6.3.4 Mobility control information elements
36.3313GPPEvolved Universal Terrestrial Radio Access (E-UTRA)Protocol specificationRadio Resource Control (RRC)Release 17TS
– AdditionalSpectrumEmission
If an extension is signalled using the extended value range (as defined by IE AdditionalSpectrumEmission-v10l0), the corresponding original field, using the value range as defined by IE AdditionalSpectrumEmission i.e. without suffix) shall be set to value 32, if signalled. UE supporting an LTE band assigned NS values larger than 32 as defined in TS 36.101 [42], clause 6.2.4, needs to support extension signaling (as defined by IE AdditionalSpectrumEmission-v10l0).
AdditionalSpectrumEmission information element
— ASN1START
AdditionalSpectrumEmission ::= INTEGER (1..32)
AdditionalSpectrumEmission-v10l0 ::= INTEGER (33..288)
— ASN1STOP
– AdditionalSpectrumEmissionNR
The IE AdditionalSpectrumEmissionNR is used to indicate NR emission requirements to be fulfilled by the UE (see TS 38.101-1 [85], clause 6.5.3.3, and TS 38.101-2 [100], clause 6.5.3.2 and TS 38.101-3 [101], clause 6.5B.2)
AdditionalSpectrumEmissionNR information element
— ASN1START
AdditionalSpectrumEmissionNR-r15 ::= INTEGER (0..7)
— ASN1STOP
– ARFCN-ValueCDMA2000
The IE ARFCN-ValueCDMA2000 used to indicate the CDMA2000 carrier frequency within a CDMA2000 band, see C.S0002 [12].
ARFCN-ValueCDMA2000 information element
— ASN1START
ARFCN-ValueCDMA2000 ::= INTEGER (0..2047)
— ASN1STOP
– ARFCN-ValueEUTRA
The IE ARFCN-ValueEUTRA is used to indicate the ARFCN applicable for a downlink, uplink or bi-directional (TDD) E-UTRA carrier frequency, as defined in TS 36.101 [42]. If an extension is signalled using the extended value range (as defined by IE ARFCN-ValueEUTRA-v9e0), the UE shall only consider this extension (and hence ignore the corresponding original field, using the value range as defined by IE ARFCN-ValueEUTRA i.e. without suffix, if signalled). In dedicated signalling, E-UTRAN only provides an EARFCN corresponding to an E-UTRA band supported by the UE.
ARFCN-ValueEUTRA information element
— ASN1START
ARFCN-ValueEUTRA ::= INTEGER (0..maxEARFCN)
ARFCN-ValueEUTRA-v9e0 ::= INTEGER (maxEARFCN-Plus1..maxEARFCN2)
ARFCN-ValueEUTRA-r9 ::= INTEGER (0..maxEARFCN2)
— ASN1STOP
NOTE: For fields using the original value range, as defined by IE ARFCN-ValueEUTRA i.e. without suffix, value maxEARFCN indicates that the E-UTRA carrier frequency is indicated by means of an extension. In such a case, UEs not supporting the extension consider the field to be set to a not supported value.
– ARFCN-ValueGERAN
The IE ARFCN-ValueGERAN is used to specify the ARFCN value applicable for a GERAN BCCH carrier frequency, see TS 45.005 [20].
ARFCN-ValueGERAN information element
— ASN1START
ARFCN-ValueGERAN ::= INTEGER (0..1023)
— ASN1STOP
– ARFCN-ValueNR
The IE ARFCN-ValueNR is used to indicate the ARFCN applicable for a downlink, uplink or bi-directional (TDD) NR carrier frequency, as defined in TS 38.101 [85].
ARFCN-ValueNR information element
— ASN1START
ARFCN-ValueNR-r15 ::= INTEGER (0.. 3279165)
— ASN1STOP
– ARFCN-ValueUTRA
The IE ARFCN-ValueUTRA is used to indicate the ARFCN applicable for a downlink (Nd, FDD) or bi-directional (Nt, TDD) UTRA carrier frequency, as defined in TS 25.331 [19].
ARFCN-ValueUTRA information element
— ASN1START
ARFCN-ValueUTRA ::= INTEGER (0..16383)
— ASN1STOP
– BandclassCDMA2000
The IE BandclassCDMA2000 is used to define the CDMA2000 band in which the CDMA2000 carrier frequency can be found, as defined in C.S0057 [24], table 1.5-1.
BandclassCDMA2000 information element
— ASN1START
BandclassCDMA2000 ::= ENUMERATED {
bc0, bc1, bc2, bc3, bc4, bc5, bc6, bc7, bc8,
bc9, bc10, bc11, bc12, bc13, bc14, bc15, bc16,
bc17, bc18-v9a0, bc19-v9a0, bc20-v9a0, bc21-v9a0,
spare10, spare9, spare8, spare7, spare6, spare5, spare4,
spare3, spare2, spare1, …}
— ASN1STOP
– BandIndicatorGERAN
The IE BandIndicatorGERAN indicates how to interpret an associated GERAN carrier ARFCN, see TS 45.005 [20]. More specifically, the IE indicates the GERAN frequency band in case the ARFCN value can concern either a DCS 1800 or a PCS 1900 carrier frequency. For ARFCN values not associated with one of these bands, the indicator has no meaning.
BandIndicatorGERAN information element
— ASN1START
BandIndicatorGERAN ::= ENUMERATED {dcs1800, pcs1900}
— ASN1STOP
– CarrierFreqCDMA2000
The IE CarrierFreqCDMA2000 used to provide the CDMA2000 carrier information.
CarrierFreqCDMA2000 information element
— ASN1START
CarrierFreqCDMA2000 ::= SEQUENCE {
bandClass BandclassCDMA2000,
arfcn ARFCN-ValueCDMA2000
}
— ASN1STOP
– CarrierFreqGERAN
The IE CarrierFreqGERAN is used to provide an unambiguous carrier frequency description of a GERAN cell.
CarrierFreqGERAN information element
— ASN1START
CarrierFreqGERAN ::= SEQUENCE {
arfcn ARFCN-ValueGERAN,
bandIndicator BandIndicatorGERAN
}
— ASN1STOP
|
CarrierFreqGERAN field descriptions |
|---|
|
arfcn GERAN ARFCN of BCCH carrier. |
|
bandIndicator Indicates how to interpret the ARFCN of the BCCH carrier. |
– CarrierFreqsGERAN
The IE CarrierFreqListGERAN is used to provide one or more GERAN ARFCN values, as defined in TS 45.005 [43], which represents a list of GERAN BCCH carrier frequencies.
CarrierFreqsGERAN information element
— ASN1START
CarrierFreqsGERAN ::= SEQUENCE {
startingARFCN ARFCN-ValueGERAN,
bandIndicator BandIndicatorGERAN,
followingARFCNs CHOICE {
explicitListOfARFCNs ExplicitListOfARFCNs,
equallySpacedARFCNs SEQUENCE {
arfcn-Spacing INTEGER (1..8),
numberOfFollowingARFCNs INTEGER (0..31)
},
variableBitMapOfARFCNs OCTET STRING (SIZE (1..16))
}
}
ExplicitListOfARFCNs ::= SEQUENCE (SIZE (0..31)) OF ARFCN-ValueGERAN
— ASN1STOP
|
CarrierFreqsGERAN field descriptions |
|---|
|
arfcn-Spacing Space, d, between a set of equally spaced ARFCN values. |
|
bandIndicator Indicates how to interpret the ARFCN of the BCCH carrier. |
|
explicitListOfARFCNs The remaining ARFCN values in the set are explicitly listed one by one. |
|
followingARFCNs Field containing a representation of the remaining ARFCN values in the set. |
|
numberOfFollowingARFCNs The number, n, of the remaining equally spaced ARFCN values in the set. The complete set of (n+1) ARFCN values is defined as: {s, ((s + d) mod 1024), ((s + 2*d) mod 1024) … ((s + n*d) mod 1024)}. |
|
startingARFCN The first ARFCN value, s, in the set. |
|
variableBitMapOfARFCNs Bitmap field representing the remaining ARFCN values in the set. The leading bit of the first octet in the bitmap corresponds to the ARFCN = ((s + 1) mod 1024), the next bit to the ARFCN = ((s + 2) mod 1024), and so on. If the bitmap consists of N octets, the trailing bit of octet N corresponds to ARFCN = ((s + 8*N) mod 1024). The complete set of ARFCN values consists of ARFCN = s and the ARFCN values, where the corresponding bit in the bitmap is set to "1". |
– CarrierFreqListMBMS
The IE CarrierFreqListMBMS is used to indicate the E-UTRA ARFCN values of the one or more MBMS frequencies the UE is interested to receive.
CarrierFreqListMBMS information element
— ASN1START
CarrierFreqListMBMS-r11 ::= SEQUENCE (SIZE (1..maxFreqMBMS-r11)) OF ARFCN-ValueEUTRA-r9
— ASN1STOP
– CDMA2000-Type
The IE CDMA2000-Type is used to describe the type of CDMA2000 network.
CDMA2000-Type information element
— ASN1START
CDMA2000-Type ::= ENUMERATED {type1XRTT, typeHRPD}
— ASN1STOP
– CellGlobalIdNR
The IE CellGlobalIdNR specifies the Cell Global Identifier (CGI), the globally unique identity and the tracking area code (TAC) of a cell in NR.
CellGlobalIdNR information element
— ASN1START
CellGlobalIdNR-r16 ::= SEQUENCE {
plmn-Identity-r16 PLMN-Identity,
cellIdentity-r16 CellIdentityNR-r15,
trackingAreaCode-r16 TrackingAreaCodeNR-r15 OPTIONAL
}
— ASN1STOP
|
CellGlobalIdNR field descriptions |
|---|
|
cellIdentity Identity of the cell within the context of the PLMN. |
|
plmn-Identity Identifies the PLMN of the cell as given by the first PLMN entry in the plmn-IdentityInfoList in SIB1. |
|
trackingAreaCode Indicates Tracking Area Code to which the cell indicated by cellIdentity field belongs. |
– CellIdentity
The IE CellIdentity is used to unambiguously identify a cell within a PLMN.
CellIdentity information element
— ASN1START
CellIdentity ::= BIT STRING (SIZE (28))
— ASN1STOP
– CellIndexList
The IE CellIndexList concerns a list of cell indices, which may be used for different purposes.
CellIndexList information element
— ASN1START
CellIndexList ::= SEQUENCE (SIZE (1..maxCellMeas)) OF CellIndex
CellIndex ::= INTEGER (1..maxCellMeas)
— ASN1STOP
– CellReselectionPriority
The IE CellReselectionPriority concerns the absolute priority of the concerned carrier frequency/ set of frequencies (GERAN)/ bandclass (CDMA2000), as used by the cell reselection procedure. Corresponds with parameter "priority" in TS 36.304 [4]. Value 0 means: lowest priority. The UE behaviour for the case the field is absent, if applicable, is specified in TS 36.304 [4].
CellReselectionPriority information element
— ASN1START
CellReselectionPriority ::= INTEGER (0..7)
— ASN1STOP
– CellSelectionInfoCE
The IE CellSelectionInfoCE contains cell selection information for CE. The q-RxLevMinCE corresponds to parameter Qrxlevmin_CE in TS 36.304 [4]. The q-QualMinRSRQ-CE corresponds to parameter Qqualmin_CE in TS 36.304 [4]. If q-QualMinRSRQ-CE is not present, the UE applies the (default) value of negative infinity for Qqualmin.
CellSelectionInfoCE information element
— ASN1START
CellSelectionInfoCE-r13 ::= SEQUENCE {
q-RxLevMinCE-r13 Q-RxLevMin,
q-QualMinRSRQ-CE-r13 Q-QualMin-r9 OPTIONAL — Need OR
}
CellSelectionInfoCE-v1530 ::= SEQUENCE {
powerClass14dBm-Offset-r15 ENUMERATED {dB-6, dB-3, dB3, dB6, dB9, dB12}
}
— ASN1STOP
|
CellSelectionInfoCE field descriptions |
|---|
|
powerClass14dBm-Offset Parameter "Poffset" in TS 36.304 [4], only applicable for UE supporting powerClass-14dBm. Value in dB. Value dB-6 corresponds to -6 dB, dB-3 corresponds to -3 dB and so on. E-UTRAN configures this field only if cellSelectionInfoCE-r13 is configured. If the field is absent, the UE applies the (default) value of 0 dB for "Poffset" in TS 36.304 [4]. |
– CellSelectionInfoCE1
The IE CellSelectionInfoCE1 contains cell selection information for BL UEs or UEs in CE supporting CE Mode B. The q-RxLevMinCE1 corresponds to parameter Qrxlevmin_CE1 in TS 36.304 [4]. If delta-RxLevMinCE1 is not included, actual value Qrxlevmin_CE1 = q-RxLevMinCE1 * 2 [dBm]. If delta-RxLevMinCE1 is included, the actual value Qrxlevmin_CE1 = (q-RxLevMinCE1 + delta-RxLevMinCE1) * 2 [dBm]. The q-QualMinRSRQ-CE1 corresponds to parameter Qqualmin_CE1 in TS 36.304 [4]. If q-QualMinRSRQ-CE1 is not present, the UE applies the (default) value of negative infinity for Qqualmin.
CellSelectionInfoCE1 information element
— ASN1START
CellSelectionInfoCE1-r13 ::= SEQUENCE {
q-RxLevMinCE1-r13 Q-RxLevMin,
q-QualMinRSRQ-CE1-r13 Q-QualMin-r9 OPTIONAL — Need OR
}
CellSelectionInfoCE1-v1360 ::= SEQUENCE {
delta-RxLevMinCE1-v1360 INTEGER (-8..-1)
}
— ASN1STOP
– CellReselectionSubPriority
The IE CellReselectionSubPriority indicates a fractional value to be added to the value of cellReselectionPriority to obtain the absolute priority of the concerned carrier frequency for E-UTRA and NR. Value oDot2 corresponds to 0.2, oDot4 corresponds to 0.4 and so on.
CellReselectionSubPriority information element
— ASN1START
CellReselectionSubPriority-r13 ::= ENUMERATED {oDot2, oDot4, oDot6, oDot8}
— ASN1STOP
– CSFB-RegistrationParam1XRTT
The IE CSFB-RegistrationParam1XRTT is used to indicate whether or not the UE shall perform a CDMA2000 1xRTT pre-registration if the UE does not have a valid / current pre-registration.
— ASN1START
CSFB-RegistrationParam1XRTT ::= SEQUENCE {
sid BIT STRING (SIZE (15)),
nid BIT STRING (SIZE (16)),
multipleSID BOOLEAN,
multipleNID BOOLEAN,
homeReg BOOLEAN,
foreignSIDReg BOOLEAN,
foreignNIDReg BOOLEAN,
parameterReg BOOLEAN,
powerUpReg BOOLEAN,
registrationPeriod BIT STRING (SIZE (7)),
registrationZone BIT STRING (SIZE (12)),
totalZone BIT STRING (SIZE (3)),
zoneTimer BIT STRING (SIZE (3))
}
CSFB-RegistrationParam1XRTT-v920 ::= SEQUENCE {
powerDownReg-r9 ENUMERATED {true}
}
— ASN1STOP
|
CSFB-RegistrationParam1XRTT field descriptions |
|---|
|
foreignNIDReg The CDMA2000 1xRTT NID roamer registration indicator. |
|
foreignSIDReg The CDMA2000 1xRTT SID roamer registration indicator. |
|
homeReg The CDMA2000 1xRTT Home registration indicator. |
|
multipleNID The CDMA2000 1xRTT Multiple NID storage indicator. |
|
multipleSID The CDMA2000 1xRTT Multiple SID storage indicator. |
|
nid Used along with the sid as a pair to control when the UE should Register or Re-Register with the CDMA2000 1xRTT network. |
|
parameterReg The CDMA2000 1xRTT Parameter-change registration indicator. |
|
powerDownReg The CDMA2000 1xRTT Power-down registration indicator. If set to TRUE, the UE that has a valid / current CDMA2000 1xRTT pre-registration will perform a CDMA2000 1xRTT power down registration when it is switched off. |
|
powerUpReg The CDMA2000 1xRTT Power-up registration indicator. |
|
registrationPeriod The CDMA2000 1xRTT Registration period. |
|
registrationZone The CDMA2000 1xRTT Registration zone. |
|
sid Used along with the nid as a pair to control when the UE should Register or Re-Register with the CDMA2000 1xRTT network. |
|
totalZone The CDMA2000 1xRTT Number of registration zones to be retained. |
|
zoneTimer The CDMA2000 1xRTT Zone timer length. |
– CellGlobalIdEUTRA
The IE CellGlobalIdEUTRA specifies the Evolved Cell Global Identifier (ECGI), the globally unique identity of a cell in E-UTRA.
CellGlobalIdEUTRA information element
— ASN1START
CellGlobalIdEUTRA ::= SEQUENCE {
plmn-Identity PLMN-Identity,
cellIdentity CellIdentity
}
— ASN1STOP
|
CellGlobalIdEUTRA field descriptions |
|---|
|
cellIdentity Identity of the cell within the context of the PLMN. |
|
plmn-Identity Identifies the PLMN of the cell as given by the first PLMN entry in the plmn-IdentityList in SystemInformationBlockType1. |
– CellGlobalIdUTRA
The IE CellGlobalIdUTRA specifies the global UTRAN Cell Identifier, the globally unique identity of a cell in UTRA.
CellGlobalIdUTRA information element
— ASN1START
CellGlobalIdUTRA ::= SEQUENCE {
plmn-Identity PLMN-Identity,
cellIdentity BIT STRING (SIZE (28))
}
— ASN1STOP
|
CellGlobalIdUTRA field descriptions |
|---|
|
cellIdentity UTRA Cell Identifier which is unique within the context of the identified PLMN as defined in TS 25.331 [19]. |
|
plmn-Identity Identifies the PLMN of the cell as given by the common PLMN broadcast in the MIB, as defined in TS 25.331 [19]. |
– CellGlobalIdGERAN
The IE CellGlobalIdGERAN specifies the Cell Global Identification (CGI), the globally unique identity of a cell in GERAN.
CellGlobalIdGERAN information element
— ASN1START
CellGlobalIdGERAN ::= SEQUENCE {
plmn-Identity PLMN-Identity,
locationAreaCode BIT STRING (SIZE (16)),
cellIdentity BIT STRING (SIZE (16))
}
— ASN1STOP
|
CellGlobalIdGERAN field descriptions |
|---|
|
cellIdentity Cell Identifier which is unique within the context of the GERAN location area as defined in TS 23.003 [27]. |
|
locationAreaCode A fixed length code identifying the location area within a PLMN as defined in TS 23.003 [27]. |
|
plmn-Identity Identifies the PLMN of the cell, as defined in TS 23.003 [27].. |
– CellGlobalIdCDMA2000
The IE CellGlobalIdCDMA2000 specifies the Cell Global Identification (CGI), the globally unique identity of a cell in CDMA2000.
CellGlobalIdCDMA2000 information element
— ASN1START
CellGlobalIdCDMA2000 ::= CHOICE {
cellGlobalId1XRTT BIT STRING (SIZE (47)),
cellGlobalIdHRPD BIT STRING (SIZE (128))
}
— ASN1STOP
|
CellGlobalIdCDMA2000 field descriptions |
|---|
|
cellGlobalId1XRTT Unique identifier for a CDMA2000 1xRTT cell, corresponds to BASEID, SID and NID parameters (in that order) defined in C.S0005 [25]. |
|
cellGlobalIdHRPD Unique identifier for a CDMA2000 HRPD cell, corresponds to SECTOR ID parameter defined in C.S0024 [26], clause 14.9. |
– CellSelectionInfoNFreq
The IE CellSelectionInfoNFreq includes the parameters used for cell selection on a neighbouring frequency, see TS 36.304 [4].
CellSelectionInfoNFreq information element
— ASN1START
CellSelectionInfoNFreq-r13 ::= SEQUENCE {
— Cell selection information as in SIB1
q-RxLevMin-r13 Q-RxLevMin,
q-RxLevMinOffset INTEGER (1..8) OPTIONAL, — Need OP
— Cell re-selection information as in SIB3
q-Hyst-r13 ENUMERATED {
dB0, dB1, dB2, dB3, dB4, dB5, dB6, dB8, dB10,
dB12, dB14, dB16, dB18, dB20, dB22, dB24},
q-RxLevMinReselection-r13 Q-RxLevMin,
t-ReselectionEUTRA-r13 T-Reselection
}
— ASN1STOP
– ConditionalReconfiguration
The IE ConditionalReconfiguration is used to add, modify or release the configuration of a conditional handover, conditional PSCell addition or inter-SN conditional PSCell change per target candidate cell.
ConditionalReconfiguration information element
— ASN1START
ConditionalReconfiguration-r16 ::= SEQUENCE {
condReconfigurationToAddModList-r16 CondReconfigurationToAddModList-r16 OPTIONAL, — Need ON
condReconfigurationToRemoveList-r16 CondReconfigurationToRemoveList-r16 OPTIONAL, — Need ON
attemptCondReconf-r16 ENUMERATED {true} OPTIONAL, — Cond CHO
…
}
CondReconfigurationToRemoveList-r16 ::= SEQUENCE (SIZE (1..maxCondConfig-r16)) OF CondReconfigurationId-r16
— ASN1STOP
|
ConditionalReconfiguration field descriptions |
|---|
|
attemptCondReconf If present, the UE shall perform conditional reconfiguration if selected cell is a target candidate cell and it is the first cell selection after failure as described in 5.3.7.3. |
|
condReconfigurationToAddModList List of conditional reconfigurations (i.e. conditional handover, conditional PSCell addition or inter-SN conditional PSCell change) to add and/or modify. |
|
condReconfigurationToRemoveList List of conditional reconfigurations (i.e. conditional handover, conditional PSCell addition or inter-SN conditional PSCell change) to remove. |
|
Conditional presence |
Explanation |
|---|---|
|
CHO |
The field is optional present, Need OR, if the UE is configured with at least a candidate cell for CHO. Otherwise the field is not present. |
– ConditionalReconfigurationId
The IE ConditionalReconfigurationId is used to identify a conditional reconfiguration (e.g. CHO, CPA or inter-SN CPC).
ConditionalReconfigurationId information element
— ASN1START
CondReconfigurationId-r16 ::= INTEGER (1.. maxCondConfig-r16)
— ASN1STOP
– CondReconfigurationToAddModList
The IE CondReconfigurationToAddModList concerns a list of conditional reconfigurations (i.e. conditional handover, conditional PSCell addition or inter-SN conditional PSCell change) to add or modify, for each entry the measId (associated to the triggering condition configuration) and the associated RRCConnectionReconfiguration.
CondReconfigurationToAddModList information element
— ASN1START
CondReconfigurationToAddModList-r16 ::= SEQUENCE (SIZE (1.. maxCondConfig-r16)) OF CondReconfigurationAddMod-r16
CondReconfigurationAddMod-r16 ::= SEQUENCE {
condReconfigurationId-r16 CondReconfigurationId-r16,
triggerCondition-r16 SEQUENCE (SIZE (1..2)) OF MeasId
OPTIONAL, — Need ON
condReconfigurationToApply-r16 OCTET STRING (CONTAINING RRCConnectionReconfiguration)
OPTIONAL,– Cond CondReconfigurationAdd
…,
[[
triggerConditionSN-r17 OCTET STRING OPTIONAL — Need ON
]]
}
— ASN1STOP
|
CondReconfigurationToAddMod field descriptions |
|---|
|
condReconfigurationToApply The RRCConnectionReconfiguration message to be applied when the condition(s) are fulfilled. |
|
triggerCondition The condition that needs to be fulfilled in order to trigger the execution of a conditional reconfiguration for CHO, CPA or MN initiated inter-SN CPC. When configuring two triggering events (MeasIds) for a candidate cell, the network ensures that both refer to the same measObject. For each condReconfigurationId, the network always configures either triggerCondition or triggerConditionSN (not both). |
|
triggerConditionSN Includes the NR CondReconfigExecCondSCG as specified in TS 38.331 [82]. For each condReconfigurationId, the network always configures either triggerCondition or triggerConditionSN (not both). The field is applied to the case of SN initiated inter-SN CPC. |
|
Conditional presence |
Explanation |
|---|---|
|
CondReconfigurationAdd |
The field is mandatory present if a condReconfigurationId is being added. Otherwise it is optional, need ON. |
– CSG-Identity
The IE CSG-Identity is used to identify a Closed Subscriber Group.
CSG-Identity information element
— ASN1START
CSG-Identity ::= BIT STRING (SIZE (27))
— ASN1STOP
– EphemerisOrbitalParameters
The IE EphemerisOrbitalParameters provides satellite ephemeris in format of orbital parameters in ECI.
EphemerisOrbitalParameters information element
— ASN1START
EphemerisOrbitalParameters-r17 ::= SEQUENCE {
semiMajorAxis-r17 INTEGER (0..8589934591),
eccentricity-r17 INTEGER (0..1048575),
periapsis-r17 INTEGER (0..268435455),
longitude-r17 INTEGER (0..268435455),
inclination-r17 INTEGER (-67108864..67108863),
anomaly-r17 INTEGER (0..268435455)
}
— ASN1STOP
|
EphemerisOrbitalParameters field descriptions |
|---|
|
anomaly Mean anomaly M at epoch time, see NIMA TR 8350.2 [110]. Unit in radian. Step of 2.341* 10-8 rad. Actual value = field value * (2.341* 10-8). |
|
eccentricity Eccentricity e, see NIMA TR 8350.2 [110]. Step 1.431 * 10-8. Actual value = field value * (1.431 * 10-8). |
|
inclination Inclination i, see NIMA TR 8350.2 [110]. Unit in radian. Step of 2.341* 10-8 rad. Actual value = field value * (2.341* 10-8). |
|
longitude Longitude of ascending node Ω, see NIMA TR 8350.2 [110]. Unit in radian. Step of 2.341* 10-8 rad. Actual value = field value * (2.341* 10-8). |
|
periapsis Argument of periapsis ω, see NIMA TR 8350.2 [110]. Unit in radian. Step of 2.341* 10-8 rad. Actual value = field value * (2.341* 10-8). |
|
semiMajorAxis Semi major axis α, see NIMA TR 8350.2 [110]. Unit in meter. Step of 4.249 * 10-3 m. Actual value = 6500000 + field value * (4.249 * 10-3). |
– EphemerisStateVectors
The IE EphemerisStateVectors provides satellite ephemeris in format of position and velocity state vectors in ECEF.
EphemerisStateVectors information element
— ASN1START
EphemerisStateVectors-r17 ::= SEQUENCE {
positionX-r17 PositionStateVector-r17,
positionY-r17 PositionStateVector-r17,
positionZ-r17 PositionStateVector-r17,
velocityVX-r17 VelocityStateVector-r17,
velocityVY-r17 VelocityStateVector-r17,
velocityVZ-r17 VelocityStateVector-r17
}
PositionStateVector-r17 ::= INTEGER (-33554432..33554431)
VelocityStateVector-r17 ::= INTEGER (-131072..131071)
— ASN1STOP
|
EphemerisStateVectors field descriptions |
|---|
|
positionX, positionY, positionZ X, Y, Z coordinate of satellite position state vector in ECEF. Unit in meter. Step of 1.3 m. Actual value = field value * 1.3. |
|
velocityVX, velocityVY, velocityVZ X, Y, Z coordinate of satellite velocity state vector in ECEF. Unit in meter/second. Step of 0.06 m/s. Actual value = field value * 0.06. |
– FreqBandIndicator
The IE FreqBandIndicator indicates the E-UTRA operating band as defined in TS 36.101 [42], table 5.5-1. If an extension is signalled using the extended value range (as defined by IE FreqBandIndicator-v9e0), the UE shall only consider this extension (and hence ignore the corresponding original field, using the value range as defined by IE FreqBandIndicator i.e. without suffix, if signalled).
FreqBandIndicator information element
— ASN1START
FreqBandIndicator ::= INTEGER (1..maxFBI)
FreqBandIndicator-v9e0 ::= INTEGER (maxFBI-Plus1..maxFBI2)
FreqBandIndicator-r11 ::= INTEGER (1..maxFBI2)
— ASN1STOP
NOTE: For fields using the original value range, as defined by IE FreqBandIndicator i.e. without suffix, value maxFBI indicates that the frequency band is indicated by means of an extension. In such a case, UEs not supporting the extension consider the field to be set to a not supported value.
– FreqBandIndicatorNR
The IE FreqBandIndicatorNR indicates the NR operating band as defined in TS 38.101 [85].
FreqBandIndicatorNR information element
— ASN1START
FreqBandIndicatorNR-r15 ::= INTEGER (1.. maxFBI-NR-r15)
— ASN1STOP
– MobilityControlInfo
The IE MobilityControlInfo includes parameters relevant for network controlled mobility to/within E‑UTRA.
MobilityControlInfo information element
— ASN1START
MobilityControlInfo ::= SEQUENCE {
targetPhysCellId PhysCellId,
carrierFreq CarrierFreqEUTRA OPTIONAL, — Cond HO-toEUTRA2
carrierBandwidth CarrierBandwidthEUTRA OPTIONAL, — Cond HO-toEUTRA
additionalSpectrumEmission AdditionalSpectrumEmission OPTIONAL, — Cond HO-toEUTRA
t304 ENUMERATED {
ms50, ms100, ms150, ms200, ms500, ms1000,
ms2000, ms10000-v1310},
newUE-Identity C-RNTI,
radioResourceConfigCommon RadioResourceConfigCommon,
rach-ConfigDedicated RACH-ConfigDedicated OPTIONAL, — Need OP
…,
[[ carrierFreq-v9e0 CarrierFreqEUTRA-v9e0 OPTIONAL — Need ON
]],
[[ drb-ContinueROHC-r11 ENUMERATED {true} OPTIONAL — Cond HO
]],
[[ mobilityControlInfoV2X-r14 MobilityControlInfoV2X-r14 OPTIONAL, — Need ON
handoverWithoutWT-Change-r14 ENUMERATED {keepLWA-Config, sendEndMarker} OPTIONAL, — Cond HO
makeBeforeBreak-r14 ENUMERATED {true} OPTIONAL, — Need OR
rach-Skip-r14 RACH-Skip-r14 OPTIONAL, — Need OR
sameSFN-Indication-r14 ENUMERATED {true} OPTIONAL — Cond HO-SFNsynced
]],
[[
mib-RepetitionStatus-r14 BOOLEAN OPTIONAL, — Need OR
schedulingInfoSIB1-BR-r14 INTEGER (0..31) OPTIONAL — Cond HO-SFNsynced
]],
[[ daps-Config-r16 DAPS-Config-r16 OPTIONAL — Cond NotFullConfigHO
]]
}
MobilityControlInfo-v10l0 ::= SEQUENCE {
additionalSpectrumEmission-v10l0 AdditionalSpectrumEmission-v10l0 OPTIONAL — Need ON
}
MobilityControlInfoSCG-r12 ::= SEQUENCE {
t307-r12 ENUMERATED {
ms50, ms100, ms150, ms200, ms500, ms1000,
ms2000, spare1},
ue-IdentitySCG-r12 C-RNTI OPTIONAL, — Cond SCGEst
rach-ConfigDedicated-r12 RACH-ConfigDedicated OPTIONAL, — Need OP
cipheringAlgorithmSCG-r12 CipheringAlgorithm-r12 OPTIONAL, — Need ON
…,
[[ makeBeforeBreakSCG-r14 ENUMERATED {true} OPTIONAL, — Need OR
rach-SkipSCG-r14 RACH-Skip-r14 OPTIONAL — Need OR
]]
}
MobilityControlInfoV2X-r14 ::= SEQUENCE {
v2x-CommTxPoolExceptional-r14 SL-CommResourcePoolV2X-r14 OPTIONAL, — Need OR
v2x-CommRxPool-r14 SL-CommRxPoolListV2X-r14 OPTIONAL, — Need OR
v2x-CommSyncConfig-r14 SL-SyncConfigListV2X-r14 OPTIONAL, — Need OR
cbr-MobilityTxConfigList-r14 SL-CBR-CommonTxConfigList-r14 OPTIONAL — Need OR
}
CarrierBandwidthEUTRA ::= SEQUENCE {
dl-Bandwidth ENUMERATED {
n6, n15, n25, n50, n75, n100, spare10,
spare9, spare8, spare7, spare6, spare5,
spare4, spare3, spare2, spare1},
ul-Bandwidth ENUMERATED {
n6, n15, n25, n50, n75, n100, spare10,
spare9, spare8, spare7, spare6, spare5,
spare4, spare3, spare2, spare1} OPTIONAL — Need OP
}
CarrierFreqEUTRA ::= SEQUENCE {
dl-CarrierFreq ARFCN-ValueEUTRA,
ul-CarrierFreq ARFCN-ValueEUTRA OPTIONAL — Cond FDD
}
CarrierFreqEUTRA-v9e0 ::= SEQUENCE {
dl-CarrierFreq-v9e0 ARFCN-ValueEUTRA-r9,
ul-CarrierFreq-v9e0 ARFCN-ValueEUTRA-r9 OPTIONAL — Cond FDD
}
DAPS-Config-r16 ::= SEQUENCE {
daps-PowerCoordinationInfo-r16 DAPS-PowerCoordinationInfo-r16 OPTIONAL, — Need ON
…
}
DAPS-PowerCoordinationInfo-r16 ::= SEQUENCE {
p-DAPS-Source-r16 INTEGER (1..16),
p-DAPS-Target-r16 INTEGER (1..16),
powerControlMode-r16 INTEGER (1..2)
}
RACH-Skip-r14 ::= SEQUENCE {
targetTA-r14 CHOICE {
ta0-r14 NULL,
mcg-PTAG-r14 NULL,
scg-PTAG-r14 NULL,
mcg-STAG-r14 STAG-Id-r11,
scg-STAG-r14 STAG-Id-r11
},
ul-ConfigInfo-r14 SEQUENCE {
numberOfConfUL-Processes-r14 INTEGER (1..8),
ul-SchedInterval-r14 ENUMERATED {sf2, sf5, sf10},
ul-StartSubframe-r14 INTEGER (0..9),
ul-Grant-r14 BIT STRING (SIZE (16))
} OPTIONAL — Need OR
}
— ASN1STOP
|
MobilityControlInfo field descriptions |
|---|
|
additionalSpectrumEmission For a UE with no SCells configured for UL in the same band as the PCell, the UE shall apply the value for the PCell instead of the corresponding value from SystemInformationBlockType2 or SystemInformationBlockType1. For a UE with SCell(s) configured for UL in the same band as the PCell, the UE shall, in case all SCells configured for UL in that band are released after handover completion, apply the value for the PCell instead of the corresponding value from SystemInformationBlockType2 or SystemInformationBlockType1. The UE requirements related to IE AdditionalSpectrumEmission are defined in TS 36.101 [42], table 6.2.4-1, for UEs neither in CE nor BL UEs and TS 36.101 [42], table 6.2.4E-1, for UEs in CE or BL UEs. |
|
carrierBandwidth Provides the parameters Downlink bandwidth, and Uplink bandwidth, see TS 36.101 [42]. |
|
carrierFreq Provides the EARFCN to be used by the UE in the target cell. |
|
cbr-MobilityTxConfigList Indicates the list of CBR ranges and the list of PSSCH transmission parameter configurations available to configure congestion control to the UE for V2X sidelink communication during handover. |
|
cipheringAlgorithmSCG Indicates the ciphering algorithm to be used for SCG DRBs. E-UTRAN includes the field upon SCG change when one or more SCG DRBs are configured. Otherwise E-UTRAN does not include the field. |
|
dl-Bandwidth Parameter: Downlink bandwidth, see TS 36.101 [42]. |
|
drb-ContinueROHC This field indicates whether to continue or reset, for this handover, the header compression protocol context for the RLC UM bearers configured with the header compression protocol. Presence of the field indicates that the header compression protocol context continues while absence indicates that the header compression protocol context is reset. E-UTRAN includes the field only in case of a handover within the same eNB. This field does not apply to any configured DAPS bearers. |
|
handoverWithoutWT-Change Indicates whether UE performs handover where LWA configuration is retained with the same WT If sendEndMarker is configured, the LWA end-marker for PDCP key change indication is used as defined in [8]. If value keepLWA-Config is configured, LWA end marker is not used and UE shall only retain the LWA configuration. |
|
makeBeforeBreak Indicates that the UE shall continue uplink transmission/ downlink reception with the source cell(s) before performing the first transmission through PRACH to the target intra-frequency PCell, or performing initial PUSCH transmission to the target intra-frequency PCell while rach-Skip is configured. |
|
makeBeforeBreakSCG Indicates that the UE shall continue uplink transmission/ downlink reception with the source cell(s) before performing the first transmission through PRACH to the target intra-frequency PSCell, or performing initial PUSCH transmission to the target intra-frequency PSCell while rach-SkipSCG is configured. |
|
mib-RepetitionStatus Indicates whether additional MIB repetition is enabled in the target cell or not. Value TRUE indicates additional MIB repetition is enabled in the target cell. Value FALSE indicates additional MIB repetition is not enabled in the target cell. The absence of this field indicates additional MIB repetition may or may not be enabled in the target cell. See 5.2.1.2 and TS 36.211 [21], clause 6.4.1. This field is applicable to BL UE or UE in CE. |
|
mobilityControlInfoV2X Indicates the sidelink configurations of the target cell for V2X sidelink communication during handover. |
|
numberOfConfUL-Processes The number of configured HARQ processes for preallocated uplink grant, see TS 36.321 [6], clause 5.20. This field is applicable if a UE is configured with asynchronous HARQ, otherwise it shall be ignored. |
|
p-DAPS-Source Indicates the guaranteed power for the source PCell during a DAPS handover, as specified in TS 36.213 [23]. The value N corresponds to N-1 in TS 36.213 [23]. |
|
p-DAPS-Target Indicates the guaranteed power for the target PCell during a DAPS handover as specified in TS 36.213 [23], Table 5.1.4.2-1. The value N corresponds to N-1 in TS 36.213 [23]. |
|
powerControlMode Indicates the power control mode used in during a DAPS handover. Value 1 corresponds to DC power control mode 1 and value 2 indicates DC power control mode 2, as specified in TS 36.213 [23]. |
|
rach-ConfigDedicated The dedicated random access parameters. If absent the UE applies contention based random access as specified in TS 36.321 [6]. |
|
rach-Skip This field indicates whether random access procedure for the target PCell is skipped. |
|
rach-SkipSCG This field indicates whether random access procedure for the target PSCell is skipped. |
|
sameSFN-Indication This field indicates that the target cell has the same SFN as the source cell and that the BL UE or UE in CE is not required to acquire MasterInformationBlock in the target PCell during handover to obtain the SFN of the target cell, as specified in clause 5.3.5.4. |
|
schedulingInfoSIB1-BR Indicates the index to the tables that define SystemInformationBlockType1-BR scheduling information. The tables are specified in TS 36.213 [23], Table 7.1.6-1 and Table 7.1.7.2.7-1. Value 0 means SystemInformationBlockType1-BR is not scheduled. If absent when sameSFN-Indication is present, UE assumes that SystemInformationBlockType1-BR scheduling information in target cell may be different from source cell. |
|
t304 Timer T304 as described in clause 7.3. ms50 corresponds with 50 ms, ms100 corresponds with 100 ms and so on. EUTRAN includes extended value ms10000-v1310 only when UE supports CE. |
|
t307 Timer T307 as described in clause 7.3. ms50 corresponds with 50 ms, ms100 corresponds with 100 ms and so on. |
|
targetTA This field refers to the timing adjustment indication, see TS 36.213 [23], indicating the NTA value which the UE shall use for the target PTAG of handover or the target PSTAG of SCG change. ta0 corresponds to NTA=0. mcg-PTAG corresponds to the latest NTA value of the PTAG associated with MCG. scg-PTAG corresponds to the latest NTA value of the PTAG associated with SCG. mcg-STAG corresponds to the latest NTA value of a MCG STAG indicated by the STAG-Id. scg-STAG corresponds to the latest NTA value of a SCG STAG indicated by the STAG-Id. |
|
ul-Bandwidth Parameter: Uplink bandwidth, see TS 36.101 [42], table 5.6-1. For TDD, the parameter is absent and it is equal to downlink bandwidth. If absent for FDD, apply the same value as applies for the downlink bandwidth. |
|
ul-Grant Indicates the resources of the target PCell/PSCell to be used for the uplink transmission of PUSCH [23], clause 8.8. |
|
ul-SchedInterval Indicates the scheduling interval in uplink, see TS 36.321 [6], clause 5.20. Value in number of sub-frames. Value sf2 corresponds to 2 subframes, sf5 corresponds to 5 subframes and so on. |
|
ul-StartSubframe Indicates the subframe in which the UE may initiate the uplink transmission, see TS 36.321 [6], clause 5.20. Value 0 corresponds to subframe number 0, 1 correponds to subframe number 1 and so on. The subframe indicating a valid uplink grant according to the calculation of UL grant configured by ul-StartSubframe and ul-SchedInterval, see TS 36.321 [6], clause 5.20, is the same across all radio frames. |
|
v2x-CommRxPool Indicates reception pools for receiving V2X sidelink communication during handover. |
|
v2x-CommSyncConfig Indicates synchronization configurations for performing V2X sidelink communication during handover. |
|
v2x-CommTxPoolExceptional Indicates the transmission resources by which the UE is allowed to transmit V2X sidelink communication during handover. |
|
Conditional presence |
Explanation |
|---|---|
|
FDD |
The field is mandatory with default value (the default duplex distance defined for the concerned band, as specified in TS 36.101 [42]) in case of "FDD"; otherwise the field is not present. |
|
HO |
This field is optionally present, need OP, in case of handover within E-UTRA when the fullConfig is not included; otherwise the field is not present. |
|
HO-SFNsynced |
This field is optionally present, need OP, in case of source E-UTRA and target E-UTRA cells are SFN synchronised. |
|
HO-toEUTRA |
The field is mandatory present in case of inter-RAT handover to E-UTRA; otherwise the field is optionally present, need ON. |
|
HO-toEUTRA2 |
The field is absent if carrierFreq-v9e0 is present. Otherwise it is mandatory present in case of inter-RAT handover to E-UTRA and optionally present, need ON, in all other cases. |
|
NotFullConfigHO |
This field is optionally present, Need OR, in case of handover within E-UTRA when the fullConfig is not included in the RRCConnectionReconfiguration message. Otherwise the field is not present. |
|
SCGEst |
This field is mandatory present in case of SCG establishment; otherwise the field is optionally present, need ON. |
– MobilityParametersCDMA2000 (1xRTT)
The MobilityParametersCDMA2000 contains the parameters provided to the UE for handover and (enhanced) CSFB to 1xRTT support, as defined in C.S0097 [53].
MobilityParametersCDMA2000 information element
— ASN1START
MobilityParametersCDMA2000 ::= OCTET STRING
— ASN1STOP
– MobilityStateParameters
The IE MobilityStateParameters contains parameters to determine UE mobility state.
MobilityStateParameters information element
— ASN1START
MobilityStateParameters ::= SEQUENCE {
t-Evaluation ENUMERATED {
s30, s60, s120, s180, s240, spare3, spare2, spare1},
t-HystNormal ENUMERATED {
s30, s60, s120, s180, s240, spare3, spare2, spare1},
n-CellChangeMedium INTEGER (1..16),
n-CellChangeHigh INTEGER (1..16)
}
— ASN1STOP
|
MobilityStateParameters field descriptions |
|---|
|
n-CellChangeHigh The number of cell changes to enter high mobility state. Corresponds to NCR_H in TS 36.304 [4]. |
|
n-CellChangeMedium The number of cell changes to enter medium mobility state. Corresponds to NCR_M in TS 36.304 [4]. |
|
t-Evaluation The duration for evaluating criteria to enter mobility states. Corresponds to TCRmax in TS 36.304 [4]. Value in seconds, s30 corresponds to 30 s and so on. |
|
t-HystNormal The additional duration for evaluating criteria to enter normal mobility state. Corresponds to TCRmaxHyst in TS 36.304 [4]. Value in seconds, s30 corresponds to 30 s and so on. |
– MultiBandInfoList
MultiBandInfoList information element
— ASN1START
MultiBandInfoList ::= SEQUENCE (SIZE (1..maxMultiBands)) OF FreqBandIndicator
MultiBandInfoList-v9e0 ::= SEQUENCE (SIZE (1..maxMultiBands)) OF MultiBandInfo-v9e0
MultiBandInfoList-v10j0 ::= SEQUENCE (SIZE (1..maxMultiBands)) OF NS-PmaxList-r10
MultiBandInfoList-v10l0 ::= SEQUENCE (SIZE (1..maxMultiBands)) OF NS-PmaxList-v10l0
MultiBandInfoList-r11 ::= SEQUENCE (SIZE (1..maxMultiBands)) OF FreqBandIndicator-r11
MultiBandInfo-v9e0 ::= SEQUENCE {
freqBandIndicator-v9e0 FreqBandIndicator-v9e0 OPTIONAL — Need OP
}
— ASN1STOP
– MultiFrequencyBandListNR
The IE MultiFrequencyBandListNR is used to configure a list of one or multiple NR frequency bands.
MultiFrequencyBandListNR information element
— ASN1START
MultiFrequencyBandListNR-r15 ::= SEQUENCE (SIZE (1.. maxMultiBandsNR-r15)) OF FreqBandIndicatorNR-r15
— ASN1STOP
– NS-PmaxList
The IE NS-PmaxList concerns a list of additionalPmax and additionalSpectrumEmission, as defined in TS 36.101 [42], table 6.2.4-1, for UEs neither in CE nor BL UEs and TS 36.101 [42], table 6.2.4E-1, for UEs in CE or BL UEs, for a given frequency band. E-UTRAN does not include the same value of additionalSpectrumEmission in SystemInformationBlockType2 within this list.
NS-PmaxList information element
— ASN1START
NS-PmaxList-r10 ::= SEQUENCE (SIZE (1..maxNS-Pmax-r10)) OF NS-PmaxValue-r10
NS-PmaxList-v10l0 ::= SEQUENCE (SIZE (1..maxNS-Pmax-r10)) OF NS-PmaxValue-v10l0
NS-PmaxValue-r10 ::= SEQUENCE {
additionalPmax-r10 P-Max OPTIONAL, — Need OP
additionalSpectrumEmission AdditionalSpectrumEmission
}
NS-PmaxValue-v10l0 ::= SEQUENCE {
additionalSpectrumEmission-v10l0 AdditionalSpectrumEmission-v10l0 OPTIONAL — Need OP
}
— ASN1STOP
– NS-PmaxListNR
The IE NS-PmaxListNR concerns a list of additionalPmax and additionalSpectrumEmission, as defined in TS 38.101 [85], table 6.2.3-1 for a given frequency band.
NS-PmaxListNR information element
— ASN1START
NS-PmaxListNR-r15 ::= SEQUENCE (SIZE (1..8)) OF NS-PmaxValueNR-r15
NS-PmaxValueNR-r15 ::= SEQUENCE {
additionalPmaxNR-r15 P-MaxNR-r15 OPTIONAL, — Need ON
additionalSpectrumEmissionNR-r15 AdditionalSpectrumEmissionNR-r15
}
— ASN1STOP
– PhysCellId
The IE PhysCellId is used to indicate the physical layer identity of the cell, as defined in TS 36.211 [21].
PhysCellId information element
— ASN1START
PhysCellId ::= INTEGER (0..503)
— ASN1STOP
– PhysCellIdCDMA2000
The IE PhysCellIdCDMA2000 identifies the PNOffset that represents the "Physical cell identity" in CDMA2000.
PhysCellIdCDMA2000 information element
— ASN1START
PhysCellIdCDMA2000 ::= INTEGER (0..maxPNOffset)
— ASN1STOP
– PhysCellIdGERAN
The IE PhysCellIdGERAN contains the Base Station Identity Code (BSIC).
PhysCellIdGERAN information element
— ASN1START
PhysCellIdGERAN ::= SEQUENCE {
networkColourCode BIT STRING (SIZE (3)),
baseStationColourCode BIT STRING (SIZE (3))
}
— ASN1STOP
|
PhysCellIdGERAN field descriptions |
|---|
|
baseStationColourCode Base station Colour Code as defined in TS 23.003 [27]. |
|
networkColourCode Network Colour Code as defined in TS 23.003 [27]. |
– PhysCellIdNR
The IE PhysCellIdNR indicates the physical layer identity (PCI) of an NR cell.
PhysCellIdNR information element
— ASN1START
PhysCellIdNR-r15 ::= INTEGER (0.. 1007)
— ASN1STOP
– PhysCellIdRange
The IE PhysCellIdRange is used to encode either a single or a range of physical cell identities. The range is encoded by using a start value and by indicating the number of consecutive physical cell identities (including start) in the range. For fields comprising multiple occurrences of PhysCellIdRange, E-UTRAN may configure overlapping ranges of physical cell identities.
PhysCellIdRange information element
— ASN1START
PhysCellIdRange ::= SEQUENCE {
start PhysCellId,
range ENUMERATED {
n4, n8, n12, n16, n24, n32, n48, n64, n84,
n96, n128, n168, n252, n504, spare2,
spare1} OPTIONAL — Need OP
}
— ASN1STOP
|
PhysCellIdRange field descriptions |
|---|
|
range Indicates the number of physical cell identities in the range (including start). Value n4 corresponds with 4, n8 corresponds with 8 and so on. The UE shall apply value 1 in case the field is absent, in which case only the physical cell identity value indicated by start applies. |
|
start Indicates the lowest physical cell identity in the range. |
– PhysCellIdRangeNR
The IE PhysCellIdRangeNR is used to encode either a single or a range of physical layer identities of NR cells. The range is encoded by using a start value and by indicating the number of consecutive physical layer identities (including start) in the range. For fields comprising multiple occurrences of PhysCellIdRangeNR, E-UTRAN may configure overlapping ranges of physical layer identities.
PhysCellIdRangeNR information element
— ASN1START
PhysCellIdRangeNR-r16 ::= SEQUENCE {
start PhysCellIdNR-r15,
range ENUMERATED {
n4, n8, n12, n16, n24, n32, n48, n64, n84,
n96, n128, n168, n252, n504, n1008,
spare1} OPTIONAL — Need OP
}
— ASN1STOP
|
PhysCellIdRangeNR field descriptions |
|---|
|
range Indicates the number of physical layer identities in the range (including start). Value n4 corresponds with 4, n8 corresponds with 8 and so on. The UE shall apply value 1 in case the field is absent, in which case only the physical layer identity value indicated by start applies. |
|
start Indicates the lowest physical layer identity in the range. |
– PhysCellIdRangeUTRA-FDDList
The IE PhysCellIdRangeUTRA-FDDList is used to encode one or more of PhysCellIdRangeUTRA-FDD. While the IE PhysCellIdRangeUTRA-FDD is used to encode either a single physical layer identity or a range of physical layer identities, i.e. primary scrambling codes. Each range is encoded by using a start value and by indicating the number of consecutive physical cell identities (including start) in the range.
PhysCellIdRangeUTRA-FDDList information element
— ASN1START
PhysCellIdRangeUTRA-FDDList-r9::= SEQUENCE (SIZE (1..maxPhysCellIdRange-r9)) OF PhysCellIdRangeUTRA-FDD-r9
PhysCellIdRangeUTRA-FDD-r9 ::= SEQUENCE {
start-r9 PhysCellIdUTRA-FDD,
range-r9 INTEGER (2..512) OPTIONAL — Need OP
}
— ASN1STOP
|
PhysCellIdRangeUTRA-FDDList field descriptions |
|---|
|
range Indicates the number of primary scrambling codes in the range (including start). The UE shall apply value 1 in case the field is absent, in which case only the primary scrambling code value indicated by start applies. |
|
start Indicates the lowest primary scrambling code in the range. |
– PhysCellIdUTRA-FDD
The IE PhysCellIdUTRA-FDD is used to indicate the physical layer identity of the cell, i.e. the primary scrambling code, as defined in TS 25.331 [19].
PhysCellIdUTRA-FDD information element
— ASN1START
PhysCellIdUTRA-FDD ::= INTEGER (0..511)
— ASN1STOP
– PhysCellIdUTRA-TDD
The IE PhysCellIdUTRA-TDD is used to indicate the physical layer identity of the cell, i.e. the cell parameters ID (TDD), as specified in TS 25.331 [19]. Also corresponds to the Initial Cell Parameter Assignment in TS 25.223 [46].
PhysCellIdUTRA-TDD information element
— ASN1START
PhysCellIdUTRA-TDD ::= INTEGER (0..127)
— ASN1STOP
– PLMN-Identity
The IE PLMN-Identity identifies a Public Land Mobile Network. Further information regarding how to set the IE are specified in TS 23.003 [27].
PLMN-Identity information element
— ASN1START
PLMN-Identity ::= SEQUENCE {
mcc MCC OPTIONAL, — Cond MCC
mnc MNC
}
MCC ::= SEQUENCE (SIZE (3)) OF
MCC-MNC-Digit
MNC ::= SEQUENCE (SIZE (2..3)) OF
MCC-MNC-Digit
MCC-MNC-Digit ::= INTEGER (0..9)
— ASN1STOP
|
PLMN-Identity field descriptions |
|---|
|
mcc The first element contains the first MCC digit, the second element the second MCC digit and so on. If the field is absent, it takes the same value as the mcc of the immediately preceding IE PLMN-Identity. See TS 23.003 [27]. |
|
mnc The first element contains the first MNC digit, the second element the second MNC digit and so on. See TS 23.003 [27]. |
|
Conditional presence |
Explanation |
|---|---|
|
MCC |
This IE is mandatory when PLMN-Identity is included in CellGlobalIdEUTRA, in CellGlobalIdUTRA, in CellGlobalIdGERAN or in RegisteredMME. This IE is also mandatory in the first occurrence of the IE PLMN-Identity within the IE PLMN-IdentityList. Otherwise it is optional, need OP. |
– PLMN-IdentityList3
Includes a list of PLMN identities.
PLMN-IdentityList3 information element
— ASN1START
PLMN-IdentityList3-r11 ::= SEQUENCE (SIZE (1..16)) OF PLMN-Identity
— ASN1STOP
– PmaxNR
The IE PmaxNR concerns a list of additionalPmax and additionalSpectrumEmission, as defined in TS 38.101 [85], table 6.2.3-1 for a given frequency band.
PmaxNR information element
— ASN1START
P-MaxNR-r15 ::= INTEGER (-30..33)
— ASN1STOP
– PreRegistrationInfoHRPD
— ASN1START
PreRegistrationInfoHRPD ::= SEQUENCE {
preRegistrationAllowed BOOLEAN,
preRegistrationZoneId PreRegistrationZoneIdHRPD OPTIONAL, — cond PreRegAllowed
secondaryPreRegistrationZoneIdList SecondaryPreRegistrationZoneIdListHRPD OPTIONAL — Need OR
}
SecondaryPreRegistrationZoneIdListHRPD ::= SEQUENCE (SIZE (1..2)) OF PreRegistrationZoneIdHRPD
PreRegistrationZoneIdHRPD ::= INTEGER (0..255)
— ASN1STOP
|
PreRegistrationInfoHRPD field descriptions |
|---|
|
preRegistrationAllowed TRUE indicates that a UE shall perform a CDMA2000 HRPD pre-registration if the UE does not have a valid / current pre-registration. FALSE indicates that the UE is not allowed to perform CDMA2000 HRPD pre-registration in the current cell. |
|
preRegistrationZoneID ColorCode (see C.S0024 [26], C.S0087 [44]) of the CDMA2000 Reference Cell corresponding to the HRPD sector under the HRPD AN that is configured for this LTE cell. It is used to control when the UE should register or re-register. |
|
secondaryPreRegistrationZoneIdList List of SecondaryColorCodes (see C.S0024 [26], C.S0087 [44]) of the CDMA2000 Reference Cell corresponding to the HRPD sector under the HRPD AN that is configured for this LTE cell. They are used to control when the UE should re-register. |
|
Conditional presence |
Explanation |
|---|---|
|
PreRegAllowed |
The field is mandatory in case the preRegistrationAllowed is set to true. Otherwise the field is not present and the UE shall delete any existing value for this field. |
– Q-QualMin
The IE Q-QualMin is used to indicate for cell selection/ re-selection the required minimum received RSRQ level in the (E-UTRA) cell. Corresponds to parameter Qqualmin in TS 36.304 [4]. Actual value Qqualmin = field value [dB].
Q-QualMin information element
— ASN1START
Q-QualMin-r9 ::= INTEGER (-34..-3)
— ASN1STOP
– Q-RxLevMin
The IE Q-RxLevMin is used to indicate for cell selection/ re-selection the required minimum received RSRP level in the (E-UTRA) cell. Corresponds to parameter Qrxlevmin in TS 36.304 [4]. Actual value Qrxlevmin = field value * 2 [dBm].
Q-RxLevMin information element
— ASN1START
Q-RxLevMin ::= INTEGER (-70..-22)
— ASN1STOP
– Q-OffsetRange
The IE Q-OffsetRange is used to indicate a cell, CSI-RS resource or frequency specific offset to be applied when evaluating candidates for cell re-selection or when evaluating triggering conditions for measurement reporting. The value in dB. Value dB-24 corresponds to -24 dB, dB-22 corresponds to -22 dB and so on.
Q-OffsetRange information element
— ASN1START
Q-OffsetRange ::= ENUMERATED {
dB-24, dB-22, dB-20, dB-18, dB-16, dB-14,
dB-12, dB-10, dB-8, dB-6, dB-5, dB-4, dB-3,
dB-2, dB-1, dB0, dB1, dB2, dB3, dB4, dB5,
dB6, dB8, dB10, dB12, dB14, dB16, dB18,
dB20, dB22, dB24}
— ASN1STOP
– Q-OffsetRangeInterRAT
The IE Q-OffsetRangeInterRAT is used to indicate a frequency specific offset to be applied when evaluating triggering conditions for measurement reporting. The value in dB.
Q-OffsetRangeInterRAT information element
— ASN1START
Q-OffsetRangeInterRAT ::= INTEGER (-15..15)
— ASN1STOP
– ReselectionThreshold
The IE ReselectionThreshold is used to indicate an Rx level threshold for cell reselection. Actual value of threshold = field value * 2 [dB].
ReselectionThreshold information element
— ASN1START
ReselectionThreshold ::= INTEGER (0..31)
— ASN1STOP
– ReselectionThresholdQ
The IE ReselectionThresholdQ is used to indicate a quality level threshold for cell reselection. Actual value of threshold = field value [dB].
ReselectionThresholdQ information element
— ASN1START
ReselectionThresholdQ-r9 ::= INTEGER (0..31)
— ASN1STOP
– RSS-ConfigCarrierInfo
The IE RSS-ConfigCarrierInfo contains RSS configuration for a carrier.
RSS-ConfigCarrierInfo information element
— ASN1START
RSS-ConfigCarrierInfo-r16 ::= SEQUENCE {
narrowbandIndex-r16 BIT STRING (SIZE (1..maxAvailNarrowBands-1-r16)),
timeOffsetGranularity-r16 ENUMERATED {g1, g2, g4, g8, g16, g32, g64, g128}
}
— ASN1STOP
|
RSS-ConfigCarrierInfo field descriptions |
|---|
|
narrowbandIndex Bitmap containing narrowbands used for RSS deployment in the carrier. Narrowbands including central 6 PRBs are excluded from the bitmap. The RSS Cell Frequency Location of a specific cell is determined according to IRSS = PCID MOD (3NNB) where IRSS is the index of possible RSS frequency locations starting with the lowest location and NNB is the number of narrowbands, determined from narrowbandIndex, such that there are three non-overlapping RSS locations in each narrowband. |
|
timeOffsetGranularity RSS Time Offset granularity (GRSS). Value g1 corresponds to 1 frame, value g2 corresponds to 2 frames, and so on. Only the following values of GRSS are applicable depending on the serving cell RSS periodicity (PRSS) given by parameter periodicity in ce-RSS-Config-r15: GRSS = {1, 2, 4, 8, 16} frames for PRSS = 160 ms GRSS = {1, 2, 4, 8, 16, 32} frames for PRSS = 320 ms GRSS = {2, 4, 8, 16, 32, 64} frames for PRSS = 640 ms GRSS = {4, 8, 16, 32, 64, 128} frames for PRSS = 1280 ms. The actual RSS time offset of a specific cell (ORSS, see TS 36.211 [21] clause 6.11.3.2) in SFN radio frames is given by (XRSS × GRSS) + ΔRSS where: – RSS Time Offset of a specific cell (XRSS) is determined based on its PCID using XRSS = FLOOR (PCID/(3 NNB)) modulo MRSS, and distributed across MRSS time locations per PRSS such that MRSS = PRSS /(10 × GRSS); and – ΔRSS is calculated by using the serving cell XRSS (i.e., based on serving cell PCID and parameters given in ce-RSS-Config-r15) such that serving cell ORSS = (XRSS × GRSS) + ΔRSS. |
– RSS-MeasPowerBias
The IE RSS-MeasPowerBias indicates power bias in dB relative to Qoffset of neighbour cell CRS. Value dB-6 corresponds to -6 dB, value dB-3 corresponds to -3 dB and so on. Value rssNotUsed indicates measurement based on RSS is not applicable for the corresponding neighbour cell.
RSS-MeasPowerBias information element
— ASN1START
RSS-MeasPowerBias-r16 ::= ENUMERATED {dB-6, dB-3, dB0, dB3, dB6, dB9, dB12, rssNotUsed}
— ASN1STOP
– SCellIndex
The IE SCellIndex concerns a short identity, used to identify an SCell.
SCellIndex information element
— ASN1START
SCellIndex-r10 ::= INTEGER (1..7)
SCellIndex-r13 ::= INTEGER (1..31)
— ASN1STOP
– ServCellIndex
The IE ServCellIndex concerns a short identity, used to identify a serving cell (i.e. the PCell or an SCell). Value 0 applies for the PCell, while the SCellIndex that has previously been assigned applies for SCells.
ServCellIndex information element
— ASN1START
ServCellIndex-r10 ::= INTEGER (0..7)
ServCellIndex-r13 ::= INTEGER (0..31)
— ASN1STOP
– SpeedStateScaleFactors
The IE SpeedStateScaleFactors concerns factors, to be applied when the UE is in medium or high speed state, used for scaling a mobility control related parameter.
SpeedStateScaleFactors information element
— ASN1START
SpeedStateScaleFactors ::= SEQUENCE {
sf-Medium ENUMERATED {oDot25, oDot5, oDot75, lDot0},
sf-High ENUMERATED {oDot25, oDot5, oDot75, lDot0}
}
— ASN1STOP
|
SpeedStateScaleFactors field descriptions |
|---|
|
sf-High The concerned mobility control related parameter is multiplied with this factor if the UE is in High Mobility state as defined in TS 36.304 [4]. Value oDot25 corresponds to 0.25, oDot5 corresponds to 0.5, oDot75 corresponds to 0.75 and so on. |
|
sf-Medium The concerned mobility control related parameter is multiplied with this factor if the UE is in Medium Mobility state as defined in TS 36.304 [4]. Value oDot25 corresponds to 0.25, oDot5 corresponds to 0.5, oDot75 corresponds to 0.75 and so on. |
– SystemInfoListGERAN
The IE SystemInfoListGERAN contains system information of a GERAN cell.
SystemInfoListGERAN information element
— ASN1START
SystemInfoListGERAN ::= SEQUENCE (SIZE (1..maxGERAN-SI)) OF
OCTET STRING (SIZE (1..23))
— ASN1STOP
|
SystemInfoListGERAN field descriptions |
|---|
|
SystemInfoListGERAN Each OCTET STRING contains one System Information (SI) message as defined in TS 44.018 [45], table 9.1.1, excluding the L2 Pseudo Length, the RR management Protocol Discriminator and the Skip Indicator or a complete Packet System Information (PSI) message as defined in TS 44.060 [36], table 11.2.1. |
– SystemTimeInfoCDMA2000
The IE SystemTimeInfoCDMA2000 informs the UE about the absolute time in the current cell. The UE uses this absolute time knowledge to derive the CDMA2000 Physical cell identity, expressed as PNOffset, of neighbour CDMA2000 cells.
NOTE: The UE needs the CDMA2000 system time with a certain level of accuracy for performing measurements as well as for communicating with the CDMA2000 network (HRPD or 1xRTT).
SystemTimeInfoCDMA2000 information element
— ASN1START
SystemTimeInfoCDMA2000 ::= SEQUENCE {
cdma-EUTRA-Synchronisation BOOLEAN,
cdma-SystemTime CHOICE {
synchronousSystemTime BIT STRING (SIZE (39)),
asynchronousSystemTime BIT STRING (SIZE (49))
}
}
— ASN1STOP
|
SystemTimeInfoCDMA2000 field descriptions |
|---|
|
asynchronousSystemTime The CDMA2000 system time corresponding to the SFN boundary at or after the ending boundary of the SI-Window in which SystemInformationBlockType8 is transmitted. E-UTRAN includes this field if the E-UTRA frame boundary is not aligned to the start of CDMA2000 system time. This field size is 49 bits and the unit is 8 CDMA chips based on 1.2288 Mcps. |
|
cdma-EUTRA-Synchronisation TRUE indicates that there is no drift in the timing between E‑UTRA and CDMA2000. FALSE indicates that the timing between E-UTRA and CDMA2000 can drift. NOTE 1 |
|
synchronousSystemTime CDMA2000 system time corresponding to the SFN boundary at or after the ending boundary of the SI-window in which SystemInformationBlockType8 is transmitted. E-UTRAN includes this field if the E-UTRA frame boundary is aligned to the start of CDMA2000 system time. This field size is 39 bits and the unit is 10 ms based on a 1.2288 Mcps chip rate. |
NOTE 1: The following table shows the recommended combinations of the cdma-EUTRA-Synchronisation field and the choice of cdma-SystemTime included by E-UTRAN for FDD and TDD:
|
FDD/TDD |
cdma-EUTRA-Synchronisation |
synchronousSystemTime |
asynchronousSystemTime |
|
FDD |
FALSE |
Not Recommended |
Recommended |
|
FDD |
TRUE |
Recommended |
Recommended |
|
TDD |
FALSE |
Not Recommended |
Recommended |
|
TDD |
TRUE |
Recommended |
Recommended |
– ThresholdNR
The IE ThresholdNR and IE ThresholdListNR contain thresholds for NR related inter-RAT measurements.
ThresholdNR information element
— ASN1START
ThresholdNR-r15 ::= CHOICE{
nr-RSRP-r15 RSRP-RangeNR-r15,
nr-RSRQ-r15 RSRQ-RangeNR-r15,
nr-SINR-r15 RS-SINR-RangeNR-r15
}
ThresholdListNR-r15 ::= SEQUENCE{
nr-RSRP-r15 RSRP-RangeNR-r15 OPTIONAL, — Need OR
nr-RSRQ-r15 RSRQ-RangeNR-r15 OPTIONAL, — Need OR
nr-SINR-r15 RS-SINR-RangeNR-r15 OPTIONAL — Need OR
}
— ASN1STOP
– TLE-EphemerisParameters
The IE TLE-EphemerisParameters provides satellite ephemeris parameters based on the CCSDS orbit mean-elements message (OMM) format, see [111]. The reference frame for SGP4 propagator and SGP4 parameter generation is TEME as per the NORAD Space Track standard.
TLE-EphemerisParameters information element
— ASN1START
TLE-EphemerisParameters-r17 ::= SEQUENCE {
inclination-r17 INTEGER (0..2097151),
argumentPerigee-r17 INTEGER (0..4194303),
rightAscension-r17 INTEGER (0..4194303),
meanAnomaly-r17 INTEGER (0..4194303),
eccentricity-r17 INTEGER (0..16777215),
meanMotion-r17 INTEGER (0..17179869183),
bStarDecimal-r17 INTEGER (-99999..99999),
bStarExponent-r17 INTEGER (-9..9),
epochStar-r17 INTEGER (-1048575..1048575)
}
— ASN1STOP
|
TLE-EphemerisParameters field descriptions |
|---|
|
argumentPerigee Argument of perigee, see [111] Table 4-3: OMM Data. Unit in degree. Step of 360 / 4194303 degree. Actual value = field value * (360 / 4194303). |
|
bStarDecimal Decimal part of B*, see [111] Table 4-3: OMM Data. Unit in inverse Earth radii. Step of 0.00001 . Actual value = field value * 0.00001. |
|
bStarExponent Exponent part of B*, see [111] Table 4-3: OMM Data. |
|
eccentricity Eccentricity, see [111] Table 4-3: OMM Data. Step of 0.9999999 / 16777215. Actual value = field value * (0.9999999 / 16777215). |
|
epochStar Time offset to the beginning of the current week (Monday 00:00:00 UTC) of the Epoch. Unit in second. |
|
inclination Inclination, see [111] Table 4-3: OMM Data. Unit in degree. Step of 180 / 2097151 degree. Actual value = field value * (180 / 2097151). |
|
meanAnomaly Mean anomaly at epoch time, see [111] Table 4-3: OMM Data. Unit in degree. Step of 360 / 4194303 degree. Actual value = field value * (360 / 4194303). |
|
meanMotion Mean motion at epoch time, see [111] Table 4-3: OMM Data]. Unit in revolution/day. Step of 99.99999999 / 17179869183 rev/day. Actual value = field value * (99.99999999 / 17179869183). |
|
rightAscension Right ascension of ascending node, see [111] Table 4-3: OMM Data. Unit in degree. Step of 360 / 4194303 degree. Actual value = field value * (360 / 4194303). |
– TrackingAreaCode
The IE TrackingAreaCode is used to identify a tracking area within the scope of a PLMN, see TS 24.301 [35].
TrackingAreaCode information element
— ASN1START
TrackingAreaCode ::= BIT STRING (SIZE (16))
TrackingAreaCode-5GC-r15 ::= BIT STRING (SIZE (24))
— ASN1STOP
– T-Reselection
The IE T-Reselection concerns the cell reselection timer TreselectionRAT for E-UTRA, UTRA, GERAN or CDMA2000. Value in seconds. For value 0, behaviour as specified in 7.3.2 applies.
T-Reselection information element
— ASN1START
T-Reselection ::= INTEGER (0..7)
— ASN1STOP
– T-ReselectionEUTRA-CE
The IE T-ReselectionEUTRA-CE concerns the cell reselection timer TreselectionEUTRA_CE as specified in TS 36.304 [4]. Value in seconds. For value 0, behaviour as specified in 7.3.2 applies.
T-ReselectionEUTRA-CE information element
— ASN1START
T-ReselectionEUTRA-CE-r13 ::= INTEGER (0..15)
— ASN1STOP