8.6.7 Inter-RAT Logged Handover Failure

36.523-13GPPEvolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Packet Core (EPC)Part 1: Protocol conformance specificationRelease 17TSUser Equipment (UE) conformance specification

8.6.7.1 Handover Failure logging / Reporting of UTRAN Inter-RAT measurements

8.6.7.1.1 Test Purpose (TP)

(1)

with { UE in RRC_CONNECTED having performed the UTRA measurement and reported that the UE has handover failure information available }

ensure that {
when { UE receives the UEInformationRequest message containing rlf-ReportReq }

then { UE sends the UEInformationResponse message containing the measurement result for UTRA neighbour cell }

}

8.6.7.1.2 Conformance requirements

References: The conformance requirements covered in the present TC are specified in: TS 36.331, clause 5.3.5.6, 5.3.7.4, 5.3.7.5 and 5.6.5.3.

[TS 36.331, clause 5.3.5.6]

The UE shall:

1> if T304 expires (handover failure):

NOTE 1: Following T304 expiry any dedicated preamble, if provided within the rach-ConfigDedicated, is not available for use by the UE anymore.

2> revert back to the configuration used in the source PCell, excluding the configuration configured by the physicalConfigDedicated, the mac-MainConfig and the sps-Config;

2> store the following handover failure information in VarRLF-Report by setting its fields as follows:

3> clear the information included in VarRLF-Report, if any;

3> set the plmn-Identity to the RPLMN;

3> set the measResultLastServCell to include the RSRP and RSRQ, if available, of the PCell based on measurements collected up to the moment the UE detected handover failure;

3> set the measResultNeighCells to include the best measured cells, other than the PCell, ordered such that the best cell is listed first, and based on measurements collected up to the moment the UE detected handover failure, and set its fields as follows;

4> if the UE was configured to perform measurements for one or more EUTRA frequencies, include the measResultListEUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring UTRA frequencies, include the measResultListUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring GERAN frequencies, include the measResultListGERAN;

4> if the UE was configured to perform measurement reporting for one or more neighbouring CDMA2000 frequencies, include the measResultsCDMA2000;

NOTE 2: The measured quantities are filtered by the L3 filter as configured in the mobility measurement configuration. The measurements are based on the time domain measurement resource restriction, if configured. Blacklisted cells are not required to be reported.

3> if detailed location information is available, set the content of the locationInfo as follows:

4> include the locationCoordinates;

4> include the horizontalVelocity, if available;

3> set the failedPCellId to the global cell identity, if available, and otherwise to the physical cell identity and carrier frequency of the target PCell of the failed handover;

3> include previousPCellId and set it to the global cell identity of the PCell where the last RRCConnectionReconfiguration message including mobilityControlInfo was received;

3> set the timeConnFailure to the elapsed time since reception of the last RRCConnectionReconfiguration message including the mobilityControlInfo;

3> set the connectionFailureType to ‘hof‘;

2> initiate the connection re-establishment procedure as specified in 5.3.7, upon which the RRC connection reconfiguration procedure ends;

The UE may discard the handover failure information, i.e. release the UE variable VarRLF-Report, 48 hours after the failure is detected, upon power off or upon detach.

NOTE 3: E-UTRAN may retrieve the handover failure information using the UE information procedure with rlf-ReportReq set to true, as specified in 5.6.5.3.

[TS 36.331, clause 5.3.7.4]

If the procedure was initiated due to radio link failure or handover failure, the UE shall:

1> set the reestablishmentCellId in the VarRLF-Report to the global cell identity of the selected cell;

[TS 36.331, clause 5.3.7.5]

The UE shall:

1> set the content of RRCConnectionReestablishmentComplete message as follows:

2> if the UE has radio link failure or handover failure information available in VarRLF-Report and plmn-Identity stored in VarRLF-Report is equal to the RPLMN:

3> include the rlf-InfoAvailable;

1> submit the RRCConnectionReestablishmentComplete message to lower layers for transmission, upon which the procedure ends;

[TS 36.331, clause 5.6.5.3]

Upon receiving the UEInformationRequest message, the UE shall:

1> if rlf-ReportReq is set to true and the UE has radio link failure information or handover failure information available in VarRLF-Report and plmn-Identity stored in VarRLF-Report is equal to the RPLMN, set the rlf-Report in the UEInformationResponse message to the value of rlf-Report in VarRLF-Report;

1> if the rlf-Report is included in UEInformationResponse:

2> discard the rlf-Report from VarRLF-Report upon successful delivery of the UEInformationResponse message confirmed by lower layers.

1> if the logMeasReport is included in the UEInformationResponse:

1> else:

2> submit the UEInformationResponse message to lower layers for transmission via SRB1;

8.6.7.1.3 Test description

8.6.7.1.3.1 Pre-test conditions

System Simulator:

– Cell 1, Cell 2 and Cell 5

– System information combination 4 as defined in TS 36.508 [18] clause 4.4.3.1 is used in E-UTRA cells.

UE:

None.

Preamble:

– The UE is in state Generic RB Established (state 3) on Cell 1 according to [18].

8.6.7.1.3.2 Test procedure sequence

Table 8.6.7.1.3.2-1 illustrates the downlink power levels and other changing parameters to be applied for the cells at various time instants of the test execution. Row marked "T0" denotes the initial conditions after preamble, while columns marked "T1", "T2" and "T3" are to be applied subsequently. The exact instants on which these values shall be applied are described in the texts in this clause

Table 8.6.7.1.3.2-1: Time instances of cell power level and parameter changes

Parameter

Unit

Cell 1

Cell 2

Cell 5

Remark

T0

Cell-specific RS EPRE

dBm/15kHz

-60

-63

The power level values are such that entering conditions for event A3 and event B2 are not satisfied.

CPICH Ec (UTRA FDD)

dBm/3.84MHz

-88

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

-88

T1

Cell-specific RS EPRE

dBm/15kHz

-84

-87

The power level values are such that entering conditions for event B2 are satisfied.

CPICH Ec (UTRA FDD)

dBm/3.84MHz

-64

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

-64

T2

Cell-specific RS EPRE

dBm/15kHz

-80

-74

The power level values are such that entering conditions for event A3 are satisfied.

CPICH Ec (UTRA FDD)

dBm/3.84MHz

-64

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

-64

T3

Cell-specific RS EPRE

dBm/15kHz

"Off"

-74

Only Cell 2 is available.

(NOTE 1,NOTE 2)

CPICH Ec (UTRA FDD)

dBm/3.84MHz

"Off"

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

"Off"

NOTE 1: Power level "Off" for UTRA cell is defined in TS 34.108 Table 6.1.4.

NOTE 2: Power level "Off" for E-UTRA cell is defined in TS 36.508 Table 6.2.2.1-1.

Table 8.6.7.1.3.2-2: Main behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

1

The SS transmits an RRCConnectionReconfiguration message to setup inter-RAT measurement on Cell 1.

<–

RRCConnectionReconfiguration

2

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 1.

–>

RRCConnectionReconfigurationComplete

3

The SS changes Cell 1, Cell 2 and Cell 5 parameters according to the row "T1" in Table 8.6.7.1.3.2-1.

4

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

5

The SS changes Cell 2 and Cell 5 parameters according to the row "T2" in Table 8.6.7.1.3.2-1.

6

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

7

The SS transmits an RRCConnectionReconfiguration message including mobilityControlInfo on Cell 1.

<–

RRCConnectionReconfiguration

EXCEPTION: In parallel to the events described in step 8 the steps specified in Table 8.6.7.1.3.2-3 should take place.

8

The SS changes Cell 1 parameter according to the row "T3" in Table 8.6.7.1.3.2-1.

9

The UE transmits an RRCConnectionReestablishmentRequest message on Cell 2.

–>

RRCConnectionReestablishmentRequest

10

The SS transmits an RRCConnectionReestablishment message on Cell 2.

<–

RRCConnectionReestablishment

11

The UE transmits an RRCConnectionReestablishmentComplete message with handover failure information on Cell 2.

–>

RRCConnectionReestablishmentComplete

12

The SS transmits an RRCConnectionReconfiguration message on Cell 2.

<–

RRCConnectionReconfiguration

13

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 2.

–>

RRCConnectionReconfigurationComplete

14

The SS transmits a UEInformationRequest message on Cell 2.

<–

UEInformationRequest

15

Check: Does the UE transmit a UEInformationResponse message on Cell 2?

–>

UEInformationResponse

1

P

16

Check: Does the test result of generic test procedure in TS 36.508 subclause 6.4.2.3 indicate that the UE is in E-UTRA RRC_CONNECTED state on Cell 2?

1

Table 8.6.7.1.3.2-3: Parallel behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

EXCEPTION: The steps 1 and 2 below are repeated for the duration of T304.

1

The UE attempts to perform the handover using MAC Random Access Preamble on Cell 2.

2

The SS does not respond.

8.6.7.1.3.3 Specific message contents

Table 8.6.7.1.3.3-0: Conditions for specific message contents
in Tables 8.6.7.1.3.3-3, 8.6.7.1.3.3-9 and 8.6.7.1.3.3-14

Condition

Explanation

Band > 64

If band > 64 is selected

Table 8.6.7.1.3.3-1: SystemInformationBlockType2 for Cell 2 (preamble and all steps, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.4.3.3-1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType2 ::= SEQUENCE {

radioResourceConfigCommon SEQUENCE {

rach-ConfigCommon SEQUENCE {

ra-SupervisionInfo SEQUENCE {

preambleTransMax

n50

}

uplinkPowerControlCommon-v1020

Not present

}

}

ssac-BarringForMMTEL-Voice-r9

Not present

ssac-BarringForMMTEL-Video-r9

Not present

ac-BarringForCSFB-r10

Not present

}

Table 8.6.7.1.3.3-2: RRCConnectionReconfiguration (step 1, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition MEAS

Table 8.6.7.1.3.3-3: MeasConfig (Table 8.6.7.1.3.3-2)

Derivation Path: 36.508, Table 4.6.6-1, condition UTRAN

Information Element

Value/remark

Comment

Condition

MeasConfig ::= SEQUENCE {

measObjectToAddModList SEQUENCE (SIZE (1..maxObjectId)) OF SEQUENCE {

2 entries

measObjectId[1]

IdMeasObject-f1

measObject[1]

MeasObjectEUTRA-GENERIC(f1)

measObject[1]

MeasObjectEUTRA-GENERIC(maxEARFCN)

Band > 64

measObjectId[2]

IdMeasObject-f8

measObject[2]

MeasObjectUTRA-f8

}

reportConfigToAddModList SEQUENCE (SIZE (1..maxReportConfigId)) OF SEQUENCE {

2 entries

reportConfigId[1]

IdReportConfig-A3

reportConfig[1]

ReportConfigEUTRA-A3

reportConfigId[2]

IdReportConfig-B2-UTRA

reportConfig[2]

ReportConfigInterRAT-B2-UTRA(-72, -76)

}

measIdToAddModList SEQUENCE (SIZE (1..maxMeasId)) OF SEQUENCE {

2 entries

measId[1]

1

measObjectId[1]

IdMeasObject-f1

reportConfigId[1]

IdReportConfig-A3

measId[2]

2

measObjectId[2]

IdMeasObject-f8

reportConfigId[2]

IdReportConfig-B2-UTRA

}

measObjectToAddModList-v9e0 ::= SEQUENCE (SIZE (1..maxObjectId)) OF {

2 entries

Band > 64

measObjectEUTRA-v9e0[1] ::= SEQUENCE {

carrierFreq-v9e0

Same downlink EARFCN as used for f1

}

measObjectEUTRA-v9e0[2] ::= SEQUENCE {}

}

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment

Table 8.6.7.1.3.3-4: QuantityConfig (Table 8.6.7.1.3.3-3)

Derivation Path: 36.508, Table 4.6.6-3A, condition UTRAN

Information Element

Value/remark

Comment

Condition

QuantityConfig SEQUENCE {

quantityConfigUTRA SEQUENCE {

measQuantityUTRA-FDD

cpich-RSCP

UTRA-FDD

measQuantityUTRA-TDD

pccpch-RSCP

UTRA-TDD

filterCoefficient

fc0

}

quantityConfigUTRA-v1020

Not present

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment

Table 8.6.7.1.3.3-5: MeasObjectUTRA-f8 (Table 8.6.7.1.3.3-3)

Derivation Path: 36.508, Table 4.6.6-3

Information Element

Value/remark

Comment

Condition

MeasObjectUTRA ::= SEQUENCE {

carrierFreq

Same downlink ARFCN as used for Cell 5

cellsToAddModList CHOICE {

cellsToAddModListUTRA-FDD SEQUENCE (SIZE (1..maxCellMeas)) OF SEQUENCE {

UTRA-FDD

cellIndex[1]

1

physCellId[1]

PhysicalCellIdentity of Cell 5

}

cellsToAddModListUTRA-TDD SEQUENCE (SIZE (1..maxCellMeas)) OF SEQUENCE {

UTRA-TDD

cellIndex[1]

1

physCellId[1]

PhysicalCellIdentity of Cell 5

}

}

csg-allowedReportingCells-v930

Not present

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment

Table 8.6.7.1.3.3-6: MeasurementReport (step 4, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

2

measResultPCell SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultListUTRA SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1] CHOICE {

fdd

PhysicalCellIdentity of Cell 5

UTRA-FDD

tdd

PhysicalCellIdentity of Cell 5

UTRA-TDD

}

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

utra-RSCP

Not present or (-5..91)

utra-EcN0

Not present

additionalSI-Info-r9

Not present

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment

Table 8.6.7.1.3.3-7: MeasurementReport (step 6, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

1

measResultPCellSEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultListEUTRA SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 2

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

Table 8.6.7.1.3.3-8: RRCConnectionReconfiguration (step 7, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition HO

Table 8.6.7.1.3.3-9: MobilityControlInfo (Table 8.6.7.1.3.3-8)

Derivation Path: 36.508, Table 4.6.5-1

Information Element

Value/remark

Comment

Condition

MobilityControlInfo ::= SEQUENCE {

targetPhysCellId

PhysicalCellIdentity of Cell 2

carrierFreq

Not present

carrierFreq-v9e0[1]

Not present

Band > 64

}

Table 8.6.7.1.3.3-10: RRCConnectionReestablishmentRequest (step 9, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-13

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentRequest ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentRequest-r8 SEQUENCE {

ue-Identity SEQUENCE {

c-RNTI

the value of the C-RNTI of the UE

physCellId

PhysicalCellIdentity of Cell 1

shortMAC-I

The same value as the 16 least significant bits of the XMAC-I value calculated by SS

}

reestablishmentCause

handoverFailure

}

}

}

Table 8.6.7.1.3.3-11: RRCConnectionReestablishmentComplete (step 11, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-11

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentComplete ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentComplete-r8 = SEQUENCE {

nonCriticalExtension SEQUENCE {

rlf-InfoAvailable-r9

true

nonCriticalExtension

Not present or any allowed value

}

}

}

}

Table 8.6.7.1.3.3-12: RRCConnectionReconfiguration (step 12, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

RRCConnectionReconfiguration ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

rrcConnectionReconfiguration-r8 SEQUENCE {

radioResourceConfigDedicated

RadioResourceConfigDedicated-HO

}

}

}

}

Table 8.6.7.1.3.3-13: UEInformationRequest (step 14, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23A

Information Element

Value/remark

Comment

Condition

UEInformationRequest-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationRequest-r9 SEQUENCE {

rlf-ReportReq-r9

TRUE

}

}

}

}

Table 8.6.7.1.3.3-14: UEInformationResponse (step 15, Table 8.6.7.1.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23B

Information Element

Value/remark

Comment

Condition

UEInformationResponse-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationResponse-r9 SEQUENCE {

rlf-Report-r9 SEQUENCE {

measResultLastServCell-r9 SEQUENCE {

rsrpResult-r9

(0..97)

rsrqResult-r9

Not present or (0..34)

}

measResultNeighCells-r9 SEQUENCE {

measResultListEUTRA-r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink EARFCN as used for Cell 2

carrierFreq-r9[1]

maxEARFCN

Band > 64

measResultList-r9[1] SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 2

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultListUTRA-r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink ARFCN as used for Cell 5

measResultList-r9 SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1] CHOICE {

fdd

Physical cell Identity of Cell 5

UTRA-FDD

tdd

Physical cell Identity of Cell 5

UTRA-TDD

}

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

utra-RSCP

Not present or (-5..91)

utra-EcN0

Not present or (0..49)

UTRA-FDD

Not present

UTRA-TDD

additionalSI-Info-r9

Not present

}

}

}

measResultListGERAN-r9

Not present

measResultsCDMA2000-r9

Not present

}

locationInfo-r10

Not present or any allowed value

failedPCellId-r10 CHOICE {

cellGlobalId-r10 or pci-arfcn-r10

If the UE has the global cell identity depending on UE implementation, the UE sets the global cell identity, otherwise the UE sets the physical cell identity and the carrier frequency.

cellGlobalId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 2

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 2

}

pci-arfcn-r10 SEQUENCE {

physCellId-r10

Physical cell Identity of Cell 2

carrierFreq-r10

Same downlink EARFCN as used for Cell 2

carrierFreq-r10

maxEARFCN

Band > 64

}

}

reestablishmentCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 2

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 2

}

timeConnFailure-r10

Any allowed value

connectionFailureType-r10

hof

previousPCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 1

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 1

}

basicFields-r11

Not present or any allowed value

failedPCellId-v1090 SEQUENCE {

Band > 64

carrierFreq-v1090

Same downlink EARFCN as used for Cell 2

}

}

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension SEQUENCE {

rlf-Report-v9e0 SEQUENCE {

measResultListEUTRA-v9e0 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

Band > 64

carrierFreq-v9e0[1]

Same EARFCN as Cell 2

}

}

}

}

}

}

}

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment

8.6.7.2 Handover Failure logging / Reporting of GERAN Inter-RAT measurements

8.6.7.2.1 Test Purpose (TP)

(1)

with { UE in RRC_CONNECTED having performed the GERAN measurement and reported that the UE has handover failure information available }

ensure that {
when { UE receives the UEInformationRequest message containing rlf-ReportReq }

then { UE sends the UEInformationResponse message containing the measurement result for GERAN neighbour cell }

}

8.6.7.2.2 Conformance requirements

References: The conformance requirements covered in the present TC are specified in: TS 36.331, clause 5.3.5.6, 5.3.7.4, 5.3.7.5 and 5.6.5.3.

[TS 36.331, clause 5.3.5.6(TP1)]

The UE shall:

1> if T304 expires (handover failure):

NOTE: Following T304 expiry any dedicated preamble, if provided within the rach-ConfigDedicated, is not available for use by the UE anymore.

2> revert back to the configuration used in the source PCell, excluding the configuration configured by the physicalConfigDedicated, the mac-MainConfig and the sps-Config;

2> store the following handover failure information in VarRLF-Report by setting its fields as follows:

3> clear the information included in VarRLF-Report, if any;

3> set the plmn-Identity to the RPLMN;

3> set the measResultLastServCell to include the RSRP and RSRQ, if available, of the PCell based on measurements collected up to the moment the UE detected handover failure;

3> set the measResultNeighCells to include the best measured cells, other than the PCell, ordered such that the best cell is listed first, and based on measurements collected up to the moment the UE detected handover failure, and set its fields as follows;

4> if the UE was configured to perform measurements for one or more EUTRA frequencies, include the measResultListEUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring UTRA frequencies, include the measResultListUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring GERAN frequencies, include the measResultListGERAN;

4> if the UE was configured to perform measurement reporting for one or more neighbouring CDMA2000 frequencies, include the measResultsCDMA2000;

NOTE 1: The measured quantities are filtered by the L3 filter as configured in the mobility measurement configuration. The measurements are based on the time domain measurement resource restriction, if configured. Blacklisted cells are not required to be reported.

3> if detailed location information is available, set the content of the locationInfo as follows:

4> include the locationCoordinates;

4> include the horizontalVelocity, if available;

3> set the failedPCellId to the global cell identity, if available, and otherwise to the physical cell identity and carrier frequency of the target PCell of the failed handover;

3> include previousPCellId and set it to the global cell identity of the PCell where the last RRCConnectionReconfiguration message including mobilityControlInfo was received;

3> set the timeConnFailure to the elapsed time since reception of the last RRCConnectionReconfiguration message including the mobilityControlInfo;

3> set the connectionFailureType to ‘hof‘;

2> initiate the connection re-establishment procedure as specified in 5.3.7, upon which the RRC connection reconfiguration procedure ends;

The UE may discard the handover failure information, i.e. release the UE variable VarRLF-Report, 48 hours after the failure is detected, upon power off or upon detach.

NOTE 2: E-UTRAN may retrieve the handover failure information using the UE information procedure with rlf-ReportReq set to true, as specified in 5.6.5.3.

[TS 36.331, clause 5.3.7.4(TP1)]

If the procedure was initiated due to radio link failure or handover failure, the UE shall:

1> set the reestablishmentCellId in the VarRLF-Report to the global cell identity of the selected cell;

The UE shall set the contents of RRCConnectionReestablishmentRequest message as follows:

1> set the reestablishmentCause as follows:

2> else if the re-establishment procedure was initiated due to handover failure as specified in 5.3.5.6 (intra-LTE handover failure) or 5.4.3.5 (inter-RAT mobility from EUTRA failure):

3> set the reestablishmentCause to the value handoverFailure;

[TS 36.331, clause 5.3.7.5(TP1)]

The UE shall:

1> set the content of RRCConnectionReestablishmentComplete message as follows:

2> if the UE has radio link failure or handover failure information available in VarRLF-Report and plmn-Identity stored in VarRLF-Report is equal to the RPLMN:

3> include the rlf-InfoAvailable;

1> submit the RRCConnectionReestablishmentComplete message to lower layers for transmission, upon which the procedure ends;

[TS 36.331, clause 5.6.5.3(TP1)]

Upon receiving the UEInformationRequest message, the UE shall:

1> if rlf-ReportReq is set to true and the UE has radio link failure information or handover failure information available in VarRLF-Report and plmn-Identity stored in VarRLF-Report is equal to the RPLMN, set the rlf-Report in the UEInformationResponse message to the value of rlf-Report in VarRLF-Report;

1> if the rlf-Report is included in UEInformationResponse:

2> discard the rlf-Report from VarRLF-Report upon successful delivery of the UEInformationResponse message confirmed by lower layers.

1> if the logMeasReport is included in the UEInformationResponse:

1> else:

2> submit the UEInformationResponse message to lower layers for transmission via SRB1;

8.6.7.2.3 Test description

8.6.7.2.3.1 Pre-test conditions

System Simulator:

– Cell 1, Cell 2 and Cell 24 – Cell 1 and Cell 2 are E-UTRAN cell, Cell 24 is a GERAN cell.

– All cells belong to the same PLMN.

– System information combination 5 as defined in TS 36.508 [18] clause 4.4.3.1 is used in E-UTRA cells.

UE:

None.

Preamble:

– The UE is in state Generic RB Established (state 3) on Cell 1 according to [18].

8.6.7.2.3.2 Test procedure sequence

Table 8.6.7.2.3.2-1 illustrates the downlink power levels and other changing parameters to be applied for the cells at various time instants of the test execution. Row marked "T0" denotes the initial conditions after preamble, while columns marked "T1", "T2" and "T3" are to be applied subsequently. The exact instants on which these values shall be applied are described in the texts in this clause

Table 8.6.7.2.3.2-1: Time instances of cell power level and parameter changes

Parameter

Unit

Cell 1

Cell 2

Cell 24

Remark

T0

Cell-specific RS EPRE

dBm/15kHz

-60

-63

The power level values are such that entering conditions for event A3 and event B2 are not satisfied.

RSSI

dBm

-85

T1

Cell-specific RS EPRE

dBm/15kHz

-80

-83

The power level values are such that entering conditions for event B2 are satisfied.

RSSI

dBm

-65

T2

Cell-specific RS EPRE

dBm/15kHz

-80

-74

The power level values are such that entering conditions for event A3 are satisfied.

(NOTE 1)

RSSI

dBm

"Off"

T3

Cell-specific RS EPRE

dBm/15kHz

"Off"

-74

Only Cell 2 is available.

(NOTE 1,NOTE 2)

RSSI

dBm

"Off"

NOTE 1: Power level "Off" for GERAN cell is defined in TS 36.508 Table 6.2.2.1-1.

NOTE 2: Power level "Off" for E-UTRA cell is defined in TS 36.508 Table 6.2.2.1-1.

Table 8.6.7.2.3.2-2: Main behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

0

Wait for 5 seconds to allow UE to measure serving and neighbour cells correctly after SS changes Cell 1, Cell 2 and Cell 24 parameters according to the row "T0" in Table 8.6.7.2.3.2-1

1

The SS transmits an RRCConnectionReconfiguration message to setup inter-RAT measurement on Cell 1.

<–

RRCConnectionReconfiguration

2

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 1.

–>

RRCConnectionReconfigurationComplete

3

The SS changes Cell 1, Cell 2 and Cell 24 parameters according to the row "T1" in Table 8.6.7.2.3.2-1.

4

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

5

The SS changes Cell 2 and Cell 24 parameters according to the row "T2" in Table 8.6.7.2.3.2-1.

6

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

7

The SS transmits an RRCConnectionReconfiguration message including mobilityControlInfo on Cell 1.

<–

RRCConnectionReconfiguration

EXCEPTION: In parallel to the events described in step 8 the steps specified in Table 8.6.7.2.3.2-3 should take place.

8

The SS changes Cell 1 parameter according to the row "T3" in Table 8.6.7.2.3.2-1.

9

The UE transmits an RRCConnectionReestablishmentRequest message on Cell 2.

–>

RRCConnectionReestablishmentRequest

10

The SS transmits an RRCConnectionReestablishment message on Cell 2.

<–

RRCConnectionReestablishment

11

The UE transmits an RRCConnectionReestablishmentComplete message with handover failure information on Cell 2.

–>

RRCConnectionReestablishmentComplete

12

The SS transmits an RRCConnectionReconfiguration message on Cell 2.

<–

RRCConnectionReconfiguration

13

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 2.

–>

RRCConnectionReconfigurationComplete

14

The SS transmits a UEInformationRequest message on Cell 2.

<–

UEInformationRequest

15

Check: Does the UE transmit a UEInformationResponse message on Cell 2?

–>

UEInformationResponse

1

P

16

Check: Does the test result of generic test procedure in TS 36.508 subclause 6.4.2.3 indicate that the UE is in E-UTRA RRC_CONNECTED state on Cell 2?

1

Table 8.6.7.2.3.2-3: Parallel behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

EXCEPTION: The steps 1 and 2 below are repeated for the duration of T304.

1

The UE attempts to perform handover using MAC Random Access Preamble on Cell 2.

2

The SS does not respond.

8.6.7.2.3.3 Specific message contents

Table 8.6.7.2.3.3-0: Conditions for specific message contents
in Tables 8.6.7.2.3.3-3, and 8.6.7.2.3.3-14

Condition

Explanation

Band > 64

If band > 64 is selected

Table 8.6.7.2.3.3-1: SystemInformationBlockType2 for Cell 2 (preamble and all steps, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.4.3.3-1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType2 ::= SEQUENCE {

radioResourceConfigCommon SEQUENCE {

rach-ConfigCommon SEQUENCE {

ra-SupervisionInfo SEQUENCE {

preambleTransMax

n50

}

uplinkPowerControlCommon-v1020

Not present

}

}

ssac-BarringForMMTEL-Voice-r9

Not present

ssac-BarringForMMTEL-Video-r9

Not present

ac-BarringForCSFB-r10

Not present

}

Table 8.6.7.2.3.3-2: RRCConnectionReconfiguration (step 1, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition MEAS

Table 8.6.7.2.3.3-3: MeasConfig (Table 8.6.7.2.3.3-2)

Derivation Path: 36.508, Table 4.6.6-1, condition GERAN

Information Element

Value/remark

Comment

Condition

MeasConfig ::= SEQUENCE {

measObjectToAddModList SEQUENCE (SIZE (1..maxObjectId)) OF SEQUENCE {

2 entries

measObjectId[1]

IdMeasObject-f1

measObject[1]

MeasObjectEUTRA-GENERIC(f1)

measObject[1]

MeasObjectEUTRA-GENERIC(maxEARFCN)

Band > 64

measObjectId[2]

IdMeasObject-f11

measObject[2]

MeasObjectGERAN-GENERIC(f11)

}

reportConfigToAddModList SEQUENCE (SIZE (1..maxReportConfigId)) OF SEQUENCE {

2 entries

reportConfigId[1]

IdReportConfig-A3

reportConfig[1]

ReportConfigEUTRA-A3

reportConfigId[2]

IdReportConfig-B2- GERAN

reportConfig[2]

ReportConfigInterRAT-B2-GERAN(-69, [-79])

}

measIdToAddModList SEQUENCE (SIZE (1..maxMeasId)) OF SEQUENCE {

2 entries

measId[1]

1

measObjectId[1]

IdMeasObject-f1

reportConfigId[1]

IdReportConfig-A3

measId[2]

2

measObjectId[2]

IdMeasObject-f11

reportConfigId[2]

IdReportConfig-B2-GERAN

}

measObjectToAddModList-v9e0 ::= SEQUENCE (SIZE (1..maxObjectId)) OF {

2 entries

Band > 64

measObjectEUTRA-v9e0[1] ::= SEQUENCE {

carrierFreq-v9e0

Same downlink EARFCN as used for f1

}

measObjectEUTRA-v9e0[2] ::= SEQUENCE {}

}

}

Derivation Path: 36.508, Table 4.6.6-1, condition GERAN

Information Element

Value/remark

Comment

Condition

MeasConfig ::= SEQUENCE {

measObjectToAddModList SEQUENCE (SIZE (1..maxObjectId)) OF SEQUENCE {

2 entries

measObjectId[1]

IdMeasObject-f1

measObject[1]

MeasObjectEUTRA-GENERIC(f1)

measObjectId[2]

IdMeasObject-f11

measObject[2]

MeasObjectGERAN-GENERIC(f11)

}

reportConfigToAddModList SEQUENCE (SIZE (1..maxReportConfigId)) OF SEQUENCE {

1 entry

reportConfigId[1]

IdReportConfig-B2-GERAN

reportConfig[1]

ReportConfigInterRAT-B2-GERAN(-69, [-79])

}

measIdToAddModList SEQUENCE (SIZE (1..maxMeasId)) OF SEQUENCE {

1 entry

measId[1]

1

measObjectId[1]

IdMeasObject-f11

reportConfigId[1]

IdReportConfig-B2-GERAN

}

quantityConfig SEQUENCE {

quantityConfigGERAN SEQUENCE {

measQuantityGERAN

rssi

filterCoefficient

fc0

}

}

}

Condition

Explanation

GERAN

For inter-RAT measurements with GERAN

Table 8.6.7.2.3.3-5: MeasObjectGERAN-GENERIC(f11) (Table 8.6.7.2.3.3-3)

Derivation Path: 36.508, Table 4.6.6-2A

Information Element

Value/remark

Comment

Condition

MeasObjectGERAN-GENERIC(Freq) ::= SEQUENCE {

carrierFreqs SEQUENCE {

startingARFCN

Same downlink ARFCN as used for Cell 24

bandIndicator

The same band indicator of the Cell 24

followingARFCNs CHOICE {

explicitListOfARFCNs

Same ARFCN used for Cell24

}

}

offsetFreq

Not present

ncc-Permitted

Not present

cellForWhichToReportCGI

Not present

}

Table 8.6.7.2.3.3-6: MeasurementReport (step 4, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

2

measResultPCell SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultListGERAN SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1] SEQUENCE {

physCellId[1]

PhysicalCellIdentity of Cell 24

}

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rssi

(0..63)

additionalSI-Info-r9

Not present

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

Table 8.6.7.2.3.3-7: MeasurementReport (step 6, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

1

measResultPCellSEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultListEUTRA SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 2

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

Table 8.6.7.2.3.3-8: RRCConnectionReconfiguration (step 7, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition HO

Table 8.6.7.2.3.3-9: MobilityControlInfo (Table 8.6.7.2.3.3-8)

Derivation Path: 36.508, Table 4.6.5-1

Information Element

Value/remark

Comment

Condition

MobilityControlInfo ::= SEQUENCE {

targetPhysCellId

PhysicalCellIdentity of Cell 2

carrierFreq

Not present

}

Table 8.6.7.2.3.3-10: RRCConnectionReestablishmentRequest (step 9, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-13

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentRequest ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentRequest-r8 SEQUENCE {

ue-Identity SEQUENCE {

c-RNTI

the value of the C-RNTI of the UE

physCellId

PhysicalCellIdentity of Cell 1

shortMAC-I

The same value as the 16 least significant bits of the XMAC-I value calculated by SS

}

reestablishmentCause

handoverFailure

}

}

}

Table 8.6.7.2.3.3-11: RRCConnectionReestablishmentComplete (step 11, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-11

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentComplete ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentComplete-r8 = SEQUENCE {

nonCriticalExtension SEQUENCE {

rlf-InfoAvailable-r9

true

nonCriticalExtension

Not present or any allowed value

}

}

}

}

Table 8.6.7.2.3.3-12: RRCConnectionReconfiguration (step 12, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

RRCConnectionReconfiguration ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

rrcConnectionReconfiguration-r8 SEQUENCE {

radioResourceConfigDedicated

RadioResourceConfigDedicated-HO

}

}

}

}

Table 8.6.7.2.3.3-13: UEInformationRequest (step 14, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23A

carrierFreq-r9[1]

maxEARFCN

Band > 64

Information Element

Value/remark

Comment

Condition

UEInformationRequest-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationRequest-r9 SEQUENCE {

rlf-ReportReq-r9

TRUE

}

}

}

}

Table 8.6.7.2.3.3-14: UEInformationResponse (step 15, Table 8.6.7.2.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23B

Information Element

Value/remark

Comment

Condition

UEInformationResponse-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationResponse-r9 SEQUENCE {

rlf-Report-r9 SEQUENCE {

measResultLastServCell-r9 SEQUENCE {

rsrpResult-r9

(0..97)

rsrqResult-r9

Not present or (0..34)

}

measResultNeighCells-r9 SEQUENCE {

measResultListEUTRA-r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink EARFCN as used for Cell 2

carrierFreq-r9[1]

maxEARFCN

Band > 64

measResultList-r9[1] SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 2

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultListGERAN–r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink ARFCN as used for Cell 24

measResultList-r9 SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

Physical cell Identity of Cell 24

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rssi

(0..63)

additionalSI-Info-r9

Not present

}

}

}

measResultList UTRA-r9

Not present

measResultsCDMA2000-r9

Not present

}

locationInfo-r10

Not present or any allowed value

failedPCellId-r10 CHOICE {

cellGlobalId-r10 or pci-arfcn-r10

If the UE has the global cell identity depending on UE implementation, the UE sets the global cell identity, otherwise the UE sets the physical cell identity and the carrier frequency.

cellGlobalId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 2

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 2

}

pci-arfcn-r10 SEQUENCE {

physCellId-r10

Physical cell Identity of Cell 2

carrierFreq-r10

Same downlink EARFCN as used for Cell 2

carrierFreq-r10

maxEARFCN

Band > 64

}

}

reestablishmentCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 2

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 2

}

timeConnFailure-r10

Any allowed value

connectionFailureType-r10

hof

previousPCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 1

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 1

}

failedPCellId-v1090 SEQUENCE {

Band > 64

carrierFreq-v1090

Same downlink EARFCN as used for Cell 2

}

}

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension SEQUENCE {

rlf-Report-v9e0 SEQUENCE {

measResultListEUTRA-v9e0 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

Band > 64

carrierFreq-v9e0[1]

Same EARFCN as Cell 2

}

}

}

}

}

}

}

}

8.6.7.3 Handover Failure logging / Reporting of CDMA2000 Inter-RAT measurements

8.6.7.3.1 Test Purpose (TP)

(1)

with { UE in RRC_CONNECTED having performed the CDMA2000 measurement and reported that the UE has handover failure information available }

ensure that {
when { UE receives the UEInformationRequest message containing rlf-ReportReq }

then { UE sends the UEInformationResponse message containing the measurement result for CDMA neighbour cell

}

}

8.6.7.3.2 Conformance requirements

References: The conformance requirements covered in the present TC are specified in: TS 36.331, clause 5.3.5.6, 5.3.7.4, 5.3.7.5 and 5.6.5.3.

[TS 36.331, clause 5.3.5.6(TP1)]

The UE shall:

1> if T304 expires (handover failure):

NOTE: Following T304 expiry any dedicated preamble, if provided within the rach-ConfigDedicated, is not available for use by the UE anymore.

2> revert back to the configuration used in the source PCell, excluding the configuration configured by the physicalConfigDedicated, the mac-MainConfig and the sps-Config;

2> store the following handover failure information in VarRLF-Report by setting its fields as follows:

3> clear the information included in VarRLF-Report, if any;

3> set the plmn-Identity to the RPLMN;

3> set the measResultLastServCell to include the RSRP and RSRQ, if available, of the PCell based on measurements collected up to the moment the UE detected handover failure;

3> set the measResultNeighCells to include the best measured cells, other than the PCell, ordered such that the best cell is listed first, and based on measurements collected up to the moment the UE detected handover failure, and set its fields as follows;

4> if the UE was configured to perform measurements for one or more EUTRA frequencies, include the measResultListEUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring UTRA frequencies, include the measResultListUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring GERAN frequencies, include the measResultListGERAN;

4> if the UE was configured to perform measurement reporting for one or more neighbouring CDMA2000 frequencies, include the measResultsCDMA2000;

NOTE 1: The measured quantities are filtered by the L3 filter as configured in the mobility measurement configuration. The measurements are based on the time domain measurement resource restriction, if configured. Blacklisted cells are not required to be reported.

3> if detailed location information is available, set the content of the locationInfo as follows:

4> include the locationCoordinates;

4> include the horizontalVelocity, if available;

3> set the failedPCellId to the global cell identity, if available, and otherwise to the physical cell identity and carrier frequency of the target PCell of the failed handover;

3> include previousPCellId and set it to the global cell identity of the PCell where the last RRCConnectionReconfiguration message including mobilityControlInfo was received;

3> set the timeConnFailure to the elapsed time since reception of the last RRCConnectionReconfiguration message including the mobilityControlInfo;

3> set the connectionFailureType to ‘hof‘;

2> initiate the connection re-establishment procedure as specified in 5.3.7, upon which the RRC connection reconfiguration procedure ends;

The UE may discard the handover failure information, i.e. release the UE variable VarRLF-Report, 48 hours after the failure is detected, upon power off or upon detach.

NOTE 2: E-UTRAN may retrieve the handover failure information using the UE information procedure with rlf-ReportReq set to true, as specified in 5.6.5.3.

[TS 36.331, clause 5.3.7.4(TP1)]

If the procedure was initiated due to radio link failure or handover failure, the UE shall:

1> set the reestablishmentCellId in the VarRLF-Report to the global cell identity of the selected cell;

The UE shall set the contents of RRCConnectionReestablishmentRequest message as follows:

1> set the reestablishmentCause as follows:

2> else if the re-establishment procedure was initiated due to handover failure as specified in 5.3.5.6 (intra-LTE handover failure) or 5.4.3.5 (inter-RAT mobility from EUTRA failure):

3> set the reestablishmentCause to the value handoverFailure;

[TS 36.331, clause 5.3.7.5(TP1)]

The UE shall:

1> set the content of RRCConnectionReestablishmentComplete message as follows:

2> if the UE has radio link failure or handover failure information available in VarRLF-Report and plmn-Identity stored in VarRLF-Report is equal to the RPLMN:

3> include the rlf-InfoAvailable;

1> submit the RRCConnectionReestablishmentComplete message to lower layers for transmission, upon which the procedure ends;

[TS 36.331, clause 5.6.5.3(TP1)]

Upon receiving the UEInformationRequest message, the UE shall:

1> if rlf-ReportReq is set to true and the UE has radio link failure information or handover failure information available in VarRLF-Report and plmn-Identity stored in VarRLF-Report is equal to the RPLMN, set the rlf-Report in the UEInformationResponse message to the value of rlf-Report in VarRLF-Report;

1> if the rlf-Report is included in UEInformationResponse:

2> discard the rlf-Report from VarRLF-Report upon successful delivery of the UEInformationResponse message confirmed by lower layers.

1> if the logMeasReport is included in the UEInformationResponse:

1> else:

2> submit the UEInformationResponse message to lower layers for transmission via SRB1;

8.6.7.3.3 Test description

8.6.7.3.3.1 Pre-test conditions

System Simulator:

– Cell 1, Cell 2 and Cell 15- Cell 1 and Cell 2 are E-UTRAN cell, Cell 15 is a HRPD cell.

– All cells belong to the same PLMN.

– System information combination 6 as defined in TS 36.508 [18] clause 4.4.3.1 is used in E-UTRA cells.

UE:

None.

Preamble:

– The UE is in state Generic RB Established (state 3) on Cell 1 according to [18].

8.6.7.3.3.2 Test procedure sequence

Table 8.6.7.3.3.2-1 illustrates the downlink power levels and other changing parameters to be applied for the cells at various time instants of the test execution. Row marked "T0" denotes the initial conditions after preamble, while columns marked "T1", "T2" and "T3" are to be applied subsequently. The exact instants on which these values shall be applied are described in the texts in this clause.

Table 8.6.7.3.3.2-1: Time instances of cell power level and parameter changes

Parameter

Unit

Cell 1

Cell 2

Cell 15

Remark

T0

Cell-specific RS EPRE

dBm/15kHz

-60

-63

The power level values are such that entering conditions for event A3 and event B2 are not satisfied.

Îor/Ioc

dB

-20

Ioc

dBm/1.23 MHz

-55

Pilot Ec/Io (NOTE 1)

dB

-20

T1

Cell-specific RS EPRE

dBm/15kHz

-80

-83

The power level values are such that entering conditions for event B2 are satisfied.

Îor/Ioc

dB

-5

Ioc

dBm/1.23 MHz

-55

Pilot Ec/Io (NOTE 1)

dB

-6

T2

Cell-specific RS EPRE

dBm/15kHz

-80

-74

The power level values are such that entering conditions for event A3 are satisfied.

Îor/Ioc

dB

"Off"

Ioc

dBm/1.23 MHz

"Off"

Pilot Ec/Io (NOTE 1)

dB

"Off"

T3

Cell-specific RS EPRE

dBm/15kHz

"Off"

-74

Only Cell 2 is available.

(NOTE 2)

Îor/Ioc

dB

"Off"

Ioc

dBm/1.23 MHz

"Off"

Pilot Ec/Io (NOTE 1)

dB

"Off"

NOTE 1: This parameter is not directly settable, but is derived by calculation from the other parameters set by the SS.

NOTE 2: Power level "Off" for E-UTRA cell is defined in TS 36.508 Table 6.2.2.1-1.

Table 8.6.7.3.3.2-2: Main behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

1

The SS transmits an RRCConnectionReconfiguration message to setup inter-RAT measurement on Cell 1.

<–

RRCConnectionReconfiguration

2

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 1.

–>

RRCConnectionReconfigurationComplete

3

The SS changes Cell 1, Cell 2 and Cell 15 parameters according to the row "T1" in Table 8.6.7.3.3.2-1.

4

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

5

The SS changes Cell 2 and Cell 15 parameters according to the row "T2" in Table 8.6.7.3.3.2-1.

6

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

7

The SS transmits an RRCConnectionReconfiguration message including mobilityControlInfo on Cell 1.

<–

RRCConnectionReconfiguration

EXCEPTION: In parallel to the events described in step 8 the steps specified in Table 8.6.7.3.3.2-3 should take place.

8

The SS changes Cell 1 parameter according to the row "T3" in Table 8.6.7.3.3.2-1.

9

The UE transmits an RRCConnectionReestablishmentRequest message on Cell 2.

–>

RRCConnectionReestablishmentRequest

10

The SS transmits an RRCConnectionReestablishment message on Cell 2.

<–

RRCConnectionReestablishment

11

The UE transmits an RRCConnectionReestablishmentComplete message with handover failure information on Cell 2.

–>

RRCConnectionReestablishmentComplete

12

The SS transmits an RRCConnectionReconfiguration message on Cell 2.

<–

RRCConnectionReconfiguration

13

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 2.

–>

RRCConnectionReconfigurationComplete

14

The SS transmits a UEInformationRequest message on Cell 2.

<–

UEInformationRequest

15

Check: Does the UE transmit a UEInformationResponse message on Cell 2?

–>

UEInformationResponse

1

P

16

Check: Does the test result of generic test procedure in TS 36.508 subclause 6.4.2.3 indicate that the UE is in E-UTRA RRC_CONNECTED state on Cell 2?

1

Table 8.6.7.3.3.2-3: Parallel behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

EXCEPTION: The steps 1 and 2 below are repeated for the duration of T304.

1

The UE attempts to perform handover using MAC Random Access Preamble on Cell 2.

2

The SS does not respond.

8.6.7.3.3.3 Specific message contents

Table 8.6.7.3.3.3-0: Conditions for specific message contents
in Tables 8.6.7.3.3.3-3, 8.6.7.3.3.3-9 and 8.6.7.3.3.3-14

Condition

Explanation

Band > 64

If band > 64 is selected

Table 8.6.7.3.3.3-1: SystemInformationBlockType2 for Cell 2 (preamble and all steps, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.4.3.3-1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType2 ::= SEQUENCE {

radioResourceConfigCommon SEQUENCE {

rach-ConfigCommon SEQUENCE {

ra-SupervisionInfo SEQUENCE {

preambleTransMax

n50

}

uplinkPowerControlCommon-v1020

Not present

}

}

ssac-BarringForMMTEL-Voice-r9

Not present

ssac-BarringForMMTEL-Video-r9

Not present

ac-BarringForCSFB-r10

Not present

}

Table 8.6.7.3.3.3-2: RRCConnectionReconfiguration (step 1, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition MEAS

Table 8.6.7.3.3.3-3: MeasConfig (Table 8.6.7.3.3.3-2)

Derivation Path: 36.508, Table 4.6.6-1

Information Element

Value/remark

Comment

Condition

MeasConfig ::= SEQUENCE {

measObjectToAddModList SEQUENCE (SIZE (1..maxObjectId)) OF SEQUENCE {

2 entries

measObjectId[1]

IdMeasObject-f1

measObject[1]

MeasObjectEUTRA-GENERIC(f1)

measObject[1]

MeasObjectEUTRA-GENERIC(maxEARFCN)

Band > 64

measObjectId[2]

IdMeasObject-f14

measObject[2]

MeasObjectCDMA2000-f14

}

reportConfigToAddModList SEQUENCE (SIZE (1..maxReportConfigId)) OF SEQUENCE {

2 entries

reportConfigId[1]

IdReportConfig-A3

reportConfig[1]

ReportConfigEUTRA-A3

reportConfigId[2]

IdReportConfig-B2-CDMA2000

reportConfig[2]

ReportConfigInterRAT-B2-CDMA2000(-69, -18)

}

measIdToAddModList SEQUENCE (SIZE (1..maxMeasId)) OF SEQUENCE {

2 entries

measId[1]

1

measObjectId[1]

IdMeasObject-f1

reportConfigId[1]

IdReportConfig-A3

measId[2]

2

measObjectId[2]

IdMeasObject-f14

reportConfigId[2]

IdReportConfig-B2-CDMA2000

}

quantityConfig

measObjectToAddModList-v9e0 ::= SEQUENCE (SIZE (1..maxObjectId)) OF {

2 entries

Band > 64

measObjectEUTRA-v9e0[1] ::= SEQUENCE {

carrierFreq-v9e0

Same downlink EARFCN as used for f1

}

measObjectEUTRA-v9e0[2] ::= SEQUENCE {}

}

}

Table 8.6.7.3.3.3-4: QuantityConfig (Table 8.6.7.3.3.3-3)

Derivation Path: 36.508, Table 4.6.6-3A, condition CDMA2000

Information Element

Value/remark

Comment

Condition

QuantityConfig SEQUENCE {

quantityConfigCDMA2000 SEQUENCE {

measQuantityCDMA2000

pilotStrength

}

}

Table 8.6.7.3.3.3-5: MeasObjectCDMA2000-f14 (Table 8.6.7.3.3.3-3)

Derivation Path: 36.508, Table 4.6.6-1C

Information Element

Value/remark

Comment

Condition

MeasObjectCDMA2000 ::= SEQUENCE {

cdma2000-Type

typeHRPD

carrierFreq SEQUENCE {

bandClass

Band Class of f14

arfcn

f14

}

searchWindowSize

15

offsetFreq

0dB

cellsToAddModList CHOICE {

cellsToAddModListCDMA2000 SEQUENCE (SIZE (1..maxCellMeas)) OF SEQUENCE {

cellIndex[1]

1

physCellId[1]

PhysicalCellIdentity of Cell 15

}

}

cellForWhichToReportCGI

50

}

Table 8.6.7.3.3.3-6: MeasurementReport (step 4, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

2

measResultPCell SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultsCDMA2000 SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

preRegistrationStatusHRPD

measResultListCDMA2000 ::=SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

physCellId[1]

PhysicalCellIdentity of Cell 15

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

pilotStrength

(0..63)

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

}

Table 8.6.7.3.3.3-7: MeasurementReport (step 6, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

1

measResultPCellSEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultListEUTRA SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 2

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

Table 8.6.7.3.3.3-8: RRCConnectionReconfiguration (step 7, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition HO

Table 8.6.7.3.3.3-9: MobilityControlInfo (Table 8.6.7.3.3.3-8)

Derivation Path: 36.508, Table 4.6.5-1

Information Element

Value/remark

Comment

Condition

MobilityControlInfo ::= SEQUENCE {

targetPhysCellId

PhysicalCellIdentity of Cell 2

carrierFreq

Not present

carrierFreq-v9e0[1]

Not present

Band > 64

}

Table 8.6.7.3.3.3-10: RRCConnectionReestablishmentRequest (step 9, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-13

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentRequest ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentRequest-r8 SEQUENCE {

ue-Identity SEQUENCE {

c-RNTI

the value of the C-RNTI of the UE

physCellId

PhysicalCellIdentity of Cell 1

shortMAC-I

The same value as the 16 least significant bits of the XMAC-I value calculated by SS

}

reestablishmentCause

handoverFailure

}

}

}

Table 8.6.7.3.3.3-11: RRCConnectionReestablishmentComplete (step 11, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-11

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentComplete ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentComplete-r8 = SEQUENCE {

nonCriticalExtension SEQUENCE {

rlf-InfoAvailable-r9

true

nonCriticalExtension

Not present or any allowed value

}

}

}

}

Table 8.6.7.3.3.3-12: RRCConnectionReconfiguration (step 12, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

RRCConnectionReconfiguration ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

rrcConnectionReconfiguration-r8 SEQUENCE {

radioResourceConfigDedicated

RadioResourceConfigDedicated-HO

}

}

}

}

Table 8.6.7.3.3.3-13: UEInformationRequest (step 14, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23A

Information Element

Value/remark

Comment

Condition

UEInformationRequest-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationRequest-r9 SEQUENCE {

rlf-ReportReq-r9

TRUE

}

}

}

}

Table 8.6.7.3.3.3-14: UEInformationResponse (step 15, Table 8.6.7.3.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23B

Information Element

Value/remark

Comment

Condition

UEInformationResponse-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationResponse-r9 SEQUENCE {

rlf-Report-r9 SEQUENCE {

measResultLastServCell-r9 SEQUENCE {

rsrpResult-r9

(0..97)

rsrqResult-r9

Not present or (0..34)

}

measResultNeighCells-r9 SEQUENCE {

measResultListEUTRA-r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink EARFCN as used for Cell 2

carrierFreq-r9[1]

maxEARFCN

Band > 64

measResultList-r9[1] SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 2

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultsCDMA2000-r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink ARFCN as used for Cell 15

measResultList-r9 SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

preRegistrationStatusHRPD

measResultListCDMA2000 SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

physCellId[1]

PhysicalCellIdentity of Cell 15

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

pilotStrength

(0..63)

}

}

}

measResultListGERAN-r9

Not present

measResultListUTRA-r9

Not present

}

locationInfo-r10

Not present or any allowed value

failedPCellId-r10 CHOICE {

cellGlobalId-r10 or pci-arfcn-r10

If the UE has the global cell identity depending on UE implementation, the UE sets the global cell identity, otherwise the UE sets the physical cell identity and the carrier frequency.

cellGlobalId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 2

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 2

}

pci-arfcn-r10 SEQUENCE {

physCellId-r10

Physical cell Identity of Cell 2

carrierFreq-r10

Same downlink EARFCN as used for Cell 2

carrierFreq-r10

maxEARFCN

Band > 64

}

}

reestablishmentCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 2

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 2

}

timeConnFailure-r10

Any allowed value

connectionFailureType-r10

hof

previousPCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 1

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 1

}

failedPCellId-v1090 SEQUENCE {

Band > 64

carrierFreq-v1090

Same downlink EARFCN as used for Cell 2

}

}

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension SEQUENCE {

rlf-Report-v9e0 SEQUENCE {

measResultListEUTRA-v9e0 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

Band > 64

carrierFreq-v9e0[1]

Same EARFCN as Cell 2

}

}

}

}

}

}

}

}

8.6.7.4 Handover Failure logging / Reporting at UTRAN Inter-RAT handover / PLMN list

8.6.7.4.1 Test Purpose (TP)

(1)

with { UE selects the UTRAN cell and enters UTRA CELL_DCH(PS-DCCH+DTCH_DCH) after detection of handover failure in an E-UTRAN cell in RRC_CONNECTED }

ensure that {
when { UE receives a HANDOVER FROM UTRAN COMMAND message including the eutra-Message and UE selects the EPLMN which is not the RPLMN }

then { UE transmits an RRCConnectionReconfigurationComplete message containing rlf-InfoAvailable and enters E-UTRA RRC_CONNECTED state }

}

(2)

with { UE in RRC_CONNECTED having reported that the UE has handover failure information available }

ensure that {
when { UE receives the UEInformationRequest message containing rlf-ReportReq set to true }

then { UE transmits a UEInformationResponse message including rlf-Report }

}

8.6.7.4.2 Conformance requirements

References: The conformance requirements covered in the present TC are specified in: TS 36.331, clause 5.3.5.6, 5.4.2.3 and 5.6.5.3. Unless otherwise stated these are Rel-11 requirements.

[TS 36.331, clause 5.3.5.6 (TP1, TP2)]

The UE shall:

1> if T304 expires (handover failure):

NOTE 1: Following T304 expiry any dedicated preamble, if provided within the rach-ConfigDedicated, is not available for use by the UE anymore.

2> revert back to the configuration used in the source PCell, excluding the configuration configured by the physicalConfigDedicated, the mac-MainConfig and the sps-Config;

2> store the following handover failure information in VarRLF-Report by setting its fields as follows:

3> clear the information included in VarRLF-Report, if any;

3> set the plmn-IdentityList to include the list of EPLMNs stored by the UE (i.e. includes the RPLMN);

3> set the measResultLastServCell to include the RSRP and RSRQ, if available, of the PCell based on measurements collected up to the moment the UE detected handover failure;

3> set the measResultNeighCells to include the best measured cells, other than the PCell, ordered such that the best cell is listed first, and based on measurements collected up to the moment the UE detected handover failure, and set its fields as follows;

4> if the UE was configured to perform measurements for one or more EUTRA frequencies, include the measResultListEUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring UTRA frequencies, include the measResultListUTRA;

4> if the UE was configured to perform measurement reporting for one or more neighbouring GERAN frequencies, include the measResultListGERAN;

4> if the UE was configured to perform measurement reporting for one or more neighbouring CDMA2000 frequencies, include the measResultsCDMA2000;

4> for each neighbour cell included, include the optional fields that are available;

NOTE 2: The measured quantities are filtered by the L3 filter as configured in the mobility measurement configuration. The measurements are based on the time domain measurement resource restriction, if configured. Blacklisted cells are not required to be reported.

3> if detailed location information is available, set the content of the locationInfo as follows:

4> include the locationCoordinates;

4> include the horizontalVelocity, if available;

3> set the failedPCellId to the global cell identity, if available, and otherwise to the physical cell identity and carrier frequency of the target PCell of the failed handover;

3> include previousPCellId and set it to the global cell identity of the PCell where the last RRCConnectionReconfiguration message including mobilityControlInfo was received;

3> set the timeConnFailure to the elapsed time since reception of the last RRCConnectionReconfiguration message including the mobilityControlInfo;

3> set the connectionFailureType to ‘hof‘;

3> set the c-RNTI to the C-RNTI used in the source PCell;

2> initiate the connection re-establishment procedure as specified in 5.3.7, upon which the RRC connection reconfiguration procedure ends;

The UE may discard the handover failure information, i.e. release the UE variable VarRLF-Report, 48 hours after the failure is detected, upon power off or upon detach.

NOTE 3: E-UTRAN may retrieve the handover failure information using the UE information procedure with rlf-ReportReq set to true, as specified in 5.6.5.3.

[TS 36.331, clause 5.4.2.3 (TP1)]

If the UE is able to comply with the configuration included in the RRCConnectionReconfiguration message, the UE shall:

1> set the content of RRCConnectionReconfigurationComplete message as follows:

2> if the UE has radio link failure or handover failure information available in VarRLF-Report and if the RPLMN is included in plmn-IdentityList stored in VarRLF-Report:

3> include rlf-InfoAvailable;

2> if the UE has logged measurements available for E-UTRA and if the RPLMN is included in plmn-IdentityList stored in VarLogMeasReport:

3> include the logMeasAvailable;

2> if the UE has connection establishment failure information available in VarConnEstFailReport and if the RPLMN is equal to plmn-Identity stored in VarConnEstFailReport:

3> include connEstFailInfoAvailable;

[TS 36.331, clause 5.6.5.3 (TP2)]

Upon receiving the UEInformationRequest message, the UE shall:

1> if rlf-ReportReq is set to true and the UE has radio link failure information or handover failure information available in VarRLF-Report and if the RPLMN is included in plmn-IdentityList stored in VarRLF-Report:

2> set timeSinceFailure in VarRLF-Report to the time that elapsed since the last radio link or handover failure in E-UTRA;

2> set the rlf-Report in the UEInformationResponse message to the value of rlf-Report in VarRLF-Report;

2> discard the rlf-Report from VarRLF-Report upon successful delivery of the UEInformationResponse message confirmed by lower layers;

1> if the logMeasReportReq is present and if the RPLMN is included in plmn-IdentityList stored in VarLogMeasReport:

1> else:

2> submit the UEInformationResponse message to lower layers for transmission via SRB1;

8.6.7.4.3 Test description

8.6.7.4.3.1 Pre-test conditions

System Simulator:

– Cell 1, Cell 9 and Cell 12

– System information combination 4 as defined in TS 36.508 [18] clause 4.4.3.1 is used in E-UTRA cell.

Table 8.6.7.4.3.1-1: PLMN identifiers

Cell

PLMN name

1

PLMN1

9

PLMN1

12

PLMN2

UE:

None.

Preamble:

– The UE is registered on PLMN1 (Cell 1) using the procedure described in TS 36.508[18] clause 4.5.2.3 except that the ATTACH ACCEPT message indicates PLMN2 in the Equivalent PLMN list as described in Table 8.6.7.4.3.3-1

– The UE is in state Generic RB Established (state 3) on Cell 1 according to [18].

8.6.7.4.3.2 Test procedure sequence

Table 8.6.7.4.3.2-1 illustrates the downlink power levels and other changing parameters to be applied for the cells at various time instants of the test execution. Configurations marked "T1", "T2" and "T3" are applied at the points indicated in the Main behaviour description in Table 8.6.7.4.3.2-2. The exact instants on which these values shall be applied are described in the texts in this clause.

Table 8.6.7.4.3.2-1: Time instances of cell power level and parameter changes

Parameter

Unit

Cell 1

Cell 9

Cell12

Remark

T1

Cell-specific RS EPRE

dBm/15kHz

-85

-79

The power level values are such that measurement results for Cell 1 (M1) and Cell 12 (M12) satisfy entry condition for event A3 (M12 > M1).

(NOTE 1)

CPICH Ec (UTRA FDD)

dBm/3.84MHz

"Off"

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

"Off"

T1A

Cell-specific RS EPRE

dBm/15kHz

"Off"

-79

Only Cell 12 is available.

CPICH Ec (UTRA FDD)

dBm/3.84MHz

"Off"

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

"Off"

T2

Cell-specific RS EPRE

dBm/15kHz

"Off"

-85

SnonServingCell, Cell9 > Thresh Cell9,high

(NOTE 2)

CPICH Ec (UTRA FDD)

dBm/3.84MHz

-65

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

-67

T3

Cell-specific RS EPRE

dBm/15kHz

“Off”

-70

The power level values are such that entering conditions for event 3a are satisfied.

(NOTE 2)

CPICH Ec (UTRA FDD)

dBm/3.84MHz

-85

PCCPCH Ec (UTRA LCR TDD)

dBm/1.28 MHz

-85

NOTE 1: Power level "Off" for UTRA cell is defined in TS 34.108 Table 6.1.4 and Table 6.1.9.

NOTE 2: Power level “Off” for E-UTRA cell is defined in TS 36.508 Table 6.2.2.1-1.

Table 8.6.7.4.3.2-2: Main behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

1

The SS transmits an RRCConnectionReconfiguration message to setup inter-frequency measurement on Cell 1.

<–

RRCConnectionReconfiguration

2

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 1.

–>

RRCConnectionReconfigurationComplete

3

The SS changes Cell 1 and Cell 12 parameters according to the row "T1" in Table 8.6.7.4.3.2-1.

4

The UE transmits a MeasurementReport message on Cell 1.

–>

MeasurementReport

5

The SS transmits an RRCConnectionReconfiguration message on Cell 1 to order the UE to perform inter frequency handover to Cell 12.

<–

RRCConnectionReconfiguration

EXCEPTION: In parallel to the events described in step 5A the steps specified in Table 8.6.7.4.3.2-3 should take place.

5A

The SS changes Cell 1 and Cell 12 parameter according to the row "T1A" in Table 8.6.7.4.3.2-1.

6

The UE transmits an RRCConnectionReestablishmentRequest message on Cell 12.

–>

RRCConnectionReestablishmentRequest

7

The SS transmits an RRCConnectionReestablishment message on Cell 12.

<–

RRCConnectionReestablishment

8

The UE transmits an RRCConnectionReestablishmentComplete message with rlf-InfoAvailable on Cell 12.

–>

RRCConnectionReestablishmentComplete

9

The SS transmits an RRCConnectionReconfiguration message to resume existing radio bearer on Cell 12.

<–

RRCConnectionReconfiguration

10

The UE transmits an RRCConnectionReconfigurationComplete message on Cell 12.

–>

RRCConnectionReconfigurationComplete

10A

The UE transmits a TRACKING AREA UPDATE REQUEST message on Cell 12.

10B

SS responds with a TRACKING AREA UPDATE ACCEPT message.

NOTE: The TAU is accepted with PLMN1 listed as an Equivalent PLMN

10C

The UE transmits a TRACKING AREA UPDATE COMPLETE message.

11

The SS transmits an RRCConnectionRelease message on Cell 12.

<–

RRCConnectionRelease

12

Wait for 5 s for the UE to enter E-UTRA RRC_IDLE state.

13

The SS changes Cell 1, Cell 12 and Cell 9 parameters according to the row "T2" in Table 8.6.7.4.3.2-1.

14

Generic test procedure in TS 36.508 subclause 6.4.2.8 is performed on Cell 9.

NOTE: The UE performs an RAU procedure and the RRC connection is released.

Exception: Steps 14Aa1 to 14Aa1b1 describe optional behaviour that depend on the UE capability.

14Aa1

IF pc_IMS = TRUE THEN SS starts 6s timer

14Aa1a1-14Aa1a3a6

The procedure defined in TS 36.523-3 Table 10.1.2.1-2 Steps 1-4a6 is performed

14Aa1a4

SS releases RRC Connection

14Aa1a5

SS Stops 6s timer

14Aa1b1

The 6s timer expires

15-19

Step 15 to 19 of test procedure in TS 34.123-1 subclause 12.9.14.4 is performed on Cell 9 using the UTRA reference radio bearer parameters and combination “UTRA PS RB” according to TS 36.508 subclause 4.8.3 and Table 4.8.3-1.

NOTE: The UE performs NW initiated RAB re-establishment in a UTRAN cell.

For UTRAN FDD, EXCEPTION: Steps 20a1 to 20a2 describe behaviour that depends on the UE capability; the "lower case letter" identifies a step sequence that takes place if a capability is supported.

For UTRAN TDD, go to Step 21.

20a1

IF pc_UTRA_CompressedModeRequired THEN the SS transmits a PHYSICAL CHANNEL RECONFIGURATION message on Cell 9 including the DPCH compressed mode info.

<–

PHYSICAL CHANNEL RECONFIGURATION

20a2

The UE transmits a PHYSICAL CHANNEL RECONFIGURATION COMPLETE message on Cell 9.

–>

PHYSICAL CHANNEL RECONFIGURATION COMPLETE

21

The SS transmits a MEASUREMENT CONTROL message to setup inter-RAT measurement on Cell 9.

<–

MEASUREMENT CONTROL

22

The SS changes Cell 9 and Cell 12 parameters according to the row "T3" in Table 8.6.7.4.3.2-1.

23

The UE transmits a MEASUREMENT REPORT message on Cell 9 including the E-UTRA event results.

–>

MEASUREMENT REPORT

24

The SS transmits a HANDOVER FROM UTRAN COMMAND message on Cell 9.

<–

HANDOVER FROM UTRAN COMMAND

25

Check: Does the UE transmit an RRCConnectionReconfigurationComplete message with handover failure information on Cell 12?

–>

RRCConnectionReconfigurationComplete

1

P

26

Generic test procedure in TS 36.508 subclause 6.4.2.10 is performed on Cell 12.

NOTE: The UE performs tracking area updating procedure without ISR and security reconfiguration after successful completion of handover from UTRA. The TAU is accepted with PLMN1 listed as an Equivalent PLMN.

EXCEPTION: Steps 26Aa1 to 26Aa2b1 describe optional behaviour if UE sends IMS deregistration at steps 14Aa1 to 14Aa1b1

26Aa1-26Aa2b1

The procedure defined in TS 36.508 subclause 4.5A.3 Steps 10a1-10a2b1 is performed

27

The SS transmits a UEInformationRequest message on Cell 12.

<–

UEInformationRequest

28

Check: Does the UE transmit a UEInformationResponse message on Cell 12?

–>

UEInformationResponse

2

P

29

Check: Does the test result of generic test procedure in TS 36.508 subclause 6.4.2.3 indicate that the UE is in E-UTRA RRC_CONNECTED state on Cell 12?

2

Table 8.6.7.4.3.2-3: Parallel behaviour

St

Procedure

Message Sequence

TP

Verdict

U – S

Message

EXCEPTION: The steps 1 and 2 below are repeated for the duration of T304.

1

The UE attempts to perform the inter-frequency handover using MAC Random Access Preamble on Cell 12.

2

The SS does not respond.

8.6.7.4.3.3 Specific message contents

Table 8.6.7.4.3.3-0: Conditions for specific message contents
in Tables 8.6.7.4.3.3-4, 8.6.7.4.3.3-7, 8.6.7.4.3.3-14 and Table 8.6.7.4.3.3-18

Condition

Explanation

Band > 64

If band > 64 is selected

Band 24 High range

If Band 24 high frequency range is selected for the target cell

Table 8.6.7.4.3.3-1: ATTACH ACCEPT for Cell 1 (preamble)

Derivation path: 36.508 Table 4.7.2-1

Information Element

Value/Remark

Comment

Condition

Equivalent PLMNs

PLMN2

Table 8.6.7.4.3.3-2: SystemInformationBlockType2 for Cell 12 (preamble and all steps, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.4.3.3-1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType2 ::= SEQUENCE {

radioResourceConfigCommon SEQUENCE {

rach-ConfigCommon SEQUENCE {

ra-SupervisionInfo SEQUENCE {

preambleTransMax

n50

}

}

uplinkPowerControlCommon-v1020

Not present

}

lateNonCriticalExtension

Not present

ssac-BarringForMMTEL-Voice-r9

Not present

ssac-BarringForMMTEL-Video-r9

Not present

ac-BarringForCSFB-r10

Not present

}

Table 8.6.7.4.3.3-3: RRCConnectionReconfiguration (step 1, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition MEAS

Table 8.6.7.4.3.3-4: MeasConfig (Table 8.6.7.4.3.3-3)

Derivation Path: 36.508, Table 4.6.6-1

Information Element

Value/remark

Comment

Condition

MeasConfig ::= SEQUENCE {

measObjectToAddModList SEQUENCE (SIZE (1..maxObjectId)) OF SEQUENCE {

1 entry

measObjectId[1]

IdMeasObject-f1

measObject[1]

MeasObjectEUTRA-GENERIC(f1)

measObject[1]

MeasObjectEUTRA-GENERIC(maxEARFCN)

Band > 64

measObjectId[2]

IdMeasObject-f2

measObject[2]

MeasObjectEUTRA-GENERIC(f2)

measObject[2]

MeasObjectEUTRA-GENERIC(maxEARFCN)

Band > 64

}

reportConfigToAddModList SEQUENCE (SIZE (1..maxReportConfigId)) OF SEQUENCE {

1 entry

reportConfigId[1]

IdReportConfig-A3

reportConfig[1]

ReportConfigEUTRA-A3

}

measIdToAddModListSEQUENCE (SIZE (1..maxMeasId)) OF SEQUENCE {

measId[1]

1

measObjectId[1]

IdMeasObject-f2

reportConfigId[1]

IdReportConfig-A3

}

measObjectToAddModList-v9e0 ::= SEQUENCE (SIZE (1..maxObjectId)) OF {

2 entries

Band > 64

measObjectEUTRA-v9e0[1] ::= SEQUENCE {

carrierFreq-v9e0

Same downlink EARFCN as used for f1

}

measObjectEUTRA-v9e0[2] ::= SEQUENCE {

carrierFreq-v9e0

Same downlink EARFCN as used for f2

}

}

}

Table 8.6.7.4.3.3-5: MeasurementReport (step 4, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-5

Information Element

Value/remark

Comment

Condition

MeasurementReport ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

measurementReport-r8 SEQUENCE {

measResults SEQUENCE {

measId

1

measResultPCell SEQUENCE {

Cell 1

rsrpResult

(0..97)

rsrqResult

(0..34)

}

measResultNeighCells CHOICE {

measResultListEUTRA SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId

PhysicalCellIdentity of Cell 12

Cell 12

cgi-Info

Not present

measResult SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultForECID-r9

Not present

locationInfo-r10

Not present

measResultServFreqList-r10

Not present

}

}

}

}

}

Table 8.6.7.4.3.3-6: RRCConnectionReconfiguration (step 5, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8, condition HO

Table 8.6.7.4.3.3-7: MobilityControlInfo (Table 8.6.7.4.3.3-6)

Derivation Path: 36.508, Table 4.6.5-1

Information Element

Value/remark

Comment

Condition

MobilityControlInfo ::= SEQUENCE {

targetPhysCellId

PhysicalCellIdentity of Cell 12

carrierFreq SEQUENCE {

dl-CarrierFreq

Same downlink EARFCN as used for Cell 12.

ul-CarrierFreq

Not present

Same uplink EARFCN as used for Cell 12.

Band 24 High range

}

carrierFreq

Not present

Band > 64

carrierFreq-v9e0 SEQUENCE {

Band > 64

dl-CarrierFreq-v9e0

Same downlink EARFCN as used for Cell 12

}

}

Table 8.6.7.4.3.3-8: RRCConnectionReestablishmentRequest (step 6, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-13

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentRequest ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentRequest-r8 SEQUENCE {

ue-Identity SEQUENCE {

c-RNTI

the C-RNTI used in the Cell 1

physCellId

PhysicalCellIdentity of Cell 1

shortMAC-I

The same value as the 16 least significant bits of the XMAC-I value calculated by SS

}

reestablishmentCause

handoverFailure

}

}

}

Table 8.6.7.4.3.3-9: RRCConnectionReestablishmentComplete (step 8, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-11

Information Element

Value/remark

Comment

Condition

RRCConnectionReestablishmentComplete ::= SEQUENCE {

criticalExtensions CHOICE {

rrcConnectionReestablishmentComplete-r8 = SEQUENCE {

nonCriticalExtension SEQUENCE {

rlf-InfoAvailable-r9

true

nonCriticalExtension

Not present or any allowed value

}

}

}

}

Table 8.6.7.4.3.3-10: RRCConnectionReconfiguration (step 9, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-8

Information Element

Value/remark

Comment

Condition

RRCConnectionReconfiguration ::= SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE{

rrcConnectionReconfiguration-r8 SEQUENCE {

radioResourceConfigDedicated

RadioResourceConfigDedicated-HO

}

}

}

}

Table 8.6.7.4.3.3-11: MEASUREMENT CONTROL (step 21, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, clause 4.7B.1-3

Information Element

Value/remark

Comment

Condition

– Inter-RAT measurement quantity

– Measurement quantity for UTRAN quality estimate

– Filter coefficient

0

– CHOICE mode

FDD

– Measurement quantity

CPICH RSCP

– CHOICE system

E-UTRA

– Measurement quantity

RSRP

– Filter coefficient

0

– Inter-RAT reporting quantity

– UTRAN estimated quality

FALSE

– CHOICE system

E-UTRA

– Reporting quantity

both

– Reporting cell status

Not present

– CHOICE report criteria

Inter-RAT measurement reporting criteria

– Parameters required for each event

1 entry

– Inter-RAT event identity

3a

– Threshold own system

-66

– W

0

– Threshold other system

-80

– Hysteresis

0

– Time to trigger

10 ms

– Reporting cell status

– CHOICE reported cell

Report cells within active set or within virtual active set or of the other RAT

– Maximum number of reported cells

2

Table 8.6.7.4.3.3-12: HANDOVER FROM UTRAN COMMAND (step 24, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.7B.1-2

Table 8.6.7.4.3.3-13: RRCConnectionReconfiguration (Table 8.6.7.4.3.3-12)

Derivation Path: 36.508, Table 4.6.1-8, condition HO-TO-EUTRA(1,0)

Table 8.6.7.4.3.3-14: MobilityControlInfo (Table 8.6.7.4.3.3-13)

Derivation Path: 36.508, Table 4.6.5-1

Information Element

Value/remark

Comment

Condition

MobilityControlInfo ::= SEQUENCE {

targetPhysCellId

PhysicalCellIdentity of Cell 12.

carrierFreq SEQUENCE {

dl-CarrierFreq

Same downlink EARFCN as used for Cell 12.

ul-CarrierFreq

Not present

Same uplink EARFCN as used for Cell 12.

Band 24 High range

}

carrierFreq

Not present

Band > 64

carrierBandwidth SEQUENCE {

dl-Bandwidth

Same downlink system bandwidth as used for Cell 12

ul-Bandwidth

Same uplink system bandwidth as used for Cell 12

FDD

ul-Bandwidth

Not present

TDD

}

additionalSpectrumEmission

1

carrierFreq-v9e0 SEQUENCE {

Band > 64

dl-CarrierFreq-v9e0

Same downlink EARFCN as used for Cell 1

}

}

Condition

Explanation

FDD

FDD cell environment

TDD

TDD cell environment

Table 8.6.7.4.3.3-15: SecurityConfigHO (Table 8.6.7.4.3.3-14)

Derivation Path: 36.508, Table 4.6.4-1

Information Element

Value/remark

Comment

Condition

SecurityConfigHO ::= SEQUENCE {

handoverType CHOICE {

interRAT SEQUENCE {

securityAlgorithmConfig SEQUENCE {

cipheringAlgorithm

Set according to PIXIT parameter for default ciphering protection algorithm

integrityProtAlgorithm

Set according to PIXIT parameter for default integrity algorithm

}

nas-SecurityParamToEUTRA

Octets 1 to 4 are arbitrarily selected.

Bits 1 to 3 of octet 5 are set according to PIXIT parameter for default integrity protection algorithm.

Bits 5 to 7 of octet 5 are set according to PIXIT parameter for default ciphering algorithm.

Bits 1 to 3 of octet 6 are arbitrarily selected between ‘000’B and ‘110’B, different from the valid NAS key set identifier of the UE if such a value exists.

Bit 4 of octet 6 is set to 1.

Octets 1 to 4 include the NonceMME value.

Bits 1 to 3 of octet 5 include the Type of integrity protection algorithm

Bits 5 to 7 of octet 5 include the Type of ciphering algorithm.

Bits 1 to 4 of octet 6 include the NAS key set identifier.

}

}

}

Table 8.6.7.4.3.3-16: RRCConnectionReconfigurationComplete (step 25, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-9

Information Element

Value/remark

Comment

Condition

RRCConnectionReconfigurationComplete ::= SEQUENCE {

criticalExtensions CHOICE {

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension

Not present or any allowed value

nonCriticalExtension SEQUENCE {

rlf-InfoAvailable-r10

true

logMeasAvailable-r10

Not present

nonCriticalExtension

Not present or any allowed value

}

}

}

}

Table 8.6.7.4.3.3-16A: Message TRACKING AREA UPDATE ACCEPT (step 26, 8.6.7.4.3.2-2)

Derivation path: 36.508 table 4.7.2-24

Information Element

Value/Remark

Comment

Condition

Equivalent PLMNs

PLMN1

Table 8.6.7.4.3.3-17: UEInformationRequest (step 27, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23A, condition RLF report

Table 8.6.7.4.3.3-18: UEInformationResponse (step 28, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.6.1-23B

Information Element

Value/remark

Comment

Condition

UEInformationResponse-r9 ::=SEQUENCE {

criticalExtensions CHOICE {

c1 CHOICE {

ueInformationResponse-r9 SEQUENCE {

rlf-Report-r9 SEQUENCE {

measResultLastServCell-r9 SEQUENCE {

rsrpResult-r9

(0..97)

Cell 1

rsrqResult-r9

Not present or (0..34)

}

measResultNeighCells-r9 SEQUENCE {

measResultListEUTRA-r9 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

1 entry

carrierFreq-r9[1]

Same downlink EARFCN as used for Cell 12

carrierFreq-r9[1]

maxEARFCN

Band > 64

measResultList-r9[1] SEQUENCE (SIZE (1..maxCellReport)) OF SEQUENCE {

1 entry

physCellId[1]

PhysicalCellIdentity of Cell 12

cgi-Info[1]

Not present

measResult[1] SEQUENCE {

rsrpResult

(0..97)

rsrqResult

(0..34)

additionalSI-Info-r9

Not present

}

}

}

measResultListUTRA-r9

Not present

measResultListGERAN-r9

Not present

measResultsCDMA2000-r9

Not present

}

locationInfo-r10

Not present or any allowed value

failedPCellId-r10 CHOICE {

cellGlobalId-r10 or pci-arfcn-r10

If the UE has the global cell identity depending on UE implementation, the UE sets the global cell identity; otherwise the UE sets the physical cell identity and the carrier frequency.

cellGlobalId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 12

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 12

}

pci-arfcn-r10 SEQUENCE {

physCellId-r10

PhysicalCellIdentity of Cell 12

carrierFreq-r10

Same downlink EARFCN as used for Cell 12

carrierFreq-r10

maxEARFCN

Band > 64

}

}

reestablishmentCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 12

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 12

}

timeConnFailure-r10

Any allowed value

Time from UE receive HO command to the failure

connectionFailureType-r10

hof

previousPCellId-r10 SEQUENCE {

plmn-Identity

plmn-Identity within SystemInformationBlockType1 broadcasted in Cell 1

cellIdentity

cellIdentity within SystemInformationBlockType1 broadcasted in Cell 1

}

failedPCellId-v1090 SEQUENCE {

Band > 64

carrierFreq-v1090

Same downlink EARFCN as used for Cell 2

}

basicFields-r11 SEQUENCE {

c-RNTI-r11

C-RNTI used in Cell 1

rlf-Cause-r11

Any allowed value

timeSinceFailure-r11

Any value

Time elapsed from connection failure

}

previousUTRA-CellId-r11

Not present

selectedUTRA-CellId-r11

Not present

}

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension SEQUENCE {

rlf-Report-v9e0 SEQUENCE {

measResultListEUTRA-v9e0 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

Band > 64

carrierFreq-v9e0[1]

Same EARFCN as Cell 2

}

}

}

}

}

}

}

}

Table 8.6.7.4.3.3-19: TRACKING AREA UPDATE ACCEPT for Cell 12 (step 10B, Table 8.6.7.4.3.2-2))

Derivation path: 36.508 Table 4.7.2-24

Information Element

Value/Remark

Comment

Condition

Equivalent PLMNs

PLMN1

Table 8.6.7.4.3.3-20: SystemInformationBlockType6 for Cell12 (preamble, and all steps, Table 8.6.7.4.3.2-2)

Derivation Path: 36.508, Table 4.4.3.3-5

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType6 ::= SEQUENCE {

carrierFreqListUTRA-FDD SEQUENCE (SIZE (1..maxUTRA-FDD-Carrier)) OF SEQUENCE {

UTRA-FDD

carrierFreq[n]

Same downlink UARFCN as used for Cell 9

cellReselectionPriority[n]

5

}

carrierFreqListUTRA-TDD SEQUENCE (SIZE (1..maxUTRA-TDD-Carrier)) OF SEQUENCE {

UTRA-TDD

carrierFreq[n]

Same downlink UARFCN as used for Cell 9

cellReselectionPriority[n]

5

}

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment