hash stringlengths 32 32 | doc_id stringlengths 5 12 | section stringlengths 5 1.47k | content stringlengths 0 6.67M |
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683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.2 Packet System Information messages on PACCH | 40.2.2.1 PACKET SYSTEM INFORMATION TYPE 13 (only applicable in test cases where PBCCH is not present).
This message is transmitted PACCH in such a way that the Mobile station receives PSI13 once in 15 seconds.
MESSAGE_TYPE
110111
PAGE_MODE
00 Normal Paging
BCCH_CHANGE_MARK
000
SI_CHANGE_FIELD
0000 Unspecified
{0|1<SI13_CHANGE_MARK>}
1 Present
- SI13_CHANGE_MARK
00
{GPRS Mobile Allocation}
-HSN
000000 Sequence 0
-{0|1<RFL number list>}
0 Number list not present
-{0
0
-MA_LENGTH
000101 (for GSM 700, T-GSM 810, GSM 850 and GSM900).
000011 (for DCS 1 800 and PCS 1 900).
-MA_BITMAP
001111 4 belonging (for GSM 700, T-GSM 810, GSM 850 and GSM900).
1111 4 belonging (for DCS 1 800 and PCS 1 900).
0 PBCCH not present in cell
- RAC
00000101(Binary)
-SPGC_CCCH_SUP
1 supported
-PRIORITY_ACCESS_THR
11 PA allowed for priority level 1 to 4
-NETWORK_CONTROL_ORDER
00 NC0
GPRS Cell Options
Same as the GPRS Cell Options as stated in SI13 rest octets for test cases where PBCCH is not present.
GPRS Power Control Parameters
Same as the GPRS Power Control Parameters as stated in SI13 rest octets for test cases where PBCCH is not present.
Additions for Rel.99/Rel 4/Rel 6
1
- SGSNR bit
1 SGSN is Release '99 onwards
Additions for Rel 4
1
- SI_STATUS_IND bit
0 PACKET SI STATUS msg not supported
Additions for Rel 6
1
{LB_MS_TXPWR_MAX_CCH}
1 LB_MS_TXPWR_MAX_CCH present
- LB_MS_TXPWR_MAX_CCH
01010
- SI2n_SUPPORT
00
End Rel 6
End Rel 4
End R99
Padding
Padding bits |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3 Default contents of Layer 2 messages | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.1 PACKET PAGING REQUEST message: | MESSAGE_TYPE
100010
PAGE_MODE
00 Normal Paging
{0|1<PERSISTENCE_LEVEL>}
0 (no persistence level present)
{0|1<NLN>}
0 (no notification list number)
{1|<Repeated Page info>}
1 (start of Repeated Page info)
-
0 (Page request for TBF establishment)
-
0 (PTMSI)
- PTMSI
00000000000000000000000000000000
P-TMSI allocated during GPRS attach procedure
-
0 ( end of Repeated Page info)
spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.2 PACKET ACCESS REJECT message: | MESSAGE_TYPE
100001
PAGE_MODE
00 Normal Paging
Reject
-
1 (TLLI not present)
-
0(Packet Request Reference)
- Packet Request Reference
information field sent in PACKET CHANNEL REQUEST and frame number in which PACKET CHANNEL REQUEST was received
-
0 (no waiting indication)
-
0 (end of Reject IE)
spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.3 Void | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.4 PACKET UPLINK ASSIGNMENT messages | MESSAGE_TYPE
001010
PAGE_MODE
00 Normal Paging
{0|1< PERSISTENCE_LEVEL >
0 (no persistence level present)
Referenced Address struct
As received from the MS
{ 0 < Global TFI >
| 10 < TLLI >
| 110 < TQI >
| 111 <Packet Request Reference >}
--Message escape
0
CHANNEL_CODING_COMMAND
CS1
TLLI_BLOCK_CHANNEL_CODING
1
Packet Timing Advance
{ 0|1< TIMING_ADVANCE_VALUE >
1 (timing advance value)
- TIMING_ADVANCE_VALUE }
30 bit periods
{ 0|1< TIMING_ADVANCE_INDEX > <TIMING_ADVANCE_TIMESLOT_NUMBER > }
0 (no timing advance index)
{0|1<Frequency Parameters>}
Not present in case MS is in DTM mode otherwise
present when required for channel assignment
For PBCCH not present case:
< TSC >
Arbitrarily chosen (default 5)
{ 00< ARFCN >}
00 (ARFCN no hopping)
- ARFCN }
As for “Serving cell, PDTCH (PBCCH not present), SDCCH ” in section 40.1.1 for the current cell
In case of Dynamic Allocation:
{ 01 < Dynamic Allocation >
Dynamic Allocation struct :
< Extended Dynamic Allocation >
0 ( Dynamic allocation)
0|1< P0 >
0
< USF_GRANULARITY >
0 (one block)
{0|1< UPLINK_TFI_ASSIGNMENT >
1 ( uplink TFI assignment)
- UPLINK_TFI_ASSIGNMENT }
00000
{0|1< RLC_DATA_BLOCKS_GRANTED >}
0 (no RLC_DATA_BLOCKS_GRANTED, open-ended TBF)
{0|1< TBF_STARTING_TIME >}
0 (no starting time)
{0|1< Timeslot Allocation >
0 (No power control parameters)
One slot arbitrarily chosen, the following USF_TNx shall be corresponding to the chosen value x (default timeslot 4 assigned)
{0|1< USF_TN0>}
0 (timeslot 0 not assigned)
{0|1< USF_TN1>}
0 (timeslot 1 not assigned)
{0|1< USF_TN2>
0 (timeslot 2 not assigned)
{0|1< USF_TN3>}
0 (timeslot 3 not assigned)
{0|1< USF_TN4>}
1 (timeslot 4 assigned)
- USF_TN4
arbitrarily chosen (default 000)
{0|1< USF_TN5>}
0 (timeslot 5 not assigned)
{0|1< USF_TN6>}
0 (timeslot 6 not assigned)
{0|1< USF_TN7>}}
0 (timeslot 7 not assigned)
In case of Single Block Allocation:
{ 10 <Single Block Allocation>
Single Block Allocation struct:
- TIMESLOT_NUMBER
100
1 (ALPHA, GAMMA_TN present)
{0 | 1
0
- < ALPHA >
- < GAMMA_TN > }
{0 | 1}
0 (P0, BTS_PWR_CTRL_MODE, PR_MODE not present)
- TBF_STARTING_TIME
-
0 (Absolute Starting Time, indicating current frame + 104 frames)
For R99 network simulation:
Additions for Rel.99
1
- Packet Extended TA flag
0 not present
spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.5 PACKET DOWNLINK ASSIGNMENT message: | MESSAGE_TYPE
000010
PAGE_MODE
00 Normal Paging
{0|1< PERSISTENCE_LEVEL >
0 (no persistence level present)
Referenced Address
-
1 (address is TLLI)
- TLLI
Same as the value received from MS
MAC_MODE
00 Dynamic Allocation
RLC_MODE
0 Acknowledged mode
CONTROL_ACK
0
TIMESLOT_ALLOCATION
arbitrarily chosen (default timeslot 4)
Packet Timing Advance
{ 0|1< TIMING_ADVANCE_VALUE >
1 (timing advance value)
- TIMING_ADVANCE_VALUE }
30 bit periods
{ 0|1< TIMING_ADVANCE_INDEX > <TIMING_ADVANCE_TIMESLOT_NUMBER > }
0 (no timing advance index)
{0|1<Frequency Parameters>}
Not present in case MS is in DTM mode otherwise
present when required for channel assignment
For PBCCH not present case:
< TSC >
Arbitrarily chosen (default 5)
{ 00< ARFCN >}
00 (ARFCN no hopping)
- ARFCN }
As for “Serving cell, PDTCH (PBCCH not present), SDCCH ” in section 40.1.1 for the current cell
{0|1<DOWNLINK_TFI_ASSIGNMENT>}
1 (assign downlink TFI)
- DOWNLINK_TFI_ASSIGNMENT
00001(Binary)
{0|1<Power Control Parameters>}
1 (Power Control Parameters present)
- ALPHA
0, 5
- GAMMA for allocated timeslots
For GSM 700, T-GSM 810, GSM 850 and GSM 900: +8 dBm
Dor DCS 1800 and PCS 1900: +6 dBm
(default timeslot 4)
{0|1<TBF_STARTING_TIME>}
0 (starting time not present)
{0|1<Measurement Mapping>}
0 (no measurement mapping)
For R99 network simulation:
Additions for Rel.99
1
- EGPRS settings flag
0 not present
- Packet Extended TA flag
0 not present
- COMPACT reduced MA
0 not present
spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.6 PACKET DOWNLINK DUMMY CONTROL BLOCK message: | MESSAGE_TYPE
100101
PAGE_MODE
00 Normal Paging
Persistence Level
1 Persistence Level Present
- PERSISTENCE_LEVEL
0000 Radio Priority 1
- PERSISTENCE_LEVEL
0000 Radio Priority 2
- PERSISTENCE_LEVEL
0000 Radio Priority 3
- PERSISTENCE_LEVEL
0000 Radio Priority 4
Spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.3.7 Packet Timeslot Reconfigure | PACKET TIMESLOT RECONFIGURE message (dynamic allocation without assigning a new TBF):
MESSAGE_TYPE
000111
PAGE_MODE
Normal Paging
0<GLOBAL_TFI>
0
The TFI value of the uplink TBF or downlink TBF which this message applies to (default 00101)
0, message escape
CHANNEL_CODING_COMMAND
arbitrarily chosen from valid values (default CS-1)
Global Packet Timing Advance
- {0|1<TIMING_ADVANCE_VALUE>}
1 (timing advance value present)
- TIMING_ADVANCE_VALUE
30 bit periods
- {0|1<UPLINK_TIMING_ADVANCE_INDEX> <UPLINK_TIMING_ADVANCE_TIMESLOT_NUMBER>}
0 (no uplink timing advance index)
The MS stops the operation of the continuous timing advance procedure.
- {0|1<DOWNLINK_TIMING_ADVANCE_INDEX> <DOWNLINK_TIMING_ADVANCE_TIMESLOT_NUMBER>}
0 (no downlink timing advance index)
The MS stops the operation of the continuous timing advance procedure.
DOWNLINK_RLC_MODE
Same as in the Test PDP context used
CONTROL_ACK
0
{0|1<DOWNLINK_TFI_ASSIGNMENT>
0
{0|1<UPLINK_TFI_ASSIGNMENT>
0
DOWNLINK_TIMESLOT_ALLOCATION
arbitrarily chosen from valid values (default00010000)
{0|1<Frequency Parameters>}
0 (use current parameters)
Dynamic allocation
0
- Extended Dynamic Allocation
0 ( Dynamic allocation)
- {0|1<P0><PR_MODE>}
0
- USF_GRANULARITY
0, one block
- {0|1<RLC_DATA_BLOCKS_GRANTED>}
0 (no RLC_DATA_BLOCKS_GRANTED, open-ended TBF)
- {0|1<TBF_STARTING_TIME>}
0 (no starting time)
-
1 (Timeslot Allocation with Power Control Parameters) one slot arbitrarily chosen and different from current slot, the following USF_TNx and GAMMA_TNx shall be corresponding to the chosen value, default timeslot 3.
- ALPHA
0.5
- {0|1<USF_TN0><GAMMA_TN0>}
0 (timeslot 0 not assigned)
- {0|1<USF_TN1><GAMMA_TN1>}
0 (timeslot 1 not assigned)
- {0|1<USF_TN2><GAMMA_TN2>}
0 (timeslot 2 not assigned)
- {0|1<USF_TN3><GAMMA_TN3>}
1 (timeslot 3 assigned)
- USF_TN3
arbitrarily chosen and different from current value, default 4
- GAMMA_TN3
For GSM 700, T-GSM 810, GSM 850 and GSM 900, +8 dBm
For DCS 1 800, +6 dBm
For PCS 1 900, +6 dBm
- {0|1<USF_TN4><GAMMA_TN4>}
0 (timeslot 4 not assigned)
- {0|1<USF_TN5><GAMMA_TN5>}
0 (timeslot 5 not assigned)
- {0|1<USF_TN6><GAMMA_TN6>}
0 (timeslot 6 not assigned)
- {0|1<USF_TN7><GAMMA_TN7>}
0(timeslot 7 not assigned)
spare padding
Spare Padding
For assignment of an uplink TBF while a downlink TBF has been established, the address information should be changed to DOWNLINK_TFI of Global_TFI. UPLINK_TFI_ASSIGNMENT is present. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4 Default contents of Layer 3 messages | This clause contains the default values of L3 messages, which unless indicated otherwise in clause 40, shall be transmitted by the system simulator and which are required to be received from the MS under test.
In this clause, decimal values are normally used. However, sometimes a hexadecimal value, indicated by an "Hex", or a binary value, indicated by a "Binary" is used. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.1 ACTIVATE PDP CONTEXT ACCEPT message: | Protocol discriminator
1010 (SM message for GPRS service)
Activate PDP context accept message identity
01000010
Negotiated LLC SAPI
As per corresponding Activate PDP Context Request
Negotiated QoS
Minimum
Radio priority
Arbitrary chosen
Spare half octet
Spare half octet
PDP address
Returned only if PDP address from corresponding Activate PDP Context Request is not static |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.2 ACTIVATE PDP CONTEXT REJECT message: | Protocol discriminator
1010 (SM message for GPRS service)
Activate PDP context reject message identity
01000011
SM cause
Insufficient resources |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.3 ATTACH ACCEPT message: | Protocol discriminator
1000 (MM message for GPRS service)
Skip indicator
0000
Attach accept message identity
00000010
Attach result
Copy back attach type (GPRS attach (MS class C))
Force to standby
not indicated (subject to CR)
Periodic RA update timer
timer is deactivated
Radio priority for SMS
priority level 3
Spare half octet
Spare half octet
Routing area identification
- MCC
001 (decimal)
- MNC
For GSM 900 / DCS 1800: 01 (decimal)
For GSM 700 / T-GSM 810 / GSM 850 / PCS 1900: 011(decimal)
- LAC
0001H
- RAC
05H
P-TMSI signature
P-TMSI signature
Negotiated READY timer value
32 seconds
Allocated P-TMSI
P-TMSI
For R99 network simulation:
T3302 value
0 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.4 ATTACH REJECT message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Attach reject message identity
00000100
GMM cause
Regular deactivation
For R99 network simulation:
T3302 value
0 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.5 AUTHENTICATION AND CIPHERING REJECT message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Authentication and ciphering reject message identity
00010100 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.6 AUTHENTICATION AND CIPHERING REQUEST message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Authentication and ciphering request message identity
00010010
Ciphering algorithm
Ciphering not used
IMEISV request
not requested
Force to standby
not indicated
A&C reference number
Arbitrary
Authentication parameter RAND
Arbitrary
GPRS ciphering key sequence number
Arbitrary |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.7 CHANNEL RELEASE message: | Protocol Discriminator
0110 (RR Management).
Skip Indicator
0000
Message Type
00001101
RR Cause
- RR Cause Value
Normal event.
GPRS RESUMPTION IE
Present (see note below)
- ACK field
1
NOTE: Only in case the MS performed GPRS suspension procedure prior to the CS session, then the GPRS RESUMPTION IE shall be present in the CHANNEL RELASE message. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.8 DEACTIVATE PDP CONTEXT ACCEPT message: | Protocol discriminator
1010 (SM message for GPRS service)
Deactivate PDP context accept message identity
01010100 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.9 DETACH ACCEPT message (for mobile terminated detach): | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Detach request message identity
00000110 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.10 DETACH REQUEST message (mobile terminated detach): | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Detach request message identity
00000101
Detach type
re-attach not required
Force to standby
not indicated |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.11 GMM INFORMATION message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
GMM information message identity
00100001 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.12 GMM STATUS message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
GMM status message identity
00100000
GMM cause
Arbitrary |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.13 IDENTITY REQUEST message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Identity request message identity
00010101
Identity type
IMSI
Force to standby
not indicated |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.14 IMMEDIATE ASSIGNMENT messages | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.14.1 IMMEDIATE ASSIGNMENT message (Packet Downlink Construction): | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the IA rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 11.
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00111111
Page Mode
- Page Mode
Normal Paging.
Dedicated mode or TBF
- T/D
Temporary Block Flow
- Downlink
1 Resources assigned in IA Rest Octets
- TMA
0 No meaning
Packet Channel Description
Dependant upon the test case.
Request Reference
Copy of last received by the SS.
Timing Advance
- Timing advance value
30 bit periods.
Mobile Allocation
- Length
0
Starting Time
Not present.
IA rest octets
-
HH
-
01 (Packet Downlink Assignment)
- Packet Downlink Assignment
- TLLI
(The value received from MS)
-
1
- TFI_ASSIGNMENT
Any value not used before
- RLC_MODE
RLC unacknowledged mode
{0 | 1 < ALPHA >
1 ALPHA present
- ALPHA }
0.5
- GAMMA
For GSM 700, T-GSM 810, GSM 850 and GSM 900: +8 dBm
For DCS 1 800 and PCS 1 900: +6 dBm
- POLLING
0 No polling
- TA_VALID
1 Timing Advance value in TA IE is valid
{ 0 | 1 < TIMING_ADVANCE_INDEX > }
0 Timing Advance Index not present
{ 0 | 1 < TBF_STARTING_TIME > }
0 TBF Starting Time not present
{0 | 1}
0 P0, BTS_PWR_CTRL_MODE, PR_MODE not present
- spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.14.2 IMMEDIATE ASSIGNMENT message (Packet Uplink construction): | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the IA rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 11.
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00111111
Page Mode
- Page Mode
Normal Paging.
Dedicated mode or TBF
- T/D
1 Temporary Block Flow
- Downlink
0 No meaning
- TMA
0 No meaning
Packet Channel Description
Dependant upon the test case.
Request Reference
Copy of last received by the SS.
Timing Advance
- Timing advance value
30 bit periods.
Mobile Allocation
- Length
0
Starting Time
Not present.
IA rest octets
-
HH
-
00 (Packet Uplink Assignment)
- Packet Uplink Assignment
1
- TFI_ASSIGNMENT
Any value not used before
- POLLING
0
-
0 Dynamic Allocation
- USF
Any value not used before
- USF_GRANULARITY
0 (transmit one RLC block)
{ 0 | 1}
0 (P0, BTS_PWR_CTRL_MODE , PR_MODE not present)
- CHANNEL_CODING_COMMAND
00 CS-1 shall be used
- TLLI_BLOCK_CHANNEL_CODING
1 MS shall used the coding scheme as specified by CHANNEL_CODING_COMMAND
{0 | 1 < ALPHA >}
- ALPHA
1 ALPHA present
0.5
- GAMMA
For GSM 700, T-GSM 810, GSM 850 and GSM 900: +8 dBm
For DCS 1 800 and PCS 1 900: +6 dBm
{ 0 | 1 < TIMING_ADVANCE_INDEX > }
0 Timing Advance Index not present
{ 0 | 1 < TBF_STARTING_TIME > }
0 TBF Starting Time not present
- spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.14.3 IMMEDIATE ASSIGNMENT message (Single block allocation construction): | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the IA rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 11.
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00111111
Page Mode
- Page Mode
Normal Paging.
Dedicated mode or TBF
- T/D
1 Temporary Block Flow
- Downlink
0 No meaning
- TMA
0 No meaning
Packet Channel Description
Dependant upon the test case.
Request Reference
Copy of last received by the SS.
Timing Advance
- Timing advance value
30 bit periods.
Mobile Allocation
- Length
0
Starting Time
Not present.
IA rest octets
-
HH
-
00 (Packet Uplink Assignment)
- Packet Uplink Assignment
0
{0 | 1 < ALPHA >}
- ALPHA
1 ALPHA present
0.5
- GAMMA
For GSM 700, T-GSM 810, GSM 850 and GSM 900: +8 dBm
For DCS 1 800 and PCS 1 900: +6 dBm
-
01
- TBF_STARTING_TIME
Indicating Absolute Starting Time (calculated by the SS within a range of +50 to + 250 from current frame)
{ L | H }
L (P0, BTS_PWR_CTRL_MODE , PR_MODE not present)
- spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.15 IMMEDIATE ASSIGNMENT EXTENDED message: | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the IAX rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 18.
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00111001
Page Mode
- Page Mode
Normal Paging.
Channel Description 1
Dependant upon the test case.
Request Reference 1
Pertaining to last Channel Request sent by the MS.
Timing Advance 1
- Timing advance value
Dependant upon the test case.
Channel Description 2
Dependant upon the test case.
Request Reference 2
Not pertaining to any Channel Requests sent by the MS.
Timing Advance 2
- Timing advance value
Dependant upon the test case.
Mobile Allocation
- Length
0
Starting Time
Not present.
IAX rest octets
All bits set to spare. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.16 IMMEDIATE ASSIGNMENT REJECT message: | L2 pseudo length
19
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00111010
Page Mode
- Page Mode
Normal Paging.
Request Reference 1
Copy of last received by the SS.
Wait Indication 1
0 seconds.
Request Reference 2
Not pertaining to the MS under test.
Wait Indication 2
0 seconds.
Request Reference 3
Not pertaining to the MS under test.
Wait Indication 3
0 seconds.
Request Reference 4
Not pertaining to the MS under test.
Wait Indication 4
0 seconds.
IAR rest octets
All bits set to spare. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.17 MODIFY PDP CONTEXT REQUEST message: | Protocol discriminator
1010 (SM message for GPRS service)
Modify PDP context request message identity
01001000
Radio priority
Spare half octet
Spare half octet
Requested LLC SAPI
As per corresponding Activate PDP Context Request
New QoS
Higher than the minimum QoS |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.18 PAGING REQUEST TYPE 1 message: | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the P1 rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 9.
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00100001
Page Mode
- Page Mode
Normal Paging.
Channels needed
- first channel
00 (indicating packet paging).
- second channel
00 (indicating packet paging).
Mobile Identity 1
- odd/even indication
Even.
- Type of Identity
P-TMSI.
- Identity Digits
P-TMSI previously allocated to MS.
Mobile Identity 2
Not present.
P1 rest octets
- {L|H<NLN(PCH)>}
L (no Notification List Number(PCH))
- {L|H<Priority1>}
L (no priority specified for mobile Id 1)
- {L|H<Priority2>}
L (no priority specified for mobile Id 2)
- Packet Page Indication 1
Packet Paging
- Packet Page Indication 2
L
- {L|H<Group Call Information>}
L (no Group call Information)
- {L|H<NLN status>}
L (no Notification List Number status)
- spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.19 PAGING REQUEST TYPE 2 message: | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the P2 rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 11.
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00100010
Page Mode
- Page Mode
Normal Paging.
Channels needed
- first channel
00 (indicating packet paging).
- second channel
00 (indicating packet paging).
Mobile Identity 1
- TMSI value
P-TMSI previously allocated to MS.
Mobile Identity 2
- TMSI value
P-TMSI not allocated to MS.
Mobile Identity 3
IMSI not relevant to the MS under test
P2 rest octets
- {L|H<CN3>}
H (channel needed for mobile Id 3 present)
- CN3
Indicating packet paging
- {L|H<NLN>}
L (no notification list number)
- {L|H<Priority1>}
L (no priority specified for mobile Id 1)
- {L|H<Priority2>}
L (no priority specified for mobile Id 2)
- {L|H<Priority3>}
L (no priority specified for mobile Id 3)
- {L|H<NLN status>}
L (no notification list number status)
- Packet Page Indication 3
Packet Paging
- spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.20 PAGING REQUEST TYPE 3 message: | L2 pseudo length
19
Protocol Discriminator
RR Management.
Skip Indicator
0000
Message Type
00100100
Page Mode
- Page Mode
Normal Paging.
Channels needed
- first channel
00 (indicating packet paging).
- second channel
00 (indicating packet paging).
Mobile identity 1
- TMSI value
P-TMSI previously allocated to MS.
Mobile identity 2
- TMSI value
P-TMSI not allocated to MS.
Mobile identity 3
- TMSI value
P-TMSI not allocated to MS.
Mobile identity 4
- TMSI value
P-TMSI not allocated to MS.
P3 rest octets
- {L|H<CN3><CN4>}
H (channel needed for mobile Id 3 and 4 present)
- CN3
Indicating packet paging
- CN4
Indicating packet paging
- {L|H<NLN>}
L (no notification list number)
- {L|H<Priority1>}
L (no priority specified for mobile Id 1)
- {L|H<Priority2>}
L (no priority specified for mobile Id 2)
- {L|H<Priority3>}
L (no priority specified for mobile Id 3)
- {L|H<Priority4>}
L (no priority specified for mobile Id 4)
- {L|H<NLN status>}
L (no notification list number status)
- spare padding
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.21 PDCH ASSIGNMENT COMMAND message (downlink): | Information Element
Value/Remarks
Protocol Discriminator
RR Management
Skip indicator
0000 (Binary)
Message Type
00101010 (Binary)
Description of the Channel, after time
- Channel Description
- Channel Type and TDMA offset
TCH/F + ACCH's
- Timeslot Number
Slot 2
- Training Sequence Code
Same as the BCC
- Hopping channel
Single RF channel
- ARFCN
Same as BCCH carrier
- RR Packet Downlink Assignment
- LENGTH_IN_OCTETS
400
- MAC_MODE
00 (Dynamic allocation)
- RLC_MODE
1 (RLC unacknowledged mode)
- TIMESLOT_ALLOCATION
Slot 2
- Packet Timing Advance
- { 0|1 <TIMING_ADVANCE_VALUE> }
1 (TIMING_ADVANCE_VALUE present)
- TIMING_ADVANCE_VALUE
30 bit periods
- { 0|1 <TIMING_ADVANCE_INDEX> }
0 (TIMING_ADVANCE_INDEX and TIMING_ADVANCE_TIMESLOT_NUMBER not present)
- { 0|1 <Power Control Parameters> }
1 (Power Control Parameters present)
- ALPHA
0.5
- { 0|1 <GAMMA_TN0> }
0 (GAMMA_TN0 not present)
- { 0|1 <GAMMA_TN1> }
0 (GAMMA_TN1 not present)
- { 0|1 <GAMMA_TN2> }
1 (GAMMA_TN2 present)
- GAMMA_TN2
For GSM 700, T-GSM 810, GSM 850 and GSM 900: +8 dBm
For DCS 1 800 and PCS 1 900: +6 dBm
- { 0|1 <GAMMA_TN3> }
0 (GAMMA_TN3 not present)
- { 0|1 <GAMMA_TN4> }
0 (GAMMA_TN4 not present)
- { 0|1 <GAMMA_TN5> }
0 (GAMMA_TN5 not present)
- { 0|1 <GAMMA_TN6> }
0 (GAMMA_TN6 not present)
- { 0|1 <GAMMA_TN7> }
0 (GAMMA_TN7 not present)
- { 0|1 <DOWNLINK_TFI_ASSIGNMENT> }
1 (Assign downlink TFI)
- DOWNLINK_TFI_ASSIGNMENT
00011 (Binary)
- { 0|1 <MEASUREMENT_STARTING_TI> }
0 (No measurement information)
- N_SPARE_BITS
Spare padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.22 REQUEST PDP CONTEXT ACTIVATION message (mobile originated detach): | Protocol discriminator
1010 (SM message for GPRS service)
Request PDP context activation message identity
01000100
Offered PDP address
Arbitrarily chosen |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.23 ROUTING AREA UPDATE ACCEPT message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Routing area update accept message identity
00001001
Force to standby
not indicated
Update result
RA updated
Periodic RA update timer
Timer is deactivated
Routing area identification
- MCC
001 (decimal)
- MNC
For GSM 900 / DCS 1800: 01 (decimal)
For GSM 700 / T-GSM 810 / GSM 850 / PCS 1900: 011 (decimal)
- LAC
0001H
- RAC
05H
For R99 network simulation:
T3302 value
0 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.24 ROUTING AREA UPDATE REJECT message: | Protocol discriminator
MM message for GPRS
Skip indicator
0000
Routing Area Update reject message identity
00001011
GMM cause
Congestion
Force to standby
Not indicated
For R99 network simulation:
T3302 value
0 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.25 RR-CELL CHANGE ORDER message: | Information Element
Value/Remarks
Protocol Discriminator
RR Management
Skip indicator
0000 (Binary)
Message Type
00001000 (Binary)
Cell description
- PLMN colour code, NCC
1
- BS colour code, BCC
5
- BCCH ARFCN
As for “Serving cell, PDTCH (PBCCH not present),SDCCH ” in section 40.1.1 for the current cell
NC mode for target cell
- NC mode
00 (binary, NC0 mode)
Spare half octet
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.26 SM STATUS message: | Information Element
Value/Remarks
Protocol discriminator
1010 (SM message for GPRS service)
SM status message identity
01010101
SM cause
Arbitrary |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.27 DETACH ACCEPT message (for mobile orginated detach): | Information Element
Value/Remarks
Protocol discriminator
MM message for GPRS
Skip indicator
0000
Detach request message identity
00000110
Force to Standby
001 (indicated)
Spare half octet
Spare Padding |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.28 DTM Assignment Command | Protocol discriminator
0110
Skip Indicator
0000
Message Type
01001100
Power Command
00001010 FPC not in use, Power control level 10
Description of the CS Channel
- Channel Description
- Channel Type and TDMA offset
TCH/F + ACCH’s
- Timeslot Number
3
- Training Sequence Code
Same as the BCCH
- Hopping channel
Single RF channel
- ARFCN
default
GPRS broadcast information
- Length in Octets
5 Octets
- GPRS Cell Options
- NMO
00 Network Mode 1
- T3168
011 2 seconds
- T3192_VALUE
010 1.5 seconds
- DRX_TIMER_MAX
000
- ACCESS_BURST_TYPE
1 11 bit access burst
- CONTROL_ACK_TYPE
1 RLC/MAC Control block
- BS_CV_MAX
0111
-Optional extension information
0 Extension information not present
For R99/Rel 4 network simulation:
Optional extension information
1 Extension information present
- Extension length
R99: 000011
Rel 4: 000101
Rel 6: 000111
- {0|1 <Extension Information>}
0 EGPRS not supported by the cell.
- PFC_FEATURE_MODE
0 Packet Flow Context Procedures not supported
- DTM_SUPPORT
1.....The cell supports DTM procedures
- BSS_PAGING_COORDINATION
0 Circuit-Switched paging coordination not supported
in cell
end R99
For Rel 4 network simulation
- CCN_ACTIVE
0 CCN is disabled in the cell
- NW_EXT_UTBF
0 Ext UL TBF not supported in the cell
For Rel6 network simulation
- MULTIPLE_TBF_CAPABILITY
0 not supported in the cell
- EXT_UTBF_NODATA
0 not supported in the cell
- GPRS Power Control Parameters
-ALPHA
0101 Alpha = 0.5
-T_AVG_W
01100 value 12
-T_AVG_T
01100 value 12
-PC_MEAS_CHAN
0 BCCH
-N_AVG_I
0111 value 7
Channel Mode
- Mode
00000001 (GSM Full Rate)
Description of the Uplink Packet Channel Assignment
- LENGTH_IN_OCTETS
00000100
- CHANNEL_CODING_COMMAND
CS1
- TLLI_BLOCK_CHANNEL_CODING
1
- Packet Timing Advance
- { 0|1 <TIMING_ADVANCE_VALUE> }
0 (no timing advance value)
{ 01 < Dynamic Allocation >
Dynamic Allocation struct :
< Extended Dynamic Allocation >
0 ( Dynamic allocation)
0|1< P0 >
0
< USF_GRANULARITY >
0 (one block)
{0|1< UPLINK_TFI_ASSIGNMENT >
1 ( uplink TFI assignment)
- UPLINK_TFI_ASSIGNMENT }
00000
{0|1< RLC_DATA_BLOCKS_GRANTED >}
0 (no RLC_DATA_BLOCKS_GRANTED, open-ended TBF)
{0|1< TBF_STARTING_TIME >}
0 (no starting time)
{0|1< Timeslot Allocation >
0 (Timeslot Allocation)
{0|1< USF_TN0>}
0 (timeslot 0 not assigned)
{0|1< USF_TN1>}
0 (timeslot 1 not assigned)
{0|1< USF_TN2>}
0 (timeslot 2 not assigned)
{0|1< USF_TN3>}
0 (timeslot 3 not assigned)
{0|1< USF_TN4>}
1 (timeslot 4 assigned)
- USF_TN4
arbitrarily chosen (default 000)
{0|1< USF_TN5>}
0 (timeslot 5 not assigned)
{0|1< USF_TN6>}
0 (timeslot 6 not assigned)
{0|1< USF_TN7>}}
0 (timeslot 7 not assigned)
Description of the Downlink Packet Channel Assignment
- LENGTH_IN_OCTETS
00000101
- MAC_MODE
00 Dynamic Allocation
- RLC_MODE
0 Acknowledged mode
- TIMESLOT_ALLOCATION
00001000
- Packet Timing Advance
{ 0|1< TIMING_ADVANCE_VALUE >
0 (no timing advance value)
{ 0|1< TIMING_ADVANCE_INDEX > }
0 (no timing advance index)
- {0|1< P0 >}
0
- { 0 | 1 < Power Control Parameters }
0
- { 0 | 1 < DOWNLINK_TFI_ASSIGNMENT > }
1
- DOWNLINK_TFI_ASSIGNMENT
00000
- { 0 | 1 < MEASUREMENT_STARTING_TIME >}
0 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.29 DTM Reject | Protocol discriminator
0110
Skip Indicator
0000
Message Type
01001001
Wait Indication
- T3122/T3142 timeout value
00011110 (30 Seconds) |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.30 Packet Notification | Protocol discriminator
0110
Skip Indicator
0000
Message Type
01001110
P-TMSI
- P-TMSI Value
00000000000000000000000000000000 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.31 Packet Assignment | Protocol discriminator
0110
Skip Indicator
0000
Message Type
01001011
GPRS broadcast information
- Length in Octets
00000101
- GPRS Cell Options
- NMO
00 Network Mode 1
- T3168
011 2 seconds
- T3192
010 1.5 seconds
- DRX_TIMER_MAX
000
- ACCESS_BURST_TYPE
1 11 bit access burst
- CONTROL_ACK_TYPE
1 RLC/MAC Control block
- BS_CV_MAX
0111
-Optional extension information
0 Extension information not present
For R99/Rel 4 network simulation:
Optional extension information
1 Extension information present
- Extension length
R99: 000011
Rel 4: 000101
Rel 6: 000111
- {0|1 <Extension Information>}
0 EGPRS not supported by the cell.
- PFC_FEATURE_MODE
0 Packet Flow Context Procedures not supported
- DTM_SUPPORT
1.....The cell supports DTM procedures
- BSS_PAGING_COORDINATION
0 Circuit-Switched paging coordination not supported
in cell
end R99
For Rel 4 network simulation
- CCN_ACTIVE
0 CCN is disabled in the cell
- NW_EXT_UTBF
0 Ext UL TBF not supported in the cell
For Rel6 network simulation
- MULTIPLE_TBF_CAPABILITY
0 not supported in the cell
- EXT_UTBF_NODATA
0 not supported in the cell
- GPRS Power Control Parameters
- ALPHA
0101 Alpha = 0.5
- T_AVG_W
01100 value 12
- T_AVG_T
01100 value 12
- PC_MEAS_CHAN
0 BCCH
- N_AVG_I ;
0111 value 7
Description of the Uplink Packet Channel Assignment
- LENGTH_IN_OCTETS
00000101
- CHANNEL_CODING_COMMAND
CS1
- TLLI_BLOCK_CHANNEL_CODING
1
- Packet Timing Advance
- { 0|1 <TIMING_ADVANCE_VALUE> }
0 (no TIMING_ADVANCE_VALUE present)
- { 0|1< TIMING_ADVANCE_INDEX > }
0 (no timing advance index)
{ 01 < Dynamic Allocation >
01 (Dynamic Allocation struct)
< Extended Dynamic Allocation >
0 ( Dynamic allocation)
0|1< P0 >
0
< USF_GRANULARITY >
0 (one block)
{0|1< UPLINK_TFI_ASSIGNMENT >
1 ( uplink TFI assignment)
- UPLINK_TFI_ASSIGNMENT }
00000
{0|1< RLC_DATA_BLOCKS_GRANTED >}
0 (no RLC_DATA_BLOCKS_GRANTED, open-ended TBF)
{0|1< TBF_STARTING_TIME >}
0 (no starting time)
{0|1< Timeslot Allocation >
0 (Timeslot Allocation)
{0|1< USF_TN0>}
0 (timeslot 0 not assigned)
{0|1< USF_TN1>}
0 (timeslot 1 not assigned)
{0|1< USF_TN2>}
0 (timeslot 2 not assigned)
{0|1< USF_TN3>}
0 (timeslot 3 not assigned)
{0|1< USF_TN4>}
1 (timeslot 4 assigned)
- USF_TN4
arbitrarily chosen (default 000)
{0|1< USF_TN5>}
0 (timeslot 5 not assigned)
{0|1< USF_TN6>}
0 (timeslot 6 not assigned)
{0|1< USF_TN7>}}
0 (timeslot 7 not assigned)
Description of the Downlink Packet Channel Assignment
- LENGTH_IN_OCTETS
00000101
- MAC_MODE
00 Dynamic Allocation
- RLC_MODE
0 Acknowledged mode
- TIMESLOT_ALLOCATION
00001000
- Packet Timing Advance
{ 0|1< TIMING_ADVANCE_VALUE >
1 (timing advance value)
- TIMING_ADVANCE_VALUE }
30 bit periods
{ 0|1< TIMING_ADVANCE_INDEX > <TIMING_ADVANCE_TIMESLOT_NUMBER> }
0 (no timing advance index)
- {0|1< P0 >}
0
- { 0 | 1 < Power Control Parameters }
0
- { 0 | 1 < DOWNLINK_TFI_ASSIGNMENT > }
1
- DOWNLINK_TFI_ASSIGNMENT
00000
- { 0 | 1 < MEASUREMENT_STARTING_TIME >}
0 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.32 Assignment Command | RR management Protocol Discriminator
0110
Skip Indicator
0000
Message Type
00101110
Description of the First Channel, after time
- Channel Description
- Channel Type and TDMA offset
TCH/F + ACCH’s
- Timeslot Number
3
- Training Sequence Code
Same as the BCCH
- Hopping channel
Single RF channel
- ARFCN
default
Power Command
00001010 FPC not in use, Power control level 10 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.33 Handover Command | RR management Protocol Discriminator
0110
Skip Indicator
0000
Message Type
00101011
Cell Description
- Network Colour Code
1
- Base Station Colour Code
5
- BCCH Carrier Number
Dependant upon the test case
Description of the First Channel, after time
- Channel Description
- Channel Type and TDMA offset
TCH/F + ACCH’s
- Timeslot Number
Dependant upon the test case
- Training Sequence Code
Same as the BCCH
- Hopping channel
Single RF channel
- ARFCN
Dependant upon the test case
Handover Reference
01010101
Power Command and Access Type
00001010 Handover access mandatory, FPC not in use, Power control level 10
Synchronization Indication
- Report Observed Time Difference
Shall not be included.
- Synchronization Indication
"Non synchronized".
- Normal Cell Indication
Ignore out of range timing advance. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.34 Physical Information | Protocol Discriminator
0110
Skip Indicator
0000
Message Type
00101101
Timing advance
30 bit periods. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.35 Connect Acknowledge | Protocol Discriminator
0011
Transaction Identifier
TI value
As used in the SETUP message.
TI flag
0
Message Type
0X001111 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.36 Location Updating Accept | Protocol Discriminator
0101
Skip Indicator
0000
Location Updating Accept message type
00000010
Location Area Identification
MCC
001 (decimal)
MNC
01 (decimal) for GSM 900, DCS 1800
011 (decimal) for GSM 700, T-GSM 810, GSM 850, PCS 1900
LAC
0001H |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.37 System Information Type 6 | L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the SI 6 rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is 11.
RR management Protocol
Discriminator
0110 (radio resources management messages)
Skip Indicator
0000
System Information Type 6
Message Type
00011110
Cell Identity
Same as the BCCH
Location Area Identification
Same as the BCCH
Cell Options
Same as the BCCH
NCC Permitted
Same as the BCCH
SI 6 Rest Octets
For DTM not present case
- L I H <PCH and NCH info>}
L (no PCH and NCH info)
- L I H <VBS/VGCS options : bit(2)>}
L (no VBS/VGCS options)
- < DTM_support : bit == L >
I < DTM_support : bit == H
L (DTM not supported)
- < Band indicator >
Same as the BCCH
- < implicit spare >
1011
SI 6 Rest Octets
For DTM present case
- L I H <PCH and NCH info>}
L (no PCH and NCH info)
- L I H <VBS/VGCS options : bit(2)>}
L (no VBS/VGCS options)
- < DTM_support : bit == L >
I < DTM_support : bit == H
H (DTM supported)
- < RAC : bit (8) >
Same as the BCCH
- < MAX_LAPDm : bit (3) >
000 (Any message segmented in up to 5 LAPDm frames)
- < Band indicator >
Same as the BCCH
- L | H < GPRS_MS_TXPWR_MAX_CCH : bit (5)>
H (GPRS_MS_TXPWR_MAX_CCH present)
GPRS_MS_TXPWR_MAX_CCH
01010
- < implicit spare >
1 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.38 DTM Information | RR management Protocol Discriminator
0110 (radio resources management messages)
Skip Indicator
0000
DTM Information Message Type
01001101
Routeing Area Identification
Same as the BCCH
DTM Information Rest Octets
- < LENGTH_IN_OCTETS : bit(8) >
00000011
- < MAX_LAPDm : bit (3) >
000 (Any message segmented in up to 5 LAPDm frames)
- < GPRS_MS_TXPWR_MAX_CCH: bit (5) >
arbitrarily chosen
- < Cell identity: bit (16) >
Cell Identity of the Serving Cell |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.2.4.39 PS Handover | PAGE_MODE
default
Global TFI
TFI of mobile station uplink TBF
CONTAINER_ID
00 PS Handover to A/Gb Mode Payload
PS Handover RR Info flag
00 PS Handover RR Info
PS Handover Radio Resources IE
present
Handover Reference
0
ARFCN
default ARFCN for BCCH of cell B
SI
01 Synchronized
NCI
0
BSIC
BSIC of cell B
0 <CCN_ACTIVE>
not present
0 <3G_CCN_ACTIVE>
not present
0 <CCN Support Description>
not present
Frequency Parameters
default PDTCH of cell B
NETWORK_CONTROL_ORDER
2
0 <Global Packet Timing Advance>
not present
EXTENDED_DYNAMIC_ALLOCATION
0
RLC_RESET
0
0 <PO>
not present
0 <Uplink Control Timeslot>
not present
0 GPRS mode
Uplink TBF assignment for default PDTCH of cell B
0 <NAS Container for PS Handover IE>
not present
40.2a EC-GSM-IoT Default message contents
40.2a.1 EC-GSM-IoT System Information messages
EC System information messages are sent on EC-BCCH
40.2a.1.1 EC System information type 1 (Instance 1)
Message Type
001B
EC System Information Type 1
EC SI 1_INDEX
00B
Instance 1
EC SI 1_COUNT
00B
1 instance used
EC SI_CHANGE_MARK
00000B
EC Cell Channel Description
1
Present
NumberOfOctets
According to the length of the Frequency List Information field
Frequency List Information
Same values as Cell Channel Description in SI1 for the cell
EC Mobile Allocation List
FFS
Band Indicator
Same as the BCCH
40.2a.1.2 EC System information type 2 (Instance 1)
Message Type
010B
EC System Information Type 2
EC SI 2_INDEX
00B
Instance 1
EC SI 2_COUNT
00B
1 instance used
EC SI_CHANGE_MARK
00000B
EC Cell Selection Parameters
1
Present
Location Area Identification
Same as on BCCH
Routing Area Code
Same as on BCCH
Cell Identity
Same as on BCCH
EC_BS_CC_CHANS
00B
1 EC-CCCH supported
EC_RXLEV_ACCESS_MIN
46
-105 dBm
MS_TXPWR_MAX_CCH
Same as on BCCH
LB_MS_TXPWR_MAX_CCH
0
Not present
CELL_SELECTION_RLA_MARGIN
0
Not present
Coverage Class Selection Parameters
1
Present
DL_CC_Selection
0
RLA_EC based coverage class selection
BT_Threshold_DL
8
-95 dBm
CC2_Range_DL
1
6
Present
7 dB
CC3_Range_DL
1
6
Present
7 dB
BT_Threshold_UL
FFS
CC2_Range_UL
0
Not present
CC3_Range_UL
0
Not present
BSPWR
FFS
DL_Signal_Strength_Step_Size
0
Not present
EC-RACH Control Parameters
1
Present
EC_Max_Retrans
00B
Max 1 retransmission
Sm
00B
1 or more multiframes
Tm
00B
1 or more multiframes
Access_Timeslots
0B
1 TS EC-RACH mapping shall be applied
CC_Access_Adaptation
00B
Coverage Class adaptation not allowed
Cell_Bar_Access
0
Cell is not barred
EC_Access_Control_Class
0000000B
Access for all classes allowed
Exception_Report_Status
0
Sending of exception reports allowed in the cell for all MSs
BT_Threshold_UL_Margin
0
Not present
Short RACH Control Parameters
0
Not present
EC Cell Options
1
Present
ALPHA
0
Not present
T3168
1
011B
Present
2 seconds
T3192
1
010B
Present
1.5 seconds
T3226
1
011B
Present
200 ms
T3248
00B
Not used
40.2a.1.3 EC System information type 3 (Instance 1)
Message Type
011B
EC System Information Type 3
EC SI 3_INDEX
00B
Instance 1
EC SI 3_COUNT
00B
1 instance used
EC SI_CHANGE_MARK
00000B
EC SI 4 Indicator
0
EC SYSTEM INFORMATION TYPE 4 message is not available
EC Cell Reselection Parameters
1
Present
CELL_RESELECT_HYSTERESIS
110B
12 dBm
CELL_RESELECT_OFFSET
000000B
0 dBm
C1_DELTA_MIN
FFS
C1_DELTA_MAX
FFS
EC Neighbour Cell Description
1
Present
NumberOfOctets
according to the length of the Neighbour Frequency List Information field
Neighbour Frequency List Information
FFS
EC Neighbour Cell Reselection Parameters
1
Present
Nb_NCELL
00000B
1 neighbour cell
BSIC
CELL_TYPE
0
The neighbour cell supports EC-GSM-IoT
1
The indicated (below) EC Neighbour Cell Reselection Parameters applies
CELL_BAR_ACCESS
SAME_RA_AS_SERVING_CELL
EC_RXLEV_ACCESS_MIN
MS_TXPWR_MAX_CCH
CELL_RESELECT_OFFSET
000B
Not present, thus default values applies to all parameters.
CELL_BAR_ACCESS,
EC_RXLEV_ACCESS_MIN and
MS_TXPWR_MAX_CCH : Same values as for the serving cell.
SAME_RA_AS_SERVING_CELL : The neighbour cell is in the same Routing Area as the serving cell
CELL_RESELECT_OFFSET : C2=C1, see 3GPP TS 45.008.
40.2a.1.4 EC System information type 4
Not used
40.2a.2 EC default contents of Layer 2 messages
40.2a.2.1 EC-PAGING REQUEST
Message Type
According to 44.018 Table 10.4.4
Used DL Coverage Class
00 DL Coverage Class 1
EC Page Extension
0 Not present
Mobile Identity 1
Mobile Identity 2
0 P-TMSI
0 Not present
40.2a.2.2 EC-IMMEDIATE ASSIGNMENT TYPE 1
L2 pseudo length
This is the sum of the lengths of all the information elements present in the message except for the IA rest octets and L2 pseudo length IEs. For the default message the L2 pseudo length is xx
Protocol Discriminator
RR Management
Skip Indicator
0000
EC Immediate Assignment Type 1 Message Type
01101010
Page Mode
- Page Mode
00B Normal Paging
Feature Indicator
• PS IR
• CS IR
• PEO_BCCH_CHANGE_MARK
0 An implicit reject is not indicated for the PS domain
0 An implicit reject is not indicated for the CS domain
00
Request Reference
Copy of last received by the SS
EC Packet Channel Description Type 1
• QUARTER_HYPERFRAME_INDICATOR
• DL_COVERAGE_CLASS
• UL_COVERAGE_CLASS
• TSC Set
• TSC
• EC_MA_NUMBER
• Spare bit
Calculated by SS
00 DL Coverage Class 1
00 UL Coverage Class 1
0 TSC set 1
000
00000 EC Mobile Allocation set 1
0
EC Fixed Uplink Allocation
Dependant upon the test case
• Enhanced Access Burst
• Timing Advance
• STARTING_UL_TIMESLOT
• Uplink_TFI_Assignment
• STARTING_DL_TIMESLOT_OFFSET
• OVERLAID_CDMA_CODE
• MSC-1
• GAMMA
• ALPHA Enable
• P0, PR_MODE
• Start_First_UL_Data_Block
• Start_FN_Next_Data_Block
0
1 Present
011110 30 bits
011 Timeslot 3
00001
00
00 Overlaid CDMA Code 0
0 Not present
use MCS-1 for uplink packet transfer
00000
0 Not present
0 Not present
0000 Use the 1st transmission opportunity
10
000 a gap of 1 transmission opportunity
- spare padding
Spare Padding
40.2a.2.3 EC-IMMEDIATE ASSIGNMENT TYPE 2
Message Type
According to 44.018 Table 10.4.4
Used DL Coverage Class
00B DL CC 1
EC Page Extension
0 Not present
EC Request Reference
EC Packet Channel Description Type 2
• QUARTER_HYPERFRAME_INDICATOR
• DL_COVERAGE_CLASS
• UL_COVERAGE_CLASS
• TSC Set
• TSC
• EC_MA_NUMBER
EC Fixed Uplink Allocation
spare padding
Copy of last received by the SS
Calculated by the SS
00 DL Coverage Class 1
00 UL Coverage Class 1
0 TSC set 1
000
00000 EC Mobile Allocation set 1
Same as defined in section 40.2a.2.2 EC-IMMEDIATE ASSIGNMENT TYPE 1
Spare Padding
40.2a.2.4 EC-IMMEDIATE ASSIGNMENT REJECT
Message Type
According to 44.018 Table 10.4.4
Used DL Coverage Class
00B DL CC 1
EC Page Extension
0 Not present
EC Request Reference 1
As received from the MS
EC Wait Timer 1
EC Request Reference 2
EC Wait Timer 2
EC Request Reference 3
EC Wait Timer 3
4 seconds
0 Not present
0 Not present
40.2a.2.5 EC-DOWNLINK ASSIGNMENT
Message Type
According to 44.018 Table 10.4.4
Used DL Coverage Class
00 DL Coverage Class 1
EC Page Extension
0 Not present
TLLI
EC Packet Channel Description Type 2
EC Downlink Allocation
• Timing Advance
• STARTING_DL_TIMESLOT
• Downlink_TFI_Assignment
• TIMESLOT_MULIPLICATOR
• STARTING_UL_TIMESLOT_OFFSET
• GAMMA
• ALPHA Enable
• P0, PR_MODE
TLLI (32 bit)
Same as defined in section 40.2a.2.3 EC-IMMEDIATE ASSIGNMENT TYPE 2
011110 30 bits
011 Timeslot 3
00001
00 1 timeslot assigned
00 Same timeslot as indicated by STARTING_DL_TIMESLOT
00000
0 Not present
0 Not present |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3 Default GPRS Conditions and Message Contents for the Higher Layer Test Cases | This clause details default conditions and messages that shall be used for the higher layer test cases (GPRS Mobility Management, Session Management and SNDCP).
These alternate conditions and messages are derived from the standard defaults via the changes listed in the following sub-clause. They aim to produce default conditions with permitted channel combinations of:
- FCCH+SCH+BCCH+CCCH+SDCCH/4+SACCH/4 (v. from 3GPP TS 05.02 'Permitted Channel Combinations onto a Basic Physical Channel').
- PDTCH+PACCH+PTCCH (xiii. From 3GPP TS 05.02 'Permitted Channel Combinations onto a Basic Physical Channel').
Where values have not been specified the equivalent overall default values should be used. If values need to be removed from the overall defaults then these should be specified as 'OMITTED'. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.1 Default Test Conditions for the Higher Layer Test Cases | Network dependant parameters
CCCH_CONF
1 basic physical channel for CCCH combined with SDCCH
BS_AG_BLKS_RES
0 blocks reserved
BS_PA_MFRMS
5 multiframes
IMSI Attach-detach
IMSI attach / detach not allowed |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.2 Default Message for the Higher Layer Test Cases | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.2.1 Default Contents of System Information Messages for the Higher Layer Test Cases | Default Contents of Information Elements in SYSTEM INFORMATION TYPE 1 to 13 Messages Used for the Higher Layer Test Cases.
Control Channel Description
- BS_AG_BLKS_RES
0 blocks reserved for access grant.
- CCCH_CONF
1 basic physical channel used for CCCH, combined with SDCCHs.
- BS_PA_MFRMS
5 multiframe periods for transmission of paging messages.
- Attach-Detach allowed
IMSI attach / detach not allowed
Normal Case
SI 13 Rest Octets
For PBCCH not present case
Routing Area Code(RAC)
00000101(Binary)
SPLIT_PG_CYCLE(SPGC_CCCH_SUP)
Supported
PRIORITY_ACCESS_THR
Packet access allowed for priority level 1 to 4
NETWORK_CONTROL_ORDER
Normal MS control, no measurement reporting
GPRS Cell Options
Network Mode of Operation
NMO I
T3168
2 seconds
T3192
1.5 seconds
DRX_TIMER_MAX
Non-DRX not supported
ACCESS_BURST_TYPE
11 bits access burst
CONTROL_ACK_TYPE
RLC/MAC control block
BS_CV_MAX
7
PAN_DEC
3
PAN_INC
3
PAN_MAX
010(Binary)
GPRS Power Control Parameters
ALPHA
T_AVG_W
12
T_AVG_T
12
PC_MEAS_CHAN
BCCH
N_AVG_I
7
INT_MEAS_CHANNEL_LIST_AVAIL
Not Available |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.3 Contents Of Packet System Information Messages for the Higher Layer Test Cases | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.4 Contents of Layer 2 Messages for the Higher Layer Test Cases | PACKET UPLINK ASSIGNMENT message:
{0|1<Frequency Parameters>}
1 (Frequency Parameters present)
- Frequency Parameters
- ARFCN
ARFCN of the CCCH
Single Block Allocation
01 (Single Block Allocation)
- TIMESLOT_NUMBER
010
1 (ALPHA, GAMMA_TN present)
PACKET DOWNLINK ASSIGNMENT message:
{0|1<Frequency Parameters>}
1 (Frequency Parameters present)
- Frequency Parameters
- ARFCN
ARFCN of the CCCH |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.5 Contents of Layer 3 Messages for the Higher Layer Test Cases | IMMEDIATE ASSIGNMENT message:
Packet Channel Description
- TN
2 (Chosen arbitrarily)
- ARFCN
ARFCN of the CCCH
IMMEDIATE ASSIGNMENT EXTENDED message:
Channel Description 1
- Channel Type and TDMA offset
SDCCH/4, with subchannel chosen arbitrarily by the test house.
- Timeslot Number
0
- ARFCN
ARFCN of the CCCCH |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.3.6 Timer tolerance for higher layer test cases | The timers specified in the test cases in section 44, 45 and 46 shall take into account the delay in the establishment of uplink and/or downlink TBF required as per the test sequence. Timer tolerance = Timer Value +/- 10% +/- Delay to establish TBF. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4 Macros | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.1 Overview | The present document presents macros for GPRS test cases. It is intended to be a working document forming part of the GPRS Test Specifications. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.1.1 Definition | A macro is a name or sentence, possibly followed by an argument list, that is equated to a text to which it is to be expanded, possibly with the substitution of actual arguments.
Macros may be used to simplify the writing and reading of the test cases or to avoid the repetition of common sentences, message contents or message sequences. The macros defined in this subclause can be used throughout the test cases.
The definition if the macros is done in alphabetical order. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.1.2 Syntax | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.1.2.1 Message contents | Any macro referencing message contents shall use the following table:
Macro reference (arguments)
SI
Information Element
Value/Remarks
The table must contain:
Macro reference: word or sentence that gives the name to the macro. It may include a list of arguments with actual values for some IE's.
SI: the System Information messages whose content is referenced. Several SIs can be referenced in this column. The defined IE value(s) refers to the SI(s) in the same row.
Information Element: IE which value is specified.
Value/Remarks: value and any other comment specific to the IE's. In particular, the mapping between an argument value and its coding shall be specified in this column (see note).
NOTE: If possible, only the meaning of the value will be shown and not the value itself; this avoids updating when the core specifications are modified. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.1.2.2 Message sequence | Any macro referencing message contents shall use the following table:
Step
Direction
Message
Comments
{ Macro reference }
Macro (arguments)
The table must contain:
Macro reference: word or sentence that gives the name to the macro. It may include a list of arguments with actual values for some parameters used within the macro.
Step: Number of the message. Letters may be used for general values: the same rules as in 3GPP TS 11.10 apply.
Direction: it must be either:
- "MS SS": for an uplink message or a macro containing only uplink message(s);
- "SS MS": for a downlink message or a macro containing only downlink message(s);
- "SS MS": for a macro containing both uplink and downlink message(s);
- "MS": for an action performed on the mobile side; or
- "SS": for an action performed on the system simulator side.
Message: Message name or macro reference.
Comments: any other comment specific to the message. In particular, value of certain bits/fields of the correspondent message.
The symbol '' can be used to indicate that the previous and following message or sequence of messages (both previous and following must appear) is sent an unknown number of times, probably referenced with a letter on the 'step' column. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.2 Default message contents | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.2.1 GPRS not supported | SI
Information Element
Value/Remarks
SI 3
SI 4
SI 7
SI 8
GPRS Indicator
GPRS not supported |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.2.2 GPRS supported | SI
Information Element
Value/Remarks
SI 3
SI 4
SI 7
SI 8
GPRS Indicator
GPRS supported |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.2.3 GPRS supported using BCCH | (P)SI
Information Element
Value/Remarks
SI 13
[Bit after RA_CODE]
PCCCH not present |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.2.4 Max retrans set to {1, 2, 4, 7} | (P)SI
Information Element
Value/Remarks
SI 1
SI 2
SI 2bis
SI 3
SI 9
RACH Control Parameters
- Max retrans
Maximum 1 retransmission,
maximum 2 retransmissions,
maximum 4 retransmissions or
maximum 7 retransmissions |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3 Macro message sequences | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.1 Acknowledged downlink data | Step
Direction
Message
Comments
SS MS
{ Acknowledged downlink data }
Macro
1
SS MS
{ Downlink data }
Macro
2
MS SS
PACKET DOWNLINK ACK/NACK |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.2 Classmark and measurement | Step
Direction
Message
Comments
MS SS
{ Classmark and measurement }
Macro
1a
MS SS
MEASUREMENT REPORT
2a
MS SS
CLASSMARK CHANGE
Mobile Station Classmark 2 and 3
1b
MS SS
CLASSMARK CHANGE
Mobile Station Classmark 2 and 3
2b
MS SS
MEASUREMENT REPORT
3
MS SS
{ Measurement reporting }
Macro |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.3 Downlink data | Step
Direction
Message
Comments
SS MS
{ Downlink data }
Macro
1
SS MS
RLC DOWNLINK DATA
FBI bit set to '0'
2
SS MS
RLC DOWNLINK DATA
N
SS MS
RLC DOWNLINK DATA
n 1 |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.4 Downlink data transfer | Step
Direction
Message
Comments
SS MS
{ Downlink data transfer }
Macro
a. RLC unacknowledged mode
1
SS MS
{ Downlink data }
Macro
2
SS MS
RLC DOWNLINK DATA
FBI bit set to '1' and valid RRBP field
3
MS SS
PACKET CONTROL ACKNOWLEDGMENT
In the uplink block specified by the RRBP field
b. RLC acknowledged mode
1
SS MS
{ Acknowledged downlink data }
Macro
2
SS MS
{ Acknowledged downlink data }
Macro
N
SS MS
{ Acknowledged downlink data }
Macro. n 1
n+1
SS MS
RLC DOWNLINK DATA
n+2
SS MS
RLC DOWNLINK DATA
M
SS MS
RLC DOWNLINK DATA
m n+1. FBI bit set to '1' and valid RRBP field
m+1
MS SS
PACKET DOWNLINK ACK/NACK
In the uplink block specified by the RRBP field. Final Ack Indicator bit set to '1' |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.5 Measurement reporting | Step
Direction
Message
Comments
MS SS
{ Measurement reporting }
Macro
1
MS SS
MEASUREMENT REPORT
See note
2
MS SS
MEASUREMENT REPORT
N
MS SS
MEASUREMENT REPORT
n 1
NOTE: These messages are sent continuously on the ACCH. As no short messages are sent, this sequence should not be temporarily interrupted by other messages also sent on the same channel. However, other messages may be sent on the main DCCH. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.6 Uplink data transfer | Step
Direction
Message
Comments
MS SS
{ Uplink data transfer }
Macro (arguments: see note 4)
1
MS SS
RLC UPLINK DATA
See notes 1 and 2
2a
MS SS
RLC UPLINK DATA
2b
SS MS
PACKET UPLINK ACK/NACK
See note 3
3a
MS SS
RLC UPLINK DATA
3b
SS MS
PACKET UPLINK ACK/NACK
N
MS SS
RLC UPLINK DATA
n 1. CV set to '0'
N+1
SS MS
PACKET UPLINK ACK/NACK
Final Ack Indicator bit = '1' and valid RRBP field
N+2
MS SS
PACKET CONTROL ACKNOWLEDGEMENT
In the uplink block specified by the RRBP field
NOTE 1: SI bit set to '0' in all data blocks.
NOTE 2: The SS sends a PACKET UPLINK ACK/NACK message at least every k-1 RLC UPLINK DATA messages, being k the window size with a value of 64 blocks.
NOTE 3: The field CV in the RLC UPLINK DATA messages verifies:
where:
- TBC: total number of RLC data blocks that will be transmitted in the TBF;
- BSN': absolute block sequence number of the RLC data block, from 0 to (TBC - 1);
- NTS: number of timeslots assigned to the uplink TBF, with range 1 to 8;
- the function round() rounds upwards to the nearest integer;
- BS_CV_MAX is a parameter broadcast in the system information;
- the division operation is non-integer and results in zero only for (TBC - BSN' - 1) = 0.
NOTE 4: In the case of Dynamic MAC mode, the macro reference in the corresponding test case may contain a certain frequency (in seconds-1 or frames-1) for the SS to indicate the USF allocated to the mobile so that the MS is allowed to transmit. Otherwise, mobile's USF is indicated in every available block. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.7 Uplink dynamic allocation one phase access | Step
Direction
Message
Comments
{Uplink dynamic allocation one phase access}
Macro parameters:
n: the number of RLC data block to be transferred,
USF_GRANULARITY: 1 or 4 blocks,
RLC_DATA_BLOCKS_GRANTED: 9-261 (close-end), or absent (open-end)
CHANNEL_CODING_COMMAND: CS-1, -2, -3, -4
TLLI_BLOCK_CHANNEL_CODING: CS-1 or as data block
REL_OR_ABS_FN: absolute or relative frame number encoding for starting time
TBF_STARTING_TIME
0
MS
Trigger the MS initiating uplink transfer n octets data according to the test PDP context activated
1
MS -> SS
CHANNEL REQUEST
Received on RACH.
2
SS -> MS
IMMEDIATE ASSIGNMENT
uplink dynamic allocation,
Sent on AGCH.
NOTE: After step 2, the MS is not yet in the packet transfer mode. The contention resolution must be completed. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.8 Uplink dynamic allocation one phase access with contention resolution | Step
Direction
Message
Comments
{Uplink dynamic allocation one phase access with contention resolution}
Macro parameters:
n: the number of RLC data block to be transferred,
USF_GRANULARITY: 1 or 4 blocks,
RLC_DATA_BLOCKS_GRANTED: 9-261 (close-end), or absent (open-end)
CHANNEL_CODING_COMMAND: CS-1, -2, -3, -4
TLLI_BLOCK_CHANNEL_CODING: CS-1 or as data block
REL_OR_ABS_FN: absolute or relative frame number encoding for starting time
TBF_STARTING_TIME
0
MS
Trigger the MS initiating uplink transfer n octets data according to the test PDP context activated
1
MS -> SS
CHANNEL REQUEST
Received on RACH.
2
SS -> MS
IMMEDIATE ASSIGNMENT
uplink dynamic allocation,
Sent on AGCH.
3
SS -> MS
PACKET DOWNLINK DUMMY CONTROL BLOCK
Sent on the PACCH of the PDCH, the USF assigned to the MS, on 3 blocks from the last radio block containing the uplink assignment.
4A
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 1, containing TLLI in the RLC/MAC header.
4B1
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 4, containing TLLI in the RLC/MAC header.
4B2
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 4, containing TLLI in the RLC/MAC header.
4B3
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 4, containing TLLI in the RLC/MAC header.
4B4
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 4, containing TLLI in the RLC/MAC header.
5
SS -> MS
PACKET UPLINK ACK/NACK
Sent on the PACCH, containing TLLI received at step 4.
6
Wait for 3 block periods. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.9 Uplink dynamic allocation two phase access | Step
Direction
Message
Comments
{Uplink dynamic allocation two phase access}
Macro parameters:
n: the number of RLC data block to be transferred,
USF_GRANULARITY: 1 or 4 blocks,
RLC_DATA_BLOCKS_GRANTED: 9-261 (close-end), or absent (open-end)
CHANNEL_CODING_COMMAND: CS-1, -2, -3, -4
TLLI_BLOCK_CHANNEL_CODING: CS-1 or as data block,
TBF_STARTING_TIME
0
MS
Trigger the MS initiating uplink transfer n octets data according to the test PDP context activated
1
MS -> SS
CHANNEL REQUEST
Received on RACH. (PBCCH not preset case)
2
SS -> MS
Single block assignment, to order the MS to follow the two phase access procedure.
IMMEDIATE ASSIGNMENT
Sent on AGCH (PBCCH not present case)
3
MS -> SS
PACKET RESOURCE REQUEST
Two phase access procedure. Received on the single block assigned in step 2.
If the access type of the PACKET RESOURCE REQUEST specifies “Two Phase Access Req” check that the PEAK_THROUGHPUT, RADIO_PRIORITY and RLC_MODE are compliant with the PDP context used.
In case of SMS over GPRS PEAK THROUGHPUT is not checked.
4
SS -> MS
PACKET UPLINK ASSIGNMENT
uplink dynamic allocation, no starting time (as default, otherwise use TBF_STARTING_TIME), Sent on PACCH of the same PDCH assigned in step 2. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.10 Completion of uplink RLC data block transfer | Steps 1A - 3A are applied for 1 uplink slot with USF granularity 1 block.
Steps 1B, 2B1-2B4 and 3B are applied for 1 uplink slot with USF granularity 4 blocks.
Steps 1C - 5C are applied for 2 uplink slots with USF granularity 1 block.
Steps 6 - 7 are common to the cases A, B and C.
Step
Direction
Message
Comments
{Completion of uplink RLC data block transfer}
Macro parameters:
USF_GRANULARITY: 1 or 4 blocks,
the number of slots assigned in the uplink.
1A,1B
SS -> MS
PACKET UPLINK ACK/NACK
The assigned USF assigned to the MS to the MS.
2A
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 1
Received on the assigned PDTCH.
2B1
MS -> SS
UPLINK RLC DATA BLOCK
For USF_GRANULARITY = 4
Received on the assigned PDTCH.
2B2
MS -> SS
UPLINK RLC DATA BLOCK or PACKET UPLINK DUMMY CONTROL BLOCK
Received on the assigned PDTCH
2B3
MS -> SS
UPLINK RLC DATA BLOCK or PACKET UPLINK DUMMY CONTROL BLOCK
Received on the assigned PDTCH
2B4
MS -> SS
UPLINK RLC DATA BLOCK or PACKET UPLINK DUMMY CONTROL BLOCK
Received on the assigned PDTCH
3A,3B
Repeat the steps 1A and 2A or 1B and 2B1-2B4 until the countdown value CV=0 in step 2A or in one of the steps 2B1 - 2B4.
1C
SS -> MS
PACKET UPLINK ACK/NACK
Sent on the PACCH of the PDCH 1, the assigned USF1 addressing the MS.
2C
SS -> MS
PACKET UPLINK ACK/NACK
Sent on the PACCH of the PDCH 2 on the same radio block as step 1C, the assigned USF2 addressing the MS.
3C
MS -> SS
UPLINK RLC DATA BLOCK
Received on the assigned PDTCH 1.
4C
MS -> SS
UPLINK RLC DATA BLOCK
Received on the assigned PDTCH 2.
5C
Repeat steps 1C – 4C until the countdown value CV=0 in step 3C or step 4C.
6
SS -> MS
PACKET UPLINK ACK/NACK
Final Ack Indicator = '1' containing valid RRBP. Sent on the PACCH of the assigned PDCH.
7
MS -> SS
PACKET CONTROL ACKNOWLEDGEMENT
Received on the block specified by RRBP on PACCH of the assigned PDCH. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.10.1 PACKET UPLINK ACK/NACK message in step 6: | Ack/Nack Description
- FINAL_ACK_INDICATION
1 (final ACK)
- STARTING_SEQUENCE_NUMBER
No information, ignored
- RECEIVED_BLOCK_BITMAP
No information, ignored |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.11 Void | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.12 Void | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.13 Void | |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.14 Downlink TBF establishment | Step
Direction
Message
Comments
{Downlink TBF establishment}
Macro parameters:
RLC mode
TBF_STARTING_TIME
1
SS -> MS
PAGING REQUEST
1st Repeated Page info contains P-TMSI of the MS. Sent on PCH.
2
MS -> SS
CHANNEL REQUEST
ACCESS TYPE = " Page Response ". Received on RACH.
3
SS -> MS
IMMEDIATE ASSIGNMENT
Random Reference = pertaining to the message received in step 2. Dynamic allocation, Sent on AGCH.
4
SS -> MS
PACKET DOWNLINK DUMMY CONTROL BLOCK
Sent on PACCH containing USF assigned to the MS.
5
MS -> SS
UPLINK RLC DATA BLOCK
LLC PDU implicitly indicating paging response, containing TLLI in the RLC/MAC header. Received on uplink PDTCH assigned in step 3.
6
SS -> MS
PACKET UPLINK ACK/NACK
Acknowledge the received RLC data block. Sent on uplink PACCH.
7
MS -> SS
PACKET CONTROL ACKNOWLEDGEMENT
Acknowledge the RLC control message. Received on uplink PACCH.
8
SS -> MS
IMMEDIATE ASSIGNMENT
Downlink Assignment, TLLI value as received. Sent on PCH. Three macro parameters as assigned in the test cases. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.15 PDP Context Activation | Mobile initiated, for LLC mode unacknowledged:
Step
Direction
Message
Comments
{PDP Context Activation}
1
MS -> SS
Activate PDP Context Request
2
SS -> MS
Activate PDP Context Accept
Mobile initiated, for LLC mode acknowledged:
Step
Direction
Message
Comments
{PDP Context Activation}
1
MS -> SS
Activate PDP Context Request
2
SS -> MS
Activate PDP Context Accept
3
MS -> SS
SABM
Link establishment (When relevant to the test case, steps 3 and 4 are shown as a part of the test case)
4
SS -> MS
UA |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.16 PDP Context Deactivation | Mobile initiated:
Step
Direction
Message
Comments
{PDP Context Deactivation}
1
MS -> SS
Deactivate PDP Context Request
2
SS -> MS
Deactivate PDP Context Accept
Network initiated:
Step
Direction
Message
Comments
{PDP Context Deactivation}
1
SS -> MS
Deactivate PDP Context Request
2
MS -> SS
Deactivate PDP Context Accept |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.17 Inter-SGSN Routing Area Update | Step
Direction
Message
Comments
{Inter-SGSN Routing Area Update}
1
Cell B is already activated with a lower signal strength than cell A The RF level of cell A is lowered until cell B is preferred by the MS.
2
MS -> SS
Routing Area Update Request
The updating type shall be "Combined RA/LA Updating" for Class B mobiles in Network Mode I and "RA Updating" for Class C mobiles supporting GPRS.
3
SS->MS
XID
XID with RESET
4
MS->SS
XID
XID response
5
SS -> MS
Routing Area Update Accept
6
MS->SS
Routing Area Update Complete
If the Routing Area Update Accept sent in step 5 contains P-TMSI and/or receive N-PDU or new ready timer value, the MS sends Routing Area Update Complete message.
NOTE: The MS may send an XID command any time. The SS shall send an XID response accepting the values proposed by the MS.
40.4.3.17a Inter-SGSN Routing Area Update – with PSHO
Step
Direction
Message
Comments
{Inter-SGSN Routing Area Update – with PSHO}
Macro parameters:
Old XID : to reset with/without the old XID parameters
1
Cell B is already activated with a lower signal strength than cell A . All necessary information on target cell were sent to the MS - Relevant SI (SI1, SI3, SI13)
2
SS -> MS
PS HANDOVER COMMAND
Sent on the PACCH of the assigned PDCH. See specific message content (NAS Container IE present)
The following messages are received on cell B.
3
MS->SS
XID
XID response
4
MS->SS
ROUTING AREA UPDATE REQUEST
5
Optional Step
SS -> MS
XID
Performed if Old XID set to ‘0’:
XID Command – Empty to use default parameter
6
Conditional Step
MS->SS
XID
If step 5 was performed:
XID response
7
Cell B power is increased and Cell A power decreased (Cell B power > Cell A power) so the MS will remain on Cell B for the rest of the test.
8
SS -> MS
ROUTING AREA UPDATE ACCEPT
9
MS->SS
ROUTING AREA UPDATE COMPLETE
NOTE 1: The MS may send an XID command any time. The SS shall send an XID response accepting the values proposed by the MS.
NOTE 2: The optional Steps 5 and 6 apply if the NAS container IE includes a “Reset without old XID parameters”,
Specific Message Contents
PS HANDOVER COMMAND message in step 2:
As default message contents except
<NAS Container for PS Handover IE>
Present
NAS_CONTAINER_LENGTH
Set accordingly
NAS_CONTAINER_Data:
Type of ciphering algorithm: same as before
old XID: Reset with or without the old XID parameters |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.18 PDP Context Modification | This procedure is always initiated by the network.
Step
Direction
Message
Comments
{PDP Context Modification}
1
SS -> MS
Modify PDP Context
2
MS -> SS
Modify PDP Context Accept |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.19 Location Update Procedure | This procedure is only initiated by mobile stations that are not operating in class mode C "GPRS".
Step
Direction
Message
Comments
{Location Update Procedure}
Macro parameters:
MOBILE_IDENTITY
1
MS -> SS
LOCATION UPDATE REQUEST
2
SS -> MS
AUTHENTICATION REQUEST
3
MS -> SS
AUTHENTICATION RESPONSE
4
SS -> MS
LOCATION UPDATE ACCEPT
A5 (optional step)
MS -> SS
TMSI REALLOCATION COMPLETE
Step executed only when assigned mobile identity is of the type TMSI.
5
SS -> MS
CHANNEL RELEASE
GPRS RESUMPTION IE is present and the ACK field is set to 1 (see note below).
NOTE: Only in case the MS performed GPRS suspension procedure prior to the CS session, then the GPRS RESUMPTION IE shall be present in the CHANNEL RELEASE message. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.20 MT Call in GPRS cell | This procedure is initiated by the network while the MS is GPRS attached, one cell is active:
Step
Direction
Message
Comments
{MT Call while GPRS Attached}
Macro parameters:
T : Duration of the call (in seconds)
R : Binary acknowledge of a successful resumption of GPRS services
1
SS -> MS
PAGING REQUEST Type 1
Page info contains TMSI of the MS, PAGE_MODE = " same as before ", sent on downlink PCH
2
MS -> SS
CHANNEL REQUEST
3
SS -> MS
IMMEDIATE ASSIGNMENT
4
MS -> SS
PAGING RESPONSE
5
MS -> SS
CLASSMARK CHANGE
This step may be optionally performed by a R97 or R98 MS; this step shall be mandatorily performed by R99 and later MS.
6
MS -> SS
GRPS SUSPENSION REQUEST
7
SS -> MS
AUTHENTICATION REQUEST
8
MS -> SS
AUTHENTICATION RESPONSE
9
SS -> MS
CIPHERING MODE COMMAND
10
MS -> SS
CIPHERING MODE COMPLETE
11
SS -> MS
SETUP
12
MS -> SS
CALL CONFIRMED
13
If the MS supports immediate connect then branch A applies. If not then branch B applies
14A
MS -> SS
CONNECT
Sent on the old channel
15A
SS -> MS
ASSIGNMENT COMMAND
Timeslot and channel type arbitrarily chosen or PICS dependant
16A
MS -> SS
ASSIGNMENT COMPLETE
Continues at step 20
14B
SS -> MS
ASSIGNMENT COMMAND
Timeslot and channel type arbitrarily chosen or PICS dependant
15B
MS -> SS
ASSIGNMENT COMPLETE
Sent on the new channel.
16B
MS -> SS
ALERTING
17B
MS
An alerting indication as defined in a PICS/PIXIT statement is given by the MS
18B
MS
The MS is made to accept the call in the way described in a PICS/PIXIT statement
19B
MS -> SS
CONNECT
20
SS -> MS
CONNECT ACKNOWLEDGE
21
MS
The appropriate bearer channel is through connected in both directions.
The channel is kept open for T seconds
22
SS -> MS
DISCONNECT
23
MS -> SS
RELEASE
24
SS -> MS
RELEASE COMPLETE
25
SS -> MS
CHANNEL RELEASE
The main signalling link is released. Resumption Field is set to R
NOTE: In step1x and 10x, the test procedure follows either the ‘a’ branch or the ‘b’ branch.
This procedure is initiated by the network while the MS is GPRS attached, two GPRS cells are active:
Step
Direction
Message
Comments
{MT Call while GPRS Attached with Handover}
Macro parameters:
T : Duration of the call (in seconds)
Target Cell : Second cell for handover
R : Binary acknowledge of a successful resumption of GPRS services:
1
SS -> MS
PAGING REQUEST Type 1
Page info contains TMSI of the MS, PAGE_MODE = " same as before ", sent on downlink PCH
2
MS -> SS
CHANNEL REQUEST
3
SS -> MS
IMMEDIATE ASSIGNMENT
4
MS -> SS
PAGING RESPONSE
5
MS -> SS
CLASSMARK CHANGE
This step may be optionally performed by a R97 or R98 MS; this step shall be mandatorily performed by R99 and later MS.
6
MS -> SS
GPRS SUSPENSION REQUEST
7
SS -> MS
AUTHENTICATION REQUEST
8
MS -> SS
AUTHENTICATION RESPONSE
9
SS -> MS
CIPHERING MODE COMMAND
10
MS -> SS
CIPHERING MODE COMPLETE
11
SS -> MS
SETUP
12
MS -> SS
CALL CONFIRMED
13
If the MS supports immediate connect then branch A applies. If the MS does not support immediate connect then branch B applies
14A
MS -> SS
CONNECT
Sent on the old channel
14A
SS -> MS
ASSIGNMENT COMMAND
Timeslot and channel type arbitrarily chosen or PICS dependant
16A
MS -> SS
ASSIGNMENT COMPLETE
Continues at step 20
14B
SS -> MS
ASSIGNMENT COMMAND
Timeslot and channel type arbitrarily chosen or PICS dependant
15B
MS -> SS
ASSIGNMENT COMPLETE
Sent on the new channel.
16B
MS -> SS
ALERTING
17B
MS
An alerting indication as defined in a PICS/PIXIT statement is given by the MS
18B
MS
The MS is made to accept the call in the way described in a PICS/PIXIT statement
19B
MS -> SS
CONNECT
20
SS -> MS
CONNECT ACKNOWLEDGE
21
MS
The appropriate bearer channel is through connected in both directions.
Wait for T/2 seconds
22
SS -> MS
HANDOVER COMMAND
Instructs the MS to move to an arbitrarily chosen timeslot on Target Cell
23
MS -> SS
HANDOVER ACCESS
Repeated on every burst of the uplink main DCCH until reception of the PHYSICAL INFORMATION message. Handover reference as included in the HANDOVER COMMAND.
24
SS -> MS
PHYSICAL INFORMATION
25
MS -> SS
HANDOVER COMPLETE
Sent on the new channel after the establishment of the main signalling link on Target Cell
26
SS
Wait for T/2 seconds
27
SS -> MS
DISCONNECT
28
MS -> SS
RELEASE
29
SS -> MS
RELEASE COMPLETE
30
SS -> MS
CHANNEL RELEASE
The main signalling link is released. Resumption Field is set to R
NOTE: In step1x and 10x, the test procedure follows either the ‘a’ branch or the ‘b’ branch. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.21 Uplink data | Step
Direction
Message
Comments
MS SS
{ Uplink data }
Macro (arguments: see note 2)
1
MS SS
RLC UPLINK DATA
SI bit set to ‘0’
2a
MS SS
RLC UPLINK DATA
See notes 1
2b
SS MS
PACKET UPLINK ACK/NACK
N
MS SS
RLC UPLINK DATA
till the required amount of blocks are received
N+1
SS MS
PACKET UPLINK ACK/NACK
NOTE 1: The SS sends a PACKET UPLINK ACK/NACK message at least every k-1 RLC UPLINK DATA messages, being k the window size with a value of 64 blocks.
NOTE 2: In the case of Dynamic MAC mode, the macro reference in the corresponding test case may contain a certain frequency (in seconds-1 or frames-1) for the SS to indicate the USF allocated to the mobile so that the MS is allowed to transmit. Otherwise, mobile's USF is indicated in every available block. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.22 Bring MS in the active state (U10) | Step
Direction
Message
Comments
{Bring MS in active state (U10)}
Macro parameters:
N : Timeslot used for traffic channel
1
SS -> MS
PAGING REQUEST Type 1
Page info contains IMSI of the MS, sent on downlink PCH
2
MS -> SS
CHANNEL REQUEST
Establishment cause : ANSWER TO PAGING
3
SS -> MS
IMMEDIATE ASSIGNMENT
4
MS -> SS
PAGING RESPONSE
5
(Optional)
MS -> SS
CLASSMARK CHANGE
This step may be optionally performed by a R97 or R98 MS; this step shall be mandatorily performed by R99 and later MS.
If DTM is not supported from the MS or the cell then step 6-1 is performed otherwise step 6-2
6-1
MS -> SS
GRPS SUSPENSION REQUEST
6-2
(Optional)
MS -> SS
GRPS INFORMATION
The MS send this message to indicate Cell Update. This step is optional for MS with release up to Rel5 and it is mandatory for MS with release from Rel6 onwards.
7
SS -> MS
AUTHENTICATION REQUEST
8
MS -> SS
AUTHENTICATION RESPONSE
9
SS -> MS
CIPHERING MODE COMMAND
10
MS -> SS
CIPHERING MODE COMPLETE
11
SS -> MS
SETUP
12
MS -> SS
CALL CONFIRMED
13
If the MS supports immediate connect then branch A applies. If not then branch B applies
14A
MS -> SS
CONNECT
Sent on the old channel
15A
SS -> MS
ASSIGNMENT COMMAND
Timeslot N used, channel type arbitrarily chosen or PICS dependant
16A
MS -> SS
ASSIGNMENT COMPLETE
Continues at step 20
14B
SS -> MS
ASSIGNMENT COMMAND
Timeslot N used, channel type arbitrarily chosen or PICS dependant
15B
MS -> SS
ASSIGNMENT COMPLETE
Sent on the new channel.
16B
MS -> SS
ALERTING
17B
MS
An alerting indication as defined in a PICS/PIXIT statement is given by the MS
18B
MS
The MS is made to accept the call in the way described in a PICS/PIXIT statement
19B
MS -> SS
CONNECT
20
SS -> MS
CONNECT ACKNOWLEDGE |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.23 Completion of uplink RLC data block transfer in extended dynamic mode | Step
Direction
Message
Comments
{Completion of uplink RLC data block transfer in extended dynamic mode}
Macro parameters:
USF_GRANULARITY: 1 or 4 blocks,
the number of timeslots assigned in the uplink,
the lowest numbered timeslot in the PDCH allocation.
USF1 is assigned on TN1 (the lowest numbered timeslot), USF2 is assigned on TN2 etc.
1
SS -> MS
PACKET UPLINK ACK/NACK
Assigned USF1 addressing the MS. Sent on the lowest numbered timeslot in the PDCH allocation.
2
MS -> SS
UPLINK RLC DATA BLOCK
The MS shall send one UPLINK RLC DATA BLOCK on each assigned uplink timeslot within the same TDMA frame.
For USF_GRANULARITY=4 this is repeated on four consecutive Radio blocks.
3
Repeat steps 1 and 2 until the countdown value CV=0 is received in step 2.
4
SS -> MS
PACKET UPLINK ACK/NACK
Final Ack Indicator = '1' containing valid RRBP. Sent on the lowest numbered timeslot in the PDCH allocation.
5
MS -> SS
PACKET CONTROL ACKNOWLEDGEMENT
Received on the block specified by RRBP on PACCH of the lowest numbered timeslot in the PDCH allocation. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.4.3.23.1 PACKET UPLINK ACK/NACK message in step 4: | Ack/Nack Description
- FINAL_ACK_INDICATION
1 (final ACK)
- STARTING_SEQUENCE_NUMBER
No information, ignored
- RECEIVED_BLOCK_BITMAP
No information, ignored |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 40.5 Test PDP contexts | The following table defines Test PDP contexts required for test cases using packet services (e.g. GPRS, EGPRS, DTM). Test PDP context3 is the default Test PDP context which is used in the test cases where no particular Test PDP contexts are specified. Compression is always turned off if nothing else is stated explicitly in the test case.
If the MS does not include any PDP address, dynamic PDP address shall be assigned by the SS. The MS with Rel-8 behaviour shall not include the PDP address and the PDP address allocation is dynamic always.
Table 40.5 Test PDP contexts
PDP
Context1
PDP
Context2
PDP
context3
PDP
context4
LLC SAPI
SAPI = 3
SAPI = 11
SAPI = 11
SAPI = 9
PDP Type
IP type
IP type
IP type
IP type
PDP Address
static/Dynamic
static/Dynamic
static/Dynamic
static/Dynamic
APN
arbitrarily chosen
arbitrarily chosen
arbitrarily chosen
arbitrarily chosen
Protocol Configuration Options
PPP options
PPP options
PPP options
PPP options
Radio Priority
1
4
4
4
Quality of service settings to be used when testing R98 or earlier MS:
Reliability Class
5
(RLC unacknowledged)
(LLC unacknowledged)
3
(RLC acknowledged)
(LLC unacknowledged)
5
3
Delay Class
4
(best effort)
4
4
4
Precedence Class (SS)
2
(normal)
2
2
2
Precedence Class (MS)
Subscribed
Subscribed
Subscribed
Subscribed
Peak Throughput Class
5
(Up to 16 000 octet/s)
5
5
6
(Up to 32 000 octet/s)
Mean Throughput Class (SS)
16
(10 000 000 octet/h)
16
16
16
Mean Throughput Class (MS)
31 (best effort)
31
31
31
Quality of service settings to be used when testing R99 or later MS:
Traffic Class
Background
Background
Background
Background
Delivery Order
‘no’
‘no’
‘no’
‘no’
Delivery of erroneous SDU
‘yes’
‘no’
‘yes’
‘no’
Maximum SDU size
150
(1500 octets)
150
150
150
Maximum bit rate for uplink
128 kbps
128 kbps
128 kbps
256 kbps
Maximum bit rate for downlink
128 kbps
128 kbps
128 kbps
256 kbps
Residual BER
4*10-3
10-5
4*10-3
10-5
SDU error ratio
10-3
10-4
10-3
10-4
Transfer delay
0
(not relevant for background class)
0
0
0
Traffic Handling priority
0
(not relevant for background class)
0
0
0
Guaranteed bit rate for uplink
0
(not relevant for background class)
0
0
0
Guaranteed bit rate for downlink
0
(not relevant for background class)
0
0
0
Quality of service settings to be used when testing R5 or later MS:
Signalling Indication
0
0
0
0
Source Statistics Descriptor
0
0
0
0
Maximum bit rate for downlink (extended)
0
0
0
0
Guaranteed bit rate for downlink (extended)
0
0
0
0
Quality of service settings to be used when testing R7 behaviour
Maximum bit rate for uplink (extended)
0
0
0
0
Guaranteed bit rate for uplink (extended)
0
0
0
0
The table continues on the next page.
PDP
context5
PDP
context6
PDP
Context7
PDP
Context 8
LLC SAPI
SAPI = 3
SAPI = 9
SAPI = 9
SAPI = 5
PDP Type
IP type
IP type
IP type
IP type
PDP Address
static/Dynamic
static/Dynamic
static/Dynamic
static/Dynamic
APN
arbitrarily chosen
arbitrarily chosen
arbitrarily chosen
arbitrarily chosen
Protocol Configuration Options
PPP options
PPP options
PPP options
PPP options
Radio Priority
1
4
4
1
Quality of service settings to be used when testing R98 or earlier MS:
Reliability Class
3
5
5
3
(RLC acknowledged)
(LLC unacknowledged)
(data protected)
Delay Class
4
4
4
4
(best effort)
Precedence Class (SS)
2
2
2
2
(normal)
Precedence Class (MS)
subscribed
Subscribed
subscribed
Subscribed
Peak Throughput Class
5
6
6
5
(Up to 16 000 octet/s)
Mean Throughput Class (SS)
16
16
16
16
(10 000 000 octet/h)
Mean Throughput Class (MS)
31 (best effort)
31
31
31
Quality of service settings to be used when testing R99 or later MS:
Traffic Class
Background
Background
Background
Background
Delivery Order
‘no’
‘no’
‘no’
‘no’
Delivery of erroneous SDU
‘no’
‘yes’
‘yes’
‘no’
Maximum SDU size
150
150
150
150
Maximum bit rate for uplink
128 kbps
256 kbps
256 kbps
128 kbps
Maximum bit rate for downlink
128 kbps
256 kbps
256 kbps
128 kbps
Residual BER
10-5
4*10-3
4*10-3
10-5
SDU error ratio
10-4
10-3
10-3
10-4
Transfer delay
0
0
0
0
Traffic Handling priority
0
0
0
0
Guaranteed bit rate for uplink
0
0
0
0
Guaranteed bit rate for downlink
0
0
0
0
Quality of service settings to be used when testing R5 or later MS:
Signalling Indication
0
0
0
0
Source Statistics Descriptor
0
0
0
0
Maximum bit rate for downlink (extended)
0
0
0
0
Guaranteed bit rate for downlink (extended)
0
0
0
0
Quality of service settings to be used when testing R7 behaviour
Maximum bit rate for uplink (extended)
0
0
0
0
Guaranteed bit rate for uplink (extended)
0
0
0
0
PDP
Context 9
PDP
Context 10
PDP
Context 11 (Note 2)
LLC SAPI
SAPI = 11
SAPI = 5
SAPI = 3
PDP Type
IP type
IP type
IP type
PDP Address
static/Dynamic
static/Dynamic
static/Dynamic
APN
arbitrarily chosen
arbitrarily chosen
arbitrarily chosen
Protocol Configuration Options
PPP options
PPP options
PPP options
Radio Priority
1
1
1
Quality of service settings to be used when testing R98 or earlier MS:
Reliability Class
3
(RLC acknowledged)
(LLC unacknowledged)
(data protected)
5
(RLC unacknowledged)
(LLC unacknowledged)
(data unprotected)
2
(RLC acknowledged)
(LLC acknowledged)
(data protected)
Delay Class
4
(best effort)
4
(best effort)
4
(best effort)
Precedence Class (SS)
2 (normal)
2
2
Precedence Class (MS)
subscribed
subscribed
subscribed
Peak Throughput Class
5
(Up to 16 000 octet/s)
5
(Up to 16 000 octet/s)
5
(Up to 16 000 octet/s)
Mean Throughput Class (SS)
16 (10 000 000 octet/h)
16 (10 000 000 octet/h)
16 (10 000 000 octet/h)
Mean Throughput Clss (MS)
31 (best effort)
31
31
Quality of service settings to be used when testing R99 or later MS:
Traffic Class
Background
Background
Background
Delivery Order
‘no’
‘no’
‘no’
Delivery of erroneous SDU
‘no’
‘yes’
‘no’
Maximum SDU size
150
150
150
Maximum bit rate for uplink
128 kbps
128 kbps
128 kbps
Maximum bit rate for downlink
128 kbps
128 kbps
128 kbps
Residual BER
10-5
4*10-3
10-5
SDU error ratio
10-4
10-3
10-6
Transfer delay
0
0
0
Traffic Handling priority
0
0
0
Guaranteed bit rate for uplink
0
0
0
Guaranteed bit rate for downlink
0
0
0
Quality of service settings to be used when testing R5 or later MS:
Signalling Indication
0
0
0
Source Statistics Descriptor
0
0
0
Maximum bit rate for downlink (extended)
0
0
0
Guaranteed bit rate for downlink (extended)
0
0
0
Quality of service settings to be used when testing R7 behaviour
Maximum bit rate for uplink (extended)
0
0
0
Guaranteed bit rate for uplink (extended)
0
0
0
The table continues on the next page.
PDP
Context 12 (Note 2)
PDP
Context 13 (Note 2)
PDP
Context 14
LLC SAPI
SAPI = 9
SAPI = 11
SAPI = 9
PDP Type
IP type
IP type
IP type
PDP Address
static/Dynamic
static/Dynamic
static/Dynamic
APN
arbitrarily chosen
arbitrarily chosen
arbitrarily chosen
Protocol Configuration Options
PPP options
PPP options
PPP options
Radio Priority
1
1
1
Quality of service settings to be used when testing R98 or earlier MS:
Reliability Class
2
(RLC acknowledged)
(LLC acknowledged)
(data protected)
2
(RLC acknowledged)
(LLC acknowledged)
(data protected)
3
(RLC acknowledged)
(LLC unacknowledged)
(data protected)
Delay Class
4
(best effort)
4
(best effort)
4
(best effort)
Precedence Class (SS)
2
(normal)
2
(normal)
2
(normal)
Precedence Class (MS)
Subscribed
Subscribed
Subscribed
Peak Throughput Class
5
(Up to 16 000 octet/s)
5
(Up to 16 000 octet/s)
5
(Up to 16 000 octet/s)
Mean Throughput Class (SS)
16
(10 000 000 octet/h)
16
(10 000 000 octet/h)
16
(10 000 000 octet/h)
Mean Throughput Class (MS)
31 (best effort)
31
31
Quality of service settings to be used when testing R99 or later MS:
Traffic Class
Background
Background
Background
Delivery Order
‘no’
‘no’
‘no’
Delivery of erroneous SDU
‘no’
‘no’
‘no’
Maximum SDU size
150
150
150
Maximum bit rate for uplink
128 kbps
128 kbps
128 kbps
Maximum bit rate for downlink
128 kbps
128 kbps
128 kbps
Residual BER
10-5
10-5
10-5
SDU error ratio
10-6
10-6
10-4
Transfer delay
0
0
0
Traffic Handling priority
0
0
0
Guaranteed bit rate for uplink
0
0
0
Guaranteed bit rate for downlink
0
0
0
Quality of service settings to be used when testing R5 or later MS:
Signalling Indication
0
0
0
Source Statistics Descriptor
0
0
0
Maximum bit rate for downlink (extended)
0
0
0
Guaranteed bit rate for downlink (extended)
0
0
0
Quality of service settings to be used when testing R7 behaviour
Maximum bit rate for uplink (extended)
0
0
0
Guaranteed bit rate for uplink (extended)
0
0
0
NOTE 1: For compatibility purposes when performing R98 tests or earlier it is still allowed for the MS to reqeust Precedence Class 2 (normal) and Mean Throughput Class 16 (10 000 000 octets/h).
NOTE 2: From Rel-8 onwards MS is not expected to support QoS parameter Reliability Class=2. therefore Test PDP contexts 11, 12 and 13 are not required for test cases using packet services.
41 GPRS Paging, TBF establishment/release and DCCH related procedures |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 41.1 RR / Paging | The paging procedure is used by the network to cause the MS to establish either an RR connection for circuit switched services or a downlink GPRS packet transfer. Normally the MS listens to its paging sub-channel when DRX is used, but this can be modified by the use of different page mode. The correct monitoring of its paging sub-channel on PCCCH or CCCH in different control channel configurations and correct implementation of the paging procedure in the MS are essential. They are the test objectives of this subclause. |
683b5b8a98f7b1390ddd5516ea9247a2 | 51.010-1 | 41.1.1 Void |
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