE {

p-C-r13 INTEGER (-8..15),

cbsr-Selection-r13 CHOICE{

nonPrecoded-r13 SEQUENCE {

codebookSubsetRestriction1-r13 BIT STRING,

codebookSubsetRestriction2-r13 BIT STRING

},

beamformedK1a-r13 SEQUENCE {

codebookSubsetRestriction3-r13 BIT STRING

},

beamformedKN-r13 SEQUENCE {

codebookSubsetRestriction-r13 BIT STRING

}

},

}

P-C-AndCBSR-r15 ::= SEQUENCE {

p-C-r15 INTEGER (-8..15),

codebookSubsetRestriction4-r15 BIT STRING

}

P-C-AndCBSR-Pair-r13a ::= SEQUENCE (SIZE (1..2)) OF P-C-AndCBSR-r11

P-C-AndCBSR-Pair-r13 ::= SEQUENCE (SIZE (1..2)) OF P-C-AndCBSR-r13

P-C-AndCBSR-Pair-r15 ::= SEQUENCE (SIZE (1..2)) OF P-C-AndCBSR-r15

— ASN1STOP

P-C-AndCBSR field descriptions

cbsr-Selection

Indicates which codebook subset restriction parameter(s) are to be used. E-UTRAN applies values nonPrecoded when eMIMO-Type is set to nonPrecoded. E-UTRAN applies value beamformedK1a when eMIMO-Type is set to beamformed, alternativeCodebookEnabledBeamformed is set to TRUE and csi-RS-ConfigNZPIdListExt is not configured. E-UTRAN applies value beamformedKN when csi-RS-ConfigNZPIdListExt is configured. E-UTRAN applies value beamformedKN when eMIMO-Type is set to beamformed, csi-RS-ConfigNZPIdListExt is not configured and alternativeCodebookEnabledBeamformed is set to FALSE.

codebookSubsetRestriction

Parameter: codebookSubsetRestriction, see TS 36.213 [23] and TS 36.211 [21]. The number of bits in the codebookSubsetRestriction for applicable transmission modes is defined in TS 36.213 [23].

codebookSubsetRestriction1

Parameter: codebookSubsetRestriction1, see TS 36.213 [23], Table 7.2-1d. The number of bits in the codebookSubsetRestriction1 for applicable transmission modes is defined in TS 36.213 [23].

codebookSubsetRestriction2

Parameter: codebookSubsetRestriction2, see TS 36.213 [23], Table 7.2-1e. The number of bits in the codebookSubsetRestriction2 for applicable transmission modes is defined in TS 36.213 [23].

codebookSubsetRestriction3

Parameter: codebookSubsetRestriction3, see TS 36.213 [23], Table 7.2-1f. The UE shall ignore codebookSubsetRestriction-r11 or codebookSubsetRestriction-r10 if codebookSubsetRestriction3-r13 is configured. The number of bits in the codebookSubsetRestriction3 for applicable transmission modes is defined in TS 36.213 [23].

codebookSubsetRestriction4

Parameter: codebookSubsetRestriction4, see TS 36.213 [23], Table 7.2. The number of bits in the codebookSubsetRestriction4 for applicable transmission modes is defined in TS 36.213 [23].

p-C

Parameter: , see TS 36.213 [23], clause 7.2.5.

P-C-AndCBSR-Pair

E-UTRAN includes a single entry if the UE is configured with TM9. If the UE is configured with TM10 and E-UTRAN includes 2 entries, this indicates that the subframe patterns configured for CSI (CQI/PMI/PTI/RI/CRI) reporting (i.e. as defined by field csi-MeasSubframeSet1 and csi-MeasSubframeSet2, or as defined by csi-MeasSubframeSets-r12) are to be used for this CSI process, while including a single entry indicates that the subframe patterns are not to be used for this CSI process. For a UE configured with TM10, E-UTRAN does not include 2 entries with csi-MeasSubframeSet1 and csi-MeasSubframeSet2 for CSI processes concerning a secondary frequency. Furthermore, E-UTRAN includes 2 entries when configuring both cqi-pmi-ConfigIndex and cqi-pmi-ConfigIndex2.

PDCCH-ConfigSCell

The IE PDCCH-ConfigSCell specifies PDCCH monitoring parameters that E-UTRAN may configure for a serving cell.

PDCCH-ConfigSCell information element

— ASN1START

PDCCH-ConfigSCell-r13 ::= SEQUENCE {

skipMonitoringDCI-format0-1A-r13 ENUMERATED {true} OPTIONAL — Need OR

}

PDCCH-ConfigLAA-r14 ::= SEQUENCE {

maxNumberOfSchedSubframes-Format0B-r14 ENUMERATED {sf2, sf3, sf4} OPTIONAL, — Need OR

maxNumberOfSchedSubframes-Format4B-r14 ENUMERATED {sf2, sf3, sf4} OPTIONAL, — Need OR

skipMonitoringDCI-Format0A-r14 ENUMERATED {true} OPTIONAL, — Need OR

skipMonitoringDCI-Format4A-r14 ENUMERATED {true} OPTIONAL, — Need OR

pdcch-CandidateReductions-Format0A-r14

PDCCH-CandidateReductions-r13 OPTIONAL, — Need ON

pdcch-CandidateReductions-Format4A-r14

PDCCH-CandidateReductionsLAA-UL-r14 OPTIONAL, — Need ON

pdcch-CandidateReductions-Format0B-r14

PDCCH-CandidateReductionsLAA-UL-r14 OPTIONAL, — Need ON

pdcch-CandidateReductions-Format4B-r14

PDCCH-CandidateReductionsLAA-UL-r14 OPTIONAL — Need ON

}

PDCCH-CandidateReductionValue-r13 ::= ENUMERATED {n0, n33, n66, n100}

PDCCH-CandidateReductionValue-r14 ::= ENUMERATED {n0, n50, n100, n150}

PDCCH-CandidateReductions-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

pdcch-candidateReductionAL1-r13 PDCCH-CandidateReductionValue-r13,

pdcch-candidateReductionAL2-r13 PDCCH-CandidateReductionValue-r13,

pdcch-candidateReductionAL3-r13 PDCCH-CandidateReductionValue-r13,

pdcch-candidateReductionAL4-r13 PDCCH-CandidateReductionValue-r13,

pdcch-candidateReductionAL5-r13 PDCCH-CandidateReductionValue-r13

}

}

PDCCH-CandidateReductionsLAA-UL-r14 ::= CHOICE {

release NULL,

setup SEQUENCE {

pdcch-candidateReductionAL1-r14 PDCCH-CandidateReductionValue-r13,

pdcch-candidateReductionAL2-r14 PDCCH-CandidateReductionValue-r13,

pdcch-candidateReductionAL3-r14 PDCCH-CandidateReductionValue-r14,

pdcch-candidateReductionAL4-r14 PDCCH-CandidateReductionValue-r14,

pdcch-candidateReductionAL5-r14 PDCCH-CandidateReductionValue-r14

}

}

— ASN1STOP

PDCCH-ConfigSCell field descriptions

maxNumberOfSchedSubframes-Format0B

Indicates maximum number of schedulable subframes for DCI format 0B as specified in TS 36.213 [23]. Value sf2 corresponds to 2 subframes, value sf3 corresponds to 3 subframes and so on.

maxNumberOfSchedSubframes-Format4B

Indicates maximum number of schedulable subframes for DCI format 4B as specified in TS 36.213 [23]. Value sf2 corresponds to 2 subframes, value sf3 corresponds to 3 subframes and so on.

skipMonitoringDCI-format0-1A

Indicates whether the UE is configured to omit monitoring DCI fromat 0/1A, see TS 36.213 [23], clause 9.1.1.

skipMonitoringDCI-Format0A

Indicates whether the UE is configured to omit monitoring DCI fromat 0A as specified in TS 36.213 [23].

skipMonitoringDCI-Format4A

Indicates whether the UE is configured to omit monitoring DCI fromat 4A as specified in TS 36.213 [23].

pdcch-candidateReductionALx

Indicates reduced (E)PDCCH monitoring requirements on UE specific search space of the x-th aggregation level, see TS 36.213 [23], clause 9.1.1. Value n0 corresponds to 0%, value n33 corresponds to 33% and so on.

pdcch-CandidateReductions-Formatx

Indicates number of blind detections on UE specific search space for each aggregation layer as specified in TS 36.213 [23]. The field can only be present when the UE is configured with uplink of an LAA SCell. If pdcch-CandidateReductions-Formatx is not configured, pdcch-CandidateReductions-r13 applies to the corresponding DCIs (if configured).

PDCP-Config

The IE PDCP-Config is used to set the configurable PDCP parameters for data radio bearers.

PDCP-Config information element

— ASN1START

PDCP-Config ::= SEQUENCE {

discardTimer ENUMERATED {

ms50, ms100, ms150, ms300, ms500,

ms750, ms1500, infinity

} OPTIONAL, — Cond Setup

rlc-AM SEQUENCE {

statusReportRequired BOOLEAN

} OPTIONAL, — Cond Rlc-AM

rlc-UM SEQUENCE {

pdcp-SN-Size ENUMERATED {len7bits, len12bits}

} OPTIONAL, — Cond Rlc-UM

headerCompression CHOICE {

notUsed NULL,

rohc SEQUENCE {

maxCID INTEGER (1..16383) DEFAULT 15,

profiles SEQUENCE {

profile0x0001 BOOLEAN,

profile0x0002 BOOLEAN,

profile0x0003 BOOLEAN,

profile0x0004 BOOLEAN,

profile0x0006 BOOLEAN,

profile0x0101 BOOLEAN,

profile0x0102 BOOLEAN,

profile0x0103 BOOLEAN,

profile0x0104 BOOLEAN

},

}

},

…,

[[ rn-IntegrityProtection-r10 ENUMERATED {enabled} OPTIONAL — Cond RN

]],

[[ pdcp-SN-Size-v1130 ENUMERATED {len15bits} OPTIONAL — Cond Rlc-AM2

]],

[[ ul-DataSplitDRB-ViaSCG-r12 BOOLEAN OPTIONAL, — Need ON

t-Reordering-r12 ENUMERATED {

ms0, ms20, ms40, ms60, ms80, ms100, ms120, ms140,

ms160, ms180, ms200, ms220, ms240, ms260, ms280, ms300,

ms500, ms750, spare14, spare13, spare12, spare11, spare10,

spare9, spare8, spare7, spare6, spare5, spare4, spare3,

spare2, spare1} OPTIONAL — Cond SetupS

]],

[[ ul-DataSplitThreshold-r13 CHOICE {

release NULL,

setup ENUMERATED {

b0, b100, b200, b400, b800, b1600, b3200, b6400, b12800,

b25600, b51200, b102400, b204800, b409600, b819200,

spare1}

} OPTIONAL, — Need ON

pdcp-SN-Size-v1310 ENUMERATED {len18bits} OPTIONAL, — Cond Rlc-AM3

statusFeedback-r13 CHOICE {

release NULL,

setup SEQUENCE {

statusPDU-TypeForPolling-r13 ENUMERATED {type1, type2} OPTIONAL, — Need ON

statusPDU-Periodicity-Type1-r13 ENUMERATED {

ms5, ms10, ms20, ms30, ms40, ms50, ms60, ms70, ms80, ms90,

ms100, ms150, ms200, ms300, ms500, ms1000, ms2000, ms5000,

ms10000, ms20000, ms50000} OPTIONAL, — Need ON

statusPDU-Periodicity-Type2-r13 ENUMERATED {

ms5, ms10, ms20, ms30, ms40, ms50, ms60, ms70, ms80, ms90,

ms100, ms150, ms200, ms300, ms500, ms1000, ms2000, ms5000,

ms10000, ms20000, ms50000} OPTIONAL, — Need ON

statusPDU-Periodicity-Offset-r13 ENUMERATED {

ms1, ms2, ms5, ms10, ms25, ms50, ms100, ms250, ms500,

ms2500, ms5000, ms25000} OPTIONAL — Need ON

}

} OPTIONAL — Need ON

]],

[[ ul-LWA-Config-r14 CHOICE {

release NULL,

setup SEQUENCE {

ul-LWA-DRB-ViaWLAN-r14 BOOLEAN,

ul-LWA-DataSplitThreshold-r14 ENUMERATED {

b0, b100, b200, b400, b800, b1600, b3200, b6400,

b12800, b25600, b51200, b102400, b204800, b409600,

b819200 } OPTIONAL — Need OR

}

} OPTIONAL, — Need ON

uplinkOnlyHeaderCompression-r14 CHOICE {

notUsed-r14 NULL,

rohc-r14 SEQUENCE {

maxCID-r14 INTEGER (1..16383) DEFAULT 15,

profiles-r14 SEQUENCE {

profile0x0006-r14 BOOLEAN

},

}

} OPTIONAL — Need ON

]],

[[ uplinkDataCompression-r15 SEQUENCE {

bufferSize-r15 ENUMERATED {kbyte2, kbyte4, kbyte8, spare1},

dictionary-r15 ENUMERATED {sip-SDP, operator} OPTIONAL, — Need OR

} OPTIONAL,– Cond Rlc-AM4

pdcp-DuplicationConfig-r15 CHOICE {

release NULL,

setup SEQUENCE {

pdcp-Duplication-r15 ENUMERATED {configured, activated}

}

} OPTIONAL — Need ON

]]

}

— ASN1STOP

PDCP-Config field descriptions

bufferSize

Indicates the buffer size applied for UDC specified in TS 36.323 [8]. Value kbyte2 means 2048 bytes, kbyte4 means 4096 bytes and so on. E-UTRAN does not reconfigure bufferSize for a DRB except for handover cases.

dictionary

Indicates which pre-defined dictionary is used for UDC as specified in TS 36.323 [8]. The value sip-SDP means that UE shall prefill the buffer with standard dictionary for SIP and SDP defined in TS 36.323 [8], and the value operator means that UE shall prefill the buffer with operator-defined dictionary.

discardTimer

Indicates the discard timer value specified in TS 36.323 [8]. Value in milliseconds. Value ms50 means 50 ms, ms100 means 100 ms and so on.

headerCompression

E-UTRAN does not reconfigure header compression for an MCG DRB except for upon handover and upon the first reconfiguration after RRC connection re-establishment, and without any drb-ContinueROHC. E-UTRAN does not reconfigure header compression for a SCG DRB except for upon SCG change involving PDCP re-establishment. E-UTRAN does not configure header compression while t-Reordering is configured. E-UTRAN only configures this field when neither uplinkOnlyHeaderCompression nor uplinkDataCompression is configured.

If headerCompression is configured, the UE shall apply the configured ROHC profile(s) in both uplink and downlink.

maxCID

Indicates the value of the MAX_CID parameter as specified in TS 36.323 [8]. The total value of MAX_CIDs across all bearers for the UE should be less than or equal to the value of maxNumberROHC-ContextSessions parameter as indicated by the UE.

pdcp-Duplication

Parameter for configuring PDCP duplication as specified in TS 36.323 [8]. Value configured indicates that PDCP duplication is configured but initially deactivated and value activated indicates that PDCP duplication is configured and activated upon configuration. For EN-DC, E-UTRAN configures PDCP duplication for MCG DRB only if PDCP duplication is not configured for any split DRB.

pdcp-SN-Size

Indicates the PDCP Sequence Number length in bits. For RLC UM: value len7bits means that the 7-bit PDCP SN format is used and len12bits means that the 12-bit PDCP SN format is used. For RLC AM: value len15bits means that the 15-bit PDCP SN format is used, value len18bits means that the 18-bit PDCP SN format is used, otherwise if the field is not included upon setup of the PCDP entity 12-bit PDCP SN format is used, as specified in TS 36.323 [8].

profiles

The profiles used by both compressor and decompressor in both UE and E-UTRAN. The field indicates which of the ROHC profiles specified in TS 36.323 [8] are supported, i.e. value true indicates that the profile is supported. Profile 0x0000 shall always be supported when the use of ROHC is configured. If support of two ROHC profile identifiers with the same 8 LSB’s is signalled, only the profile corresponding to the highest value shall be applied.

statusFeedback

Indicates whether the UE shall send PDCP Status Report periodically or by E-UTRAN polling as specified in TS 36.323 [8]. E-UTRAN configures this field only for LWA DRB.

statusPDU-TypeForPolling

Indicates the PDCP Control PDU option when it is triggered by E-UTRAN polling. Value type1 indicates using the legacy PDCP Control PDU for PDCP status reporting and value type2 indicates using the LWA specific PDCP Control PDU for LWA status reporting as specified in TS 36.323 [8].

statusPDU-Periodicity-Type1

Indicates the value of the PDCP Status reporting periodicity for type1 Status PDU, as specified in TS 36.323 [8]. Value in milliseconds. Value ms5 means 5 ms, ms10 means 10 ms and so on.

statusPDU-Periodicity-Type2

Indicates the value of the PDCP Status reporting periodicity for type2 Status PDU, as specified in TS 36.323 [8]. Value in milliseconds. Value ms5 means 5 ms, ms10 means 10 ms and so on.

statusPDU-Periodicity-Offset

Indicates the value of the offset for type2 Status PDU periodicity, as specified in TS 36.323 [8]. Value in milliseconds. Value ms1 means 1 ms, ms2 means 2 ms and so on.

t-Reordering

Indicates the value of the reordering timer, as specified in TS 36.323 [8]. Value in milliseconds. Value ms0 means 0 ms and behaviour as specified in 7.3.2 applies, ms20 means 20 ms and so on.

rn-IntegrityProtection

Indicates that integrity protection or verification shall be applied for all subsequent packets received and sent by the RN on the DRB.

statusReportRequired

Indicates whether or not the UE shall send a PDCP Status Report upon re-establishment of the PDCP entity and upon PDCP data recovery as specified in TS 36.323 [8].

ul-DataSplitDRB-ViaSCG

Indicates whether the UE shall send PDCP PDUs via SCG as specified in TS 36.323 [8]. E-UTRAN only configures the field (i.e. indicates value TRUE) for split DRBs. For PDCP duplication, if this field is set to TRUE, the primary RLC entity is SCG RLC entity and the secondary RLC entity is MCG RLC entity. If this field is not configured or set to FALSE, the primary RLC entity is MCG RLC entity and the secondary RLC entity is SCG RLC entity.

ul-DataSplitThreshold

Indicates the threshold value for uplink data split operation specified in TS 36.323 [8]. Value b100 means 100 Bytes, b200 means 200 Bytes and so on. E-UTRAN only configures this field for split DRBs.

ul-LWA-DRB-ViaWLAN

Indicates whether the UE shall send PDCP PDUs via the LWAAP entity as specified in TS 36.323 [8]. E‑UTRAN only configures this field (i.e. indicates value TRUE) for LWA DRBs.

ul-LWA-DataSplitThreshold

Indicates the threshold value for uplink data split operation as specified in TS 36.323 [8]. Value b0 means 0 Bytes, b100 means 100 Bytes and so on. E-UTRAN only configures this field for LWA DRBs.

uplinkDataCompression

Indicates the UDC configuration that the UE shall apply. E-UTRAN does not configure uplinkDataCompression for a DRB, if headerCompression or uplinkOnlyHeaderCompression is already configured for the DRB. E-UTRAN does not configure uplinkDataCompression for the split and LWA DRBs.The maximum number of DRBs where uplinkDataCompression can be applied is two. In this version of the specification, for existing DRBs, E-UTRAN can only configure uplinkDataCompression via handover procedure.

uplinkOnlyHeaderCompression

Indicates the ROHC configuration that the UE shall apply uplink-only ROHC operations, see TS 36.323 [8]. E-UTRAN only configures this field when headerCompression is not configured.

E-UTRAN does not reconfigure header compression for an MCG DRB except for upon handover and upon the first reconfiguration after RRC connection re-establishment. E-UTRAN does not reconfigure header compression for a SCG DRB except for upon SCG change involving PDCP re-establishment. For split and LWA DRBs E-UTRAN configures only notUsed.

Conditional presence

Explanation

Rlc-AM

The field is mandatory present upon setup of a PDCP entity for a radio bearer configured with RLC AM. The field is optional, need ON, in case of reconfiguration of a PDCP entity at handover, at the first reconfiguration after RRC re-establishment or at SCG change involving PDCP re-establishment or PDCP data recovery for a radio bearer configured with RLC AM. Otherwise the field is not present.

Rlc-AM2

The field is optionally present, need OP, upon setup of a PDCP entity for a radio bearer configured with RLC AM. Otherwise the field is not present.

Rlc-AM3

The field is optionally present, need OP, upon setup of a PDCP entity for a radio bearer configured with RLC AM, if pdcp-SN-Size-v1130 is absent. Otherwise the field is not present.

Rlc-AM4

The field is optionally present, need ON, upon setup of a PDCP entity for a radio bearer configured with RLC AM. The field is optional, need OP, in case of reconfiguration of a PDCP entity at handover. Otherwise the field is not present and the UE shall continue to use the existing value.

Rlc-UM

The field is mandatory present upon setup of a PDCP entity for a radio bearer configured with RLC UM. It is optionally present, Need ON, upon handover within E-UTRA, upon the first reconfiguration after re-establishment and upon SCG change involving PDCP re-establishment. Otherwise the field is not present.

RN

The field is optionally present when signalled to the RN, need OR. Otherwise the field is not present.

Setup

The field is mandatory present in case of radio bearer setup. Otherwise the field is optionally present, need ON.

SetupS

The field is mandatory present in case of setup of or reconfiguration to a split DRB or LWA DRB as well as in case of setup of reconfiguration to a DRB associated with at least one RLC entity configured with rlc-OutOfOrderDelivery. The field is optionally present upon reconfiguration of a split DRB or LWA DRB or upon DRB type change from split to MCG DRB or from LWA to LTE only as well as upon reconfiguration of a DRB associated with at least one RLC entity configured with rlc-OutOfOrderDelivery, need ON. Otherwise the field is not present.

PDSCH-Config

The IE PDSCH-ConfigCommon and the IE PDSCH-ConfigDedicated are used to specify the common and the UE specific PDSCH configuration respectively.

PDSCH-Config information element

— ASN1START

PDSCH-ConfigCommon ::= SEQUENCE {

referenceSignalPower INTEGER (-60..50),

p-b INTEGER (0..3)

}

PDSCH-ConfigCommon-v1310 ::= SEQUENCE {

pdsch-maxNumRepetitionCEmodeA-r13 ENUMERATED {

r16, r32 } OPTIONAL, — Need OR

pdsch-maxNumRepetitionCEmodeB-r13 ENUMERATED {

r192, r256, r384, r512, r768, r1024,

r1536, r2048} OPTIONAL — Need OR

}

PDSCH-ConfigDedicated::= SEQUENCE {

p-a ENUMERATED {

dB-6, dB-4dot77, dB-3, dB-1dot77,

dB0, dB1, dB2, dB3}

}

PDSCH-ConfigDedicated-v1130 ::= SEQUENCE {

dmrs-ConfigPDSCH-r11 DMRS-Config-r11 OPTIONAL, — Need ON

qcl-Operation ENUMERATED {typeA, typeB} OPTIONAL, — Need OR

re-MappingQCLConfigToReleaseList-r11 RE-MappingQCLConfigToReleaseList-r11 OPTIONAL, — Need ON

re-MappingQCLConfigToAddModList-r11 RE-MappingQCLConfigToAddModList-r11 OPTIONAL — Need ON

}

PDSCH-ConfigDedicated-v1280 ::= SEQUENCE {

tbsIndexAlt-r12 ENUMERATED {a26, a33} OPTIONAL — Need OR

}

PDSCH-ConfigDedicated-v1310 ::= SEQUENCE {

dmrs-ConfigPDSCH-v1310 DMRS-Config-v1310 OPTIONAL — Need ON

}

PDSCH-ConfigDedicated-v1430 ::= SEQUENCE {

ce-PDSCH-MaxBandwidth-r14 ENUMERATED {bw5, bw20} OPTIONAL, — Need OP

ce-PDSCH-TenProcesses-r14 ENUMERATED {on} OPTIONAL, — Need OR

ce-HARQ-AckBundling-r14 ENUMERATED {on} OPTIONAL, — Need OR

ce-SchedulingEnhancement-r14 ENUMERATED {range1, range2} OPTIONAL, — Need OR

tbsIndexAlt2-r14 ENUMERATED {b33} OPTIONAL — Need OR

}

PDSCH-ConfigDedicated-v1530 ::= SEQUENCE {

qcl-Operation-v1530 ENUMERATED {typeC} OPTIONAL, — Need OR

tbs-IndexAlt3-r15 ENUMERATED {a37} OPTIONAL, — Need OR

ce-CQI-AlternativeTableConfig-r15 ENUMERATED {on} OPTIONAL, — Need OR

ce-PDSCH-64QAM-Config-r15 ENUMERATED {on} OPTIONAL, — Need OR

ce-PDSCH-FlexibleStartPRB-AllocConfig-r15 ENUMERATED {on} OPTIONAL, — Need OR

altMCS-TableScalingConfig-r15 ENUMERATED {oDot5, oDot625, oDot75, oDot875} OPTIONAL — Need OR

}

PDSCH-ConfigDedicatedSCell-v1430 ::= SEQUENCE {

tbsIndexAlt2-r14 ENUMERATED {b33} OPTIONAL — Need OR

}

RE-MappingQCLConfigToAddModList-r11 ::= SEQUENCE (SIZE (1..maxRE-MapQCL-r11)) OF PDSCH-RE-MappingQCL-Config-r11

RE-MappingQCLConfigToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxRE-MapQCL-r11)) OF PDSCH-RE-MappingQCL-ConfigId-r11

PDSCH-RE-MappingQCL-Config-r11 ::= SEQUENCE {

pdsch-RE-MappingQCL-ConfigId-r11 PDSCH-RE-MappingQCL-ConfigId-r11,

optionalSetOfFields-r11 SEQUENCE {

crs-PortsCount-r11 ENUMERATED {n1, n2, n4, spare1},

crs-FreqShift-r11 INTEGER (0..5),

mbsfn-SubframeConfigList-r11 CHOICE {

release NULL,

setup SEQUENCE {

subframeConfigList MBSFN-SubframeConfigList

}

} OPTIONAL, — Need ON

pdsch-Start-r11 ENUMERATED {reserved, n1, n2, n3, n4, assigned}

} OPTIONAL, — Need OP

csi-RS-ConfigZPId-r11 CSI-RS-ConfigZPId-r11,

qcl-CSI-RS-ConfigNZPId-r11 CSI-RS-ConfigNZPId-r11 OPTIONAL, — Need OR

…,

[[ mbsfn-SubframeConfigList-v1430 CHOICE {

release NULL,

setup SEQUENCE {

subframeConfigList-v1430 MBSFN-SubframeConfigList-v1430

}

} OPTIONAL — Need OP

]],

[[ codewordOneConfig-v1530 CHOICE {

release NULL,

setup SEQUENCE {

crs-PortsCount-v1530 ENUMERATED {n1, n2, n4, spare1},

crs-FreqShift-v1530 INTEGER (0..5),

mbsfn-SubframeConfigList-v1530 MBSFN-SubframeConfigList OPTIONAL,

mbsfn-SubframeConfigListExt-v1530 MBSFN-SubframeConfigList-v1430 OPTIONAL,

pdsch-Start-v1530 ENUMERATED {reserved, n1, n2, n3, n4, assigned},

csi-RS-ConfigZPId-v1530 CSI-RS-ConfigZPId-r11,

qcl-CSI-RS-ConfigNZPId-v1530 CSI-RS-ConfigNZPId-r11 OPTIONAL

}

} OPTIONAL — Cond TypeC

]]

}

— ASN1STOP

PDSCH-Config field descriptions

altMCS-TableScalingConfig

Presence of the field indicates activation of 6-bit MCS table (i.e., altMCS-Table) for UE indicating support for altMCS-Table, see TS 36.212 [22] and TS 36.213 [23]. The indicated value configures the parameter altMCS-Table-Scaling where value oDot5 corresponds to scaling factor 0.5, value oDot625 corresponds to scaling factor 0.625 and so on, see TS 36.213 [23].

ce-CQI-AlternativeTableConfig

Configures the UE supporting alternative CQI table to use the alternative CQI table in CE mode A. See TS 36.213 [23].

ce-HARQ-AckBundling

Activation of PDSCH HARQ-ACK bundling in half duplex FDD in CE mode A, see TS 36.212 [22] and TS 36.213 [23].

ce-PDSCH-64QAM-Config

Activation of 64 QAM for non-repeated unicast PDSCH in CE mode A.

ce-PDSCH-FlexibleStartPRB-AllocConfig

Activation of flexible starting PRB for PDSCH resource allocation in CE mode A or B. E-UTRAN does not configure this field when E-UTRA system bandwidth is 1.4 MHz.

ce-PDSCH-MaxBandwidth

Maximum PDSCH channel bandwidth in CE mode A and B, see TS 36.212 [22] and TS 36.213 [23]. Value bw5 corresponds to 5 MHz, and value bw20 corresponds to 20 MHz. If this field is absent, the UE shall release any existing value and set the maximum PDSCH channel bandwidth in CE mode A and B to 1.4 MHz. Parameter: transmission bandwidth configuration, see TS 36.101 [42], table 5.6-1. The max bandwidth can by configured to 5MHz for BL UEs and 5MHz or 20MHz for UEs in CE.

ce-PDSCH-TenProcesses

Configuration of 10 (instead of 8) DL HARQ processes in FDD in CE mode A, see TS 36.212 [22] and TS 36.213 [23].

ce-SchedulingEnhancement

Activation of dynamic HARQ-ACK delay for HD-FDD for PDSCH in CE mode A controlled by the DCI, see TS 36.212 [22] and TS 36.213 [23]. Value range1 corresponds to the first range of HARQ-ACK delays, and value range2 corresponds to second range of HARQ-ACK delays.

codewordOneConfig

The field corresponds to codeword 1, see TS 36.213 [23], clause 7.1.10. If absent, the UE applies the values from the serving cell configured on the same frequency.

mbsfn-SubframeConfigList

Indicates the MBSFN configuration for the CSI-RS resources. If optionalSetOfFields is absent, the fields mbsfn-SubframeConfigList-r11 and mbsfn-SubframeConfigList-v1430 are released.

optionalSetOfFields

If absent, the UE releases the configuration provided previously, if any, and applies the values from the serving cell configured on the same frequency. If the UE is configured with qcl-Operation-v1530, this field corresponds to codeword 0, see TS 36.213 [23], clause 7.1.10.

p-a

Parameter: , see TS 36.213 [23], clause 5.2. Value dB-6 corresponds to -6 dB, dB-4dot77 corresponds to -4.77 dB etc.

p-b

Parameter: , see TS 36.213 [23], clause Table 5.2-1.

pdsch-maxNumRepetitionCEmodeA

Maximum value to indicate the set of PDSCH repetition numbers for CE mode A, see TS 36.211 [21] and TS 36.213 [23].

pdsch-maxNumRepetitionCEmodeB

Maximum value to indicate the set of PDSCH repetition numbers for CE mode B, see TS 36.211 [21] and TS 36.213 [23].

pdsch-Start

The starting OFDM symbol of PDSCH for the concerned serving cell, see TS 36.213 [23], clause 7.1.6.4. Values 1, 2, 3 are applicable when dl-Bandwidth for the concerned serving cell is greater than 10 resource blocks, values 2, 3, 4 are applicable when dl-Bandwidth for the concerned serving cell is less than or equal to 10 resource blocks, see TS 36.211 [21], Table 6.7-1. Value n1 corresponds to 1, value n2 corresponds to 2 and so on. If the field pdsch-Start-v1530 is also configured, E-UTRAN ensures that this value is the same as pdsch-Start (i.e., without suffix).

qcl-CSI-RS-ConfigNZPId

Indicates the CSI-RS resource that is quasi co-located with the PDSCH antenna ports, see TS 36.213 [23], clause 7.1.9. E-UTRAN configures this field if and only if the UE is configured with qcl-Operation set to typeB or qcl-Operation-v1530 set to typeC. If the UE is configured with qcl-Operation-v1530 set to typeC, the field qcl-CSI-RS-ConfigNZPId-r11 corresponds to codeword 0, and the field qcl-CSI-RS-ConfigNZPId-v1530 corresponds to codeword 1, see TS 36.213 [23], clause 7.1.10..

qcl-Operation

Indicates the quasi co-location behaviour to be used by the UE, type A, type B, or type C, as described in TS 36.213 [23], clause 7.1.10. In case qcl-Operation-v1530 is present, the UE shall ignore the field qcl-Operation (without suffix). E-UTRAN configures qcl-Operation-v1530 only when transmission mode 10 is configured for the serving cell on this carrier frequency and QCL type C is configured.

referenceSignalPower

Parameter: Reference-signal power, which provides the downlink reference-signal EPRE, see TS 36.213 [23], clause 5.2. The actual value in dBm.

re-MappingQCLConfigToAddModList, re-MappingQCLConfigToReleaseList

For a serving frequency E-UTRAN configures at least one PDSCH-RE-MappingQCL-Config when transmission mode 10 is configured for the serving cell on this carrier frequency. Otherwise it does not configure this field.

tbsIndexAlt

Indicates the applicability of the alternative TBS index for the ITBS 26 and 33 (see TS 36.213 [23], Table 7.1.7.2.1-1), to all subframes scheduled by DCI format 2C or 2D. Value a26 refers to the alternative TBS index ITBS 26A, and value a33 refers to the alternative TBS index ITBS 33A. If this field is not configured, the UE shall use ITBS 26 specified in Table 7.1.7.2.1-1 in TS 36.213 [23] for all subframes instead. If neither this field nor tbsIndexAlt2 configures an alternative TBS index for ITBS 33, the UE shall use ITBS 33 specified in Table 7.1.7.2.1-1 in TS 36.213 [23] for all subframes instead.

tbsIndexAlt2

Indicates the applicability of the alternative TBS index for the ITBS 33 (see TS 36.213 [23], Table 7.1.7.2.1-1) to all subframes. Value b33 refers to the alternative TBS index ITBS 33B. If neither this field nor tbsIndexAlt configures an alternative TBS index for ITBS 33, the UE shall use ITBS 33 specified in Table 7.1.7.2.1-1 in TS 36.213 [23] for all subframes instead.

tbs-IndexAlt3

Indicates the applicability of the alternative TBS index for the ITBS 37 (see TS 36.213 [23], Table 7.1.7.2.1-1) to all subframes. Value a37 refers to the alternative TBS index ITBS 37A.

Conditional presence

Explanation

TypeC

The field is optional, need ON when qcl-Operation is configured with typeC. Otherwise the field is not present and the UE shall delete any existing value for this field.

PDSCH-RE-MappingQCL-ConfigId

The IE PDSCH-RE-MappingQCL-ConfigId is used to identify a set of PDSCH parameters related to resource element mapping and quasi co-location, as configured by the IE PDSCH-RE-MappingQCL-Config. The identity is unique within the scope of a carrier frequency.

PDSCH-RE-MappingQCL-ConfigId information elements

— ASN1START

PDSCH-RE-MappingQCL-ConfigId-r11 ::= INTEGER (1..maxRE-MapQCL-r11)

— ASN1STOP

– PerCC-GapIndicationList

The IE PerCC-GapIndicationList is used to specify the UE measurement gap preference.

PerCC-GapIndication information elements

— ASN1START

PerCC-GapIndicationList-r14 ::= SEQUENCE (SIZE (1..maxServCell-r13)) OF PerCC-GapIndication-r14

PerCC-GapIndication-r14 ::= SEQUENCE {

servCellId-r14 ServCellIndex-r13,

gapIndication-r14 ENUMERATED {gap, ncsg, nogap-noNcsg}

}

— ASN1STOP

PerCC-GapIndication field descriptions

servCellId

This field identifies the serving cell for which the measurement gap perference is provided.

gapIndication

This field is used to indicate the measurement gap preference per component carrier (serving cell) by the UE both in non-CA and CA configurations. Value gap indicates that a measurement gap is needed for the associated servCellId, value nogap-noNcsg indicates that neither a measurement gap nor a ncsg is needed for the associated servCellId, value ncsg indicates that ncsg is needed for the associated servCellId. The UE shall indicate the per CC measurement gap preference consistently for the same non-CA or CA configuration and measurement configuration during the same RRC connection.

PHICH-Config

The IE PHICH-Config is used to specify the PHICH configuration.

PHICH-Config information element

— ASN1START

PHICH-Config ::= SEQUENCE {

phich-Duration ENUMERATED {normal, extended},

phich-Resource ENUMERATED {oneSixth, half, one, two}

}

— ASN1STOP

PHICH-Config field descriptions

phich-Duration

Parameter: PHICH-Duration, see TS 36.211 [21], Table 6.9.3-1.

phich-Resource

Parameter: Ng, see TS 36.211 [21], clause 6.9. Value oneSixth corresponds to 1/6, half corresponds to 1/2 and so on.

PhysicalConfigDedicated

The IE PhysicalConfigDedicated is used to specify the UE specific physical channel configuration.

PhysicalConfigDedicated information element

— ASN1START

PhysicalConfigDedicated ::= SEQUENCE {

pdsch-ConfigDedicated PDSCH-ConfigDedicated OPTIONAL, — Need ON

pucch-ConfigDedicated PUCCH-ConfigDedicated OPTIONAL, — Need ON

pusch-ConfigDedicated PUSCH-ConfigDedicated OPTIONAL, — Need ON

uplinkPowerControlDedicated UplinkPowerControlDedicated OPTIONAL, — Need ON

tpc-PDCCH-ConfigPUCCH TPC-PDCCH-Config OPTIONAL, — Need ON

tpc-PDCCH-ConfigPUSCH TPC-PDCCH-Config OPTIONAL, — Need ON

cqi-ReportConfig CQI-ReportConfig OPTIONAL, — Cond CQI-r8

soundingRS-UL-ConfigDedicated SoundingRS-UL-ConfigDedicated OPTIONAL, — Need ON

antennaInfo CHOICE {

explicitValue AntennaInfoDedicated,

defaultValue NULL

} OPTIONAL, — Cond AI-r8

schedulingRequestConfig SchedulingRequestConfig OPTIONAL, — Need ON

…,

[[ cqi-ReportConfig-v920 CQI-ReportConfig-v920 OPTIONAL, — Cond CQI-r8

antennaInfo-v920 AntennaInfoDedicated-v920 OPTIONAL — Cond AI-r8

]],

[[ antennaInfo-r10 CHOICE {

explicitValue-r10 AntennaInfoDedicated-r10,

defaultValue NULL

} OPTIONAL, — Cond AI-r10

antennaInfoUL-r10 AntennaInfoUL-r10 OPTIONAL, — Need ON

cif-Presence-r10 BOOLEAN OPTIONAL, — Need ON

cqi-ReportConfig-r10 CQI-ReportConfig-r10 OPTIONAL, — Cond CQI-r10

csi-RS-Config-r10 CSI-RS-Config-r10 OPTIONAL, — Need ON

pucch-ConfigDedicated-v1020 PUCCH-ConfigDedicated-v1020 OPTIONAL, — Need ON

pusch-ConfigDedicated-v1020 PUSCH-ConfigDedicated-v1020 OPTIONAL, — Need ON

schedulingRequestConfig-v1020 SchedulingRequestConfig-v1020 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicated-v1020

SoundingRS-UL-ConfigDedicated-v1020 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedAperiodic-r10

SoundingRS-UL-ConfigDedicatedAperiodic-r10 OPTIONAL, — Need ON

uplinkPowerControlDedicated-v1020

UplinkPowerControlDedicated-v1020 OPTIONAL — Need ON

]],

[[ additionalSpectrumEmissionCA-r10 CHOICE {

release NULL,

setup SEQUENCE {

additionalSpectrumEmissionPCell-r10 AdditionalSpectrumEmission

}

} OPTIONAL — Need ON

]],

[[ — DL configuration as well as configuration applicable for DL and UL

csi-RS-ConfigNZPToReleaseList-r11

CSI-RS-ConfigNZPToReleaseList-r11 OPTIONAL, — Need ON

csi-RS-ConfigNZPToAddModList-r11

CSI-RS-ConfigNZPToAddModList-r11 OPTIONAL, — Need ON

csi-RS-ConfigZPToReleaseList-r11

CSI-RS-ConfigZPToReleaseList-r11 OPTIONAL, — Need ON

csi-RS-ConfigZPToAddModList-r11 CSI-RS-ConfigZPToAddModList-r11 OPTIONAL, — Need ON

epdcch-Config-r11 EPDCCH-Config-r11 OPTIONAL, — Need ON

pdsch-ConfigDedicated-v1130 PDSCH-ConfigDedicated-v1130 OPTIONAL, — Need ON

— UL configuration

cqi-ReportConfig-v1130 CQI-ReportConfig-v1130 OPTIONAL, — Need ON

pucch-ConfigDedicated-v1130 PUCCH-ConfigDedicated-v1130 OPTIONAL, — Need ON

pusch-ConfigDedicated-v1130 PUSCH-ConfigDedicated-v1130 OPTIONAL, — Need ON

uplinkPowerControlDedicated-v1130

UplinkPowerControlDedicated-v1130 OPTIONAL — Need ON

]],

[[ antennaInfo-v1250 AntennaInfoDedicated-v1250 OPTIONAL, — Cond AI-r10

eimta-MainConfig-r12 EIMTA-MainConfig-r12 OPTIONAL, — Need ON

eimta-MainConfigPCell-r12 EIMTA-MainConfigServCell-r12 OPTIONAL, — Need ON

pucch-ConfigDedicated-v1250 PUCCH-ConfigDedicated-v1250 OPTIONAL, — Need ON

cqi-ReportConfigPCell-v1250 CQI-ReportConfig-v1250 OPTIONAL, — Need ON

uplinkPowerControlDedicated-v1250

UplinkPowerControlDedicated-v1250 OPTIONAL, — Need ON

pusch-ConfigDedicated-v1250 PUSCH-ConfigDedicated-v1250 OPTIONAL, — Need ON

csi-RS-Config-v1250 CSI-RS-Config-v1250 OPTIONAL — Need ON

]],

[[ pdsch-ConfigDedicated-v1280 PDSCH-ConfigDedicated-v1280 OPTIONAL — Need ON

]],

[[ pdsch-ConfigDedicated-v1310 PDSCH-ConfigDedicated-v1310 OPTIONAL, — Need ON

pucch-ConfigDedicated-r13 PUCCH-ConfigDedicated-r13 OPTIONAL, — Need ON

pusch-ConfigDedicated-r13 PUSCH-ConfigDedicated-r13 OPTIONAL, — Need ON

pdcch-CandidateReductions-r13

PDCCH-CandidateReductions-r13 OPTIONAL, — Need ON

cqi-ReportConfig-v1310 CQI-ReportConfig-v1310 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicated-v1310

SoundingRS-UL-ConfigDedicated-v1310 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedUpPTsExt-r13

SoundingRS-UL-ConfigDedicatedUpPTsExt-r13 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedAperiodic-v1310

SoundingRS-UL-ConfigDedicatedAperiodic-v1310 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13

SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13 OPTIONAL, — Need ON

csi-RS-Config-v1310 CSI-RS-Config-v1310 OPTIONAL, — Need ON

ce-Mode-r13 CHOICE {

release NULL,

setup ENUMERATED {ce-ModeA,ce-ModeB}

} OPTIONAL, — Need ON

csi-RS-ConfigNZPToAddModListExt-r13 CSI-RS-ConfigNZPToAddModListExt-r13 OPTIONAL, — Need ON

csi-RS-ConfigNZPToReleaseListExt-r13 CSI-RS-ConfigNZPToReleaseListExt-r13 OPTIONAL — Need ON

]],

[[ cqi-ReportConfig-v1320 CQI-ReportConfig-v1320 OPTIONAL — Need ON

]],

[[ typeA-SRS-TPC-PDCCH-Group-r14 CHOICE {

release NULL,

setup SEQUENCE (SIZE (1..32)) OF SRS-TPC-PDCCH-Config-r14

} OPTIONAL, — Need ON

must-Config-r14 CHOICE{

release NULL,

setup SEQUENCE {

k-max-r14 ENUMERATED {l1, l3},

p-a-must-r14 ENUMERATED {

dB-6, dB-4dot77, dB-3, dB-1dot77,

dB0, dB1, dB2, dB3} OPTIONAL — Need ON

}

} OPTIONAL, — Need ON

pusch-EnhancementsConfig-r14 PUSCH-EnhancementsConfig-r14 OPTIONAL, — Need ON

ce-pdsch-pusch-EnhancementConfig-r14 ENUMERATED {on} OPTIONAL, — Need OR

antennaInfo-v1430 AntennaInfoDedicated-v1430 OPTIONAL, — Need ON

pucch-ConfigDedicated-v1430 PUCCH-ConfigDedicated-v1430 OPTIONAL, — Need ON

pdsch-ConfigDedicated-v1430 PDSCH-ConfigDedicated-v1430 OPTIONAL, — Need ON

pusch-ConfigDedicated-v1430 PUSCH-ConfigDedicated-v1430 OPTIONAL, — Need ON

soundingRS-UL-PeriodicConfigDedicatedList-r14 SEQUENCE (SIZE (1..2)) OF SoundingRS-UL-ConfigDedicated OPTIONAL, — Cond PeriodicSRSPCell

soundingRS-UL-PeriodicConfigDedicatedUpPTsExtList-r14 SEQUENCE (SIZE (1..4)) OF SoundingRS-UL-ConfigDedicatedUpPTsExt-r13 OPTIONAL, — Cond PeriodicSRSExt

soundingRS-UL-AperiodicConfigDedicatedList-r14 SEQUENCE (SIZE (1..2)) OF SoundingRS-UL-ConfigDedicatedAperiodic-r10 OPTIONAL, — Cond AperiodicSRS

soundingRS-UL-ConfigDedicatedApUpPTsExtList-r14 SEQUENCE (SIZE (1..4)) OF SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13 OPTIONAL, — Cond AperiodicSRSExt

csi-RS-Config-v1430 CSI-RS-Config-v1430 OPTIONAL, — Need ON

csi-RS-ConfigZP-ApList-r14 CSI-RS-ConfigZP-ApList-r14 OPTIONAL, — Need ON

cqi-ReportConfig-v1430 CQI-ReportConfig-v1430 OPTIONAL, — Need ON

semiOpenLoop-r14 BOOLEAN OPTIONAL — Need ON

]],

[[ csi-RS-Config-v1480 CSI-RS-Config-v1480 OPTIONAL — Need ON

]],

[[ physicalConfigDedicatedSTTI-r15 PhysicalConfigDedicatedSTTI-r15 OPTIONAL,– Need ON

pdsch-ConfigDedicated-v1530 PDSCH-ConfigDedicated-v1530 OPTIONAL,– Need ON

pusch-ConfigDedicated-v1530 PUSCH-ConfigDedicated-v1530 OPTIONAL,– Need ON

cqi-ReportConfig-v1530 CQI-ReportConfig-v1530 OPTIONAL,– Need ON

antennaInfo-v1530 AntennaInfoDedicated-v1530 OPTIONAL,– Need ON

csi-RS-Config-v1530 CSI-RS-Config-v1530 OPTIONAL,– Need ON

uplinkPowerControlDedicated-v1530

UplinkPowerControlDedicated-v1530 OPTIONAL, — Need ON

semiStaticCFI-Config-r15 CHOICE{

release NULL,

setup CHOICE{

cfi-Config-r15 CFI-Config-r15,

cfi-PatternConfig-r15 CFI-PatternConfig-r15

}

} OPTIONAL, — Need ON

blindPDSCH-Repetition-Config-r15 CHOICE{

release NULL,

setup SEQUENCE {

blindSubframePDSCH-Repetitions-r15 BOOLEAN,

blindSlotSubslotPDSCH-Repetitions-r15 BOOLEAN,

maxNumber-SubframePDSCH-Repetitions-r15 ENUMERATED {n4,n6} OPTIONAL, — Need ON

maxNumber-SlotSubslotPDSCH-Repetitions-r15 ENUMERATED {n4,n6} OPTIONAL, — Need ON

rv-SubframePDSCH-Repetitions-r15 ENUMERATED {dlrvseq1, dlrvseq2} OPTIONAL, — Need ON

rv-SlotsublotPDSCH-Repetitions-r15 ENUMERATED {dlrvseq1, dlrvseq2} OPTIONAL, — Need ON

numberOfProcesses-SubframePDSCH-Repetitions-r15 INTEGER(1..16) OPTIONAL, — Need ON

numberOfProcesses-SlotSubslotPDSCH-Repetitions-r15 INTEGER(1..16) OPTIONAL, — Need ON

mcs-restrictionSubframePDSCH-Repetitions-r15 ENUMERATED {n0, n1} OPTIONAL, — Need ON

mcs-restrictionSlotSubslotPDSCH-Repetitions-r15 ENUMERATED {n0, n1} OPTIONAL — Need ON

}

} OPTIONAL — Need ON

]],

[[ spucch-Config-v1550 SPUCCH-Config-v1550 OPTIONAL — Need ON

]]

}

PhysicalConfigDedicated-v1370 ::= SEQUENCE {

pucch-ConfigDedicated-v1370 PUCCH-ConfigDedicated-v1370 OPTIONAL — Cond PUCCH-Format4or5

}

PhysicalConfigDedicated-v13c0 ::= SEQUENCE {

pucch-ConfigDedicated-v13c0 PUCCH-ConfigDedicated-v13c0

}

PhysicalConfigDedicatedSCell-r10 ::= SEQUENCE {

— DL configuration as well as configuration applicable for DL and UL

nonUL-Configuration-r10 SEQUENCE {

antennaInfo-r10

AntennaInfoDedicated-r10 OPTIONAL, — Need ON

crossCarrierSchedulingConfig-r10

CrossCarrierSchedulingConfig-r10 OPTIONAL, — Need ON

csi-RS-Config-r10 CSI-RS-Config-r10 OPTIONAL, — Need ON

pdsch-ConfigDedicated-r10 PDSCH-ConfigDedicated OPTIONAL — Need ON

} OPTIONAL, — Cond SCellAdd

— UL configuration

ul-Configuration-r10 SEQUENCE {

antennaInfoUL-r10 AntennaInfoUL-r10 OPTIONAL, — Need ON

pusch-ConfigDedicatedSCell-r10

PUSCH-ConfigDedicatedSCell-r10 OPTIONAL, — Cond PUSCH-SCell1

uplinkPowerControlDedicatedSCell-r10

UplinkPowerControlDedicatedSCell-r10 OPTIONAL, — Need ON

cqi-ReportConfigSCell-r10 CQI-ReportConfigSCell-r10 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicated-r10

SoundingRS-UL-ConfigDedicated OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicated-v1020

SoundingRS-UL-ConfigDedicated-v1020 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedAperiodic-r10

SoundingRS-UL-ConfigDedicatedAperiodic-r10 OPTIONAL — Need ON

} OPTIONAL, — Cond CommonUL

…,

[[ — DL configuration as well as configuration applicable for DL and UL

csi-RS-ConfigNZPToReleaseList-r11

CSI-RS-ConfigNZPToReleaseList-r11 OPTIONAL, — Need ON

csi-RS-ConfigNZPToAddModList-r11

CSI-RS-ConfigNZPToAddModList-r11 OPTIONAL, — Need ON

csi-RS-ConfigZPToReleaseList-r11

CSI-RS-ConfigZPToReleaseList-r11 OPTIONAL, — Need ON

csi-RS-ConfigZPToAddModList-r11

CSI-RS-ConfigZPToAddModList-r11 OPTIONAL, — Need ON

epdcch-Config-r11 EPDCCH-Config-r11 OPTIONAL, — Need ON

pdsch-ConfigDedicated-v1130 PDSCH-ConfigDedicated-v1130 OPTIONAL, — Need ON

— UL configuration

cqi-ReportConfig-v1130 CQI-ReportConfig-v1130 OPTIONAL, — Need ON

pusch-ConfigDedicated-v1130

PUSCH-ConfigDedicated-v1130 OPTIONAL, — Cond PUSCH-SCell1

uplinkPowerControlDedicatedSCell-v1130

UplinkPowerControlDedicated-v1130 OPTIONAL — Need ON

]],

[[ antennaInfo-v1250 AntennaInfoDedicated-v1250 OPTIONAL, — Need ON

eimta-MainConfigSCell-r12

EIMTA-MainConfigServCell-r12 OPTIONAL, — Need ON

cqi-ReportConfigSCell-v1250 CQI-ReportConfig-v1250 OPTIONAL, — Need ON

uplinkPowerControlDedicatedSCell-v1250

UplinkPowerControlDedicated-v1250 OPTIONAL, — Need ON

csi-RS-Config-v1250 CSI-RS-Config-v1250 OPTIONAL — Need ON

]],

[[ pdsch-ConfigDedicated-v1280 PDSCH-ConfigDedicated-v1280 OPTIONAL — Need ON

]],

[[ pucch-Cell-r13 ENUMERATED {true} OPTIONAL, — Cond PUCCH-SCell1

pucch-SCell CHOICE{

release NULL,

setup SEQUENCE {

pucch-ConfigDedicated-r13

PUCCH-ConfigDedicated-r13 OPTIONAL, — Need ON

schedulingRequestConfig-r13

SchedulingRequestConfigSCell-r13 OPTIONAL, — Need ON

tpc-PDCCH-ConfigPUCCH-SCell-r13

TPC-PDCCH-ConfigSCell-r13 OPTIONAL, — Need ON

pusch-ConfigDedicated-r13

PUSCH-ConfigDedicated-r13 OPTIONAL, — Cond PUSCH-SCell

uplinkPowerControlDedicated-r13

UplinkPowerControlDedicatedSCell-v1310 OPTIONAL — Need ON

}

} OPTIONAL, — Need ON

crossCarrierSchedulingConfig-r13

CrossCarrierSchedulingConfig-r13 OPTIONAL, — Cond Cross-Carrier-Config

pdcch-ConfigSCell-r13 PDCCH-ConfigSCell-r13 OPTIONAL, — Need ON

cqi-ReportConfig-v1310 CQI-ReportConfig-v1310 OPTIONAL, — Need ON

pdsch-ConfigDedicated-v1310 PDSCH-ConfigDedicated-v1310 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicated-v1310

SoundingRS-UL-ConfigDedicated-v1310 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedUpPTsExt-r13

SoundingRS-UL-ConfigDedicatedUpPTsExt-r13 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedAperiodic-v1310

SoundingRS-UL-ConfigDedicatedAperiodic-v1310 OPTIONAL, — Need ON

soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13

SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13 OPTIONAL, — Need ON

csi-RS-Config-v1310 CSI-RS-Config-v1310 OPTIONAL, — Need ON

laa-SCellConfiguration-r13 LAA-SCellConfiguration-r13 OPTIONAL, — Need ON

csi-RS-ConfigNZPToAddModListExt-r13 CSI-RS-ConfigNZPToAddModListExt-r13 OPTIONAL, — Need ON

csi-RS-ConfigNZPToReleaseListExt-r13 CSI-RS-ConfigNZPToReleaseListExt-r13 OPTIONAL — Need ON

]],

[[ cqi-ReportConfig-v1320 CQI-ReportConfig-v1320 OPTIONAL — Need ON

]],

[[ laa-SCellConfiguration-v1430 LAA-SCellConfiguration-v1430

OPTIONAL, — Need ON

typeB-SRS-TPC-PDCCH-Config-r14 SRS-TPC-PDCCH-Config-r14 OPTIONAL, — Need ON

uplinkPUSCH-LessPowerControlDedicated-v1430 UplinkPUSCH-LessPowerControlDedicated-v1430 OPTIONAL, — Need ON

soundingRS-UL-PeriodicConfigDedicatedList-r14 SEQUENCE (SIZE (1..2)) OF SoundingRS-UL-ConfigDedicated OPTIONAL, — Cond PeriodicSRS

soundingRS-UL-PeriodicConfigDedicatedUpPTsExtList-r14 SEQUENCE (SIZE (1..4)) OF SoundingRS-UL-ConfigDedicatedUpPTsExt-r13 OPTIONAL, — Cond PeriodicSRSExt

soundingRS-UL-AperiodicConfigDedicatedList-r14 SEQUENCE (SIZE (1..2)) OF SoundingRS-AperiodicSet-r14 OPTIONAL, — Cond AperiodicSRS

soundingRS-UL-ConfigDedicatedApUpPTsExtList-r14 SEQUENCE (SIZE (1..4)) OF SoundingRS-AperiodicSetUpPTsExt-r14 OPTIONAL, — Cond AperiodicSRSExt

must-Config-r14 CHOICE{

release NULL,

setup SEQUENCE {

k-max-r14 ENUMERATED {l1, l3},

p-a-must-r14 ENUMERATED {

dB-6, dB-4dot77, dB-3, dB-1dot77,

dB0, dB1, dB2, dB3} OPTIONAL — Need ON

}

} OPTIONAL, — Need ON

pusch-ConfigDedicated-v1430 PUSCH-ConfigDedicatedSCell-v1430 OPTIONAL, — Need ON

csi-RS-Config-v1430 CSI-RS-Config-v1430 OPTIONAL, — Need ON

csi-RS-ConfigZP-ApList-r14 CSI-RS-ConfigZP-ApList-r14 OPTIONAL, — Need ON

cqi-ReportConfig-v1430 CQI-ReportConfig-v1430 OPTIONAL, — Need ON

semiOpenLoop-r14 BOOLEAN OPTIONAL, — Need ON

pdsch-ConfigDedicatedSCell-v1430 PDSCH-ConfigDedicatedSCell-v1430 OPTIONAL — Need ON

]],

[[ csi-RS-Config-v1480 CSI-RS-Config-v1480 OPTIONAL — Need ON

]],

[[ physicalConfigDedicatedSTTI-r15 PhysicalConfigDedicatedSTTI-r15 OPTIONAL, — Need ON

pdsch-ConfigDedicated-v1530 PDSCH-ConfigDedicated-v1530 OPTIONAL, — Need ON

dummy CQI-ReportConfig-v1530 OPTIONAL, — Need ON

cqi-ReportConfigSCell-r15 CQI-ReportConfigSCell-r15 OPTIONAL, — Need ON

cqi-ShortConfigSCell-r15 CQI-ShortConfigSCell-r15 OPTIONAL, — Need ON

csi-RS-Config-v1530 CSI-RS-Config-v1530 OPTIONAL, — Need ON

uplinkPowerControlDedicatedSCell-v1530

UplinkPowerControlDedicated-v1530 OPTIONAL, — Need ON

laa-SCellConfiguration-v1530 LAA-SCellConfiguration-v1530 OPTIONAL, — Need ON

pusch-ConfigDedicated-v1530 PUSCH-ConfigDedicatedScell-v1530 OPTIONAL, — Cond AUL

semiStaticCFI-Config-r15 CHOICE{

release NULL,

setup CHOICE{

cfi-Config-r15 CFI-Config-r15,

cfi-PatternConfig-r15 CFI-PatternConfig-r15

}

} OPTIONAL, — Need ON

blindPDSCH-Repetition-Config-r15 CHOICE{

release NULL,

setup SEQUENCE {

blindSubframePDSCH-Repetitions-r15 BOOLEAN,

blindSlotSubslotPDSCH-Repetitions-r15 BOOLEAN,

maxNumber-SubframePDSCH-Repetitions-r15 ENUMERATED {n4,n6} OPTIONAL, — Need ON

maxNumber-SlotSubslotPDSCH-Repetitions-r15 ENUMERATED {n4,n6} OPTIONAL, — Need ON

rv-SubframePDSCH-Repetitions-r15 ENUMERATED {dlrvseq1, dlrvseq2} OPTIONAL, — Need ON

rv-SlotsublotPDSCH-Repetitions-r15 ENUMERATED {dlrvseq1, dlrvseq2} OPTIONAL, — Need ON

numberOfProcesses-SubframePDSCH-Repetitions-r15 INTEGER(1..16) OPTIONAL, — Need ON

numberOfProcesses-SlotSubslotPDSCH-Repetitions-r15 INTEGER(1..16) OPTIONAL, — Need ON

mcs-restrictionSubframePDSCH-Repetitions-r15 ENUMERATED {n0, n1} OPTIONAL, — Need ON

mcs-restrictionSlotSubslotPDSCH-Repetitions-r15 ENUMERATED {n0, n1} OPTIONAL — Need ON

}

} OPTIONAL — Need ON

]],

[[ spucch-Config-v1550 SPUCCH-Config-v1550 OPTIONAL — Need ON

]]

}

PhysicalConfigDedicatedSCell-v1370 ::= SEQUENCE {

pucch-SCell-v1370 CHOICE{

release NULL,

setup SEQUENCE {

pucch-ConfigDedicated-v1370 PUCCH-ConfigDedicated-v1370 OPTIONAL — Cond PUCCH-Format4or5

}

}

}

PhysicalConfigDedicatedSCell-v13c0 ::= SEQUENCE {

pucch-SCell-v13c0 CHOICE{

release NULL,

setup SEQUENCE {

pucch-ConfigDedicated-v13c0 PUCCH-ConfigDedicated-v13c0

}

}

}

CFI-Config-r15 ::= SEQUENCE {

cfi-SubframeNonMBSFN-r15 INTEGER (1..4) OPTIONAL, — Need ON

cfi-SlotSubslotNonMBSFN-r15 INTEGER (1..3) OPTIONAL, — Need ON

cfi-SubframeMBSFN-r15 INTEGER (1..2) OPTIONAL, — Need ON

cfi-SlotSubslotMBSFN-r15 INTEGER (1..2) OPTIONAL — Need ON

}

CFI-PatternConfig-r15 ::= SEQUENCE {

cfi-PatternSubframe-r15 SEQUENCE (SIZE(10)) OF INTEGER (1..4) OPTIONAL, — Need ON

cfi-PatternSlotSubslot-r15 SEQUENCE (SIZE(10)) OF INTEGER (1..3) OPTIONAL — Need ON

}

LAA-SCellConfiguration-r13 ::= SEQUENCE {

subframeStartPosition-r13 ENUMERATED {s0, s07},

laa-SCellSubframeConfig-r13 BIT STRING (SIZE(8))

}

LAA-SCellConfiguration-v1430 ::= SEQUENCE {

crossCarrierSchedulingConfig-UL-r14 CHOICE {

release NULL,

setup SEQUENCE {

crossCarrierSchedulingConfigLAA-UL-r14 CrossCarrierSchedulingConfigLAA-UL-r14

}

} OPTIONAL, — Cond Cross-Carrier-ConfigUL

lbt-Config-r14 LBT-Config-r14 OPTIONAL, — Need ON

pdcch-ConfigLAA-r14 PDCCH-ConfigLAA-r14 OPTIONAL, — Need ON

absenceOfAnyOtherTechnology-r14 ENUMERATED {true} OPTIONAL, — Need OR

soundingRS-UL-ConfigDedicatedAperiodic-v1430

SoundingRS-UL-ConfigDedicatedAperiodic-v1430 OPTIONAL — Need ON

}

LAA-SCellConfiguration-v1530 ::= SEQUENCE {

aul-Config-r15 AUL-Config-r15 OPTIONAL, — Need ON

pusch-ModeConfigLAA-r15 PUSCH-ModeConfigLAA-r15 OPTIONAL — Need OR

}

PUSCH-ModeConfigLAA-r15 ::= SEQUENCE {

laa-PUSCH-Mode1 BOOLEAN,

laa-PUSCH-Mode2 BOOLEAN,

laa-PUSCH-Mode3 BOOLEAN

}

LBT-Config-r14 ::= CHOICE{

maxEnergyDetectionThreshold-r14 INTEGER(-85..-52),

energyDetectionThresholdOffset-r14 INTEGER(-13..20)

}

CSI-RS-ConfigNZPToAddModList-r11 ::= SEQUENCE (SIZE (1..maxCSI-RS-NZP-r11)) OF CSI-RS-ConfigNZP-r11

CSI-RS-ConfigNZPToAddModListExt-r13 ::= SEQUENCE (SIZE (1..maxCSI-RS-NZP-v1310)) OF CSI-RS-ConfigNZP-r11

CSI-RS-ConfigNZPToAddModList-r15 ::= SEQUENCE (SIZE (1..maxCSI-RS-NZP-r13)) OF CSI-RS-ConfigNZP-r11

CSI-RS-ConfigNZPToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxCSI-RS-NZP-r11)) OF CSI-RS-ConfigNZPId-r11

CSI-RS-ConfigNZPToReleaseListExt-r13 ::= SEQUENCE (SIZE (1..maxCSI-RS-NZP-v1310)) OF CSI-RS-ConfigNZPId-v1310

CSI-RS-ConfigNZPToReleaseList-r15 ::= SEQUENCE (SIZE (1..maxCSI-RS-NZP-r13)) OF CSI-RS-ConfigNZPId-r13

CSI-RS-ConfigZPToAddModList-r11 ::= SEQUENCE (SIZE (1..maxCSI-RS-ZP-r11)) OF CSI-RS-ConfigZP-r11

CSI-RS-ConfigZPToReleaseList-r11 ::= SEQUENCE (SIZE (1..maxCSI-RS-ZP-r11)) OF CSI-RS-ConfigZPId-r11

PhysicalConfigDedicatedSTTI-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

antennaInfoDedicatedSTTI-r15 AntennaInfoDedicatedSTTI-r15 OPTIONAL, — Need ON

antennaInfoUL-STTI-r15 AntennaInfoUL-STTI-r15 OPTIONAL, — Need ON

pucch-ConfigDedicated-v1530 PUCCH-ConfigDedicated-v1530 OPTIONAL, — Need ON

schedulingRequestConfig-v1530 SchedulingRequestConfig-v1530 OPTIONAL, — Need ON

uplinkPowerControlDedicatedSTTI-r15 UplinkPowerControlDedicatedSTTI-r15 OPTIONAL, –Need ON

cqi-ReportConfig-r15 CQI-ReportConfig-r15 OPTIONAL, — Need ON

csi-RS-Config-r15 CSI-RS-Config-r15 OPTIONAL, — Need ON

csi-RS-ConfigNZPToReleaseList-r15 CSI-RS-ConfigNZPToReleaseList-r15 OPTIONAL, — Need ON

csi-RS-ConfigNZPToAddModList-r15 CSI-RS-ConfigNZPToAddModList-r15 OPTIONAL, — Need ON

csi-RS-ConfigZPToReleaseList-r15 CSI-RS-ConfigZPToReleaseList-r11 OPTIONAL, — Need ON

csi-RS-ConfigZPToAddModList-r11 CSI-RS-ConfigZPToAddModList-r11 OPTIONAL, — Need ON

csi-RS-ConfigZP-ApList-r15 CSI-RS-ConfigZP-ApList-r14 OPTIONAL, — Need ON

eimta-MainConfig-r12 EIMTA-MainConfig-r12 OPTIONAL, — Need ON

eimta-MainConfigServCell-r15 EIMTA-MainConfigServCell-r12 OPTIONAL, — Need ON

semiOpenLoopSTTI-r15 BOOLEAN,

slotOrSubslotPDSCH-Config-r15 SlotOrSubslotPDSCH-Config-r15 OPTIONAL, — Need ON

slotOrSubslotPUSCH-Config-r15 SlotOrSubslotPUSCH-Config-r15 OPTIONAL, — Need ON

spdcch-Config-r15 SPDCCH-Config-r15 OPTIONAL, — Need ON

spucch-Config-r15 SPUCCH-Config-r15 OPTIONAL, — Need ON

srs-DCI7-TriggeringConfig-r15 BOOLEAN,

shortProcessingTime-r15 BOOLEAN,

shortTTI-r15 ShortTTI-r15 OPTIONAL — Need ON

}

}

SoundingRS-AperiodicSet-r14 ::= SEQUENCE{

srs-CC-SetIndexList-r14

SEQUENCE (SIZE (1..4)) OF SRS-CC-SetIndex-r14

OPTIONAL, — Cond SRS-Trigger-TypeA

soundingRS-UL-ConfigDedicatedAperiodic-r14

SoundingRS-UL-ConfigDedicatedAperiodic-r10

}

SoundingRS-AperiodicSetUpPTsExt-r14 ::= SEQUENCE{

srs-CC-SetIndexList-r14

SEQUENCE (SIZE (1..4)) OF SRS-CC-SetIndex-r14

OPTIONAL, — Cond SRS-Trigger-TypeA

soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r14

SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13

}

ShortTTI-r15 ::= SEQUENCE {

dl-STTI-Length-r15 ShortTTI-Length-r15 OPTIONAL, — Need OR

ul-STTI-Length-r15 ShortTTI-Length-r15 OPTIONAL — Need OR

}

ShortTTI-Length-r15 ::= ENUMERATED {slot, subslot}

— ASN1STOP

PhysicalConfigDedicated field descriptions

absenceOfAnyOtherTechnology

Presence of this field indicates absence on a long term basis (e.g. by level of regulation) of any other technology sharing the carrier; absence of this field indicates the potential presence of any other technology sharing the carrier, as specified in TS 37.213 [94].

additionalSpectrumEmissionPCell

E-UTRAN does not configure this field in this release of the specification.

antennaInfo

A choice is used to indicate whether the antennaInfo is signalled explicitly or set to the default antenna configuration as specified in clause 9.2.4.

blindSlotSubslotPDSCH-Repetitions

Enables HARQ-less/blind slot or subslot PDSCH repetitions for a UE in a given cell, i.e. back to back slot/subslot PDSCH transmissions for the same transport block. The number of slot/subslot PDSCH transmissions is indicated in the DCI.

blindSubframePDSCH-Repetitions

Enables HARQ-less/blind subframe PDSCH repetitions for a UE in a given cell, i.e. back to back PDSCH transmissions for the same transport block. The number of PDSCH transmissions is indicated in the DCI.

ce-Mode

Indicates the CE mode as specified in TS 36.213 [23].

ce-pdsch-pusch-Enhancement-Config

Activation of new numbers of repetitions for PUSCH and modulation restrictions for PDSCH/PUSCH in CE mode A, see TS 36.212 [22] and TS 36.213 [23].

cfi-SlotSubslotMBSFN

Indicates the semi-static control format indicator for slot/subslot operation in MBSFN subframes.

cfi-SlotSubslotNonMBSFN

Indicates the semi-static control format indicator for slot/subslot operation in non-MBSFN subframes.

cfi-SubframeMBSFN

Indicates the semi-static control format indicator for subframe operation in MBSFN subframes.

cfi-SubframeNonMBSFN

Indicates the semi-static control format indicator for subframe operation in non-MBSFN subframes.

cqi-ShortConfigSCell

Indicates whether the CSI (CQI/PMI/RI/PTI/CRI) reporting resource configured by cqi-ShortConfigSCell is available upon receiving the SCell activation command for this SCell. E-UTRAN only configures this field when transmission mode 1-8 is configured for the serving cell on this carrier frequency.

csi-RS-Config

For a serving frequency E-UTRAN does not configure csi-RS-Config (includes zeroTxPowerCSI-RS) when transmission mode 10 is configured for the serving cell on this carrier frequency.

csi-RS-ConfigNZPToAddModList

For a serving frequency E-UTRAN configures one or more CSI-RS-ConfigNZP only when transmission mode 9 or 10 is configured for the serving cell on this carrier frequency. For a serving frequency, EUTRAN configures a maximum number of CSI-RS-ConfigNZP in accordance with transmission mode (including CSI processes), eMIMO (including class) and associated UE capabilities (e.g. k-Max, n-MaxList).

csi-RS-ConfigZP-ApList

The aperiodic ZP CSI-RS for PDSCH rate matching. The field subframeConfig is applicable to semi-persistent CSI RS reporting. In other cases, the UE shall ignore field subframeConfig.

csi-RS-ConfigZPToAddModList

For a serving frequency E-UTRAN configures one or more CSI-RS-ConfigZP only when transmission mode 10 is configured for the serving cell on this carrier frequency.

dl-STTI-Length, ul-STTI-Length

Indicates the DL and UL short TTI lengths. Value slot corresponds to 7 OFDM symbols and value subslot corresponds to 2 or 3 OFDM symbols. E-UTRAN configures the same value for all serving cells sending PUCCH feedback on the same cell. If one SCell is configured with short TTI in the group of cells configured to send PUCCH on the same cell, the cell carrying PUCCH shall be configured with short TTI. E-UTRAN can configure different value of dl-STTI-Length and ul-STTI-Length for serving cells sending PUCCH feedback on different cells. E-UTRAN does not configure the combination {slot,subslot} for {DL,UL}.

dummy

This field is not used in the specification. If received it shall be ignored by the UE.

eimta-MainConfigPCell, eimta-MainConfigSCell

If E-UTRAN configures eimta-MainConfigPCell or eimta-MainConfigSCell for one serving cell in a frequency band, E-UTRAN configures eimta-MainConfigPCell or eimta-MainConfigSCell for all serving cells residing on the frequency band. E-UTRAN configures eimta-MainConfigPCell or eimta-MainConfigSCell only if eimta-MainConfig is configured.

energyDetectionThresholdOffset

Indicates the offset to the default maximum energy detection threshold value. Unit in dB. Value -13 corresponds to -13dB, value -12 corresponds to -12dB, and so on (i.e. in steps of 1dB) as specified in TS 37.213 [94].

epdcch-Config

indicates the EPDCCH-Config for the cell. E-UTRAN does not configure EPDCCH-Config for an SCell that is configured with value other for schedulingCellInfo in CrossCarrierSchedulingConfig.

k-max

Indicates the maximum number of interfering spatial layers signaled in the assistance information for MUST. Value l1 corresponds to 1 layer, Value l3 corresponds to 3 layers.

laa-PUSCH-Mode1, laa-PUSCH-Mode2, laa-PUSCH-Mode3

Indicates whether LAA PUSCH mode 1, 2 and/or 3 is configured as specified in TS 36.212 [22], clause 5.3.3.1.

laa-SCellSubframeConfig

A bit-map indicating LAA SCell subframe configuration, "1" denotes that the corresponding subframe is allocated as MBSFN subframe. The bitmap is interpreted as follows:

Starting from the first/leftmost bit in the bitmap, the allocation applies to subframes #1, #2, #3, #4, #6, #7, #8, and #9.

maxEnergyDetectionThreshold

Indicates the absolute maximum energy detection threshold value. Unit in dBm. Value -85 corresponds to -85 dBm, value -84 corresponds to -84 dBm, and so on (i.e. in steps of 1dBm) as specified in TS 36.213 [23]. If the field is not configured, the UE shall use a default maximum energy detection threshold value as specified in TS 37.213 [94].

maxNumber-SlotSubslotPDSCH-Repetitions

Indicates the maximum number of PDSCH transmissions for slot or subslot PDSCH repetitions.

maxNumber-SubframePDSCH-Repetitions

Indicates the maximum number of PDSCH transmissions for subframe PDSCH repetitions.

mcs-restrictionSlotSubslotPDSCH-Repetitions

Indicates the MCS restriction in terms of number of non-addressable MSB in the MCS bit-field for slot or subslot PDSCH repetition applicable when k > 1.

mcs-restrictionSubframePDSCH-Repetitions

Indicates MCS restriction in terms of number of non-addressable MSB in the MCS bit-field for subframe PDSCH repetition applicable when k > 1.

numberOfProcesses-SlotSubslotPDSCH-Repetitions

Indicates the number of HARQ processes for slot/subslot PDSCH repetition applicable when k > 1 configured per serving cell.

numberOfProcesses-SubframePDSCH-Repetitions

Indicates the number of HARQ processes for subframe PDSCH repetition applicable when k > 1 configured per serving cell.

p-a-must

Parameter: , see TS 36.213 [23], clause 5.2. Value dB-6 corresponds to -6 dB, dB-4dot77 corresponds to -4.77 dB etc.

pdsch-ConfigDedicated-v1130

For a serving frequency, E-UTRAN configures pdsch-ConfigDedicated-v1130 only when transmission mode 10 is configured for the serving cell on this carrier frequency.

pdsch-ConfigDedicated-v1280

For a serving frequency, E-UTRAN configures pdsch-ConfigDedicated-v1280 only when transmission mode 9 or 10 is configured for the serving cell on this carrier frequency.

pucch-Cell

If present, PUCCH feedback of this SCell is sent on the PUCCH SCell. If absent, PUCCH feedback of this SCell is sent on PCell or PSCell, or if the cell concerns the PUCCH SCell, on the concerned cell. If this field is not modified upon change of PUCCH SCell, the UE shall always send the PUCCH feedback of the concerned SCell using the configured PUCCH SCell.

pucch-ConfigDedicated

E-UTRAN configures pucch-ConfigDedicated-r13 only if pucch-ConfigDedicated (i.e., without suffix) is not configured. UE shall ignore pucch-ConfigDedicated-v1020 when pucch-ConfigDedicated-r13 is configured.

pucch-SCell

If present, the concerned SCell is the PUCCH SCell. E-UTRAN only configures this field upon SCell addition i.e. this field is only released when the SCell is released. The field is not applicable for an LAA SCell in this release.

pusch-ConfigDedicated-r13

E-UTRAN configures pusch-ConfigDedicated-r13 only if pusch-ConfigDedicated is not configured.

pusch-ConfigDedicated-v1250

E-UTRAN configures pusch-ConfigDedicated-v1250 only if tpc-SubframeSet is configured.

pusch-EnhancementsConfig

Indicates that the UE shall transmit in the PUSCH enhancement mode if pusch-EnhancementsConfig is set to setup, see TS 36.211 [21] and TS 36.213 [23].

rv-SlotsublotPDSCH-Repetitions

Indicates the RV cycling sequence for slot or subslot PDSCH repetition. Value dlrvseq1 = {0, 0, 0, 0} and value dlrvseq2 = {0, 2, 3, 1}.

rv-SubframePDSCH-Repetitions

Indicates the RV cycling sequence for subframe PDSCH repetition. Value dlrvseq1 = {0, 0, 0, 0} and value dlrvseq2 = {0, 2, 3, 1}.

semiOpenLoop, semiOpenLoopSTTI

Value TRUE indicates that semi-open-loop transmission is used for deriving CSI reporting and corresponding PDSCH transmission (DMRS).

shortProcessingTime

Indicates whether short processing time is configured as specific in TS 36.321 [6]. An SCell can only be configured with short processing if the cell carrying PUCCH for that SCell is configured with short processing time.

soundingRS-UL-PeriodicConfigDedicatedList

Indicates periodic soundingRS configuration except for the extension sounding symbols of the UpPTs subframe. E-UTRAN configures this field in PhysicalConfigDedicated only for the UE indicating support of ce-SRS-Enhancement-r14 or ce-SRS-EnhancementWithoutComb4-r14. E-UTRAN configures this field in PhysicalConfigDedicatedSCell-r10 only for the UE indicating support of srs-UpPTS-6sym-r14.

soundingRS-UL-PeriodicConfigDedicatedUpPTsExtList

Indicates periodic soundingRS configuration in extension sounding symbols of the UpPTs subframe. E-UTRAN configures this field in PhysicalConfigDedicated only for the UE indicating support of ce-SRS-Enhancement-r14 or ce-SRS-EnhancementWithoutComb4-r14. E-UTRAN configures this field in PhysicalConfigDedicatedSCell-r10 only for the UE indicating support of srs-UpPTS-6sym-r14.

soundingRS-UL-AperiodicConfigDedicatedList

Indicates aperiodic soundingRS configuration except for the extension sounding symbols of the UpPTs subframe. E-UTRAN configures this field in PhysicalConfigDedicated only for the UE indicating support of ce-SRS-Enhancement-r14 or ce-SRS-EnhancementWithoutComb4-r14. E-UTRAN configures this field in PhysicalConfigDedicatedSCell-r10 only for the UE indicating support of srs-UpPTS-6sym-r14.

soundingRS-UL-DedicatedApUpPTsExtList

Indicates aperiodic soundingRS configuration in extension sounding symbols of the UpPTs subframe. E-UTRAN configures this field in PhysicalConfigDedicated only for the UE indicating support of ce-SRS-Enhancement-r14 or ce-SRS-EnhancementWithoutComb4-r14. E-UTRAN configures this field in PhysicalConfigDedicatedSCell-r10 only for the UE indicating support of srs-UpPTS-6sym-r14.

srs-CC-SetIndexList

Indicates the srs-CC-SetIndex list which the soundingRS-UL-ConfigDedicatedAperiodic and soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt belongs to.

srs-DCI7-TriggeringConfig

Indicates whether SRS triggering via DCI7 is configured.

subframeStartPosition

Indicates possible starting positions of transmission in the first subframe of the DL transmission burst, see TS 36.211 [21]. Value s0 means the starting position is subframe boundary, s07 means the starting position is either subframe boundary or slot boundary.

tpc-PDCCH-ConfigPUCCH

PDCCH configuration for power control of PUCCH using format 3/3A, see TS 36.212 [22].

tpc-PDCCH-ConfigPUSCH

PDCCH configuration for power control of PUSCH using format 3/3A, see TS 36.212 [22].

typeA-SRS-TPC-PDCCH-Group

Indicates Type A trigger configuration for SRS transmission on a PUSCH-less SCell. E-UTRAN configures the UE with either typeA-SRS-TPC-PDCCH-Group or typeB-SRS-TPC-PDCCH-Group, if any.

uplinkPowerControlDedicated

E-UTRAN configures uplinkPowerControlDedicated-v1130 only if uplinkPowerControlDedicated (without suffix) is configured.

uplinkPowerControlDedicatedSCell

E-UTRAN configures uplinkPowerControlDedicatedSCell-v1130 only if uplinkPowerControlDedicatedSCell-r10 is configured for this serving cell.

Conditional presence

Explanation

AI-r8

The field is optionally present, need ON, if antennaInfoDedicated-r10 is absent. Otherwise the field is not present

AI-r10

The field is optionally present, need ON, if antennaInfoDedicated is absent. Otherwise the field is not present

AperiodicSRS

If soundingRS-UL-ConfigDedicatedAperiodic-r10 is absent, the field is optional, Need ON. Otherwise the field is not present and the UE shall delete any existing value for this field.

AperiodicSRSExt

If soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13 is absent, the field is optional, Need ON. Otherwise the field is not present and the UE shall delete any existing value for this field.

AUL

The field is optionally present, need ON, if aul-config-r15 is present. Otherwise the field is not present.

CommonUL

The field is mandatory present if ul-Configuration of RadioResourceConfigCommonSCell-r10 is present; otherwise it is optional, need ON.

CQI-r8

The field is optionally present, need ON, if cqi-ReportConfig-r10 is absent. Otherwise the field is not present

CQI-r10

The field is optionally present, need ON, if cqi-ReportConfig is absent. Otherwise the field is not present

Cross-Carrier-Config

The field is optionally present, need ON, if crossCarrierSchedulingConfig-r10 is absent. Otherwise the field is not present

Cross-Carrier-ConfigUL

The field is optionally present, need ON, if crossCarrierSchedulingConfig-r10 and crossCarrierSchedulingConfig-r13 are absent or schedulingCellInfo is set to ‘own’. Otherwise the field is not present.

PeriodicSRS

If soundingRS-UL-ConfigDedicated-r10 is absent, the field is optional, Need ON. Otherwise the field is not present and the UE shall delete any existing value for this field.

PeriodicSRSPCell

If soundingRS-UL-ConfigDedicated is absent, the field is optional, Need ON. Otherwise the field is not present and the UE shall delete any existing value for this field.

PeriodicSRSExt

If soundingRS-UL-ConfigDedicatedUpPTsExt-r13 is absent, the field is optional, Need ON. Otherwise the field is not present and the UE shall delete any existing value for this field.

PUCCH-Format4or5

The field is mandatory present with pucch-Format-v1370 set to setup if pucch-ConfigDedicated-r13 is configured and pucch-ConfigDedicated-r13 indicates PUCCH format 4 or PUCCH format 5; otherwise it is not present and the UE shall delete any existing value for this field.

PUCCH-SCell1

The field is optionally present, need OR, for SCell not configured with pucch-configDedicated-r13. Otherwise it is not present.

PUSCH-SCell

The field is optionally present, need ON, if pusch-ConfigDedicatedSCell-r10 and pusch-ConfigDedicated-v1130 are absent. Otherwise the field is not present

PUSCH-SCell1

The field is optionally present, need ON, for SCell not configured with pucch-configDedicated-r13. Otherwise it is not present.

SCellAdd

The field is mandatory present if cellIdentification is present; otherwise it is optional, need ON.

SRS-Trigger-TypeA

The field is mandatory present if typeA-SRS-TPC-PDCCH-Group-r14 is present. Otherwise the field is not present and the UE shall delete any existing value for this field.

NOTE 1: During handover, the UE performs a MAC reset, which involves reverting to the default CQI/ SRS/ SR configuration in accordance with clause 5.3.13 and TS 36.321 [6], clauses 5.9 and 5.2. Hence, for these parts of the dedicated radio resource configuration, the default configuration (rather than the configuration used in the source PCell) is used as the basis for the delta signalling that is included in the message used to perform handover.

NOTE 2: Since delta signalling is not supported for the common SCell configuration, E-UTRAN can only add or release the uplink of an SCell by releasing and adding the concerned SCell.

P-Max

The IE P-Max is used to limit the UE’s uplink transmission power on a carrier frequency and is used to calculate the parameter Pcompensation defined in TS 36.304 [4]. Corresponds to parameter PEMAX or PEMAX,c in TS 36.101 [42]. The UE transmit power on one serving cell shall not exceed the configured maximum UE output power of the serving cell determined by this value as specified in TS 36.101 [42], clauses 6.2.5 or 6.2.5A, or, when transmitting sidelink discovery announcements within the coverage of the concerned cell, as specified in TS 36.101 [42], clause 6.2.5D.

P-Max information element

— ASN1START

P-Max ::= INTEGER (-30..33)

— ASN1STOP

PRACH-Config

The IE PRACH-ConfigSIB and IE PRACH-Config are used to specify the PRACH configuration in the system information and in the mobility control information, respectively.

PRACH-Config information elements

— ASN1START

PRACH-ConfigSIB ::= SEQUENCE {

rootSequenceIndex INTEGER (0..837),

prach-ConfigInfo PRACH-ConfigInfo

}

PRACH-ConfigSIB-v1310 ::= SEQUENCE {

rsrp-ThresholdsPrachInfoList-r13 RSRP-ThresholdsPrachInfoList-r13,

mpdcch-startSF-CSS-RA-r13 CHOICE {

fdd-r13 ENUMERATED {v1, v1dot5, v2, v2dot5, v4, v5, v8,

v10},

tdd-r13 ENUMERATED {v1, v2, v4, v5, v8, v10, v20, spare}

} OPTIONAL, — Cond MP

prach-HoppingOffset-r13 INTEGER (0..94) OPTIONAL, — Need OR

prach-ParametersListCE-r13 PRACH-ParametersListCE-r13

}

PRACH-ConfigSIB-v1530 ::= SEQUENCE {

edt-PRACH-ParametersListCE-r15 SEQUENCE (SIZE(1..maxCE-Level-r13)) OF EDT-PRACH-ParametersCE-r15

}

PRACH-Config ::= SEQUENCE {

rootSequenceIndex INTEGER (0..837),

prach-ConfigInfo PRACH-ConfigInfo OPTIONAL — Need ON

}

PRACH-Config-v1310 ::= SEQUENCE {

rsrp-ThresholdsPrachInfoList-r13 RSRP-ThresholdsPrachInfoList-r13 OPTIONAL, — Cond MP

mpdcch-startSF-CSS-RA-r13 CHOICE {

fdd-r13 ENUMERATED {v1, v1dot5, v2, v2dot5, v4, v5, v8,

v10},

tdd-r13 ENUMERATED {v1, v2, v4, v5, v8, v10, v20, spare}

} OPTIONAL, — Cond MP

prach-HoppingOffset-r13 INTEGER (0..94) OPTIONAL, — Need OR

prach-ParametersListCE-r13 PRACH-ParametersListCE-r13 OPTIONAL, — Cond MP

initial-CE-level-r13 INTEGER (0..3) OPTIONAL — Need OR

}

PRACH-Config-v1430 ::= SEQUENCE {

rootSequenceIndexHighSpeed-r14 INTEGER (0..837),

zeroCorrelationZoneConfigHighSpeed-r14 INTEGER (0..12),

prach-ConfigIndexHighSpeed-r14 INTEGER (0..63),

prach-FreqOffsetHighSpeed-r14 INTEGER (0..94)

}

PRACH-ConfigSCell-r10 ::= SEQUENCE {

prach-ConfigIndex-r10 INTEGER (0..63)

}

PRACH-ConfigInfo ::= SEQUENCE {

prach-ConfigIndex INTEGER (0..63),

highSpeedFlag BOOLEAN,

zeroCorrelationZoneConfig INTEGER (0..15),

prach-FreqOffset INTEGER (0..94)

}

PRACH-ParametersListCE-r13 ::= SEQUENCE (SIZE(1..maxCE-Level-r13)) OF PRACH-ParametersCE-r13

PRACH-ParametersCE-r13 ::= SEQUENCE {

prach-ConfigIndex-r13 INTEGER (0..63),

prach-FreqOffset-r13 INTEGER (0..94),

prach-StartingSubframe-r13 ENUMERATED {sf2, sf4, sf8, sf16, sf32, sf64, sf128,

sf256} OPTIONAL, — Need OP

maxNumPreambleAttemptCE-r13

ENUMERATED {n3, n4, n5, n6, n7, n8, n10} OPTIONAL, — Need OP

numRepetitionPerPreambleAttempt-r13 ENUMERATED {n1,n2,n4,n8,n16,n32,n64,n128},

mpdcch-NarrowbandsToMonitor-r13 SEQUENCE (SIZE(1..2)) OF

INTEGER (1..maxAvailNarrowBands-r13),

mpdcch-NumRepetition-RA-r13 ENUMERATED {r1, r2, r4, r8, r16,

r32, r64, r128, r256},

prach-HoppingConfig-r13 ENUMERATED {on,off}

}

EDT-PRACH-ParametersCE-r15 ::= SEQUENCE {

edt-PRACH-ParametersCE-r15 SEQUENCE {

prach-ConfigIndex-r15 INTEGER (0..63),

prach-FreqOffset-r15 INTEGER (0..94),

prach-StartingSubframe-r15 ENUMERATED {sf2, sf4, sf8, sf16, sf32, sf64, sf128, sf256} OPTIONAL, — Need OP

mpdcch-NarrowbandsToMonitor-r15 SEQUENCE (SIZE(1..2)) OF INTEGER (1..maxAvailNarrowBands-r13)

} OPTIONAL — Need OR

}

RSRP-ThresholdsPrachInfoList-r13 ::= SEQUENCE (SIZE(1..3)) OF RSRP-Range

— ASN1STOP

PRACH-Config field descriptions

edt-PRACH-ParametersListCE

Configures PRACH parameters for each CE level applicable to a UE performing EDT. If included, the number of entries is same as number of entries in prach-ParametersListCE. The first entry in the list is the PRACH parameters for CE level 0, the second entry in the list is the PRACH parameters for CE level 1, and so on. The parameters maxNumPreambleAttemptCE, numRepetitionPerPreambleAttempt, mpdcch-NumRepetition-RA, prach-HoppingConfig included in prach-ParametersListCE for CE level X are also applicable for EDT.

initial-CE-level

Indicates initial PRACH CE level at random access, see TS 36.321 [6]. If not configured, UE selects PRACH CE level based on measured RSRP level, see TS 36.321 [6].

highSpeedFlag

Parameter: High-speed-flag, see TS 36.211 [21], clause 5.7.2]. TRUE corresponds to Restricted set and FALSE to Unrestricted set.

maxNumPreambleAttemptCE

Maximum number of preamble transmission attempts per CE level. See TS 36.321 [6].

If the field is absent, the UE shall use the default value n3.

mpdcch-NarrowbandsToMonitor

Narrowbands to monitor for MPDCCH for RAR, see TS 36.213 [23], clause 6.2. Field values (1..maxAvailNarrowBands-r13) correspond to narrowband indices (0..maxAvailNarrowBands-r13-1) as specified in TS 36.211 [21].

mpdcch-NumRepetition-RA

Maximum number of repetitions for MPDCCH common search space (CSS) for RAR, Msg3 and Msg4, see TS 36.211 [21].

mpdcch-startSF-CSS-RA

Starting subframe configuration for MPDCCH common search space (CSS), including RAR, Msg3 retransmission, PDSCH with contention resolution and PDSCH with CCCH MAC SDU, see TS 36.211 [21] and TS 36.213 [23]. Value v1 corresponds to 1, value v1dot5 corresponds to 1.5, and so on.

numRepetitionPerPreambleAttempt

Number of PRACH repetitions per attempt for each CE level, See TS 36.211 [21].

prach-ConfigIndex

Parameter: prach-ConfigurationIndex, see TS 36.211 [21], clause 5.7.1.

prach-ConfigIndexHighSpeed

Parameter: prach-ConfigurationIndexHighSpeed, see TS 36.211 [21], clause 5.7.1. If this field is present, the UE shall ignore prach-ConfigIndex.

prach-FreqOffset

Parameter: prach-FrequencyOffset, see TS 36.211 [21], clause 5.7.1. For TDD the value range is dependent on the value of prach-ConfigIndex.

prach-FreqOffsetHighSpeed

Parameter: prach-FrequencyOffsetHighSpeed, see TS 36.211 [21], clause 5.7.1. For TDD the value range is dependent on the value of prach-ConfigIndexHighSpeed. If this field is present, the UE shall ignore prach-FreqOffset.

prach-HoppingConfig

Coverage level specific frequency hopping configuration for PRACH.

prach-HoppingOffset

Parameter: PRACH frequency hopping offset, expressed as a number of resource blocks, see TS 36.211 [21], clause 5.7.1.

prach-ParametersListCE

Configures PRACH parameters for each CE level. The first entry in the list is the PRACH parameters of CE level 0, the second entry in the list is the PRACH parameters of CE level 1, and so on.

prach-StartingSubframe

PRACH starting subframe periodicity, expressed in number of subframes available for preamble transmission (PRACH opportunities), see TS 36.211 [21]. Value sf2 corresponds to 2 subframes, sf4 corresponds to 4 subframes and so on. EUTRAN configures the PRACH starting subframe periodicity larger than or equal to the number of PRACH repetitions per attempt for each CE level (numRepetitionPerPreambleAttempt).

If the field is absent, the value is determined implicitly in TS 36.211 [21], clause 5.7.1.

rootSequenceIndex

Parameter: RACH_ROOT_SEQUENCE, see TS 36.211 [21], clause 5.7.1.

rootSequenceIndexHighSpeed

The field indicates starting logical root sequence index used to derive the 64 random access preambles based on restricted set type B in high speed scenario, see TS 36.211 [21], clause 5.7.2. If this field is present, the UE shall generate random access preambles based on restricted set type B and ignore rootSequenceIndex.

rsrp-ThresholdsPrachInfoList

The criterion for BL UEs and UEs in CE to select PRACH resource set. Up to 3 RSRP threshold values are signalled to determine the CE level for PRACH, see TS 36.213 [23]. The first element corresponds to RSRP threshold 1, the second element corresponds to RSRP threshold 2 and so on, see TS 36.321 [6]. The UE shall ignore this field if only one CE level, i.e. CE level 0, is configured in prach-ParametersListCE. The number of RSRP thresholds present in rsrp-ThresholdsPrachInfoList is equal to the number of CE levels configured in prach-ParametersListCE minus one.

A UE that supports powerClass-14dBm shall correct the RSRP threshold values before applying them as follows:

RSRP threshold = Signalled RSRP threshold – min{0, (14-min(23, P-Max))} where P-Max is the value of p-Max field in SystemInformationBlockType1-BR.

zeroCorrelationZoneConfig

Parameter: NCS configuration, see TS 36.211 [21], clause 5.7.2: table 5.7.2-2, for preamble format 0..3 and TS 36.211 [21], clause 5.7.2: table 5.7.2-3, for preamble format 4.

zeroCorrelationZoneConfigHighSpeed

The field indicates NCS configuration for the restricted set type B in high speed scenario, see TS 36.211 [21], clause 5.7.2. If this field is present, the UE shall generate random access preambles based on restricted set type B and ignore zeroCorrelationZoneConfig.

Conditional presence

Explanation

MP

The field is mandatory present.

PresenceAntennaPort1

The IE PresenceAntennaPort1 is used to indicate whether all the neighbouring cells use Antenna Port 1. When set to TRUE, the UE may assume that at least two cell-specific antenna ports are used in all neighbouring cells.

PresenceAntennaPort1 information element

— ASN1START

PresenceAntennaPort1 ::= BOOLEAN

— ASN1STOP

PUCCH-Config

The IE PUCCH-ConfigCommon and IE PUCCH-ConfigDedicated are used to specify the common and the UE specific PUCCH configuration respectively.

PUCCH-Config information elements

— ASN1START

PUCCH-ConfigCommon ::= SEQUENCE {

deltaPUCCH-Shift ENUMERATED {ds1, ds2, ds3},

nRB-CQI INTEGER (0..98),

nCS-AN INTEGER (0..7),

n1PUCCH-AN INTEGER (0..2047)

}

PUCCH-ConfigCommon-v1310 ::= SEQUENCE {

n1PUCCH-AN-InfoList-r13 N1PUCCH-AN-InfoList-r13 OPTIONAL, — Need OR

pucch-NumRepetitionCE-Msg4-Level0-r13 ENUMERATED {n1, n2, n4, n8} OPTIONAL, — Need OR

pucch-NumRepetitionCE-Msg4-Level1-r13 ENUMERATED {n1, n2, n4, n8} OPTIONAL, — Need OR

pucch-NumRepetitionCE-Msg4-Level2-r13 ENUMERATED {n4, n8, n16, n32} OPTIONAL, — Need OR

pucch-NumRepetitionCE-Msg4-Level3-r13 ENUMERATED {n4, n8, n16, n32} OPTIONAL — Need OR

}

PUCCH-ConfigCommon-v1430 ::= SEQUENCE {

pucch-NumRepetitionCE-Msg4-Level3-r14 ENUMERATED {n64, n128} OPTIONAL — Need OR

}

PUCCH-ConfigDedicated ::= SEQUENCE {

ackNackRepetition CHOICE{

release NULL,

setup SEQUENCE {

repetitionFactor ENUMERATED {n2, n4, n6, spare1},

n1PUCCH-AN-Rep INTEGER (0..2047)

}

},

tdd-AckNackFeedbackMode ENUMERATED {bundling, multiplexing} OPTIONAL — Cond TDD

}

PUCCH-ConfigDedicated-v1020 ::= SEQUENCE {

pucch-Format-r10 CHOICE {

format3-r10 PUCCH-Format3-Conf-r13,

channelSelection-r10 SEQUENCE {

n1PUCCH-AN-CS-r10 CHOICE {

release NULL,

setup SEQUENCE {

n1PUCCH-AN-CS-List-r10 SEQUENCE (SIZE (1..2)) OF N1PUCCH-AN-CS-r10

}

} OPTIONAL — Need ON

}

} OPTIONAL, — Need OR

twoAntennaPortActivatedPUCCH-Format1a1b-r10 ENUMERATED {true} OPTIONAL, — Need OR

simultaneousPUCCH-PUSCH-r10 ENUMERATED {true} OPTIONAL, — Need OR

n1PUCCH-AN-RepP1-r10 INTEGER (0..2047) OPTIONAL — Need OR

}

PUCCH-ConfigDedicated-v1130 ::= SEQUENCE {

n1PUCCH-AN-CS-v1130 CHOICE {

release NULL,

setup SEQUENCE {

n1PUCCH-AN-CS-ListP1-r11 SEQUENCE (SIZE (2..4)) OF INTEGER (0..2047)

}

} OPTIONAL, — Need ON

nPUCCH-Param-r11 CHOICE {

release NULL,

setup SEQUENCE {

nPUCCH-Identity-r11 INTEGER (0..503),

n1PUCCH-AN-r11 INTEGER (0..2047)

}

} OPTIONAL — Need ON

}

PUCCH-ConfigDedicated-v1250 ::= SEQUENCE {

nkaPUCCH-Param-r12 CHOICE {

release NULL,

setup SEQUENCE {

nkaPUCCH-AN-r12 INTEGER (0..2047)

}

}

}

PUCCH-ConfigDedicated-r13 ::= SEQUENCE {

–Release 8

ackNackRepetition-r13 CHOICE{

release NULL,

setup SEQUENCE {

repetitionFactor-r13 ENUMERATED {n2, n4, n6, spare1},

n1PUCCH-AN-Rep-r13 INTEGER (0..2047)

}

},

tdd-AckNackFeedbackMode-r13 ENUMERATED {bundling, multiplexing} OPTIONAL, — Cond TDD

–Release 10

pucch-Format-r13 CHOICE {

format3-r13 SEQUENCE {

n3PUCCH-AN-List-r13 SEQUENCE (SIZE (1..4)) OF INTEGER (0..549) OPTIONAL, — Need ON

twoAntennaPortActivatedPUCCH-Format3-r13 CHOICE {

release NULL,

setup SEQUENCE {

n3PUCCH-AN-ListP1-r13 SEQUENCE (SIZE (1..4)) OF INTEGER (0..549)

}

} OPTIONAL — Need ON

},

channelSelection-r13 SEQUENCE {

n1PUCCH-AN-CS-r13 CHOICE {

release NULL,

setup SEQUENCE {

n1PUCCH-AN-CS-List-r13 SEQUENCE (SIZE (1..2)) OF N1PUCCH-AN-CS-r10,

dummy1 SEQUENCE (SIZE (2..4)) OF INTEGER (0..2047)

}

} OPTIONAL — Need ON

},

format4-r13 SEQUENCE {

format4-resourceConfiguration-r13 SEQUENCE (SIZE (4)) OF Format4-resource-r13,

format4-MultiCSI-resourceConfiguration-r13 SEQUENCE (SIZE (1..2)) OF Format4-resource-r13 OPTIONAL — Need OR

},

format5-r13 SEQUENCE {

format5-resourceConfiguration-r13 SEQUENCE (SIZE (4)) OF Format5-resource-r13,

format5-MultiCSI-resourceConfiguration-r13 Format5-resource-r13 OPTIONAL — Need OR

}

} OPTIONAL, — Need OR

twoAntennaPortActivatedPUCCH-Format1a1b-r13 ENUMERATED {true} OPTIONAL, — Need OR

simultaneousPUCCH-PUSCH-r13 ENUMERATED {true} OPTIONAL, — Need OR

n1PUCCH-AN-RepP1-r13 INTEGER (0..2047) OPTIONAL, — Need OR

–Release 11

nPUCCH-Param-r13 CHOICE {

release NULL,

setup SEQUENCE {

nPUCCH-Identity-r13 INTEGER (0..503),

n1PUCCH-AN-r13 INTEGER (0..2047)

}

} OPTIONAL, — Need ON

–Release 12

nkaPUCCH-Param-r13 CHOICE {

release NULL,

setup SEQUENCE {

nkaPUCCH-AN-r13 INTEGER (0..2047)

}

} OPTIONAL, — Need ON

–Release 13

spatialBundlingPUCCH-r13 BOOLEAN,

spatialBundlingPUSCH-r13 BOOLEAN,

harq-TimingTDD-r13 BOOLEAN,

codebooksizeDetermination-r13 ENUMERATED {dai,cc} OPTIONAL, — Need OR

maximumPayloadCoderate-r13 INTEGER (0..7) OPTIONAL, — Need OR

pucch-NumRepetitionCE-r13 CHOICE {

release NULL,

setup CHOICE {

modeA SEQUENCE {

pucch-NumRepetitionCE-format1-r13 ENUMERATED {r1, r2, r4, r8},

pucch-NumRepetitionCE-format2-r13 ENUMERATED {r1, r2, r4, r8}

},

modeB SEQUENCE {

pucch-NumRepetitionCE-format1-r13 ENUMERATED {r4, r8, r16, r32},

pucch-NumRepetitionCE-format2-r13 ENUMERATED {r4, r8, r16, r32}

}

}

} OPTIONAL –Need ON

}

PUCCH-ConfigDedicated-v1370 ::= SEQUENCE {

pucch-Format-v1370 CHOICE {

release NULL,

setup PUCCH-Format3-Conf-r13

}

}

PUCCH-ConfigDedicated-v13c0 ::= SEQUENCE {

channelSelection-v13c0 SEQUENCE {

n1PUCCH-AN-CS-v13c0 CHOICE {

release NULL,

setup SEQUENCE {

n1PUCCH-AN-CS-ListP1-v13c0 SEQUENCE (SIZE (2..4)) OF INTEGER (0..2047)

}

}

}

}

PUCCH-Format3-Conf-r13 ::= SEQUENCE {

n3PUCCH-AN-List-r13 SEQUENCE (SIZE (1..4)) OF INTEGER (0..549) OPTIONAL, — Need ON

twoAntennaPortActivatedPUCCH-Format3-r13 CHOICE {

release NULL,

setup SEQUENCE {

n3PUCCH-AN-ListP1-r13 SEQUENCE (SIZE (1..4)) OF INTEGER (0..549)

}

} OPTIONAL — Need ON

}

PUCCH-ConfigDedicated-v1430 ::= SEQUENCE {

pucch-NumRepetitionCE-format1-r14 ENUMERATED {r64,r128} OPTIONAL — Need OR

}

PUCCH-ConfigDedicated-v1530 ::= SEQUENCE {

n1PUCCH-AN-SPT-r15 INTEGER (0..2047) OPTIONAL, — Need OR

codebooksizeDeterminationSTTI-r15 ENUMERATED {dai,cc} OPTIONAL — Need OR

}

Format4-resource-r13 ::= SEQUENCE {

startingPRB-format4-r13 INTEGER (0..109),

numberOfPRB-format4-r13 INTEGER (0..7)

}

Format5-resource-r13 ::= SEQUENCE {

startingPRB-format5-r13 INTEGER (0..109),

cdm-index-format5-r13 INTEGER (0..1)

}

N1PUCCH-AN-CS-r10 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (0..2047)

N1PUCCH-AN-InfoList-r13 ::= SEQUENCE (SIZE(1..maxCE-Level-r13)) OF INTEGER (0..2047)

— ASN1STOP

PUCCH-Config field descriptions

ackNackRepetition

Parameter indicates whether ACK/NACK repetition is configured, see TS 36.213 [23], clause 10.1.

cdm-index-format5

Parameter see TS 36.211 [21], clause 5.4.2c, for determining PUCCH resource(s) of PUCCH format 5.

codebooksizeDetermination, codebooksizeDeterminationSTTI

Parameter indicates whether HARQ codebook size is determined with downlink assignment indicator based solution or number of configured CCs, see TS 36.212 [22], clauses 5.2.2.6, 5.2.3.1 and 5.3.3.1.2, and TS 36.213 [23], clauses 10.1.2.2.3, 10.1.3.2.3, 10.1.3.2.3.1, 10.1.3.2.3.2 and 10.1.3.2.4.

deltaPUCCH-Shift

Parameter: , see TS 36.211 [21], clause 5.4.1, where ds1 corresponds to value 1, ds2 corresponds to value 2 etc.

dummy1

This field is not used in the specification. If received it shall be ignored by the UE.

harq-TimingTDD

Parameter indicates for a TDD SCell when aggregated with a TDD PCell of different UL/DL configurations whether deriving the HARQ timing for such a cell is done in the same way as the DL HARQ timing of an FDD SCell with a TDD PCell, see TS 36.213 [23], clause 10.2.

maximumPayloadCoderate

Maximum payload or code rate for multi P-CSI on each PUCCH resource, see TS 36.213 [23], clause 10.1.1.

n1PUCCH-AN

Parameter: , see TS 36.213 [23], clause 10.1.

n1PUCCH-AN-r11 indicates UE-specific PUCCH AN resource offset, see TS 36.213 [23], clause 10.1.

n1PUCCH-AN-CS-List

Parameter: for antenna port for PUCCH format 1b with channel selection, see TS 36.213 [23], clauses 10.1.2.2.1 and 10.1.3.2.1.

n1PUCCH-AN-CS-ListP1

Parameter: for antenna port for PUCCH format 1b with channel selection, see TS 36.213 [23], clause 10.1. E-UTRAN configures this field only when pucch-Format is set to channelSelection.

n1PUCCH-AN-Rep, n1PUCCH-AN-RepP1

Parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1.

n3PUCCH-AN-List, n3PUCCH-AN-ListP1

Parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1.

n1PUCCH-AN-SPT

Parameter: , see TS 36.213 [23], clause 10.1. Indicates UE-specific PUCCH AN resource offset for short processing time.

nCS-An

Parameter: see TS 36.211 [21], clause 5.4.

nkaPUCCH-AN

Parameter: , see TS 36.213 [23], clause 10.1.3.

nkaPUCCH-AN-r12 indicates PUCCH format 1a/1b starting offset for the subframe set , see TS 36.213 [23], clause 10.1.3. E-UTRAN configures nkaPUCCH-AN only if eimta-MainConfig is configured.

nPUCCH-Identity

Parameter: , see TS 36.211 [21], clause 5.5.1.5.

nRB-CQI

Parameter: , see TS 36.211 [21], clause 5.4.

numberOfPRB-format4

Parameter see TS 36.213 [23], Table 10.1.1-2, for determining PUCCH resource(s) of PUCCH format 4.

n1PUCCH-AN-InfoList

Starting offsets of the PUCCH resource(s) indicated by SIB1-BR. The first entry in the list is the starting offset of the PUCCH resource(s) of CE level 0, the second entry in the list is the starting offset of the PUCCH resource(s) of CE level 1, and so on. If E-UTRAN includes n1PUCCH-AN-InfoList, it includes the same number of entries as in prach-ParametersListCE. See TS 36.213 [23].

pucch-Format

Parameter indicates one of the PUCCH formats for transmission of HARQ-ACK, see TS 36.213 [23], clause 10.1. For TDD, if the UE is configured with PCell only, the channelSelection indicates the transmission of HARQ-ACK multiplexing as defined in Tables 10.1.3-5, 10.1.3-6, and 10.1.3-7 in TS 36.213 [23] for PUCCH, and in 7.3 in TS 36.213 [23] for PUSCH. E-UTRAN only configures pucch-Format-v1370 when pucch-Format-r13 is configured and set to format4 or format5.

pucch-NumRepetitionCE

Number of PUCCH repetitions for PUCCH format 1/1a and for PUCCH format 2/2a/2b for CE modes A and B, see TS 36.211 [21] and TS 36.213 [23]. The UE shall ignore pucch-NumRepetitionCE-format2-r13, if received, for CE mode B in this release of specification. For UE in CE mode B supporting extended PUCCH repetition, if pucch-NumRepetitionCE-format1-r14 is included then the UE shall ignore pucch-NumRepetitionCE-format1-r13.

pucch-NumRepetitionCE-Msg4-Level0, pucch-NumRepetitionCE-Msg4-Level1, pucch-NumRepetitionCE-Msg4-Level2, pucch-NumRepetitionCE-Msg4-Level3

Number of repetitions for PUCCH carrying HARQ response to PDSCH containing Msg4 for PRACH CE levels 0, 1, 2 and 3, see TS 36.211 [21] and TS 36.213 [23]. Value n1 corresponds to 1 repetition, value n2 corresponds to 2 repetitions, and so on. For BL UEs or non-BL UEs in enhanced coverage supporting extended PUCCH repetition, if pucch-NumRepetitionCE-Msg4-Level3-r14 is included then the UE shall ignore pucch-NumRepetitionCE-Msg4-Level3-r13.

repetitionFactor

Parameter see TS 36.213 [23], clause 10.1, where n2 corresponds to repetition factor 2, n4 to 4.

simultaneousPUCCH-PUSCH

Parameter indicates whether simultaneous PUCCH and PUSCH or simultaneous SPUCCH and SlotOrSubslotPUSCH transmissions are configured, see TS 36.213 [23], clauses 10.1 and 5.1.1. E-UTRAN configures this field for the PCell, only when the nonContiguousUL-RA-WithinCC-Info is set to supported in the band on which PCell is configured. Likewise, E-UTRAN configures this field for the PSCell, only when the nonContiguousUL-RA-WithinCC-Info is set to supported in the band on which PSCell is configured. Likewise, E-UTRAN configures this field for the PUCCH SCell, only when the nonContiguousUL-RA-WithinCC-Info is set to supported in the band on which PUCCH SCell is configured.

spatialBundlingPUCCH

Parameter indicates whether spatial bundling is enabled or not for PUCCH, see TS 36.212 [22], clause 5.2.3.1.

spatialBundlingPUSCH

Parameter indicates whether spatial bundling is enabled or not for PUSCH, see see TS 36.212 [22], clause 5.2.2.6.

startingPRB-format4

Parameter see TS 36.211 [21], clause5.4.3 for determining PUCCH resource(s) of PUCCH format 4.

startingPRB-format5

Parameter see TS 36.211 [21], clause 5.4.3 for determining PUCCH resource(s) of PUCCH format 5.

tdd-AckNackFeedbackMode

Parameter indicates one of the TDD ACK/NACK feedback modes used, see TS 36.213 [23], clauses 7.3 and 10.1.3. The value bundling corresponds to use of ACK/NACK bundling whereas, the value multiplexing corresponds to ACK/NACK multiplexing as defined in Tables 10.1.3-2, 10.1.3-3, and 10.1.3-4 in TS 36.213 [23]. The same value applies to both ACK/NACK feedback modes on PUCCH as well as on PUSCH.

twoAntennaPortActivatedPUCCH-Format1a1b

Indicates whether two antenna ports are configured for PUCCH format 1a/1b for HARQ-ACK, see TS 36.213 [23], clause 10.1. The field also applies for PUCCH format 1a/1b transmission when format3 is configured, see TS 36.213 [23], clauses 10.1.2.2.2 and 10.1.3.2.2.

twoAntennaPortActivatedPUCCH-Format3

Indicates whether two antenna ports are configured for PUCCH format 3 for HARQ-ACK, see TS 36.213 [23], clause 10.1.

Conditional presence

Explanation

TDD

The field is mandatory present for TDD if the pucch-Format is not present. If the pucch-Format is present, the field is not present and the UE shall delete any existing value for this field. It is not present for FDD and the UE shall delete any existing value for this field.

PUSCH-Config

The IE PUSCH-ConfigCommon is used to specify the common PUSCH configuration and the reference signal configuration for PUSCH and PUCCH. The IE PUSCH-ConfigDedicated is used to specify the UE specific PUSCH configuration.

PUSCH-Config information element

— ASN1START

PUSCH-ConfigCommon ::= SEQUENCE {

pusch-ConfigBasic SEQUENCE {

n-SB INTEGER (1..4),

hoppingMode ENUMERATED {interSubFrame, intraAndInterSubFrame},

pusch-HoppingOffset INTEGER (0..98),

enable64QAM BOOLEAN

},

ul-ReferenceSignalsPUSCH UL-ReferenceSignalsPUSCH

}

PUSCH-ConfigCommon-v1270 ::= SEQUENCE {

enable64QAM-v1270 ENUMERATED {true}

}

PUSCH-ConfigCommon-v1310 ::= SEQUENCE {

pusch-maxNumRepetitionCEmodeA-r13 ENUMERATED {

r8, r16, r32 } OPTIONAL, — Need OR

pusch-maxNumRepetitionCEmodeB-r13 ENUMERATED {

r192, r256, r384, r512, r768, r1024,

r1536, r2048} OPTIONAL, — Need OR

pusch-HoppingOffset-v1310

INTEGER (1..maxAvailNarrowBands-r13) OPTIONAL — Need OR

}

PUSCH-ConfigDedicated ::= SEQUENCE {

betaOffset-ACK-Index INTEGER (0..15),

betaOffset-RI-Index INTEGER (0..15),

betaOffset-CQI-Index INTEGER (0..15)

}

PUSCH-ConfigDedicated-v1020 ::= SEQUENCE {

betaOffsetMC-r10 SEQUENCE {

betaOffset-ACK-Index-MC-r10 INTEGER (0..15),

betaOffset-RI-Index-MC-r10 INTEGER (0..15),

betaOffset-CQI-Index-MC-r10 INTEGER (0..15)

} OPTIONAL, — Need OR

groupHoppingDisabled-r10 ENUMERATED {true} OPTIONAL, — Need OR

dmrs-WithOCC-Activated-r10 ENUMERATED {true} OPTIONAL — Need OR

}

PUSCH-ConfigDedicated-v1130 ::= SEQUENCE {

pusch-DMRS-r11 CHOICE {

release NULL,

setup SEQUENCE {

nPUSCH-Identity-r11 INTEGER (0..509),

nDMRS-CSH-Identity-r11 INTEGER (0..509)

}

}

}

PUSCH-ConfigDedicated-v1250::= SEQUENCE {

uciOnPUSCH CHOICE {

release NULL,

setup SEQUENCE {

betaOffset-ACK-Index-SubframeSet2-r12 INTEGER (0..15),

betaOffset-RI-Index-SubframeSet2-r12 INTEGER (0..15),

betaOffset-CQI-Index-SubframeSet2-r12 INTEGER (0..15),

betaOffsetMC-r12 SEQUENCE {

betaOffset-ACK-Index-MC-SubframeSet2-r12 INTEGER (0..15),

betaOffset-RI-Index-MC-SubframeSet2-r12 INTEGER (0..15),

betaOffset-CQI-Index-MC-SubframeSet2-r12 INTEGER (0..15)

} OPTIONAL — Need OR

}

}

}

PUSCH-ConfigDedicated-r13 ::= SEQUENCE {

betaOffset-ACK-Index-r13 INTEGER (0..15),

betaOffset2-ACK-Index-r13 INTEGER (0..15) OPTIONAL, — Need OR

betaOffset-RI-Index-r13 INTEGER (0..15),

betaOffset-CQI-Index-r13 INTEGER (0..15),

betaOffsetMC-r13 SEQUENCE {

betaOffset-ACK-Index-MC-r13 INTEGER (0..15),

betaOffset2-ACK-Index-MC-r13 INTEGER (0..15) OPTIONAL, — Need OR

betaOffset-RI-Index-MC-r13 INTEGER (0..15),

betaOffset-CQI-Index-MC-r13 INTEGER (0..15)

} OPTIONAL, — Need OR

groupHoppingDisabled-r13 ENUMERATED {true} OPTIONAL, — Need OR

dmrs-WithOCC-Activated-r13 ENUMERATED {true} OPTIONAL, — Need OR

pusch-DMRS-r11 CHOICE {

release NULL,

setup SEQUENCE {

nPUSCH-Identity-r13 INTEGER (0..509),

nDMRS-CSH-Identity-r13 INTEGER (0..509)

}

} OPTIONAL, — Need ON

uciOnPUSCH CHOICE {

release NULL,

setup SEQUENCE {

betaOffset-ACK-Index-SubframeSet2-r13 INTEGER (0..15),

betaOffset2-ACK-Index-SubframeSet2-r13 INTEGER (0..15) OPTIONAL, — Need OR

betaOffset-RI-Index-SubframeSet2-r13 INTEGER (0..15),

betaOffset-CQI-Index-SubframeSet2-r13 INTEGER (0..15),

betaOffsetMC-r12 SEQUENCE {

betaOffset-ACK-Index-MC-SubframeSet2-r13 INTEGER (0..15),

betaOffset2-ACK-Index-MC-SubframeSet2-r13 INTEGER (0..15) OPTIONAL, — Need OR

betaOffset-RI-Index-MC-SubframeSet2-r13 INTEGER (0..15),

betaOffset-CQI-Index-MC-SubframeSet2-r13 INTEGER (0..15)

} OPTIONAL — Need OR

}

} OPTIONAL, — Need ON

pusch-HoppingConfig-r13 ENUMERATED {on} OPTIONAL — Need OR

}

PUSCH-ConfigDedicated-v1430 ::= SEQUENCE {

ce-PUSCH-NB-MaxTBS-r14 ENUMERATED {on} OPTIONAL, — Need OR

ce-PUSCH-MaxBandwidth-r14 ENUMERATED {bw5} OPTIONAL, — Need OR

tdd-PUSCH-UpPTS-r14 TDD-PUSCH-UpPTS-r14 OPTIONAL, — Need ON

ul-DMRS-IFDMA-r14 BOOLEAN,

enable256QAM-r14 Enable256QAM-r14 OPTIONAL — Need ON

}

PUSCH-ConfigDedicated-v1530 ::= SEQUENCE {

ce-PUSCH-FlexibleStartPRB-AllocConfig-r15 CHOICE {

release NULL,

setup SEQUENCE {

offsetCE-ModeB-r15 INTEGER (-1..3) OPTIONAL — Cond CE-ModeB

}

},

ce-PUSCH-SubPRB-Config-r15 CHOICE {

release NULL,

setup SEQUENCE {

locationCE-ModeB-r15 INTEGER (0..5) OPTIONAL, — Cond CE-ModeB

sixToneCyclicShift-r15 INTEGER (0..3),

threeToneCyclicShift-r15 INTEGER (0..2)

}

} OPTIONAL — Need ON

}

PUSCH-ConfigDedicatedSCell-r10 ::= SEQUENCE {

groupHoppingDisabled-r10 ENUMERATED {true} OPTIONAL, — Need OR

dmrs-WithOCC-Activated-r10 ENUMERATED {true} OPTIONAL — Need OR

}

PUSCH-ConfigDedicatedSCell-v1430 ::= SEQUENCE {

enable256QAM-r14 Enable256QAM-r14 OPTIONAL — Need OR

}

PUSCH-ConfigDedicatedScell-v1530 ::= SEQUENCE {

uci-OnPUSCH-r15 CHOICE {

release NULL,

setup SEQUENCE {

betaOffsetAUL-r15 INTEGER (0..15)

}

}

}

TDD-PUSCH-UpPTS-r14 ::= CHOICE {

release NULL,

setup SEQUENCE {

symPUSCH-UpPTS-r14 ENUMERATED {sym1, sym2, sym3, sym4, sym5, sym6} OPTIONAL, — Need ON

dmrs-LessUpPTS-Config-r14 ENUMERATED {true} OPTIONAL — Need OR

}

}

Enable256QAM-r14 ::= CHOICE {

release NULL,

setup CHOICE {

tpc-SubframeSet-Configured-r14 SEQUENCE {

subframeSet1-DCI-Format0-r14 BOOLEAN,

subframeSet1-DCI-Format4-r14 BOOLEAN,

subframeSet2-DCI-Format0-r14 BOOLEAN,

subframeSet2-DCI-Format4-r14 BOOLEAN

},

tpc-SubframeSet-NotConfigured-r14 SEQUENCE {

dci-Format0-r14 BOOLEAN,

dci-Format4-r14 BOOLEAN

}

}

}

PUSCH-EnhancementsConfig-r14 ::= CHOICE {

release NULL,

setup SEQUENCE {

pusch-HoppingOffsetPUSCH-Enh-r14 INTEGER (1..100) OPTIONAL, — Need ON

interval-ULHoppingPUSCH-Enh-r14 CHOICE {

interval-FDD-PUSCH-Enh-r14 ENUMERATED {int1, int2, int4, int8},

interval-TDD-PUSCH-Enh-r14 ENUMERATED {int1, int5, int10, int20}

} OPTIONAL — Need ON

}

}

UL-ReferenceSignalsPUSCH ::= SEQUENCE {

groupHoppingEnabled BOOLEAN,

groupAssignmentPUSCH INTEGER (0..29),

sequenceHoppingEnabled BOOLEAN,

cyclicShift INTEGER (0..7)

}

— ASN1STOP

PUSCH-Config field descriptions

betaOffset-ACK-Index, betaOffset2-ACK-Index, betaOffset-ACK-Index-MC, betaOffset2-ACK-Index-MC

Parameter: ,, and , for single- and multiple-codeword respectively, see TS 36.213 [23], Table 8.6.3-1. betaOffset-ACK-Index and betaOffset2-ACK-Index are used for single-codeword and betaOffset-ACK-Index-MC and betaOffset2-ACK-Index-MC are used for multiple-codeword. If betaOffset2-ACK-Index is configured; betaOffset-ACK-Index is used when up to 22 HARQ-ACK bits are transmitted otherwise betaOffset2-ACK-Index is used. If betaOffset-ACK2-Index-MC is configured; betaOffset-ACK-Index-MC is used when up to 22 HARQ-ACK bits are transmitted otherwise betaOffset2-ACK-Index-MC is used. One value applies for all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send PUCCH on the same cell in case PUCCH SCell is configured) and not configured with uplink power control subframe sets. The same value also applies for subframe set 1 of all serving cells with an uplink in that cell group and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell).

betaOffset-ACK-Index-SubframeSet2, betaOffset2-ACK-Index-SubframeSet2, betaOffset-ACK-Index-MC-SubframeSet2, betaOffset2-ACK-Index-MC-SubframeSet2

Parameter: ,,and respectively, see TS 36.213 [23], Table 8.6.3-1. betaOffset-ACK-Index-SubframeSet2 and betaOffset2-ACK-Index-SubframeSet2 are used for single-codeword, betaOffset-ACK-Index-MC-SubframeSet2, betaOffset2-ACK-Index-MC-SubframeSet2 are used for multiple-codeword. If betaOffset2-ACK-Index-SubframeSet2 is configured; betaOffset-ACK-Index-SubframeSet2 is used when up to 22 HARQ-ACK bits are transmitted otherwise betaOffset2-ACK-Index-SubframeSet2 is used. If betaOffset2-ACK-Index-MC-SubframeSet2 is configured; betaOffset-ACK-Index-MC-SubframeSet2 is used when up to 22 HARQ-ACK bits are transmitted otherwise betaOffset2-ACK-Index-MC-SubframeSet2 is used. One value applies for subframe set 2 of all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send PUCCH on the same cell in case PUCCH SCell is configured) and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell configured with uplink power control subframe sets).

betaOffsetAUL

Parameter: cid:image001.png@01D3E2C5.4F0A8300 see TS 36.213 [23], clause 8.6.3.

betaOffset-CQI-Index, betaOffset-CQI-Index-MC

Parameter: , for single- and multiple-codeword respectively, see TS 36.213 [23], Table 8.6.3-3. One value applies for all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send PUCCH on the same cell in case PUCCH SCell is configured) and not configured with uplink power control subframe sets. The same value also applies for subframe set 1 of all serving cells with an uplink in that cell group and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell).

betaOffset-CQI-Index-SubframeSet2, betaOffset-CQI-Index-MC-SubframeSet2

Parameter: , for single- and multiple-codeword respectively, see TS 36.213 [23], Table 8.6.3-3. One value applies for subframe set 2 of all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send PUCCH on the same cell in case PUCCH SCell is configured) and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell configured with uplink power control subframe sets).

betaOffset-RI-Index, betaOffset-RI-Index-MC

Parameter: , for single- and multiple-codeword respectively, see TS 36.213 [23], Table 8.6.3-2. One value applies for all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send PUCCH on the same cell in case PUCCH SCell is configured) and not configured with uplink power control subframe sets. The same value also applies for subframe set 1 of all serving cells with an uplink in that cell group and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell).

betaOffset-RI-Index-SubframeSet2, betaOffset-RI-Index-MC-SubframeSet2

Parameter: , for single- and multiple-codeword respectively, see TS 36.213 [23], Table 8.6.3-2. One value applies for subframe set 2 of all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send PUCCH on the same cell in case PUCCH SCell is configured) and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell configured with uplink power control subframe sets).

ce-PUSCH-FlexibleStartPRB-AllocConfig

Activation of flexible starting PRB for PUSCH resource allocation in CE mode A or B. offsetCE-ModeB indicates starting PRB offset when flexible starting PRB for PUSCH resource allocation in CE mode B is enabled. See TS 36.212 [22] and TS 36.213 [23]. E-UTRAN does not configure this field when E-UTRA system bandwidth is 1.4 MHz.

ce-PUSCH-MaxBandwidth

Maximum PUSCH channel bandwidth in CE mode A, see TS 36.212 [22] and TS 36.213 [23]. Value bw5 corresponds to 5 MHz. If this field is not configured, the maximum PUSCH channel bandwidth in CE mode A set to 1.4 MHz. The maximum PUSCH channel bandwidth in CE mode B is 1.4 MHz regardless of the setting of this parameter. Parameter: transmission bandwidth configuration, see TS 36.101 [42], table 5.6-1.

ce-PUSCH-NB-MaxTBS

Activation of 2984 bits maximum PUSCH TBS in 1.4 MHz in CE mode A, see TS 36.212 [22] and TS 36.213 [23].

ce-PUSCH-SubPRB-Config

Activation of PUSCH sub-PRB allocation in CE mode A or B, see TS 36.211 [21], TS 36.212 [22] and TS 36.213 [23].

cyclicShift

Parameters: cyclicShift, see TS 36.211 [21], Table 5.5.2.1.1-2.

dmrs-LessUpPTS-Config

Indicates the UE not to transmit DMRS for PUSCH in UpPTS, see TS36.211 [21], clause 5.5.2.1.2.

dmrs-WithOCC-Activated

Parameter: Activate-DMRS-with OCC, see TS 36.211 [21], clause 5.5.2.1.

enable256QAM

See TS 36.213 [23], clause 8.6.1. If enable256QAM is included and if uplink power control subframe sets are configured by tpc-SubframeSet, the field indicates (if set to TRUE) per uplink power control subframe set and DCI format 0/0A/0B and 4/4A/4B that 256QAM is allowed for UE UL categories as indicated in TS 36.306 [5], Table 4.1A-2, while FALSE indicates that 256 QAM is not allowed. If enable256QAM is included and if uplink power control subframe sets are not configured by tpc-SubframeSet, the field indicates (if set to TRUE) per DCI format 0/0A/0B and 4/4A/4B that 256QAM is allowed for UE UL categories as indicated in TS 36.306 [5], Table 4.1A-2, while FALSE indicates that 256 QAM is not allowed.

enable64QAM

See TS 36.213 [23], clause 8.6.1. If enable64QAM (without suffix) is set to TRUE, it indicates that 64QAM is allowed for UE categories 5 and 8 indicated in ue-Category and UL categories indicated in ue-CategoryUL which support UL 64QAM and can fallback to category 5 or 8, see TS 36.306 [5], Table 4.1A-2 and Table 4.1A-6, while FALSE indicates that 64QAM is not allowed. If enable64QAM-v1270 is set to TRUE, it indicates that 64QAM is allowed for UL categories indicated in ue-CategoryUL which support UL 64QAM but cannot fallback category 5 or 8, see TS 36.306 [5], Table 4.1A-2 and Table 4.1A-6. E-UTRAN configures enable64QAM-v1270 only when enable64QAM (without suffix) is set to TRUE.

interval-ULHoppingPUSCH-Enh

Number of consecutive absolute subframes over which PUSCH stays at the same PRBs before hopping to other PRBs. For interval-FDD-PUSCH-Enh, int1 corresponds to 1 subframe, int2 corresponds to 2 subframes, and so on. For interval-TDD-PUSCH-Enh, int1 corresponds to 1 subframe, int5 corresponds to 5 subframes, and so on. See TS 36.211 [21], clause 5.3.4.

groupAssignmentPUSCH

Parameter: SS See TS 36.211 [21], clause 5.5.1.3.

groupHoppingDisabled

Parameter: Disable-sequence-group-hopping, see TS 36.211 [21], clause 5.5.1.3.

groupHoppingEnabled

Parameter: Group-hopping-enabled, see TS 36.211 [21], clause 5.5.1.3.

hoppingMode

Parameter: Hopping-mode, see TS 36.211 [21], clause 5.3.4.

locationCE-ModeB

PRB location within the narrowband when PUSCH sub-PRB allocation is enabled in CE mode B.

nDMRS-CSH-Identity

Parameter: , see TS 36.211 [21], clause 5.5.2.1.1.

nPUSCH-Identity

Parameter: , see TS 36.211 [21], clause 5.5.1.5.

n-SB

Parameter: Nsb see TS 36.211 [21], clause 5.3.4.

pusch-HoppingConfig

For BL UEs and UEs in CE, frequency hopping activation/deactivation for unicast PUSCH, see TS 36.211 [21]

pusch-hoppingOffset

Except for BL UEs and UEs in CE, parameter: , see TS 36.211 [21], clause 5.3.4. For BL UEs and UEs in CE, the pusch-hoppingOffset-v1310 indicates the parameter, see TS 36.211 [21], clause 5.3.4. . In case pusch-hoppingOffset-v1310 is signalled, the BL UEs and UEs in CE shall ignore pusch-hoppingOffset (i.e. without suffix).

pusch-HoppingOffsetPUSCH-Enh

Indicates the freqeuncy domain hopping offset between PRBs for PUSCH in frequency hopping, see TS 36.211 [21], clause 5.3.4. Value 1 corresponds to 1 PRB, value 2 corresponds to 2 PRBs, and so on.

pusch-maxNumRepetitionCEmodeA

Maximum value to indicate the set of PUSCH repetition numbers for CE mode A, see TS 36.211 [21] and TS 36.213 [23]. E-UTRAN does not configure value r8. If the field is not configured, the UE shall apply the default value as defined in TS 36.213 [23], clause 8.0.

pusch-maxNumRepetitionCEmodeB

Maximum value to indicate the set of PUSCH repetition numbers for CE mode B, see TS 36.211 [21] and TS 36.213 [23].

sequenceHoppingEnabled

Parameter: Sequence-hopping-enabled, see TS 36.211 [21], clause 5.5.1.4.

sixToneCyclicShift, threeToneCyclicShift

Cyclic shift for PUSCH reference signal sequence of six/three subcarriers in CE mode A or B.

symPUSCH-UpPTS

Indicates the number of data symbols that configured for PUSCH transmission in UpPTS. Values sym2, sym3, sym4, sym5 and sym6 can be used for normal cyclic prefix, if dmrsLess-UpPTS is set to true, otherwise, values sym2, sym3, sym4, sym5 can be used for normal cyclic prefix and values sym1, sym2, sym3 and sym4 can be used for extended cyclic prefix, see TS 36.213 [23], clause 8.6.2 and TS 36.211 [21], clause 5.3.4.

ul-DMRS-IFDMA

Value TRUE indicates that the UE is configured with enhanced UL DMRS.

ul-ReferenceSignalsPUSCH

Used to specify parameters needed for the transmission on PUSCH (or PUCCH).

Conditional presence

Explanation

CE-ModeB

The field is optionally present, need ON, for CE Mode B. Otherwise, the field is not present.

RACH-ConfigCommon

The IE RACH-ConfigCommon is used to specify the generic random access parameters.

RACH-ConfigCommon information element

— ASN1START

RACH-ConfigCommon ::= SEQUENCE {

preambleInfo SEQUENCE {

numberOfRA-Preambles ENUMERATED {

n4, n8, n12, n16, n20, n24, n28,

n32, n36, n40, n44, n48, n52, n56,

n60, n64},

preamblesGroupAConfig SEQUENCE {

sizeOfRA-PreamblesGroupA ENUMERATED {

n4, n8, n12, n16, n20, n24, n28,

n32, n36, n40, n44, n48, n52, n56,

n60},

messageSizeGroupA ENUMERATED {b56, b144, b208, b256},

messagePowerOffsetGroupB ENUMERATED {

minusinfinity, dB0, dB5, dB8, dB10, dB12,

dB15, dB18},

} OPTIONAL — Need OP

},

powerRampingParameters PowerRampingParameters,

ra-SupervisionInfo SEQUENCE {

preambleTransMax PreambleTransMax,

ra-ResponseWindowSize ENUMERATED {

sf2, sf3, sf4, sf5, sf6, sf7,

sf8, sf10},

mac-ContentionResolutionTimer ENUMERATED {

sf8, sf16, sf24, sf32, sf40, sf48,

sf56, sf64}

},

maxHARQ-Msg3Tx INTEGER (1..8),

…,

[[ preambleTransMax-CE-r13 PreambleTransMax OPTIONAL, — Need OR

rach-CE-LevelInfoList-r13 RACH-CE-LevelInfoList-r13 OPTIONAL — Need OR

]],

[[ edt-SmallTBS-Subset-r15 ENUMERATED {true} OPTIONAL — Cond EDT-OR

]]

}

RACH-ConfigCommon-v1250 ::= SEQUENCE {

txFailParams-r12 SEQUENCE {

connEstFailCount-r12 ENUMERATED {n1, n2, n3, n4},

connEstFailOffsetValidity-r12 ENUMERATED {s30, s60, s120, s240,

s300, s420, s600, s900},

connEstFailOffset-r12 INTEGER (0..15) OPTIONAL — Need OP

}

}

RACH-ConfigCommonSCell-r11 ::= SEQUENCE {

powerRampingParameters-r11 PowerRampingParameters,

ra-SupervisionInfo-r11 SEQUENCE {

preambleTransMax-r11 PreambleTransMax

},

}

RACH-CE-LevelInfoList-r13 ::= SEQUENCE (SIZE (1..maxCE-Level-r13)) OF RACH-CE-LevelInfo-r13

RACH-CE-LevelInfo-r13 ::= SEQUENCE {

preambleMappingInfo-r13 SEQUENCE {

firstPreamble-r13 INTEGER(0..63),

lastPreamble-r13 INTEGER(0..63)

},

ra-ResponseWindowSize-r13 ENUMERATED {sf20, sf50, sf80, sf120, sf180,

sf240, sf320, sf400},

mac-ContentionResolutionTimer-r13 ENUMERATED {sf80, sf100, sf120,

sf160, sf200, sf240, sf480, sf960},

rar-HoppingConfig-r13 ENUMERATED {on,off},

…,

[[ edt-Parameters-r15 SEQUENCE {

edt-LastPreamble-r15 INTEGER(0..63),

edt-SmallTBS-Enabled-r15 BOOLEAN,

edt-TBS-r15 ENUMERATED {b328, b408, b504, b600, b712,

b808, b936, b1000or456},

mac-ContentionResolutionTimer-r15 ENUMERATED {sf240, sf480, sf960,

sf1920, sf3840, sf5760, sf7680, sf10240} OPTIONAL — Need OP

} OPTIONAL — Cond EDT

]]

}

PowerRampingParameters ::= SEQUENCE {

powerRampingStep ENUMERATED {dB0, dB2,dB4, dB6},

preambleInitialReceivedTargetPower ENUMERATED {

dBm-120, dBm-118, dBm-116, dBm-114, dBm-112,

dBm-110, dBm-108, dBm-106, dBm-104, dBm-102,

dBm-100, dBm-98, dBm-96, dBm-94,

dBm-92, dBm-90}

}

PreambleTransMax ::= ENUMERATED {

n3, n4, n5, n6, n7, n8, n10, n20, n50,

n100, n200}

— ASN1STOP

RACH-ConfigCommon field descriptions

connEstFailCount

Number of times that the UE detects T300 expiry on the same cell before applying connEstFailOffset.

connEstFailOffset

Parameter "Qoffsettemp" in TS 36.304 [4]. If the field is not present the value of infinity shall be used for "Qoffsettemp".

connEstFailOffsetValidity

Amount of time that the UE applies connEstFailOffset before removing the offset from evaluation of the cell. Value s30 corresponds to 30 seconds, s60 corresponds to 60 seconds, and so on.

edt-LastPreamble

Provides the mapping of preambles to groups for each CE level for EDT, as specified in TS 36.321 [6]. For the concerned CE level, if PRACH resources configured by edt-PRACH-ParametersCE-r15 are different from the PRACH resources configured by PRACH-ParametersCE-r13 for all CE levels and edt-PRACH-ParametersCE-r15 for all other CE levels, the preambles for EDT are the preambles firstPreamble-r13 to edt-LastPreamble-r15, otherwise the preambles for EDT are the preambles lastPreamble-r13 +1 to edt-LastPreamble-r15.

edt-SmallTBS-Enabled

Value TRUE indicates UE performing EDT is allowed to select TBS smaller than edt-TBS for Msg3 in the corresponding CE level, as specified in TS 36.213 [23].

edt-SmallTBS-Subset

Presence indicates only two of the TBS values can be used according to edt-TBS corresponding to the CE level, as specified in TS 36.213 [23]. When the field is not present, any of the TBS values according to edt-TBS corresponding to the CE level can be used. This field is applicable for a CE level only when edt-SmallTBS-Enabled is included for the corresponding CE level.

edt-TBS

Largest TBS for Msg3 for a CE level applicable to a UE performing EDT. Value in bits. Value b328 corresponds to 328 bits, b408 corresponds to 408 bits and so on. Additionally, value b1000or456 corresponds to 1000 bits for CE levels 0 and 1, and 456 bits for CE levels 2 and 3. See TS 36.213 [23].

mac-ContentionResolutionTimer

Timer for contention resolution in TS 36.321 [6]. Value in subframes. Value sf8 corresponds to 8 subframes, sf16 corresponds to 16 subframes and so on. mac-ContentionResolutionTimer-r15 is only applicable for EDT. UE performing EDT shall use mac-ContentionResolutionTimer-r15, if present.

maxHARQ-Msg3Tx

Maximum number of Msg3 HARQ transmissions in TS 36.321 [6], used for contention based random access. Value is an integer.

messagePowerOffsetGroupB

Threshold for preamble selection in TS 36.321 [6]. Value in dB. Value minusinfinity corresponds to –infinity. Value dB0 corresponds to 0 dB, dB5 corresponds to 5 dB and so on.

messageSizeGroupA

Threshold for preamble selection in TS 36.321 [6]. Value in bits. Value b56 corresponds to 56 bits, b144 corresponds to 144 bits and so on.

numberOfRA-Preambles

Number of non-dedicated random access preambles in TS 36.321 [6]. Value is an integer. Value n4 corresponds to 4, n8 corresponds to 8 and so on.

powerRampingStep

Power ramping factor in TS 36.321 [6]. Value in dB. Value dB0 corresponds to 0 dB, dB2 corresponds to 2 dB and so on.

preambleInitialReceivedTargetPower

Initial preamble power in TS 36.321 [6]. Value in dBm. Value dBm-120 corresponds to -120 dBm, dBm-118 corresponds to -118 dBm and so on.

preambleMappingInfo

Provides the mapping of preambles to groups for each CE level, except for EDT, as specified in TS 36.321 [6]. When random access preambles group B is used, firstPreamble-r13 is set to 0 and lastPreamble-r13 is set to numberOfRA-Preambles-1.

preamblesGroupAConfig

Provides the configuration for preamble grouping in TS 36.321 [6]. If the field is not signalled, the size of the random access preambles group A, as specified in TS 36.321 [6], is equal to numberOfRA-Preambles.

preambleTransMax, preambleTransMax-CE

Maximum number of preamble transmission in TS 36.321 [6]. Value is an integer. Value n3 corresponds to 3, n4 corresponds to 4 and so on.

rach-CE-LevelInfoList

Provides RACH information for each coverage level. The first entry in the list contains RACH information of CE level 0, the second entry in the list contains RACH information of CE level 1, and so on. If E-UTRAN includes rach-CE-LevelInfoList, it includes the same number of entries as in prach-ParametersListCE.

ra-ResponseWindowSize

Duration of the RA response window in TS 36.321 [6]. Value in subframes. Value sf2 corresponds to 2 subframes, sf3 corresponds to 3 subframes and so on. The same value applies for each serving cell (although the associated functionality is performed independently for each cell).

rar-HoppingConfig

Frequency hopping activation/deactivation for RAR/Msg3/Msg4 for a CE level, see TS 36.211 [21].

sizeOfRA-PreamblesGroupA

Size of the random access preambles group A in TS 36.321 [6]. Value is an integer. Value n4 corresponds to 4, n8 corresponds to 8 and so on.

Conditional presence

Explanation

EDT

The field is mandatory present if cp-EDT or up-EDT in SystemInformationBlockType2 is present; otherwise the field is not present and the UE shall delete any existing value for this field.

EDT-OR

The field is optionally present, Need OR, if cp-EDT or up-EDT in SystemInformationBlockType2 is present; otherwise the field is not present and the UE shall delete any existing value for this field.

RACH-ConfigDedicated

The IE RACH-ConfigDedicated is used to specify the dedicated random access parameters.

RACH-ConfigDedicated information element

— ASN1START

RACH-ConfigDedicated ::= SEQUENCE {

ra-PreambleIndex INTEGER (0..63),

ra-PRACH-MaskIndex INTEGER (0..15)

}

— ASN1STOP

RACH-ConfigDedicated field descriptions

ra-PRACH-MaskIndex

Explicitly signalled PRACH Mask Index for RA Resource selection in TS 36.321 [6].

ra-PreambleIndex

Explicitly signalled Random Access Preamble for RA Resource selection in TS 36.321 [6].

RadioResourceConfigCommon

The IE RadioResourceConfigCommonSIB and IE RadioResourceConfigCommon are used to specify common radio resource configurations in the system information and in the mobility control information, respectively, e.g., the random access parameters and the static physical layer parameters.

RadioResourceConfigCommon information element

— ASN1START

RadioResourceConfigCommonSIB ::= SEQUENCE {

rach-ConfigCommon RACH-ConfigCommon,

bcch-Config BCCH-Config,

pcch-Config PCCH-Config,

prach-Config PRACH-ConfigSIB,

pdsch-ConfigCommon PDSCH-ConfigCommon,

pusch-ConfigCommon PUSCH-ConfigCommon,

pucch-ConfigCommon PUCCH-ConfigCommon,

soundingRS-UL-ConfigCommon SoundingRS-UL-ConfigCommon,

uplinkPowerControlCommon UplinkPowerControlCommon,

ul-CyclicPrefixLength UL-CyclicPrefixLength,

…,

[[ uplinkPowerControlCommon-v1020 UplinkPowerControlCommon-v1020 OPTIONAL — Need OR

]],

[[ rach-ConfigCommon-v1250 RACH-ConfigCommon-v1250 OPTIONAL — Need OR

]],

[[ pusch-ConfigCommon-v1270 PUSCH-ConfigCommon-v1270 OPTIONAL — Need OR

]],

[[ bcch-Config-v1310 BCCH-Config-v1310 OPTIONAL, — Need OR

pcch-Config-v1310 PCCH-Config-v1310 OPTIONAL, — Need OR

freqHoppingParameters-r13 FreqHoppingParameters-r13 OPTIONAL, — Need OR

pdsch-ConfigCommon-v1310 PDSCH-ConfigCommon-v1310 OPTIONAL, — Need OR

pusch-ConfigCommon-v1310 PUSCH-ConfigCommon-v1310 OPTIONAL, — Need OR

prach-ConfigCommon-v1310 PRACH-ConfigSIB-v1310 OPTIONAL, — Need OR

pucch-ConfigCommon-v1310 PUCCH-ConfigCommon-v1310 OPTIONAL — Need OR

]],

[[ highSpeedConfig-r14 HighSpeedConfig-r14 OPTIONAL, — Need OR

prach-Config-v1430 PRACH-Config-v1430 OPTIONAL, — Need OR

pucch-ConfigCommon-v1430 PUCCH-ConfigCommon-v1430 OPTIONAL — Need OR

]],

[[ prach-Config-v1530 PRACH-ConfigSIB-v1530 OPTIONAL, — Cond EDT

ce-RSS-Config-r15 RSS-Config-r15 OPTIONAL, — Need OR

wus-Config-r15 WUS-Config-r15 OPTIONAL, — Need OR

highSpeedConfig-v1530 HighSpeedConfig-v1530 OPTIONAL — Need OR

]],

[[ uplinkPowerControlCommon-v1540 UplinkPowerControlCommon-v1530 OPTIONAL — Need OR

]],

[[ wus-Config-v1560 WUS-Config-v1560 OPTIONAL — Need OR

]]

}

RadioResourceConfigCommon ::= SEQUENCE {

rach-ConfigCommon RACH-ConfigCommon OPTIONAL, — Need ON

prach-Config PRACH-Config,

pdsch-ConfigCommon PDSCH-ConfigCommon OPTIONAL, — Need ON

pusch-ConfigCommon PUSCH-ConfigCommon,

phich-Config PHICH-Config OPTIONAL, — Need ON

pucch-ConfigCommon PUCCH-ConfigCommon OPTIONAL, — Need ON

soundingRS-UL-ConfigCommon SoundingRS-UL-ConfigCommon OPTIONAL, — Need ON

uplinkPowerControlCommon UplinkPowerControlCommon OPTIONAL, — Need ON

antennaInfoCommon AntennaInfoCommon OPTIONAL, — Need ON

p-Max P-Max OPTIONAL, — Need OP

tdd-Config TDD-Config OPTIONAL, — Cond TDD

ul-CyclicPrefixLength UL-CyclicPrefixLength,

…,

[[ uplinkPowerControlCommon-v1020 UplinkPowerControlCommon-v1020 OPTIONAL — Need ON

]],

[[ tdd-Config-v1130 TDD-Config-v1130 OPTIONAL — Cond TDD3

]],

[[ pusch-ConfigCommon-v1270 PUSCH-ConfigCommon-v1270 OPTIONAL — Need OR

]],

[[

prach-Config-v1310 PRACH-Config-v1310 OPTIONAL, — Need ON

freqHoppingParameters-r13 FreqHoppingParameters-r13 OPTIONAL, — Need ON

pdsch-ConfigCommon-v1310 PDSCH-ConfigCommon-v1310 OPTIONAL, — Need ON

pucch-ConfigCommon-v1310 PUCCH-ConfigCommon-v1310 OPTIONAL, — Need ON

pusch-ConfigCommon-v1310 PUSCH-ConfigCommon-v1310 OPTIONAL, — Need ON

uplinkPowerControlCommon-v1310 UplinkPowerControlCommon-v1310 OPTIONAL — Need ON

]],

[[ highSpeedConfig-r14 HighSpeedConfig-r14 OPTIONAL, — Need OR

prach-Config-v1430 PRACH-Config-v1430 OPTIONAL, — Need OR

pucch-ConfigCommon-v1430 PUCCH-ConfigCommon-v1430 OPTIONAL, — Need OR

tdd-Config-v1430 TDD-Config-v1430 OPTIONAL — Cond TDD3

]],

[[

tdd-Config-v1450 TDD-Config-v1450 OPTIONAL — Cond TDD3

]],

[[ uplinkPowerControlCommon-v1530 UplinkPowerControlCommon-v1530 OPTIONAL, — Need ON

highSpeedConfig-v1530 HighSpeedConfig-v1530 OPTIONAL — Need OR

]]

}

RadioResourceConfigCommonPSCell-r12 ::= SEQUENCE {

basicFields-r12 RadioResourceConfigCommonSCell-r10,

pucch-ConfigCommon-r12 PUCCH-ConfigCommon,

rach-ConfigCommon-r12 RACH-ConfigCommon,

uplinkPowerControlCommonPSCell-r12 UplinkPowerControlCommonPSCell-r12,

…,

[[ uplinkPowerControlCommonPSCell-v1310

UplinkPowerControlCommon-v1310 OPTIONAL — Need ON

]],

[[ uplinkPowerControlCommonPSCell-v1530

UplinkPowerControlCommon-v1530 OPTIONAL — Need ON

]]

}

RadioResourceConfigCommonPSCell-v12f0 ::= SEQUENCE {

basicFields-v12f0 RadioResourceConfigCommonSCell-v10l0

}

RadioResourceConfigCommonPSCell-v1440 ::= SEQUENCE {

basicFields-v1440 RadioResourceConfigCommonSCell-v1440

}

RadioResourceConfigCommonSCell-r10 ::= SEQUENCE {

— DL configuration as well as configuration applicable for DL and UL

nonUL-Configuration-r10 SEQUENCE {

— 1: Cell characteristics

dl-Bandwidth-r10 ENUMERATED {n6, n15, n25, n50, n75, n100},

— 2: Physical configuration, general

antennaInfoCommon-r10 AntennaInfoCommon,

mbsfn-SubframeConfigList-r10 MBSFN-SubframeConfigList OPTIONAL, — Need OR

— 3: Physical configuration, control

phich-Config-r10 PHICH-Config,

— 4: Physical configuration, physical channels

pdsch-ConfigCommon-r10 PDSCH-ConfigCommon,

tdd-Config-r10 TDD-Config OPTIONAL — Cond TDDSCell

},

— UL configuration

ul-Configuration-r10 SEQUENCE {

ul-FreqInfo-r10 SEQUENCE {

ul-CarrierFreq-r10 ARFCN-ValueEUTRA OPTIONAL, — Need OP

ul-Bandwidth-r10 ENUMERATED {n6, n15,

n25, n50, n75, n100} OPTIONAL, — Need OP

additionalSpectrumEmissionSCell-r10 AdditionalSpectrumEmission

},

p-Max-r10 P-Max OPTIONAL, — Need OP

uplinkPowerControlCommonSCell-r10 UplinkPowerControlCommonSCell-r10,

— A special version of IE UplinkPowerControlCommon may be introduced

— 3: Physical configuration, control

soundingRS-UL-ConfigCommon-r10 SoundingRS-UL-ConfigCommon,

ul-CyclicPrefixLength-r10 UL-CyclicPrefixLength,

— 4: Physical configuration, physical channels

prach-ConfigSCell-r10 PRACH-ConfigSCell-r10 OPTIONAL, — Cond TDD-OR-NoR11

pusch-ConfigCommon-r10 PUSCH-ConfigCommon

} OPTIONAL, — Need OR

…,

[[ ul-CarrierFreq-v1090 ARFCN-ValueEUTRA-v9e0 OPTIONAL — Need OP

]],

[[ rach-ConfigCommonSCell-r11 RACH-ConfigCommonSCell-r11 OPTIONAL, — Cond ULSCell

prach-ConfigSCell-r11 PRACH-Config OPTIONAL, — Cond UL

tdd-Config-v1130 TDD-Config-v1130 OPTIONAL, — Cond TDD2

uplinkPowerControlCommonSCell-v1130

UplinkPowerControlCommonSCell-v1130 OPTIONAL — Cond UL

]],

[[ pusch-ConfigCommon-v1270 PUSCH-ConfigCommon-v1270 OPTIONAL — Need OR

]],

[[ pucch-ConfigCommon-r13 PUCCH-ConfigCommon OPTIONAL, — Cond UL

uplinkPowerControlCommonSCell-v1310

UplinkPowerControlCommonSCell-v1310 OPTIONAL — Cond UL

]],

[[ highSpeedConfigSCell-r14 HighSpeedConfigSCell-r14 OPTIONAL, — Need OR

prach-Config-v1430 PRACH-Config-v1430 OPTIONAL, — Cond UL

ul-Configuration-r14 SEQUENCE {

ul-FreqInfo-r14 SEQUENCE {

ul-CarrierFreq-r14 ARFCN-ValueEUTRA-r9 OPTIONAL, — Need OP

ul-Bandwidth-r14 ENUMERATED {n6, n15,

n25, n50, n75, n100} OPTIONAL, — Need OP

additionalSpectrumEmissionSCell-r14 AdditionalSpectrumEmission

},

p-Max-r14 P-Max OPTIONAL, — Need OP

soundingRS-UL-ConfigCommon-r14 SoundingRS-UL-ConfigCommon,

ul-CyclicPrefixLength-r14 UL-CyclicPrefixLength,

prach-ConfigSCell-r14 PRACH-ConfigSCell-r10 OPTIONAL, — Cond TDD-OR-NoR11

uplinkPowerControlCommonPUSCH-LessCell-v1430

UplinkPowerControlCommonPUSCH-LessCell-v1430 OPTIONAL — Need OR

} OPTIONAL, — Cond ULSRS

harq-ReferenceConfig-r14 ENUMERATED {sa2,sa4,sa5} OPTIONAL, — Need OR

soundingRS-FlexibleTiming-r14 ENUMERATED {true} OPTIONAL — Need OR

]],

[[ mbsfn-SubframeConfigList-v1430 MBSFN-SubframeConfigList-v1430 OPTIONAL — Need ON

]],

[[ uplinkPowerControlCommonSCell-v1530 UplinkPowerControlCommon-v1530 OPTIONAL — Need ON

]]

}

RadioResourceConfigCommonSCell-v10l0 ::= SEQUENCE {

— UL configuration

ul-Configuration-v10l0 SEQUENCE {

additionalSpectrumEmissionSCell-v10l0 AdditionalSpectrumEmission-v10l0

}

}

RadioResourceConfigCommonSCell-v1440 ::= SEQUENCE {

ul-Configuration-v1440 SEQUENCE {

ul-FreqInfo-v1440 SEQUENCE {

additionalSpectrumEmissionSCell-v1440 AdditionalSpectrumEmission-v10l0

}

}

}

BCCH-Config ::= SEQUENCE {

modificationPeriodCoeff ENUMERATED {n2, n4, n8, n16}

}

BCCH-Config-v1310 ::= SEQUENCE {

modificationPeriodCoeff-v1310 ENUMERATED {n64}

}

FreqHoppingParameters-r13 ::= SEQUENCE {

dummy ENUMERATED {nb2, nb4} OPTIONAL,

dummy2 CHOICE {

interval-FDD-r13 ENUMERATED {int1, int2, int4, int8},

interval-TDD-r13 ENUMERATED {int1, int5, int10, int20}

} OPTIONAL,

dummy3 CHOICE {

interval-FDD-r13 ENUMERATED {int2, int4, int8, int16},

interval-TDD-r13 ENUMERATED { int5, int10, int20, int40}

} OPTIONAL,

interval-ULHoppingConfigCommonModeA-r13 CHOICE {

interval-FDD-r13 ENUMERATED {int1, int2, int4, int8},

interval-TDD-r13 ENUMERATED {int1, int5, int10, int20}

} OPTIONAL, — Cond MP-A

interval-ULHoppingConfigCommonModeB-r13 CHOICE {

interval-FDD-r13 ENUMERATED {int2, int4, int8, int16},

interval-TDD-r13 ENUMERATED { int5, int10, int20, int40}

} OPTIONAL, — Cond MP-B

dummy4 INTEGER (1..maxAvailNarrowBands-r13) OPTIONAL

}

PCCH-Config ::= SEQUENCE {

defaultPagingCycle ENUMERATED {

rf32, rf64, rf128, rf256},

nB ENUMERATED {

fourT, twoT, oneT, halfT, quarterT, oneEighthT,

oneSixteenthT, oneThirtySecondT}

}

PCCH-Config-v1310 ::= SEQUENCE {

paging-narrowBands-r13 INTEGER (1..maxAvailNarrowBands-r13),

mpdcch-NumRepetition-Paging-r13 ENUMERATED {r1, r2, r4, r8, r16, r32, r64, r128, r256},

nB-v1310 ENUMERATED {one64thT, one128thT, one256thT}

OPTIONAL — Need OR

}

UL-CyclicPrefixLength ::= ENUMERATED {len1, len2}

HighSpeedConfig-r14 ::= SEQUENCE {

highSpeedEnhancedMeasFlag-r14 ENUMERATED {true} OPTIONAL, — Need OR

highSpeedEnhancedDemodulationFlag-r14 ENUMERATED {true} OPTIONAL — Need OR

}

HighSpeedConfig-v1530 ::= SEQUENCE {

highSpeedMeasGapCE-ModeA-r15 ENUMERATED {true}

}

HighSpeedConfigSCell-r14 ::= SEQUENCE {

highSpeedEnhancedDemodulationFlag-r14 ENUMERATED {true} OPTIONAL — Need OR

}

— ASN1STOP

RadioResourceConfigCommon field descriptions

additionalSpectrumEmissionSCell

The UE requirements related to additionalSpectrumEmissionSCell are defined in TS 36.101 [42]. E-UTRAN configures the same value in additionalSpectrumEmissionSCell for all SCell(s) of the same band with UL configured. The additionalSpectrumEmissionSCell is applicable for all serving cells (including PCell) of the same band with UL configured.

defaultPagingCycle

Default paging cycle, used to derive ‘T’ in TS 36.304 [4]. Value rf32 corresponds to 32 radio frames, rf64 corresponds to 64 radio frames and so on.

dummy

This field is not used in the specification. If received it shall be ignored by the UE.

harq-ReferenceConfig

Indicates UL/ DL configuration used as the DL HARQ reference configuration for this serving cell. Value sa2 corresponds to Configuration2, sa4 to Configuration4 etc, as specified in TS 36.211 [21], table 4.2-2. E-UTRAN configures the same value for all serving cells residing on same frequency band.

highSpeedEnhancedMeasFlag

If the field is present, the UE shall apply the high speed measurement enhancements as specified in TS 36.133 [16].

highSpeedEnhancedDemodulationFlag

If the field is present, the UE shall apply the advanced receiver in SFN scenario as specified in TS 36.101 [6].

highSpeedMeasGapCE-ModeA

If the field is present, the UE in CE mode A shall apply the measurement gap sharing table associated with high-velocity scenario for measurements, as specified in TS 36.133 [16].

interval-DLHoppingConfigCommonModeX

Number of consecutive absolute subframes over which MPDCCH or PDSCH for CE mode X stays at the same narrowband before hopping to another narrowband. For interval-FDD, int1 corresponds to 1 subframe, int2 corresponds to 2 subframes, and so on. For interval-TDD, int1 corresponds to 1 subframe, int5 corresponds to 5 subframes, and so on.

interval-ULHoppingConfigCommonModeX

Number of consecutive absolute subframes over which PUCCH or PUSCH for CE mode X stays at the same narrowband before hopping to another narrowband. For interval-FDD, int1 corresponds to 1 subframe, int2 corresponds to 2 subframes, and so on. For interval-TDD, int1 corresponds to 1 subframe, int5 corresponds to 5 subframes, and so on.

modificationPeriodCoeff

Actual modification period, expressed in number of radio frames= modificationPeriodCoeff * defaultPagingCycle. n2 corresponds to value 2, n4 corresponds to value 4, n8 corresponds to value 8, n16 corresponds to value 16, and n64 corresponds to value 64.

mpdcch-NumRepetition-Paging

Maximum number of repetitions for MPDCCH common search space (CSS) for paging, see TS 36.211 [21].

mpdcch-pdsch-HoppingOffset

Parameter: cid:image020.png@01D1F4C1.16D3F4B0, see TS 36.211 [21], clause 6.4.1.

mpdcch-pdsch-HoppingNB

The number of narrowbands for MPDCCH/PDSCH frequency hopping. Value nb2 corresponds to 2 narrowbands and value nb4 corresponds to 4 narrowbands.

nB

Parameter: nB is used as one of parameters to derive the Paging Frame and Paging Occasion according to TS 36.304 [4]. Value in multiples of ‘T’ as defined in TS 36.304 [4]. A value of fourT corresponds to 4 * T, a value of twoT corresponds to 2 * T and so on. In case nB-v1310 is signalled, the UE shall ignore nB (i.e. without suffix). EUTRAN configures nB-v1310 only in the BR version of SI message.

paging-narrowBands

Number of narrowbands used for paging, see TS 36.304 [4], TS 36.212 [22] and TS 36.213 [23].

p-Max

Pmax to be used in the target cell. If absent, for the band used in the target cell, the UE applies the maximum power according to its capability as specified in 36.101 [42], clause 6.2.2. In case the UE is configured with uplink intra-band contiguous CA and the UE indicates ue-CA-PowerClass-N in that band combination, then the p-Max in RadioResourceConfigCommonSCell for that SCell, if present, also applies for that band combination whenever that SCell is activated.

prach-ConfigSCell

Indicates a PRACH configuration for an SCell. The field is not applicable for an LAA SCell in this release.

rach-ConfigCommonSCell

Indicates a RACH configuration for an SCell. The field is not applicable for an LAA SCell in this release.

soundingRS-FlexibleTiming

Indicates the SRS flexible timing (if configured) for aperiodic SRS triggered by DL grant. If the SRS transmission is collided with ACK/NACK, postpone once to the next configured SRS transmission opportunity.

ul-Bandwidth

Parameter: transmission bandwidth configuration, NRB, in uplink, see TS 36.101 [42], table 5.6-1. Value n6 corresponds to 6 resource blocks, n15 to 15 resource blocks and so on. If for FDD this parameter is absent, the uplink bandwidth is equal to the downlink bandwidth. For TDD this parameter is absent and it is equal to the downlink bandwidth.

ul-CarrierFreq

For FDD: If absent, the (default) value determined from the default TX-RX frequency separation defined in TS 36.101 [42], table 5.7.3-1, applies.

For TDD: This parameter is absent and it is equal to the downlink frequency.

ul-CyclicPrefixLength

Parameter: Uplink cyclic prefix length see TS 36.211 [21], clause 5.2.1, where len1 corresponds to normal cyclic prefix and len2 corresponds to extended cyclic prefix.

Conditional presence

Explanation

EDT

The field is optionally present, Need OR, if edt-Parameters is present; otherwise the field is not present and the UE shall delete any existing value for this field.

MP-A

The field is mandatory present for CE mode A. Otherwise the field is optional, Need OR.

MP-B

The field is mandatory present for CE mode B. Otherwise the field is optional, Need OR.

TDD

The field is optional for TDD, Need ON; it is not present for FDD and the UE shall delete any existing value for this field.

TDD2

If tdd-Config-r10 is present, the field is optional, Need OR. Otherwise the field is not present and the UE shall delete any existing value for this field.

TDD3

If tdd-Config is present, the field is optional, Need OR. Otherwise the field is not present and the UE shall delete any existing value for this field.

TDD-OR-NoR11

If prach-ConfigSCell-r11 is absent, the field is optional for TDD, Need OR. Otherwise the field is not present and the UE shall delete any existing value for this field.

TDDSCell

This field is mandatory present for TDD; it is not present for FDD and LAA SCell, and the UE shall delete any existing value for this field.

UL

If the SCell is part of the STAG or concerns the PSCell or PUCCH SCell and if ul-Configuration is included, the field is optional, Need OR. Otherwise the field is not present and the UE shall delete any existing value for this field.

ULSCell

For the PSCell (IE is included in RadioResourceConfigCommonPSCell) the field is absent. Otherwise, if the SCell is part of the STAG and if ul-Configuration is included, the field is optional, Need OR. Otherwise the field is not present and the UE shall delete any existing value for this field.

ULSRS

If ul-Configuration-r10 is absent, the field is optional, Need OR. Otherwise the field is not present and the UE shall delete any existing value for this field.

RadioResourceConfigDedicated

The IE RadioResourceConfigDedicated is used to setup/modify/release RBs, to modify the MAC main configuration, to modify the SPS configuration and to modify dedicated physical configuration.

RadioResourceConfigDedicated information element

— ASN1START

RadioResourceConfigDedicated ::= SEQUENCE {

srb-ToAddModList SRB-ToAddModList OPTIONAL, — Cond HO-Conn

drb-ToAddModList DRB-ToAddModList OPTIONAL, — Cond HO-toEUTRA

drb-ToReleaseList DRB-ToReleaseList OPTIONAL, — Need ON

mac-MainConfig CHOICE {

explicitValue MAC-MainConfig,

defaultValue NULL

} OPTIONAL, — Cond HO-toEUTRA2

sps-Config SPS-Config OPTIONAL, — Need ON

physicalConfigDedicated PhysicalConfigDedicated OPTIONAL, — Need ON

…,

[[ rlf-TimersAndConstants-r9 RLF-TimersAndConstants-r9 OPTIONAL — Need ON

]],

[[ measSubframePatternPCell-r10 MeasSubframePatternPCell-r10 OPTIONAL — Need ON

]],

[[ neighCellsCRS-Info-r11 NeighCellsCRS-Info-r11 OPTIONAL — Need ON

]],

[[ naics-Info-r12 NAICS-AssistanceInfo-r12 OPTIONAL — Need ON

]],

[[ neighCellsCRS-Info-r13 NeighCellsCRS-Info-r13 OPTIONAL, — Cond CRSIM

rlf-TimersAndConstants-r13 RLF-TimersAndConstants-r13 OPTIONAL — Need ON

]],

[[ sps-Config-v1430 SPS-Config-v1430 OPTIONAL — Cond SPS

]],

[[ srb-ToAddModListExt-r15 SRB-ToAddModListExt-r15 OPTIONAL, — Need ON

srb-ToReleaseListExt-r15 INTEGER (4) OPTIONAL, — Need ON

sps-Config-v1530 SPS-Config-v1530 OPTIONAL, — Need ON

crs-IntfMitigConfig-r15 CHOICE {

release NULL,

setup CHOICE {

crs-IntfMitigEnabled NULL,

crs-IntfMitigNumPRBs ENUMERATED {n6, n24}

}

} OPTIONAL, — Need ON

neighCellsCRS-Info-r15 NeighCellsCRS-Info-r15 OPTIONAL, — Need ON

drb-ToAddModList-r15 DRB-ToAddModList-r15 OPTIONAL, — Need ON

drb-ToReleaseList-r15 DRB-ToReleaseList-r15 OPTIONAL, — Need ON

dummy SEQUENCE (SIZE (1..2)) OF INTEGER (1..2) OPTIONAL — Need ON

]],

[[ sps-Config-v1540 SPS-Config-v1540 OPTIONAL — Need ON

]]

}

RadioResourceConfigDedicated-v1370 ::= SEQUENCE {

physicalConfigDedicated-v1370 PhysicalConfigDedicated-v1370 OPTIONAL — Need ON

}

RadioResourceConfigDedicated-v13c0 ::= SEQUENCE {

physicalConfigDedicated-v13c0 PhysicalConfigDedicated-v13c0

}

RadioResourceConfigDedicatedPSCell-r12 ::= SEQUENCE {

— UE specific configuration extensions applicable for an PSCell

physicalConfigDedicatedPSCell-r12 PhysicalConfigDedicated OPTIONAL, — Need ON

sps-Config-r12 SPS-Config OPTIONAL, — Need ON

naics-Info-r12 NAICS-AssistanceInfo-r12 OPTIONAL, — Need ON

…,

[[ neighCellsCRS-InfoPSCell-r13 NeighCellsCRS-Info-r13 OPTIONAL — Need ON

]],

[[ sps-Config-v1430 SPS-Config-v1430 OPTIONAL — Cond SPS2

]],

[[ sps-Config-v1530 SPS-Config-v1530 OPTIONAL, — Need ON

crs-IntfMitigEnabled-r15 BOOLEAN OPTIONAL, — Need ON

neighCellsCRS-Info-r15 NeighCellsCRS-Info-r15 OPTIONAL — Need ON

]],

[[ sps-Config-v1540 SPS-Config-v1540 OPTIONAL — Need ON

]]

}

RadioResourceConfigDedicatedPSCell-v1370 ::= SEQUENCE {

physicalConfigDedicatedPSCell-v1370 PhysicalConfigDedicated-v1370 OPTIONAL — Need ON

}

RadioResourceConfigDedicatedPSCell-v13c0 ::= SEQUENCE {

physicalConfigDedicatedPSCell-v13c0 PhysicalConfigDedicated-v13c0

}

RadioResourceConfigDedicatedSCG-r12 ::= SEQUENCE {

drb-ToAddModListSCG-r12 DRB-ToAddModListSCG-r12 OPTIONAL, — Need ON

mac-MainConfigSCG-r12 MAC-MainConfig OPTIONAL, — Need ON

rlf-TimersAndConstantsSCG-r12 RLF-TimersAndConstantsSCG-r12 OPTIONAL, — Need ON

…,

[[ drb-ToAddModListSCG-r15 DRB-ToAddModListSCG-r15 OPTIONAL — Need ON

]],

[[ srb-ToAddModListSCG-r15 SRB-ToAddModList OPTIONAL, — Need ON

srb-ToReleaseListSCG-r15 SRB-ToReleaseList-r15 OPTIONAL — Need ON

]],

[[ — NE-DC additions for release of RLC bearer config for DRBs

drb-ToReleaseListSCG-r15 DRB-ToReleaseList-r15 OPTIONAL — Need ON

]]

}

RadioResourceConfigDedicatedSCell-r10 ::= SEQUENCE {

— UE specific configuration extensions applicable for an SCell

physicalConfigDedicatedSCell-r10 PhysicalConfigDedicatedSCell-r10 OPTIONAL, — Need ON

…,

[[ mac-MainConfigSCell-r11 MAC-MainConfigSCell-r11 OPTIONAL — Cond SCellAdd

]],

[[ naics-Info-r12 NAICS-AssistanceInfo-r12 OPTIONAL — Need ON

]],

[[ neighCellsCRS-InfoSCell-r13 NeighCellsCRS-Info-r13 OPTIONAL — Need ON

]],

[[ physicalConfigDedicatedSCell-v1370 PhysicalConfigDedicatedSCell-v1370 OPTIONAL — Need ON

]],

[[ crs-IntfMitigEnabled-r15 BOOLEAN OPTIONAL, — Need ON

neighCellsCRS-Info-r15 NeighCellsCRS-Info-r15 OPTIONAL, — Need ON

sps-Config-v1530 SPS-Config-v1530 OPTIONAL — Need ON

]]

}

RadioResourceConfigDedicatedSCell-v13c0 ::= SEQUENCE {

physicalConfigDedicatedSCell-v13c0 PhysicalConfigDedicatedSCell-v13c0

}

SRB-ToAddModList ::= SEQUENCE (SIZE (1..2)) OF SRB-ToAddMod

SRB-ToAddModListExt-r15 ::= SEQUENCE (SIZE (1)) OF SRB-ToAddMod

SRB-ToAddMod ::= SEQUENCE {

srb-Identity INTEGER (1..2),

rlc-Config CHOICE {

explicitValue RLC-Config,

defaultValue NULL

} OPTIONAL, — Cond Setup

logicalChannelConfig CHOICE {

explicitValue LogicalChannelConfig,

defaultValue NULL

} OPTIONAL, — Cond Setup

…,

[[ pdcp-verChange-r15 ENUMERATED {true} OPTIONAL, — Cond NR-PDCP

rlc-Config-v1530 RLC-Config-v1530 OPTIONAL, — Need ON

rlc-BearerConfigSecondary-r15 RLC-BearerConfig-r15 OPTIONAL, — Need ON

srb-Identity-v1530 INTEGER (4) OPTIONAL — Need ON

]],

[[ rlc-Config-v1560 RLC-Config-v1510 OPTIONAL — Need ON

]]

}

DRB-ToAddModList ::= SEQUENCE (SIZE (1..maxDRB)) OF DRB-ToAddMod

DRB-ToAddModList-r15 ::= SEQUENCE (SIZE (1..maxDRB-r15)) OF DRB-ToAddMod

DRB-ToAddModListSCG-r12 ::= SEQUENCE (SIZE (1..maxDRB)) OF DRB-ToAddModSCG-r12

DRB-ToAddModListSCG-r15 ::= SEQUENCE (SIZE (1..maxDRB-r15)) OF DRB-ToAddModSCG-r12

DRB-ToAddMod ::= SEQUENCE {

eps-BearerIdentity INTEGER (0..15) OPTIONAL, — Cond DRB-Setup

drb-Identity DRB-Identity,

pdcp-Config PDCP-Config OPTIONAL, — Cond PDCP

rlc-Config RLC-Config OPTIONAL, — Cond SetupM

logicalChannelIdentity INTEGER (3..10) OPTIONAL, — Cond DRB-SetupM

logicalChannelConfig LogicalChannelConfig OPTIONAL, — Cond SetupM

…,

[[ drb-TypeChange-r12 ENUMERATED {toMCG} OPTIONAL, — Need OP

rlc-Config-v1250 RLC-Config-v1250 OPTIONAL — Need ON

]],

[[ rlc-Config-v1310 RLC-Config-v1310 OPTIONAL, — Need ON

drb-TypeLWA-r13 BOOLEAN OPTIONAL, — Need ON

drb-TypeLWIP-r13 ENUMERATED {lwip, lwip-DL-only,

lwip-UL-only, eutran} OPTIONAL — Need ON

]],

[[ rlc-Config-v1430 RLC-Config-v1430 OPTIONAL, — Need ON

lwip-UL-Aggregation-r14 BOOLEAN OPTIONAL, — Cond LWIP

lwip-DL-Aggregation-r14 BOOLEAN OPTIONAL, — Cond LWIP

lwa-WLAN-AC-r14 ENUMERATED {ac-bk, ac-be, ac-vi, ac-vo} OPTIONAL — Cond UL-LWA

]],

[[ rlc-Config-v1510 RLC-Config-v1510 OPTIONAL — Need ON

]],

[[ rlc-Config-v1530 RLC-Config-v1530 OPTIONAL, — Need ON

rlc-BearerConfigSecondary-r15 RLC-BearerConfig-r15 OPTIONAL, — Need ON

logicalChannelIdentity-r15 INTEGER (32..38) OPTIONAL — Need ON

]]

}

DRB-ToAddModSCG-r12 ::= SEQUENCE {

drb-Identity-r12 DRB-Identity,

drb-Type-r12 CHOICE {

split-r12 NULL,

scg-r12 SEQUENCE {

eps-BearerIdentity-r12 INTEGER (0..15) OPTIONAL, — Cond DRB-Setup

pdcp-Config-r12 PDCP-Config OPTIONAL — Cond PDCP-S

}

} OPTIONAL, — Cond SetupS2

rlc-ConfigSCG-r12 RLC-Config OPTIONAL, — Cond SetupS

rlc-Config-v1250 RLC-Config-v1250 OPTIONAL, — Need ON

logicalChannelIdentitySCG-r12 INTEGER (3..10) OPTIONAL, — Cond DRB-SetupS

logicalChannelConfigSCG-r12 LogicalChannelConfig OPTIONAL, — Cond SetupS

…,

[[ rlc-Config-v1430 RLC-Config-v1430 OPTIONAL — Need ON

]],

[[ logicalChannelIdentitySCG-r15 INTEGER (32..38) OPTIONAL, — Need ON

rlc-Config-v1530 RLC-Config-v1530 OPTIONAL, — Need ON

rlc-BearerConfigSecondary-r15 RLC-BearerConfig-r15 OPTIONAL — Need ON

]],

[[ rlc-Config-v1560 RLC-Config-v1510 OPTIONAL — Need ON

]]

}

DRB-ToReleaseList ::= SEQUENCE (SIZE (1..maxDRB)) OF DRB-Identity

DRB-ToReleaseList-r15 ::= SEQUENCE (SIZE (1..maxDRB-r15)) OF DRB-Identity

SRB-ToReleaseList-r15 ::= SEQUENCE (SIZE (1..2)) OF INTEGER (1..2)

MeasSubframePatternPCell-r10 ::= CHOICE {

release NULL,

setup MeasSubframePattern-r10

}

NeighCellsCRS-Info-r11 ::= CHOICE {

release NULL,

setup CRS-AssistanceInfoList-r11

}

CRS-AssistanceInfoList-r11 ::= SEQUENCE (SIZE (1..maxCellReport)) OF CRS-AssistanceInfo-r11

CRS-AssistanceInfo-r11 ::= SEQUENCE {

physCellId-r11 PhysCellId,

antennaPortsCount-r11 ENUMERATED {an1, an2, an4, spare1},

mbsfn-SubframeConfigList-r11 MBSFN-SubframeConfigList,

…,

[[ mbsfn-SubframeConfigList-v1430 MBSFN-SubframeConfigList-v1430 OPTIONAL — Need ON

]]

}

NeighCellsCRS-Info-r13 ::= CHOICE {

release NULL,

setup CRS-AssistanceInfoList-r13

}

CRS-AssistanceInfoList-r13 ::= SEQUENCE (SIZE (1..maxCellReport)) OF CRS-AssistanceInfo-r13

CRS-AssistanceInfo-r13 ::= SEQUENCE {

physCellId-r13 PhysCellId,

antennaPortsCount-r13 ENUMERATED {an1, an2, an4, spare1},

mbsfn-SubframeConfigList-r13 MBSFN-SubframeConfigList OPTIONAL, — Need ON

…,

[[ mbsfn-SubframeConfigList-v1430 MBSFN-SubframeConfigList-v1430 OPTIONAL — Need ON

]]

}

NeighCellsCRS-Info-r15 ::= CHOICE {

release NULL,

setup CRS-AssistanceInfoList-r15

}

CRS-AssistanceInfoList-r15 ::= SEQUENCE (SIZE (1..maxCellReport)) OF CRS-AssistanceInfo-r15

CRS-AssistanceInfo-r15 ::= SEQUENCE {

physCellId-r15 PhysCellId,

crs-IntfMitigEnabled-r15 ENUMERATED {enabled} OPTIONAL — Need ON

}

NAICS-AssistanceInfo-r12 ::= CHOICE {

release NULL,

setup SEQUENCE {

neighCellsToReleaseList-r12 NeighCellsToReleaseList-r12 OPTIONAL , — Need ON

neighCellsToAddModList-r12 NeighCellsToAddModList-r12 OPTIONAL, — Need ON

servCellp-a-r12 P-a OPTIONAL — Need ON

}

}

NeighCellsToReleaseList-r12 ::= SEQUENCE (SIZE (1..maxNeighCell-r12)) OF PhysCellId

NeighCellsToAddModList-r12 ::= SEQUENCE (SIZE (1..maxNeighCell-r12)) OF NeighCellsInfo-r12

NeighCellsInfo-r12 ::= SEQUENCE {

physCellId-r12 PhysCellId,

p-b-r12 INTEGER (0..3),

crs-PortsCount-r12 ENUMERATED {n1, n2, n4, spare},

mbsfn-SubframeConfig-r12 MBSFN-SubframeConfigList OPTIONAL, — Need ON

p-aList-r12 SEQUENCE (SIZE (1..maxP-a-PerNeighCell-r12)) OF P-a,

transmissionModeList-r12 BIT STRING (SIZE(8)),

resAllocGranularity-r12 INTEGER (1..4),

}

P-a ::= ENUMERATED { dB-6, dB-4dot77, dB-3, dB-1dot77,

dB0, dB1, dB2, dB3}

RLC-BearerConfig-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

rlc-Config-r15 RLC-Config-r15 OPTIONAL, — Need ON

logicalChannelIdentityConfig-r15 CHOICE {

logicalChannelIdentity-r15 INTEGER (1..10),

logicalChannelIdentityExt-r15 INTEGER (32..38)

},

logicalChannelConfig-r15 LogicalChannelConfig OPTIONAL — Need ON

}

}

— ASN1STOP

RadioResourceConfigDedicated field descriptions

crs-IntfMitigConfig

crs-IntfMitigEnabled-r15 indicates CRS interference mitigation is enabled for the cell, as specified in TS 36.133 [16], clause 3.6.1.1. For BL UEs supporting ce-CRS-IntfMitig, presence of this field indicates CRS interference mitigation is enabled in the cell, as specified in TS 36.133 [16], clauses 3.6.1.2 and 3.6.1.3, and the value crs-IntfMitigNumPRBs indicates number of PRBs, i.e. 6 or 24 PRBs, for CRS transmission in the central cell BW when CRS interference mitigation is enabled. For UEs not supporting this feature, the behaviour is undefined if this field is configured and the field cellBarred in SystemInformationBlockType1 (SystemInformationBlockType1-BR for BL UEs or UEs in CE) is set to notbarred.

crs-PortsCount

Parameter represents the number of antenna ports for cell-specific reference signal used by the signaled neighboring cell where n1 corresponds to 1 antenna port, n2 to 2 antenna ports etc. see TS 36.211 [21], clause 6.10.1.

drb-Identity

In case of DC, the DRB identity is unique within the scope of the UE i.e. an SCG DRB can not use the same value as used for an MCG or split DRB. For a split DRB the same identity is used for the MCG- and SCG parts of the configuration.

drb-ToAddModList

When drb-ToAddModList-r15 is configured, UE shall ignore the drb-ToAddModList (without suffix).

drb-ToAddModListSCG

When an SCG is configured, E-UTRAN configures at least one SCG or split DRB. When drb-ToAddModListSCG-r15 is configured, UE shall ignore the drb-ToAddModListSCG (without suffix). When NE-DC is configured, this field indicates the SCG RLC bearers to be (re-)configured.

drb-ToReleaseList

When drb-ToReleaseList-r15 is configured, UE shall ignore the drb-ToReleaseList (without suffix).

drb-ToReleaseListSCG

When NE-DC is configured, this field indicates the SCG RLC bearers to be released.

drb-Type

This field indicates whether the DRB is split or SCG DRB. E-UTRAN does not configure split and SCG DRBs simultaneously for the UE.

drb-TypeChange

Indicates that a split/SCG DRB is reconfigured to an MCG DRB (i.e. E-UTRAN only signals the field in case the DRB type changes).

drb-TypeLWA

Indicates whether a DRB is (re)configured as an LWA DRB or an LWA DRB is reconfigured not to use WLAN resources. NOTE 1

drb-TypeLWIP

Indicates whether a DRB is (re)configured to use LWIP Tunnel in UL and DL (value lwip), DL only (value lwip-DL-only), UL only (value lwip-UL-only) or not to use LWIP Tunnel (value eutran).

dummy

This field is not used in the specification. If received it shall be ignored by the UE.

logicalChannelConfig

For SRBs a choice is used to indicate whether the logical channel configuration is signalled explicitly or set to the default logical channel configuration for SRB1 as specified in 9.2.1.1 or for SRB2 as specified in 9.2.1.2.

logicalChannelIdentity, LogicalChannelIdentityExt

The logical channel identity for both UL and DL. Value 4 is not configured for DRBs if SRB4 is configured. When logicalChannelIdentity-r15 is signalled, UE shall ignore contents of logicalChannelIdentity (without suffix).

logicalChannelIdentitySCG

The logical channel identity for both UL and DL. When logicalChannelIdentitySCG-r15 is signalled, UE shall ignore contents of logicalChannelIdentitySCG (without suffix).

lwa-WLAN-AC

For LWA bearers, indicates the corresponding WLAN access category for uplink. AC-BK (value ac-bk) corresponds to Background access category, AC-BE (value ac-be) corresponds to Best Effort access category, AC-VI (value ac-vi) corresponds to Video access category and AC-VO (value ac-vo) corresponds to Voice access category as defined by IEEE 802.11-2012 [67]. If lwa-WLAN-AC is not configured, it is left up to UE to decide which IEEE 802.11 AC value to use when performing transmissions of packets for this DRB over WLAN in the uplink.

lwip-DL-Aggregation, lwip-UL-Aggregation

Indicates whether LWIP is configured to utilize LWIP aggregation in DL or UL.

mac-MainConfig

Although the ASN.1 includes a choice that is used to indicate whether the mac-MainConfig is signalled explicitly or set to the default MAC main configuration as specified in 9.2.2, EUTRAN does not apply "defaultValue".

mbsfn-SubframeConfig

Defines the MBSFN subframe configuration used by the signaled neighboring cell. If absent, UE assumes no MBSFN configuration for the neighboring cell.

measSubframePatternPCell

Time domain measurement resource restriction pattern for the PCell measurements (RSRP, RSRQ and the radio link monitoring).

neighCellsCRS-Info, neighCellsCRS-InfoSCell, neighCellsCRS-InfoPSCell

This field contains assistance information used by the UE to mitigate interference from CRS while performing RRM/RLM/CSI measurement or data demodulation or DL control channel demodulation. When the received CRS assistance information is for a cell with CRS non-colliding with that of the CRS of the cell to measure, the UE may use the CRS assistance information to mitigate CRS interference. When the received CRS assistance information is for a cell with CRS colliding with that of the CRS of the cell to measure, the UE may use the CRS assistance information to mitigate CRS interference RRM/RLM (as specified in TS 36.133 [16]) and for CSI (as specified in TS 36.101 [42]) on the subframes indicated by measSubframePatternPCell, measSubframePatternConfigNeigh, csi-MeasSubframeSet1 if configured, and the CSI subframe set 1 if csi-MeasSubframeSets-r12 is configured. The UE may use CRS assistance information to mitigate CRS interference from the cells in the CRS-AssistanceInfoList for the demodulation purpose or DL control channel demodulation as specified in TS 36.101 [42]. EUTRAN does not configure neighCellsCRS-Info-r11 or neighCellsCRS-Info-r13 if eimta-MainConfigPCell-r12 is configured.

neighCellsToAddModList

This field contains assistance information used by the UE to cancel and suppress interference of a neighbouring cell. If this field is present for a neighbouring cell, the UE assumes that the transmission parameters listed in the sub-fields are used by the neighbouring cell. If this field is present for a neighbouring cell, the UE assumes the neighbour cell is subframe and SFN synchronized to the serving cell, has the same system bandwidth, UL/DL and special subframe configuration, and cyclic prefix length as the serving cell.

p-aList

Indicates the restricted subset of power offset for QPSK, 16QAM, and 64QAM PDSCH transmissions for the neighbouring cell by using the parameter, see TS 36.213 [23], clause 5.2. Value dB-6 corresponds to -6 dB, dB-4dot77 corresponds to -4.77 dB etc.

p-b

Parameter: , indicates the cell-specific ratio used by the signaled neighboring cell, see TS 36.213 [23], Table 5.2-1.

pdcp-verChange

Indicates that the PDCP version of the SRB is changed from NR PDCP to E-UTRA PDCP. Network only configures this version change for during handover, resume and first reconfiguration after re-establishment. E-UTRAN does not include this field when SRB-ToAddMod is included in srb-ToAddModListSCG.

physicalConfigDedicated

The default dedicated physical configuration is specified in 9.2.4.

resAllocGranularity

Indicates the resource allocation and precoding granularity in PRB pair level of the signaled neighboring cell, see TS 36.213 [23], clause 7.1.6.

rlc-BearerConfigSecondary

The configuration of a secondary RLC bearer within the same Cell Group as may e.g. be used in case of PDCP duplication using CA. The configuration comprises a (secondary) RLC entity, a logical channel identity and a logical channel configuration. E-UTRAN may configure this for SRB1, SRB2 and DRBs. For SRBs, E-UTRAN only configures the field for MCG (i.e. if included in radioResourceConfigDedicated. E-UTRAN configures the same RLC mode (AM/ UM) as used for the original RLC entity. The primary RLC entity is configured by RLC-Config.

rlc-Config

For SRBs a choice is used to indicate whether the RLC configuration is signalled explicitly or set to the values defined in the default RLC configuration for SRB1 in 9.2.1.1 or for SRB2 in 9.2.1.2. RLC AM is the only applicable RLC mode for SRB1 and SRB2. E-UTRAN does not reconfigure the RLC mode of DRBs except when a full configuration option is used, and may reconfigure the RLC SN field size and the AM RLC LI field size only upon handover within E-UTRA or upon the first reconfiguration after RRC connection re-establishment or upon SCG Change for SCG and split DRBs.

servCellp-a

Indicates the power offset for QPSK C-RNTI based PDSCH transmissions used by the serving cell, see TS 36.213 [23], clause 5.2. Value dB-6 corresponds to -6 dB, dB-4dot77 corresponds to -4.77 dB etc.

sps-Config

The default SPS configuration is specified in 9.2.3. Except for handover or releasing SPS for MCG, E-UTRAN does not reconfigure sps-Config for MCG when there is a configured downlink assignment or a configured uplink grant for MCG (see TS 36.321 [6]). Except for SCG change or releasing SPS for SCG, E-UTRAN does not reconfigure sps-Config for SCG when there is a configured downlink assignment or a configured uplink grant for SCG (see TS 36.321 [6]). In one serving cell, sps-Config-v1530 is not present simultaneously with either sps-Config (without suffix) or sps-Config-r12.

srb-Identity

Value 1 is applicable for SRB1 only. Value 2 is applicable for SRB2 only. Value 4 is applicable for SRB4 only, if configured. For a split SRB the same identity is used for the MCG and NR SCG RLC bearer configurations. If srb-Identity-v1530 is received, the UE shall ignore srb-Identity (i.e. without suffix).

srb-Identity-v1530

E-UTRAN does not include this field when SRB-ToAddMod is included in srb-ToAddModListSCG.

srb-ToAddModListExt

The field is to configure SRB4.

srb-ToAddModList

E-UTRAN configures the same RAT type (i.e. EUTRA or NR) for PDCP configuration of SRB1 and SRB2.

transmissionModeList

Indicates a subset of transmission mode 1, 2, 3, 4, 6, 8, 9, 10, for the signaled neighboring cell for which NeighCellsInfo applies. When TM10 is signaled, other signaled transmission parameters in NeighCellsInfo are not applicable to up to 8 layer transmission scheme of TM10. E-UTRAN may indicate TM9 when TM10 with QCL type A and DMRS scrambling with  in TS 36.211 [21], clause 6.10.3.1, is used in the signalled neighbour cell and TM9 or TM10 with QCL type A and DMRS scrambling with  in TS 36.211 [21], clause 6.10.3.1, is used in the serving cell. UE behaviour with NAICS when TM10 is used is only defined when QCL type A and DMRS scrambling with  in TS 36.211 [21], clause 6.10.3.1, is used for the serving cell and all signalled neighbour cells. The first/ leftmost bit is for transmission mode 1, the second bit is for transmission mode 2, and so on.

NOTE 1: It is up to eNB to ensure that the field indicating LWA bearer type is set to FALSE when LWA bearer is no longer used (e.g. during handover or re-establishment where LWA configuration is released).

Conditional presence

Explanation

CRSIM

The field is optionally present, need ON, if neighCellsCRS-Info-r11 is not present; otherwise it is not present.

DRB-Setup

The field is mandatory present if the corresponding DRB is being set up and the UE is connected to EPC; otherwise it is not present.

DRB-SetupM

The field is:

– mandatory present:

– for the UE without SCG: upon setup of MCG DRB;

– for E-UTRA DC, upon setup of MCG or split DRB;

– for (NG)EN-DC:

– upon setup of MCG RLC bearer;

– optionally present, Need ON:

– for E-UTRA DC, upon change from SCG to MCG DRB;

– for (NG)EN-DC:

– upon change of keyToUse, as defined in TS 38.331 [82], for a DRB configured with an MCG RLC bearer;

– when configured with MCG RLC bearer, upon change of S-KgNB without handover;

– not present otherwise.

DRB-SetupS

The field is:

– mandatory present:

– for E-UTRA DC:

– upon setup of SCG or split DRB;

– upon change from MCG to split DRB;

– for NE-DC:

– upon setup of SCG RLC bearer;

– optionally present, Need ON:

– for E-UTRA DC, upon change from MCG to SCG DRB;

– for NE-DC, upon change of keyToUse, as defined in TS 38.331 [82], for a DRB configured with an SCG RLC bearer;

– not present otherwise.

HO-Conn

The field is mandatory present in case of handover to E-UTRA or when the fullConfig is included in the RRCConnectionReconfiguration message or in case of RRC connection establishment (excluding RRConnectionResume); otherwise the field is optionally present, need ON. Upon connection establishment/ re-establishment only SRB1 is applicable (excluding RRConnectionResume).

HO-toEUTRA

The field is mandatory present

– in case of handover to E-UTRA or

– when the fullConfig is included in the RRCConnectionReconfiguration message with the configuration for at least one MCG bearer or split data bearer;

In case of RRC connection establishment (excluding RRConnectionResume); and RRC connection re-establishment the field is not present; otherwise the field is optionally present, need ON.

HO-toEUTRA2

The field is mandatory present in case of handover to E-UTRA or when the fullConfig is included in the RRCConnectionReconfiguration message; otherwise the field is optionally present, need ON.

LWIP

The field is optionally present, Need ON, if drb-TypeLWIP-r13 is configured and not set to eutran; otherwise it is not present and the UE shall delete any existing value for this field.

NR-PDCP

The field is optional present, Need ON, when the SRB is configured with NR-PDCP prior to reception of this reconfiguration message. Otherwise it is not present.

PDCP

The field is mandatory present:

– when connected to E-UTRA/EPC:

– for the bearers configured with E-UTRA PDCP, if the corresponding DRB is being setup;

the field is optionally present, need ON: :

– when connected to E-UTRA/EPC:

– for the bearers configured with E-UTRA PDCP, upon reconfiguration of the corresponding split DRB or LWA DRB, upon the corresponding DRB type change from split to MCG bearer, upon the corresponding DRB type change from MCG to split bearer or LWA bearer, upon the corresponding DRB type change from LWA to LTE only bearer, upon handover within E-UTRA and upon the first reconfiguration after re-establishment but in all these cases only when fullConfig is not included in the RRCConnectionReconfiguration message;

otherwise it is not present.

PDCP-S

The field is mandatory present if the corresponding DRB is being setup; the field is optionally present, need ON, upon SCG change; otherwise it is not present.

RLC-Setup

This field is optionally present if the corresponding DRB is being setup, need ON; otherwise it is not present.

SCellAdd

The field is optionally present, need ON, upon SCell addition; otherwise it is not present.

Setup

The field is mandatory present if the corresponding SRB/DRB is being setup; otherwise the field is optionally present, need ON.

SetupM

The field is mandatory present upon setup of an MCG or split DRB, or upon setup of MCG RLC bearer; otherwise the field is optionally present, need ON.

SetupS

The field is mandatory present:

– for E-UTRA DC:

– upon setup of an SCG or split DRB,

– upon change from MCG to split DRB;

– for NE-DC, upon setup of SCG RLC bearer;

otherwise the field is optionally present, need ON.

SetupS2

The field is:

– mandatory present:

– for E-UTRA DC:

– upon setup of an SCG or split DRB, as well as upon change from MCG to split or SCG DRB.

– optionally present, need ON:

– for E-UTRA DC:

– for an SCG DRB

otherwise the field is not present.

SPS

The field is optionally present, need ON, if sps-Config (without suffix) is not configured; otherwise it is not present.

SPS2

The field is optionally present, need ON, if sps-Config-r12 is not configured; otherwise it is not present.

UL-LWA

The field is optionally present, need ON if ul-LWA-Config-r14 is present. Otherwise the field is not present.

RCLWI-Configuration

The IE RCLWI-Configuration is used to add, modify or release the RCLWI configuration.

— ASN1START

RCLWI-Configuration-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

rclwi-Config-r13 RCLWI-Config-r13

}

}

RCLWI-Config-r13 ::= SEQUENCE {

command CHOICE {

steerToWLAN-r13 SEQUENCE {

mobilityConfig-r13 WLAN-Id-List-r12

},

steerToLTE-r13 NULL

},

}

— ASN1STOP

RLC-Config

The IE RLC-Config is used to specify the RLC configuration of SRBs and DRBs.

RLC-Config information element

— ASN1START

RLC-Config ::= CHOICE {

am SEQUENCE {

ul-AM-RLC UL-AM-RLC,

dl-AM-RLC DL-AM-RLC

},

um-Bi-Directional SEQUENCE {

ul-UM-RLC UL-UM-RLC,

dl-UM-RLC DL-UM-RLC

},

um-Uni-Directional-UL SEQUENCE {

ul-UM-RLC UL-UM-RLC

},

um-Uni-Directional-DL SEQUENCE {

dl-UM-RLC DL-UM-RLC

},

}

RLC-Config-v1250 ::= SEQUENCE {

ul-extended-RLC-LI-Field-r12 BOOLEAN,

dl-extended-RLC-LI-Field-r12 BOOLEAN

}

RLC-Config-v1310 ::= SEQUENCE {

ul-extended-RLC-AM-SN-r13 BOOLEAN,

dl-extended-RLC-AM-SN-r13 BOOLEAN,

pollPDU-v1310 PollPDU-v1310 OPTIONAL — Need OR

}

RLC-Config-v1430 ::= CHOICE {

release NULL,

setup SEQUENCE {

pollByte-r14 PollByte-r14

}

}

RLC-Config-v1510 ::= SEQUENCE {

reestablishRLC-r15 ENUMERATED {true}

}

RLC-Config-v1530 ::= CHOICE {

release NULL,

setup SEQUENCE {

rlc-OutOfOrderDelivery-r15 ENUMERATED {true}

}

}

RLC-Config-r15 ::= SEQUENCE {

mode-r15 CHOICE {

am-r15 SEQUENCE {

ul-AM-RLC-r15 UL-AM-RLC-r15,

dl-AM-RLC-r15 DL-AM-RLC-r15

},

um-Bi-Directional-r15 SEQUENCE {

ul-UM-RLC-r15 UL-UM-RLC,

dl-UM-RLC-r15 DL-UM-RLC-r15

},

um-Uni-Directional-UL-r15 SEQUENCE {

ul-UM-RLC-r15 UL-UM-RLC

},

um-Uni-Directional-DL-r15 SEQUENCE {

dl-UM-RLC-r15 DL-UM-RLC-r15

}

},

reestablishRLC-r15 ENUMERATED {true} OPTIONAL, — Need ON

rlc-OutOfOrderDelivery-r15 ENUMERATED {true} OPTIONAL, — Need ON

}

UL-AM-RLC ::= SEQUENCE {

t-PollRetransmit T-PollRetransmit,

pollPDU PollPDU,

pollByte PollByte,

maxRetxThreshold ENUMERATED {

t1, t2, t3, t4, t6, t8, t16, t32}

}

UL-AM-RLC-r15 ::= SEQUENCE {

t-PollRetransmit-r15 T-PollRetransmit,

pollPDU-r15 PollPDU-r15,

pollByte-r15 PollByte-r14,

maxRetxThreshold-r15 ENUMERATED {

t1, t2, t3, t4, t6, t8, t16, t32},

extended-RLC-LI-Field-r15 BOOLEAN

}

DL-AM-RLC ::= SEQUENCE {

t-Reordering T-Reordering,

t-StatusProhibit T-StatusProhibit

}

DL-AM-RLC-r15 ::= SEQUENCE {

t-Reordering-r15 T-Reordering,

t-StatusProhibit-r15 T-StatusProhibit,

extended-RLC-LI-Field-r15 BOOLEAN

}

UL-UM-RLC ::= SEQUENCE {

sn-FieldLength SN-FieldLength

}

DL-UM-RLC ::= SEQUENCE {

sn-FieldLength SN-FieldLength,

t-Reordering T-Reordering

}

DL-UM-RLC-r15 ::= SEQUENCE {

sn-FieldLength-r15 SN-FieldLength-r15,

t-Reordering-r15 T-Reordering

}

SN-FieldLength ::= ENUMERATED {size5, size10}

SN-FieldLength-r15 ::= ENUMERATED {size5, size10, size16-r15}

T-PollRetransmit ::= ENUMERATED {

ms5, ms10, ms15, ms20, ms25, ms30, ms35,

ms40, ms45, ms50, ms55, ms60, ms65, ms70,

ms75, ms80, ms85, ms90, ms95, ms100, ms105,

ms110, ms115, ms120, ms125, ms130, ms135,

ms140, ms145, ms150, ms155, ms160, ms165,

ms170, ms175, ms180, ms185, ms190, ms195,

ms200, ms205, ms210, ms215, ms220, ms225,

ms230, ms235, ms240, ms245, ms250, ms300,

ms350, ms400, ms450, ms500, ms800-v1310,

ms1000-v1310, ms2000-v1310, ms4000-v1310,

spare5, spare4, spare3, spare2, spare1}

PollPDU ::= ENUMERATED {

p4, p8, p16, p32, p64, p128, p256, pInfinity}

PollPDU-v1310 ::= ENUMERATED {

p512, p1024, p2048, p4096, p6144, p8192, p12288, p16384}

PollPDU-r15 ::= ENUMERATED {

p4, p8, p16, p32, p64, p128, p256, p512, p1024,

p2048-r15, p4096-r15, p6144-r15, p8192-r15,

p12288-r15, p16384-r15, pInfinity}

PollByte ::= ENUMERATED {

kB25, kB50, kB75, kB100, kB125, kB250, kB375,

kB500, kB750, kB1000, kB1250, kB1500, kB2000,

kB3000, kBinfinity, spare1}

PollByte-r14 ::= ENUMERATED {

kB1, kB2, kB5, kB8, kB10, kB15, kB3500,

kB4000, kB4500, kB5000, kB5500, kB6000, kB6500,

kB7000, kB7500, kB8000, kB9000, kB10000, kB11000, kB12000,

kB13000, kB14000, kB15000, kB16000, kB17000, kB18000,

kB19000, kB20000, kB25000, kB30000, kB35000, kB40000}

T-Reordering ::= ENUMERATED {

ms0, ms5, ms10, ms15, ms20, ms25, ms30, ms35,

ms40, ms45, ms50, ms55, ms60, ms65, ms70,

ms75, ms80, ms85, ms90, ms95, ms100, ms110,

ms120, ms130, ms140, ms150, ms160, ms170,

ms180, ms190, ms200, ms1600-v1310}

T-StatusProhibit ::= ENUMERATED {

ms0, ms5, ms10, ms15, ms20, ms25, ms30, ms35,

ms40, ms45, ms50, ms55, ms60, ms65, ms70,

ms75, ms80, ms85, ms90, ms95, ms100, ms105,

ms110, ms115, ms120, ms125, ms130, ms135,

ms140, ms145, ms150, ms155, ms160, ms165,

ms170, ms175, ms180, ms185, ms190, ms195,

ms200, ms205, ms210, ms215, ms220, ms225,

ms230, ms235, ms240, ms245, ms250, ms300,

ms350, ms400, ms450, ms500, ms800-v1310,

ms1000-v1310, ms1200-v1310, ms1600-v1310, ms2000-v1310, ms2400-v1310, spare2,

spare1}

— ASN1STOP

RLC-Config field descriptions

dl-extended-RLC-LI-Field, ul-extended-RLC-LI-Field

Indicates the RLC LI field size. Value TRUE means that 15 bit LI length shall be used, otherwise 11 bit LI length shall be used; see TS 36.322 [7]. E-UTRAN enables this field only when RLC-Config (without suffix) is set to am.

maxRetxThreshold

Parameter for RLC AM in TS 36.322 [7]. Value t1 corresponds to 1 retransmission, t2 to 2 retransmissions and so on.

reestablishRLC

Indicates that RLC shall be re-established. For a UE configured with (NG)EN-DC, E-UTRAN may include this field for the (primary) RLC entity of an MCG RLC bearer of a DRB (used upon change from SN terminated split to MN terminated MCG RLC bearer). For a UE configured with NE-DC, E-UTRAN may include this field for the (primary) RLC entity of an SCG RLC bearer of a DRB or of an SRB (used upon key refresh for MN terminated split RB).

pollByte

Parameter for RLC AM in TS 36.322 [7]. Value kB25 corresponds to 25 kBytes, kB50 to 50 kBytes and so on. kBInfinity corresponds to an infinite amount of kBytes. In case pollByte-r14 is signalled, the UE shall ignore pollByte (i.e. without suffix).

pollPDU

Parameter for RLC AM in TS 36.322 [7]. Value p4 corresponds to 4 PDUs, p8 to 8 PDUs and so on. pInfinity corresponds to an infinite number of PDUs. In case pollPDU-r13 is signalled, the UE shall ignore pollPDU (i.e. without suffix). E-UTRAN enables pollPDU-v1310 field only when RLC-Config (without suffix) is set to am.

rlc-OutOfOrderDelivery

Indicates that out-of-order delivery from RLC to PDCP is configured for this RLC entity as specified in TS 36.322 [7].

sn-FieldLength

Indicates the UM RLC SN field size, see TS 36.322 [7], in bits. Value size5 means 5 bits, size10 means 10 bits.

t-PollRetransmit

Timer for RLC AM in TS 36.322 [7], in milliseconds. Value ms5 means 5ms, ms10 means 10ms and so on. EUTRAN configures values msX-v1310 (with suffix) only if UE supports CE.

t-Reordering

Timer for reordering in TS 36.322 [7], in milliseconds. Value ms0 means 0ms and behaviour as specified in 7.3.2 applies, ms5 means 5ms and so on.

t-StatusProhibit

Timer for status reporting in TS 36.322 [7], in milliseconds. Value ms0 means 0ms and behaviour as specified in 7.3.2 applies, ms5 means 5ms and so on. EUTRAN configures values msX-v1310 (with suffix) only if UE supports operation in CE.

ul-extended-RLC-AM-SN, dl-extended-RLC-AM-SN

Indicates whether or not the UE shall use the extended SN and SO length for AM bearer. Value TRUE means that 16 bit SN length and 16 bit SO length shall be used, otherwise 10 bit SN length and 15 bit SO length shall be used; see TS 36.322 [7].

RLF-TimersAndConstants

The IE RLF-TimersAndConstants contains UE specific timers and constants applicable for UEs in RRC_CONNECTED.

RLF-TimersAndConstants information element

— ASN1START

RLF-TimersAndConstants-r9 ::= CHOICE {

release NULL,

setup SEQUENCE {

t301-r9 ENUMERATED {

ms100, ms200, ms300, ms400, ms600, ms1000, ms1500,

ms2000},

t310-r9 ENUMERATED {

ms0, ms50, ms100, ms200, ms500, ms1000, ms2000},

n310-r9 ENUMERATED {

n1, n2, n3, n4, n6, n8, n10, n20},

t311-r9 ENUMERATED {

ms1000, ms3000, ms5000, ms10000, ms15000,

ms20000, ms30000},

n311-r9 ENUMERATED {

n1, n2, n3, n4, n5, n6, n8, n10},

}

}

RLF-TimersAndConstants-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

t301-v1310 ENUMERATED {

ms2500, ms3000, ms3500, ms4000, ms5000,

ms6000, ms8000, ms10000},

…,

[[ t310-v1330 ENUMERATED {ms4000, ms6000} OPTIONAL — Need ON

]]

}

}

RLF-TimersAndConstantsSCG-r12 ::= CHOICE {

release NULL,

setup SEQUENCE {

t313-r12 ENUMERATED {

ms0, ms50, ms100, ms200, ms500, ms1000, ms2000},

n313-r12 ENUMERATED {

n1, n2, n3, n4, n6, n8, n10, n20},

n314-r12 ENUMERATED {

n1, n2, n3, n4, n5, n6, n8, n10},

}

}

— ASN1STOP

RLF-TimersAndConstants field descriptions

n3xy

Constants are described in clause 7.4. n1 corresponds with 1, n2 corresponds with 2 and so on.

t3xy

Timers are described in clause 7.3. Value ms0 corresponds with 0 ms, ms50 corresponds with 50 ms and so on.

E-UTRAN configures RLF-TimersAndConstants-r13 only if UE supports ce-ModeB. UE shall use the extended values t3xy-v1310 and t3xy-v1330, if present, and ignore the values signaled by t3xy-r9.

RN-SubframeConfig

The IE RN-SubframeConfig is used to specify the subframe configuration for an RN.

RN-SubframeConfig information element

— ASN1START

RN-SubframeConfig-r10 ::= SEQUENCE {

subframeConfigPattern-r10 CHOICE {

subframeConfigPatternFDD-r10 BIT STRING (SIZE(8)),

subframeConfigPatternTDD-r10 INTEGER (0..31)

} OPTIONAL, — Need ON

rpdcch-Config-r10 SEQUENCE {

resourceAllocationType-r10 ENUMERATED {type0, type1, type2Localized, type2Distributed,

spare4, spare3, spare2, spare1},

resourceBlockAssignment-r10 CHOICE {

type01-r10 CHOICE {

nrb6-r10 BIT STRING (SIZE(6)),

nrb15-r10 BIT STRING (SIZE(8)),

nrb25-r10 BIT STRING (SIZE(13)),

nrb50-r10 BIT STRING (SIZE(17)),

nrb75-r10 BIT STRING (SIZE(19)),

nrb100-r10 BIT STRING (SIZE(25))

},

type2-r10 CHOICE {

nrb6-r10 BIT STRING (SIZE(5)),

nrb15-r10 BIT STRING (SIZE(7)),

nrb25-r10 BIT STRING (SIZE(9)),

nrb50-r10 BIT STRING (SIZE(11)),

nrb75-r10 BIT STRING (SIZE(12)),

nrb100-r10 BIT STRING (SIZE(13))

},

},

demodulationRS-r10 CHOICE {

interleaving-r10 ENUMERATED {crs},

noInterleaving-r10 ENUMERATED {crs, dmrs}

},

pdsch-Start-r10 INTEGER (1..3),

pucch-Config-r10 CHOICE {

tdd CHOICE {

channelSelectionMultiplexingBundling SEQUENCE {

n1PUCCH-AN-List-r10 SEQUENCE (SIZE (1..4)) OF INTEGER (0..2047)

},

fallbackForFormat3 SEQUENCE {

n1PUCCH-AN-P0-r10 INTEGER (0..2047),

n1PUCCH-AN-P1-r10 INTEGER (0..2047) OPTIONAL — Need OR

}

},

fdd SEQUENCE {

n1PUCCH-AN-P0-r10 INTEGER (0..2047),

n1PUCCH-AN-P1-r10 INTEGER (0..2047) OPTIONAL — Need OR

}

},

} OPTIONAL, — Need ON

}

— ASN1STOP

RN-SubframeConfig field descriptions

demodulationRS

Indicates which reference signals are used for R-PDCCH demodulation according to TS 36.216 [55], clause 7.4.1. Value interleaving corresponds to cross-interleaving and value noInterleaving corresponds to no cross-interleaving according to TS 36.216 [55], clauses 7.4.2 and 7.4.3.

n1PUCCH-AN-List

Parameter: , see TS 36.216, [55], clause 7.5.1. This parameter is only applicable for TDD. Configures PUCCH HARQ-ACK resources if the RN is configured to use HARQ-ACK channel selection, HARQ-ACK multiplexing or HARQ-ACK bundling.

n1PUCCH-AN-P0, n1PUCCH-AN-P1

Parameter: , for antenna port P0 and for antenna port P1 respectively, see TS 36.216, [55], clause 7.5.1, for FDD and [55], clause 7.5.2 for TDD.

pdsch-Start

Parameter: DL-StartSymbol, see TS 36.216 [55], Table 5.4-1.

resourceAllocationType

Represents the resource allocation used: type 0, type 1 or type 2 according to TS 36.213 [23], clause 7.1.6. Value type0 corresponds to type 0, value type1 corresponds to type 1, value type2Localized corresponds to type 2 with localized virtual resource blocks and type2Distributed corresponds to type 2 with distributed virtual resource blocks.

resourceBlockAssignment

Indicates the resource block assignment bits according to TS 36.213 [23], clause 7.1.6. Value type01 corresponds to type 0 and type 1, and the value type2 corresponds to type 2. Value nrb6 corresponds to a downlink system bandwidth of 6 resource blocks, value nrb15 corresponds to a downlink system bandwidth of 15 resource blocks, and so on.

subframeConfigPatternFDD

Parameter: SubframeConfigurationFDD, see TS 36.216 [55], Table 5.2-1. Defines the DL subframe configuration for eNB-to-RN transmission, i.e. those subframes in which the eNB may indicate downlink assignments for the RN. The radio frame in which the pattern starts (i.e. the radio frame in which the first bit of the subframeConfigPatternFDD corresponds to subframe #0) occurs when SFN mod 4 = 0.

subframeConfigPatternTDD

Parameter: SubframeConfigurationTDD, see TS 36.216 [55], Table 5.2-2. Defines the DL and UL subframe configuration for eNB-RN transmission.

– RSS-Config

The IE RSS-Config is used to specify the RSS configuration, see TS 36.211 [21].

RSS-Config information element

— ASN1START

RSS-Config-r15 ::= SEQUENCE {

duration-r15 ENUMERATED {sf8, sf16, sf32, sf40},

freqLocation-r15 INTEGER (0..98),

periodicity-r15 ENUMERATED {ms160, ms320, ms640, ms1280},

powerBoost-r15 ENUMERATED {dB0, dB3, dB4dot8, dB6},

timeOffset-r15 INTEGER (0..31)

}

— ASN1STOP

RSS-Config field descriptions

duration

Duration of RSS in subframes. Value sf8 corresponds to 8 subframes, value sf16 corresponds to 16 subframes and so on.

freqLocation

Frequency location (lowest PRB number) of RSS.

periodicity

Periodicity of RSS. Value ms160 corresponds to 160 ms, value ms320 corresponds to 320 ms and so on.

powerBoost

Power offset of RSS relative to CRS in dB. Value dB0 corresponds to 0 dB, value dB3 corresponds to 3 dB, value dB4dot8 corresponds to 4.8 dB and so on.

timeOffset

Time offset of RSS in frames. The actual value of time offset is based on the value of periodicity, as follows:

For periodicity 160 ms, only value range 0 to 15 are applicable. Actual value = timeOffset * 1 frame.

For periodicity 320 ms, actual value = timeOffset * 1 frame.

For periodicity 640 ms, actual value = timeOffset * 2 frames.

For periodicity 1280 ms, actual value = timeOffset * 4 frames.

SchedulingRequestConfig

The IE SchedulingRequestConfig is used to specify the Scheduling Request related parameters

SchedulingRequestConfig information element

— ASN1START

SchedulingRequestConfig ::= CHOICE {

release NULL,

setup SEQUENCE {

sr-PUCCH-ResourceIndex INTEGER (0..2047),

sr-ConfigIndex INTEGER (0..157),

dsr-TransMax ENUMERATED {

n4, n8, n16, n32, n64, spare3, spare2, spare1}

}

}

SchedulingRequestConfig-v1020 ::= SEQUENCE {

sr-PUCCH-ResourceIndexP1-r10 INTEGER (0..2047) OPTIONAL — Need OR

}

SchedulingRequestConfigSCell-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

sr-PUCCH-ResourceIndex-r13 INTEGER (0..2047),

sr-PUCCH-ResourceIndexP1-r13 INTEGER (0..2047) OPTIONAL, — Need OR

sr-ConfigIndex-r13 INTEGER (0..157),

dsr-TransMax-r13 ENUMERATED {

n4, n8, n16, n32, n64, spare3, spare2, spare1}

}

}

SchedulingRequestConfig-v1530 ::= CHOICE {

release NULL,

setup SEQUENCE {

sr-SlotSPUCCH-IndexFH-r15 INTEGER (0..1319) OPTIONAL, — Need OR

sr-SlotSPUCCH-IndexNoFH-r15 INTEGER (0..3959) OPTIONAL, — Need OR

sr-SubslotSPUCCH-ResourceList-r15 SR-SubslotSPUCCH-ResourceList-r15 OPTIONAL, — Need OR

sr-ConfigIndexSlot-r15 INTEGER (0..36) OPTIONAL, — Need OR

sr-ConfigIndexSubslot-r15 INTEGER (0..122) OPTIONAL, — Need OR

dssr-TransMax-r15 ENUMERATED {

n4, n8, n16, n32, n64, spare3, spare2, spare1}

}

}

SR-SubslotSPUCCH-ResourceList-r15 ::= SEQUENCE (SIZE(1..4)) OF INTEGER (0..1319)

— ASN1STOP

SchedulingRequestConfig field descriptions

dsr-TransMax

Parameter for SR transmission in TS 36.321 [6], clause 5.4.4. The value n4 corresponds to 4 transmissions, n8 corresponds to 8 transmissions and so on. EUTRAN configures the same value for all serving cells for which this field is configured.

dssr-TransMax

Parameter for SPUCCH SR transmission in TS 36.321 [6], clause 5.4.4. EUTRAN configures the same value for all serving cells for which this field is configured.

sr-ConfigIndex, sr-ConfigIndexSlot, sr-ConfigIndexSubslot

Parameter. See TS 36.213 [23], clause 10.1. The values 156 and 157 are not applicable for Release 8.

sr-PUCCH-ResourceIndex, sr-PUCCH-ResourceIndexP1

Parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1. E-UTRAN configures sr-PUCCH-ResourceIndexP1 only if sr-PUCCHResourceIndex is configured.

sr-SlotSPUCCH-IndexFH

Resource configuration for SR using slot-SPUCCH when frequency hopping is enabled, see TS 36.213 [23], clause 10.1.5.

sr-SlotSPUCCH-IndexNoFH

Resource configuration for SR using slot-SPUCCH when frequency hopping is disabled, see TS 36.213 [23], clause 10.1.5.

sr-SubslotSPUCCH-ResourceList

Resource configuration for SR using subslot-SPUCCH, see TS 36.213 [23], clause 10.1.5.

SlotOrSubslotPDSCH-Config

The IE SlotOrSubslotPDSCH-Config is used to specify the UE specific PDSCH configuration when sTTI is used.

SlotOrSubslotPDSCH-Config information element

— ASN1START

SlotOrSubslotPDSCH-Config-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

altCQI-TableSTTI-r15 ENUMERATED {

allSubframes, csi-SubframeSet1,

csi-SubframeSet2, spare1} OPTIONAL, — Need OR

altCQI-Table1024QAM-STTI-r15 ENUMERATED {

allSubframes, csi-SubframeSet1,

csi-SubframeSet2, spare1} OPTIONAL, — Need OR

resourceAllocation-r15 ENUMERATED {

resourceAllocationType0,resourceAllocationType2} OPTIONAL, — Need OR

tbsIndexAlt-STTI-r15 ENUMERATED {a33} OPTIONAL, — Need OR

tbsIndexAlt2-STTI-r15 ENUMERATED {b33} OPTIONAL, — Need OR

tbsIndexAlt3-STTI-r15 ENUMERATED {a37} OPTIONAL, — Need OR

}

}

— ASN1STOP

SlotOrSubslotPDSCH-Config field descriptions

altCQI-TableSTTI, altCQI-Table1024QAM-STTI

Indicates the applicability of the alternative CQI table (i.e. Table 7.2.3-2 and Table 7.2.3-4 in TS 36.213 [23]) for aperiodic CSI reporting for slot or subslot PDSCH for the concerned serving cell. Value allSubframes means the alternative CQI table applies to all the subframes and CSI processes, if configured, and value csi-SubframeSet1 means the alternative CQI table applies to CSI subframe set1, and value csi-SubframeSet2 means the alternative CQI table applies to CSI subframe set2. EUTRAN sets the value to csi-SubframeSet1 or csi-SubframeSet2 only if transmissionMode is set in range tm1 to tm9 and csi-SubframePatternConfig-r10 is configured for the concerned serving cell and different CQI tables apply to the two CSI subframe sets; otherwise EUTRAN sets the value to allSubframes. EUTRAN does not configure the same value for altCQI-TableSTTI-r15 and altCQI-Table-1024QAM-STTI-r15 in SlotOrSubslotPDSCH-Config-r15. EUTRAN does not configure altCQI-Table-1024QAM-STTI-r15 if the value of altCQI-TableSTTI-r15 is set to allSubframes. EUTRAN does not configure altCQI-TableSTTI-r15 if the value of altCQI-Table-1024QAM-STTI-r15 is set to allSubframes. If both altCQI-TableSTTI-r15 and altCQI-Table-1024QAM-STTI-r15 are absent, the UE shall use Table 7.2.3-1 in TS 36.213 [23] for all subframes and CSI processes, if configured.

resourceAllocation

Parameter indicates resource allocation type for slot-PDSCH or subslot-PDSCH.

tbsIndexAlt-STTI

Indicates the applicability of the alternative TBS index for the ITBS 33 (see TS 36.213 [23], Table 7.1.7.2.1-1) to all slots/subslots scheduled by DCI format 7-1F and 7-1G. Value a33 refers to the alternative TBS index ITBS 33A. If neither this field nor tbsIndexAlt2-STTI configures an alternative TBS index for ITBS 33, the UE shall use ITBS 33 specified in Table 7.1.7.2.1-1 in TS 36.213 [23] for all slots/subslots instead.

tbsIndexAlt2-STTI

Indicates the applicability of the alternative TBS index for the ITBS 33 (see TS 36.213 [23], Table 7.1.7.2.1-1) to all slots/subslots scheduled by DCI format 7-1B/7-1C/7-1D. Value b33 refers to the alternative TBS index ITBS 33B. If neither this field nor tbsIndexAlt-STTI configures an alternative TBS index for ITBS 33, the UE shall use ITBS 33 specified in Table 7.1.7.2.1-1 in TS 36.213 [23] for all slots/subslots instead.

tbsIndexAlt3-STTI

Indicates the applicability of the alternative TBS index for the ITBS 37 (see TS 36.213 [23], Table 7.1.7.2.1-1) to all slots/subslots scheduled by DCI format 7-1F/7-1G. Value a37 refers to the alternative TBS index ITBS 37A. If this field does not configure an alternative TBS index for ITBS 37, the UE shall use ITBS 37 specified in TS 36.213 [23], Table 7.1.7.2.1-1 for all slots/subslots instead.

SlotOrSubslotPUSCH-Config

The IE SlotOrSubslotPUSCH-Config is used to specify the UE specific PUSCH configuration when sTTI is used.

SlotOrSubslotPUSCH-Config information element

— ASN1START

SlotOrSubslotPUSCH-Config-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

betaOffsetSlot-ACK-Index-r15 INTEGER(0..15) OPTIONAL, — Need OR

betaOffset2Slot-ACK-Index-r15 INTEGER(0..15) OPTIONAL, — Need OR

betaOffsetSubslot-ACK-Index-r15 SEQUENCE (SIZE(1..2)) OF INTEGER(0..15) OPTIONAL, — Need OR

betaOffset2Subslot-ACK-Index-r15 SEQUENCE (SIZE(1..2)) OF INTEGER(0..15) OPTIONAL, — Need OR

betaOffsetSlot-RI-Index-r15 INTEGER(0..15) OPTIONAL, — Need OR

betaOffsetSubslot-RI-Index-r15 SEQUENCE (SIZE(1..2)) OF INTEGER(0..15) OPTIONAL, — Need OR

betaOffsetSlot-CQI-Index-r15 INTEGER(0..15) OPTIONAL, — Need OR

betaOffsetSubslot-CQI-Index-r15 INTEGER(0..15) OPTIONAL, — Need OR

enable256QAM-SlotOrSubslot-r15 Enable256QAM-r14 OPTIONAL, — Need ON

resourceAllocationOffset-r15 INTEGER (1..2) OPTIONAL, — Need OR

ul-DMRS-IFDMA-SlotOrSubslot-r15 BOOLEAN,

}

}

— ASN1STOP

SlotOrSubslotPUSCH-Config field descriptions

betaOffsetSlot-ACK-Index, betaOffsetSubslot-ACK-Index, betaOffset2Slot-ACK-Index, betaOffset2Subslot-ACK-Index

Parameter: and for single-codeword, see TS 36.213 [23], Table 8.6.3-1. If betaOffset2Slot-ACK-Index/betaOffset2Subslot-ACK-Index is configured; betaOffsetSlot-ACK-Index/betaOffsetSubslot-ACK-Index is used when up to 22 HARQ-ACK bits are transmitted otherwise betaOffset2Slot-ACK-Index/betaOffset2Subslot-ACK-Index is used. The values apply for all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send SPUCCH on the same cell in case SPUCCH SCell is configured) and not configured with uplink power control subframe sets. It is indicated in DCI format 7-0A/7-0B which of the two values taken by betaOffsetSubslot-ACK-Index-r15/betaOffset2Subslot-ACK-Index-r15/ betaOffsetSubslot-RI-Index-r15 to use. The same value also applies for subframe set 1 of all serving cells with an uplink in that cell group and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell).

betaOffsetSlot-RI-Index, betaOffsetSubslot-RI-Index

Parameter: , for single codeword, see TS 36.213 [23], Table 8.6.3-2. One value applies for subframe set 2 of all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send SPUCCH on the same cell in case SPUCCH SCell is configured) and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell configured with uplink power control subframe sets).

betaOffsetSlot-CQI-Index, betaOffsetSubslot-CQI-Index

Parameter: , for single codeword, see TS 36.213 [23], Table 8.6.3-3. One value applies for all serving cells with an uplink in a cell group (MCG or SCG or the group of cells configured to send SPUCCH on the same cell in case SPUCCH SCell is configured) and not configured with uplink power control subframe sets. The same value also applies for subframe set 1 of all serving cells with an uplink in that cell group and configured with uplink power control subframe sets (the associated functionality is common i.e. not performed independently for each cell).

enable256QAM-SlotOrSubslot

Indicates that 256QAM for slot or subslot is enabled, see TS 36.213 [23], clause 8.6.1.

resourceAllocationOffset

Indicates an RB resource allocation offset of 1 or 2 PRBs for slot-PUSCH or subslot-PUSCH. When the field is absent, the UE assumes no offset is used (i.e. offset = 0).

ul-DMRS-IFDMA-SlotOrSubslot

Value TRUE indicates that the UE is configured with enhanced UL DMRS.

SoundingRS-UL-Config

The IE SoundingRS-UL-Config is used to specify the uplink Sounding RS configuration for periodic and aperiodic sounding.

SoundingRS-UL-Config information element

— ASN1START

SoundingRS-UL-ConfigCommon ::= CHOICE {

release NULL,

setup SEQUENCE {

srs-BandwidthConfig ENUMERATED {bw0, bw1, bw2, bw3, bw4, bw5, bw6, bw7},

srs-SubframeConfig ENUMERATED {

sc0, sc1, sc2, sc3, sc4, sc5, sc6, sc7,

sc8, sc9, sc10, sc11, sc12, sc13, sc14, sc15},

ackNackSRS-SimultaneousTransmission BOOLEAN,

srs-MaxUpPts ENUMERATED {true} OPTIONAL — Cond TDD

}

}

SoundingRS-UL-ConfigDedicated ::= CHOICE{

release NULL,

setup SEQUENCE {

srs-Bandwidth ENUMERATED {bw0, bw1, bw2, bw3},

srs-HoppingBandwidth ENUMERATED {hbw0, hbw1, hbw2, hbw3},

freqDomainPosition INTEGER (0..23),

duration BOOLEAN,

srs-ConfigIndex INTEGER (0..1023),

transmissionComb INTEGER (0..1),

cyclicShift ENUMERATED {cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7}

}

}

SoundingRS-UL-ConfigDedicated-v1020 ::= SEQUENCE {

srs-AntennaPort-r10 SRS-AntennaPort

}

SoundingRS-UL-ConfigDedicated-v1310 ::= CHOICE{

release NULL,

setup SEQUENCE {

transmissionComb-v1310 INTEGER (2..3) OPTIONAL, — Need OR

cyclicShift-v1310 ENUMERATED {cs8, cs9, cs10, cs11} OPTIONAL, — Need OR

transmissionCombNum-r13 ENUMERATED {n2, n4} OPTIONAL — Need OR

}

}

SoundingRS-UL-ConfigDedicatedUpPTsExt-r13 ::= CHOICE{

release NULL,

setup SEQUENCE {

srs-UpPtsAdd-r13 ENUMERATED {sym2, sym4},

srs-Bandwidth-r13 ENUMERATED {bw0, bw1, bw2, bw3},

srs-HoppingBandwidth-r13 ENUMERATED {hbw0, hbw1, hbw2, hbw3},

freqDomainPosition-r13 INTEGER (0..23),

duration-r13 BOOLEAN,

srs-ConfigIndex-r13 INTEGER (0..1023),

transmissionComb-r13 INTEGER (0..3),

cyclicShift-r13 ENUMERATED {cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7,

cs8, cs9, cs10, cs11},

srs-AntennaPort-r13 SRS-AntennaPort,

transmissionCombNum-r13 ENUMERATED {n2, n4}

}

}

SoundingRS-UL-ConfigDedicatedAperiodic-r10 ::= CHOICE{

release NULL,

setup SEQUENCE {

srs-ConfigIndexAp-r10 INTEGER (0..31),

srs-ConfigApDCI-Format4-r10 SEQUENCE (SIZE (1..3)) OF SRS-ConfigAp-r10 OPTIONAL,–Need ON

srs-ActivateAp-r10 CHOICE {

release NULL,

setup SEQUENCE {

srs-ConfigApDCI-Format0-r10 SRS-ConfigAp-r10,

srs-ConfigApDCI-Format1a2b2c-r10 SRS-ConfigAp-r10,

}

} OPTIONAL — Need ON

}

}

SoundingRS-UL-ConfigDedicatedAperiodic-v1310 ::= CHOICE{

release NULL,

setup SEQUENCE {

srs-ConfigApDCI-Format4-v1310 SEQUENCE (SIZE (1..3)) OF SRS-ConfigAp-v1310 OPTIONAL,–Need ON

srs-ActivateAp-v1310 CHOICE {

release NULL,

setup SEQUENCE {

srs-ConfigApDCI-Format0-v1310 SRS-ConfigAp-v1310 OPTIONAL, — Need ON

srs-ConfigApDCI-Format1a2b2c-v1310 SRS-ConfigAp-v1310 OPTIONAL — Need ON

}

} OPTIONAL — Need ON

}

}

SoundingRS-UL-ConfigDedicatedAperiodicUpPTsExt-r13 ::= CHOICE{

release NULL,

setup SEQUENCE {

srs-UpPtsAdd-r13 ENUMERATED {sym2, sym4},

srs-ConfigIndexAp-r13 INTEGER (0..31),

srs-ConfigApDCI-Format4-r13 SEQUENCE (SIZE (1..3)) OF SRS-ConfigAp-r13 OPTIONAL,–Need ON

srs-ActivateAp-r13 CHOICE {

release NULL,

setup SEQUENCE {

srs-ConfigApDCI-Format0-r13 SRS-ConfigAp-r13,

srs-ConfigApDCI-Format1a2b2c-r13 SRS-ConfigAp-r13

}

} OPTIONAL — Need ON

}

}

SoundingRS-UL-ConfigDedicatedAperiodic-v1430 ::= CHOICE{

release NULL,

setup SEQUENCE {

srs-SubframeIndication-r14 INTEGER (1..4) OPTIONAL — Need ON

}

}

SRS-ConfigAp-r10 ::= SEQUENCE {

srs-AntennaPortAp-r10 SRS-AntennaPort,

srs-BandwidthAp-r10 ENUMERATED {bw0, bw1, bw2, bw3},

freqDomainPositionAp-r10 INTEGER (0..23),

transmissionCombAp-r10 INTEGER (0..1),

cyclicShiftAp-r10 ENUMERATED {cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7}

}

SRS-ConfigAp-v1310 ::= SEQUENCE {

transmissionCombAp-v1310 INTEGER (2..3) OPTIONAL, — Need OR

cyclicShiftAp-v1310 ENUMERATED {cs8, cs9, cs10, cs11} OPTIONAL, — Need OR

transmissionCombNum-r13 ENUMERATED {n2, n4} OPTIONAL — Need OR

}

SRS-ConfigAp-r13 ::= SEQUENCE {

srs-AntennaPortAp-r13 SRS-AntennaPort,

srs-BandwidthAp-r13 ENUMERATED {bw0, bw1, bw2, bw3},

freqDomainPositionAp-r13 INTEGER (0..23),

transmissionCombAp-r13 INTEGER (0..3),

cyclicShiftAp-r13 ENUMERATED {cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7,

cs8, cs9, cs10, cs11},

transmissionCombNum-r13 ENUMERATED {n2, n4}

}

SRS-AntennaPort ::= ENUMERATED {an1, an2, an4, spare1}

— ASN1STOP

SoundingRS-UL-Config field descriptions

ackNackSRS-SimultaneousTransmission

Parameter: Simultaneous-AN-and-SRS, see TS 36.213 [23], clause 8.2. For SCells without PUCCH configured, this field is not applicable and the UE shall ignore the value.

cyclicShift, cyclicShiftAp

Parameter: n_SRS for periodic and aperiodic sounding reference signal transmission respectively except for an LAA SCell. See TS 36.211 [21], clause 5.5.3.1, where cs0 corresponds to 0 etc.

duration

Parameter: Duration for periodic sounding reference signal transmission except for an LAA SCell. See TS 36.213 [21], clause 8.2. FALSE corresponds to "single" and value TRUE to "indefinite".

freqDomainPosition, freqDomainPositionAp

Parameter: for periodic and aperiodic sounding reference signal transmission respectively, see TS 36.211 [21], clause 5.5.3.2.

srs-AntennaPort, srs-AntennaPortAp

Indicates the number of antenna ports used for periodic and aperiodic sounding reference signal transmission respectively, see TS 36.211 [21], clause 5.5.3. UE shall release srs-AntennaPort if SoundingRS-UL-ConfigDedicated is released.

srs-Bandwidth, srs-BandwidthAp

Parameter: for periodic and aperiodic sounding reference signal transmission respectively, see TS 36.211 [21], tables 5.5.3.2-1, 5.5.3.2-2, 5.5.3.2-3 and 5.5.3.2-4. For LAA SCell only bw0 is applied.

srs-BandwidthConfig

Parameter: SRS Bandwidth Configuration. See TS 36.211, [21], tables 5.5.3.2-1, 5.5.3.2-2, 5.5.3.2-3 and 5.5.3.2-4. Actual configuration depends on UL bandwidth. bw0 corresponds to value 0, bw1 to value 1 and so on.

srs-ConfigApDCI-Format0 / srs-ConfigApDCI-Format1a2b2c / srs-ConfigApDCI-Format4

Parameters indicate the resource configurations for aperiodic sounding reference signal transmissions triggered by DCI formats 0, 1A, 2B, 2C, 4. See TS 36.213 [23], clause 8.2.

srs-ConfigIndex, srs-ConfigIndexAp

Parameter: ISRS for periodic and aperiodic sounding reference signal transmission respectively except for an LAA SCell. See TS 36.213 [23], tables 8.2-1 and 8.2-2, for periodic and TS 36.213 [23], tables 8.2-4 an8.2-5, for aperiodic SRS transmission.

srs-HoppingBandwidth

Parameter: SRS hopping bandwidth for periodic sounding reference signal transmission except for an LAA SCell, see TS 36.211 [21], clause 5.5.3.2, where hbw0 corresponds to value 0, hbw1 to value 1 and so on.

srs-MaxUpPts

Parameter: srsMaxUpPts, see TS 36.211 [21], clause 5.5.3.2. If this field is present, reconfiguration of applies for UpPts, otherwise reconfiguration does not apply.

srs-SubframeConfig

Parameter: SRS SubframeConfiguration except for an LAA SCell. See TS 36.211, [21], table 5.5.3.3-1, applies for FDD whereas TS 36.211 [21], table 5.5.3.3-2, applies for TDD. sc0 corresponds to value 0, sc1 corresponds to value 1 and so on.

srs-SubframeIndication

Parameter: SRS subframe indication in SRS parameter set configuration for aperiodic sounding reference signal transmission on an LAA SCell configured with uplink, see TS 36.213 [23].

srs-UpPtsAdd

The field only applies for TDD and frame structure type 3, see TS 36.211 [21]. If E-UTRAN configures both soundingRS-UL-ConfigDedicatedUpPTsExt and soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt srs-UpPtsAdd in both fields is set to the same value. If E-UTRAN configures soundingRS-UL-PeriodicConfigDedicatedUpPTsExtList-r14 with a number of soundingRS-UL-ConfigDedicatedUpPTsExt and/or soundingRS-UL-AperiodicConfigDedicatedList-r14 with a number of soundingRS-UL-ConfigDedicatedAperiodicUpPTsExt, srs-UpPtsAdd in all fields are set to the same value.

transmissionComb, transmissionCombAp

Parameter: for periodic and aperiodic sounding reference signal transmission respectively, see TS 36.211 [21], clause 5.5.3.2.

Conditional presence

Explanation

TDD

This field is optional present for TDD, need OR; it is not present for FDD and the UE shall delete any existing value for this field.

SPDCCH-Config

The IE SPDCCH-Config is used to specify the UE specific SPDCCH configuration.

SPDCCH-Config information element

— ASN1START

SPDCCH-Config-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

spdcch-L1-ReuseIndication-r15 ENUMERATED {n0,n1,n2} OPTIONAL, — Need OR

spdcch-SetConfig-r15 SPDCCH-Set-r15 OPTIONAL — Need OR

}

}

SPDCCH-Set-r15 ::= SEQUENCE (SIZE (1..4)) OF SPDCCH-Elements-r15

SPDCCH-Elements-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

spdcch-SetConfigId-r15 INTEGER (0..3) OPTIONAL, — Need OR

spdcch-SetReferenceSig-r15 ENUMERATED {crs, dmrs} OPTIONAL, — Need OR

transmissionType-r15 ENUMERATED {localised, distributed} OPTIONAL, — Need OR

spdcch-NoOfSymbols-r15 INTEGER (1..2) OPTIONAL, — Need OR

dmrs-ScramblingSequenceInt-r15 INTEGER (0..503) OPTIONAL, — Need OR

dci7-CandidatesPerAL-PDCCH-r15 SEQUENCE (SIZE(1..4)) OF

DCI7-Candidates-r15 OPTIONAL, — Need OR

dci7-CandidateSetsPerAL-SPDCCH-r15 SEQUENCE (SIZE(1..2)) OF

DCI7-CandidatesPerAL-SPDCCH-r15 OPTIONAL, — Need OR

resourceBlockAssignment-r15 SEQUENCE{

numberRB-InFreq-domain-r15 INTEGER (2..100),

resourceBlockAssignment-r15 BIT STRING (SIZE(98))

} OPTIONAL, — Need OR

subslotApplicability-r15 BIT STRING (SIZE(5)) OPTIONAL, — Need OR

al-StartingPointSPDCCH-r15 SEQUENCE (SIZE(1..4)) OF

INTEGER(0..49) OPTIONAL, — Need OR

subframeType-r15 ENUMERATED {mbsfn, nonmbsfn, all} OPTIONAL, — Need OR

rateMatchingMode-r15 ENUMERATED {m1, m2, m3, m4} OPTIONAL, — Need OR

}

}

DCI7-Candidates-r15 ::= INTEGER (0..6)

DCI7-CandidatesPerAL-SPDCCH-r15 ::= SEQUENCE (SIZE(1..4)) OF DCI7-Candidates-r15

— ASN1STOP

SPDCCH-Config field descriptions

al-StartingPointSPDCCH

Indicates the starting SCCE index for an aggregation level, see TS 36.213 [23], clause 9.1.6.

dci7-Candidates

Number of candidates in each aggregation level for DCI format 7. The number of PDCCH/SPDCCH candidate(s) M_DCI format 7^((L)) at aggregation level L for monitoring DCI format 7 in PDCCH and SPDCCH region shall conform to the following restriction:

• less than or equal to 2 for aggregation level 4 and 8,

• less than or equal to 6 for aggregation level 1 and 2

dci7-CandidatesPerAL-SPDCCH

SPDCCH candidates configured per aggregation level in SPDCCH region

dmrs-ScramblingSeqSPDCCH

The DMRS scrambling sequence initialization parameter defined in TS 36.211 [21], clause 6.10.3A.1.

numberRB-InFreq-domain

Indicates the number of resource-blocks in the frequency domain used for the SPDCCH set. There is no restriction on the number of RBs in the frequency domain that can be configured to an SPDCCH resouce set (up to 100), but at least two need to be configured to contain at least one SCCE. The granularity of resource block allocation in frequency domain for configuring an SPDCCH resource set is one in case spdcch-SetReferenceSig-r15 is set to crs. The granularity of resource block allocation for configuring an SPDCCH resource set is two in case sPDCCH-SetReferenceSig-r15 is set to dmrs.

rateMatchingMode

Indicates, per resource-set, the mode of SPDCCH rate-matching operation

• Mode 1: UE rate-matches only around the DCI format 7 scheduling the slot or subslot PDSCH (if transmitted in theSPDCCH resouce-set), otherwise no rate-matching is performed for the RB set.

• Mode 2: UE rate-matches around the whole SPDCCH resource set

• Mode 3: UE rate-matches around the whole SPDCCH resource set if DCI format 7 scheduling the slot or subslot PDSCH is found in the resource-set, otherwise no rate-matching is performed for the RB set.

• Mode 4: UE rate-matches around the whole SPDCCH resource set if DCI format 7 scheduling the slot or subslot PDSCH is not found in the resource-set, otherwise UE rate-matches only around the DCI format 7 scheduling the slot or subslot PDSCH (if transmitted in the SPDCCH resource-set)

If the DCI format 7 scheduling the slot or subslot PDSCH is found on a candidate belonging to two SPDCCH resource sets, the DCI format 7 is assumed to be found in both resource sets.

resourceBlockAssignment

Indicates the index to a specific combination of physical resource block in frequency for SPDCCH set, see TS 36.213 [23], clause 9.1.4.4. The value range is dependent on the combinatorial number defined in 36.213 [23], clause 9.1.4.4 with the assumption of no limitation in the number of RBs in frequency domain configured by the set.

spdcch-NoOfSymbols

Indicates the number of OFDM symbols that the CRS based SPDCCH is mapped over.

spdcch-L1-ReuseIndication

For the up to two resource sets configured with the same subframeType applicability, the SPDCCH-L1-ReuseIndication defines the allowed combinations for the two resource sets: {1,1}, {2,0} or {0,2} corresponding to the values n0, n1 and n2 repsectively. In case one resource set is configured, the allowed combinations are {2, 0} or {0,2} corresponding to n1 or n2. EUTRAN does not configure n0 in case one resource set is configured.

spdcch-SetConfigId

Indicates the ID of the SPDCCH set configured in SPDCCH-Elements. Maximum two sets can be configured for MBSFN and two for non-MBSFN.

spdcch-SetReferenceSig

Indicates CRS or DMRS based SPDCCH set.

subframeType

Indicates applicable subframe type(s) for the SPDCCH set. CRS-based SPDCCH is only applied to non-MBSFN subframe.

subslotApplicability

Indicates the set of subslots within the subframe where SPDCCH candidate set per aggregation levels applies, see DCI7-CandidateSetsPerAL-SPDCCH. The bitmap applies to the 5 DL subslot indices in a DL subframe. The first element in the sequence DCI7-CandidateSetsPerAL-SPDCCH applies to the indicated subslotApplicability. The second element in the sequence (if present) applies to the complement of the subslotApplicability.

transmissionType

Indicates whether distributed or localized SPDCCH transmission mode is used as defined in TS 36.211 [21], clause 6.8A.1.

SPS-Config

The IE SPS-Config is used to specify the semi-persistent scheduling configuration.

SPS-Config information element

— ASN1START

SPS-Config ::= SEQUENCE {

semiPersistSchedC-RNTI C-RNTI OPTIONAL, — Need OR

sps-ConfigDL SPS-ConfigDL OPTIONAL, — Need ON

sps-ConfigUL SPS-ConfigUL OPTIONAL — Need ON

}

SPS-Config-v1430 ::= SEQUENCE {

ul-SPS-V-RNTI-r14 C-RNTI OPTIONAL, — Need OR

sl-SPS-V-RNTI-r14 C-RNTI OPTIONAL, — Need OR

sps-ConfigUL-ToAddModList-r14 SPS-ConfigUL-ToAddModList-r14 OPTIONAL, — Need ON

sps-ConfigUL-ToReleaseList-r14 SPS-ConfigUL-ToReleaseList-r14 OPTIONAL, — Need ON

sps-ConfigSL-ToAddModList-r14 SPS-ConfigSL-ToAddModList-r14 OPTIONAL, — Need ON

sps-ConfigSL-ToReleaseList-r14 SPS-ConfigSL-ToReleaseList-r14 OPTIONAL — Need ON

}

SPS-ConfigUL-ToAddModList-r14 ::= SEQUENCE (SIZE (1..maxConfigSPS-r14)) OF SPS-ConfigUL

SPS-ConfigUL-ToReleaseList-r14 ::= SEQUENCE (SIZE (1..maxConfigSPS-r14)) OF SPS-ConfigIndex-r14

SPS-ConfigSL-ToAddModList-r14 ::= SEQUENCE (SIZE (1..maxConfigSPS-r14)) OF SPS-ConfigSL-r14

SPS-ConfigSL-ToReleaseList-r14 ::= SEQUENCE (SIZE (1..maxConfigSPS-r14)) OF SPS-ConfigIndex-r14

SPS-Config-v1530 ::= SEQUENCE {

semiPersistSchedC-RNTI-r15 C-RNTI OPTIONAL, — Need OR

sps-ConfigDL-r15 SPS-ConfigDL OPTIONAL, — Need ON

sps-ConfigUL-STTI-ToAddModList-r15 SPS-ConfigUL-STTI-ToAddModList-r15 OPTIONAL, — Need ON

sps-ConfigUL-STTI-ToReleaseList-r15 SPS-ConfigUL-STTI-ToReleaseList-r15 OPTIONAL, — Need ON

sps-ConfigUL-ToAddModList-r15 SPS-ConfigUL-ToAddModList-r15 OPTIONAL, — Need ON

sps-ConfigUL-ToReleaseList-r15 SPS-ConfigUL-ToReleaseList-r15 OPTIONAL — Need ON

}

SPS-Config-v1540 ::= SEQUENCE {

sps-ConfigDL-STTI-r15 SPS-ConfigDL-STTI-r15 OPTIONAL — Need OR

}

SPS-ConfigUL-STTI-ToAddModList-r15 ::= SEQUENCE (SIZE (1..maxConfigSPS-r15)) OF SPS-ConfigUL-STTI-r15

SPS-ConfigUL-STTI-ToReleaseList-r15 ::= SEQUENCE (SIZE (1..maxConfigSPS-r15)) OF SPS-ConfigIndex-r15

SPS-ConfigUL-ToAddModList-r15 ::= SEQUENCE (SIZE (1..maxConfigSPS-r15)) OF SPS-ConfigUL

SPS-ConfigUL-ToReleaseList-r15 ::= SEQUENCE (SIZE (1..maxConfigSPS-r15)) OF SPS-ConfigIndex-r15

SPS-ConfigDL ::= CHOICE{

release NULL,

setup SEQUENCE {

semiPersistSchedIntervalDL ENUMERATED {

sf10, sf20, sf32, sf40, sf64, sf80,

sf128, sf160, sf320, sf640, spare6,

spare5, spare4, spare3, spare2,

spare1},

numberOfConfSPS-Processes INTEGER (1..8),

n1PUCCH-AN-PersistentList N1PUCCH-AN-PersistentList,

…,

[[ twoAntennaPortActivated-r10 CHOICE {

release NULL,

setup SEQUENCE {

n1PUCCH-AN-PersistentListP1-r10 N1PUCCH-AN-PersistentList

}

} OPTIONAL — Need ON

]]

}

}

SPS-ConfigUL ::= CHOICE {

release NULL,

setup SEQUENCE {

semiPersistSchedIntervalUL ENUMERATED {

sf10, sf20, sf32, sf40, sf64, sf80,

sf128, sf160, sf320, sf640, sf1-v1430,

sf2-v1430, sf3-v1430, sf4-v1430, sf5-v1430,

spare1},

implicitReleaseAfter ENUMERATED {e2, e3, e4, e8},

p0-Persistent SEQUENCE {

p0-NominalPUSCH-Persistent INTEGER (-126..24),

p0-UE-PUSCH-Persistent INTEGER (-8..7)

} OPTIONAL, — Need OP

twoIntervalsConfig ENUMERATED {true} OPTIONAL, — Cond TDD

…,

[[ p0-PersistentSubframeSet2-r12 CHOICE {

release NULL,

setup SEQUENCE {

p0-NominalPUSCH-PersistentSubframeSet2-r12 INTEGER (-126..24),

p0-UE-PUSCH-PersistentSubframeSet2-r12 INTEGER (-8..7)

}

} OPTIONAL — Need ON

]],

[[ numberOfConfUlSPS-Processes-r13 INTEGER (1..8) OPTIONAL — Need OR

]],

[[ fixedRV-NonAdaptive-r14 ENUMERATED {true} OPTIONAL, — Need OR

sps-ConfigIndex-r14 SPS-ConfigIndex-r14 OPTIONAL, — Need OR

semiPersistSchedIntervalUL-v1430 ENUMERATED {

sf50, sf100, sf200, sf300, sf400, sf500,

sf600, sf700, sf800, sf900, sf1000, spare5,

spare4, spare3, spare2, spare1} OPTIONAL — Need OR

]],

[[ cyclicShiftSPS-r15 ENUMERATED {cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7}

OPTIONAL, — Need ON

harq-ProcID-Offset-r15 INTEGER (0..7) OPTIONAL, — Need ON

rv-SPS-UL-Repetitions-r15 ENUMERATED {ulrvseq1, ulrvseq2, ulrvseq3} OPTIONAL, — Need ON

tpc-PDCCH-ConfigPUSCH-SPS-r15 TPC-PDCCH-Config OPTIONAL, — Need ON

totalNumberPUSCH-SPS-UL-Repetitions-r15 ENUMERATED {n2,n3,n4,n6} OPTIONAL, — Need ON

sps-ConfigIndex-r15 SPS-ConfigIndex-r15 OPTIONAL — Cond SPS

]]

}

}

SPS-ConfigSL-r14 ::= SEQUENCE {

sps-ConfigIndex-r14 SPS-ConfigIndex-r14,

semiPersistSchedIntervalSL-r14 ENUMERATED {

sf20, sf50, sf100, sf200, sf300, sf400,

sf500, sf600, sf700, sf800, sf900, sf1000,

spare4, spare3, spare2, spare1}

}

SPS-ConfigIndex-r14 ::= INTEGER (1..maxConfigSPS-r14)

SPS-ConfigIndex-r15 ::= INTEGER (1..maxConfigSPS-r15)

N1PUCCH-AN-PersistentList ::= SEQUENCE (SIZE (1..4)) OF INTEGER (0..2047)

N1SPUCCH-AN-PersistentList-r15 ::= SEQUENCE (SIZE (1..4)) OF INTEGER (0..2047)

SPS-ConfigDL-STTI-r15 ::= CHOICE{

release NULL,

setup SEQUENCE {

semiPersistSchedIntervalDL-STTI-r15 ENUMERATED {

sTTI1, sTTI2, sTTI3, sTTI4, sTTI6, sTTI8, sTTI12, sTTI16,

sTTI20, sTTI40, sTTI60, sTTI80, sTTI120, sTTI240,

spare2, spare1},

numberOfConfSPS-Processes-STTI-r15 INTEGER (1..12),

twoAntennaPortActivated-r15 CHOICE {

release NULL,

setup SEQUENCE {

n1SPUCCH-AN-PersistentListP1-r15 N1SPUCCH-AN-PersistentList-r15

}

} OPTIONAL, — Need ON

sTTI-StartTimeDL-r15 INTEGER (0..5),

tpc-PDCCH-ConfigPUCCH-SPS-r15 TPC-PDCCH-Config OPTIONAL, — Need ON

}

}

SPS-ConfigUL-STTI-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

semiPersistSchedIntervalUL-STTI-r15 ENUMERATED {

sTTI1, sTTI2, sTTI3, sTTI4, sTTI6, sTTI8, sTTI12, sTTI16,

sTTI20, sTTI40, sTTI60, sTTI80, sTTI120, sTTI240,

spare2, spare1},

implicitReleaseAfter ENUMERATED {e2, e3, e4, e8},

p0-Persistent-r15 SEQUENCE {

p0-NominalSPUSCH-Persistent-r15 INTEGER (-126..24),

p0-UE-SPUSCH-Persistent-r15 INTEGER (-8..7)

} OPTIONAL, — Need OP

twoIntervalsConfig-r15 ENUMERATED {true} OPTIONAL, — Cond TDD

p0-PersistentSubframeSet2-r15 CHOICE {

release NULL,

setup SEQUENCE {

p0-NominalSPUSCH-PersistentSubframeSet2-r15 INTEGER (-126..24),

p0-UE-SPUSCH-PersistentSubframeSet2-r15 INTEGER (-8..7)

}

} OPTIONAL, — Need ON

numberOfConfUL-SPS-Processes-STTI-r15 INTEGER (1..12) OPTIONAL, — Need OR

sTTI-StartTimeUL-r15 INTEGER (0..5),

tpc-PDCCH-ConfigPUSCH-SPS-r15 TPC-PDCCH-Config OPTIONAL, — Need ON

cyclicShiftSPS-sTTI-r15 ENUMERATED {cs0, cs1, cs2, cs3, cs4, cs5, cs6, cs7} OPTIONAL, — Need ON

ifdma-Config-SPS-r15 BOOLEAN OPTIONAL, — Need ON

harq-ProcID-offset-r15 INTEGER (0..15) OPTIONAL, — Need ON

rv-SPS-STTI-UL-Repetitions-r15 ENUMERATED {ulrvseq1, ulrvseq2, ulrvseq3} OPTIONAL, — Need ON

sps-ConfigIndex-r15 SPS-ConfigIndex-r15 OPTIONAL, — Need OR

tbs-scalingFactorSubslotSPS-UL-Repetitions-r15 ENUMERATED {n6, n12} OPTIONAL, — Need ON

totalNumberPUSCH-SPS-STTI-UL-Repetitions-r15 ENUMERATED {n2,n3,n4,n6} OPTIONAL, — Need ON

}

}

— ASN1STOP

SPS-Config field descriptions

cyclicShiftSPS, cyclicShiftSPS-sTTI,

Indicates the cyclic shift to be used for the UE-specific reference signal in case of UL SPS, see TS 36.211 [5] clause 5.2.1.1.

fixedRV-NonAdaptive

If this field is present and skipUplinkTxSPS is configured, non-adaptive retransmissions on configured uplink grant uses redundancy version 0, otherwise the redundancy version for each retransmission is updated based on the sequence of redundancy versions as described in TS 36.321 [6].

harq-ProcID-offset

If configured, this field indicates the offset used in deriving the HARQ process IDs, see TS 36.321 [6], clause 5.4.1.

Ifdma-Config-SPS

Indicated to be used for the UE-specific reference signal in case of UL SPS see TS 36.211 [5], clause 5.2,1.1.

implicitReleaseAfter

Number of empty transmissions before implicit release, see TS 36.321 [6], clause 5.10.2. Value e2 corresponds to 2 transmissions, e3 corresponds to 3 transmissions and so on. If skipUplinkTxSPS is configured, the UE shall ignore this field.

n1PUCCH-AN-PersistentList, n1PUCCH-AN-PersistentListP1

List of parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1. Field n1-PUCCH-AN-PersistentListP1 is applicable only if the twoAntennaPortActivatedPUCCH-Format1a1b in PUCCH-ConfigDedicated-v1020 is set to true. Otherwise the field is not configured.

numberOfConfSPS-Processes

The number of configured HARQ processes for downlink Semi-Persistent Scheduling, see TS 36.321 [6].

numberOfConfSPS-Processes-STTI

The number of configured HARQ processes for downlink Semi-Persistent Scheduling for sTTI in DL, see TS 36.321 [6].

numberOfConfUlSPS-Processes

The number of configured HARQ processes for uplink Semi-Persistent Scheduling, see TS 36.321 [6]. E-UTRAN always configures this field for asynchronous UL HARQ. Otherwise it does not configure this field.

numberOfConfUL-SPS-Processes-STTI

The number of configured HARQ processes for uplink Semi-Persistent Scheduling for sTTI in UL, see TS 36.321 [6]. E-UTRAN always configures this field for asynchronous UL HARQ. Otherwise it does not configure this field.

p0-NominalPUSCH-Persistent, p0-NominalSPUSCH-Persistent

Parameter: . See TS 36.213 [23], clause 5.1.1.1, unit dBm step 1. This field is applicable for persistent scheduling, only. If choice setup is used and p0-Persistent is absent, apply the value of p0-NominalPUSCH for p0-NominalPUSCH-Persistent. If uplink power control subframe sets are configured by tpc-SubframeSet, this field applies for uplink power control subframe set 1.

p0-NominalPUSCH-PersistentSubframeSet2, p0-NominalSPUSCH-PersistentSubframeSet2

Parameter: . See TS 36.213 [23], clause 5.1.1.1, unit dBm step 1. This field is applicable for persistent scheduling, only. If p0-PersistentSubframeSet2-r12 is not configured, apply the value of p0-NominalPUSCH-SubframeSet2-r12 for p0-NominalPUSCH-PersistentSubframeSet2. E-UTRAN configures this field only if uplink power control subframe sets are configured by tpc-SubframeSet, in which case this field applies for uplink power control subframe set 2.

p0-UE-PUSCH-Persistent

Parameter: . See TS 36.213 [23], clause 5.1.1.1, unit dB. This field is applicable for persistent scheduling, only. If choice setup is used and p0-Persistent is absent, apply the value of p0-UE-PUSCH for p0-UE-PUSCH-Persistent. If uplink power control subframe sets are configured by tpc-SubframeSet, this field applies for uplink power control subframe set 1.

p0-UE-PUSCH-PersistentSubframeSet2

Parameter: . See TS 36.213 [23], clause 5.1.1.1, unit dB. This field is applicable for persistent scheduling, only. If p0-PersistentSubframeSet2-r12 is not configured, apply the value of p0-UE-PUSCH-SubframeSet2 for p0-UE-PUSCH-PersistentSubframeSet2. E-UTRAN configures this field only if uplink power control subframe sets are configured by tpc-SubframeSet, in which case this field applies for uplink power control subframe set 2.

rv-SPS-STTI-UL-Repetitions

Indicates the RV sequence of slot or subslot PUSCH for slot or subslot UL SPS repetitions. Value ulrvseq1= {0, 0, 0, 0, 0, 0} , value ulrvseq2={0, 2, 3, 1, 0, 2} and value ulrvseq3={0, 3, 0, 3, 0, 3}.

rv-SPS-UL-Repetitions

Indicates the RV sequence of PUSCH for subframe UL SPS repetitions. Value ulrvseq1= {0, 0, 0, 0, 0, 0} , value ulrvseq2={0, 2, 3, 1, 0, 2} and value ulrvseq3={0, 3, 0, 3, 0, 3}.

semiPersistSchedC-RNTI

Semi-persistent Scheduling C-RNTI, see TS 36.321 [6]. If sps-Config is present for more than one cells in the same cell group, semiPersistSchedC-RNTI is present in only one sps-Config.

semiPersistSchedIntervalDL

Semi-persistent scheduling interval in downlink, see TS 36.321 [6]. Value in number of sub-frames. Value sf10 corresponds to 10 sub-frames, sf20 corresponds to 20 sub-frames and so on. For TDD, the UE shall round this parameter down to the nearest integer (of 10 sub-frames), e.g. sf10 corresponds to 10 sub-frames, sf32 corresponds to 30 sub-frames, sf128 corresponds to 120 sub-frames.

semiPersistSchedIntervalDL-STTI

Semi-persistent scheduling interval for sTTI in downlink, see TS 36.321 [6]. Value in number of sTTI. Value sTTI1 corresponds to a spacing of 1 sTTI interval, sTTI2 corresponds to 2 spacings of sTTI intervals and so on, e.g. sTTI1 equal to sub-slot of 2 symbols or 3 symbols when the type of 2OS sTTI is configured, or e.g. sTTI1 equal to slot of 7 symbols when type of 7OS sTTI is configured. SPS for sTTI is not supported for TDD.

semiPersistSchedIntervalSL

Semi-persistent scheduling interval in sidelink, see TS 36.321 [6]. Value in number of sub-frames. Value sf20 corresponds to 20 sub-frames, sf50 corresponds to 50 sub-frames and so on.

semiPersistSchedIntervalUL

Semi-persistent scheduling interval in uplink, see TS 36.321 [6]. Value in number of sub-frames. Value sf10 corresponds to 10 sub-frames, sf20 corresponds to 20 sub-frames and so on. For TDD, when the configured Semi-persistent scheduling interval is greater than or equal to 10 sub-frames, the UE shall round this parameter down to the nearest integer (of 10 sub-frames), e.g. sf10 corresponds to 10 sub-frames, sf32 corresponds to 30 sub-frames, sf128 corresponds to 120 sub-frames. If semiPersistSchedIntervalUL-v1430 is configured, the UE only considers this extension (and ignores semiPersistSchedIntervalUL i.e. without suffix).

semiPersistSchedIntervalUL-STTI

Semi-persistent scheduling interval for sTTI in uplink, see TS 36.321 [6]. Value in number of sTTI. Value sTTI1 corresponds to a spacing of 1 sTTI interval, sTTI2 corresponds to 2 spacings of sTTI intervals and so on, e.g. sTTI1 equal to sub-slot of 2 symbols or 3 symbols when the type of 2OS sTTI is configured, or e.g. sTTI1 equal to slot of 7 symbols when type of 7OS sTTI is configured. SPS for sTTI is not supported for TDD.

sl-SPS-V-RNTI

SL Semi-Persistent Scheduling V-RNTI for V2X sidelink communication, see TS 36.321 [6].

sps-ConfigIndex

Indicates the index of one of multiple SL/UL SPS configurations.

sps-ConfigDL-STTI

If sps-ConfigDL-sTTI-r15 is signalled, the UE ignores sps-ConfigDL.

sps-ConfigSL-ToAddModList

Indicates the SL SPS configurations to be added or modified, identified by SPS-ConfigIndex.

sps-ConfigSL-ToReleaseList

Indicates the SL SPS configurations to be released, identified by SPS-ConfigIndex.

sps-ConfigUL-STTI-ToAddModList

Indicates the UL sTTI SPS configurations to be added or modified, identified by SPS-ConfigIndex. If this list includes more than one entry, E-UTRAN includes totalNumberPUSCH-SPS-STTI-UL-Repetitions in each entry.

sps-ConfigUL-STTI-ToReleaseList

Indicates the UL sTTI SPS configurations to be released, identified by SPS-ConfigIndex.

sps-ConfigUL-ToAddModList

Indicates the UL SPS configurations to be added or modified, identified by SPS-ConfigIndex. If this list includes more than one entry, E-UTRAN includes totalNumberPUSCH-SPS-UL-Repetitions in each entry.

sps-ConfigUL-ToReleaseList

Indicates the UL SPS configurations to be released, identified by SPS-ConfigIndex.

sTTI-StartTimeDL

Indicates the DL sTTI index start offset for SPS (re-)initialization, see TS 36.321 [6].

sTTI-StartTimeUL

Indicates the UL sTTI index start offset for SPS (re-)initialization, see TS 36.321 [6].

tbs-scalingFactorSubslotSPS-UL-Repetitions

Indicates the TBS scaling factor of subslot PUSCH for UL SPS repetitions. Value n6 corresponds to 1/6 and value n12 corresponds to 1/12.

totalNumberPUSCH-SPS-STTI-UL-Repetitions

Indicates the total number of UL transmissions for slot or subslot UL SPS repetitions. If the UE is configured with UL SPS and the configured number of SPS PUSCH transmissions k>1, simultaneous transmission of PUSCH and PUCCH is not configured.

totalNumberPUSCH-SPS-UL-Repetitions

Indicates the total number of UL transmissions for subframe UL SPS repetitions. If the UE is configured with UL SPS and the configured number of SPS PUSCH transmissions k>1, simultaneous transmission of PUSCH and PUCCH is not configured.

tpc-PDCCH-ConfigPUCCH-SPS

PDCCH configuration for power control of slot/subslot-PUCCH using format 3/3A, see TS 36.212 [22], when SPS-ConfigDL-STTI is configured.

tpc-PDCCH-ConfigPUSCH-SPS

PDCCH configuration for power control of slot/subslot-PUSCH using format 3/3A, see TS 36.212 [22], when SPS-ConfigUL-STTI is configured. If a UE is configured with multiple UL SPS configurations in a serving cell, the same TPC index for DCI format 3/3A applies to all the UL SPS configurations in the serving cell.

twoIntervalsConfig

Trigger of two-intervals-Semi-Persistent Scheduling in uplink. See TS 36.321 [6], clause 5.10. If this field is present and the configured Semi-persistent scheduling interval greater than or equal to 10 sub-frames, two-intervals-SPS is enabled for uplink. Otherwise, two-intervals-SPS is disabled.

ul-SPS-V-RNTI

UL Semi-Persistent Scheduling V-RNTI for UEs capable of multiple uplink SPS configurations and which support V2X communication, see TS 36.321 [6].

Conditional presence

Explanation

TDD

This field is optional present for TDD, need OR; it is not present for FDD and the UE shall delete any existing value for this field.

SPS

This field is optional present if sps-ConfigIndex-r14 is not configured, need OR; otherwise it is not present.

SPUCCH-Config

The IE SPUCCH-Config is used to specify the UE specific SPUCCH configuration.

SPUCCH-Config information element

— ASN1START

SPUCCH-Config-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

spucch-Set-r15 SPUCCH-Set-r15 OPTIONAL, — Need ON

twoAntennaPortActivatedSPUCCH-Format1a1b-r15 ENUMERATED {true} OPTIONAL, — Need OR

dummy SEQUENCE {

n3SPUCCH-AN-List-r15 SEQUENCE (SIZE (1..4)) OF INTEGER (0..549)

}

}

}

SPUCCH-Config-v1550 ::= CHOICE {

release NULL,

setup SEQUENCE {

twoAntennaPortActivatedSPUCCH-Format3-v1550 SEQUENCE {

n3SPUCCH-AN-List-v1550 SEQUENCE (SIZE (1..4)) OF INTEGER (0..549)

}

}

}

SPUCCH-Set-r15 ::= SEQUENCE (SIZE (1..4)) OF SPUCCH-Elements-r15

SPUCCH-Elements-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

n1SubslotSPUCCH-AN-List-r15 SEQUENCE (SIZE(1..4)) OF INTEGER (0..1319) OPTIONAL, — Need OR

n1SlotSPUCCH-FH-AN-List-r15 INTEGER (0..1319) OPTIONAL, — Need OR

n1SlotSPUCCH-NoFH-AN-List-r15 INTEGER (0..3959) OPTIONAL, — Need OR

n3SPUCCH-AN-List-r15 INTEGER (0..549) OPTIONAL, — Need OR

n4SPUCCHSlot-Resource-r15 SEQUENCE (SIZE(1..2)) OF N4SPUCCH-Resource-r15 OPTIONAL, — Need OR

n4SPUCCHSubslot-Resource-r15 SEQUENCE (SIZE(1..2)) OF N4SPUCCH-Resource-r15 OPTIONAL, — Need OR

n4maxCoderateSlotPUCCH-r15 INTEGER (0..7) OPTIONAL, — Need OR

n4maxCoderateSubslotPUCCH-r15 INTEGER (0..7) OPTIONAL, — Need OR

n4maxCoderateMultiResourceSlotPUCCH-r15 INTEGER (0..7) OPTIONAL, — Need OR

n4maxCoderateMultiResourceSubslotPUCCH-r15 INTEGER (0..7) OPTIONAL — Need OR

}

}

N4SPUCCH-Resource-r15 ::= SEQUENCE {

n4startingPRB-r15 INTEGER (0..109),

n4numberOfPRB-r15 INTEGER (0..7)

}

— ASN1STOP

SPUCCH-Config field descriptions

dummy

This field is not used in the specification. If received it shall be ignored by the UE.

n1SlotSPUCCH-FH-AN-List

Resource configuration for slot-SPUCCH format 1 when frequency hopping is enabled. Parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1.

n1SlotSPUCCH-NoFH-AN-List

Resource configuration for slot-SPUCCH format 1 when frequency hopping is disabled. Parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1.

n1SubslotSPUCCH-AN-List

Resource configuration for subslot-SPUCCH format 1. Parameter: for antenna port P0 and for antenna port P1 respectively, see TS 36.213 [23], clause 10.1.

n3SPUCCH-AN-List

Resource index for slot-SPUCCH format 3: , see TS 36.213 [23], clause 10.1.

n4maxCoderateSlotPUCCH, n4maxCoderateSubslotPUCCH

Indicates the maximum coding rate for slot-PUCCH and subslot-PUCCH format 4 transmission.

n4maxCoderateMultiResourceSlotPUCCH, n4maxCoderateMultiResourceSubslotPUCCH

Indicates the maximum coding rate for slot-PUCCH and subslot-PUCCH format 4 transmission in case of multiple resource configuration.

n4numberOfPRB, n4numberOfPRBSubslot

Parameter see TS 36.213 [23], Table 10.1.1-2 for determining SPUCCH resource(s) of SPUCCH format 4.

n4startingPRB

Parameter see TS 36.211 [21], clause 5.4A.3 for determining SPUCCH resource(s) of SPUCCH format 4.

twoAntennaPortActivatedSPUCCH-Format1a1b

Indicates whether two antenna ports are configured for SPUCCH format 1a/1b for HARQ-ACK, see TS 36.213 [23], clause 10.1. The field also applies for SPUCCH format 1a/1b transmission when format3 is configured, see TS 36.213 [23], clauses 10.1.2.2.2 and 10.1.3.2.2.

twoAntennaPortActivatedSPUCCH-Format3

Indicates whether two antenna ports are configured for SPUCCH format 3 for HARQ-ACK, see TS 36.213 [23], clause 10.1.

SRS-TPC-PDCCH-Config

The IE SRS-TPC-PDCCH-Config is used to specify the RNTIs and indexes for A-SRS trigger and TPC according to TS 36.212 [22].

SRS-TPC-PDCCH-Config information element

— ASN1START

SRS-TPC-PDCCH-Config-r14 ::= CHOICE {

release NULL,

setup SEQUENCE {

srs-TPC-RNTI-r14 BIT STRING (SIZE (16)),

startingBitOfFormat3B-r14 INTEGER (0..31),

fieldTypeFormat3B-r14 INTEGER (1..4),

srs-CC-SetIndexlist-r14 SEQUENCE (SIZE(1..4)) OF SRS-CC-SetIndex-r14 OPTIONAL — Cond SRS-Trigger-TypeA

}

}

SRS-CC-SetIndex-r14 ::= SEQUENCE {

cc-SetIndex-r14 INTEGER (0..3),

cc-IndexInOneCC-Set-r14 INTEGER (0..7)

}

— ASN1STOP

SRS-TPC-PDCCH-Config field descriptions

cc-IndexInOneCC-Set

Indicates the CC index in one CC set for Type A associated with the group DCI with SRS request field (optional) and TPC commands for a PUSCH-less SCell

cc-SetIndex

Indicates the CC set index for Type A associated with the group DCI with SRS request field (optional) and TPC commands for a PUSCH-less SCell.

fieldTypeFormat3B

The type of a field within the group DCI with SRS request fields (optional) and TPC commands for a PUSCH-less SCell, which indicates how many bits in the field are for SRS request (0 or 1/2) and how many bits in the field are for TPC (1 or 2). Note that for Type A, there is a common SRS request field for all SCells in the set, but each SCell has its own TPC command bits. See TS 36.212 [22], clause 5.3.3.1.7A. EUTRAN configures this field with the same value for all PUSCH-less SCells.

srs-CC-SetIndexlist

Indicates the index of the SRS-TPC-PDCCH-Config for Type A trigger by the group DCI with SRS request field (optional) and TPC commands for a PUSCH-less SCell. Each set may contain at most 8 CCs.

srs-TPC-RNTI

RNTI for SRS trigger and power control using DCI format 3B, see TS 36.212 [22], clause 5.1.3.1.

startingBitOfFormat3B

The starting bit position of a block within the group DCI with SRS request fields (optional) and TPC commands for a PUSCH-less SCell.

Conditional presence

Explanation

SRS-Trigger-TypeA

The field is mandatory present if typeA-SRS-TPC-PDCCH-Group-r14 is present. Otherwise the field is not present and the UE shall delete any existing value for this field.

TDD-Config

The IE TDD-Config is used to specify the TDD specific physical channel configuration.

TDD-Config information element

— ASN1START

TDD-Config ::= SEQUENCE {

subframeAssignment ENUMERATED {

sa0, sa1, sa2, sa3, sa4, sa5, sa6},

specialSubframePatterns ENUMERATED {

ssp0, ssp1, ssp2, ssp3, ssp4,ssp5, ssp6, ssp7,

ssp8}

}

TDD-Config-v1130 ::= SEQUENCE {

specialSubframePatterns-v1130 ENUMERATED {ssp7,ssp9}

}

TDD-Config-v1430 ::= SEQUENCE {

specialSubframePatterns-v1430 ENUMERATED {ssp10}

}

TDD-Config-v1450 ::= SEQUENCE {

specialSubframePatterns-v1450 ENUMERATED {ssp10-CRS-LessDwPTS}

}

TDD-ConfigSL-r12 ::= SEQUENCE {

subframeAssignmentSL-r12 ENUMERATED {

none, sa0, sa1, sa2, sa3, sa4, sa5, sa6}

}

SubframeAssignment-r15 ::= ENUMERATED {sa0, sa1, sa2, sa3, sa4, sa5, sa6}

— ASN1STOP

TDD-Config field descriptions

specialSubframePatterns

Indicates Configuration as in TS 36.211 [21], table 4.2-1, where ssp0 points to Configuration 0, ssp1 to Configuration 1 etc. Value ssp7 points to Configuration 7 for extended cyclic prefix, value ssp9 points to Configuration 9 for normal cyclic prefix and value ssp10 points to Configration 10 for normal cyclic prefix. Value ssp10-CRS-LessDwPTS corresponds to ssp10 without CRS transmission on the 5th symbol of DwPTS. E-UTRAN signals ssp7 only when setting specialSubframePatterns (without suffix i.e. the version defined in REL-8) to ssp4. E-UTRAN signals value ssp9 only when setting specialSubframePatterns (without suffix) to ssp5. E-UTRAN signals value ssp10 or ssp10-CRS-LessDwPTS only when setting specialSubframePatterns (without suffix) to ssp0 or ssp5. If specialSubframePatterns-v1130, specialSubframePatterns-v1430, or specialSubframePatterns-v1450 is present, the UE shall ignore specialSubframePatterns (without suffix). If specialSubframePatterns-v1430 or specialSubframePatterns-v1450 is present, the UE shall ignore specialSubframePatterns-v1130. E-UTRAN does not simultanuosly configure TDD-Config-v1430 and TDD-Config-v1450.

subframeAssignment

Indicates DL/UL subframe configuration where sa0 points to Configuration 0, sa1 to Configuration 1 etc. as specified in TS 36.211 [21], table 4.2-2. E-UTRAN configures the same value for serving cells residing on same frequency band.

subframeAssignmentSL

Indicates UL/ DL subframe configuration where sa0 points to Configuration 0, sa1 to Configuration 1 etc. as specified in TS 36.211 [21], table 4.2-2. The value none means that no TDD specific physical channel configuration is applicable (i.e. the carrier on which MasterInformationBlock-SL is transmitted is an FDD UL carrier or the carrier on which MasterInformationBlock-SL-V2X is transmitted is a carrier for V2X sidelink communication).

TimeAlignmentTimer

The IE TimeAlignmentTimer is used to control how long the UE considers the serving cells belonging to the associated TAG to be uplink time aligned. Corresponds to the Timer for time alignment in TS 36.321 [6]. Value in number of sub-frames. Value sf500 corresponds to 500 sub-frames, sf750 corresponds to 750 sub-frames and so on.

TimeAlignmentTimer information element

— ASN1START

TimeAlignmentTimer ::= ENUMERATED {

sf500, sf750, sf1280, sf1920, sf2560, sf5120,

sf10240, infinity}

— ASN1STOP

TimeReferenceInfo

TimeReferenceInfo information elements

— ASN1START

TimeReferenceInfo-r15 ::= SEQUENCE {

time-r15 ReferenceTime-r15,

uncertainty-r15 INTEGER (0..12) OPTIONAL, — Need OR

timeInfoType-r15 ENUMERATED {localClock} OPTIONAL, — Need OR

referenceSFN-r15 INTEGER (0..1023) OPTIONAL — Cond TimeRef

}

ReferenceTime-r15 ::= SEQUENCE {

refDays-r15 INTEGER (0..72999),

refSeconds-r15 INTEGER (0..86399),

refMilliSeconds-r15 INTEGER (0..999),

refQuarterMicroSeconds-r15 INTEGER (0..3999)

}

— ASN1STOP

TimeReferenceInfo field descriptions

referenceSFN

This field indicates the reference SFN for time reference information. The time field indicates the time at the ending boundary of the SFN indicated by referenceSFN. The UE considers the frame indicated by the referenceSFN nearest to the frame where the field is received.

If the time field is included in SystemInformationBlockType16 and the referenceSFN field is not included, the time field indicates the time at the SFN boundary at or immediately after the ending boundary of the SI-window in which SystemInformationBlockType16 is transmitted.

time, timeInfoType

This field indicates time reference with 0.25 us granularity. The indicated time is referenced at the network, i.e., without compensating for RF propagation delay. The indicated time in 0.25 us unit from the origin is refDays*86400*1000*4000 + refSeconds*1000*4000 + refMilliSeconds*4000 + refQuarterMicroSeconds. The refDays field specifies the sequential number of days (with day count starting at 0) from the origin of the time field. If timeInfoType is not included, the origin of the time field is 00:00:00 on Gregorian calendar date 6 January, 1980 (start of GPS time). If timeInfoType is set to localClock, the interpretation of the origin of the time is unspecified and left up to upper layers.

If time field is included in SystemInformationBlockType16, this field is excluded when estimating changes in system information, i.e. changes of time should neither result in system information change notifications nor in a modification of systemInfoValueTag in SIB1.

uncertainty

This field indicates the number of LSBs which may be inaccurate in the refQuarterMicroSeconds field. If uncertainty is absent, the uncertainty of refQuarterMicroSeconds is not specified.

Conditional presence

Explanation

TimeRef

The field is mandatory present if TimeReferenceInfo is included in DLInformationTransfer message; otherwise the field is not present.

TPC-PDCCH-Config

The IE TPC-PDCCH-Config is used to specify the RNTIs and indexes for PUCCH and PUSCH power control according to TS 36.212 [22]. The power control function can either be setup or released with the IE.

TPC-PDCCH-Config information element

— ASN1START

TPC-PDCCH-Config ::= CHOICE {

release NULL,

setup SEQUENCE {

tpc-RNTI BIT STRING (SIZE (16)),

tpc-Index TPC-Index

}

}

TPC-PDCCH-ConfigSCell-r13 ::= CHOICE {

release NULL,

setup SEQUENCE {

tpc-Index-PUCCH-SCell-r13 TPC-Index

}

}

TPC-Index ::= CHOICE {

indexOfFormat3 INTEGER (1..15),

indexOfFormat3A INTEGER (1..31)

}

— ASN1STOP

TPC-PDCCH-Config field descriptions

indexOfFormat3

Index of N when DCI format 3 is used. See TS 36.212 [22], clause 5.3.3.1.6.

IndexOfFormat3A

Index of M when DCI format 3A is used. See TS 36.212 [22], clause 5.3.3.1.7.

tpc-Index

Index of N or M, see TS 36.212 [22], clauses 5.3.3.1.6 and 5.3.3.1.7, where N or M is dependent on the used DCI format (i.e. format 3 or 3a).

tpc-Index-PUCCH-SCell

Index of N or M, see TS 36.212 [22], clauses 5.3.3.1.6 and 5.3.3.1.7, where N or M is dependent on the used DCI format (i.e. format 3 or 3a).

tpc-RNTI

RNTI for power control using DCI format 3/3A, see TS 36.212 [22].

TunnelConfigLWIP

The IE TunnelConfigLWIP is used to setup/release LWIP Tunnel.

— ASN1START

TunnelConfigLWIP-r13 ::= SEQUENCE {

ip-Address-r13 IP-Address-r13,

ike-Identity-r13 IKE-Identity-r13,

…,

[[ lwip-Counter-r13 INTEGER (0..65535) OPTIONAL — Cond LWIP-Setup

]]

}

IKE-Identity-r13 ::= SEQUENCE {

idI-r13 OCTET STRING

}

IP-Address-r13 ::= CHOICE {

ipv4-r13 BIT STRING (SIZE (32)),

ipv6-r13 BIT STRING (SIZE (128))

}

— ASN1STOP

TunnelConfigLWIP field descriptions

ip-Address

Parameter indicates the LWIP-SeGW IP Address to be used by the UE for initiating LWIP Tunnel establishment [32].

ike-Identity

Parameter indicates the IKE Identity elements (IDi) to be used in IKE Authentication Procedures [32].

lwip-Counter

Indicates the parameter used by UE for computing the security keys used in LWIP tunnel establishment, as specified in TS 33.401 [32].

Conditional presence

Explanation

LWIP-Setup

The field is mandatory present upon setup of LWIP tunnel. Otherwise the field is optional, Need ON.

UplinkPowerControl

The IE UplinkPowerControlCommon and IE UplinkPowerControlDedicated are used to specify parameters for uplink power control in the system information and in the dedicated signalling, respectively.

UplinkPowerControl information elements

— ASN1START

UplinkPowerControlCommon ::= SEQUENCE {

p0-NominalPUSCH INTEGER (-126..24),

alpha Alpha-r12,

p0-NominalPUCCH INTEGER (-127..-96),

deltaFList-PUCCH DeltaFList-PUCCH,

deltaPreambleMsg3 INTEGER (-1..6)

}

UplinkPowerControlCommon-v1020 ::= SEQUENCE {

deltaF-PUCCH-Format3-r10 ENUMERATED {deltaF-1, deltaF0, deltaF1, deltaF2,

deltaF3, deltaF4, deltaF5, deltaF6},

deltaF-PUCCH-Format1bCS-r10 ENUMERATED {deltaF1, deltaF2, spare2, spare1}

}

UplinkPowerControlCommon-v1310 ::= SEQUENCE {

deltaF-PUCCH-Format4-r13 ENUMERATED {deltaF16, deltaF15, deltaF14,deltaF13, deltaF12,

deltaF11, deltaF10, spare1} OPTIONAL, — Need OR

deltaF-PUCCH-Format5-13 ENUMERATED { deltaF13, deltaF12, deltaF11, deltaF10, deltaF9,

deltaF8, deltaF7, spare1} OPTIONAL — Need OR

}

UplinkPowerControlCommon-v1530 ::= SEQUENCE {

deltaFList-SPUCCH-r15 DeltaFList-SPUCCH-r15

}

UplinkPowerControlCommonPSCell-r12 ::= SEQUENCE {

— For uplink power control the additional/ missing fields are signalled (compared to SCell)

deltaF-PUCCH-Format3-r12 ENUMERATED {deltaF-1, deltaF0, deltaF1, deltaF2,

deltaF3, deltaF4, deltaF5, deltaF6},

deltaF-PUCCH-Format1bCS-r12 ENUMERATED {deltaF1, deltaF2, spare2, spare1},

p0-NominalPUCCH-r12 INTEGER (-127..-96),

deltaFList-PUCCH-r12 DeltaFList-PUCCH

}

UplinkPowerControlCommonSCell-r10 ::= SEQUENCE {

p0-NominalPUSCH-r10 INTEGER (-126..24),

alpha-r10 Alpha-r12

}

UplinkPowerControlCommonSCell-v1130 ::= SEQUENCE {

deltaPreambleMsg3-r11 INTEGER (-1..6)

}

UplinkPowerControlCommonSCell-v1310 ::= SEQUENCE {

— For uplink power control the additional/ missing fields are signalled (compared to SCell)

p0-NominalPUCCH INTEGER (-127..-96),

deltaFList-PUCCH DeltaFList-PUCCH,

deltaF-PUCCH-Format3-r12 ENUMERATED {deltaF-1, deltaF0, deltaF1,

deltaF2, deltaF3, deltaF4, deltaF5,

deltaF6} OPTIONAL, — Need OR

deltaF-PUCCH-Format1bCS-r12 ENUMERATED {deltaF1, deltaF2,

spare2, spare1} OPTIONAL, — Need OR

deltaF-PUCCH-Format4-r13 ENUMERATED {deltaF16, deltaF15, deltaF14,

deltaF13, deltaF12, deltaF11, deltaF10,

spare1} OPTIONAL, — Need OR

deltaF-PUCCH-Format5-13 ENUMERATED { deltaF13, deltaF12, deltaF11,

deltaF10, deltaF9, deltaF8, deltaF7,

spare1} OPTIONAL — Need OR

}

UplinkPowerControlCommonPUSCH-LessCell-v1430 ::= SEQUENCE {

p0-Nominal-PeriodicSRS-r14 INTEGER (-126..24) OPTIONAL, — Need OR

p0-Nominal-AperiodicSRS-r14 INTEGER (-126..24) OPTIONAL, — Need OR

alpha-SRS-r14 Alpha-r12 OPTIONAL — Need OR

}

UplinkPowerControlDedicated ::= SEQUENCE {

p0-UE-PUSCH INTEGER (-8..7),

deltaMCS-Enabled ENUMERATED {en0, en1},

accumulationEnabled BOOLEAN,

p0-UE-PUCCH INTEGER (-8..7),

pSRS-Offset INTEGER (0..15),

filterCoefficient FilterCoefficient DEFAULT fc4

}

UplinkPowerControlDedicated-v1020 ::= SEQUENCE {

deltaTxD-OffsetListPUCCH-r10 DeltaTxD-OffsetListPUCCH-r10 OPTIONAL, — Need OR

pSRS-OffsetAp-r10 INTEGER (0..15) OPTIONAL — Need OR

}

UplinkPowerControlDedicated-v1130 ::= SEQUENCE {

pSRS-Offset-v1130 INTEGER (16..31) OPTIONAL, — Need OR

pSRS-OffsetAp-v1130 INTEGER (16..31) OPTIONAL, — Need OR

deltaTxD-OffsetListPUCCH-v1130 DeltaTxD-OffsetListPUCCH-v1130 OPTIONAL — Need OR

}

UplinkPowerControlDedicated-v1250 ::= SEQUENCE {

set2PowerControlParameter CHOICE {

release NULL,

setup SEQUENCE {

tpc-SubframeSet-r12 BIT STRING (SIZE(10)),

p0-NominalPUSCH-SubframeSet2-r12 INTEGER (-126..24),

alpha-SubframeSet2-r12 Alpha-r12,

p0-UE-PUSCH-SubframeSet2-r12 INTEGER (-8..7)

}

}

}

UplinkPowerControlDedicated-v1530 ::= SEQUENCE {

alpha-UE-r15 Alpha-r12 OPTIONAL, — Need OR

p0-UE-PUSCH-r15 INTEGER (-16..15) OPTIONAL — Need OR

}

UplinkPowerControlDedicatedSTTI-r15 ::= SEQUENCE {

accumulationEnabledSTTI-r15 BOOLEAN,

deltaTxD-OffsetListSPUCCH-r15 DeltaTxD-OffsetListSPUCCH-r15 OPTIONAL, — Need OR

uplinkPower-CSIPayload BOOLEAN

}

UplinkPUSCH-LessPowerControlDedicated-v1430 ::= SEQUENCE {

p0-UE-PeriodicSRS-r14 INTEGER (-8..7) OPTIONAL, — Need OR

p0-UE-AperiodicSRS-r14 INTEGER (-8..7) OPTIONAL, — Need OR

accumulationEnabled-r14 BOOLEAN

}

UplinkPowerControlDedicatedSCell-r10 ::= SEQUENCE {

p0-UE-PUSCH-r10 INTEGER (-8..7),

deltaMCS-Enabled-r10 ENUMERATED {en0, en1},

accumulationEnabled-r10 BOOLEAN,

pSRS-Offset-r10 INTEGER (0..15),

pSRS-OffsetAp-r10 INTEGER (0..15) OPTIONAL, — Need OR

filterCoefficient-r10 FilterCoefficient DEFAULT fc4,

pathlossReferenceLinking-r10 ENUMERATED {pCell, sCell}

}

UplinkPowerControlDedicatedSCell-v1310 ::= SEQUENCE {

–Release 8

p0-UE-PUCCH INTEGER (-8..7),

–Release 10

deltaTxD-OffsetListPUCCH-r10 DeltaTxD-OffsetListPUCCH-r10 OPTIONAL — Need OR

}

Alpha-r12 ::= ENUMERATED {al0, al04, al05, al06, al07, al08, al09, al1}

DeltaFList-PUCCH ::= SEQUENCE {

deltaF-PUCCH-Format1 ENUMERATED {deltaF-2, deltaF0, deltaF2},

deltaF-PUCCH-Format1b ENUMERATED {deltaF1, deltaF3, deltaF5},

deltaF-PUCCH-Format2 ENUMERATED {deltaF-2, deltaF0, deltaF1, deltaF2},

deltaF-PUCCH-Format2a ENUMERATED {deltaF-2, deltaF0, deltaF2},

deltaF-PUCCH-Format2b ENUMERATED {deltaF-2, deltaF0, deltaF2}

}

DeltaFList-SPUCCH-r15 ::= CHOICE {

release NULL,

setup SEQUENCE {

deltaF-slotSPUCCH-Format1-r15 ENUMERATED {deltaF-1, deltaF0, deltaF1, deltaF2,

deltaF3, deltaF4, deltaF5, deltaF6} OPTIONAL, –Need OR

deltaF-slotSPUCCH-Format1a-r15 ENUMERATED {deltaF1, deltaF2, deltaF3, deltaF4,

deltaF5, deltaF6, deltaF7, deltaF8} OPTIONAL, –Need OR

deltaF-slotSPUCCH-Format1b-r15 ENUMERATED {deltaF3, deltaF4, deltaF5, deltaF6,

deltaF7, deltaF8, deltaF9, deltaF10} OPTIONAL,–Need OR

deltaF-slotSPUCCH-Format3-r15 ENUMERATED {deltaF4, deltaF5, deltaF6, deltaF7,

deltaF8, deltaF9, deltaF10, deltaF11} OPTIONAL,–Need OR

deltaF-slotSPUCCH-RM-Format4-r15 ENUMERATED {deltaF13, deltaF14, deltaF15, deltaF16,

deltaF17, deltaF18, deltaF19, deltaF20} OPTIONAL,

–Need OR

deltaF-slotSPUCCH-TBCC-Format4-r15 ENUMERATED {deltaF10, deltaF11, deltaF12, deltaF13,

deltaF14, deltaF15, deltaF16, deltaF17} OPTIONAL,

–Need OR

deltaF-subslotSPUCCH-Format1and1a-r15 ENUMERATED {deltaF5, deltaF6, deltaF7, deltaF8,

deltaF9, deltaF10, deltaF11, deltaF12} OPTIONAL,

–Need OR

deltaF-subslotSPUCCH-Format1b-r15 ENUMERATED {deltaF6, deltaF7, deltaF8, deltaF9,

deltaF10, deltaF11, deltaF12, deltaF13} OPTIONAL,

–Need OR

deltaF-subslotSPUCCH-RM-Format4-r15 ENUMERATED {deltaF15, deltaF16, deltaF17, deltaF18,

deltaF19, deltaF20, deltaF21, deltaF22} OPTIONAL,

–Need OR

deltaF-subslotSPUCCH-TBCC-Format4-r15 ENUMERATED {deltaF10, deltaF11, deltaF12, deltaF13,

deltaF14, deltaF15, deltaF16, deltaF17} OPTIONAL,

–Need OR

}

}

DeltaTxD-OffsetListPUCCH-r10 ::= SEQUENCE {

deltaTxD-OffsetPUCCH-Format1-r10 ENUMERATED {dB0, dB-2},

deltaTxD-OffsetPUCCH-Format1a1b-r10 ENUMERATED {dB0, dB-2},

deltaTxD-OffsetPUCCH-Format22a2b-r10 ENUMERATED {dB0, dB-2},

deltaTxD-OffsetPUCCH-Format3-r10 ENUMERATED {dB0, dB-2},

}

DeltaTxD-OffsetListPUCCH-v1130 ::= SEQUENCE {

deltaTxD-OffsetPUCCH-Format1bCS-r11 ENUMERATED {dB0, dB-1}

}

DeltaTxD-OffsetListSPUCCH-r15 ::= SEQUENCE {

deltaTxD-OffsetSPUCCH-Format1-r15 ENUMERATED {dB0, dB-2},

deltaTxD-OffsetSPUCCH-Format1a-r15 ENUMERATED {dB0, dB-2},

deltaTxD-OffsetSPUCCH-Format1b-r15 ENUMERATED {dB0, dB-2},

deltaTxD-OffsetSPUCCH-Format3-r15 ENUMERATED {dB0, dB-2},

}

— ASN1STOP

UplinkPowerControl field descriptions

accumulationEnabled, accumulationEnabledSTTI

Parameter: Accumulation-enabled, see TS 36.213 [23], clauses 5.1.1.1 and 5.1.3.1. TRUE corresponds to "enabled" whereas FALSE corresponds to "disabled".

alpha

Parameter: α See TS 36.213 [23], clause 5.1.1.1, where al0 corresponds to 0, al04 corresponds to value 0.4, al05 to 0.5, al06 to 0.6, al07 to 0.7, al08 to 0.8, al09 to 0.9 and al1 corresponds to 1. This field applies for uplink power control subframe set 1 if uplink power control subframe sets are configured by tpc-SubframeSet.

alpha-SRS

Parameter: αSRS. See TS 36.213 [23], clause 5.1.3.1, where al0 corresponds to 0, al04 corresponds to value 0.4, al05 to 0.5, al06 to 0.6, al07 to 0.7, al08 to 0.8, al09 to 0.9 and al1 corresponds to 1. This field applies for SRS power control on a PUSCH-less SCell.

alpha-SubframeSet2

Parameter: α. See TS 36.213 [23], clause 5.1.1.1, where al0 corresponds to 0, al04 corresponds to value 0.4, al05 to 0.5, al06 to 0.6, al07 to 0.7, al08 to 0.8, al09 to 0.9 and al1 corresponds to 1. This field applies for uplink power control subframe set 2 if uplink power control subframe sets are configured by tpc-SubframeSet.

alpha-UE

Parameter: αUE See TS 36.213 [23], clause 5.1.1.1, where al0 corresponds to 0, al04 corresponds to value 0.4, al05 to 0.5, al06 to 0.6, al07 to 0.7, al08 to 0.8, al09 to 0.9 and al1 corresponds to 1.

deltaF-PUCCH-FormatX

Parameter: for the PUCCH formats 1, 1b, 2, 2a, 2b, 3, 4, 5 and 1b with channel selection. See TS 36.213 [23], clause 5.1.2, where deltaF-2 corresponds to -2 dB, deltaF0 corresponds to 0 dB and so on.

deltaF-PUCCH-FormatX, deltaF-slotSPUCCH-FormatX, deltaF-subslotSPUCCH-FormatX

Parameter: for the SPUCCH formats 1, 1a, 1b, 3 and 4. See TS 36.213 [23], clause 5.1.2 where deltaF-2 corresponds to -2 dB, deltaF0 corresponds to 0 dB and so on. In case both an A and a B configuration exist, configuration A is used in case SPUCCH carries ≤ 22 HARQ-ACK bits, and B otherwise.

deltaMCS-Enabled

Parameter: Ks See TS 36.213 [23], clause 5.1.1.1. en0 corresponds to value 0 corresponding to state "disabled". en1 corresponds to value 1.25 corresponding to "enabled".

deltaPreambleMsg3

Parameter: see TS 36.213 [23], clause 5.1.1.1. Actual value = field value * 2 [dB].

deltaTxD-OffsetPUCCH-FormatX

Parameter: for the PUCCH formats 1, 1a/1b, 1b with channel selection, 2/2a/2b and 3 when two antenna ports are configured for PUCCH transmission. See TS 36.213 [23], clause 5.1.2.1, where dB0 corresponds to 0 dB, dB-1 corresponds to -1 dB, dB-2 corresponds to -2 dB. EUTRAN configures the field deltaTxD-OffsetPUCCH-Format1bCS-r11 for the PCell and/or the PSCell only.

deltaTxD-OffsetSPUCCH-FormatX

Parameter: for the SPUCCH formats 1, 1a/1b, 1b with channel selection and 3 when two antenna ports are configured for SPUCCH transmission. See TS 36.213 [23], clause 5.1.2.1 where dB0 corresponds to 0 dB, dB-1 corresponds to -1 dB, dB-2 corresponds to -2 dB.

filterCoefficient

Specifies the filtering coefficient for RSRP measurements used to calculate path loss, as specified in TS 36.213 [23], clause 5.1.1.1. The same filtering mechanism applies as for quantityConfig described in 5.5.3.2.

p0-Nominal-AperiodicSRS

Parameter: where m=1. See TS 36.213 [23], clause 5.1.3.1, unit dBm.

p0-Nominal-PeriodicSRS

Parameter: where m=0. See TS 36.213 [23], clause5.1.3.1, unit dBm.

p0-NominalPUCCH

Parameter: See TS 36.213 [23], clause 5.1.2.1, unit dBm.

p0-NominalPUSCH

Parameter: See TS 36.213 [23], clause 5.1.1.1, unit dBm. This field is applicable for non-persistent scheduling only. This field applies for uplink power control subframe set 1 if uplink power control subframe sets are configured by tpc-SubframeSet.

p0-NominalPUSCH-SubframeSet2

Parameter: . See TS 36.213 [23], clause 5.1.1.1, unit dBm. This field is applicable for non-persistent scheduling only. This field applies for uplink power control subframe set 2 if uplink power control subframe sets are configured by tpc-SubframeSet.

p0-UE-AperiodicSRS

Parameter: where m=1. See TS 36.213 [23], clause 5.1.3.1, unit dB.

p0-UE-PeriodicSRS

Parameter: where m=0. See TS 36.213 [23], clause 5.1.3.1, unit dB.

p0-UE-PUCCH

Parameter: See TS 36.213 [23], clause 5.1.2.1. Unit dB

p0-UE-PUSCH

Parameter: See TS 36.213 [23], clause 5.1.1.1, unit dB. This field is applicable for non-persistent scheduling, only. This field applies for uplink power control subframe set 1 if uplink power control subframe sets are configured by tpc-SubframeSet. If p0-UE-PUSCH-r15 is included, the UE ignores p0-UE-PUSCH (i.e., without suffix).

p0-UE-PUSCH-SubframeSet2

Parameter: See TS 36.213 [23], clause 5.1.1.1, unit dB. This field is applicable for non-persistent scheduling, only. This field applies for uplink power control subframe set 2 if uplink power control subframe sets are configured by tpc-SubframeSet.

pathlossReferenceLinking

Indicates whether the UE shall apply as pathloss reference either the downlink of the PCell or of the SCell that corresponds with this uplink (i.e. according to the cellIdentification within the field sCellToAddMod). For SCells part of an STAG E-UTRAN sets the value to sCell.

pSRS-Offset, pSRS-OffsetAp

Parameter: PSRS_OFFSET for periodic and aperiodic sounding reference signal transmission repectively. See TS 36.213 [23], clause 5.1.3.1. For Ks=1.25, the actual parameter value is pSRS-Offset value – 3. For Ks=0, the actual parameter value is -10.5 + 1.5*pSRS-Offset value.

If pSRS-Offset-v1130 is included, the UE ignores pSRS-Offset (i.e., without suffix). Likewise, if pSRS-OffsetAp-v1130 is included, the UE ignores pSRS-OffsetAp-r10. For Ks=0, E-UTRAN does not set values larger than 26.

tpc-SubframeSet

Indicates the uplink subframes (including UpPTS in special subframes) of the uplink power control subframe sets. Value 0 means the subframe belongs to uplink power control subframe set 1, and value 1 means the subframe belongs to uplink power control subframe set 2.

uplinkPower-CSIPayload

TRUE indicates that the UE shall derive BPRE based on the actual value of O_CQI for slot/subslot-PUSCH, whereas FALSE indicates that the largest value of O_CQI across all RI values shall be used for the derivation of BPRE for slot/subslot-PUSCH.

WLAN-Id-List

The IE WLAN-Id-List is used to list WLAN(s) for configuration of WLAN measurements and WLAN mobility set.

— ASN1START

WLAN-Id-List-r13 ::= SEQUENCE (SIZE (1..maxWLAN-Id-r13)) OF WLAN-Identifiers-r12

— ASN1STOP

WLAN-MobilityConfig

The IE WLAN-MobilityConfig is used for configuration of WLAN mobility set and WLAN Status Reporting. E-UTRAN configures at least one WLAN identifier in the WLAN-MobilityConfig.

— ASN1START

WLAN-MobilityConfig-r13 ::= SEQUENCE {

wlan-ToReleaseList-r13 WLAN-Id-List-r13 OPTIONAL, — Need ON

wlan-ToAddList-r13 WLAN-Id-List-r13 OPTIONAL, — Need ON

associationTimer-r13 ENUMERATED {s10, s30,

s60, s120, s240} OPTIONAL, — Need OR

successReportRequested-r13 ENUMERATED {true} OPTIONAL, — Need OR

…,

[[ wlan-SuspendConfig-r14 WLAN-SuspendConfig-r14 OPTIONAL — Need ON

]]

}

— ASN1STOP

WLAN-MobilityConfig field descriptions

associationTimer

Indicates the maximum time for connection to WLAN before connection failure reporting is initiated. Value s10 means 10 seconds, value s30 means 30 seconds and so on. E-UTRAN includes associationTimer only upon change in WLAN mobility set, lwa-WT-Counter or lwip-Counter.

successReportRequested

Indicates whether the UE shall report successful connection to WLAN. Applicable to LWA and LWIP.

wlan-ToAddList

Indicates the WLAN identifiers to be added to the WLAN mobility set.

wlan-ToReleaseList

Indicates the WLAN identifiers to be removed from the WLAN mobility set.

– WUS-Config

The IE WUS-Config is used to specify the WUS configuration. For the UEs supporting WUS, E-UTRAN uses WUS to indicate that the UE shall attempt to receive paging in that cell, see TS 36.304 [4].

WUS-Config information element

— ASN1START

WUS-Config-r15 ::= SEQUENCE {

maxDurationFactor-r15 ENUMERATED {one32th, one16th, one8th, one4th},

numPOs-r15 ENUMERATED {n1, n2, n4, spare1} DEFAULT n1,

freqLocation-r15 ENUMERATED {n0, n2, n4, spare1},

timeOffsetDRX-r15 ENUMERATED {ms40, ms80, ms160, ms240},

timeOffset-eDRX-Short-r15 ENUMERATED {ms40, ms80, ms160, ms240},

timeOffset-eDRX-Long-r15 ENUMERATED {ms1000, ms2000} OPTIONAL — Need OP

}

WUS-Config-v1560 ::= SEQUENCE {

powerBoost-r15 ENUMERATED {dB0, dB1dot8, dB3, dB4dot8}

}

— ASN1STOP

WUS-Config field descriptions

freqLocation

Frequency location of WUS within paging narrowband for BL UEs and UEs in CE. Value n0 corresponds to WUS in the 1st and 2nd PRB, value n2 represents the 3rd and 4th PRB, and value n4 represents the 5th and 6th PRB.

maxDurationFactor

Maximum WUS duration, expressed as a ratio of Rmax associated with Type 1-CSS, see TS 36.211 [21]. Value one32th corresponds to Rmax * 1/32, value one16th corresponds to Rmax * 1/16 and so on.

The value in TS 36.213 [23] considered by the UE is : maxDuration = Max (signalled value * Rmax, 1) where Rmax is the value of mpdcch-NumRepetitionPaging for the carrier.

numPOs

Number of consecutive Paging Occasions (PO) mapped to one WUS, applicable to UEs configured to use extended DRX, see TS 36.304 [4]. Value n1 corresponds to 1 PO, value n2 corresponds to 2 POs and so on.

powerBoost

Power offset of WUS relative to CRS in dB, see TS 36.213 [23] clause 5.2. Value db0 corresponds to 0dB, value db1dot8 corresponds to 1.8dB, and so on.

timeOffsetDRX

Minimum time gap in milliseconds from the end of the configured maximum WUS duration to the first associated PO, see TS 36.211 [21]. Value ms40 corresponds to 40 ms, value ms80 corresponds to 80 ms and so on.

timeOffset-eDRX-Short

When eDRX is used, the short non-zero gap in milliseconds from the end of the configured maximum WUS duration to the associated PO, see TS 36.211 [21]. Value ms40 corresponds to 40 ms, value ms80 corresponds to 80 ms and so on.

E-UTRAN configures timeOffset-eDRX-Short to a value longer than or equal to timeOffsetDRX.

timeOffset-eDRX-Long

When eDRX is used, the long non-zero gap in milliseconds from the end of the configured maximum WUS duration to the associated PO, see TS 36.211 [21]. Value ms1000 corresponds to 1000 ms and value ms2000 corresponds to 2000 ms.

If the field is absent, UE uses timeOffset-eDRX-Short for monitoring WUS.