SlideShare uma empresa Scribd logo

Channelconfih s9

Transferir como PPTX, PDF
Tempus Telcosys
Tempus Telcosys

Introduction Channel Configuration Idle Mode Operation Protocols Radio resources Measurements Power Control HO process Intelligent Underlay Overlay Handover Support for Coverage Enhanchements The extended cell Dynamic Hotspot Dual band GSM/DCS Network Operation Half Rate HSCSD

EducaçãoTecnologiaNegócios
1 de 29
1www.TempusTelcosys.com Telecom Tutorials
Base Station Subsystem Parameters BSSPAR for S9 Radio Network Planning
 09:00 Start  11:00 Coffee break 15 min.  12:30 Lunch break  13:30 Afternoon start  15:30 Coffee break 15 min.  17:00 Finish  Two days will be the same.
•Introduction •Channel Configuration •Idle Mode Operation •Protocols •Radio resources •Measurements •Power Control •HO process •Intelligent Underlay Overlay •Handover Support for Coverage Enhanchements •The extended cell •Dynamic Hotspot •Dual band GSM/DCS Network Operation •Half Rate •HSCSD
• Time Slots • Burst 2 Signaling Channels 1 TDMA frame • TCH/F, TACH • SDCCH/8, SDCCH/4, CBCH ( 2nd phase GSM ) • BCCH/CCCH 3 Traffic Channels 4 Parameters • Logical Channels
0 1 2 24 25 0 1 2 49 50 0 7 Hyperframe = 2048 Superframes Superframe = 26x51 or 51x26 Multiframes 26 Multiframe = 120 ms 51 Multiframe = 235 ms TDMA frame = 4.615 ms TCH SIGN.
0 7 TDMA frame = 4.615 ms = BURST PERIOD 0 0 0 f s
BSS -> MS BCH CCCH FCCH SCH BCCH PCH AGCH DCCH TCH SDCCH SACCH FACCH TCH TCH COMMON CHANNELS DEDICATED CHANNELS
MS -> BSS CCCH RACH DCCH TCH SDCCH SACCH FACCH TCH TCH COMMON CHANNELS DEDICATED CHANNELS
CHANNEL CONFIGURATIONS Configuration of Signalling Channels 0 7 Separated Configuration Combined Configuration 0 7 ts0=bcch/pch/agchts1=sdcch/8 ts0=bcch/sdcch/4/pch/agch
f s bb bbc fc fc scc cc cc cc fc fs t t t t tt t t f ft t t t tt t t fs fs ss s ss s ss t t tt r r s fs ss ss sr r rr r r rs fr r r r r rr r r r fr r r r tr t t tr ft t t r tr t tt Downlink Uplink CHANNELS f = FCCH b = BCCH r = RACH i=idle s = SCH/SACCH c = CCCH t = SDCCH/4 51 TDMA frames = 235 ms t 0 50 1. 2. 3. 4. i
f s bb bbc fc fc sc cc c cc c c fc fsc ccc cc cc f fc ccc cc c c fs fc c cc cc c cs r r rr r r r fr rr r r r r r rr r r rr fr r r r r rr r r r fr r r r rr r r rr fr r r r rr r rr Downlink Uplink CHANNELS f = FCCH b = BCCH r = RACH i=idle s = SCH c = CCCH = PCH/AGCH 51 TDMA frames = 235 ms r 0 50 i
t t tt t t t ft tt t t t t t tt t t tt ft t t t t tt t t t fs s s s ss s ss fss ss ss ss ss s ss fs ss s t tt t t ts ft t t t t tt t t t ft t t t tt t t tt ft t t t tt t tt Downlink Uplink CHANNELS t = SDCCH/8 s = SACCH/8 i=idle t t 51 TDMA frames = 235 ms s 1. 2. 3. 5. 6. 7. 8.4. 0 50 iii iii
f s bb bbc fc fc sc cc c cc c c fc fsc ccc cc cc f fc ccc cc c c fs fc c cc cc c cs BCCH/CCCH CHANNELS f = FCCH b = BCCH t = SDCCH/4 i=idle s = SCH/SACCH c = CCCH = PCH/AGCH 51 TDMA frames = 235 ms f s bb bbc fc fc sc cc c cc c c fc fst t t t tt t t f ft t t t tt t t fs fs s ss ss s ss 1 2 3 4 5 6 7 8 9 1 2 3 BCCH/SDCCH/4 i i
t t tt t t t ft tt t t tt t t tt ft t t tt Downlink and Uplink CHANNELS t = TCH s = SACCH i=idle ts 26 TDMA frames = 120 ms 0 25 i
Downlink and Uplink CHANNELS t = TCH s = SACCH i=idle 26 TDMA frames = 120 ms 0 25 Downlink and Uplink CHANNELS t = TCH s = SACCH i=idle 26 TDMA frames = 120 ms 0 25 t t tt t t t t tt t t tt t t tt tt t ttt t t tt t t t t tt t t tt t t tt tt t ttt s t i t
• Location updates • Short Message Service • Queuing (in Call Set-up) • Call Establishment SDCCH used in
 Example (Call establishment and Location Update included) ◦ Call Establishment  2 TRXs / Cell ~ 8,11 Erl / Cell (1% Blocking probability)  1,5 min / Subs / BH = 25 mErl. / Subs  8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell  Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) ◦ Location Update  Location Updates once in 60 minutes ( parameter timerPeriodicUpdateMS )  325 Subs / Cell  SDCCH reservation time for Location Update = 7 sec = 1,94 mErl ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH)  Call Establishment and Location Update together ◦ 0,632 Erl + 0,632 Erl = 1,261 Erl / Cell ◦ With 1% Blocking Probability ( Erlang B table ) => 5 SDCCH / Cell  Combined BCCH/SDCCH channel structure is not possible in this case !  Separate Configuration (1 BCCH/CCCH and 1 SDCCH/8) is needed!
Chs 1% 2% 3% 5% Chs 1% 2% 3% 5% 1 0.01 0.02 0.03 0.05 21 12.80 14.00 14.90 16.20 2 0.15 0.22 0.28 0.38 22 13.70 14.90 15.80 17.10 3 0.46 0.60 0.72 0.90 23 14.50 15.80 16.70 18.10 4 0.87 1.09 1.26 1.52 24 15.30 16.60 17.60 19.00 5 1.36 1.66 1.88 2.22 25 16.10 17.50 18.50 20.00 6 1.91 2.28 2.54 2.96 26 17.00 18.40 19.40 20.90 7 2.50 2.94 3.25 3.75 27 17.80 19.30 20.30 21.90 8 3.13 3.63 3.99 4.54 28 18.60 20.20 21.20 22.90 9 3.78 4.34 4.75 5.37 29 19.50 21.00 22.10 23.80 10 4.46 5.08 5.53 6.22 30 20.30 21.90 23.10 24.80 11 5.16 5.84 6.33 7.08 31 21.20 22.80 24.00 25.80 12 5.88 6.61 7.14 7.95 32 22.00 23.70 24.90 26.70 13 6.61 7.40 7.97 8.83 33 22.90 24.60 25.80 27.70 14 7.35 8.20 8.80 9.73 34 23.80 25.50 26.80 28.70 15 8.11 9.01 9.65 10.60 35 24.60 26.40 27.70 29.70 16 8.88 9.83 10.50 11.50 36 25.50 27.30 28.60 30.70 17 9.65 10.70 11.40 12.50 37 26.40 28.30 29.60 31.60 18 10.40 11.50 12.20 13.40 38 27.30 29.20 30.50 32.60 19 11.20 12.30 13.10 14.30 39 28.10 30.10 31.50 33.60 20 12.00 13.20 14.00 15.20 40 29.00 31.00 32.40 34.60
 Example (Call establishment and Location Update included) ◦ Call Establishment  2 TRXs / Cell ~ 8,11 Erl / Cell (1% Blocking probability)  1,5 min / Subs / BH = 25 mErl. / Subs  8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell  Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) ◦ Location Update  Location Updates once in 120 minutes ( parameter timerPeriodicUpdateMS )  325 Subs / Cell  SDCCH reservation time for Location Update = 7 sec = 1,94 mErl ◦ => 325 Calls / Cell * 1,94 mErl / Call * 1/2 = 0,31525 Erl / Cell (SDCCH)  Call Establishment and Location Update together ◦ 0,6305 Erl/Cell + 0,31525 Erl/Cell = 0,94575 Erl/Cell (SDCCH) ◦ With 1% Blocking Probability ( Erlang B table ) => ~ 4 SDCCH / Cell  Combined BCCH/SDCCH channel structure is possible in this case !
 Example (Call establishment and Location Update included) ◦ Call Establishment  2 TRXs / Cell ~ 8,11 Erl / Cell (1% Blocking probability)  1,5 min / Subs / BH = 25 mErl. / Subs  8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell  Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) ◦ Location Update  Location Updates once in 120 minutes ( parameter timerPeriodicUpdateMS )  325 Subs / Cell  SDCCH reservation time for Location Update = 7 sec = 1,94 mErl ◦ => 325 Calls / Cell * 1,94 mErl / Call * 1/2 = 0,31525 Erl / Cell (SDCCH) ◦ SMS  SMS traffic estimation 1.0 mErl / subscriber ◦ => 325 Calls / Cell * 1 mErl / Call = 0,325 Erl / Cell (SDCCH)  Call Establishment, Location Update and SMS together ◦ 0,6305 Erl/Cell + 0,31525 Erl/Cell + 0,325 Erl/Call = 1,27075Erl/Cell (SDCCH) ◦ With 1% Blocking Probability ( Erlang B table ) => ~ 5 SDCCH / Cell  Separated channel structure is possible in this case
 Example ◦ Combined BCCH / SDCCH Configuration ◦ One Block Reserved for AGCH => 2 Blocks for PCH ◦ Paged Mobile Stations per Paging_Request Message : From 2 to 4, in Average 3 ◦ In Average 2 Pages per Mobile Station ◦ 3 Pages/Blocks * 2 Blocks = 6 Pages every 51-frames Multiframe ( 235 ms. ) ◦ 2 Pages / Paged MS => 3 Paged MS every 235 ms. ◦ ( ( 3600 * 1000 ) / 235 ) * 3 = 45.957 Paged MS per Hour.  Worst Case ◦ All Transactions are Mobile Terminating ◦ All Cells in Location Area get the same PCH Load  Capacity ◦ With one TRX 2,95 Erl. ◦ 25 mErl. / subs. => 120 subscribers BTS MS Paging_Request BTS 3MS 2 Paging_Request Capacity of PCH calculated for a Location Area
f s bb bbc fc fc sc cc c cc c c fc fsc cc c cc cc f fc ccc cc c c fs fc c cc cc c cs BCCH/CCCH CHANNELS f = FCCH b = BCCH t = SDCCH/4 s = SCH/SACCH c = CCCH = PCH/AGCH 51 TDMA frames = 235 ms f s bb bbc fc fc sc cc c cc c c fc fst t t t tt t t f ft t t t tt t t fs fs s ss ss s ss 1 2 3 4 5 6 7 8 9 1 2 3 BCCH/SDCCH/4
numberOfBlocksForAccessGrant= 0 , setting • Pages used to have always priority in CCCH blocks no matter what numberOfBlocksForAccessGrant setting was. • Now ,If numberOfBlocksForAccessGrant =0 then AGCH messages would have priority over PCH messages. • If numberOfBlocksForAccessGrant <> 0 then PCH messages would have priority over AGCH messages . Thus capacity can be dynamically shared between PCH and AGCH => better throughput for PCH especially for combined- BCCH
Buffering improvements •With S8 also there improvements to the buffering mechanism in order to improve the paging delays.
 # of 51 TDMA frame multiframes (2..9) between transmissions of Paging_Request messages to mobiles of the same paging group. # of paging groups = numberOfBlocksForAccessGrant * noOMultiframesBetweenPaging =====> Page / group every 2 ... 9 * 235 ms = 0.47 ... 2.115 s  Mobile Station calculates its Paging Group based on IMSI and on the Number of Paging Groups.
 Affects of the # of the Paging Groups ◦ Battery Consumption of the Mobile Station ◦ Speed of Call Setups
Number of retransmission = maxNumberRetransmission (1, 2, 4, 7) window = numberOfSlotsSpreadTrans (3 ... 12, 14, 16, 20, 25, 32, 50) 0 0 1 RACH (Re)transmission during the window => Total time for RACH = maxNumberRetransmission * numberOfSLotsSpreadTrans +... TDMA-frames
noOfMultiframesBetweenPaging 2 ... 9 numberOfBlocksForAccessGrant 0 ... 7 (if BCCH/CCCH used) 1 ... 7 (if CBCH used on SDCCH/8) 0 ... 2 (if combined BCCH/SDCCH used) maxNumberRetransmission 1, 2, 4, 7 (RACH control) numberOfSlotsSpreadTrans 3 ... 12, 14, 16, 20, 25, 32, 50 (RACH control) pagingAnsOnFacch Y/N emerCallOnFacch Y/N ordinaryCallOnFacch Y/N restablishCallOnFacch Y/N newEstabCausesSupport Y/N (FACCH set up allowed) => in the BTS Parameters Value in the BSC Ph. 2

Recomendados

Ch 04 HANDOVER_gvl
Ch 04 HANDOVER_gvlCh 04 HANDOVER_gvl
Ch 04 HANDOVER_gvl
Tempus Telcosys
 
BSS Dimensioning
BSS DimensioningBSS Dimensioning
BSS Dimensioning
Tempus Telcosys
 
ORG010202 CDMA 1x Handoff Algorithm
ORG010202 CDMA 1x Handoff AlgorithmORG010202 CDMA 1x Handoff Algorithm
ORG010202 CDMA 1x Handoff Algorithm
Tempus Telcosys
 
Modul 5 bss parameter
Modul 5 bss parameterModul 5 bss parameter
Modul 5 bss parameter
Wijaya Kusuma
 
Modul 4 signalling dimensioning
Modul 4 signalling dimensioningModul 4 signalling dimensioning
Modul 4 signalling dimensioning
Wijaya Kusuma
 
Modul 2 gsm air interface
Modul 2 gsm air interfaceModul 2 gsm air interface
Modul 2 gsm air interface
Wijaya Kusuma
 
Bss par
Bss parBss par
Bss par
Rakesh Solanki
 
Nokia dictionary
Nokia dictionaryNokia dictionary
Nokia dictionary
Jetal Patel
 

Recomendados

Ch 04 HANDOVER_gvl
Ch 04 HANDOVER_gvlCh 04 HANDOVER_gvl
Ch 04 HANDOVER_gvl
Tempus Telcosys
 
BSS Dimensioning
BSS DimensioningBSS Dimensioning
BSS Dimensioning
Tempus Telcosys
 
ORG010202 CDMA 1x Handoff Algorithm
ORG010202 CDMA 1x Handoff AlgorithmORG010202 CDMA 1x Handoff Algorithm
ORG010202 CDMA 1x Handoff Algorithm
Tempus Telcosys
 
Modul 5 bss parameter
Modul 5 bss parameterModul 5 bss parameter
Modul 5 bss parameter
Wijaya Kusuma
 
Modul 4 signalling dimensioning
Modul 4 signalling dimensioningModul 4 signalling dimensioning
Modul 4 signalling dimensioning
Wijaya Kusuma
 
Modul 2 gsm air interface
Modul 2 gsm air interfaceModul 2 gsm air interface
Modul 2 gsm air interface
Wijaya Kusuma
 
Bss par
Bss parBss par
Bss par
Rakesh Solanki
 
Nokia dictionary
Nokia dictionaryNokia dictionary
Nokia dictionary
Jetal Patel
 
2 g parameters_guidelines1
2 g parameters_guidelines12 g parameters_guidelines1
2 g parameters_guidelines1
James Mutuku
 
dual_band_features
dual_band_featuresdual_band_features
dual_band_features
mohammad ali amini
 
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
fdr1975
 
coverage_enhancement
coverage_enhancementcoverage_enhancement
coverage_enhancement
mohammad ali amini
 
BASIC GSM
BASIC GSMBASIC GSM
BASIC GSM
Tempus Telcosys
 
1 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.00
1 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.001 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.00
1 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.00
Ahmed Gad
 
c1 & c2 values
c1 & c2 values c1 & c2 values
c1 & c2 values
Virender Aswal
 
idle mode_operation_v1.1_chema
idle mode_operation_v1.1_chema idle mode_operation_v1.1_chema
idle mode_operation_v1.1_chema
mohammad ali amini
 
GSM Idle Mode Behavior
GSM Idle Mode BehaviorGSM Idle Mode Behavior
GSM Idle Mode Behavior
Md Mustafizur Rahman
 
Meid overview
Meid overviewMeid overview
Meid overview
Phuoc Phuoc
 
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Simon Aja
 
Events in tems products
Events in tems productsEvents in tems products
Events in tems products
To Anh
 
08102014_Huawei handovers-handover-algo
08102014_Huawei handovers-handover-algo08102014_Huawei handovers-handover-algo
08102014_Huawei handovers-handover-algo
herobinh
 
Huawei UMTS Inter-rat cs THD trial
Huawei UMTS Inter-rat cs THD trialHuawei UMTS Inter-rat cs THD trial
Huawei UMTS Inter-rat cs THD trial
A Sahab
 
Sdcch 121130233301-phpapp02
Sdcch 121130233301-phpapp02Sdcch 121130233301-phpapp02
Sdcch 121130233301-phpapp02
Rasim Levashov
 
Lecture intro to_wcdma
Lecture intro to_wcdmaLecture intro to_wcdma
Lecture intro to_wcdma
Gurpreet Singh
 
Part 2 planning of 3G
Part 2 planning of 3GPart 2 planning of 3G
Part 2 planning of 3G
Henry Chikwendu
 
Modul 7 gprs operation
Modul 7 gprs operationModul 7 gprs operation
Modul 7 gprs operation
Wijaya Kusuma
 
Part 3 optimization 3G
Part 3 optimization 3GPart 3 optimization 3G
Part 3 optimization 3G
Henry Chikwendu
 
GSM Channel concept and SDCCH
GSM Channel concept and SDCCHGSM Channel concept and SDCCH
GSM Channel concept and SDCCH
Deepak Joshi
 
C cf radio propagation theory and propagation models
C cf radio propagation theory and propagation modelsC cf radio propagation theory and propagation models
C cf radio propagation theory and propagation models
Tempus Telcosys
 
CDMA1X Pilot Panorama introduction
CDMA1X Pilot Panorama introductionCDMA1X Pilot Panorama introduction
CDMA1X Pilot Panorama introduction
Tempus Telcosys
 

Mais conteúdo relacionado

Mais procurados

Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
fdr1975
 
BASIC GSM
BASIC GSMBASIC GSM
BASIC GSM
Tempus Telcosys
 
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Simon Aja
 

Mais procurados (20)

2 g parameters_guidelines1
2 g parameters_guidelines12 g parameters_guidelines1
2 g parameters_guidelines1
 
dual_band_features
dual_band_featuresdual_band_features
dual_band_features
 
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
Day1 slot3 br radio configuration assessment and bss radio configurationv0.4
 
coverage_enhancement
coverage_enhancementcoverage_enhancement
coverage_enhancement
 
BASIC GSM
BASIC GSMBASIC GSM
BASIC GSM
 
1 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.00
1 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.001 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.00
1 omo112050 bsc6000 gsm v9 r8c12 cell parameters issue1.00
 
c1 & c2 values
c1 & c2 values c1 & c2 values
c1 & c2 values
 
idle mode_operation_v1.1_chema
idle mode_operation_v1.1_chema idle mode_operation_v1.1_chema
idle mode_operation_v1.1_chema
 
GSM Idle Mode Behavior
GSM Idle Mode BehaviorGSM Idle Mode Behavior
GSM Idle Mode Behavior
 
Meid overview
Meid overviewMeid overview
Meid overview
 
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
Bsspar1 s14 chapter 02_radio_resource_administration_v1.1
 
Events in tems products
Events in tems productsEvents in tems products
Events in tems products
 
08102014_Huawei handovers-handover-algo
08102014_Huawei handovers-handover-algo08102014_Huawei handovers-handover-algo
08102014_Huawei handovers-handover-algo
 
Huawei UMTS Inter-rat cs THD trial
Huawei UMTS Inter-rat cs THD trialHuawei UMTS Inter-rat cs THD trial
Huawei UMTS Inter-rat cs THD trial
 
Sdcch 121130233301-phpapp02
Sdcch 121130233301-phpapp02Sdcch 121130233301-phpapp02
Sdcch 121130233301-phpapp02
 
Lecture intro to_wcdma
Lecture intro to_wcdmaLecture intro to_wcdma
Lecture intro to_wcdma
 
Part 2 planning of 3G
Part 2 planning of 3GPart 2 planning of 3G
Part 2 planning of 3G
 
Modul 7 gprs operation
Modul 7 gprs operationModul 7 gprs operation
Modul 7 gprs operation
 
Part 3 optimization 3G
Part 3 optimization 3GPart 3 optimization 3G
Part 3 optimization 3G
 
GSM Channel concept and SDCCH
GSM Channel concept and SDCCHGSM Channel concept and SDCCH
GSM Channel concept and SDCCH
 

Destaque

3g
3g3g
3g
Tempus Telcosys
 
Gsm1
Gsm1Gsm1
Gsm1
Tempus Telcosys
 
RG000006 CDMA 1X handoff algorithm
RG000006 CDMA 1X handoff algorithmRG000006 CDMA 1X handoff algorithm
RG000006 CDMA 1X handoff algorithm
Tempus Telcosys
 
Tempus Telcosys Telco and IT
Tempus Telcosys Telco and ITTempus Telcosys Telco and IT
Tempus Telcosys Telco and IT
Pankaj Dixit
 
03 Wireless Concept
03 Wireless Concept03 Wireless Concept
03 Wireless Concept
Tempus Telcosys
 
GSM Introduction
GSM IntroductionGSM Introduction
GSM Introduction
Tempus Telcosys
 
CDMA 1x Introduction to Power Control Issue2.1
CDMA 1x Introduction to Power Control Issue2.1CDMA 1x Introduction to Power Control Issue2.1
CDMA 1x Introduction to Power Control Issue2.1
Tempus Telcosys
 
CDMA Drive Test Report Format
CDMA Drive Test Report FormatCDMA Drive Test Report Format
CDMA Drive Test Report Format
Tempus Telcosys
 
EMF Survey
EMF SurveyEMF Survey
EMF Survey
Tempus Telcosys
 
C cf introduction to antenna
C cf introduction to antennaC cf introduction to antenna
C cf introduction to antenna
Tempus Telcosys
 

Destaque (20)

C cf radio propagation theory and propagation models
C cf radio propagation theory and propagation modelsC cf radio propagation theory and propagation models
C cf radio propagation theory and propagation models
 
CDMA1X Pilot Panorama introduction
CDMA1X Pilot Panorama introductionCDMA1X Pilot Panorama introduction
CDMA1X Pilot Panorama introduction
 
3g
3g3g
3g
 
Gsm1
Gsm1Gsm1
Gsm1
 
3g
3g3g
3g
 
RG000006 CDMA 1X handoff algorithm
RG000006 CDMA 1X handoff algorithmRG000006 CDMA 1X handoff algorithm
RG000006 CDMA 1X handoff algorithm
 
Tempus Telcosys Telco and IT
Tempus Telcosys Telco and ITTempus Telcosys Telco and IT
Tempus Telcosys Telco and IT
 
03 Wireless Concept
03 Wireless Concept03 Wireless Concept
03 Wireless Concept
 
GSM Introduction
GSM IntroductionGSM Introduction
GSM Introduction
 
CDMA 1x Introduction to Power Control Issue2.1
CDMA 1x Introduction to Power Control Issue2.1CDMA 1x Introduction to Power Control Issue2.1
CDMA 1x Introduction to Power Control Issue2.1
 
CDMA Drive Test Report Format
CDMA Drive Test Report FormatCDMA Drive Test Report Format
CDMA Drive Test Report Format
 
Ultrasite technical for 4op
Ultrasite technical for 4opUltrasite technical for 4op
Ultrasite technical for 4op
 
3g cdma-qualcom
3g cdma-qualcom3g cdma-qualcom
3g cdma-qualcom
 
Gsm
GsmGsm
Gsm
 
CDMA 2000 Principle Issue4.0
CDMA 2000 Principle Issue4.0CDMA 2000 Principle Issue4.0
CDMA 2000 Principle Issue4.0
 
EMF Survey
EMF SurveyEMF Survey
EMF Survey
 
Introduction to mapinfo
Introduction to mapinfoIntroduction to mapinfo
Introduction to mapinfo
 
Introduction to Genex Assistance
Introduction to Genex AssistanceIntroduction to Genex Assistance
Introduction to Genex Assistance
 
Drive Test
Drive TestDrive Test
Drive Test
 
C cf introduction to antenna
C cf introduction to antennaC cf introduction to antenna
C cf introduction to antenna
 

Semelhante a Channelconfih s9

01 channelconfig s9
01 channelconfig s901 channelconfig s9
01 channelconfig s9
Pri Ananda
 
39540950 gsm-ion-course
39540950 gsm-ion-course39540950 gsm-ion-course
39540950 gsm-ion-course
Hoài Hà
 
6 Weeks Industrial Training In Telecom In Chandigarh
6 Weeks Industrial Training In Telecom In Chandigarh6 Weeks Industrial Training In Telecom In Chandigarh
6 Weeks Industrial Training In Telecom In Chandigarh
Arcadian Learning
 
PSC9131UG_C4_FD
PSC9131UG_C4_FDPSC9131UG_C4_FD
PSC9131UG_C4_FD
Haim Amir
 

Semelhante a Channelconfih s9 (20)

01 channelconfig s9
01 channelconfig s901 channelconfig s9
01 channelconfig s9
 
2G Optimization
2G Optimization2G Optimization
2G Optimization
 
2 g training optimization
2 g training optimization2 g training optimization
2 g training optimization
 
39540950 gsm-ion-course
39540950 gsm-ion-course39540950 gsm-ion-course
39540950 gsm-ion-course
 
39540950 gsm-ion-course-130814024028-phpapp01
39540950 gsm-ion-course-130814024028-phpapp0139540950 gsm-ion-course-130814024028-phpapp01
39540950 gsm-ion-course-130814024028-phpapp01
 
GSM FRAME STRUCTURE.pptx
GSM FRAME STRUCTURE.pptxGSM FRAME STRUCTURE.pptx
GSM FRAME STRUCTURE.pptx
 
Sdcch 12704657711474-phpapp02
Sdcch 12704657711474-phpapp02Sdcch 12704657711474-phpapp02
Sdcch 12704657711474-phpapp02
 
SDCCH channel.ppt
SDCCH channel.pptSDCCH channel.ppt
SDCCH channel.ppt
 
Sdcch
SdcchSdcch
Sdcch
 
Session.pptx
Session.pptxSession.pptx
Session.pptx
 
6 Weeks Industrial Training In Telecom In Chandigarh
6 Weeks Industrial Training In Telecom In Chandigarh6 Weeks Industrial Training In Telecom In Chandigarh
6 Weeks Industrial Training In Telecom In Chandigarh
 
PSC9131UG_C4_FD
PSC9131UG_C4_FDPSC9131UG_C4_FD
PSC9131UG_C4_FD
 
Channel
ChannelChannel
Channel
 
kpianalysis-110830052500-phpapp02.ppt
kpianalysis-110830052500-phpapp02.pptkpianalysis-110830052500-phpapp02.ppt
kpianalysis-110830052500-phpapp02.ppt
 
kpi-analysis-nsn
kpi-analysis-nsnkpi-analysis-nsn
kpi-analysis-nsn
 
Nokia_GSM_KPI_ANALYSIS_Based_on_Daily_Mo.ppt
Nokia_GSM_KPI_ANALYSIS_Based_on_Daily_Mo.pptNokia_GSM_KPI_ANALYSIS_Based_on_Daily_Mo.ppt
Nokia_GSM_KPI_ANALYSIS_Based_on_Daily_Mo.ppt
 
Kpi analysis
Kpi analysisKpi analysis
Kpi analysis
 
Kpi analysis
Kpi analysisKpi analysis
Kpi analysis
 
dokumen.tips_nokia-gsm-kpi-analysis-based-on-daily-monitoring-basis-presentat...
dokumen.tips_nokia-gsm-kpi-analysis-based-on-daily-monitoring-basis-presentat...dokumen.tips_nokia-gsm-kpi-analysis-based-on-daily-monitoring-basis-presentat...
dokumen.tips_nokia-gsm-kpi-analysis-based-on-daily-monitoring-basis-presentat...
 
Kpi analysis
Kpi analysisKpi analysis
Kpi analysis
 

Mais de Tempus Telcosys

02 channel concept
02 channel concept02 channel concept
02 channel concept
Tempus Telcosys
 
Transmission management in BSS
Transmission management in BSSTransmission management in BSS
Transmission management in BSS
Tempus Telcosys
 
Cdma2000 network problem analysis with mobile station 20030212-a-v1.0
Cdma2000 network problem analysis with mobile station 20030212-a-v1.0Cdma2000 network problem analysis with mobile station 20030212-a-v1.0
Cdma2000 network problem analysis with mobile station 20030212-a-v1.0
Tempus Telcosys
 
Training on microwave communication
Training on microwave communicationTraining on microwave communication
Training on microwave communication
Tempus Telcosys
 

Mais de Tempus Telcosys (11)

02 channel concept
02 channel concept02 channel concept
02 channel concept
 
Transmission management in BSS
Transmission management in BSSTransmission management in BSS
Transmission management in BSS
 
Cdma2000 network problem analysis with mobile station 20030212-a-v1.0
Cdma2000 network problem analysis with mobile station 20030212-a-v1.0Cdma2000 network problem analysis with mobile station 20030212-a-v1.0
Cdma2000 network problem analysis with mobile station 20030212-a-v1.0
 
QCTest™ CDMA Air Interface Tester (CAIT™) 3.1 User’s Guide
QCTest™ CDMA Air Interface Tester (CAIT™) 3.1 User’s GuideQCTest™ CDMA Air Interface Tester (CAIT™) 3.1 User’s Guide
QCTest™ CDMA Air Interface Tester (CAIT™) 3.1 User’s Guide
 
Gsm system antenna
Gsm system antennaGsm system antenna
Gsm system antenna
 
Transmission fundamentals
Transmission fundamentalsTransmission fundamentals
Transmission fundamentals
 
Training on microwave communication
Training on microwave communicationTraining on microwave communication
Training on microwave communication
 
LOS Survey
LOS SurveyLOS Survey
LOS Survey
 
Introduction to mapinfo
Introduction to mapinfoIntroduction to mapinfo
Introduction to mapinfo
 
GSM , RF & DT
GSM , RF & DTGSM , RF & DT
GSM , RF & DT
 
Frequency Reuse
Frequency ReuseFrequency Reuse
Frequency Reuse
 

Último

Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in DelhiRussian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
kauryashika82
 
Activity 01 - Artificial Culture (1).pdf
Activity 01 - Artificial Culture (1).pdfActivity 01 - Artificial Culture (1).pdf
Activity 01 - Artificial Culture (1).pdf
ciinovamais
 
An Overview of Mutual Funds Bcom Project.pdf
An Overview of Mutual Funds Bcom Project.pdfAn Overview of Mutual Funds Bcom Project.pdf
An Overview of Mutual Funds Bcom Project.pdf
SanaAli374401
 

Último (20)

Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
 
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in DelhiRussian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
 
Advanced Views - Calendar View in Odoo 17
Advanced Views - Calendar View in Odoo 17Advanced Views - Calendar View in Odoo 17
Advanced Views - Calendar View in Odoo 17
 
Z Score,T Score, Percential Rank and Box Plot Graph
Z Score,T Score, Percential Rank and Box Plot GraphZ Score,T Score, Percential Rank and Box Plot Graph
Z Score,T Score, Percential Rank and Box Plot Graph
 
Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...
Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...
Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...
 
PROCESS RECORDING FORMAT.docx
PROCESS RECORDING FORMAT.docxPROCESS RECORDING FORMAT.docx
PROCESS RECORDING FORMAT.docx
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104
 
Key note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdfKey note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdf
 
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptxBasic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
 
APM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across SectorsAPM Welcome, APM North West Network Conference, Synergies Across Sectors
APM Welcome, APM North West Network Conference, Synergies Across Sectors
 
Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024
 
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
 
Activity 01 - Artificial Culture (1).pdf
Activity 01 - Artificial Culture (1).pdfActivity 01 - Artificial Culture (1).pdf
Activity 01 - Artificial Culture (1).pdf
 
How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17
 
An Overview of Mutual Funds Bcom Project.pdf
An Overview of Mutual Funds Bcom Project.pdfAn Overview of Mutual Funds Bcom Project.pdf
An Overview of Mutual Funds Bcom Project.pdf
 
Accessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impactAccessible design: Minimum effort, maximum impact
Accessible design: Minimum effort, maximum impact
 
Advance Mobile Application Development class 07
Advance Mobile Application Development class 07Advance Mobile Application Development class 07
Advance Mobile Application Development class 07
 
Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1
 
Unit-IV- Pharma. Marketing Channels.pptx
Unit-IV- Pharma. Marketing Channels.pptxUnit-IV- Pharma. Marketing Channels.pptx
Unit-IV- Pharma. Marketing Channels.pptx
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
 

Channelconfih s9

  • 2. Base Station Subsystem Parameters BSSPAR for S9 Radio Network Planning
  • 3.  09:00 Start  11:00 Coffee break 15 min.  12:30 Lunch break  13:30 Afternoon start  15:30 Coffee break 15 min.  17:00 Finish  Two days will be the same.
  • 4. •Introduction •Channel Configuration •Idle Mode Operation •Protocols •Radio resources •Measurements •Power Control •HO process •Intelligent Underlay Overlay •Handover Support for Coverage Enhanchements •The extended cell •Dynamic Hotspot •Dual band GSM/DCS Network Operation •Half Rate •HSCSD
  • 5. • Time Slots • Burst 2 Signaling Channels 1 TDMA frame • TCH/F, TACH • SDCCH/8, SDCCH/4, CBCH ( 2nd phase GSM ) • BCCH/CCCH 3 Traffic Channels 4 Parameters • Logical Channels
  • 6. 0 1 2 24 25 0 1 2 49 50 0 7 Hyperframe = 2048 Superframes Superframe = 26x51 or 51x26 Multiframes 26 Multiframe = 120 ms 51 Multiframe = 235 ms TDMA frame = 4.615 ms TCH SIGN.
  • 7. 0 7 TDMA frame = 4.615 ms = BURST PERIOD 0 0 0 f s
  • 9. MS -> BSS CCCH RACH DCCH TCH SDCCH SACCH FACCH TCH TCH COMMON CHANNELS DEDICATED CHANNELS
  • 10. CHANNEL CONFIGURATIONS Configuration of Signalling Channels 0 7 Separated Configuration Combined Configuration 0 7 ts0=bcch/pch/agchts1=sdcch/8 ts0=bcch/sdcch/4/pch/agch
  • 11. f s bb bbc fc fc scc cc cc cc fc fs t t t t tt t t f ft t t t tt t t fs fs ss s ss s ss t t tt r r s fs ss ss sr r rr r r rs fr r r r r rr r r r fr r r r tr t t tr ft t t r tr t tt Downlink Uplink CHANNELS f = FCCH b = BCCH r = RACH i=idle s = SCH/SACCH c = CCCH t = SDCCH/4 51 TDMA frames = 235 ms t 0 50 1. 2. 3. 4. i
  • 12. f s bb bbc fc fc sc cc c cc c c fc fsc ccc cc cc f fc ccc cc c c fs fc c cc cc c cs r r rr r r r fr rr r r r r r rr r r rr fr r r r r rr r r r fr r r r rr r r rr fr r r r rr r rr Downlink Uplink CHANNELS f = FCCH b = BCCH r = RACH i=idle s = SCH c = CCCH = PCH/AGCH 51 TDMA frames = 235 ms r 0 50 i
  • 13. t t tt t t t ft tt t t t t t tt t t tt ft t t t t tt t t t fs s s s ss s ss fss ss ss ss ss s ss fs ss s t tt t t ts ft t t t t tt t t t ft t t t tt t t tt ft t t t tt t tt Downlink Uplink CHANNELS t = SDCCH/8 s = SACCH/8 i=idle t t 51 TDMA frames = 235 ms s 1. 2. 3. 5. 6. 7. 8.4. 0 50 iii iii
  • 14. f s bb bbc fc fc sc cc c cc c c fc fsc ccc cc cc f fc ccc cc c c fs fc c cc cc c cs BCCH/CCCH CHANNELS f = FCCH b = BCCH t = SDCCH/4 i=idle s = SCH/SACCH c = CCCH = PCH/AGCH 51 TDMA frames = 235 ms f s bb bbc fc fc sc cc c cc c c fc fst t t t tt t t f ft t t t tt t t fs fs s ss ss s ss 1 2 3 4 5 6 7 8 9 1 2 3 BCCH/SDCCH/4 i i
  • 15. t t tt t t t ft tt t t tt t t tt ft t t tt Downlink and Uplink CHANNELS t = TCH s = SACCH i=idle ts 26 TDMA frames = 120 ms 0 25 i
  • 16. Downlink and Uplink CHANNELS t = TCH s = SACCH i=idle 26 TDMA frames = 120 ms 0 25 Downlink and Uplink CHANNELS t = TCH s = SACCH i=idle 26 TDMA frames = 120 ms 0 25 t t tt t t t t tt t t tt t t tt tt t ttt t t tt t t t t tt t t tt t t tt tt t ttt s t i t
  • 17. • Location updates • Short Message Service • Queuing (in Call Set-up) • Call Establishment SDCCH used in
  • 18.  Example (Call establishment and Location Update included) ◦ Call Establishment  2 TRXs / Cell ~ 8,11 Erl / Cell (1% Blocking probability)  1,5 min / Subs / BH = 25 mErl. / Subs  8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell  Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) ◦ Location Update  Location Updates once in 60 minutes ( parameter timerPeriodicUpdateMS )  325 Subs / Cell  SDCCH reservation time for Location Update = 7 sec = 1,94 mErl ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH)  Call Establishment and Location Update together ◦ 0,632 Erl + 0,632 Erl = 1,261 Erl / Cell ◦ With 1% Blocking Probability ( Erlang B table ) => 5 SDCCH / Cell  Combined BCCH/SDCCH channel structure is not possible in this case !  Separate Configuration (1 BCCH/CCCH and 1 SDCCH/8) is needed!
  • 19. Chs 1% 2% 3% 5% Chs 1% 2% 3% 5% 1 0.01 0.02 0.03 0.05 21 12.80 14.00 14.90 16.20 2 0.15 0.22 0.28 0.38 22 13.70 14.90 15.80 17.10 3 0.46 0.60 0.72 0.90 23 14.50 15.80 16.70 18.10 4 0.87 1.09 1.26 1.52 24 15.30 16.60 17.60 19.00 5 1.36 1.66 1.88 2.22 25 16.10 17.50 18.50 20.00 6 1.91 2.28 2.54 2.96 26 17.00 18.40 19.40 20.90 7 2.50 2.94 3.25 3.75 27 17.80 19.30 20.30 21.90 8 3.13 3.63 3.99 4.54 28 18.60 20.20 21.20 22.90 9 3.78 4.34 4.75 5.37 29 19.50 21.00 22.10 23.80 10 4.46 5.08 5.53 6.22 30 20.30 21.90 23.10 24.80 11 5.16 5.84 6.33 7.08 31 21.20 22.80 24.00 25.80 12 5.88 6.61 7.14 7.95 32 22.00 23.70 24.90 26.70 13 6.61 7.40 7.97 8.83 33 22.90 24.60 25.80 27.70 14 7.35 8.20 8.80 9.73 34 23.80 25.50 26.80 28.70 15 8.11 9.01 9.65 10.60 35 24.60 26.40 27.70 29.70 16 8.88 9.83 10.50 11.50 36 25.50 27.30 28.60 30.70 17 9.65 10.70 11.40 12.50 37 26.40 28.30 29.60 31.60 18 10.40 11.50 12.20 13.40 38 27.30 29.20 30.50 32.60 19 11.20 12.30 13.10 14.30 39 28.10 30.10 31.50 33.60 20 12.00 13.20 14.00 15.20 40 29.00 31.00 32.40 34.60
  • 20.  Example (Call establishment and Location Update included) ◦ Call Establishment  2 TRXs / Cell ~ 8,11 Erl / Cell (1% Blocking probability)  1,5 min / Subs / BH = 25 mErl. / Subs  8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell  Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) ◦ Location Update  Location Updates once in 120 minutes ( parameter timerPeriodicUpdateMS )  325 Subs / Cell  SDCCH reservation time for Location Update = 7 sec = 1,94 mErl ◦ => 325 Calls / Cell * 1,94 mErl / Call * 1/2 = 0,31525 Erl / Cell (SDCCH)  Call Establishment and Location Update together ◦ 0,6305 Erl/Cell + 0,31525 Erl/Cell = 0,94575 Erl/Cell (SDCCH) ◦ With 1% Blocking Probability ( Erlang B table ) => ~ 4 SDCCH / Cell  Combined BCCH/SDCCH channel structure is possible in this case !
  • 21.  Example (Call establishment and Location Update included) ◦ Call Establishment  2 TRXs / Cell ~ 8,11 Erl / Cell (1% Blocking probability)  1,5 min / Subs / BH = 25 mErl. / Subs  8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell  Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) ◦ => 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) ◦ Location Update  Location Updates once in 120 minutes ( parameter timerPeriodicUpdateMS )  325 Subs / Cell  SDCCH reservation time for Location Update = 7 sec = 1,94 mErl ◦ => 325 Calls / Cell * 1,94 mErl / Call * 1/2 = 0,31525 Erl / Cell (SDCCH) ◦ SMS  SMS traffic estimation 1.0 mErl / subscriber ◦ => 325 Calls / Cell * 1 mErl / Call = 0,325 Erl / Cell (SDCCH)  Call Establishment, Location Update and SMS together ◦ 0,6305 Erl/Cell + 0,31525 Erl/Cell + 0,325 Erl/Call = 1,27075Erl/Cell (SDCCH) ◦ With 1% Blocking Probability ( Erlang B table ) => ~ 5 SDCCH / Cell  Separated channel structure is possible in this case
  • 22.  Example ◦ Combined BCCH / SDCCH Configuration ◦ One Block Reserved for AGCH => 2 Blocks for PCH ◦ Paged Mobile Stations per Paging_Request Message : From 2 to 4, in Average 3 ◦ In Average 2 Pages per Mobile Station ◦ 3 Pages/Blocks * 2 Blocks = 6 Pages every 51-frames Multiframe ( 235 ms. ) ◦ 2 Pages / Paged MS => 3 Paged MS every 235 ms. ◦ ( ( 3600 * 1000 ) / 235 ) * 3 = 45.957 Paged MS per Hour.  Worst Case ◦ All Transactions are Mobile Terminating ◦ All Cells in Location Area get the same PCH Load  Capacity ◦ With one TRX 2,95 Erl. ◦ 25 mErl. / subs. => 120 subscribers BTS MS Paging_Request BTS 3MS 2 Paging_Request Capacity of PCH calculated for a Location Area
  • 23. f s bb bbc fc fc sc cc c cc c c fc fsc cc c cc cc f fc ccc cc c c fs fc c cc cc c cs BCCH/CCCH CHANNELS f = FCCH b = BCCH t = SDCCH/4 s = SCH/SACCH c = CCCH = PCH/AGCH 51 TDMA frames = 235 ms f s bb bbc fc fc sc cc c cc c c fc fst t t t tt t t f ft t t t tt t t fs fs s ss ss s ss 1 2 3 4 5 6 7 8 9 1 2 3 BCCH/SDCCH/4
  • 24. numberOfBlocksForAccessGrant= 0 , setting • Pages used to have always priority in CCCH blocks no matter what numberOfBlocksForAccessGrant setting was. • Now ,If numberOfBlocksForAccessGrant =0 then AGCH messages would have priority over PCH messages. • If numberOfBlocksForAccessGrant <> 0 then PCH messages would have priority over AGCH messages . Thus capacity can be dynamically shared between PCH and AGCH => better throughput for PCH especially for combined- BCCH
  • 25. Buffering improvements •With S8 also there improvements to the buffering mechanism in order to improve the paging delays.
  • 26.  # of 51 TDMA frame multiframes (2..9) between transmissions of Paging_Request messages to mobiles of the same paging group. # of paging groups = numberOfBlocksForAccessGrant * noOMultiframesBetweenPaging =====> Page / group every 2 ... 9 * 235 ms = 0.47 ... 2.115 s  Mobile Station calculates its Paging Group based on IMSI and on the Number of Paging Groups.
  • 27.  Affects of the # of the Paging Groups ◦ Battery Consumption of the Mobile Station ◦ Speed of Call Setups
  • 28. Number of retransmission = maxNumberRetransmission (1, 2, 4, 7) window = numberOfSlotsSpreadTrans (3 ... 12, 14, 16, 20, 25, 32, 50) 0 0 1 RACH (Re)transmission during the window => Total time for RACH = maxNumberRetransmission * numberOfSLotsSpreadTrans +... TDMA-frames
  • 29. noOfMultiframesBetweenPaging 2 ... 9 numberOfBlocksForAccessGrant 0 ... 7 (if BCCH/CCCH used) 1 ... 7 (if CBCH used on SDCCH/8) 0 ... 2 (if combined BCCH/SDCCH used) maxNumberRetransmission 1, 2, 4, 7 (RACH control) numberOfSlotsSpreadTrans 3 ... 12, 14, 16, 20, 25, 32, 50 (RACH control) pagingAnsOnFacch Y/N emerCallOnFacch Y/N ordinaryCallOnFacch Y/N restablishCallOnFacch Y/N newEstabCausesSupport Y/N (FACCH set up allowed) => in the BTS Parameters Value in the BSC Ph. 2