14.6.6d Streaming / unknown / UL:128 DL: [guaranteed 128, max bit rate depending on UE category] with Fixed RLC and MAC-ehs / PS RAB + Interactive or background / UL:128 DL: [max bit rate depending on UE category] with Flexible RLC and MAC-ehs / PS RAB + UL:3.4 DL:3.4 kbps SRBs for DCCH / DL: 64QAM and MIMO

34.123-13GPPPart 1: Protocol conformance specificationRelease 15TSUser Equipment (UE) conformance specification

14.6.6d.1 Conformance requirement

See 14.6.1.1.

14.6.6d.2 Test purpose

To verify radio bearer establishment and correct data transfer for reference radio bearer configuration as specified in TS 34.108, clause 6.10.2.4.5.6 for the 64QAM and MIMO case using the downlink enhanced Layer 2 configuration with MAC-ehs and combination of Fixed and Flexible RLC.

14.6.6d.3 Method of test

NOTE: The reference to UE Categories refers to the UE capability as signalled in the Rel-7 IE “HS-DSCH physical layer category extension”. This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is configured.

The Streaming / unknown / UL:128 DL: [guaranteed 128, max bit rate depending on UE category] with Fixed RLC and MAC-ehs / PS RAB is referred to as RB5. The Interactive or background / UL:128 DL: [max bit rate depending on UE category] with Flexible RLC and MAC-ehs / PS RAB is referred to as RB6.

The following parameters are specific for this test case and RB5 and RB6:

Parameter

Value

Comments

Radio bearer

TS 34.108, clause 6.10.2.4.5.6 using downlink MAC-d flow parameters according to Alt 2 (Fixed RLC and MAC-ehs) for RB5 and MAC-d flow parameters according to Alt 3 (Flexible RLC and MAC-ehs) for RB6

MAC-ehs receiver window size

16

MIMO N_cqi_typeA/M_cqi ratio

1/1

25.331, 10.3.6.41a

Second CPICH pattern

Antenna1 S-CPICH

25.331, 10.3.6.41b

S-CPICH Channelisation code

12

precodingWeight2

00

25.212, Table 14A

RLC Transmission window size

See sub-test table

RLC Receiving window size

See sub-test table

The generic test procedure in 14.1.3.5a is run for each sub-test for test execution 1 to 3.

Execution counter

Downlink Modulation Scheme (M1)

MIMO data flow#1

Downlink Modulation Scheme (M2)

MIMO data flow#2

Number of HARQ processes

MIMO

1

64QAM

QPSK

12

Yes

2

64QAM

16QAM

12

Yes

3

64QAM

64QAM

12

Yes

Uplink TFS:

TFI

RB5

(Streaming

128 kbps, 20ms)

RB6

(I/B

128 kbps, 20ms)

DCCH

TFS

TF0, bits

0x656

0x336

0x148

TF1, bits

1×656

1×336

1×148

TF2, bits

2×656

2×336

N/A

TF3, bits

4×656

4×336

N/A

TF4, bits

N/A

8×336

N/A

Uplink TFCS:

TFCI

(RB5 + RB6, DCCH)

UL_TFC0

(TF0, TF0, TF0)

UL_TFC1

(TF1, TF0, TF0)

UL_TFC2

(TF2, TF0, TF0)

UL_TFC3

(TF3, TF0, TF0)

UL_TFC4

(TF0, TF1, TF0)

UL_TFC5

(TF1, TF1, TF0)

UL_TFC6

(TF2, TF1, TF0)

UL_TFC7

(TF3, TF1, TF0)

UL_TFC8

(TF0, TF2, TF0)

UL_TFC9

(TF1, TF2, TF0)

UL_TFC10

(TF2, TF2, TF0)

UL_TFC11

(TF3, TF2, TF0)

UL_TFC12

(TF0, TF3, TF0)

UL_TFC13

(TF1, TF3, TF0)

UL_TFC14

(TF2, TF3, TF0)

UL_TFC15

(TF3, TF3, TF0)

UL_TFC16

(TF0, TF4, TF0)

UL_TFC17

(TF1, TF4, TF0)

UL_TFC18

(TF2, TF4, TF0)

UL_TFC19

(TF3, TF4, TF0)

UL_TFC20

(TF0, TF0, TF1)

UL_TFC21

(TF1, TF0, TF1)

UL_TFC22

(TF2, TF0, TF1)

UL_TFC23

(TF3, TF0, TF1)

UL_TFC24

(TF0, TF1, TF1)

UL_TFC25

(TF1, TF1, TF1)

UL_TFC26

(TF2, TF1, TF1)

UL_TFC27

(TF3, TF1, TF1)

UL_TFC28

(TF0, TF2, TF1)

UL_TFC29

(TF1, TF2, TF1)

UL_TFC30

(TF2, TF2, TF1)

UL_TFC31

(TF3, TF2, TF1)

UL_TFC32

(TF0, TF3, TF1)

UL_TFC33

(TF1, TF3, TF1)

UL_TFC34

(TF2, TF3, TF1)

UL_TFC35

(TF3, TF3, TF1)

UL_TFC36

(TF0, TF4, TF1)

UL_TFC37

(TF1, TF4, TF1)

UL_TFC38

(TF2, TF4, TF1)

UL_TFC39

(TF3, TF4, TF1)

Sub-tests:

The principle used to select sub-tests has been to cover all uplink and downlink TFS for the Streaming + Interactive Background PS radio bearer. The Streaming UL:128 kbps + Interactive Background UL:128 kbps radio bearer (RB5+RB6) have 40 transport format combinations. As the transport formats where RB5, RB6 or DCCH has no data (TF0 for RB5, RB6 or DCCH) is considered as implicitly tested when the transport format combinations with data is tested then no specific sub-tests for those transport format combinations have been specified.

Sub-tes

UE Category

RLC Receiving window size

(note 1)

RLC Trans-mission window size (note 1)

MAC-d PDU size (bits)

Uplink TFCS Under test

Implicitly tested

Restricted UL TFCIs

(note 2)

UL RLC SDU size (bits)

(note 3)

Test data size (bits)

(note 4)

1

19 and 20

2047

1024

RB5: 656

RB6: Flexible

UL_TFC19

UL_TFC0,

UL_TFC3,

UL_TFC16,

UL_TFC4,

UL_TFC20,

UL_TFC6

UL_TFC0,

UL_TFC1,

UL_TFC3,

UL_TFC4,

UL_TFC16,

UL_TFC19,

UL_TFC20,

UL_TFC21,

UL_TFC24,

UL_TFC39

RB5: 2552

RB6: 2552

See note 4

NOTE 1: The values are set to cope with the number of SDUs used in the sub-test and within the UE capabilities for the actual UE category under test.

NOTE 2: UL_TFC0, UL_TFC1, UL_TFC4 and UL_TFC20 are part of minimum set of TFCIs. Also the transport format combinations UL_TFC21 and UL_TFC24 using TF1 on either RB5 or RB6 and TF1 on DCCH has been included in the allowed TFCs as those could happen during the sub-test.

NOTE 3: See TS 34.109 [10] clause 5.3.2.6.2 for details regarding loopback of RLC SDUs.
RB5 and RB6: The UL RLC SDU size is set to N*UL RLC payload size minus 8 bits (size of 7 bit length indicator and expansion bit) , where N is the number of transport blocks for the UL transport format under test. This will enable the UE to return one complete UL RLC SDU per UL TTI.

NOTE 4: The test data size and number of DL RLC SDUs for RB5 and RB6 is dependent on the actual TFRC test point, see the generic test procedure in 14.1.3.5a.

14.6.6d.4 Test requirements

See 14.1.3.5a for definition of the referenced step numbers.

1. At step 12 the UE shall send RADIO BEARER SETUP COMPLETE.

2. At steps 17 to 20 the UE transmitted transport format shall be within the set of restricted TFCIs as specified for the actual sub-test.

3. At step 18 and for each TFRC test point:

The UE shall for each radio bearer return the equal number RLC SDUs as sent by the SS in downlink. If the downlink RLC SDU size is less than the configured UL RLC SDU for the actual sub-test then the UE shall return RLC SDUs where the first bits of each SDU has the same content as the RLC SDUs sent by the SS in downlink. Otherwise the UE shall return RLC SDUs where the SDU has the same content as the first bits of the RLC SDUs sent by the SS in downlink.

NOTE: The generic test procedure as specified in 14.1.3.5a sends either 2 SDU or 8 SDUs depending on the transport block size under tests.