4.4.3 Common parameters for simulated E-UTRA cells

36.5083GPPCommon test environments for User Equipment (UE) conformance testingEvolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Packet Core (EPC)Release 17TS

The parameters specified in this sub clause apply to all simulated E-UTRA cells unless otherwise specified.

4.4.3.1 Common configurations of system information blocks

For BL/CE testing the same content of system information blocks SIB2 to SIB20 are used for broadcasting on BCCH and/or BCCH-BR.

4.4.3.1.1 Combinations of system information blocks

The combination of system information blocks required by a test case depends on the test case scenario. In this clause, the following combinations of system information blocks are defined.

Combination 1 is the default combination which applies to the following test case scenarios:

– E-UTRA FDD single cell scenario

– E-UTRA TDD single cell scenario

– E-UTRA FDD intra-frequency multi cell scenario

– E-UTRA TDD intra-frequency multi cell scenario

– E-UTRA FDD and E-UTRA TDD dual mode multi cell roaming scenario

– 3GPP inter-RAT E-UTRA FDD + NR FDD multi cell scenario for RRM

– 3GPP inter-RAT E-UTRA FDD + NR TDD multi cell scenario for RRM

– 3GPP inter-RAT E-UTRA TDD + NR FDD multi cell scenario for RRM

– 3GPP inter-RAT E-UTRA TDD + NR TDD multi cell scenario for RRM

Combination 2 applies to the following test case scenarios:

– E-UTRA FDD intra-frequency multi cell scenario with neighbouring cell related information

– E-UTRA TDD intra-frequency multi cell scenario with neighbouring cell related information

Combination 3 applies to the following test case scenarios:

– E-UTRA FDD inter-frequency multi cell scenario

– E-UTRA TDD inter-frequency multi cell scenario

– E-UTRA FDD inter-band multi cell scenario

– E-UTRA TDD inter-band multi cell scenario

– E-UTRA FDD and E-UTRA TDD dual mode multi cell non-roaming scenario

– E-UTRA FDD intra-band carrier aggregation component carriers cell scenario

– E-UTRA FDD inter-band carrier aggregation component carriers cell scenario

– E-UTRA TDD intra-band carrier aggregation component carriers cell scenario

– E-UTRA FDD and E-UTRA TDD inter-band carrier aggregation component carriers cell scenario

– E-UTRA FDD dual connectivity cell scenario

– E-UTRA TDD dual connectivity cell scenario

Combination 4 applies to the following test case scenarios:

– 3GPP inter-RAT E-UTRA FDD + UTRA FDD multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + UTRA LCR TDD multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + UTRA FDD multi cell scenario

Combination 5 applies to the following test case scenarios:

– 3GPP inter-RAT E-UTRA FDD + GERAN multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + GERAN multi cell scenario

Combination 6 applies to the following test case scenarios:

– 3GPP2 inter-RAT E-UTRA FDD + HRPD multi cell scenario

– 3GPP2 inter-RAT E-UTRA TDD + HRPD multi cell scenario

– 3GPP2 inter-RAT E-UTRA FDD + 1xRTT multi cell scenario

– 3GPP2 inter-RAT E-UTRA TDD + 1xRTT multi cell scenario

Combination 7 applies to the following test case scenarios:

– E-UTRA FDD + home eNB multi cell scenario

– E-UTRA TDD + home eNB multi cell scenario

Combination 8 applies to the following test case scenarios:

– E-UTRA FDD ETWS single cell scenario

– E-UTRA TDD ETWS single cell scenario

Combination 9 applies to the following test case scenarios:

– E-UTRA FDD inter-frequency + 3GPP inter-RAT UTRA multi-cell scenario

– E-UTRA TDD inter-frequency + 3GPP inter-RAT UTRA multi-cell scenario

Combination 10 applies to the following test case scenarios:

– 3GPP inter-RAT E-UTRA FDD + UTRA FDD + GERAN multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + UTRA LCR TDD + GERAN multi cell scenario.

Combination 10a applies to the following test case scenarios:

– E-UTRA FDD inter-frequency + 3GPP inter-RAT E-UTRA FDD + UTRA FDD + GERAN multi cell scenario

– E-UTRA TDD inter-frequency + 3GPP inter-RAT E-UTRA TDD + UTRA LCR TDD + GERAN multi cell scenario

Combination 11 applies to the following test case scenarios:

– 3GPP inter-RAT E-UTRA FDD + UTRA FDD + home eNB multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + UTRA LCR TDD + home eNB multi cell scenario

Combination 12 applies to the following test case scenarios:

– E-UTRA FDD inter-frequency + GERAN cell scenario

– E-UTRA TDD inter-frequency + GERAN cell scenario

Combination 13 applies to the following test case scenarios:

– E-UTRA FDD inter-frequency + home eNB

– E-UTRA TDD inter-frequency + home eNB

Combination 14 applies to the following test case scenarios:

– 3GPP inter-RAT E-UTRA FDD + GERAN + home eNB multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + GERAN + home eNB multi cell scenario

Combination 15 applies to the following test case scenarios:

– 3GPP E-UTRA FDD single cell scenario + MBMS

– 3GPP E-UTRA TDD single cell scenario + MBMS

– 3GPP E-UTRA FDD intra-frequency multi cell scenario + MBMS

– 3GPP E-UTRA TDD intra-frequency multi cell scenario + MBMS

Combination 16 applies to the following test case scenarios:

– 3GPP E-UTRA FDD inter-frequency multi cell scenario + MBMS

– 3GPP E-UTRA TDD inter-frequency multi cell scenario + MBMS

Combination 17 applies to the following test case scenarios:

– 3GPP E-UTRA FDD + CMAS single cell scenario

– 3GPP E-UTRA TDD + CMAS single cell scenario

Combination 18 applies to the following test case scenarios:

– 3GPP E-UTRA FDD + MBMS inter-frequency multi cell scenario (non-MBMS cell broadcasting SIB15)

– 3GPP E-UTRA TDD + MBMS inter-frequency multi cell scenario (non-MBMS cell broadcasting SIB15)

– 3GPP E-UTRA FDD + SC-PTM inter-frequency multi cell scenario (non- SC-PTM cell broadcasting SIB15)

– 3GPP E-UTRA TDD + SC-PTM inter-frequency multi cell scenario (non- SC-PTM cell broadcasting SIB15)

Combination 19 applies to the following test case scenarios:

– 3GPP E-UTRA FDD + MBMS intra-frequency multi cell scenario (MBMS cell broadcasting SIB15)

– 3GPP E-UTRA TDD + MBMS intra-frequency multi cell scenario (MBMS cell broadcasting SIB15)

Combination 20 applies to the following test case scenarios:

– 3GPP E-UTRA FDD + MBMS inter-frequency multi cell scenario (MBMS cell broadcasting SIB15)

– 3GPP E-UTRA TDD + MBMS inter-frequency multi cell scenario (MBMS cell broadcasting SIB15)

– 3GPP E-UTRA FDD + MBMS inter-band multi cell scenario (MBMS cell broadcasting SIB15)

– 3GPP E-UTRA TDD + MBMS inter-band multi cell scenario (MBMS cell broadcasting SIB15)

Combination 21 applies to the following test case scenarios:

– E-UTRA FDD SIMTC single cell scenario

– E-UTRA TDD SIMTC single cell scenario

Combination 22 applies to the following test case scenarios:

– RAN assisted WLAN offload: E-UTRA FDD + WLAN AP scenarios

– RAN assisted WLAN offload: E-UTRA TDD + WLAN AP scenarios

Combination 23 is the default combination which applies to the following test case scenarios:

– E-UTRA FDD single cell scenario + sidelink direct communication

– E-UTRA TDD single cell scenario + sidelink direct communication

– E-UTRA FDD intra-frequency multi cell scenario + sidelink direct communication

– E-UTRA TDD intra-frequency multi cell scenario + sidelink direct communication

Combination 24 is the default combination which applies to the following test case scenarios:

– E-UTRA FDD single cell scenario + sidelink direct discovery

– E-UTRA TDD single cell scenario + sidelink direct discovery

– E-UTRA FDD intra-frequency multi cell scenario + sidelink direct discovery

– E-UTRA TDD intra-frequency multi cell scenario + sidelink direct discovery

Combination 25 applies to the following test case scenarios:

– 3GPP E-UTRA FDD single cell scenario + SC-PTM

– 3GPP E-UTRA TDD single cell scenario + SC-PTM

– 3GPP E-UTRA FDD intra-frequency multi cell scenario + SC-PTM

– 3GPP E-UTRA TDD intra-frequency multi cell scenario + SC-PTM

Combination 26 applies to the following test case scenarios:

– 3GPP E-UTRA FDD inter-frequency multi cell scenario + SC-PTM

– 3GPP E-UTRA TDD inter-frequency multi cell scenario + SC-PTM

Combination 27 applies to the following test case scenarios:

– 3GPP E-UTRA FDD + SC-PTM intra-frequency multi cell scenario (SC-PTM cell broadcasting SIB15)

– 3GPP E-UTRA TDD + SC-PTM intra-frequency multi cell scenario (SC-PTM cell broadcasting SIB15)

Combination 28 applies to the following test case scenarios:

– 3GPP E-UTRA FDD + SC-PTM inter-frequency multi cell scenario (SC-PTM cell broadcasting SIB15)

– 3GPP E-UTRA TDD + SC-PTM inter-frequency multi cell scenario (SC-PTM cell broadcasting SIB15)

– 3GPP E-UTRA FDD + SC-PTM inter-band multi cell scenario (SC-PTM cell broadcasting SIB15)

– 3GPP E-UTRA TDD + SC-PTM inter-band multi cell scenario (SC-PTM cell broadcasting SIB15)

Combination 29 is the default combination which applies to the following test case scenarios:

– E-UTRA FDD single cell scenario + V2X sidelink communication.

– E-UTRA TDD single cell scenario + V2X sidelink communication.

– E-UTRA FDD intra-frequency multi cell scenario + V2X sidelink communication.

– E-UTRA TDD intra-frequency multi cell scenario + V2X sidelink communication.

– E-UTRA FDD inter-frequency + V2X sidelink communication with inter-frequency scheduling

– E-UTRA TDD inter-frequency + V2X sidelink communication with inter-frequency scheduling

– E-UTRA FDD inter-band + V2X sidelink communication with inter-frequency scheduling

– E-UTRA TDD inter-band + V2X sidelink communication with inter-frequency scheduling

Combination 30 applies to the following test case scenarios:

– E-UTRA FDD intra-band carrier aggregation component carriers cell scenario + E-UTRA FDD intra-frequency neighbour.

– E-UTRA FDD inter-band carrier aggregation component carriers cell scenario+ E-UTRA FDD intra-frequency neighbour.

– E-UTRA TDD intra-band carrier aggregation component carriers cell scenario+ E-UTRA FDD intra-frequency neighbour.

– E-UTRA FDD and E-UTRA TDD inter-band carrier aggregation component carriers cell scenario+ E-UTRA FDD intra-frequency neighbour.

Combination 31 applies to the following test case scenarios:

– 3GPP inter-RAT E-UTRA FDD + NR FDD multi cell scenario

– 3GPP inter-RAT E-UTRA FDD + NR TDD multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + NR FDD multi cell scenario

– 3GPP inter-RAT E-UTRA TDD + NR TDD multi cell scenario

Combination 32 is the default combination which applies to the following test case scenarios:

– E-UTRA FDD single cell scenario + NTN

Combination 33 is the default combination which applies to the following test case scenarios:

– E-UTRA FDD intra-frequency multi cell scenario with neighbouring cell related information + NTN

– E-UTRA TDD intra-frequency multi cell scenario with neighbouring cell related information + NTN

Table 4.4.3.1.1-1: Combinations of system information blocks

System information block type

Combi­nation No.

SIB2

SIB3

SIB4

SIB5

SIB6

SIB7

SIB8

SIB9

SIB10

SIB11

SIB12

SIB13

SIB14

SIB15

SIB17

SIB18

SIB19

SIB20

SIB21

SIB24

SIB31

1

X

X

2

X

X

X

3

X

X

X

4

X

X

X

5

X

X

X

6

X

X

X

7

X

X

X

X

8

X

X

X

X

9

X

X

X

X

10

X

X

X

X

10a

X

X

X

X

X

11

X

X

X

X

X

12

X

X

X

X

13

X

X

X

X

X

14

X

X

X

X

X

15

X

X

X

16

X

X

X

X

17

X

X

X

18

X

X

X

X

19

X

X

X

X

20

X

X

X

X

X

21

X

X

X

22

X

X

X

23

X

X

X

24

X

X

X

25

X

X

X

26

X

X

X

X

27

X

X

X

X

28

X

X

X

X

X

29

X

X

X

30

X

X

X

X

31

X

X

X

32

X

X

X

33

X

X

X

X
4.4.3.1.2 Scheduling of system information blocks

The scheduling configurations for combinations of system information blocks are defined in the following tables.

Table 4.4.3.1.2-1: Scheduling for combination 1

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

Table 4.4.3.1.2-2: Scheduling for combination 2

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

Table 4.4.3.1.2-3: Scheduling for combination 3

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

Table 4.4.3.1.2-4: Scheduling for combination 4

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB6

Table 4.4.3.1.2-5: Scheduling for combination 5

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB7

Table 4.4.3.1.2-6: Scheduling for combination 6

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB8

Table 4.4.3.1.2-7: Scheduling for combination 7

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

4

See sub clause 4.4.3.4

SIB9

Table 4.4.3.1.2-8: Scheduling for combination 8

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB11

4

See sub clause 4.4.3.4

SIB10

Table 4.4.3.1.2-9: Scheduling for combination 9

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5, SIB6

Table 4.4.3.1.2-10: Scheduling for combination 10

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB6

4

See sub clause 4.4.3.4

SIB7

Table 4.4.3.1.2-10a: Scheduling for combination 10a

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5, SIB6

4

See sub clause 4.4.3.4

SIB7

Table 4.4.3.1.2-11: Scheduling for combination 11

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

4

See sub clause 4.4.3.4

SIB6

5

See sub clause 4.4.3.4

SIB9

Table 4.4.3.1.2-12: Scheduling for combination 12

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

4

See sub clause 4.4.3.4

SIB7

Table 4.4.3.1.2-13: Scheduling for combination 13

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

4

See sub clause 4.4.3.4

SIB5

Table 4.4.3.1.2-14: Scheduling for combination 14

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

4

See sub clause 4.4.3.4

SIB7

5

See sub clause 4.4.3.4

SIB9

Table 4.4.3.1.2-15: Scheduling for combination 15

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB13

Table 4.4.3.1.2-16: Scheduling for combination 16

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

4

See sub clause 4.4.3.4

SIB13

Table 4.4.3.1.2-17: Scheduling for combination 17

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB12

Table 4.4.3.1.2-18: Scheduling for combination 18

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

4

See sub clause 4.4.3.4

SIB15

Table 4.4.3.1.2-19: Scheduling for combination 19

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB13

4

See sub clause 4.4.3.4

SIB15

Table 4.4.3.1.2-20: Scheduling for combination 20

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

4

See sub clause 4.4.3.4

SIB13

5

See sub clause 4.4.3.4

SIB15

Table 4.4.3.1.2-21: Scheduling for combination 21

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB14

Table 4.4.3.1.2-22: Scheduling for combination 22

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB17

Table 4.4.3.1.2-23: Scheduling for combination 23

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB18

Table 4.4.3.1.2-24: Scheduling for combination 24

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB19

Table 4.4.3.1.2-25: Scheduling for combination 25

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB20

Table 4.4.3.1.2-26: Scheduling for combination 26

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

4

See sub clause 4.4.3.4

SIB20

Table 4.4.3.1.2-27: Scheduling for combination 27

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB15

4

See sub clause 4.4.3.4

SIB20

Table 4.4.3.1.2-28: Scheduling for combination 28

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB5

4

See sub clause 4.4.3.4

SIB15

5

See sub clause 4.4.3.4

SIB20

Table 4.4.3.1.2-29: Scheduling for combination 29

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB21

Table 4.4.3.1.2-30: Scheduling for combination 30

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

4

See sub clause 4.4.3.4

SIB5

Table 4.4.3.1.2-31: Scheduling for combination 31

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB24

Table 4.4.3.1.2-32: Scheduling for combination 32

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB31

Table 4.4.3.1.2-33: Scheduling for combination 33

Scheduling Information No.

Periodicity

[radio frames]

Mapping of system information blocks

1

16

SIB2

2

See sub clause 4.4.3.4

SIB3

3

See sub clause 4.4.3.4

SIB4

4

See sub clause 4.4.3.4

SIB31

4.4.3.2 Common contents of system information messages

MasterInformationBlock

The MasterInformationBlock includes the system information transmitted on BCH.

Table 4.4.3.2-1: MasterInformationBlock

Derivation Path: 36.331 clause 6.2.2

Information Element

Value/remark

Comment

Condition

MasterInformationBlock ::= SEQUENCE {

dl-Bandwidth

Downlink system bandwidth under test.

phich-Config SEQUENCE {}

PHICH-Config-DEFAULT

See subclause 4.6.3

systemFrameNumber

A valid value as defined in TS 36.331 [17]

schedulingInfoSIB1-BR-r13

0

Value 0 means that SystemInformationBlockType1-BR is not scheduled.

schedulingInfoSIB1-BR-r13

10

4 PDSCH repetitions and

504 bits TBS carrying for PDSCH carrying SystemInformationBlockType1-BR (TS 36.213 [23] Table 7.1.6.1 and Table 7.1.7.2.7-1)

CEmodeA, CEmodeB

spare

‘0000 0000 00’B

spare

‘0000 0’B

CEmodeA, CEmodeB

}

Condition

Explanation

CEmodeA

CE mode A test environment

CEmodeB

CE mode B test environment

SystemInformation

The SystemInformation message is used to convey one or more System Information Blocks. All the SIBs included are transmitted with the same periodicity.

Table 4.4.3.2-2: SystemInformation

Derivation Path: 36.331 clause 6.2.2

Information Element

Value/remark

Comment

Condition

SystemInformation ::= SEQUENCE {

criticalExtensions CHOICE {

systemInformation-r8 SEQUENCE {

sib-TypeAndInfo SEQUENCE (SIZE (1..maxSIB)) OF CHOICE {}

See subclause 4.4.3.1

criticalExtensionsFuture SEQUENCE {}

Not present

}

}

}

SystemInformation-BR-r13

The SystemInformation-BR-r13 message is used to convey one or more System Information Blocks for Bandwith Redused cell envirionment . All the SIBs included are transmitted with the same periodicity.

Table 4.4.3.2-2A: SystemInformation-BR-r13

Derivation Path: 36.331 clause 6.2.2

Information Element

Value/remark

Comment

Condition

SystemInformation-BR-r13 ::= SEQUENCE {

criticalExtensions CHOICE {

systemInformation-r8 SEQUENCE {

sib-TypeAndInfo SEQUENCE (SIZE (1..maxSIB)) OF CHOICE {}

See subclause 4.4.3.1

criticalExtensionsFuture SEQUENCE {}

Not present

}

}

}

SystemInformationBlockType1

SystemInformationBlockType1 contains information relevant when evaluating if a UE is allowed to access a cell and defines the scheduling of other system information.

Table 4.4.3.2-3: SystemInformationBlockType1

Derivation Path: 36.331 clause 6.2.2

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType1 ::= SEQUENCE {

cellAccessRelatedInfo SEQUENCE {

plmn-IdentityList SEQUENCE (SIZE (1..6)) OF SEQUENCE {

1 entry

plmn-Identity[1] SEQUENCE {

mcc SEQUENCE (SIZE (3)) OF MCC-NMC-Digit

See table 4.4.2-2

For NAS test cases, see table 6.3.2.2-1.

mnc SEQUENCE (SIZE (2..3)) OF MCC-NMC-Digit

See table 4.4.2-2

For NAS test cases, see table 6.3.2.2-1.

}

cellReservedForOperatorUse[1]

notReserved

}

trackingAreaCode

See table 4.4.2-2

For NAS test cases, see table 6.3.2.2-1.

cellIdentity

Cell ID for the simulated cell

cellBarred

notBarred

barred

NTN

intraFreqReselection

notAllowed

csg-Indication

FALSE

csg-Identity

Not present

}

cellSelectionInfo SEQUENCE {

q-RxLevMin

-70 (-140 dBm)

For RF/RRM test cases

RF

-53 (-106 dBm)

For signalling test cases in normal coverage

-27 (-54dBm)

For signalling test cases in enhanced coverage

The value has been selected such that the UE at signal levels for ”Serving cell” and “Suitable neighbour intra-frequency cell” are applied then the cell selection criterion for normal coverage is not fullfilled.

SIG AND (

CEmodeA OR CEmodeB)

q-RxLevMinOffset

Not present

}

p-Max

Not present

freqBandIndicator

Operating band under test.

freqBandIndicator

64

maxFBI

Band > 64

schedulingInfoList SEQUENCE (SIZE (1..maxSI-Message)) OF SEQUENCE {}

See subclause 4.4.3.1

tdd-Config SEQUENCE {}

Not present

FDD

tdd-Config SEQUENCE {}

TDD-Config-DEFAULT

See subclause 4.6.3

TDD

si-WindowLength

ms20

To allow sufficient number of retransmissions.

systemInfoValueTag

0

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension SEQUENCE {

Not present

nonCriticalExtension SEQUENCE {

Band > 64

freqBandIndicator-v9e0

Operating band under test.

}

}

nonCriticalExtension SEQUENCE {

ims-EmergencySupport-r9

True

Support IMS emergency call in limited service mode.

cellSelectionInfo-v920 SEQUENCE {}

Not present

cellSelectionInfo-v920 SEQUENCE {

QBASED

q-QualMin-r9

-20 (-20dB)

q-QualMinOffset-r9

Not present

}

nonCriticalExtension SEQUENCE {

Not present

tdd-Config-v1130

Not present

cellSelectionInfo-v1130

Not present

nonCriticalExtension

Not present

nonCriticalExtension SEQUENCE {

UECAT0

cellAccessRelatedInfo-v1250 SEQUENCE {

category0Allowed-r12

True

Cat 0 Allowed

}

cellSelectionInfo-v1250

Not present

freqBandIndicatorPriority-r12

Not present

nonCriticalExtension SEQUENCE{

hyperSFN-r13

Not present

eDRXAllowed-r13

Not present

cellSelectionInfoCE-r13

Not present

bandwidthReducedAccessRelatedInfo-r13

Not present

nonCriticalExtension SEQUENCE {

eCalloverIMS

eCallOverIMS-Support-r14

True

Support eCall over IMS services.

tdd-Config-v1430

Not present

cellAccessRelatedInfoList-r14 SEQUENCE { }

Not present

nonCriticalExtension

Not present

nonCriticalExtension SEQUENCE {

NTN

nonCriticalExtension SEQUENCE {

nonCriticalExtension SEQUENCE {

nonCriticalExtension SEQUENCE {

nonCriticalExtension SEQUENCE {

cellAccessRelatedInfo-v1700 SEQUENCE {

cellBarred-NTN-r17

notBarred

}

nonCriticalExtension

Not present

}

}

}

}

}

}

}

}

}

}

}

}

Condition

Explanation

FDD

FDD cell environment

TDD

TDD cell environment

QBASED

This condition applies to Quality based cell (re)selection signalling test cases.

UECAT0

This condition applies when UE under test is a UE of Category 0.

RF

For RF, performance and RRM testing

SIG

For protocol testing

CEmodeA

CE mode A test environment

CEmodeB

CE mode B test environment

Band > 64

If band > 64 is selected

eCalloverIMS

eCall over IMS test environment

NTN

Non-Terrestrial Networks test environment

– SystemInformationBlockType1-BR-r13

SystemInformationBlockType1-BR-r13 contains information relevant when evaluating if a UE in a Bandwith Reduced cell environment is allowed to access a cell and defines the scheduling of other system information.

Table 4.4.3.2-3A: SystemInformationBlockType1-BR-r13

Derivation Path: 36.331 clause 6.2.2

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType1-BR-r13 ::= SEQUENCE {

cellAccessRelatedInfo SEQUENCE {

plmn-IdentityList SEQUENCE (SIZE (1..6)) OF SEQUENCE {

1 entry

plmn-Identity[1] SEQUENCE {

mcc SEQUENCE (SIZE (3)) OF MCC-NMC-Digit

See table 4.4.2-2

For NAS test cases, see table 6.3.2.2-1.

mnc SEQUENCE (SIZE (2..3)) OF MCC-NMC-Digit

See table 4.4.2-2

For NAS test cases, see table 6.3.2.2-1.

}

cellReservedForOperatorUse[1]

notReserved

}

trackingAreaCode

See table 4.4.2-2

For NAS test cases, see table 6.3.2.2-1.

cellIdentity

Cell ID for the simulated cell

cellBarred

notBarred

intraFreqReselection

notAllowed

csg-Indication

FALSE

csg-Identity

Not present

}

cellSelectionInfo SEQUENCE {

q-RxLevMin

-70 (-140 dBm)

For RF/RRM test cases

RF

-27 (-54 dBm)

For signalling test cases

SIG and ENHANCED COVERAGE

-53 (-106 dBm)

For signalling test cases

SIG and NORMAL COVERAGE

q-RxLevMinOffset

Not present

}

p-Max

Not present

freqBandIndicator

Operating band under test.

freqBandIndicator

64

maxFBI

Band > 64

schedulingInfoList SEQUENCE (SIZE (1..maxSI-Message)) OF SEQUENCE {}

See subclause 4.4.3.1

tdd-Config SEQUENCE {}

Not present

FDD

tdd-Config SEQUENCE {}

TDD-Config-DEFAULT

See subclause 4.6.3

TDD

si-WindowLength

ms20

To allow sufficient number of retransmissions.

systemInfoValueTag

0

nonCriticalExtension SEQUENCE {

lateNonCriticalExtension

Not present

nonCriticalExtension SEQUENCE {

Band > 64

freqBandIndicator-v9e0

Operating band under test.

}

}

nonCriticalExtension SEQUENCE {

ims-EmergencySupport-r9

True

Support IMS emergency call in limited service mode.

cellSelectionInfo-v920 SEQUENCE {}

Not present

cellSelectionInfo-v920 SEQUENCE {

QBASED

q-QualMin-r9

-20 (-20dB)

q-QualMinOffset-r9

Not present

}

nonCriticalExtension SEQUENCE {

tdd-Config-v1130

Not present

cellSelectionInfo-v1130

Not present

nonCriticalExtension SEQUENCE {

cellAccessRelatedInfo-v1250 SEQUENCE {

category0Allowed-r12

Not Present

category0Allowed-r12

True

Cat 0 Allowed

UECAT0

}

cellSelectionInfo-v1250

Not present

freqBandIndicatorPriority-r12

Not present

nonCriticalExtension SEQUENCE {

hyperSFN-r13

Not present

eDRX-Allowed-r13

Not present

eDRX-Allowed-r13

True

eDRX

cellSelectionInfoCE-r13

CellSelectionInfoCE-r13-DEFAULT

bandwidthReducedAccessRelatedInfo-r13 SEQUENCE {

si-WindowLength-BR-r13

ms20

To allow sufficient number of retransmissions.

si-RepetitionPattern-r13

every2ndRF

ENUMERATED {everyRF, every2ndRF, every4thRF, every8thRF}

schedulingInfoList-BR-r13 SEQUENCE (SIZE (1..maxSI-Message)) OF SEQUENCE {

n entries

n is the same number of entries, and listed in the same order, as in SchedulingInfoList (without suffix)

si-Narrowband-r13[1]

1

si-Narrowband-r13[1]

2

20MHz BW

si-TBS-r13[1]

b712

….

si-Narrowband-r13[n]

1

si-Narrowband-r13[n]

2

20MHz BW

si-TBS-r13[n]

b712

}

fdd-DownlinkOrTddSubframeBitmapBR-r13

Not present

All non-MBSFN subframes are considered as valid subframes for FDD downlink or TDD transmissions

fdd-UplinkSubframeBitmapBR-r13

Not present

All FDD uplink subframes are considered as valid subframes

startSymbolBR-r13

3

FDD

2

TDD

si-HoppingConfigCommon-r13

off

si-ValidityTime-r13

True

systemInfoValueTagList-r13 SEQUENCE (SIZE (1..maxSI-Message)) OF

n entries

n is the same number of entries, and listed in the same order, as in SchedulingInfoList (without suffix)

SystemInfoValueTagSI-r13[1]

0

….

SystemInfoValueTagSI-r13[n]

0

}

nonCriticalExtension

Not present

nonCriticalExtension SEQUENCE {

FREQ HOPPING

freqHoppingParametersDL-r13

SEQUENCE {

mpdcch-pdsch-HoppingNB-r13

nb4

4 narrowbands

interval-DLHoppingConfigCommonModeA-r13 CHOICE {

interval-FDD-r13

int4

FDD

interval-TDD-r13

Int5

TDD

}

interval-DLHoppingConfigCommonModeB-r13 CHOICE {

interval-FDD-r13

int16

FDD

interval-TDD-r13

int20

TDD

}

mpdcch-pdsch-HoppingOffset-r13

2

INTEGER (1..16 (maxAvailNarrowBands-r13))

}

nonCriticalExtension

Not present

}

}

}

}

}

}

}

Condition

Explanation

FDD

FDD cell environment

TDD

TDD cell environment

QBASED

This condition applies to Quality based cell (re)selection signalling test cases.

UECAT0

This condition applies when UE under test is a UE of Category 0.

eDRX

This condition applies when UE under test is in enhanced coverage and eDRX is allowed.

RF

For RF, performance and RRM testing

SIG

For Signalling tests

FREQ HOPPING

This condition applies when MPDCCH/PDSCH frequency hopping is used

NORMAL COVERAGE

Normal coverage testing

ENHANCED COVERAGE

This condition applies for enhanced coverage testing

20MHz BW

Used for cells with 20MHz bandwidth

Band > 64

If band > 64 is selected

4.4.3.3 Common contents of system information blocks

SystemInformationBlockType2

The IE SystemInformationBlockType2 contains radio resource configuration information that is common for all UEs.

Table 4.4.3.3-1: SystemInformationBlockType2

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType2 ::= SEQUENCE {

ac-BarringInfo SEQUENCE {}

Not present

radioResourceConfigCommon SEQUENCE {}

RadioResourceConfigCommonSIB-DEFAULT

See subclause 4.6.3

ue-TimersAndConstants SEQUENCE {

t300

ms1000

Typical value in real network

t301

ms1000

Typical value in real network

t310

ms1000

Typical value in real network

n310

n1

t311

ms10000

Typical value in real network

n311

n1

}

freqInfo SEQUENCE {

ul-CarrierFreq

Not present

Default UL EARFCN applies

EARFCN of UL in test frequency Table 4.3.1.1.24-1

Band 24 High range

ul-Bandwidth

Not Present

additionalSpectrumEmission

1 (NS_01)

A-MPR doesn’t apply by default.

See TS 36.101 table 6.2.4-1.

additionalSpectrumEmission

32

When IE AdditionalSpectrumEmission – v10l0 is used, 32 should be set to IE AdditionalSpectrumEmission.

NS value > 32

}

mbsfn-SubframeConfigList

Not present

mbsfn-SubframeConfigList SEQUENCE (SIZE (1..maxMBSFN-Allocations)) OF SEQUENCE {

MBMS

radioframeAllocationPeriod

n4

radioframeAllocationOffset

1

FDD

0

TDD

subframeAllocation CHOICE{

oneFrame

‘100000’ B

FDD

‘000010’ B

TDD

}

}

timeAlignmentTimerCommon

sf750

‘sf750’ is applicable to the widest range of mobility (up to about 360km/h).

lateNonCriticalExtension SEQUENCE {

Not present

lateNonCriticalExtension SEQUENCE {

OCTET STRING (CONTAINING SystemInformationBlockType2-v8h0-IEs)

NS value > 32

multiBandInfoList

Not present

nonCriticalExtension SEQUENCE {

ul-CarrierFreq-v9e0

Not present

nonCriticalExtension SEQUENCE {

nonCriticalExtension SEQUENCE {

OCTET STRING (CONTAINING SystemInformationBlockType2-v10m0-IEs)

freqInfo-v10l0 SEQUENCE {

additionalSpectrumEmission-v10l0

Specify the network signaling value corresponding to the E-UTRA Band defined in TS 36.101 table 6.2.4-1

multiBandInfoList-v10l0

Not present

nonCriticalExtension SEQUENCE {}

Not present

}

Dummy

Not present

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

}

}

}

}

}

unicastFreqHoppingInd-r13

true

Enabled only for CE Mode test cases requiring frequency hopping.

CEfreqHopp

cIoT-EPS-OptimisationInfo-r13 SEQUENCE (SIZE (1.. maxPLMN-r11)) OF SEQUENCE {

CIoT-test

up-CIoT-EPS-Optimisation-r13

true

cp-CIoT-EPS-Optimisation-r13

true

attachWithoutPDN-Connectivity-r13

false

}

useFullResumeID-r13

Not present

plmn-InfoList-r15

Not present

plmn-InfoList-r15 SEQUENCE (SIZE (1..maxPLMN-r11)) OF SEQUENCE {

1 entry

5G

upperLayerIndication-r15[1]

true

}

}

Condition

Explanation

MBMS

MBMS cell environment

FDD

FDD cell environment

TDD

TDD cell environment

CEfreqHopp

Used when frequency hopping is used in CE test cases

CIoT-test

CIoT test environment

NS value > 32

When A-MPR applies with Network Signaling value > 32

5G

Applicable to 5G test cases defined in TS 38.523-1 [71]

Band 24 High range

Applicable for test IDs with Band 24 High range

SystemInformationBlockType3

The IE SystemInformationBlockType3 contains cell re-selection information common for intra-frequency, inter-frequency and/or inter-RAT cell re-selection (i.e. applicable for more than one type of cell re-selection but not necessarily all) as well as intra-frequency cell re-selection information other than neighbouring cell related.

Table 4.4.3.3-2: SystemInformationBlockType3

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType3 ::= SEQUENCE {

cellReselectionInfoCommon SEQUENCE {

q-Hyst

dB0

To reduce interference between intra-frequency multiple cells

speedStateReselectionPars SEQUENCE {}

Not present

}

cellReselectionServingFreqInfo SEQUENCE {

s-NonIntraSearch

Not present

threshServingLow

0 (0 dB)

Typical value in real network

cellReselectionPriority

4

A middle value in the range has been selected.

}

intraFreqCellReselectionInfo SEQUENCE {

q-RxLevMin

-70 (-140 dBm)

For RF/RRM test cases

-106 dBm

For signalling test cases

p-Max

Not present

s-IntraSearch

Not present

allowedMeasBandwidth

Not present

The downlink bandwidth of the serving cell applies.

presenceAntennaPort1

FALSE

TRUE

At least two cell-specific antenna ports are used in all neighbouring cells.

All neighCells with port1

neighCellConfig

’01’B (No MBSFN subframes are present in all neighbour cells)

MBSFN doesn’t apply by default.

t-ReselectionEUTRA

0

Typical value in real network

t-ReselectionEUTRA-SF

Not present

}

lateNonCriticalExtension {

s-IntraSearch-v920 SEQUENCE {}

Not present

s-NonIntraSearch-v920 SEQUENCE {}

Not present

q-QualMin-r9

Not present

-20 (-20dB)

QBASED

threshServingLowQ-r9

Not present

3 (3dB)

QBASED

cellSelectionInfoCE-r13

CellSelectionInfoCE-r13-DEFAULT

CEmodeA, CEmodeB

Not present

t-ReselectionEUTRA-CE-r13

0

CEmodeA, CEmodeB

Not present

}

}

Condition

Explanation

QBASED

See the definition below table 4.4.3.2-3.

All neighCells with port1

Used for all neighbouring cells with at least two cell-specific antenna ports

CEmodeA

CE mode A test environment

CEmodeB

CE mode B test environment

SystemInformationBlockType4

The IE SystemInformationBlockType4 contains neighbouring cell related information relevant only for intra-frequency cell re-selection. The IE includes cells with specific re-selection parameters as well as blacklisted cells.

Table 4.4.3.3-3: SystemInformationBlockType4

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType4 ::= SEQUENCE {

intraFreqNeighCellList SEQUENCE (SIZE (1..maxCellIntra)) OF SEQUENCE {}

Not present

Not required unless Qoffset configuration is tested. When Qoffset configuration is tested, see table 6.3.1.1-1.

intraFreqBlackCellList SEQUENCE (SIZE (1..maxCellBlack)) OF SEQUENCE {}

Not present

Not required unless Blacklisted cell list configuration is tested. When Blacklisted cell list configuration is tested, see table 6.3.1.1-1.

csg-PhysCellIdRange SEQUENCE {}

Not present

NonCSG

csg-PhysCellIdRange SEQUENCE {

CSG

start

Physical Cell ID of the cell on which this SIB is transmitted

range

Not present

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.

}

}

Condition

Explanation

NonCSG

SIB4 transmitted on a non-CSG cell

CSG

SIB4 transmitted on a CSG cell

SystemInformationBlockType5

The IE SystemInformationBlockType5 contains information relevant only for inter-frequency cell re-selection i.e. information about other E‑UTRA frequencies and inter-frequency neighbouring cells relevant for cell re-selection. The IE includes cell re-selection parameters common for a frequency as well as cell specific re-selection parameters.

Table 4.4.3.3-4: SystemInformationBlockType5

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType5 ::= SEQUENCE {

interFreqCarrierFreqList SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

The same number of entries as the configured inter-freq carriers. For Signalling test cases except NAS, see table 6.3.1.2-1.

For NAS test cases when cells are on same PLMN, see table 6.3.2.3.2-1.

n denotes the index of the entry

dl-CarrierFreq[n]

Downlink EARFCN under test

For Signalling test cases except NAS, see table 6.3.1.2-1.

For NAS test cases when cells are on same PLMN, see table 6.3.2.3.2-1.

dl-CarrierFreq[n]

65535

maxEARFCN

Band > 64

q-RxLevMin[n]

-65 (-130 dBm)

For RF/RRM test cases

-106 dBm

For signalling test cases

p-Max[n]

Not present

t-ReselectionEUTRA[n]

0

Typical value in real network

t-ReselectionEUTRA-SF[n]

Not present

Not required unless speed-dependent cell re-selection is tested.

threshX-High[n]

2 (4 dB)

This value should be higher than threshServingLow of the serving cell to avoid ping-pong with lower priority cells.

threshX-Low[n]

1 (2 dB)

allowedMeasBandwidth[n]

See subclause 4.4.3.4

Channel-bandwidth-dependent parameter

presenceAntennaPort1[n]

FALSE

TRUE

At least two cell-specific antenna ports are used in all neighbouring cells.

All neighCells with port1

cellReselectionPriority[n]

4

The same priority as the one used for serving cell in SIB 3.

neighCellConfig[n]

’01’B (No MBSFN subframes are present in all neighbour cells)

MBSFN doesn’t apply by default.

q-OffsetFreq[n]

dB0

Qoffset doesn’t apply by default.

interFreqNeighCellList[n] SEQUENCE (SIZE (1..maxCellInter)) OF SEQUENCE {}

Not present

Not required unless Qoffset configuration is tested.

interFreqBlackCellList[n] SEQUENCE (SIZE (1..maxCellBlack)) OF SEQUENCE {}

Not present

Not required unless Blacklisted cell list configuration is tested.

q-QualMin-r9[n]

Not present

-20 (-20dB)

QBASED

threshX-Q-r9[n] SEQUENCE {}

Not present

threshX-Q-r9[n] SEQUENCE {

QBASED

threshX-HighQ-r9

5 (5dB)

threshX-LowQ-r9

5 (5dB)

}

}

SystemInformationBlockType5-v8h0-IEs SEQUENCE {

nonCriticalExtension SEQUENCE {

Band > 64

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

dl-CarrierFreq-v9e0[n]

Downlink EARFCN under test

For Signalling test cases except NAS, see table 6.3.1.2-1.

For NAS test cases when cells are on same PLMN, see table 6.3.2.3.2-1

}

}

}

interFreqCarrierFreqList-v1250[n] SEQUENCE {}

Not present

interFreqCarrierFreqListExt-r12[n] SEQUENCE {}

Not present

interFreqCarrierFreqListExt-v1280[n] SEQUENCE {}

Not present

interFreqCarrierFreqList-v1310[n] SEQUENCE {}

Not present

interFreqCarrierFreqListExt-v1310[n] SEQUENCE {}

Not present

}

Condition

Explanation

QBASED

See the definition below table 4.4.3.2-3.

All neighCells with port1

Used for all neighbouring cells with at least two cell-specific antenna ports

Band > 64

If band > 64 is selected

SystemInformationBlockType6

The IE SystemInformationBlockType6 contains information relevant only for inter-RAT cell re-selection i.e. information about UTRA frequencies and UTRA neighbouring cells relevant for cell re-selection. The IE includes cell re-selection parameters common for a frequency.

Table 4.4.3.3-5: SystemInformationBlockType6

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType6 ::= SEQUENCE {

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

Not present

UTRA-TDD

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

The same number of entries as the configured UTRA FDD carriers

For Signalling test cases, see table 6.3.1.3-1

n denotes the index of the entry

UTRA-FDD

carrierFreq[n]

Downlink UARFCN under test

For Signalling test cases, see table 6.3.1.3-1

cellReselectionPriority[n]

3

threshX-High[n]

2 (4 dB)

threshX-Low[n]

1 (2 dB)

q-RxLevMin[n]

-40 (-79 dBm)

The same value as defined in TS 34.108 [5], table 6.1.1.

p-MaxUTRA[n]

21 (21 dBm)

The same value as defined in TS 34.108 [5], table 6.1.1.

q-QualMin[n]

-24 (-24 dB)

The same value as defined in TS 34.108 [5], table 6.1.1.

threshX-Q-r9[n] SEQUENCE {}

Not present

threshX-Q-r9[n] SEQUENCE {

QBASED

threshX-HighQ-r9

9 (9dB)

threshX-LowQ-r9

9 (9dB)

}

}

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

Not present

UTRA-FDD

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

The same number of entries as the configured UTRA TDD carriers

For Signalling test cases, see table 6.3.1.3-1

n denotes the index of the entry

UTRA-TDD

carrierFreq[n]

Downlink UARFCN under test

For Signalling test cases, see table 6.3.1.3-1

cellReselectionPriority[n]

3

threshX-High[n]

2 (4 dB)

threshX-Low[n]

1 (2 dB)

q-RxLevMin[n]

-41 (-81 dBm)

The same value as defined in TS 34.108 [5], table 6.1.6a

p-MaxUTRA[n]

21 (21 dBm)

The same value as defined in TS 34.108 [5], table 6.1.6a

}

t-ReselectionUTRA

0

Typical value in real network

t-ReselectionUTRA-SF

Not present

}

Condition

Explanation

UTRA-FDD

UTRA FDD cell environment

UTRA-TDD

UTRA TDD cell environment

QBASED

See the definition below table 4.4.3.2-3.

SystemInformationBlockType7

The IE SystemInformationBlockType7 contains information relevant only for inter-RAT cell re-selection i.e. information about GERAN frequencies relevant for cell re-selection. The IE includes cell re-selection parameters for each frequency.

Table 4.4.3.3-6: SystemInformationBlockType7

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType7 ::= SEQUENCE {

t-ReselectionGERAN

0

t-ReselectionGERAN-SF

Not present

carrierFreqsInfoListSEQUENCE (SIZE (1..maxGNFG)) OF SEQUENCE {

The same number of entries as the configured GERAN carriers

For RRM test cases, see table 7.2.2.1-1

For Signalling test cases, see table 6.3.1.4-1

n denotes the index of the entry

carrierFreqs [n] SEQUENCE {

startingARFCN[n]

Set the corresponding starting ARFCN of the GERAN cells under test.

For RRM test cases, see table 7.2.2.1-1

For Signalling test cases, see table 6.3.1.4-1

bandIndicator[n]

Set according to the band used for GERAN cells under test

followingARFCNs[n] CHOICE {

explicitListOfARFCNs[n]

Set the corresponding ARFCN of GERAN cells under test

For RRM test cases, see table 7.2.2.1-1

For Signalling test cases, see table 6.3.1.4-1

}

}

commonInfo[n] SEQUENCE {

cellReselectionPriority[n]

2

ncc-Permitted[n]

‘01000000’B

NCC=1 permitted

q-RxLevMin[n]

2

p-MaxGERAN[n]

0

threshX-High[n]

2

threshX-Low[n]

2

}

}

}

SystemInformationBlockType8

The IE SystemInformationBlockType8 contains information relevant only for inter-RAT cell re-selection i.e. information about CDMA2000 frequencies and CDMA2000 neighbouring cells relevant for cell re-selection. The IE includes cell re-selection parameters common for a frequency as well as cell specific re-selection parameters.

Table 4.4.3.3-7: SystemInformationBlockType8

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType8 ::= SEQUENCE {

systemTimeInfo SEQUENCE {

cdma-EUTRA-Synchronisation

TRUE

cdma-SystemTime CHOICE {

synchronousSystemTime

A valid value as per TS 36.331 and calculated by the SS

}

}

searchWindowSize

5

parametersHRPD SEQUENCE {}

Not present

1XRTT

parametersHRPD SEQUENCE {

HRPD

preRegistrationInfoHRPD SEQUENCE {

preRegistrationAllowed

FALSE

preRegistrationZoneId

Not present

secondaryPreRegistrationZoneIdList

Not present

}

cellReselectionParametersHRPD SEQUENCE {

bandClassList SEQUENCE (SIZE (1..maxCDMA -BandClass)) OF SEQUENCE {

1 entry

bandClass

Operating band class under test.

ENUMERATED {bc0, bc1, bc2, bc3, bc4, bc5, bc6, bc7, bc8, bc9, bc10, bc11, bc12, bc13, bc14, bc15, bc16, bc17, spare14, spare13, spare12, spare11, spare10, spare9, spare8, spare7, spare6, spare5, spare4, spare3, spare2, spare1, …}

cellReselectionPriority

1

threshX-High

30(-30)

INTEGER (0..63)

threshX-Low

32(-32)

INTEGER (0..63)

}

neighCellList SEQUENCE (SIZE (1..16)) OF SEQUENCE {

1 entry

bandClass

Operating band class under test

ENUMERATED {bc0, bc1, bc2, bc3, bc4, bc5, bc6, bc7, bc8, bc9, bc10, bc11, bc12, bc13, bc14, bc15, bc16, bc17, spare14, spare13, spare12, spare11, spare10, spare9, spare8, spare7, spare6, spare5, spare4, spare3, spare2, spare1, …}

neighCellsPerFreqList SEQUENCE (SIZE (1..16)) OF SEQUENCE {

The same number of entries as the configured CDMA2000 HRPD frequencies

For Signalling test cases, see table 6.3.1.5-1

n denotes the index of the entry

arfcn[n]

ARFCN of the CDMA2000 HRPD frequency

For Signalling test cases, see table 6.3.1.5-1

INTEGER (0..2047)

physCellIdList[n] SEQUENCE (SIZE (1..16)) OF {INTEGER (0..maxPNOffset) }

Physical Cell ID List of the CDMA2000 HRPD frequency

For Signalling test cases, see table 6.3.1.5-1

INTEGER (0..maxPNOffset)

}

}

t-ReselectionCDMA2000

0

INTEGER (0..7)

t-ReselectionCDMA2000-SF

Not Present

}

}

parameters1XRTT SEQUENCE {}

Not present

HRPD

parameters1XRTT SEQUENCE {

1XRTT

csfb-RegistrationParam1XRTT SEQUENCE {

longCodeState1XRTT

A valid value, calculated and updated by the SS

BIT STRING (SIZE (42)) OPTIONAL

cellReselectionParameters1XRTT SEQUENCE {

bandClassList SEQUENCE (SIZE (1..maxCDMA -BandClass)) OF SEQUENCE {

1 entry

bandClass

Operating band class under test

ENUMERATED {bc0, bc1, bc2, bc3, bc4, bc5, bc6, bc7, bc8, bc9, bc10, bc11, bc12, bc13, bc14, bc15, bc16, bc17, spare14, spare13, spare12, spare11, spare10, spare9, spare8, spare7, spare6, spare5, spare4, spare3, spare2, spare1, …}

cellReselectionPriority

0

threshX-High

30(-30)

INTEGER (0..63)

threshX-Low

32(-32)

INTEGER (0..63)

}

neighCellList SEQUENCE (SIZE (1..16)) OF SEQUENCE {

1 entry

bandClass

Operating band class under test

ENUMERATED {bc0, bc1, bc2, bc3, bc4, bc5, bc6, bc7, bc8, bc9, bc10, bc11, bc12, bc13, bc14, bc15, bc16, bc17, spare14, spare13, spare12, spare11, spare10, spare9, spare8, spare7, spare6, spare5, spare4, spare3, spare2, spare1, …}

neighCellsPerFreqList SEQUENCE (SIZE (1..16)) OF SEQUENCE {

The same number of entries as the configured CDMA2000 1xRTT frequencies

For Signalling test cases, see table 6.3.1.6-1

n denotes the index of the entry

arfcn[n]

ARFCN of the CDMA2000 1xRTT frequency

For Signalling test cases, see table 6.3.1.6-1

INTEGER (0..2047)

physCellIdList[n] SEQUENCE (SIZE (1..16)) OF {INTEGER (0..maxPNOffset) }

Physical Cell ID List of the CDMA2000 1xRTT frequency

For Signalling test cases, see table 6.3.1.6-1

INTEGER (0..maxPNOffset)

}

}

t-ReselectionCDMA2000

0

INTEGER (0..7)

t-ReselectionCDMA2000-SF

Not Present

}

}

}

Condition

Explanation

HRPD

CDMA2000 HRPD cell environment

1XRTT

CDMA2000 1XRTT cell environment

SystemInformationBlockType9

The IE SystemInformationBlockType9 contains a home eNB name (HNB Name).

Table 4.4.3.3-8: SystemInformationBlockType9

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType9 ::= SEQUENCE {

hnb-Name

“3gppTest”

}

SystemInformationBlockType10

The IE SystemInformationBlockType10 contains an ETWS primary notification.

Table 4.4.3.3-9: SystemInformationBlockType10

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType10 ::= SEQUENCE {

messageIdentifier

‘0001 0001 0000 0010’B

ETWS message identifier for earthquake and tsunami message [see TS 23.041]

serialNumber

– Geographical Scope (2 bit)

– Message Code (10 bit)

– Emergency User Alert (1 bit)

– Popup (1 bit)

– Update Number (4 bit)

‘0011 0000 0000 0000’B

Octet 1 bit 7 ~ 6

Octet 1 bit 5 ~ Octet 2 bit 4

Octet 1 bit 5

Octet 1 bit 4

Octet 2 bit 3 ~ 0

Cell wide;

’11 0000 0000’B

Activate emergency user alert;

Activate popup;

For each update, incremented by one.

[see TS 23.041]

warningType

– Warning Type Value (7 bit)

– Emergency User Alert (1 bit)

– Popup (1 bit)

– Padding (7 bit)

‘0000 0101 1000 0000’B

Octet 1 bit 7 ~ 1

Octet 1 bit 0

Octet 2 bit 7

Octet 2 bit 6 ~ bit 0

Earthquake and Tsunami;

Activate emergency user alert;

Activate Popup.

[see TS 23.041]

‘000 0000’B

warningSecurityInfo

Not present

}

SystemInformationBlockType11

The IE SystemInformationBlockType11 contains an ETWS secondary notification.

Table 4.4.3.3-10: SystemInformationBlockType11 (1st Segment)

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType11 ::= SEQUENCE {

messageIdentifier

‘0001 0001 0000 0010’B

ETWS message identifier for earthquake and tsunami message [see TS 23.041]

serialNumber

– Geographical Scope (2 bit)

– Message Code (10 bit)

– Emergency User Alert (1 bit)

– Popup (1 bit)

– Update Number (4 bit)

‘0011 0000 0000 0000’B

Octet 1 bit 7 ~ 6

Octet 1 bit 5 ~ Octet 2 bit 4

Octet 1 bit 5

Octet 1 bit 4

Octet 2 bit 3 ~ 0

Cell wide;

’11 0000 0000’B

Activate emergency user alert;

Activate popup;

For each update, incremented by one.

[see TS 23.041]

warningMessageSegmentType

notLastSegment

warningMessageSegmentNumber

0

warningMessageSegment

Octetstring of N

where N ≥ 1 and less than 1246.

[see TS 23.041]

dataCodingScheme

Bitstring (8) ID of the alphabet/coding and the applied language [see TS 23.041]

Provided as PIXITs [see TS 36.523-3 [20] cl. 9]

}

Table 4.4.3.3-11: SystemInformationBlockType11 (2nd Segment)

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType11 ::= SEQUENCE {

messageIdentifier

‘0001 0001 0000 0010’B

ETWS message identifier for earthquake and tsunami message [see TS 23.041]

serialNumber

– Geographical Scope (2 bit)

– Message Code (10 bit)

– Emergency User Alert (1 bit)

– Popup (1 bit)

– Update Number (4 bit)

‘0011 0000 0000 0000’B

Octet 1 bit 7 ~ 6

Octet 1 bit 5 ~ Octet 2 bit 4

Octet 1 bit 5

Octet 1 bit 4

Octet 2 bit 3 ~ 0

Cell wide;

’11 0000 0000’B

Activate emergency user alert;

Activate popup;

For each update, incremented by one.

[see TS 23.041]

warningMessageSegmentType

notLastSegment

warningMessageSegmentNumber

1

warningMessageSegment

Octetstring of N

where N ≥ 1 and less than 1246.

[see TS 23.041]

dataCodingScheme

Not present

}

Table 4.4.3.3-12: SystemInformationBlockType11 (3rd Segment)

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType11 ::= SEQUENCE {

messageIdentifier

‘0001 0001 0000 0010’B

ETWS message identifier for earthquake and tsunami message [see TS 23.041]

serialNumber

– Geographical Scope (2 bit)

– Message Code (10 bit)

– Emergency User Alert (1 bit)

– Popup (1 bit)

– Update Number (4 bit)

‘0011 0000 0000 0000’B

Octet 1 bit 7 ~ 6

Octet 1 bit 5 ~ Octet 2 bit 4

Octet 1 bit 5

Octet 1 bit 4

Octet 2 bit 3 ~ 0

Cell wide;

’11 0000 0000’B

Activate emergency user alert;

Activate popup;

For each update, incremented by one.

[see TS 23.041]

warningMessageSegmentType

lastSegment

warningMessageSegmentNumber

2

warningMessageSegment

Octetstring of N

where N ≥ 1 and less than 1246.

[see TS 23.041]

dataCodingScheme

Not present

}

– SystemInformationBlockType12

The IE SystemInformationBlockType12contains an CMAS notification.

Table 4.4.3.3-12a: SystemInformationBlockType12 (1st Segment)

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType11 ::= SEQUENCE {

messageIdentifier-r9

‘0001 0001 0001 0010’B

CMAS CBS Message Identifier for CMAS Presidential Level Alerts (see TS 23.041])

serialNumber-r9

‘0011 0000 0000 0000’B

warningMessageSegmentType

notLastSegment

warningMessageSegmentNumber

0

warningMessageSegment

Octetstring of N

where N ≥ 1 and less than 1246.

(see TS 23.041)

dataCodingScheme

-Bitstring (8) ID of the alphabet/coding and the applied language [see TS 23.041]

Provided as PIXITs [see TS 36.523-3 [20] cl. 9]

lateNonCriticalExtension

Not present

}

Table 4.4.3.3-12b: SystemInformationBlockType12 (2nd Segment)

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType11 ::= SEQUENCE {

messageIdentifier-r9

‘0001 0001 0001 0010’B

CMAS CBS Message Identifier for CMAS Presidential Level Alerts (see TS 23.041)

serialNumber-r9

‘0011 0000 0000 0000’B

warningMessageSegmentType

notLastSegment

warningMessageSegmentNumber

1

warningMessageSegment

Octetstring of N

where N ≥ 1 and less than 1246.

(see TS 23.041)

dataCodingScheme

Not present

lateNonCriticalExtension

Not present

}

Table 4.4.3.3-12c: SystemInformationBlockType12 (3rd Segment)

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType11 ::= SEQUENCE {

messageIdentifier-r9

‘0001 0001 0001 0010’B

CMAS CBS Message Identifier for CMAS Presidential Level Alerts (see TS 23.041)

serialNumber-r9

‘0011 0000 0000 0000’B

warningMessageSegmentType

lastSegment

warningMessageSegmentNumber

2

warningMessageSegment

Octetstring of N

where N ≥ 1 and less than 1246.

(see TS 23.041)

dataCodingScheme

Not present

lateNonCriticalExtension

Not present

}

– SystemInformationBlockType13

The IE SystemInformationBlockType13 contains the information required to acquire the MBMS control information associated with one or more MBSFN areas.

Table 4.4.3.3-13: SystemInformationBlockType13

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType13 ::= SEQUENCE {

mbsfn-AreaInfoList-r9 SEQUENCE (SIZE(1..maxMBSFN-Area)) OF SEQUENCE {

mbsfn-AreaId-r9

0

non-MBSFNregionLength

2

notificationIndicator-r9

0

mcch-Config-r9 SEQUENCE {

mcch-RepetitionPeriod-r9

rf32

mcch-Offset-r9

1

FDD

0

TDD

mcch-ModificationPeriod-r9

rf512

sf-AllocInfo-r9

‘100000’B

FDD

‘000010’B

TDD

signallingMCS-r9

n2

}

}

notificationConfig-r9 SEQUENCE {

notificationRepetitionCoeff-r9

n4

notificationOffset-r9

1

FDD

0

TDD

notificationSF-Index-r9

1

Subframe #1

FDD

5

Subframe #9

TDD

}

}

Condition

Explanation

FDD

FDD cell environment

TDD

TDD cell environment

– SystemInformationBlockType14

The IE SystemInformationBlockType14 contains the EAB parameters.

Table 4.4.3.3-13A: SystemInformationBlockType14

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType14-r11 ::= SEQUENCE {

eab-Param-r11 CHOICE {

EAB-Config-r11 ::= SEQUENCE {

eab-Category-r11

a

EAB applies to all UEs in the PLMN

ENUMERATED {a, b, c}

eab-BarringBitmap-r11

‘1111111111’B

All UE classes 0-9

BIT STRING (SIZE (10))

}

}

lateNonCriticalExtension

Not Present

}

– SystemInformationBlockType15

The IE SystemInformationBlockType15 contains the MBMS Service Area Identities (SAI) of the current and/ or neighbouring carrier frequencies.

Table 4.4.3.3-14: SystemInformationBlockType15

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType15 ::= SEQUENCE {

mbms-SAI-IntraFreq-r11[1] SEQUENCE (SIZE (1..maxSAI-MBMS-r11)) OF { INTEGER (0..65535) }

1

1 entry

INTEGER (0..65535)

mbms-SAI-InterFreqList-r11

Not present

MBMS_intraFreq,

SCPTM_intraFreq

mbms-SAI-InterFreqList-r11[n] SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

The same number of entries as the configured inter-freq carriers providing the MBMS service in the test case (including additional bands, if any)

n denotes the index of the entry

MBMS_interFreq,

SCPTM_interFreq

dl-CarrierFreq-r11

Downlink EARFCN under test, see table 6.3.1.2-1.

mbms-SAI-List-r11[n] SEQUENCE (SIZE (1..maxSAI-MBMS-r11)) OF { INTEGER (0..65535) }

The same number of entries as the configured MBMS SAIs providing the MBMS service in the test case for the specific frequency

n denotes the index of the entry INTEGER (0..65535)

lateNonCriticalExtension

Not present

MBMS_intraFreq,

MBMS_interFreq,

SCPTM_intraFreq,

SCPTM_interFreq

}

Condition

Explanation

MBMS_intraFreq

SIB15 transmitted for a MBMS intra-band cell environment (MBMS service only provided for intra-frequency cells).

MBMS_interFreq

SIB15 transmitted for a MBMS inter-frequency cell environment (MBMS service provided on multiple frequencies within a band).

SCPTM_intraFreq

SIB15 transmitted for a SC-PTM intra-band cell environment (SC-PTM service only provided for intra-frequency cells).

SCPTM_interFreq

SIB15 transmitted for a SC-PTM inter-frequency cell environment (SC-PTM service provided on multiple frequencies within a band).

– SystemInformationBlockType17

The IE SystemInformationBlockType17 contains information relevant for RAN Assisted WLAN interworking

Table 4.4.3.3-15: SystemInformationBlockType17

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType17-r12 ::= SEQUENCE {

wlan-OffloadInfoPerPLMN-List-r12 [1] SEQUENCE (SIZE (1..maxPLMN-r11)) OF {

1 Entry

wlan-OffloadConfigCommon-r12

WLAN-OffloadConfig-DEFAULT

wlan-Id-List-r12 [1] SEQUENCE (SIZE (1..maxWLAN-Id-r12)) OF {

1 Entry

wlan-Identifiers SEQUENCE{

ssid-r12

Set as per Table 4.4.8-1

OCTET STRING (SIZE (1..32))

Service Set Identifier (SSID) defined in IEEE 802.11-2012

bssid-r12

Not present

hessid-r12

Not present

}

}

}

lateNonCriticalExtension

Not present

}

– SystemInformationBlockType18

The IE SystemInformationBlockType18 contains the resource pool information for sidelink direct communication.

Table 4.4.3.3-16: SystemInformationBlockType18

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType18-r12 ::= SEQUENCE {

commConfig-r12 SEQUENCE {

commRxPool-r12 SEQUENCE (SIZE (1..maxSL-RxPool-r12)) OF SL-CommResourcePool-r12 {

3 Rx pools

SL-CommResourcePool-r12[1] SEQUENCE {

RxPool 1

A monitoring UE can receive on the resources of this pool when a transmitting UE uses the TxPoolNormal 1

sc-CP-Len-r12

normal

sc-Period-r12

sf40

sc-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

11000000

00000000

00000000

00000000

00000000

bs40-r12

FDD

}

data-CP-Len-r12

normal

dataHoppingConfig-r12 SEQUENCE {

hoppingParameter-r12

0

numSubbands-r12

ns1

rb-Offset-r12

0

}

ue-SelectedResourceConfig-r12 SEQUENCE {

data-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00000000

00000000

11110000

00000000

00000000

bs40-r12

FDD

}

trpt-Subset-r12

001

}

rxParametersNCell-r12

Not present

txParameters-r12

Not present

}

SL-CommResourcePool-r12[2] SEQUENCE {

RxPool 2

A monitoring UE can receive on the resources of this pool when a transmitting UE uses the TxPoolNormal 2

sc-CP-Len-r12

normal

sc-Period-r12

sf40

sc-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00110000

00000000

00000000

00000000

00000000

bs40-r12

FDD

}

data-CP-Len-r12

normal

dataHoppingConfig-r12 SEQUENCE {

hoppingParameter-r12

0

numSubbands-r12

ns1

rb-Offset-r12

0

}

ue-SelectedResourceConfig-r12 SEQUENCE {

data-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00000000

00000000

00111100

00000000

00000000

bs40-r12

FDD

}

trpt-Subset-r12

001

}

rxParametersNCell-r12 SEQUENCE {

tdd-Config-r12 SEQUENCE {}

Not present

syncConfigIndex-r12

1

Entry 2 in discSyncConfig-r12 (SL-SyncConfig-r12[2])

}

txParameters-r12

Not present

}

SL-CommResourcePool-r12[3] SEQUENCE {

RxPool 3

A monitoring UE can receive on the resources of this pool when a transmitting UE uses the TxPoolExceptional 1

sc-CP-Len-r12

normal

sc-Period-r12

sf40

sc-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00001100

00000000

00000000

00000000

00000000

bs40-r12

FDD

}

data-CP-Len-r12

normal

dataHoppingConfig-r12 SEQUENCE {

hoppingParameter-r12

0

numSubbands-r12

ns1

rb-Offset-r12

0

}

ue-SelectedResourceConfig-r12 SEQUENCE {

data-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00000000

00000000

00001111

00000000

00000000

bs40-r12

FDD

}

trpt-Subset-r12

001

}

rxParametersNCell-r12

Not present

txParameters-r12

Not present

}

}

commTxPoolNormalCommon-r12 SEQUENCE (SIZE (1..maxSL-TxPool-r12)) OF SL-CommResourcePool-r12 {

2 Tx pools Normal

SL-CommResourcePool-r12[1] SEQUENCE {

TxPool 1

sc-CP-Len-r12

normal

sc-Period-r12

sf40

sc-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

11000000

00000000

00000000

00000000

00000000

bs40-r12

FDD

}

data-CP-Len-r12

normal

dataHoppingConfig-r12 SEQUENCE {

hoppingParameter-r12

0

numSubbands-r12

ns1

rb-Offset-r12

0

}

ue-SelectedResourceConfig-r12 SEQUENCE {

data-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00000000

00000000

11110000

00000000

00000000

bs40-r12

FDD

}

trpt-Subset-r12

001

}

rxParametersNCell-r12

Not present

txParameters-r12 SEQUENCE {

sc-TxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

31

}

dataTxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

0

}

}

}

SL-CommResourcePool-r12[2] SEQUENCE {

TxPool 2

sc-CP-Len-r12

normal

sc-Period-r12

sf40

sc-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00110000

00000000

00000000

00000000

00000000

bs40-r12

FDD

}

data-CP-Len-r12

normal

dataHoppingConfig-r12 SEQUENCE {

hoppingParameter-r12

0

numSubbands-r12

ns1

rb-Offset-r12

0

}

ue-SelectedResourceConfig-r12 SEQUENCE {

data-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00000000

00000000

00111100

00000000

00000000

bs40-r12

FDD

}

trpt-Subset-r12

001

}

rxParametersNCell-r12

Not present

txParameters-r12 SEQUENCE {

sc-TxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

31

}

dataTxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

0

}

}

}

}

commTxPoolExceptional-r12 SEQUENCE (SIZE (1..maxSL-TxPool-r12)) OF SL-CommResourcePool-r12 {

1 Tx pool Exceptional

SL-CommResourcePool-r12[1] SEQUENCE {

TxExceptionalPool 1

sc-CP-Len-r12

normal

sc-Period-r12

sf40

sc-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00001100

00000000

00000000

00000000

00000000

bs40-r12

FDD

}

data-CP-Len-r12

normal

dataHoppingConfig-r12 SEQUENCE {

hoppingParameter-r12

0

numSubbands-r12

ns1

rb-Offset-r12

0

}

ue-SelectedResourceConfig-r12 SEQUENCE {

data-TF-ResourceConfig-r12 SEQUENCE {

prb-Num-r12

13

BW5

25

BW10

prb-Start-r12

0

prb-End-r12

24

BW5

49

BW10

offsetIndicator-r12

0

small-r12

subframeBitmap-r12

00000000

00000000

00001111

00000000

00000000

bs40-r12

FDD

}

trpt-Subset-r12

001

}

rxParametersNCell-r12

Not present

txParameters-r12 SEQUENCE {

sc-TxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

31

}

dataTxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

0

}

}

}

}

commSyncConfig-r12 SEQUENCE (SIZE (1..maxSL-SyncConfig-r12)) OF SL-SyncConfig-r12 {

2 configuration reception/transmission of synchronisation signals

SL-SyncConfig-r12[1] SEQUENCE {

SyncConfig 1

To be used for transmission

syncCP-Len-r12

normal

syncOffsetIndicator-r12

2

slssid-r12

30

txParameters-r12 SEQUENCE {

syncTxParameters-r12 SEQUENCE {

alpha-r12

al0

p0-r12

31

}

syncTxThreshIC-r12

7

-85dBm

The threshold for starting transmission of SLSS

}

rxParamsNCell-r12

Not present

}

SL-SyncConfig-r12[2] SEQUENCE {

SyncConfig 2

To be used for reception.

RxPool Pool 2 is refering to this SyncConfig 2

syncCP-Len-r12

normal

syncOffsetIndicator-r12

25

slssid-r12

40

txParameters-r12

Not Present

rxParamsNCell-r12 SEQUENCE {

physCellId-r12

Set to the physical cell identity of the PCell

discSyncWindow-r12

w1

}

}

}

}

lateNonCriticalExtension

Not present

}

Note 1: For convenience the difference between the different pools is only in the relevant setting of the subframeBitmap.

Note 2: Note that the resources defined by the first entry in preconfigComm defined in clause 6.8.1.1 (used for transmission by an out of coverage UE) should not overlap (see TS 36.331 [17], clause 9.3.2) with those of the pool(s) covering scheduled transmissions by in coverage UEs which are defined here for SIB18.

Condition

Explanation

BW5

5 MHz channel bandwidth cell environment

BW10

10 MHz channel bandwidth cell environment

FDD

FDD cell environment

– SystemInformationBlockType19

The IE SystemInformationBlockType19 contains the resource pool information for sidelink direct discovery.

Table 4.4.3.3-17: SystemInformationBlockType19

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType19-r12 ::= SEQUENCE {

discConfig-r12 SEQUENCE {

discRxPool-r12 SEQUENCE SIZE (1..maxSL-TxPool-r12) OF SL-DiscResourcePool-r12 {

2 RxPools

For convenience the difference between the pools is only in subframeBitmap.

SL-DiscResourcePool-r12[1] SEQUENCE {

RxPool 1

A monitoring UE can receive on the resources of this pool when a transmitting UE uses the TxPoolCommon 1

cp-Len-r12

normal

discPeriod-r12

rf128

numRetx-r12

0

numRepetition-r12

1

tf-ResourceConfig-r12 SEQUENCE {

SL-TF-ResourceConfig-r12

prb-Num-r12

12

BW5

24

BW10

prb-Start-r12

0

prb-End-r12

23

BW5

48

BW10

offsetIndicator-r12

160

small-r12

FDD

163

TDD

subframeBitmap-r12

11000000

00000000

00000000

00000000

00000000

bs40-r12

FDD

11000000

00000000

bs16-r12

TDD

}

txParameters-r12

Not present

rxParameters-r12

Not present

}

SL-DiscResourcePool-r12[2] SEQUENCE {

RxPool 2

A monitoring UE can receive on the resources of this pool when a transmitting UE uses the TxPoolCommon 2

cp-Len-r12

normal

discPeriod-r12

rf128

numRetx-r12

0

numRepetition-r12

1

tf-ResourceConfig-r12 SEQUENCE {

SL-TF-ResourceConfig-r12

prb-Num-r12

12

BW5

24

BW10

prb-Start-r12

0

prb-End-r12

23

BW5

48

BW10

offsetIndicator-r12

160

small-r12

FDD

163

TDD

subframeBitmap-r12

00110000

00000000

00000000

00000000

00000000

bs40-r12

FDD

00110000

00000000

bs16-r12

TDD

}

txParameters-r12

Not present

rxParameters-r12

Not present

}

}

discTxPoolCommon-r12 SEQUENCE SIZE (1..maxSL-TxPool-r12) OF SL-DiscResourcePool-r12 {

2 TxPools

For convenience the difference between the pools is only in subframeBitmap.

SL-DiscResourcePool-r12[1] SEQUENCE {

TxPool 1

cp-Len-r12

normal

discPeriod-r12

rf128

numRetx-r12

0

numRepetition-r12

1

tf-ResourceConfig-r12 SEQUENCE {

SL-TF-ResourceConfig-r12

prb-Num-r12

12

BW5

24

BW10

prb-Start-r12

0

prb-End-r12

23

BW5

48

BW10

offsetIndicator-r12

160

small-r12

FDD

163

TDD

subframeBitmap-r12

11000000

00000000

00000000

00000000

00000000

bs40-r12

FDD

bs42-r12

11000000

00000000

bs16-r12

TDD

}

txParameters-r12 SEQUENCE {

txParametersGeneral-r12 SEQUENCE {

SL-TxParameters-r12

alpha-r12

al0

p0-r12

31

P0-SL-r12

}

ue-SelectedResourceConfig-r12 SEQUENCE {

poolSelection-r12

NULL

random-r12

txProbability-r12

p100

}

}

rxParameters-r12

Not present

}

SL-DiscResourcePool-r12[2] SEQUENCE {

TxPool 2

cp-Len-r12

normal

discPeriod-r12

rf128

numRetx-r12

0

numRepetition-r12

1

tf-ResourceConfig-r12 SEQUENCE {

SL-TF-ResourceConfig-r12

prb-Num-r12

12

BW5

24

BW10

prb-Start-r12

0

prb-End-r12

23

BW5

48

BW10

offsetIndicator-r12

160

small-r12

FDD

163

TDD

subframeBitmap-r12

00110000

00000000

00000000

00000000

00000000

bs40-r12

FDD

00110000

00000000

bs16-r12

TDD

}

txParameters-r12 SEQUENCE {

txParametersGeneral-r12 SEQUENCE {

SL-TxParameters-r12

alpha-r12

al0

p0-r12

31

P0-SL-r12

}

ue-SelectedResourceConfig-r12 SEQUENCE {

poolSelection-r12

NULL

random-r12

txProbability-r12

p100

}

}

rxParameters-r12

Not Present

}

}

discTxPowerInfo-r12 SEQUENCE (SIZE (maxSL-DiscPowerClass-r12)) OF SL-DiscTxPowerInfo-r12 {

SL-DiscTxPowerInfo-r12[1] SEQUENCE {

UE range class ‘short’

discMaxTxPower-r12

23

}

SL-DiscTxPowerInfo-r12[2] SEQUENCE {

UE range class ‘medium’

discMaxTxPower-r12

16

}

SL-DiscTxPowerInfo-r12[3] SEQUENCE {

UE range class ‘long’

discMaxTxPower-r12

10

}

}

discSyncConfig-r12 SEQUENCE (SIZE (1..maxSL-SyncConfig-r12)) OF SL-SyncConfig-r12 {

2 configurations reception/transmission of synchronisation signals

SL-SyncConfig-r12[1] SEQUENCE {

SyncConfig 1

To be used for transmission

syncCP-Len-r12

normal

syncOffsetIndicator-r12

35

slssid-r12

30

txParameters-r12 SEQUENCE {

syncTxParameters-r12 SEQUENCE {

SL-TxParameters-r12

alpha-r12

al0

p0-r12

31

}

syncTxThreshIC-r12

0

(-infinity)

SLSS will not be transmitted

syncInfoReserved-r12

Not Present

}

rxParamsNCell-r12 SEQUENCE {}

Not present

}

SL-SyncConfig-r12[2] SEQUENCE {

SyncConfig 2

syncCP-Len-r12

normal

syncOffsetIndicator-r12

25

slssid-r12

40

txParameters-r12 SEQUENCE {

syncTxParameters-r12 SEQUENCE {

SL-TxParameters-r12

alpha-r12

al0

p0-r12

4

}

syncTxThreshIC-r12

7

-85dBm

The threshold for starting transmission of SLSS

syncInfoReserved-r12

Not Present

}

rxParamsNCell-r12 SEQUENCE {

physCellId-r12

Set to the physical cell identity of the PCell

discSyncWindow-r12

w1

}

}

}

}

discInterFreqList-r12

Not present

lateNonCriticalExtension

}

Condition

Explanation

FDD

FDD cell environment

TDD

TDD cell environment (TDD config 1)

BW5

5 MHz channel bandwidth cell environment

BW10

10 MHz channel bandwidth cell environment

– SystemInformationBlockType20

The IE SystemInformationBlockType20 contains the information required to acquire the SC-PTM control information.

Table 4.4.3.3-18: SystemInformationBlockType20

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType20-r13 ::= SEQUENCE {

sc-mcch-RepetionPeriod-r13

Rf32

sc-mcch-Offset-r13

1

sc-mcch-FirstSubframe-r13

0

sc-mcch-duration-r13

Not present

sc-mcch-ModificationPeriod-r13

Rf512

lateNonCriticalExtension

}

– SystemInformationBlockType21

The IE SystemInformationBlockType21 contains the resource pool information for V2X sidelink communication.

Table 4.4.3.3-19: SystemInformationBlockType21

Derivation Path: 36.331 clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType21-r14 ::= SEQUENCE {

sl-V2X-ConfigCommon-r14 SEQUENCE {

v2x-CommRxPool-r14

Not present

v2x-CommTxPoolNormalCommon-r14

Not present

p2x-CommTxPoolNormalCommon-r14

Not present

v2x-CommTxPoolExceptional-r14

Not present

v2x-SyncConfig-r14

Not present

v2x-InterFreqInfoList-r14 SEQUENCE (SIZE (0..maxFreqV2X-1-r14)) OF SL-InterFreqInfoV2X-r14 {

1 entry

SL-InterFreqInfoV2X-r14[1]

SL-InterFreqInfoV2X-r14-DEFAULT using condition SIB

}

v2x-ResourceSelectionConfig-r14

Not present

zoneConfig-r14 SEQUENCE {}

Not present

typeTxSync-r14

enb

ENUMERATED {gnss, enb, ue, spare1}

thresSL-TxPrioritization-r14

Not present

anchorCarrierFreqList-r14

Not present

offsetDFN-r14

Not present

cbr-CommonTxConfigList-r14

Not present

}

lateNonCriticalExtension

Not present

}

SystemInformationBlockType24

The IE SystemInformationBlockType24 contains information relevant only for inter-RAT cell re-selection i.e. information about NR frequencies and NR neighbouring cells relevant for cell re-selection. The IE includes cell re-selection parameters common for a frequency.

Table 4.4.3.3-20: SystemInformationBlockType24

Derivation Path: TS 36.331 [17], clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType24-r15 ::= SEQUENCE {

carrierFreqListNR-r15 SEQUENCE (SIZE (1..maxFreq)) OF SEQUENCE {

The same number of entries as the configured NR carriers

For Signalling test cases, see Table 6.3.1.8-1.

n denotes the index of the entry

carrierFreq-r15[n]

Downlink NR ARFCN of SSB under test

For signalling test cases see TS 38.508-1 [67] subclause 6.2.3. Otherwise, see TS 38.508-1 [67] subclause 4.3.1.

multiBandInfoList-r15 [n] SEQUENCE (SIZE (1..maxMultiBandsNR-r15)) OF SEQUENCE {}

Not present

multiBandInfoListSUL-r15[n] SEQUENCE (SIZE (1..maxMultiBandsNR-r15)) OF SEQUENCE {}

Not present

measTimingConfig-r15[n] SEQUENCE {

periodicityAndOffset-r15 CHOICE {

sf20

0

FR1

sf160

0

FR2

}

ssb-Duration-r15

sf2

FR1

sf3

FR2

}

subcarrierSpacingSSB-r15[n]

kHz15

SCS_15kHz

kHz30

SCS_30kHz

kHz120

SCS_120kHz

ss-RSSI-Measurement-r15[n]

Not present

cellReselectionPriority-r15[n]

5

cellReselectionSubPriority-r15[n]

Not present

threshX-High-r15[n]

2 (4 dB)

threshX-Low-r15[n]

1 (2 dB)

threshX-Q-r15[n]

Not present

threshX-Q-r15[n] SEQUENCE {

QBASED

threshX-HighQ-r15

5 (5 dB)

threshX-LowQ-r15

5 (5 dB)

}

q-RxLevMin-r15[n]

-70 (-140 dBm)

For RF/RRM test cases

-55 (-110 dBm)

For signalling test cases

q-RxLevMinSUL-r15[n]

-70 (-140 dBm)

For RF/RRM test cases

SUL

-55(-110 dBm)

For signalling test cases

p-MaxNR-r15[n]

23

FR1

26

FR2

FR1_RF_PC2

ns-PmaxListNR-r15[n]

Not present

q-QualMin-r15[n]

Not present

-20 (-20dB)

QBASED

deriveSSB-IndexFromCell-r15[n]

False

maxRS-IndexCellQual-r15[n]

Not present

threshRS-Index-r15[n]

Not present

}

t-ReselectionNR-r15

0

t-ReselectionNR-SF-r15

Not present

Not required unless speed-dependent cell re-selection is tested.

lateNonCriticalExtension

Not present

}

Condition

Explanation

SCS_15kHz

SCS=15kHz for frequency of the cell according to TS 38.508-1 [67] clause 6.2.3 for signalling test cases and clause 4.3.1 otherwise

SCS_30kHz

SCS=30kHz for frequency of the cell according to TS 38.508-1 [67] clause 6.2.3 for signalling test cases and clause 4.3.1 otherwise

SCS_120kHz

SCS=120kHz for frequency of the cell according to TS 38.508-1 [67] clause 6.2.3 for signalling test cases and clause 4.3.1 otherwise

QBASED

This condition applies to Quality based cell (re)selection signalling test cases.

FR1_RF_PC2

FR1 RF testing with Power Class 2

SystemInformationBlockType31

The IE SystemInformationBlockType31 contains satellite assistance information for the serving cell.

Table 4.4.3.3-21: SystemInformationBlockType31

Derivation Path: TS 36.331 [17], clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType31-r17 ::= SEQUENCE {

servingSatelliteInfo-r17 SEQUENCE {

NTN

ephemerisInfo-r17 CHOICE {

stateVectors SEQUENCE {

positionX-r17

-11605245

positionY-r17

-30240830

positionZ-r17

-1854603

velocityVX-r17

44

velocityVY-r17

-31

velocityVZ-r17

195

}

}

nta-CommonParameters-17 SEQUENCE {

nta-Common-r17

7681821

nta-CommonDrift-r17

-37

nta-CommonDriftVariation-r17

0

}

ul-SyncValidityDuration-r17

s240

epochTime-r17

Not present

k-Offset-r17

550

k-Mac-r17

Not present

}

lateNonCriticalExtension

Not present

}

Condition

Explanation

NTN

Non-Terrestrial Networks test environment

SystemInformationBlockType32

The IE SystemInformationBlockType32 contains satellite assistance information for prediction of discontinuous coverage.

Table 4.4.3.3-22: SystemInformationBlockType32

Derivation Path: TS 36.331 [17], clause 6.3.1

Information Element

Value/remark

Comment

Condition

SystemInformationBlockType32-r17 ::= SEQUENCE {

satelliteInfoList-r17

FFS

lateNonCriticalExtension

Not present

}

4.4.3.4 Channel-bandwidth-dependent parameters in system information blocks

The default values of parameters in system information blocks which depend on the channel bandwidth are defined in table 4.4.3.4-1.

Table 4.4.3.4-1: Channel-bandwidth-dependent parameters

Information Element

Channel bandwidth

Comment

1.4 MHz

3 MHz

5 MHz

10 MHz

15 MHz

20MHz

SIB3 periodicity

64

64

32

32

32

32

SIB4 periodicity

128

128

64

64

64

64

SIB5 periodicity

128

128

64

64

64

64

SIB6 periodicity

128

128

64

64

64

64

SIB7 periodicity

128

128

64

64

64

64

SIB8 periodicity

128

128

64

64

64

64

measurementBandwidth in SIB5

mbw6

mbw15

mbw25

mbw50

mbw75

mbw100

SIB9 periodicity

128

128

64

64

64

64

SIB10 periodicity

64

64

32

32

32

32

SIB11 periodicity

64

64

32

32

32

32

SIB12 periodicity

64

64

32

32

32

32

SIB13 periodicity

64

64

32

32

32

32

SIB15 periodicity

64

64

32

32

32

32

SIB17 periodicity

128

128

64

64

64

64

SIB18 periodicity

32

32

32

SIB19 periodicity

64

64

64

64

SIB20 periodicity

64

64

32

32

32

32

SIB21 periodicity

32

32

SIB24 periodicity

128

128

64

64

64

64

SIB31 periodicity

128

128

64

64

64

64