RU10SV_CP_1120

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RU10SV_CP1120 INTER RNC MOBILITY WITH IFHO FOR VIDEO + PS HIGH SPEED DATA CALL

Abstract

The goal of this test case is to verify that UE can perform basic Intra&Inter-RNC and Inter-Freq mobility when MultiRAB CS Video and PS Data is allocated.

Required test environment

- RNC (2)

- BTS (4)

- CS-CN

- PS-CN

- 2 Rel6 (HSUPA capable) WCDMA UEs

RNC B

Cell 2/1, F1

RNC A

IuRCell 3/1, F1

If. Cell 5/2, F2

Cell 3/2, F1

Cell 2/2, F2

Cell 2/3, F2

If. Cell 3/3, F1

Cell 5/1, F1

Cell 4/1, F2

-All cells HSPA capable

-AMR + HSPA enabled

-Relocation enabled

GSM Adj

cell to 5/1

RNC B

Cell 2/1, F1

RNC A

IuRCell 3/1, F1

If. Cell 5/2, F2

Cell 3/2, F1

Cell 2/2, F2

Cell 2/3, F2

If. Cell 3/3, F1

Cell 5/1, F1

Cell 4/1, F2

-All cells HSPA capable

-AMR + HSPA enabled

-Relocation enabled

GSM Adj

cell to 5/1

Required environment settings

Generally in testing default parameter settings in network elements are used, these settings canbe referred from parameter dictionary database: http://xeswww001.ext.nokia.com:8080/pddb/

Preconditions and Test execution and expected results sections however definessettings that are not default and also settings that are in default values but anyway thesesettings needs to be modified/checked prior to the test case execution.

Preconditions

Features tested in test case which needs to be activated:

- RAN475 MultiRAB: CS data + PS data – (RAN04)

http://xeswww001.ext.nokia.com:8080/pddb/
http://xeswww001.ext.nokia.com:8080/pddb/
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RU10SV_CP1120 INTER RNC MOBILITY WITH IFHO FOR VIDEO + PS HIGH SPEED DATA CALL

- RAN852 HSDPA 15 Codes – (RAS06)- RAN312 HSDPA Dynamic Resource Allocation – (RAS06)

- RAN826 Basic HSUPA – (RAS06)

Features set active in the test case:

 As a general rule for Level 1 test cases, all the features that have been available since RAS06(inclusive) are enabled, but most relevant as “background” features for this test case are:

- RAN146 Power Balancing - (RAS05.1)- RAN920 Selective NRT DCH Data Rate Set - (RAN04)- RAN242 Flexible Upgrade of NRT DCH Data Rate – (RAS05.1)- RAN763 Basic HSDPA with QPSK and 5 Codes – (RAS 05)

- RAN764 HSDPA 16QAM support – (RAS05)- RAN409 Throughput Based Optimisation of the Packet Scheduler Algorithm – (RAS05.1)

Test execution and expected results

BTS2/cell2/F2

1. IFHO (Intra RNC)

2. IFHO +Relocation

3. Soft HO 3 RL (Intra – Inter RNC)

4. IFHO +Relocation

4.1. Softer HO 2 RL

BTS5/cell1/F1 BTS3/cell2 and

BTS2/cell1 /F1

2 3 4 4.1

=F1=F2=Interference

BTS2/cell2 and

BTS2/cell3 /F2

=Branches in active set

5 5.1

BTS5/cell1 and

BTS3/cell1 /F1BTS4/cell1/F2

F1 interferenceF2 interference

5. Soft HO 3 RL (Intra– Inter RNC)

5.1. IFHO +Relocation

5.2. SoftHO 2 RL (Intra– Inter RNC)

8. IFHO +Relocation

9. IFHO (Intra RNC)

5.2

1a1b

F1 interference

BTS2/cell2 /F2

8 9

BTS2/cell1 /F1

F2 interference

1a

1a

CM CM

1a1a

F2 interference

CM CM CMCM

1

CM

F1 interference

BTS2/cell1 /F1

Time

CPICH Ec/No

BTS2/cell2/F2

1. IFHO (Intra RNC)

2. IFHO +Relocation

3. Soft HO 3 RL (Intra – Inter RNC)

4. IFHO +Relocation

4.1. Softer HO 2 RL

BTS5/cell1/F1 BTS3/cell2 and

BTS2/cell1 /F1

2 3 4 4.1

=F1=F2=Interference

BTS2/cell2 and

BTS2/cell3 /F2

=Branches in active set

5 5.1

BTS5/cell1 and

BTS3/cell1 /F1BTS4/cell1/F2

F1 interferenceF2 interference

5. Soft HO 3 RL (Intra– Inter RNC)

5.1. IFHO +Relocation

5.2. SoftHO 2 RL (Intra– Inter RNC)

8. IFHO +Relocation

9. IFHO (Intra RNC)

5.2

1a1a1b1b

F1 interference

BTS2/cell2 /F2

8 9

BTS2/cell1 /F1

F2 interference

1a1a

1a1a

CM CM

1a1a1a1a

F2 interference

CM CM CMCM

1

CM

F1 interference

BTS2/cell1 /F1

Time

CPICH Ec/No

During this test case execution, perform randomly data transfers both in UL & DL (using ping,then adding FTP, then stopping FTP and maintaining ping and so on).

1. Make one PS data call under cell 2/1 and observe that data transfers in HS-DSCH and E-DCH should be performed. Add terminating multi-RAB video call and observe thattransition to normal DCH is done in both UL/DL in PS data service. Then increase theinterference to perform IFHO to cell 2/2 (intra-RNC). Attenuate cell 2/1 after that.

2. Increase interference to perform IFHO to cell 5/1 (relocation to RNC B), and attenuate cell2/2 after that.

3. Add SHO branches to cells 3/2 and 2/1 (try to add both branches at same time).

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