58b.2.3a Concurrent Downlink Multi Carrier TBF / Frequency Hopping

3GPP51.010-1Mobile Station (MS) conformance specificationPart 1: Conformance specificationTS

58b.2.3a.1 Conformance requirement

The Frequency Parameters information element is defined in sub-clause 12.8 and the Dual Carrier Frequency Parameters information element is defined in sub-clause 12.8.2 and the DLMC Frequency Parameters information element is defined in sub-clause 12.8.4. The frequency parameters may use an ARFCN defining a non-hopping radio frequency channel, or use the indirect encoding, direct encoding 1 or direct encoding 2 defining a hopping radio frequency channel.

The indirect encoding defines the assigned set of radio frequency channels by referencing information stored within the mobile station. Such information may be received on PBCCH or BCCH (see sub-clauses 5.5.2.1, 11.2.19, 12.8 and 12.10a and 3GPP TS 44.160,), or be received in a previous assignment message using one of the direct encoding options. An MA_NUMBER identifies which of up to eight stored sets of frequency parameters is to be used. The MA_NUMBER shall use the following coding:

MA_NUMBER = 0-13 shall be used to reference a GPRS mobile allocation received in a PSI2 message;

MA_NUMBER = 14 shall be used to reference a GPRS mobile allocation received in a SI13 or PSI13 message;

MA_NUMBER = 15 shall be used to reference a GPRS mobile allocation received in a previous assignment message using the direct encoding.

When the indirect encoding is used, the network may include a CHANGE_MARK_1 and a CHANGE_MARK_2 in the Frequency Parameters information element. The mobile station shall then verify that it is using a set of PBCCH or BCCH information identified by a PSI or SI change mark corresponding to one of the CHANGE_MARK_1 or 2 parameters, for the decoding of the frequency information. If that is not the case, an abnormal condition occurs.

The direct encoding defines the assigned set of radio frequency channels by using information contained within the assignment message. The direct encoding 1 references the cell allocation or reference frequency lists received on PBCCH for the decoding of this information. The direct encoding 2 is self contained. When the direct encoding 1 or 2 is used, the mobile station shall store the received GPRS mobile allocation for possible later reference in an assignment message using the indirect encoding. Such reference shall be made using the MA_NUMBER = 15.

NOTE: If there is a GPRS mobile allocation associated with MA_NUMBER = 15, the association shall be kept unchanged if the mobile station receives a packet assignment using the indirect encoding (referencing any value of the MA_NUMBER), the frequency parameters are not included in the packet assignment (i.e., in packet transfer mode, dual transfer mode, MAC-Shared state or MAC-DTM state) or the mobile station establishes an RR connection (for A/Gb mode) or is allocated a DBPSCH (for Iu mode).

For the decoding of frequency parameters, the mobile station shall be able to store the following frequency information (see sub-clauses 11.2.19, 12.8 and 12.10a):

– four Reference Frequency Lists received in the PSI2 information and the corresponding RFL_NUMBERs for identification, each RFL having a contents length of up to 18 octets;

– a Cell Allocation received in the PSI2 information referencing up to four RFLs;

– seven GPRS Mobile Allocations received in the PSI2 or the SI13/PSI13 information and the corresponding MA_NUMBERs for identification, each GPRS Mobile Allocation information element having a length of up to 12 octets (96 bits); and

– one GPRS mobile allocation received in an assignment message using direct encoding 1 or 2, consisting of either a GPRS Mobile Allocation information element having a length of up to 12 octets (96 bits) or a MA Frequency List having a contents length of up to 18 octets.

References

3GPP TS 44.060; subclause 5.5.1.7

58b.2.3a.2 Test purpose

To verify that the MS is able to operate a downlink multi carrier TBF with frequency hopping enabled on one or both carriers.

58b.2.3a.3 Method of test

Initial Conditions

System Simulator:

1 cell, EGPRS supported, Downlink Multi Carrier supported,

– For GSM 900, CA in SI1includes the frequencies:

(8, 10, 15, 37, 39, 40, 45, 50)

– For DCS 1800 and PCS 1900, CA in SI1 includes the frequency:

(518, 520, 525, 530, 535, 540, 545, 550)

– For GSM 700, T-GSM810, CA in SI1 includes the frequency:

(455, 457, 465, 467, 475, 477, 485, 487)

– For GSM 850, CA in SI1includes the frequencies:

(145, 159, 160, 161, 162, 163, 164, 165)

System information 13 indicates MA Number with frequency hopping

Mobile Station:

Support for Downlink Multi Carrier indicated in MS Radio Access Capabilities IE.

The MS is in the state "idle, GMM-registered" with a P-TMSI allocated, SPLIT PG CYCLE negotiated, and PDP context 2 activated.

Specific PICS Statements

PIXIT Statements

Test Procedure

SI1, and SI13 message sent to MS to indicate frequency hopping parameters.

The SS send PACKET TIMESLOT RECONFIGURE message indicating Indirect Encoding in frequency parameters on Carrier 1 and 2. The SS shall start to transmit the downlink data to the MS on both carrier. To verify that the MS use the new assigned PDTCH parameter, the downlink data block on carrier 1 has the USF assigned to the MS and the downlink data block on carrier 2 is polled to MS to maintain the uplink TBF. This procedure is repeated on both Carrier 1 and Carrier 2.

The SS send PACKET DOWNLINK ASSIGNMENT message indicating Direct Encoding 1 in frequency parameters on Carrier 1 only using legacy Frequency Parameters IE. The SS shall start to transmit the downlink data to the MS. The MS and SS complete the downlink data transfer. The SS verifies that the MS use the last CA information received on BCCH to decode the Mobile Allocation. The SS assigns an USF The SS checks that the MS sent an uplink data block on carrier 1 and a packet downlink ack/nack with correct SS value in response to the polled.

The SS send PACKET TIMESLOT RECONFIGURE message indicating Direct Encoding 2 in frequency parameters on Carrier 1 only using legacy Frequency Parameters IE and no hopping on Carrier 2. The SS shall start to transmit the downlink data to the MS on both carriers. To verify that the MS use the new assigned PDTCH parameter, the downlink data block on carrier 1 has the USF assigned to the MS and the downlink data block on carrier 2 is polled. The SS checks that the MS sent an uplink data block on carrier 1 and a packet downlink ack/nack with correct SS value in response to the polled

The SS send PACKET TIMESLOT RECONFIGURE message indicating Direct Encoding 2 in frequency parameters on Carrier 1 and Carrier 2. The SS shall start to transmit the downlink data to the MS on both carrier . To verify that the MS use the new assigned PDTCH parameter, the downlink data block on carrier 1 has the USF assigned to the MS and the downlink data block on carrier 2 is polled. The SS checks that the MS sent an uplink data block on carrier 1 and a packet downlink ack/nack with correct SS value in response to the polled

Maximum Duration of Test

5 minutes.

Expected Sequence

Step

Direction

Message

Comments

1

SS

Change SI1, and SI13 message contents . See specific message contents.

2

{Uplink dynamic allocation two phase access}

N = 1000 octets

USF_GRANULARITY = 1 block

EGPRS Channel Coding Command: MCS-1

3

SS -> MS

PACKET DOWNLINK DUMMY CONTROL BLOCK

Sent on the PACCH of the PDCH assigned, containing USF assigned to the MS.

4

MS -> SS

EGPRS UPLINK RLC DATA BLOCK

Received on the assigned PDTCH

SS verifies that the BSN starts from 0, and the correct MCS is used.

5

SS -> MS

PACKET DOWNLINK ASSIGNMENT

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.

Two carriers assigned with no frequency hopping.

Including the polling bit set and a valid RRBP field.

See specific message contents

6

SS

Wait for at least 3 block periods

7

SS -> MS

EGPRS DOWNLINK RLC DATA BLOCK

On carrier 1 with next in sequence BSN (Start with BSN 0). MCS-1. USF assigned to the MS

8

SS -> MS

EGPRS DOWNLINK RLC DATA BLOCK

On carrier 2 with next in sequence BSN

Send on same Radio Block as Data Block Send on Carrier 1. MCS-1.

9

MS -> SS

EGPRS UPLINK RLC DATA BLOCK

Received on the assigned PDTCH on carrier 1.

SS verifies that the correct BSN is received and the correct MCS is used.

10

MS -> SS

EGPRS PACKET DOWNLINK ACK/NACK

Received on the corresponding PACCH.

The SS verifies that the MS acknowledges all the received RLC data blocks.

Initial conditions reached. Concurrent TBF established.

11

SS -> MS

PACKET TIMESLOT RECONFIGURE

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.Using legacy Frequency Parameters IE, Carrier 1 assigned with frequency hopping using Indirect Encoding. Carrier 2 with no frequency hopping.

See specific message contents

12

Repeat step 6-10

13

SS -> MS

PACKET TIMESLOT RECONFIGURE

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.Using legacy Frequency Parameters IE, two carriers assigned with frequency hopping using Indirect Encoding.

See specific message contents

14

Repeat step 6-10

15

SS -> MS

PACKET TIMESLOT RECONFIGURE

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.

Using legacy Frequency Parameters IE, Carrier 1 assigned with frequency hopping using Direct Encoding 1. Carrier 2 with no frequency hopping. See specific message contents

16

Repeat step 6-10

17

SS -> MS

PACKET TIMESLOT RECONFIGURE

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.

Using legacy Frequency Parameters IE, two carriers assigned with frequency hopping using Direct Encoding 1. See specific message contents

18

Repeat step 6-10

19

SS -> MS

PACKET TIMESLOT RECONFIGURE

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.

Using legacy Frequency Parameters IE, Carrier 1 assigned with frequency hopping using Direct Encoding 2. Carrier 2 with no frequency hopping. See specific message contents

20

Repeat step 6-10

21

SS -> MS

PACKET TIMESLOT RECONFIGURE

Sent on PACCH of the PDTCH assigned in Step 2.

Addressing the MS using the UL TFI assigned in Step 2.

Using legacy Frequency Parameters IE, two carriers assigned with frequency hopping using Direct Encoding 2. See specific message contents

22

Repeat step 6-10

23

{Completion of uplink RLC data block transfer}

Specific Message Contents

As default messages contents, except:

SYSTEM INFORMATION Type 1 in step 1

– Cell Allocation ARFCN

For GSM 900: Channel Numbers

(8, 10, 15, 37, 39, 40, 45, 50.

For DCS1800 and PCS 1900: Channel Numbers

(518, 520, 525, 530, 535, 540, 545, 550)

For GSM 700, T-GSM 810: Channel Numbers

(455, 457, 465, 467, 475, 477, 485, 487)

For GSM 850: Channel Numbers

(145, 159, 160, 161, 162, 163, 164, 165)

SYSTEM INFORMATION Type 13 in step 1

<GPRS Mobile Allocations>

GPRS Mobile Allocation IE

<GPRS Mobile Allocation IE>

<HSN>

000001 Sequence 1

<RFL number list>

1 (Present)

<RFL_NUMBER>

0002 List 2

<MA LENGTH>

000111 8 bits

<MA BITMAP>

10101010 4 belonging

0

BCCH not present in cell

PACKET DOWNLINK ASSIGNMENT message in step 5:

Information Element

value/ remark

MESSAGE_TYPE

000010

PAGE_MODE

00 Normal Paging

Persistence Level

0 (no Persistence Level Present)

Referenced Address

Referenced by UL TFI

1

Message Escape Sequence for DLMC…

01

RLC_MODE

0 Acknowledged mode

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present) Arbitrarily chosen based on existing UL carrier 1

{ 1 < CARRIER_SPECIFIC_INFO

< 1st Carrier Specific Info struct >

| 10

Existing carrier changed/new carrier provided

0

BTTI mode

1 TIMESLOT_ALLOCATION

arbitrarily chosen (default timeslot 4)

0

MAIO

1 < P0

0000 0dB

1 PR_MODE

0 PR mode A

1

DOWNLINK_TFI_ASSIGNMENT assign

00001

downlink tfi assigned value

1

<Power Control Parameters>}

1 (Power Control Parameters present for Carrier1)

– ALPHA

0.5

– GAMMA for allocated timeslots

For DCS 1800 and PCS 1900: +6 dBm. For all other bands: +8 dBm

(default timeslot 4)

0

EMST is not used on this carrier

0

EMSR is not used on this carrier

1 < UFPS : < UFPS struct >

2nd UFPS struct

| 10

Existing UFPS changed/new UFPS provided

| 1 < DLMC Frequency Para

< 2nd DLMC Frequency Parameters IE > Present

{ 1 < CARRIER_SPECIFIC_INFO

< 2nd Carrier Specific Info struct >

| 10

Existing carrier changed/new carrier provided

0

BTTI mode

0

same timeslots as the lowest numbered carrier

0

MAIO

0

same P0 and PR_MODE as the lowest numbered carrier

0

same DOWNLINK_TFI_ASSIGNMENT as the lowest numbered carrier

0

same Power Control Parameters as the lowest numbered carrier

0

EMST is not used on this carrier

0

EMSR is not used on this carrier

0

End of CARRIER_SPECIFIC_INFO

0

End of UFPS struct

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

0

Carrier for Interference Measurements

Packet Timing Advance

1

1 (timing advance value)

100000}

32 bit periods indicated

0

0 (no timing advance index or timing advance timeslot number)

0

< Packet Extended Timing Advance

0

< PTCCH_CARRIER

0

< PDAN Coding >

0

< Extended SNS >

0

< BEP_PERIOD2

0

< PFI

0

< NPM Transfer Time

0

Fast Ack/Nack Reporting

00

< Downlink EGPRS Level

0

< Indication of Upper Layer PDU Start for RLC UM

0

< EGPRS Packet Downlink Ack/Nack Type 3 Support

Spare padding

Spare Padding

PACKET TIMESLOT RECONFIGURE in Step 11

Information Element

value/ remark

MESSAGE_TYPE

0 00111

PAGE_MODE

00 Normal Paging

GLOBAL_TFI

UL_TFI assigned in Step 1

10

escape for Downlink Multi Carrier, BTTI using FANR, EGPRS2, RTTI

DOWNLINK_RLC_MODE

0

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present)

TSC

Arbitrarily chosen

01 < DLMC Indirect encoding

MA_NUMBER

1110

1< CHANGE_MARK_1

As assigned in step 1

0 | 1 < CHANGE_MARK_2

0 (Not present)

1 < UFPS : < UFPS struct >

2st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

No frequency hopping

TSC

Arbitrarily chosen

ARFCN

Arbitrarily chosen (ARFCN of C1 and C2 must be different in any given frame)

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

Carrier for Interference Measurements

0

Global Packet Timing advance

– {0|1 <TIMING_ADVANCE_VALUE>}

1 (timing advance value)

– TIMING_ADVANCE_VALUE

30 bit periods

Packet Extended Timing Advance

0

PTCCH_CARRIER

0

CONTROL_ACK

0

PDAN Coding

0

Extended SNS

0

BEP_PERIOD2

0

PFI of downlink TBF

0

Downlink NPM Transfer Time

0

indicates Fast Ack/Nack Reporting is activated for downlink TBF

0

Downlink EGPRS Level

No change

Indication of Upper Layer PDU Start for RLC UM

0

EGPRS Packet Downlink Ack/Nack Type 3 Support

0

EGPRS Channel Coding Command

0 MCS1

RESEGMENT

0

1 < DLMC UL Carrier struct >

1st DLMC UL struct

| 01

Carrier remains unchanged (no information provided

UPLINK EGPRS Window Size 

0

UPLINK_TFI_ASSIGNMENT

PFI of uplink TBF

0

UPLINK_RLC_MODE

0

Uplink NPM Transfer Time

0

indicates that FANR is activated

0

Uplink EGPRS Level

default

Pulse Format

0

Enhanced Flexible Timeslot Assignment

0

Uplink Control Timeslot

0

PACKET TIMESLOT RECONFIGURE in Step 13

Information Element

value/ remark

MESSAGE_TYPE

0 00111

PAGE_MODE

00 Normal Paging

GLOBAL_TFI

UL_TFI assigned in Step 1

10

escape for Downlink Multi Carrier, BTTI using FANR, EGPRS2, RTTI

DOWNLINK_RLC_MODE

0

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present)

TSC

Arbitrarily chosen

01 < DLMC Indirect encoding

Indirect encoding present

MA_NUMBER

1110

1< CHANGE_MARK_1

As assigned in step 1

0 | 1 < CHANGE_MARK_2

0 (Not present)

1 < UFPS : < UFPS struct >

2st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

TSC

Arbitrarily chosen

01 < DLMC Indirect encoding

Indirect encoding present

MA_NUMBER

1110

1< CHANGE_MARK_1

As assigned in step 1

0 | 1 < CHANGE_MARK_2

0 (Not present)

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

Carrier for Interference Measurements

0

Global Packet Timing advance

– {0|1 <TIMING_ADVANCE_VALUE>}

1 (timing advance value)

– TIMING_ADVANCE_VALUE

30 bit periods

Packet Extended Timing Advance

0

PTCCH_CARRIER

0

CONTROL_ACK

0

PDAN Coding

0

Extended SNS

0

BEP_PERIOD2

0

PFI of downlink TBF

0

Downlink NPM Transfer Time

0

indicates Fast Ack/Nack Reporting is activated for downlink TBF

0

Downlink EGPRS Level

No change

Indication of Upper Layer PDU Start for RLC UM

0

EGPRS Packet Downlink Ack/Nack Type 3 Support

0

EGPRS Channel Coding Command

0 MCS1

RESEGMENT

0

1 < DLMC UL Carrier struct >

1st DLMC UL struct

| 01

Carrier remains unchanged (no information provided

UPLINK EGPRS Window Size 

0

UPLINK_TFI_ASSIGNMENT

PFI of uplink TBF

0

UPLINK_RLC_MODE

0

Uplink NPM Transfer Time

0

indicates that FANR is activated

0

Uplink EGPRS Level

default

Pulse Format

0

Enhanced Flexible Timeslot Assignment

0

Uplink Control Timeslot

0

PACKET TIMESLOT RECONFIGURE in Step 15

Information Element

value/ remark

MESSAGE_TYPE

0 00111

PAGE_MODE

00 Normal Paging

GLOBAL_TFI

UL_TFI assigned in Step 1

10

escape for Downlink Multi Carrier, BTTI using FANR, EGPRS2, RTTI

DOWNLINK_RLC_MODE

0

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present)

TSC

Arbitrarily chosen

10 < DLMC Direct encoding 1g

1 Direct encoding present

< GPRS Mobile Allocation IE

As assigned in step 1

1 < UFPS : < UFPS struct >

2st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

No frequency hopping

TSC

Arbitrarily chosen

ARFCN

Arbitrarily chosen (ARFCN of C1 and C2 must be different in any given frame)

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

Carrier for Interference Measurements

0

Global Packet Timing advance

– {0|1 <TIMING_ADVANCE_VALUE>}

1 (timing advance value)

– TIMING_ADVANCE_VALUE

30 bit periods

Packet Extended Timing Advance

0

PTCCH_CARRIER

0

CONTROL_ACK

0

PDAN Coding

0

Extended SNS

0

BEP_PERIOD2

0

PFI of downlink TBF

0

Downlink NPM Transfer Time

0

indicates Fast Ack/Nack Reporting is activated for downlink TBF

0

Downlink EGPRS Level

No change

Indication of Upper Layer PDU Start for RLC UM

0

EGPRS Packet Downlink Ack/Nack Type 3 Support

0

EGPRS Channel Coding Command

0 MCS1

RESEGMENT

0

1 < DLMC UL Carrier struct >

1st DLMC UL struct

| 01

Carrier remains unchanged (no information provided

UPLINK EGPRS Window Size 

0

UPLINK_TFI_ASSIGNMENT

PFI of uplink TBF

0

UPLINK_RLC_MODE

0

Uplink NPM Transfer Time

0

indicates that FANR is activated

0

Uplink EGPRS Level

default

Pulse Format

0

Enhanced Flexible Timeslot Assignment

0

Uplink Control Timeslot

0

PACKET TIMESLOT RECONFIGURE in Step 17

Information Element

value/ remark

MESSAGE_TYPE

0 00111

PAGE_MODE

00 Normal Paging

GLOBAL_TFI

UL_TFI assigned in Step 1

10

escape for Downlink Multi Carrier, BTTI using FANR, EGPRS2, RTTI

DOWNLINK_RLC_MODE

0

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present)

TSC

Arbitrarily chosen

10 < DLMC Direct encoding 1g

1 Direct encoding present

< GPRS Mobile Allocation IE

As assigned in step 1

1 < UFPS : < UFPS struct >

2st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

TSC

Arbitrarily chosen

10 < DLMC Direct encoding 1g

1 Direct encoding present

< GPRS Mobile Allocation IE

As assigned in step 1

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

Carrier for Interference Measurements

0

Global Packet Timing advance

– {0|1 <TIMING_ADVANCE_VALUE>}

1 (timing advance value)

– TIMING_ADVANCE_VALUE

30 bit periods

Packet Extended Timing Advance

0

PTCCH_CARRIER

0

CONTROL_ACK

0

PDAN Coding

0

Extended SNS

0

BEP_PERIOD2

0

PFI of downlink TBF

0

Downlink NPM Transfer Time

0

indicates Fast Ack/Nack Reporting is activated for downlink TBF

0

Downlink EGPRS Level

No change

Indication of Upper Layer PDU Start for RLC UM

0

EGPRS Packet Downlink Ack/Nack Type 3 Support

0

EGPRS Channel Coding Command

0 MCS1

RESEGMENT

0

1 < DLMC UL Carrier struct >

1st DLMC UL struct

| 01

Carrier remains unchanged (no information provided

UPLINK EGPRS Window Size 

0

UPLINK_TFI_ASSIGNMENT

PFI of uplink TBF

0

UPLINK_RLC_MODE

0

Uplink NPM Transfer Time

0

indicates that FANR is activated

0

Uplink EGPRS Level

default

Pulse Format

0

Enhanced Flexible Timeslot Assignment

0

Uplink Control Timeslot

0

PACKET TIMESLOT RECONFIGURE in Step 19

Information Element

value/ remark

MESSAGE_TYPE

0 00111

PAGE_MODE

00 Normal Paging

GLOBAL_TFI

UL_TFI assigned in Step 1

10

escape for Downlink Multi Carrier, BTTI using FANR, EGPRS2, RTTI

DOWNLINK_RLC_MODE

0

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present)

TSC

Arbitrarily chosen

11 < DLMC Direct encoding 2

1 Direct encoding 2 present

HSN

000001 (Sequence 1)

Length of MA Frequency List contents

Length of frequency list chosen according to length of MA frequency list content

MA Frequency List contents

For GSM900 in Range 128

(10, 30, 40, 50, 60, 70)

For DCS 1800 and PCS 1900 in range 512

(520, 530, 540, 550, 560, 570, 580, 600, 610)

For GSM700, T-GSM 810 range 512

(447, 462, 467, 475, 477, 480, 485, 492, 498, 504)

For GSM 850, in Range 512

(137, 157, 167, 177, 187, 197, 207, 217, 227)

1 < UFPS : < UFPS struct >

2st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

No frequency hopping

TSC

Arbitrarily chosen

ARFCN

Arbitrarily chosen (ARFCN of C1 and C2 must be different in any given frame)

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

Carrier for Interference Measurements

0

Global Packet Timing advance

– {0|1 <TIMING_ADVANCE_VALUE>}

1 (timing advance value)

– TIMING_ADVANCE_VALUE

30 bit periods

Packet Extended Timing Advance

0

PTCCH_CARRIER

0

CONTROL_ACK

0

PDAN Coding

0

Extended SNS

0

BEP_PERIOD2

0

PFI of downlink TBF

0

Downlink NPM Transfer Time

0

indicates Fast Ack/Nack Reporting is activated for downlink TBF

0

Downlink EGPRS Level

No change

Indication of Upper Layer PDU Start for RLC UM

0

EGPRS Packet Downlink Ack/Nack Type 3 Support

0

EGPRS Channel Coding Command

0 MCS1

RESEGMENT

0

1 < DLMC UL Carrier struct >

1st DLMC UL struct

| 01

Carrier remains unchanged (no information provided

UPLINK EGPRS Window Size 

0

UPLINK_TFI_ASSIGNMENT

PFI of uplink TBF

0

UPLINK_RLC_MODE

0

Uplink NPM Transfer Time

0

indicates that FANR is activated

0

Uplink EGPRS Level

default

Pulse Format

0

Enhanced Flexible Timeslot Assignment

0

Uplink Control Timeslot

0

PACKET TIMESLOT RECONFIGURE in Step 21

Information Element

value/ remark

MESSAGE_TYPE

0 00111

PAGE_MODE

00 Normal Paging

GLOBAL_TFI

UL_TFI assigned in Step 1

10

escape for Downlink Multi Carrier, BTTI using FANR, EGPRS2, RTTI

DOWNLINK_RLC_MODE

0

CONTROL_ACK

0

1 < UFPS : < UFPS struct >

1st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

| 1 < DLMC Frequency Para

< 1st DLMC Frequency Parameters IE > (Present)

TSC

Arbitrarily chosen

11 < DLMC Direct encoding 2

1 Direct encoding 2 present

HSN

000001 (Sequence 1)

Length of MA Frequency List contents

Length of frequency list chosen according to length of MA frequency list content

MA Frequency List contents

For GSM900 in Range 128

(10, 30, 40, 50, 60, 70)

For DCS 1800 and PCS 1900 in range 512

(520, 530, 540, 550, 560, 570, 580, 600, 610)

For GSM700, T-GSM 810 range 512

(447, 462, 467, 475, 477, 480, 485, 492, 498, 504)

For GSM 850, in Range 512

(137, 157, 167, 177, 187, 197, 207, 217, 227)

1 < UFPS : < UFPS struct >

2st UFPS struct

| 10

Existing UFPS changed/new UFPS provided

Frequency hopping enabled

TSC

Arbitrarily chosen

11 < DLMC Direct encoding 2

1 Direct encoding 2 present

HSN

Arbitrarily chosen (ARFCN of C1 and C2 must be different in any given frame)

Length of MA Frequency List contents

Length of frequency list chosen according to length of MA frequency list content

MA Frequency List contents

For GSM900 in Range 128

(10, 30, 40, 50, 60, 70)

For DCS 1800 and PCS 1900 in range 512

(520, 530, 540, 550, 560, 570, 580, 600, 610)

For GSM700, T-GSM 810 range 512

(447, 462, 467, 475, 477, 480, 485, 492, 498, 504)

For GSM 850, in Range 512

(137, 157, 167, 177, 187, 197, 207, 217, 227)

DLMC Measurement Type

0

< LINK_QUALITY_MEASUREMENT_MODE

00

Carrier for Interference Measurements

0

Global Packet Timing advance

– {0|1 <TIMING_ADVANCE_VALUE>}

1 (timing advance value)

– TIMING_ADVANCE_VALUE

30 bit periods

Packet Extended Timing Advance

0

PTCCH_CARRIER

0

CONTROL_ACK

0

PDAN Coding

0

Extended SNS

0

BEP_PERIOD2

0

PFI of downlink TBF

0

Downlink NPM Transfer Time

0

indicates Fast Ack/Nack Reporting is activated for downlink TBF

0

Downlink EGPRS Level

No change

Indication of Upper Layer PDU Start for RLC UM

0

EGPRS Packet Downlink Ack/Nack Type 3 Support

0

EGPRS Channel Coding Command

0 MCS1

RESEGMENT

0

1 < DLMC UL Carrier struct >

1st DLMC UL struct

| 01

Carrier remains unchanged (no information provided

UPLINK EGPRS Window Size 

0

UPLINK_TFI_ASSIGNMENT

PFI of uplink TBF

0

UPLINK_RLC_MODE

0

Uplink NPM Transfer Time

0

indicates that FANR is activated

0

Uplink EGPRS Level

default

Pulse Format

0

Enhanced Flexible Timeslot Assignment

0

Uplink Control Timeslot

0