60 Inter-system hard handover from GSM to UTRAN
3GPP51.010-1Mobile Station (MS) conformance specificationPart 1: Conformance specificationTS
Clause 60 contains test procedures to be used for executing Inter-system Handover from GSM to UTRAN tests. Table 60‑1 contains a summary of the different combinations of parameters being tested, together with a reference to the appropriate generic test procedure. If a test uses a parameter which the MS under test does not support, the test shall be skipped. Test cases in this clause are applicable only to the MS supporting both UTRAN and GSM. The test USIM shall support service 27 to carry out these test cases.
Table 60-1
From |
To |
State of call |
Ref. subclause |
Exec counter |
Remark |
GSM FR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
1 |
call active state |
GSM EFR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
2 |
call active state |
GSM AMR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
3 |
call active state |
GSM HR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
4 |
call active state |
GSM FR |
UTRAN (TDD 1.28 Mcps) AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
5 |
call active state |
GSM EFR |
UTRAN (TDD 1.28 Mcps) AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
6 |
call active state |
GSM AMR |
UTRAN (TDD 1.28 Mcps) AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
7 |
call active state |
GSM HR |
UTRAN (TDD 1.28 Mcps) AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1 |
8 |
call active state |
GSM FR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1a |
1 |
call active state; |
GSM EFR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1a |
2 |
call active state; |
GSM AMR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1a |
3 |
call active state; |
GSM HR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1a |
4 |
call active state; |
GSM FR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1b |
1 |
call active state; |
GSM EFR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1b |
2 |
call active state; |
GSM AMR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1b |
3 |
call active state; |
GSM HR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.1b |
4 |
call active state; |
GSM 14.4 kbps CS data |
UTRAN (Streaming/unknown/ UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.2a |
1 |
same data rate |
GSM 14.4 kbps CS data |
UTRAN (TDD 1.28 Mcps) (Streaming/unknown/ UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.2a |
2 |
same data rate |
GSM 14.4 kbps HSCSD |
UTRAN (Streaming/unknown/ UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.2b |
1 |
Same data rate |
GSM 28.8 kbps CS data |
UTRAN (Streaming/unknown/ UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.2b |
2 |
same data rate |
GSM 57.6 kbps CS data |
UTRAN (Streaming/unknown/ UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.2 b |
3 |
same data rate |
GSM 14.4 kbps CS data |
UTRAN (Streaming/unknown/ UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.3a |
1 |
data rate upgrading |
GSM 14.4 kbps CS data |
UTRAN (Streaming/unknown/ UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.3a |
2 |
data rate upgrading |
GSM 14.4 kbps HSCSD |
UTRAN (Streaming/unknown/ UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.3b |
1 |
Data rate upgrading |
GSM 14.4 kbps HSCSD |
UTRAN (Streaming/unknown/ UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.3b |
2 |
Data rate upgrading |
GSM 28.8 kbps CS data |
UTRAN (Streaming/unknown/ UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBS) |
U10 |
60.3b |
3 |
data rate upgrading |
GSM SDCCH |
UTRAN (SDCCH/ UL:13.6 DL:13.6 kbps SRBS) |
U1 |
60.4 |
1 |
during call establishment |
GSM SDCCH |
UTRAN (TDD 1.28 Mcps) (SDCCH/ UL:13.6 DL:13.6 kbps SRBS) |
U1 |
60.4 |
2 |
during call establishment |
GSM FR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.5 |
1 |
blind handover |
GSM FR |
UTRAN AMR (conversational/speech/ UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS) |
U10 |
60.6 |
1 |
failure case |
60.1 Inter system handover to UTRAN/From GSM/Speech/Success
60.1.1 Definition
60.1.2 Conformance requirement
The MS shall be able to receive a INTERSYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.1.3 Test purpose
To test that MS supporting both GSM and UTRAN hands over to the indicated channel in the UTRAN target cell when it is in the speech call active state in the GSM serving cell and receives a INTERSYSTEM TO UTRAN HANDOVER COMMAND. It is also verified that the MS performs measurements on the target UTRAN cell before the handover.
60.1.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GPRS, Cell 2 is UTRAN (cell selection conditions in favour of the GPRS cell).
The present document subclause 40 shall be referenced for the default parameters of cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation.
3GPP TS 34.108, subclause 6.1 shall be referenced for default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
– MS supports GSM FR (TSPC_AddInfo_Full_rate_version_1).
– MS supports GSM AMR (TSPC_AddInfo_Full_rate_version_3).
– MS supports GSM EFR (TSPC_AddInfo_Full_rate_version_2).
– MS supports GSM HR (TSPC_AddInfo_Half_rate_version_1).
– Support of UTRAN FDD (TSPC_Type_UTRAN FDD)
– Support of UTRAN TDD (TSPC_Type_UTRAN TDD)
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
The SS brings the MS into the call active state (CC state U10) according to settings for execution counter M (with FR speech call for execution counter M = 1). The SS configures the UTRAN dedicated channel corresponding to the UTRAN FDD/TDD mode to default configuration 3. The SS sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell. The SS verifies that the MS includes the UTRAN cell in the MEASUREMENT REPORT and then sends INTERSYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. After the MS receives the command it shall configure itself accordingly and switch to the dedicated channel of UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
Depending on the PIXIT parameters, the above procedure is executed each time for different initial conditions:
For MS following procedures are executed:
– if the MS supports GSM FR, the procedure is executed for execution counter M = 1 (UTRAN_FDD);
– if the MS supports GSM EFR, the procedure is executed for execution counter M = 2 (UTRAN_FDD);
– if the MS supports GSM AMR, the procedure is executed for execution counter M = 3 (UTRAN_FDD);
– if the MS supports GSM HR, the procedure is executed for execution counter M = 4 (UTRAN_FDD);
– if the MS supports GSM FR, the procedure is executed for execution counter M = 5 (UTRAN_TDD);
– if the MS supports GSM EFR, the procedure is executed for execution counter M = 6 (UTRAN_TDD);
– if the MS supports GSM AMR, the procedure is executed for execution counter M = 7 (UTRAN_TDD);
– if the MS supports GSM HR, the procedure is executed for execution counter M = 8 (UTRAN_TDD).
Expected sequence
This sequence is performed for a maximum execution counter M = 1, 2, 3, 4, 5, 6, 7, 8 depending on the PIXIT parameters.
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS bring the MS into GSM U10 state in cell 1 and for M = 1 and 5: the MS is in GSM FR speech call; for M = 2 and 6: the MS is in GSM EFR speech call; for M = 3 and 7: the MS is in GSM AMR speech call; for M = 4 and 8: the MS is in GSM HR speech call. on a hopping traffic channel |
||
2 |
SS |
The SS configures the dedicated channel with the configuration: conversational/speech/UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs in UTRAN cell. |
||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4 |
|
5 |
|
INTERSYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
6 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTERSYSTEM TO UTRAN HANDOVER COMMAND |
||
7 |
SS |
The SS waits for uplink physical channel in synchronization |
||
8 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
MEASUREMENT INFORMATION (for M = 1,2,3,4)
Information Element |
Value/remark |
< RR short PD : bit > |
0 |
< Message type : bit (5) > |
‘00101’B |
< Short layer 2 header : bit (2) > |
‘00’B |
< BA_IND : bit > |
0 |
< 3G_BA_IND : bit > |
0 |
< MP_CHANGE_MARK : bit > |
0 |
< MI_INDEX : bit (4) > |
‘0000’B |
< MI_COUNT : bit (4) > |
‘0000’B |
< PWRC : bit > |
0 |
< REPORT_TYPE : bit > |
1 (Measurement Reporting shall be used) |
< REPORTING_RATE : bit > |
0 (SACCH rate reporting) |
< INVALID_BSIC_REPORTING : bit > |
0 (Report on cells with invalid BSIC not allowed) |
0 | 1 < Real Time Difference Description > |
0 |
0 | 1 < BSIC Description > |
0 |
0 | 1 < REPORT PRIORITY Description > |
0 |
0 | 1 < MEASUREMENT Parameters Description > |
0 |
0 | 1 < extension length > |
0 |
0 | 1 < 3G Neighbour Cell Description > |
1 |
0 | 1 < 3G_Wait : bit (3) > |
0 |
0 | 1 < Index_Start_3G : bit (7) > |
0 |
0 | 1 < Absolute_Index_Start_EMR : bit (7) > |
0 |
0 | 1 < UTRAN FDD Description > |
1 |
0 | 1 < Bandwidth_FDD : bit (3) > |
0 |
1 < Repeated UTRAN FDD Neighbour Cells > ** 0 |
1 |
0 < FDD-ARFCN : bit (14) > |
0 See TS 34.108, clause 6.1.5, table 6.1.1 |
< FDD_Indic0 : bit > |
0 |
< NR_OF_FDD_CELLS : bit (5) > |
‘00001’B |
< FDD_CELL_INFORMATION Field > |
10 bits Scrambling code according to TS 34.108, clause 6.1.4, Default settings for cell No.1 |
1 < Repeated UTRAN FDD Neighbour Cells > ** 0 |
0 |
0 | 1 < UTRAN TDD Description > |
0 |
0 | 1 < CDMA2000 Description > |
0 |
0 | 1 < 3G MEASUREMENT Parameters Description > |
|
< Qsearch_C : bit (4) > |
‘0111’B (Always) |
< 3G_SEARCH_PRIO: bit (1) > |
1 |
< FDD_REP_QUANT : bit (1) > |
1 (Ec/No) |
0 | 1 < FDD_MULTIRAT_REPORTING : bit (2) > |
‘1 01’B (Report on 1 UTRAN cell) |
0 | 1 < FDD_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < TDD_MULTIRAT_REPORTING : bit (2) > |
0 |
0 | 1 < TDD_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < CDMA2000_MULTIRAT_REPORTING : bit (2) > |
0 |
0 | 1 < CDMA2000_REPORTING_OFFSET : bit (3) > |
0 |
MEASUREMENT INFORMATION (for M = 5,6,7,8)
Information Element |
Value/remark |
< RR short PD : bit > |
0 |
< Message type : bit (5) > |
‘00101’B |
< Short layer 2 header : bit (2) > |
‘00’B |
< BA_IND : bit > |
0 |
< 3G_BA_IND : bit > |
0 |
< MP_CHANGE_MARK : bit > |
0 |
< MI_INDEX : bit (4) > |
‘0000’B |
< MI_COUNT : bit (4) > |
‘0000’B |
< PWRC : bit > |
0 |
< REPORT_TYPE : bit > |
1 (Measurement Reporting shall be used) |
< REPORTING_RATE : bit > |
0 (SACCH rate reporting) |
< INVALID_BSIC_REPORTING : bit > |
0 (Report on cells with invalid BSIC not allowed) |
0 | 1 < Real Time Difference Description > |
0 |
0 | 1 < BSIC Description > |
0 |
0 | 1 < REPORT PRIORITY Description > |
0 |
0 | 1 < MEASUREMENT Parameters Description > |
0 |
0 | 1 < extension length > |
0 |
0 | 1 < 3G Neighbour Cell Description > |
1 |
0 | 1 < 3G_Wait : bit (3) > |
0 |
0 | 1 < Index_Start_3G : bit (7) > |
0 |
0 | 1 < Absolute_Index_Start_EMR : bit (7) > |
0 |
0 | 1 < UTRAN FDD Description > |
0 |
0 | 1 < UTRAN TDD Description > |
1 |
0 | 1 < Bandwidth_TDD : bit (3) > |
1 ‘001’B |
1 < Repeated UTRAN TDD Neighbour Cells > ** 0 |
1 |
0 < TDD-ARFCN : bit (14) > |
0 See TS 34.108, clause 6.1.6, table 6.1.6a |
< TDD_Indic0 : bit > |
1 |
< NR_OF_TDD_CELLS : bit (5) > |
‘00001’B |
< TDD_CELL_INFORMATION Field > |
9 bits Scrambling code according to TS 34.108, clause 6.1.4, Default settings for cell No.1 |
1 < Repeated UTRAN TDD Neighbour Cells > ** 0 |
0 |
0 | 1 < CDMA2000 Description > |
0 |
0 | 1 < 3G MEASUREMENT Parameters Description > |
|
< Qsearch_C : bit (4) > |
‘0111’B (Always) |
< 3G_SEARCH_PRIO: bit (1) > |
1 |
< FDD_REP_QUANT : bit (1) > |
1 (Ec/No) |
0 | 1 < FDD_MULTIRAT_REPORTING : bit (2) > |
0 |
0 | 1 < FDD_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < TDD_MULTIRAT_REPORTING : bit (2) > |
1 ’01’B (Report on 1 UTRAN cell) |
0 | 1 < TDD_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < CDMA2000_MULTIRAT_REPORTING : bit (2) > |
0 |
0 | 1 < CDMA2000_REPORTING_OFFSET : bit (3) > |
0 |
INTERSYSTEM TO UTRAN HANDOVER COMMAND
Information Element |
Value/remark |
RR management Protocol Discriminator |
‘0110’B |
Skip Indicator |
‘0000’B |
Inter System to UTRAN Handover Command Message Type |
‘01100011’B |
Length of Handover to UTRAN Command contents |
Octet length of the "Handover to UTRAN Command value part" |
Handover to UTRAN Command value part |
PER encoded ASN.1 value of type "HandoverToUTRANCommand-r3-IEs", the content is presented in the next table. |
Content of "HandoverToUTRANCommand-r3-IEs" (in tabular format) (for M = 1,2,3,4)
Information Element |
Value/remark |
New U-RNTI |
|
– SRNC Identity |
‘000000000001’B |
– S-RNTI-2 |
Set to arbitrary value corresponding to DPCH Offset value currently stored in SS |
Ciphering algorithm |
The presence of this IE is dependent on PIXIT statements in TS 34.123-2. If ciphering is indicated to be active, use UEA1. Else, this IE is omitted. |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration mode |
FDD |
– Default configuration identity |
3 (12.2 kbps speech + 3.4 kbps signalling) |
– RAB Info |
|
– RAB identity |
|
– RAB identity (GSM-MAP) |
‘00000001’B |
– CN domain identity |
CS domain |
– NAS Synchronisation Indicator |
Not Present |
– Uplink DPCH info |
|
– Uplink DPCH power control info |
|
– CHOICE mode |
FDD |
– DPCCH power offset |
-78 dB ( i.e. ASN.1 IE value of -20 ( 2 + ( IE Value * 4) ) ) |
– PC Preamble |
1 frame |
– SRB delay |
7 frames |
– CHOICE mode |
FDD |
– Scrambling code type |
long |
– Reduced scrambling code number |
0 |
– Spreading factor |
64 |
– Downlink information common for all radio links |
|
– Downlink DPCH info common for all RL |
|
– Downlink DPCH power control information |
|
– CHOICE Mode |
FDD |
– DPC mode |
Single TPC |
– Downlink information per radio link list |
1 |
– Downlink information for each radio link |
|
– CHOICE mode |
FDD |
– Primary CPICH info |
|
– Primary scrambling code |
See TS 34.108, clause titled "Default settings for cell No.1 (FDD)” in clause 6.1 |
– Downlink DPCH info for each radio link |
|
– CHOICE mode |
FDD |
– CHOICE mode |
FDD |
– Primary CPICH usage for channel |
May be used |
– Secondary scrambling code |
1 |
– CHOICE Spreading factor |
128 |
– Code number |
0 |
– Scrambling code change |
No code change |
– TPC combination index |
0 |
– Frequency info |
|
– UARFCN uplink(Nu) |
Not Present Absence of this IE is equivalent to apply the default duplex distance defined for the operating frequency according to TS 25.101 |
– UARFCN downlink(Nd) |
See TS 34.108, clause 6.1.5, table 6.1.1 |
Maximum allowed UL TX power |
See TS 34.108, clause 6.1.5, table 6.1.1 |
Content of "HandoverToUTRANCommand-r4-IEs" (in tabular format) (for M = 5,6,7,8)
Information Element |
Value/remark |
New U-RNTI |
|
– SRNC Identity |
‘000000000001’B |
– S-RNTI-2 |
Set to arbitrary value corresponding to DPCH Offset value currently stored in SS |
Ciphering algorithm |
The presence of this IE is dependent on PIXIT statements in TS 34.123-2. If ciphering is indicated to be active, use UEA1. Else, this IE is omitted. |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration mode |
TDD |
– Default configuration identity |
3 (12.2 kbps speech + 3.4 kbps signalling) |
– RAB Info |
|
– RAB identity |
|
– RAB identity (GSM-MAP) |
‘00000001’B |
– CN domain identity |
CS domain |
– NAS Synchronisation Indicator |
Not Present |
– Choice TDD128 |
|
– Uplink DPCH info |
|
– Uplink DPCH power control info |
|
– Uplink TargetSIR |
20 ( real value : (IE value * 0.5) – 11 ) |
– UplinkTimingAdvanceControl |
|
-CHOICE enabled |
|
– Uplink SynchronisationParameters |
|
_- stepsize |
1 |
– frequency |
1 |
– SynchronisationParameters |
|
– Sync Uplink Code |
01010101 |
– FPACH Info |
FPACH Configuration Information |
– Timeslot Number |
0 |
– Channelisation Code |
16/15 |
– Midamble shift and burst type |
|
– Choice default Midamble |
|
– Midamble Configuration |
4 (MidambleK = 8) |
– wt |
4 |
– prxUpPCHdes |
-80 (-120~-58 by step 1) |
– SYNC Uplink Procedure |
|
– max SYNC ULTransmissions |
2 |
– powerRampStep |
2 |
– UplinkTimeslotsCodes |
|
– dynamicSFusage |
No |
– IndividualTimeslotInfo |
|
– TimeslotNum |
TS1,TS2 or TS3 |
– tfci Existence |
TRUE |
– MidambleShiftAndBurstType |
|
– Choice default Midamble |
|
– midamble Configuration |
4 (MidambleK = 8) |
– modulation |
QPSK |
– SS TPC symbols |
1 |
– additional SS-TPC symbols |
Not present |
– UL-TS-ChannelisationCodeList |
SF8 code*1 or SF16 code*2 34.108 Clause6 |
-CHOICE nomoreTimeslot |
|
– Downlink information common for all radio links |
|
– Downlink DPCH info common for all RL |
|
– Downlink DPCH power control information |
|
– CHOICE Mode |
TDD |
– TPC StepSizeTDD |
|
– Downlink information per radio link list |
1 |
– Downlink information for each radio link |
|
– CHOICE mode |
TDD |
– Primary CPICH info |
|
– tstd-Indicator |
FALSE |
– CellParametersID |
CellParamterID of cell 2 |
– sctd-Indicator |
FALSE |
– Downlink DPCH info for each radio link |
|
– IndividualTimeslotInfo |
|
– TimeslotNum |
TS4, TS5 or TS6 |
– tfci-Existence |
TRUE |
– MidambleShiftAndBurstType |
|
– Choice default Midamble |
|
– Midamble Configuration |
4 (MidambleK = 8) |
– modulation |
QPSK |
– SS TPC Symbols |
1 |
– additional SS TPC Symbols |
Not present |
– Downlink Timeslot ChannelisationCode |
|
– Choice bitmap |
SF16 code*2 34.108 Clause6 |
– Choice nomoreTimeslot |
|
– Frequency info |
|
– UARFCN |
UARFCN of cell 2 |
– PrimaryCCPCH TX Power |
20 (6~43, ref TS34.108, clause 6.1.6, table6.1.6a) |
Maximum allowed UL TX power |
33dbm (ref TS34.108, clause 6.1.6, table6.1.6a) |
60.1.5 Test requirement
At step 4 the MEASUREMENT REPORT should include details of the UTRAN cell. At step 8 a HANDOVER TO UTRAN COMPLETE command should be received on DCCH of the UTRAN cell.
60.1a Inter system handover to UTRAN/From GSM/Speech/Success with A5/3 and UEA2/UIA2 ciphering
60.1a.1 Definition
The A5/3 ciphering algorithm is applied in the GERAN cell. UEA2/UIA2 algorithms are applied in the UTRAN cell.
60.1a.2 Conformance requirement
Identical to 60.1.2
60.1a.3 Test purpose
Identical to 60.1.3 but the ciphering /integrity algorithms are defined in 60.1.1.
60.1a.4 Method of test
Identical to 60.1.4
Specific message contents
Similar to the specific message contents in 60.1 except the Rel-7 IE are used and the MS/UE capability to support A5/3 and UEA2/UIA2 is checked, instead.
60.1a.5 Test requirement
Identical to 60.1.5
60.1b Inter system handover to UTRAN/From GSM/Speech/Success with A5/4 and UEA2/UIA2 ciphering
60.1b.1 Definition
The A5/4 ciphering algorithm is applied in the GERAN cell. UEA2/UIA2 algorithms are applied in the UTRAN cell.
60.1b.2 Conformance requirement
Identical to 60.1.2
60.1b.3 Test purpose
Identical to 60.1.3 but the ciphering /integrity algorithms are defined in table 60-1.
60.1b.4 Method of test
Identical to 60.1.4
Specific message contents
Similar to the specific message contents in 60.1 except the Rel-9 IE are used and the MS/UE capability to support A5/4 and UEA2/UIA2 is checked, instead.
60.1b.5 Test requirement
Identical to 60.1.5
60.2a Inter system handover to UTRAN/From GSM/Data/Same data rate/Success
60.2a.1 Definition
60.2a.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.2a.3 Test purpose
To test that the MS hands over to the indicated UTRAN target cell and the data rate of the target channel is the same as the old channel when it is in the data call active state in the GSM serving cell and receives a INTER SYSTEM TO UTRAN HANDOVER COMMAND. It is also verified that the MS performs measurements on the target UTRAN cell before the handover.
60.2a.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GPRS, Cell 2 is UTRAN (cell selection conditions in favour of the GPRS cell).
The present document subclause 40 shall be referenced for the default parameters of Cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation.
3GPP TS 34.108, subclause 6.1 shall be referenced for default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
– Support of UTRAN FDD (TSPC_Type_UTRAN FDD)
– Support of UTRAN TDD (TSPC_Type_UTRAN TDD)
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
The SS brings the MS into the call active state (CC state U10) with a 14.4 kbps CS data call. The SS configures a dedicated channel corresponding to the UTRAN FDD/TDD mode (default configuration 7 -streaming/unknown/UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS ) in the UTRAN cell. The SS sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell. The SS verifies that the MS include the UTRAN cell in the MEASUREMENT REPORT and then sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. After the MS receives the command it shall configure itself accordingly and switch to the dedicated channel of the UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
For MS following procedures are executed:
– if the MS supports UTRAN_FDD the procedure is executed for execution counter M = 1;
– if the MS supports UTRAN_TDD the procedure is executed for execution counter M = 2.
Expected sequence
This sequence is performed for a maximum execution counter M = 1, 2 depending on the PIXIT parameters.
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS bring the MS into GSM U10 state in cell 1 – GSM 14.4 kbps CS data call on a hopping traffic channel. |
||
2 |
SS |
The SS configures a dedicated channel in the UTRAN cell with the configuration: streaming/unknown/UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs. |
||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4. |
|
5 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
6 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
7 |
SS |
The SS waits for uplink physical channel in synchronization |
||
8 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
MEASUREMENT INFORMATION
Same as in 60.1 according UTRAN FDD/TDD mode.
INTER SYSTEM TO UTRAN HANDOVER COMMAND
For M = 1:
Same content as in 60.1 (UTRAN FDD mode) with the following exceptions in the content of the "HandoverToUTRANCommand-r3-IEs":
Information Element |
Value/remark |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration identity |
7 (14.4 kbps streaming CS data + 3.4 kbps signalling) |
For M = 2:
Same content as in 60.1 (according to UTRAN TDD mode) with the following exceptions in the content of the "HandoverToUTRANCommand-r4-IEs" for the configuration “Streaming / unknown / UL:14.4/DL:14.4 kbps / CS RAB + UL:3.4 DL:3.4 kbps SRBs for DCCH” defined in TS 34.108 [149] clause 6.11.5.4.1.15:
Information Element |
Value/remark |
|
New U-RNTI |
||
– SRNC Identity |
‘000000000001’B |
|
– S-RNTI-2 |
Set to arbitrary value corresponding to DPCH Offset value currently stored in SS |
|
Ciphering algorithm |
The presence of this IE is dependent on PIXIT statements in TS 34.123-2. If ciphering is indicated to be active, use UEA1. Else, this IE is omitted. |
|
CHOICE specification mode |
Complete specification |
|
CHOICE complete specification |
Default configuration |
|
RB information elements |
||
Signalling RB information to setup list |
||
– Signalling RB information to setup |
(UM DCCH for RRC) |
|
– RB identity |
Not Present |
|
– CHOICE RLC info type |
||
– RLC info |
||
– CHOICE Uplink RLC mode |
UM RLC |
|
– Transmission RLC discard |
Not Present |
|
– CHOICE Downlink RLC mode |
UM RLC |
|
– RB mapping info |
||
– Information for each multiplexing option |
1 RBMuxOption |
|
– RLC logical channel mapping indicator |
Not Present |
|
– Number of RLC logical channels |
1 |
|
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
5 |
|
– Logical channel identity |
1 |
|
– CHOICE RLC size list |
Configured |
|
– MAC logical channel priority |
1 |
|
– Downlink RLC logical channel info |
||
– Number of RLC logical channels |
1 |
|
– Downlink transport channel type |
DCH |
|
– DL DCH Transport channel identity |
10 |
|
– DL DSCH Transport channel identity |
Not Present |
|
– Logical channel identity |
1 |
|
– Signalling RB information to setup |
(AM DCCH for RRC) |
|
– RB identity |
Not Present |
|
– CHOICE RLC info type |
||
– RLC info |
||
– CHOICE Uplink RLC mode |
AM RLC |
|
– Transmission RLC discard |
||
– SDU discard mode |
No Discard |
|
– MAX_DAT |
15 |
|
– Transmission window size |
128 |
|
– Timer_RST |
500 |
|
– Max_RST |
1 |
|
– Polling info |
||
– Timer_poll_prohibit |
200 |
|
– Timer_poll |
200 |
|
– Poll_PDU |
Not present |
|
– Poll_SDU |
1 |
|
– Last transmission PDU poll |
TRUE |
|
– Last retransmission PDU poll |
TRUE |
|
– Poll_Window |
99 |
|
– Timer_poll_periodic |
Not Present |
|
– CHOICE Downlink RLC mode |
AM RLC |
|
– In-sequence delivery |
TRUE |
|
– Receiving window size |
128 |
|
– Downlink RLC status info |
||
– Timer_status_prohibit |
200 |
|
– Timer_EPC |
Not Present |
|
– Missing PDU indicator |
TRUE |
|
– Timer_STATUS_periodic |
Not Present |
|
– RB mapping info |
||
– Information for each multiplexing option |
1 RBMuxOption |
|
– RLC logical channel mapping indicator |
Not Present |
|
– Number of RLC logical channels |
1 |
|
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
5 |
|
– Logical channel identity |
2 |
|
– CHOICE RLC size list |
Configure |
|
– MAC logical channel priority |
2 |
|
– Downlink RLC logical channel info |
||
– Number of RLC logical channels |
1 |
|
– Downlink transport channel type |
DCH |
|
– DL DCH Transport channel identity |
10 |
|
– DL DSCH Transport channel identity |
Not Present |
|
– Logical channel identity |
2 |
|
Signalling RB information to setup |
(AM DCCH for NAS_DT High priority) |
|
– RB identity |
Not Present |
|
– CHOICE RLC info type |
||
– RLC info |
||
– CHOICE Uplink RLC mode |
AM RLC |
|
– Transmission RLC discard |
||
– SDU discard mode |
No Discard |
|
– MAX_DAT |
15 |
|
– Transmission window size |
128 |
|
– Timer_RST |
500 |
|
– Max_RST |
1 |
|
– Polling info |
||
– Timer_poll_prohibit |
200 |
|
– Timer_poll |
200 |
|
– Poll_PDU |
Not present |
|
– Poll_SDU |
1 |
|
– Last transmission PDU poll |
TRUE |
|
– Last retransmission PDU poll |
TRUE |
|
– Poll_Windows |
99 |
|
– Timer_poll_periodic |
Not Present |
|
– CHOICE Downlink RLC mode |
AM RLC |
|
– In-sequence delivery |
TRUE |
|
– Receiving window size |
128 |
|
– Downlink RLC status info |
||
– Timer_status_prohibit |
200 |
|
– Timer_EPC |
Not Present |
|
– Missing PDU indicator |
TRUE |
|
– Timer_STATUS_periodic |
Not Present |
|
– RB mapping info |
||
– Information for each multiplexing option |
1 RBMuxOption |
|
– RLC logical channel mapping indicator |
Not Present |
|
– Number of RLC logical channels |
1 |
|
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
5 |
|
– Logical channel identity |
3 |
|
– CHOICE RLC size list |
Configured |
|
– MAC logical channel priority |
3 |
|
– Downlink RLC logical channel info |
||
– Number of RLC logical channels |
1 |
|
– Downlink transport channel type |
DCH |
|
– DL DCH Transport channel identity |
10 |
|
– DL DSCH Transport channel identity |
Not Present |
|
– Logical channel identity |
3 |
|
– Signalling RB information to setup |
(AM DCCH for NAS_DT Low priority) |
|
– RB identity |
Not Present |
|
– CHOICE RLC info type |
||
– RLC info |
||
– CHOICE Uplink RLC mode |
AM RLC |
|
– Transmission RLC discard |
||
– SDU discard mode |
No discard |
|
– MAX_DAT |
15 |
|
– Transmission window size |
128 |
|
– Timer_RST |
500 |
|
– Max_RST |
1 |
|
– Polling info |
||
– Timer_poll_prohibit |
200 |
|
– Timer_poll |
200 |
|
– Poll_PDU |
Not present |
|
– Poll_SDU |
1 |
|
– Last transmission PDU poll |
TRUE |
|
– Last retransmission PDU poll |
TRUE |
|
– Poll_Windows |
99 |
|
– Timer_poll_periodic |
Not Present |
|
– CHOICE Downlink RLC mode |
AM RLC |
|
– In-sequence delivery |
TRUE |
|
– Receiving window size |
128 |
|
– Downlink RLC status info |
||
– Timer_status_prohibit |
200 |
|
– Timer_EPC |
Not Present |
|
– Missing PDU indicator |
TRUE |
|
– Timer_STATUS_periodic |
Not Present |
|
– RB mapping info |
||
– Information for each multiplexing option |
1 RBMuxOptions |
|
– RLC logical channel mapping indicator |
Not Present |
|
– Number of RLC logical channels |
1 |
|
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
5 |
|
– Logical channel identity |
4 |
|
– CHOICE RLC size list |
Configured |
|
– MAC logical channel priority |
4 |
|
– Downlink RLC logical channel info |
||
– Number of RLC logical channels |
1 |
|
– Downlink transport channel type |
DCH |
|
– DL DCH Transport channel identity |
10 |
|
– DL DSCH Transport channel identity |
Not Present |
|
– Logical channel identity |
4 |
|
RAB information to setup list |
||
– RAB info |
||
– RAB identity |
||
– CHOICE RAB identity type |
RAB identity (GSM-MAP) |
|
– RAB identity |
0000 0001B The first/ leftmost bit of the bit string contains the most significant bit of the RAB identity. |
|
– CN domain identity |
CS domain |
|
– NAS Synchronization Indicator |
Not Present |
|
– Re-establishment timer |
useT314 |
|
– RB information to setup list |
||
– RB information to setup |
||
– RB identity |
10 |
|
– PDCP info |
Not Present |
|
– CHOICE RLC info type |
RLC info |
|
– CHOICE Uplink RLC mode |
TM RLC |
|
– Transmission RLC discard |
Not Present |
|
– Segmentation indication |
FALSE |
|
– CHOICE Downlink RLC mode |
TM RLC |
|
– Segmentation indication |
FALSE |
|
– RB mapping info |
||
– Information for each multiplexing option |
||
– RLC logical channel mapping indicator |
Not Present |
|
– Number of uplink RLC logical channels |
1 |
|
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
1 |
|
– Logical channel identity |
Not Present |
|
– CHOICE RLC size list |
Configured |
|
– MAC logical channel priority |
8 |
|
– Downlink RLC logical channel info |
||
– Number of downlink RLC logical channels |
1 |
|
– Downlink transport channel type |
DCH |
|
– DL DCH Transport channel identity |
6 |
|
– DL DSCH Transport channel identity |
Not Present |
|
– Logical channel identity |
Not Present |
|
Uplink transport channels |
||
UL Transport channel information common for all transport channels |
||
– PRACH TFCS |
Not Present |
|
– CHOICE mode |
TDD128 |
|
– Individual UL CCTrCH information |
||
– UL TFCS Identity |
||
– TFCS ID |
1 |
|
– Shared Channel Indicator |
FALSE |
|
– UL TFCS |
||
– CHOICE TFCI signalling |
Normal |
|
– TFCI Field 1 Information |
||
– CHOICE TFCS representation |
Complete reconfiguration |
|
– TFCS complete reconfiguration information |
||
– CHOICE CTFC Size |
Number of bits used must be enough to cover all combinations of CTFC from clause 6.11.5.4 Parameter Set. |
|
– CTFC information |
This IE is repeated for TFC numbers and reference to clause 6.11.5.4 Parameter Set |
|
– CTFC |
Reference to clause 6.11.5.4 Parameter Set |
|
– Power offset information |
||
– CHOICE Gain Factors |
Computed Gain Factors(The last TFC is set to Signalled Gain Factors) |
|
– Reference TFC ID |
0 Integer(0.. 3) |
|
– CHOICE Gain Factors |
Signalled Gain Factors(Not Present if the CHOICE Gain Factors is set to ComputedGain Factors) |
|
– CHOICE mode |
TDD |
|
– Gain Factor d |
15 |
|
– Reference TFC ID |
0 Integer(0.. 3) |
|
– CHOICE mode |
TDD |
|
– TFC subset |
||
– CHOICE Subset representation |
Full transport format combination set |
|
– TFC subset list |
Not Present |
|
Added or Reconfigured UL TrCH information |
||
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
5 |
|
– TFS |
||
– CHOICE Transport channel type |
Dedicated transport channels |
|
– Dynamic Transport format information |
||
– RLC Size |
Reference to clause 6.11 Parameter Set |
|
– Number of TBs and TTI List |
(This IE is repeated for TF number.) |
|
– Transmission Time Interval |
Not Present |
|
– Number of Transport blocks |
Reference to clause 6.11 Parameter Set |
|
– CHOICE Logical channel list |
All |
|
– Semi-static Transport Format information |
||
– Transmission time interval |
Reference to clause 6.11 Parameter Set |
|
– Type of channel coding |
Reference to clause 6.11 Parameter Set |
|
– Coding Rate |
Reference to clause 6.11 Parameter Set |
|
– Rate matching attribute |
Reference to clause 6.11 Parameter Set |
|
– CRC size |
Reference to clause 6.11 Parameter Set |
|
– Uplink transport channel type |
DCH |
|
– UL Transport channel identity |
1 |
|
– TFS |
||
– CHOICE Transport channel type |
Dedicated transport channels |
|
– Dynamic Transport format information |
||
– RLC Size |
Reference to clause 6.11 Parameter Set |
|
– Number of TBs and TTI List |
(This IE is repeated for TF number.) |
|
– Transmission Time Interval |
Not Present |
|
– Number of Transport blocks |
Reference to clause 6.11 Parameter Set |
|
– CHOICE Logical channel list |
All |
|
– Semi-static Transport Format information |
||
– Transmission time interval |
Reference to clause 6.11 Parameter Set |
|
– Type of channel coding |
Reference to clause 6.11 Parameter Set |
|
– Coding Rate |
Reference to clause 6.11 Parameter Set |
|
– Rate matching attribute |
Reference to clause 6.11 Parameter Set |
|
– CRC size |
Reference to clause 6.11 Parameter Set |
|
Downlink transport channels |
||
DL Transport channel information common for all transport channel |
||
– SCCPCH TFCS |
Not Present |
|
– CHOICE mode |
TDD |
|
– Individual DL CCTrCH information |
||
– DL TFCS Identity |
||
– TFCS ID |
2 |
|
– Shared Channel Indicator |
FALSE |
|
– CHOICE DL parameters |
SameAsUL |
|
– UL DCH TFCS Identity |
||
– TFCS ID |
1 |
|
– Shared Channel Indicator |
FALSE |
|
Added or Reconfigured TrCH information |
||
– Added or Reconfigured DL TrCH information |
||
– Downlink transport channel type |
DCH |
|
– DL Transport channel identity |
10 |
|
– CHOICE DL parameters |
Same as UL |
|
– Uplink transport channel type |
DCH |
|
– UL TrCH identity |
5 |
|
– DCH quality target |
||
– BLER Quality value |
-20 (-2.0) |
|
– Downlink transport channel type |
DCH |
|
– DL Transport channel identity |
6 |
|
– CHOICE DL parameters |
Same as UL |
|
– Uplink transport channel type |
DCH |
|
– UL TrCH identity |
1 |
|
– DCH quality target |
||
– BLER Quality value |
-20 (-2.0) |
|
Uplink radio resources |
||
Uplink DPCH info |
||
– Uplink DPCH power control info |
||
– CHOICE mode |
TDD |
|
– CHOICE TDD option |
1.28 Mcps TDD |
|
– PRXPDPCHdes |
Integer (-120…-58 by step of 1) |
|
– CHOICE UL OL PC info |
||
– Broadcast UL OL PC info |
Null |
|
– Uplink Timing Advance Control |
Not Present |
|
-CHOICE enabled |
||
– Uplink SynchronisationParameters |
||
_- stepsize |
1 |
|
– frequency |
1 |
|
– SynchronisationParameters |
||
– Sync Uplink Code |
01010101 |
|
– FPACH Info |
FPACH Configuration Information |
|
– Timeslot Number |
0 |
|
– Channelisation Code |
16/15 |
|
– Midamble shift and burst type |
||
– Choice default Midamble |
||
– Midamble Configuration |
4 (MidambleK = 8) |
|
– wt |
4 |
|
– prxUpPCHdes |
-80 (-120~-58 by step 1) |
|
– SYNC Uplink Procedure |
||
– max SYNC ULTransmissions |
2 |
|
– powerRampStep |
2 |
|
– UL CCTrCH List |
||
– TFCS ID |
1 |
|
– UL Target SIR |
20 ( real value : (IE value * 0.5) – 11 ) |
|
– Time info |
||
– Activation time |
(256+CFN-(CFN MOD 8 + 8))MOD 256 |
|
– Duration |
Infinite |
|
– Common timeslot info |
||
– 2nd interleaving mode |
Default value is "Frame" |
|
– TFCI coding |
Reference to clause 6 Parameter set |
|
– Puncturing limit |
Reference to clause 6 Parameter set |
|
– Repetition period |
1 |
|
– Repetition length |
||
– Uplink DPCH timeslots and code |
||
– UplinkTimeslotsCodes |
||
– dynamicSFusage |
No |
|
– IndividualTimeslotInfo |
||
– TimeslotNum |
TS1,TS2 or TS3 |
|
– tfci Existence |
TRUE |
|
– MidambleShiftAndBurstType |
||
– Choice default Midamble |
||
– midamble Configuration |
4 (MidambleK = 8) |
|
– modulation |
QPSK |
|
– SS TPC symbols |
1 |
|
– additional SS-TPC symbols |
Not present |
|
– UL-TS-ChannelisationCodeList |
SF8 code*1 or SF16 code*2 34.108 Clause6 |
|
-CHOICE nomoreTimeslot |
||
– First timeslot Code List |
Repeated (1,2) for each channelisation code assigned in the slot to meet the needs of clause 6 Parameter Set. |
|
– channelisation codes |
(SF/ i) where i denotes an unassigned code matching the SF specified in clause 6 Parameter Set. |
|
– CHOICE more timeslots |
No more timeslots |
|
– UL CCTrCH List to Remove |
Not present |
|
Downlink radio resources |
||
Downlink information common for all radio links |
||
– Downlink information common for all radio links |
||
– Downlink DPCH info common for all RL |
||
– Downlink DPCH power control information |
||
– CHOICE Mode |
TDD |
|
– TPC StepSizeTDD |
||
– Downlink information per radio link list |
1 |
|
– Downlink information for each radio link |
||
– CHOICE mode |
TDD |
|
– Primary CPICH info |
||
– tstd-Indicator |
FALSE |
|
– CellParametersID |
CellParamterID of cell 2 |
|
– sctd-Indicator |
FALSE |
|
Downlink DPCH info for each radio link |
||
– IndividualTimeslotInfo |
||
– TimeslotNum |
TS4, TS5 or TS6 |
|
– tfci-Existence |
TRUE |
|
– MidambleShiftAndBurstType |
||
– Choice default Midamble |
||
– Midamble Configuration |
4 (MidambleK = 8) |
|
– modulation |
QPSK |
|
– SS TPC Symbols |
1 |
|
– additional SS TPC Symbols |
Not present |
|
– Downlink Timeslot ChannelisationCode |
||
– Choice bitmap |
SF16 code*2 34.108 Clause6 |
|
– Choice nomoreTimeslot |
||
– Frequency info |
||
– UARFCN |
UARFCN of cell 2 |
|
– PrimaryCCPCH TX Power |
20 (6~43, ref TS34.108, clause 6.1.6, table6.1.6a) |
|
Frequency info |
||
– UARFCN uplink(Nu) |
Not Present Absence of this IE is equivalent to apply the default duplex distance defined for the operating frequency according to TS 25.101 |
|
– UARFCN downlink(Nd) |
See TS 34.108, clause 6.1.5, table 6.1.1 |
|
Maximum allowed UL TX power |
33dbm (ref TS34.108, clause 6.1.6, table6.1.6a) |
60.2a.5 Test requirement
At step 4 the MEASUREMENT REPORT should include details of the UTRAN cell. At step 8 a HANDOVER TO UTRAN COMPLETE command should be received on DCCH of the UTRAN cell.
60.2b Inter system handover to UTRAN/From GSM/Data/Same data rate/Extended Rates/Success
60.2b.1 Definition
60.2b.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.2b.3 Test purpose
To test that the MS hands over to the indicated UTRAN target cell and the data rate of the target channel is the same as the old channel when it is in the data call active state in the GSM serving cell and receives a INTER SYSTEM TO UTRAN HANDOVER COMMAND. It is also verified that the MS performs measurements on the target UTRAN cell before the handover.
60.2b.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GSM, Cell 2 is UTRAN (cell selection conditions in favour of the GSM cell).
The present document subclause 26.6.5.1 or subclause 26.13.1.3 (for HSCSD) shall be referenced for the default parameters of Cell 1.
3GPP TS 34.108, subclause 6.1 shall be referenced for default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
Specific PICS statements
– MS supports UTRAN Streaming/unknown/UL:14.4 DL:14,4 kbps/CS RAB + UL:3.4 DL:3,4 kbps SRBs.
– MS supports UTRAN Streaming/unknown/UL:28.8 DL:28,8 kbps/CS RAB + UL:3.4 DL:3,4 kbps SRBs.
– MS supports UTRAN Streaming/unknown/UL:57.6 DL:57,6 kbps/CS RAB + UL:3.4 DL:3,4 kbps SRBs.
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
The SS brings the MS into the call active state (CC state U10) with a CS data call (14.4 kbps HSCSD for execution counter M = 1). The SS configures an appropriate dedicated channel(default configuration 7 -streaming/unknown/UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS for M = 1) in the UTRAN cell. The SS sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell. The SS verifies that the MS include the UTRAN cell in the MEASUREMENT REPORT and then sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. After the MS receives the command it shall configure itself accordingly and switch to the dedicated channel of the UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
Depending on the PIXIT parameters, the above procedure is executed maximum three times, each time for different initial conditions:
– if the MS supports GSM 14.4 kbps HSCSD and UTRAN streaming/unknown/UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 1, using Default configuration 7;
– if the MS supports GSM 28.8 kbps CS data and UTRAN streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 2, using Default configuration 8;
– if the MS supports GSM 57.6 kbps CS data and UTRAN streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 3, using Default configuration 9.
Expected sequence
This sequence is performed for a maximum execution counter M = 1, 2, 3, depending on the PIXIT parameters.
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS bring the MS into GSM U10 state in cell 1 and for M = 1: the MS is in GSM 14.4 kbps HSCSD call; for M = 2: the MS is in GSM 28.8 kbps CS data call; for M = 3: the MS is in GSM 57.6 kbps CS data call; |
||
2 |
SS |
The SS configures a dedicated channel in the UTRAN cell with the configuration: For M = 1: (streaming/unknown/UL:14.4 DL:14.4 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs); For M = 2: (streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs); For M = 3: (streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs) |
||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4 Received within 5 sec + 10% from Step 4. |
|
5 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
6 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
7 |
SS |
The SS waits for uplink physical channel in synchronization |
||
8 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
MEASUREMENT INFORMATION
Same as in 60.1
For execution1 (M = 1):
INTER SYSTEM TO UTRAN HANDOVER COMMAND for FDD
Same content as in 60.1 with the following exceptions in the content of the "HandoverToUTRANCommand-r3-IEs":
Information Element |
Value/remark |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration identity |
7 (14.4 kbps streaming CS data + 3.4 kbps signalling) |
INTER SYSTEM TO UTRAN HANDOVER COMMAND for TDD
Same content as in 60.2a M=2
For execution2 (M = 2):
INTER SYSTEM TO UTRAN HANDOVER COMMAND
Same content as in 60.1 with the following exceptions in the content of the "HandoverToUTRANCommand-r3-IEs":
Information Element |
Value/remark |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration identity |
8 (28.8 kbps streaming CS data + 3.4 kbps signalling) |
– RAB Info |
Same content as in 60.1 |
– Uplink DPCH info |
Same content as in 60.1 except for: |
– Spreading factor |
32 |
– Downlink information per radio link |
Same content as in 60.1 except for: |
– Downlink information for each radio link |
|
– Downlink DPCH info for each RL |
|
– CHOICE Spreading factor |
64 |
For execution3 (M = 3):
INTER SYSTEM TO UTRAN HANDOVER COMMAND
Same content as in 60.1 with the following exceptions in the content of the "HandoverToUTRANCommand-r3-IEs":
Information Element |
Value/remark |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration identity |
9 (57.6 kbps streaming CS data + 3.4 kbps signalling) |
– RAB Info |
Same content as in 60.1 |
– Uplink DPCH info |
Same content as in 60.1 except for: |
– Spreading factor |
16 |
– Downlink information per radio link |
Same content as in 60.1 except for: |
– Downlink information for each radio link |
|
– Downlink DPCH info for each RL |
|
– CHOICE Spreading factor |
32 |
60.2b.5 Test requirement
At step 5 the MEASUREMENT REPORT should include details of the UTRAN cell. At step 9 a HANDOVER TO UTRAN COMPLETE command should be received on DCCH of the UTRAN cell.
60.3a Inter system handover to UTRAN/From GSM/Data/Data rate upgrading/Success
60.3a.1 Definition
60.3a.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.3a.3 Test purpose
To test that the MS being in the data call active state hands over from the GSM serving cell to the indicated channel of a higher data rate in the UTRAN target cell after it receives a INTER SYSTEM TO UTRAN HANDOVER COMMAND. It is also verified that the MS performs measurements on the target UTRAN cell before the handover.
60.3a.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GPRS, Cell 2 is UTRAN (cell selection conditions in favour of the GPRS cell).
The present document subclause 40 shall be referenced for the default parameters of cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation.
3GPP TS 34.108 subclause 6.1 shall be referenced for default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
– MS supports UTRAN Streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBs.
– MS supports UTRAN Streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBs.
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
Then the SS brings the MS into the call active state (CC state U10) with a 14.4 kbps CS data call . The SS configures an appropriate dedicated channel in the UTRAN cell ( default configuration 8 streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS for M = 1). The SS sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell. The SS verifies that the MS include the UTRAN cell in the MEASUREMENT REPORTs and then sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. After the MS receives the command it shall configure itself accordingly and switch to the new channel of the UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
Depending on the PIXIT parameters, the above procedure is executed maximum two times, each time for different conditions:
– if the MS supports GSM 14.4 kbps CS data and UTRAN streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 1, using Default configuration 8;
– if the MS supports GSM 14.4 kbps CS data and UTRAN streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 2, using Default configuration 9;
Expected sequence
This sequence is performed for a maximum execution counter M = 1, 2 depending on the PIXIT parameters.
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS bring the MS into GSM U10 state in cell 1 and the MS is in GSM 14.4 kbps CS data call on a hopping traffic channel |
||
2 |
SS |
The SS configures a dedicated channel in the UTRAN cell with the configuration: For M = 1: (streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs); For M = 2: (streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs); |
||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4 |
|
5 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
6 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
7 |
SS |
The SS waits for uplink physical channel in synchronization |
||
8 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
For execution1 (M = 1):
Same as the default message contents in subclause 60.2b for M = 2.
For execution2 (M = 2):
Same as the default message contents in subclause 60.2b for M = 3.
60.3a.5 Test requirement
At step 4 the MEASUREMENT REPORT should include details of the UTRAN cell. At step 8 a HANDOVER TO UTRAN COMPLETE command should be received on DCCH of the UTRAN cell.
60.3b Inter system handover to UTRAN/From GSM/Data/Data rate upgrading/Extended Rates/Success
60.3b.1 Definition
60.3b.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.3b.3 Test purpose
To test that the MS being in the data call active state hands over from the GSM serving cell to the indicated channel of a higher data rate in the UTRAN target cell after it receives a INTER SYSTEM TO UTRAN HANDOVER COMMAND. It is also verified that the MS performs measurements on the target UTRAN cell before the handover.
60.3b.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GSM, Cell 2 is UTRAN (cell selection conditions in favour of the GSM cell).
The present document subclause 26.6.5.1 or subclause 26.13.1.3 (for HSCSD) shall be referenced for the default parameters of cell 1.
3GPP TS 34.108 subclause 6.1 shall be referenced for default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
Specific PICS statements
– MS supports UTRAN Streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBs.
– MS supports UTRAN Streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL:3.4 kbps SRBs.
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
Then the SS brings the MS into the call active state (CC state U10) with a CS data call (14.4 kbps HSCSD for execution counter M = 1). The SS configures an appropriate dedicated channel in the UTRAN cell ( default configuration 4 streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS for M = 1). The SS sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell. The SS verifies that the MS include the UTRAN cell in the MEASUREMENT REPORTs and then sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. After the MS receives the command it shall configure itself accordingly and switch to the new channel of the UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
Depending on the PIXIT parameters, the above procedure is executed maximum three times, each time for different conditions:
– if the MS supports GSM 14.4 kbps HSCSD and UTRAN streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 1, using Default configuration 8;
– if the MS supports GSM 14.4 kbps HSCSD and UTRAN streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 2, using Default configuration 9;
– if the MS supports GSM 28.8 kbps CS data and UTRAN streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs, the procedure is executed for execution counter M = 3, using Default configuration 9.
Expected sequence
This sequence is performed for a maximum execution counter M = 1, 2, 3, depending on the PIXIT parameters.
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS bring the MS into GSM U10 state in cell 1 and for M = 1: the MS is in GSM 14.4 kbps HSCSD call; for M = 2: the MS is in GSM 14.4 kbps HSCSD call; for M = 3: the MS is in GSM 28.8 kbps CS data call; |
||
2 |
SS |
The SS configures a dedicated channel in the UTRAN cell with the configuration: For M = 1: (streaming/unknown/UL:28.8 DL:28.8 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs); For M = 2: (streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs); For M = 3: (streaming/unknown/UL:57.6 DL:57.6 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs) |
||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4 Received within 5 sec + 10% from Step 4. |
|
5 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
6 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
7 |
SS |
The SS waits for uplink physical channel in synchronization |
||
8 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
For execution1 (M = 1):
Same as the default message contents in subclause 60.2b for M = 2.
For execution2 (M = 2):
Same as the default message contents in subclause 60.2b for M = 3.
For execution3 (M = 3):
Same as the default message contents in subclause 60.2b for M = 3.
60.3b.5 Test requirement
At step 5 the MEASUREMENT REPORT should include details of the UTRAN cell. At step 9 a HANDOVER TO UTRAN COMPLETE command should be received on DCCH of the UTRAN cell.
60.4 Inter system handover to UTRAN/From GSM/SDCCH/CC Establishment/Success
60.4.1 Definition
60.4.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.4.3 Test purpose
To test that the MS supporting both GSM and UTRAN handovers from the GSM serving cell to the indicated channel in UTRAN target cell when the MS is on SDCCH during call establishment phase and receives an INTER SYSTEM TO UTRAN HANDOVER COMMAND. It is also verified that the MS performs measurements on the target UTRAN cell before the handover.
60.4.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GPRS, Cell 2 is UTRAN (cell selection conditions in favour of the GPRS cell).
The present document subclause 40 shall be referenced for the default parameters of cell 1. Except for SI3 indicating SI2quater on BCCH norm, and SI2quater is broadcasted on BCCH of Cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation..
3GPP TS 34.108, subclause 6.2 shall be referred to default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
– Support of UTRAN FDD (TSPC_Type_UTRAN FDD)
– Support of UTRAN TDD (TSPC_Type_UTRAN TDD)
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U1 on cell 2.
Test Procedure
The UTRAN cell is set up corresponding to the UTRAN FDD/TDD mode. The MS reads SI2quater indicating presence of the UTRAN cell. The MS is triggered to make an MO speech call. After the SS received SETUP message it configures a dedicated channel corresponding to the default configuration 1 (UL:13.6 DL13.6 kbps SRBs) corresponding to the UTRAN FDD/TDD mode and then the SS sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel to the MS through the GSM serving cell. After the MS receives the command and it shall configure itself accordingly and switch to the new channel of UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
For MS following procedures are executed:
– if the MS supports UTRAN_FDD the procedure is executed for execution counter M = 1;
– if the MS supports UTRAN_TDD the procedure is executed for execution counter M = 2.
Expected sequence
This sequence is performed for a maximum execution counter M = 1, 2 depending on the PIXIT parameters.
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
SS |
The MS reads SI2quater indicating presence of the UTRAN cell. |
||
3 |
|
SETUP |
The SS brings the MS to GSM U1 state in Cell 1 |
|
4 |
SS |
The SS configures a dedicated channel with the default configuration 1: UL:13.6 DL13.6 kbps SRBs in UTRAN cell. |
||
5 |
|
MEASUREMENT REPORT |
||
6 |
Step 5 is repeated until the MEASUREMENT REPORT contains the measurement result on the UTRAN cell |
|||
7 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
8 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
9 |
SS |
The SS waits for uplink physical channel in synchronization |
||
10 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
SYSTEM INFORMATION TYPE 2QUATER (M = 1)
Information Element |
Value/remark |
< RR management Protocol Discriminator bit (4) > |
‘0110’B |
< Skip Indicator : bit (4) > |
‘0000’B |
< Message type : bit (8) > |
‘0000 0111’B |
< SI2 quarter Rest Octets > |
|
< BA_IND : bit > |
0 |
< 3G_BA_IND : bit > |
0 |
< MP_CHANGE_MARK : bit > |
0 |
< SI2quater _INDEX : bit (4) > |
‘0000’B |
< SI2quater_COUNT : bit (4) > |
‘0000’B |
0 | 1 < Measurement_Parameters Description > |
0 |
0 | 1 < GPRS_Real Time Difference Description > |
0 |
0 | 1 < GPSR_BSIC Description > |
0 |
0 | 1 < GPRS_REPORT PRIORITY Description > |
0 |
0 | 1 < GPRS_Measurement_Parameters Description > |
0 |
0 | 1 < NC Measurement Parameters > |
0 |
0 | 1 < extension length > |
0 |
0 | 1 < 3G Neighbour Cell Description > |
1 |
0 | 1 < Index_Start_3G : bit (7) > |
0 |
0 | 1 < Absolute_Index_Start_EMR : bit (7) > |
0 |
0 | 1 < UTRAN FDD Description > |
1 |
0 | 1 < Bandwidth_FDD : bit (3) > |
0 |
1 < Repeated UTRAN FDD Neighbour Cells > ** 0 |
1 |
0 < FDD-ARFCN : bit (14) > |
0 See TS 34.108, clause 6.1.5, table 6.1.1 |
< FDD_Indic0 : bit > |
0 |
< NR_OF_FDD_CELLS : bit (5) > |
‘00001’B |
< FDD_CELL_INFORMATION Field > |
10 bits Scrambling code according to TS 34.108, clause 6.1.4, Default settings for cell No.1 |
1 < Repeated UTRAN FDD Neighbour Cells > ** 0 |
0 |
0 | 1 < UTRAN TDD Description > |
0 |
0 | 1 < 3G MEASUREMENT Parameters Description > |
|
< Qsearch_I : bit (4) > |
‘0111’B (Always) |
< Qsearch_C_Initial : bit (1) > |
0 |
0 | 1 < FDD_Qoffset : bit (4) > |
0 |
0 | 1 < FDD_MULTIRAT_REPORTING : bit (2) > |
‘1 01’B (Report on 1 UTRAN cell) |
0 | 1 < FDD_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < TDD_MULTIRAT_REPORTING : bit (2) > |
0 |
0 | 1 < TDD_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < CDMA2000_MULTIRAT_REPORTING : bit (2) > |
0 |
0 | 1 < CDMA2000_REPORTING_OFFSET : bit (3) > |
0 |
0 | 1 < GPRS_3G_MEASUREMENT Parameters Description > |
0 |
SYSTEM INFORMATION TYPE 2QUATER (M = 2)
Information Element |
Value/remark |
< RR management Protocol Discriminator bit (4) > |
‘0110’B |
< Skip Indicator : bit (4) > |
‘0000’B |
< Message type : bit (8) > |
‘0000 0111’B |
< SI2 quater Rest Octets > |
|
< BA_IND : bit > |
0 |
< 3G_BA_IND : bit > |
0 |
< MP_CHANGE_MARK : bit > |
0 |
< SI2quater _INDEX : bit (4) > |
‘0000’B |
< SI2quater_COUNT : bit (4) > |
‘0000’B |
0 | 1 < Measurement_Parameters Description > |
0 |
0 | 1 < GPRS_Real Time Difference Description > |
0 |
0 | 1 < GPSR_BSIC Description > |
0 |
0 | 1 < GPRS_REPORT PRIORITY Description > |
0 |
0 | 1 < GPRS_Measurement_Parameters Description > |
0 |
0 | 1 < NC Measurement Parameters > |
0 |
0 | 1 < extension length > |
0 |
0 | 1 < 3G Neighbour Cell Description > |
1 |
0 | 1 < Index_Start_3G : bit (7) > |
0 |
0 | 1 < Absolute_Index_Start_EMR : bit (7) > |
0 |
0 | 1 < UTRAN FDD Description > |
0 |
0 | 1 < UTRAN TDD Description > |
1 |
0 | 1 < Bandwidth_TDD : bit (3) > |
1 ‘001’B |
1 < Repeated UTRAN TDD Neighbour Cells > ** 0 |
1 |
0 < TDD-ARFCN : bit (14) > |
0 See TS 34.108, clause 6.1.6, Table 6.1.6a |
< TDD_Indic0 : bit > |
1 |
< NR_OF_TDD_CELLS : bit (5) > |
‘00001’B |
< TDD_CELL_INFORMATION Field > |
9 bits Scrambling code according to TS 34.108, clause 6.1.4, Default settings for TDD cell No.1 |
1 < Repeated UTRAN TDD Neighbour Cells > ** 0 |
0 |
0 | 1 < 3G MEASUREMENT Parameters Description > |
1 |
< Qsearch_I : bit (4) > |
‘0111’B (Always) |
< Qsearch_C_Initial : bit (1) > |
0 |
0 | 1 < FDD_Qoffset : bit (4) > |
0 |
0 | 1 < TDD_Qoffset : bit (4) > |
1 ‘ 1111’B (Reselect UTRAN TDD cell when above 60dB) |
< TDD_MULTIRAT_REPORTING : bit (2) > |
’01’B (Report on 1 UTRAN cell) |
0 | 1 < GPRS_3G_MEASUREMENT Parameters Description > |
0 |
INTER SYSTEM TO UTRAN HANDOVER COMMAND
For M = 1:
Same as the default message contents in subclause 60.1 for M = 1 with the following exceptions:
Information Element |
Value/remark |
CHOICE specification mode |
Preconfiguration |
CHOICE preconfiguration mode |
Default configuration |
– Default configuration identity |
1 (13.6 kbps signalling) |
RAB information list |
Not Present |
For M = 2:
Same as the default message contents in subclause 60.2a for M = 2 using the configuration defined in TS 34.108 [149] clause 6.10.2.4.1.2:
60.4.5 Test requirement
At step 5 the MEASUREMENT REPORT should include details of the UTRAN cell. At step 10 a HANDOVER TO UTRAN COMPLETE command should be received on DCCH of the UTRAN cell.
60.5 Inter system handover to UTRAN/From GSM/Speech/Blind HO/Success
60.5.1 Definition
60.5.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover, even if no prior MS measurements have been performed on the target UTRAN cell and/or frequency.
If the MS succeeds to establish the connection to UTRAN, it shall transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.5.3 Test purpose
To test that the MS handovers from the GSM serving cell to the indicated channel of UTRAN target cell when it is in the speech call active state without any knowledge of the target system (blind handover) and receives an INTER SYSTEM TO UTRAN HANDOVER COMMAND.
60.5.4 Method of test
Initial conditions
2 cells – Cell 1 is GPRS, Cell 2 is UTRAN (cell conditions favour the GPRS cell).
The present document subclause 40 shall be referenced for the default parameters of cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation.
3GPP TS 34.108 subclause 6.1 shall be referred to for default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
–
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
No SYSTEM INFORMATION TYPE 2quarter or MEASUREMENT INFORMATION indicating presence of the UTRAN cell are broadcasted in the GSM cell. The SS brings the MS into the call active state (CC state U10) with FR speech. The SS configures a dedicated channel (conversationa/speech/UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBS), then sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. After the MS receives the command it shall configure itself accordingly and switch to the dedicated channel of UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell.
Expected sequence
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS bring the MS into GSM U10 state in cell 1, on a hopping traffic channel, and the MS has no pre-configuration information stored or received any information of presence of the UTRAN cell. |
||
2 |
SS |
The SS configures dedicated channel with the configuration: conversational/speech/UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs in UTRAN cell. |
||
3 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
4 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
5 |
SS |
The SS waits for uplink physical channel in synchronization |
||
6 |
|
HANDOVER TO UTRAN COMPLETE |
The SS receives this message on DCCH of cell 2 (UTRAN cell). It implies that the down link physical channel has synchronised with UTRAN. |
Specific message contents
INTER SYSTEM TO UTRAN HANDOVER COMMAND
Same as the specific message contents in subclause 60.1 for M = 1.
60.5.5 Test requirement
At step 6 the HANDOVER TO UTRAN COMPLETE shall be received on UTRAN cell.
60.6 Inter system handover to UTRAN/From GSM/Speech/Failure
60.6.1 Definition
60.6.2 Conformance requirement
The MS shall be able to receive a INTER SYSTEM TO UTRAN HANDOVER COMMAND message from GSM and perform an inter-system handover.
If the MS can not establish the connection to UTRAN, it shall reactivate the old channel and transmit a HANDOVER FAILURE message on the old channel.
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.6.3 Test purpose
To test that the MS reactivates the old channel and transmits HANDOVER FAILURE message to the network on the old channel in the GSM cell when it received INTER SYSTEM TO UTRAN HANDOVER COMMAND towards a non-existing UTRAN cell.
60.6.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GPRS, Cell 2 is UTRAN (cell selection conditions in favour of the GPRS cell).
The present document subclause 40 shall be referenced for the default parameters of cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation.
3GPP TS 34.108, subclause 6.1 will be referenced for the default parameters of Cell 2.
MS:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
–
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 1.
Test Procedure
The SS brings the MS into the call active state (CC state U10) with FR speech call. The SS does not configure a dedicated channel corresponding to the default configuration 3. The SS sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell. The SS verifies that the MS include the UTRAN cell in the MEASUREMENT REPORT and, then sends INTER SYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell. The MS will not be able to establish the connection to UTRAN dedicated channel. The SS checks that the handover is failed by checking that the MS returns to the old channel and transmits HANDOVER FAILURE to the SS through the old channel.
Expected sequence
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS |
The SS brings the MS into GSM U10 state in cell 1 on a hopping traffic channel |
||
2 |
SS |
The SS configures the Physical channel of the UTRAN cell but here is no dedicated channel with the configuration: conversational/speech/UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs in UTRAN cell. |
||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4 |
|
5 |
|
INTER SYSTEM TO UTRAN HANDOVER COMMAND |
Send on cell 1 (GSM cell) |
|
6 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTER SYSTEM TO UTRAN HANDOVER COMMAND |
||
7 |
MS |
The MS fails to configure to the indicated RAB in Step 6 and fails to establish a connection to UTRAN cell |
||
8 |
|
HANDOVER FAILURE |
The SS receives this message on DCCH of cell 1 (old channel in GSM cell) |
Specific message contents
Same as the specific message contents in subclause 60.1 for M = 1.
60.6.5 Test requirement
At step 8 the HANDOVER FAILURE shall be received on GSM cell.
60.7 Inter system handover to UTRAN/From GSM/Failure/Cause: Frequency not implemented
60.7.1 Definition
60.7.2 Conformance requirement
The MS shall be able to receive a HANDOVER TO UTRAN COMMAND message from GSM and perform an inter‑system handover, even if no prior MS measurements have been performed on the target UTRAN cell and/or frequency.
The HANDOVER TO UTRAN COMMAND message instructs the mobile station to use frequency that it is not capable of, and then the MS shall return a HANDOVER FAILURE message with cause "frequency not implemented" (Reference 3GPP TS 04.18 subclause 3.4.4a.3).
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.7.3 Test purpose
To test that the MS reactivates the old channel and transmits HANDOVER FAILURE message to the network on the old channel in the GSM cell when it received HANDOVER TO UTRAN COMMAND and the handover to UTRAN failed because of frequency not implemented.
60.7.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GSM, Cell 2 is UTRAN. TS 51.010-1 subclause 26.6.5.1 shall be referenced for the default parameters of Cell 1.
MS:
CC State U10 in cell 1.
Specific PICS statements
–
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 1.
Test Procedure:
The SS starts the GSM cell and UTRAN cell with the cell selection condition in favour of GSM cell. The MS selects the GSM cell.
SS brings the MS into the call active state (CC state U10) with FR speech call. The SS configures the dedicated channel corresponding to the default configuration (conversational/speech/uplink: 12.2 DL: 12.2 kbps/CS RAB + uplink: 3.4 DL3.4 kbps SRBS), then sends HANDOVER TO UTRAN COMMAND the MS through the GSM serving cell. The HANDOVER TO UTRAN COMMAND message instructs the mobile station to use frequency that it is not capable of, and then the MS shall return a HANDOVER FAILURE message with cause "frequency not implemented" (Reference 3GPP TS 04.18 subclause 3.4.4a.3) and continue the voice call on the old channel.
Expected sequence
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
SS |
The SS starts GSM and UTRAN cells; the UTRAN cell broadcasts SIB16 containing pre-configuration information. MS camps on GSM cell and received SIB 16 from UTRAN cell. |
||
2 |
MS |
The SS brings the MS into GSM U10 state in cell 1. |
||
3 |
SS |
The SS configures dedicated channel with the configuration: conversational/speech/uplink:12.2 DL:12.2 kbps/CS RAB + uplink:3.4 DL3.4 kbps SRBs in UTRAN cell. |
||
4 |
|
HANDOVER TO UTRAN COMMAND |
Handover message is sent on cell 1 (GSM cell) with unsupported frequency. |
|
5 |
MS |
The MS fails to establish a connection to UTRAN cell |
||
6 |
|
HANDOVER FAILURE |
The SS receives this message on DCCH of cell 1 (old channel in GSM cell) with RR Cause "frequency not implemented". |
Specific message contents
Same as the specific message contents in subclause 60.1 for M = 1 except that the INTER SYSTEM TO UTRAN HANDOVER COMMAND indicates a frequency not supported by the MS.
60.7.5 Test requirement
At step 7 the HANDOVER FAILURE shall be received on GSM cell.
60.8 Inter system handover to UTRAN/From GSM/Failure/Cause: UTRAN configuration unknown
60.8.1 Definition
60.8.2 Conformance requirement
The MS shall be able to receive a HANDOVER TO UTRAN COMMAND message from GSM and perform an inter-system handover, even if no prior MS measurements have been performed on the target UTRAN cell and/or frequency. The HANDOVER TO UTRAN COMMAND message instructs the mobile station to use preconfiguration that the mobile station has not read or instruct to use default reconfiguration not implemented by MS, then the MS shall return a HANDOVER FAILURE message with cause "UTRAN configuration unknown" (3GPP TS 04.18 subclause 3.4.4a.3).
Reference(s)
3GPP TS 25.331 subclause 8.3.6.
3GPP TS 04.18 subclause 3.4.4a.
60.8.3 Test purpose
To test that the MS reactivates the old channel and transmits HANDOVER FAILURE message to the network on the old channel in the GSM cell when it receives HANDOVER TO UTRAN COMMAND and the handover to UTRAN failed because of UTRAN configuration unknown.
60.8.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GSM, Cell 2 is UTRAN. TS 51.010-1section 26.6.5.1 shall be referenced for the default parameters of cell 1.
MS:
CC State U10 in cell.
Specific PICS statements
–
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 1.
Test Procedure
The SS starts the GSM cell and UTRAN cell with the cell selection condition in favour of GSM cell, SIB16 is not broadcast in UTRAN cell and MS has no predefined configuration stored.
The MS selects the GSM cell. SS brings the MS into the call active state (CC state U10) with FR speech call. The SS configures a dedicated channel (conversational/speech/uplink: 12.2 DL: 12.2 kbps/CS RAB + uplink: 3.4 DL3.4 kbps SRBS). The SS sends a HANDOVER TO UTRAN COMMAND message through the GSM cell that instructs the MS to use a preconfiguration that the mobile station has not read or instructed to use default configuration not implemented by MS. The MS shall return a HANDOVER FAILURE message with cause "UTRAN preconfiguration unknown" and continue the voice call on the old cell.
Expected sequence
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
SS |
The SS starts GSM and UTRAN cells; SIB16 is not broadcast in the UTRAN cell. |
||
2 |
MS |
The SS brings the MS into GSM U10 state in cell 1and MS has not any pre-configuration stored. |
||
3 |
SS |
The SS configures dedicated channel with the configuration: conversational/speech/uplink:12.2 DL:12.2 kbps/CS RAB + uplink:3.4 DL3.4 kbps SRBs in UTRAN cell. |
||
4 |
|
HANDOVER TO UTRAN COMMAND |
Handover message is sent on cell 1 (GSM cell) with unknown preconfiguration. |
|
5 |
MS |
The MS fails to establish a connection to UTRAN cell |
||
6 |
|
HANDOVER FAILURE |
The SS receives this message on DCCH of cell 1 (old channel in GSM cell) with RR Cause "UTRAN configuration unknown". |
Specific message contents
INTER SYSTEM TO UTRAN HANDOVER COMMAND
Information Element |
Value/remark |
RR management Protocol Discriminator |
‘0110’B |
Skip Indicator |
‘0000’B |
Inter System to UTRAN Handover Command Message Type |
‘01100011’B |
Handover to UTRAN Command IEI |
TBD |
Length of Handover to UTRAN Command contents |
Octet length of the "Handover to UTRAN Command value part" |
Handover to UTRAN Command value part |
PER encoded ASN.1 value of type "HandoverToUTRANCommand-v1-IEs", content is presented in the next table. |
Content of "HandoverToUTRANCommand-r3-IEs"
Information Element |
Value/remark |
New U-RNTI |
|
– SRNC Identity |
‘000000000001’B |
– S-RNTI-2 |
1 |
Activation time |
now |
Ciphering algorithm |
Standard UMTS Encryption Algorithm UEA1 |
CHOICE Specification mode |
Preconfiguration |
– Predefined configuration identity |
1 |
– RAB Info |
|
– RAB identity |
|
– GSM-MAP RAB identity |
‘00000001’B |
– CN domain identity |
CS domain |
– CHOICE Mode specific info |
FDD |
– uplink DPCH info |
|
– uplink DPCH power control info |
|
– DPCCH power offset |
-6dB |
– PC Preamble |
1 frame |
– SRB delay |
7 frames |
– Scrambling code type |
long |
– Reduced scrambling code number |
0 |
– Spreading factor |
16 |
– DL common information post |
|
– DL DPCH info common |
|
– DL DPCH power control info |
|
– CHOICE Mode specific info |
FDD |
– DPC mode |
Single TPC |
– DL information perRL list |
|
– Primary CPICH info |
|
– Primary scrambling code |
100 |
– DL DPCH info perRL |
|
– pCPICH usage for channelEst |
May be used |
– DL channelization code |
|
– Secondary scrambling code |
1 |
– SF and code number |
SF = 32, code number = 31 |
– Scrambling code change |
No code change |
– TPC combination index |
0 |
– Frequency info |
|
– UARFCN uplink(Nu) |
See PIXIT |
– UARFCN downlink(Nd) |
See PIXIT |
Maximum allowed uplink TX power |
33dBm |
HANDOVER FAILURE message content
Information element |
Value/remark |
RR management Protocol Discriminator |
‘0110’B |
Skip Indicator |
‘0000’B |
Handover Failure Message Type |
‘00101000’B |
RR Cause |
RR Cause (Refer : table 10.5.2.31.1/3GPP TS 04.18: RR Cause information element) |
60.8.5 Test requirement
At step 7 the HANDOVER FAILURE shall be received on GSM cell.
60.9 Inter system handover to UTRAN/From GSM/Failure/Cause: Protocol Error
60.9.1 Definition
60.9.2 Conformance requirement
The MS shall be able to receive a HANDOVER TO UTRAN COMMAND message from GSM and perform an inter‑system handover, even if no prior MS measurements have been performed on the target UTRAN cell and/or frequency. The HANDOVER TO UTRAN COMMAND message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set TRUE according to subclause 9 of 3GPP TS 25.331.
3GPP TS 04.18 subclause 8.5
When on receipt of a message,
– an "imperative message part" error; or
– a "missing mandatory IE" error
is diagnosed or when a message containing:
– a syntactically incorrect mandatory IE; or
– an IE unknown in the message, but encoded as "comprehension required" (see clause 3GPP TS 24.007); or
– an out of sequence IE encoded as "comprehension required" (see clause 3GPP TS 24.007)
is received,
– the mobile station shall proceed as follows:
If the message is not one of the messages listed in clauses 8.5.1, 8.5.2, 8.5.3 the mobile station shall ignore the message except for the fact that, if an RR connection exists, it shall return a status message (RR STATUS) with cause # 96 "Invalid mandatory information".
Reference(s)
3GPP TS 25.331 subclause 8.3.6 and 9.
3GPP TS 04.18 subclause 3.4.4a and 8.5.
60.9.3 Test purpose
To test that the MS reactivates the old channel and transmits RR Status message to the network on the old channel in the GSM cell when it receives HANDOVER TO UTRAN COMMAND and the handover to UTRAN failed because of protocol error.
60.9.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GSM, Cell 2 is UTRAN. TS 51.010-1 section 26.6.5.1 shall be referenced for the default parameters of cell 1.
MS:
CC State U10 in cell 1.
Specific PICS statements
–
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 1.
Test Procedure
The SS starts the GSM cell and UTRAN cell with the cell selection condition in favour of GSM cell. The MS selects the GSM cell. SS brings the MS into the call active state (CC state U10) with FR speech call. The SS configures the dedicated channel corresponding to the default configuration 3 (conversational/speech/uplink: 12.2 DL: 12.2 kbps/CS RAB + uplink: 3.4 DL3.4 kbps SRBS), then sends HANDOVER TO UTRAN COMMAND indicating the dedicated channel of the target cell to the MS through the GSM serving cell.
The SS sends a HANDOVER TO UTRAN COMMAND message, that contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set TRUE according to 3GPP TS 25.331 subclause 9. Then the MS shall return an RR STATUS message on DCCH of cell 1 (old channel in GSM cell) with RR cause #96 “Invalid mandatory information”.
Expected sequence
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
SS |
The SS starts GSM and UTRAN cells; The MS camps on GSM cell |
||
2 |
MS |
The SS brings the MS into GSM U10 state in cell 1 |
||
3 |
SS |
The SS configures dedicated channel with the configuration: conversational/speech/uplink:12.2 DL:12.2 kbps/CS RAB + uplink:3.4 DL3.4 kbps SRBs in UTRAN cell. |
||
4 |
|
HANDOVER TO UTRAN COMMAND |
Handover message is sent on cell 1 (GSM cell) with missing mandatory IE. |
|
5 |
|
RR STATUS |
The SS receives this message on DCCH of cell 1 (old channel in GSM cell) with RR cause #96 "Invalid mandatory information". |
Specific message contents
Same as the specific message contents in subclause 60.1 for M = 1 except that in the INTER SYSTEM TO UTRAN HANDOVER COMMAND a mandatory IE is missing causing a protocol error.
60.9.5 Test requirement
At step 5 the RR STATUS shall be received on GSM cell.
60.10 Inter system handover to UTRAN/From GSM/Integrity Protection Activation
60.10.1 Definition
60.10.2 Conformance requirement
The MS shall include the Security START values in INTER RAT HANDOVER INFO in the RR message UTRAN CLASSMARK CHANGE -definition and in the RRC message HANDOVER TO UTRAN COMPLETE.
If the MS succeeds to establish the connection to UTRAN after reception of an INTERSYSTEM TO UTRAN HANDOVER COMMAND, the NW may start Integrity protection using the previously received CS START value by sending a SECURITY MODE COMMAND message to the MS.
Reference(s)
3GPP TS 25.331 subclause 8.1.12 and 8.3.6.
3GPP TS 04.18 subclause 3.4.4a and 3.4.11.
60.10.3 Test purpose
To test that MS supporting both GSM and UTRAN applies the correct CS Security START value after a successful handover from GSM to UTRAN when Integrity protection is activated by the NW.
60.10.4 Method of test
Initial conditions
System Simulator:
2 cells – Cell 1 is GSM, Cell 2 is UTRAN.
The present document subclause 40 shall be referenced for the default parameters of cell 1, and subclause 26.6.5.1 shall be referenced for cell allocation.
3GPP TS 34.108, subclause 6.1 shall be referenced for default parameters of Cell 2.
Mobile Station:
"idle, updated", channel released mode with TMSI allocated.
For MS supporting GPRS:
The MS is GPRS attached with a P-TMSI allocated, SPLIT PG CYCLE negotiated.
Specific PICS statements
–
PIXIT statements
–
Foreseen final state of the MS
The MS is in CC state U10 on cell 2.
Test Procedure
The SS brings the MS into the call active state (CC state U10) with FR speech call.
The SS starts the UTRAN cell, configures the UTRAN dedicated channel corresponding to default handover configuration 3 and sends a MEASUREMENT INFORMATION to trigger the MS to perform measurements on the UTRAN cell.
The SS verifies that the MS includes the UTRAN cell in the MEASUREMENT REPORT. The SS then sends a CLASSMARK ENQUIRY requesting an UTRAN CLASSMARK CHANGE from the MS. The MS responds with a UTRAN CLASSMARK CHANGE and the SS verifies that the INTER RAT HANDOVER INFO includes a START value for the CS domain.
The SS sends an INTERSYSTEM TO UTRAN HANDOVER COMMAND indicating the dedicated channel of the target cell to the MS. After the MS receives the command, it shall switch to the dedicated channel of the UTRAN cell. The SS checks whether the handover is performed by checking that the MS transmits HANDOVER TO UTRAN COMPLETE to the SS through DCCH of the UTRAN cell. It is also verified that the START value for the CS domain in the HANDOVER TO UTRAN COMPLETE message is the same as the START value received in the INTER RAT HANDOVER INFO.
The SS attempts to activate Integrity protection by sending an Integrity protected SECURITY MODE COMMAND on the DCCH with an incorrect IE “Integrity check info”. It is verified that the MS does not respond with a SECURITY MODE COMPLETE message.
The SS retransmits the SECURITY MODE COMMAND on the DCCH with a correct IE Integrity Check Info and the MS responds with an Integrity protected SECURITY MODE COMPLETE. Both SS and MS shall use the START value for the CS domain for Integrity protection that the MS has indicated in UTRAN CLASSMARK CHANGE and HANDOVER TO UTRAN COMPLETE.
Expected sequence
Step |
Direction |
Message |
Comments |
|
MS |
SS |
|||
1 |
MS – SS |
The SS brings the MS into GSM U10 state in cell 1 on a hopping traffic channel |
||
2 |
SS |
The SS configures the UTRAN cell with a dedicated channel configuration: conversational/speech/UL:12.2 DL:12.2 kbps/CS RAB + UL:3.4 DL3.4 kbps SRBs in UTRAN cell (default handover configuration 3). |
||
The following messages are sent and received on the GSM cell |
||||
3 |
|
MEASUREMENT INFORMATION |
||
4 |
|
MEASUREMENT REPORT |
Including Measurement Results on the UTRAN cell in Step 4. |
|
5 |
|
CLASSMARK ENQUIRY |
||
6 |
|
UTRAN CLASSMARK CHANGE |
Verify that the ue-SecurityInformation is present. |
|
7 |
|
INTERSYSTEM TO UTRAN HANDOVER COMMAND |
||
8 |
MS |
The MS accepts the handover command and configures its lower layers using the parameters contained in the INTERSYSTEM TO UTRAN HANDOVER COMMAND |
||
9 |
SS |
The SS waits for uplink physical channel in synchronization |
||
The following messages are sent and received on the UTRAN cell. |
||||
10 |
|
HANDOVER TO UTRAN COMPLETE |
Received on DCCH of the UTRAN cell. Verify that the same CS-domain START-Value is indicated as in step 6. |
|
11 |
|
SECURITY MODE COMMAND |
Integrity protected with a different CS-domain START value than the indicated in step 6 is applied. |
|
12 |
SS |
Verify that no SECURITY MODE COMPLETE is sent by the MS for 5 sec. |
||
13 |
|
SECURITY MODE COMMAND |
Integrity protected with the CS-domain START value indicated in step 6 is applied. |
|
14 |
|
SECURITY MODE COMPLETE |
Verify that Integrity protection is applied using the CS-domain START value indicated in step 6. |
Specific message contents
MEASUREMENT INFORMATION in Step 3
Same as in 60.1
CLASSMARK ENQUIRY message in Step 5
Information Element |
Value/remark |
Protocol Discriminator |
RR management |
Skip Indicator |
‘0000’B |
Message Type |
Classmark Enquiry |
Classmark Enquiry Mask |
|
Classmark Enquiry Mask IEI |
‘00010000’B |
Length of Classmark Enquiry Mask contents |
‘00000001’B |
Classmark Enquiry Mask value part |
‘10001000’B Note |
Note CLASSMARK CHANGE message is not requested; UTRAN CLASSMARK CHANGE message is requested; CDMA2000 CLASSMARK CHANGE message is not requested |
UTRAN CLASSMARK CHANGE message in step 6
Information Element |
Value/remark |
Protocol Discriminator |
RR management |
Skip Indicator |
‘0000’B |
Message Type |
UTRAN ‘Classmark Change |
UTRAN Classmark |
|
Length of UTRAN Classmark |
Length of INTER RAT HANDOVER INFO |
UTRAN Classmark value part |
INTER RAT HANDOVER INFO |
InterRATHandoverInfo |
RR management |
PredefinedConfigurationStatusList |
(Optional) Not checked |
ue-SecurityInformation |
Checked that the IE is present |
start-CS |
20 bits |
… |
Rest of message not checked |
INTER SYSTEM TO UTRAN HANDOVER COMMAND message in Step 7
Same content as in 60.1
HANDOVER TO UTRAN COMPLETE message in step 10
Information Element |
Value/remark |
UL-DCCH-Message |
|
IntegrityCheckInfo |
Not defined |
Message |
handoverToUTRANComplete |
HandoverToUTRANComplete |
|
StartList |
|
[0] |
|
cn-DomainIdentity |
cs –domain Checked that IE is present |
start-Value |
20 bits |
[1] |
|
cn-DomainIdentity |
ps-domain Not checked |
start-Value |
20 bits |
… |
– |
SECURITY MODE COMMAND message AM, in step 11
Information Element |
Value/remark |
Message Type |
|
RRC transaction identifier |
Arbitrarily selects an integer between 0 and 3 |
Integrity check info |
|
– Message authentication code |
Set to MAC-I value computed by the SS using a different START value for the CS domain from the indicated in the INTER RAT HANDOVER INFO. The first/ leftmost bit of the bit string contains the most significant bit of the MAC-I. |
UE system specific security capability |
|
– Inter-RAT UE security capability |
|
– CHOICE system |
GSM |
– GSM security capability |
The indicated algorithms must be the same as the algorithms supported by the UE as indicated in the IE " Mobile station classmark 2 " in the LOCATION UPDATING REQUEST message. |
SECURITY MODE COMMAND message AM, in step 13
Information Element |
Value/remark |
Message Type |
|
RRC transaction identifier |
Arbitrarily selects an integer between 0 and 3 |
Integrity check info |
|
– Message authentication code |
Set to MAC-I value computed by the SS using the indicated START value for the CS domain from the INTER RAT HANDOVER INFO. The first/ leftmost bit of the bit string contains the most significant bit of the MAC-I. |
UE system specific security capability |
|
– Inter-RAT UE security capability |
|
– CHOICE system |
GSM |
– GSM security capability |
The indicated algorithms must be the same as the algorithms supported by the UE as indicated in the IE " Mobile station classmark 2 " in the LOCATION UPDATING REQUEST message. |
60.10.5 Test requirement
After step 14, the ongoing call shall continue on UTRAN cell with Integrity protection using the CS Security START value indicated in the UTRAN CLASSMARK CHANGE.