Um Interface and Radio Channels ISSUE
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OMF000001 Um interface and radio channels ISSUE1.4
OMF000001 Um interface and radio channels ISSUE1.4
Wireless Training Department
ContentsContents
Overview
Processing of voice signal
Radio channel
Radio InterfaceRadio Interface
Another MSC
HLR/AUC/LR
SMC
PSTN ISDN
OMC
MS
Um interface
MS
Um
Um
A-bis interface
BSCMSC/VLR
A interface
MAP interface
BTS
MSC
Communication management (CM)Communication management (CM)
Radio resources management (RR)Radio resources management (RR)
Mobility and security management (MM)
Mobility and security management (MM)
Integrated managementIntegrated management
TCH0 TCH1 TCH2 。。 SACCH 。。 TCH23 IDLTCH0 TCH1 TCH2 。。 SACCH 。。 TCH23 IDL
MultiframePhysical link layer (L1)
Data link layer (L2)
Network application layer (L3)
Hierarchical Structure of Um InterfaceHierarchical Structure of Um Interface
RACH BCCH AGCH/PCH SDCCH SACCH TCH FACCH
Radio Access TechnologyRadio Access Technology
Time
FDMA
Frequency
TDMATime
Frequency
CDMA
Frequency
Time
Code
Radio Access TechnologyRadio Access Technology
Time
FDMA
Frequency
TDMATime
Frequency
CDMA
Frequency
Time
Code
ContentsContents
Overview
Processing of voice signal
Radio channel
Voice A/DA/D8KHz, 13bit Speech
codingSpeech coding
SegmentationSegmentation
20ms
13kbit/sChannel codingChannel coding
InterleavingInterleaving Burst formattingBurst formattingEncryptionEncryption
22.8kbit/s
ModulationModulation
33.8kbit/s
Transmission
Voice Signal Processing Voice Signal Processing
Speech CodingSpeech Coding
The coding mode is called Regular Pulse Excited-Long Term
Prediction (RPE-LTP). It works as follow: 8KHZ of sampling is
performed first, then divided into frames with 20ms; every
frame has 4 sub-frames; the duration of every sub-frame is
5ms; and the pure bit rate is 13kbit/s.
Block coderBlock coder
Excited coder
Excited coder
50bit
+3 *2+4
132bit
78bit
456bit
Channel CodingChannel Coding
1 2 3 4 5 6 7 8 ... ... 452 453 454 455 4561 2 3 4 5 6 7 8 ... ... 452 453 454 455 456
B
8
16
.
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456
8
16
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456
2
10
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450
2
10
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450
6
14
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454
6
14
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454
1
9
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449
1
9
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4
12
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4
12
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452
7
15
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455
7
15
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455
3
11
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451
3
11
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451
5
13
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453
5
13
.
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453
.... ....
B0 B1 B2 B3 B4 B5 B6 B7
{A4,B0} {A5,B1} {A6,B2} {A7,B3} {B4,C0} {B5,C1} {B6,C2} {B7,C3}{A4,B0} {A5,B1} {A6,B2} {A7,B3} {B4,C0} {B5,C1} {B6,C2} {B7,C3}
First interleaving:
Second interleaving:
InterleavingInterleaving
InterleavingInterleaving
1 2 3 4 5 6 7 8 ... ... 452 453 454 455 4561 2 3 4 5 6 7 8 ... ... 452 453 454 455 456
B
8
16
.
.
.
456
8
16
.
.
.
456
2
10
.
.
.
450
2
10
.
.
.
450
6
14
.
.
.
454
6
14
.
.
.
454
1
9
.
.
.
449
1
9
.
.
.
449
4
12
.
.
.
452
4
12
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.
452
7
15
.
.
.
455
7
15
.
.
.
455
3
11
.
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.
451
3
11
.
.
.
451
5
13
.
.
.
453
5
13
.
.
.
453
.... ....
B0 B1 B2 B3 B4 B5 B6 B7
{A4,B0} {A5,B1} {A6,B2} {A7,B3} {B4,C0} {B5,C1} {B6,C2} {B7,C3}{A4,B0} {A5,B1} {A6,B2} {A7,B3} {B4,C0} {B5,C1} {B6,C2} {B7,C3}
First interleaving:
Second interleaving:
33 5757 11 2626 11 5757 33
Voice BurstVoice Burst
Transmission delay t
Transmission delay t
TA
The mobile phone should
send the signal in advance!!
Timing Advance (TA)Timing Advance (TA)
Timing Advance (TA)Timing Advance (TA)
Transmission delay t
Transmission delay t
TA
The mobile phone should
send the signal in advance!!
Frequency HoppingFrequency Hopping
Frequency
f 0
Frame
f 1
f 2
f 3
f 4
Time
Frequency HoppingFrequency Hopping
Frequency
f 0
Frame
f 1
f 2
f 3
f 4
Time
Prolong battery life and reduce interference
DTXDTX
DTX: Discontinuous Transmission
Shut off the transmission at voice intervals;
Only transmit SID frames’
The transcoder at the RX terminal produces comfortable noise.
VAD: Voice Activity Detection
Implemented by the transcoder.
DTXDTX
DTX: Discontinuous Transmission
Shut off the transmission at voice intervals;
Only transmit SID frames’
The transcoder at the RX terminal produces comfortable noise.
VAD: Voice Activity Detection
Implemented by the transcoder.
Prolong battery life and reduce interference
Power ControlPower Control
Prolong battery life
Reduce network interference
Include both uplink power control and downlink power control
Level and quality are taken into account
BSC is the final adjudicator
BCCH Carrier is not involved in power control.
Time
Signal level
Target level value:e.g. -85 dm
ContentsContents
Overview
Processing process of voice channel
Radio channel
Frequency
200kHz
BP
15/26ms Slit
Time
Frame and ChannelFrame and Channel
0 1 2 3 2044 2045 2046 2047
0 1 2 3 48 49 5047
0 1 24 25
0 1 24 25 1 49 500
0 1 4 5 762 3
TB3
TB3
GP8.25 TB: Tail bit
TB3
TB3
GP8.25
GP: Guard periodTB3
TB3
GP8.25
TB3
TB3 GP 68.25
58 information bits 26 training sequences 58 information bits
Constant bit 142
Information bit 39 Extended training sequence 64Information bit 39
Synchronous sequence 41 Information bit 36
Normal burst (NB)
Frequency correction burst (FB)
Synchronous burst (SB)
Access burst (AB)
1 hyper frame=2048 super-frames=2715648TDMA frames (3 hours, 28 minutes, 53 seconds and 760 milliseconds)
1 super-frame=1326TDMA frames (6.12 seconds)
1 multiframe=26TDMA frames (120ms) 1 multiframe=51TDMA frames (3060/13ms)
1TDMA frame=8 timeslots (120/26=4.615ms)
1 timeslot=156.25 bit duration (15/26=0.577ms)(1 bit duration: 48/13=3.68us)
BCCHCCCHSDCCH
TCHSACCH/TFACCH
FrameFrame
FrameFrame
0 1 2 3 2044 2045 2046 2047
0 1 2 3 48 49 5047
0 1 24 25
0 1 24 25 1 49 500
0 1 4 5 762 3
TB3
TB3
GP8.25 TB: Tail bit
TB3
TB3
GP8.25
GP: Guard periodTB3
TB3
GP8.25
TB3
TB3 GP 68.25
58 information bits 26 training sequences 58 information bits
Constant bit 142
Information bit 39 Extended training sequence 64Information bit 39
Synchronous sequence 41 Information bit 36
Normal burst (NB)
Frequency correction burst (FB)
Synchronous burst (SB)
Access burst (AB)
1 hyper frame=2048 super-frames=2715648TDMA frames (3 hours, 28 minutes, 53 seconds and 760 milliseconds)
1 super-frame=1326TDMA frames (6.12 seconds)
1 multiframe=26TDMA frames (120ms) 1 multiframe=51TDMA frames (3060/13ms)
1TDMA frame=8 timeslots (120/26=4.615ms)
1 timeslot=156.25 bit duration (15/26=0.577ms)(1 bit duration: 48/13=3.68us)
BCCHCCCHSDCCH
TCHSACCH/TFACCH
8bit 41 synchronous bits
36 encrypted bits 3bit 68.25bit
Tail bit Tail bit Guard intervalData
• Access burst (AB): Used in MS initial access
Guard interval
3bit 142bit 3bit 8.25bit
Tail bit Tail bitData
• Frequency correction burst (FB): Used in frequency synchronization between MS and BTS
3bit 39 encrypted bits
39 encrypted bits
3bit 8.25bit
Tail bit Tail bit Guard intervalDataData
64 synchronous bits
• Synchronous burst (SB): Used in timing synchronization between MS and BTS
BurstBurst
3bit 142 modulation bits 3bit 8.25bit
Tail bit Tail bit Guard interval
• Dummy burst (DB): Used in transmission of filling frames by BTS at timeslots when there is no information delivered
BurstBurst
3bit 57 encrypted bits 57 encrypted bits 3bit 8.25bit
Tail bit Tail bit Guard intervalDataData
26bit1 1
Training sequence
Frame stealing
flag
• Normal burst (NB): Used to carry the information of the traffic channel and the control channel except for RACH
Broadcast control channel (BCCH) Control channel
Common control channel (CCCH)
Voice channel(TCH)
FCH SCH BCCH(system information)
TCH/FAGCH RACH SDCCH FACCH
SACCH
TCH/H
TCH/9.6FTCH/ 4.8F, HTCH/ 2.4F, H
PCH
Common channel (CCH)
Dedicated channel (DCH)
Logical channel
Logical Channel TypeLogical Channel Type
GSM900 and DCS1800 have the same logical channel catego
ry
FCCH
SCH
BCCH
PCH
AGCH
BCCH
CCCH
Common Channel
SDCCH
SACCH
FACCH
TCH/F
TCH/H
DCCH
TCH
Dedicated Channel
Downlink Logical ChannelDownlink Logical Channel
Downlink Logical ChannelDownlink Logical Channel
FCCH
SCH
BCCH
PCH
AGCH
BCCH
CCCH
Common Channel
SDCCH
SACCH
FACCH
TCH/F
TCH/H
DCCH
TCH
Dedicated Channel
RACH CCCH
Common channel
SDCCH
SACCH
FACCH
TCH/F
TCH/H
DCCH
TCH
Dedicated channel
Uplink Logical ChannelUplink Logical Channel
Uplink Logical ChannelUplink Logical Channel
RACH CCCH
Common channel
SDCCH
SACCH
FACCH
TCH/F
TCH/H
DCCH
TCH
Dedicated channel
Use of Logical Channels Use of Logical Channels
Search for frequency correction burst
Search for synchronization sequence
Read system information
Listen paging message
Send access burst
Wait for signaling channel allocation
Call setup
Assign traffic channel
Conversation
Call release
FCCH
SCH
BCCH
PCH
RACH
AGCH
SDCCH
SDCCH
TCH
FACCH
idle mode
“off” state
dedicated mode
idle mode
26-frame multiframeTCH/F+FACCH/F+SACCH/TF (full-rate TCH)
TCH/H+FACCH/H+SACCH/TH (half-rate TCH)
51-frames multiframeFCCH+SCH+BCCH+CCCH (main BCCH)
FCCH+SCH+BCCH+CCCH+SDCCH/4+SACCH/C4 (combined B
CCH)
BCCH+CCCH (extended BCCH)
SDCCH/8+SACCH/C8 (main SDCCH)
Physical Combination of Logical ChannelPhysical Combination of Logical Channel
Structure of Logical Channel Combination Frame-Main BCCH
Structure of Logical Channel Combination Frame-Main BCCH
1 multi-frame (51TDMA Frames) 235.38ms Downlink
Group Group1 Group2
Group3,4
(same as
Group2)
Grpup5
Channel F S BX4 CX4 F S CX4 CX4 …… F S CX4 CX4 I
Frame
Number0 1 2-5 6-9 10 11 12-15 16-19 20-39 40 41 42-45 46-49 50
1 multi-frame (51TDMA Frames) 235.38ms Uplink
Channel R R R R R R R R R R R R R R……R R R R R
Frame
Number0 1 2 3 4 5 6 7 8 9 10 11 12 13-46 47 48 49 50
F:FCCH; S:SCH; B:BCCH; C:CCCH; I:IDLE; R:RACH
Structure of Logical Channel Combination Frame-Combined BCCH
Structure of Logical Channel Combination Frame-Combined BCCH
1 multi-frame (51TDMA Frames) 235.38ms Downlink
Group Group1 Group2 Group3 Group4 Grpup5
Channel F SB×
4
C×
4F S
C×
4
C×
4F S
D0
×4
D1
×4F S
D2
×4
D3
×4F S
A0
×4
A1
×4I
Channel F SB×
4
C×
4F S
C×
4
C×
4F S
D0
×4
D1
×4F S
D2
×4
D3
×4F S
A2
×4
A3
×4I
Frame
Number0 1 2-5 6-9 10 11
12-
15
16-
1920 21
22-
25
26-
2930 31
32-
35
36-
3940 41
42-
45
46-
4950
1 multi-frame (51TDMA Frames) 235.38ms Uplink
Channel D3×4 R R A2×4 A3×4 R……R D0×4 D1×4 R R D2×4
Channel D0×4 R R A0×4 A1×4 R……R D0×4 D1×4 R R D2×4
Frame
Number0-3 4 5 6-9 10-13 14-36 37-40 41-44 45 46 47-50
F:FCCH; S:SCH; B:BCCH; C:CCCH; I:IDLE; R:RACH
Structure of Logical Channel Combination Frame-Main SDCCH
Structure of Logical Channel Combination Frame-Main SDCCH
1 multi-frame (51TDMA Frames) 235.38ms Downlink
Channel D0×4 D1×4 D2×4 D3×4 D4×4 D5×4 D6×4 D7×4 A0×4 A1×4 A2×4 A3×4 I I I
Channel D0×4 D1×4 D2×4 D3×4 D4×4 D5×4 D6×4 D7×4 A4×4 A5×4 A6×4 A7×4 I I I
Frame
Number0-3 4-7 8-11 12-15 16-19 20-23 24-27 28-31 32-35 36-39 40-43 44-47 48 49 50
1 multi-frame (51TDMA Frames) 235.38ms Uplink
ChannelA5×
4A6×4 A7×4 I I I D0×4
D1×
4D2×4 D3×4 D4×4 D5×4 D6×4 D7×4 A0×4
ChannelA1×
4A2×4 A3×4 I I I D0×4
D1×
4D2×4 D3×4 D4×4 D5×4 D6×4 D7×4 A4×4
Frame
Number0-3 4-7 8-11 12 13 14
15-
18
19-
2223-26
27-
3031-34 35-38 39-42 43-46 47-50
F:FCCH; S:SCH; B:BCCH; C:CCCH; I:IDLE; R:RACH
Structure of Logical Channel Combination Frame-TCH
Structure of Logical Channel Combination Frame-TCH
T:TCH; I:IDLE
1 multi-frame (26TDMA Frames) 120ms
Channel T T T T T T T T T T T……T T T T T I
Frame Number 0 1 2 3 4 5 6 7 8 9 10- 20 21 22 23 24 25
PCH RACHAGCH
Downlink CCCH Uplink CCCH
How to determine the total CCCH resources of the cell? How to
allocate AGCH and PCH reasonably?
Configuration of Common Control ChannelConfiguration of Common Control Channel
CCCH GroupingCCCH Grouping
The GSM system supports various kinds of channel
combinations (GPRS not taken into account), in which the
main BCCH, extended BCCH, combined BCCH, and the
BCCH+CBCH combination contain the CCCH, i.e. all of the
four combinations support the MS access. The MS are
distributed to different CCCH groups based on this fact.
CCCH GroupingCCCH Grouping
The GSM specifies that the CCCH can be mapped to
timeslots 0, 2, 4 and 6 but the extended BCCH combination
can only be mapped to timeslots 2, 4 and 6 because it does
not contain FCCH and SCH. Therefore, all MS synchronize
with the base station at timeslot 0 and access the network via
different CCCH.
Paging GroupPaging Group
The GSM system supports a maximum of 99=81 paging
groups. the MS can be divided into 81 sub-groups at most
from the opinion of the paging group. No matter what
combination mode is adopted, the number of blocks used for
paging in every 51 multi-frame does not exceed 9. The
system enables the 51 multi-frame to cycle again , with a
quantity of “BS-PA-MFRAMS” (number of frames of the same
paging) of 51 multi-frames as a period.
Paging GroupPaging Group
In GSM terms, the paging block in any 51 multiframe is called
a paging super-group. Therefore, the number of paging super-
frames in the system is the “number of frames of the same
paging”. The number of paging groups in each super-group is
9 or 3 – “number of access granted reserved blocks”.
Calculation of CCCH and Paging GroupCalculation of CCCH and Paging Group
CCCH group number of MS=[(IMSI mod 1000) mod (BS_CC_
CHANS x N)] div N
Paging group number of MS=[(IMSI mod 1000) mod (BS_CC_
CHANS x N)] mod N
In the formula:
N = Number of paging groups x BS-PA-MFRAMS
IMSI = IMSI number of the mobile phone
mod = Modulo calculation
div = Divide exactly
QuestionsQuestions
What’s the rate of voice coding ?
What are the advantages of
discontinuous transmission (DTX)?
What types of logical channels are
there?