53135171-GSM-Abis-Dimensioning-2010324
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Untuk meningkatkan kualitas sinyal yang dikirimkan, maka diperlukan teknik diversitas dengan pemilihan teknik yang paling efektif dalam meningkatkan kualitas sinyal yaitu menggunakan Maximum Ratio Combining (MRC). Teknik MRC menghasilkan nilai SNR paling tinggi dengan Probability error (Pe) paling kecil. Namun permasalahan tersebut
Transcript of 53135171-GSM-Abis-Dimensioning-2010324
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HUAWEI TECHNOLOGIES Co., Ltd.
www.huawei.com
HUAWEI Confidential
GSM Abis Dimensioning
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 2
Traditional TransmissionAbis of TDM over E1
Abis E1 Dimension Principle for FullRate:
15 FR TRX per E1
S555 configuration: 1 BCCH per cell; 3 SDCCHs per cell; TCH channel = 5*8-1-3=36 Signaling : 1 RSL / TRX, 1 OML / Site, RSL or OML occupy one 16kbps timeslotTotal 16kbps channel required= 36*3+15+1=124= 124/4=31 64kpbs timeslot= 1 E1
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 3
Abis E1 Dimension Principle for HalfRate:
About 13 100HR TRX per E1
About (15-2*HR Ratio) TRX per E1
Traditional TransmissionAbis of TDM over E1
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 4
Transmission OptimizationAbis of IP over E1
Abis Interface ThroughputAbis Interface Throughput
Control Plane Throughput
Control Plane Throughput
User Plane ThroughputUser Plane Throughput
T _Control PlaneT _Control Plane T _User PlaneT _User Plane
Abis throughput factors: Signalling Overhead in control planegeneral consider signaling throughput is equal to 10% CS user throughput
Dimensioning Procedure:
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 5
L1PHY
IP
UDP
MAC
RSL/OML
LAPD
Control PlaneControl Plane User PlaneUser Plane Payload (bits)
Payload ( MAC Layer)
264
Internal defined header
32
IP_UDP header 224
PPP header 56
Voice frame len / 20ms (bit)
576
IP
UDP
Transmission OptimizationAbis of IP over E1
Abis Interface Protocol Stack (IP over E1) Protocol Overhead in user plane-CS part
PPP
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 6
Dimensioning Procedure - User Plane
Voice frame len / 20ms (bit) =Payload ( MAC Layer) + internal defined header + IP_UDP header + PPP header=576 bits
Voice frame len / 20ms (bit) =Payload ( MAC Layer) + internal defined header + IP_UDP header + PPP header=576 bits
INPUT VAD Factor = 0.5 MAC Packet Size = 264 bits Packet time = 20ms
VAD Factor = 0.5 MAC Packet Size = 264 bits Packet time = 20ms
Voice frame bit rate / UM channelkbpsW/O Mux=voice frame len / 20ms (bit) * 50 * VAD / 1024=14.1kpbs
Voice frame bit rate / UM channelkbpsW/O Mux=voice frame len / 20ms (bit) * 50 * VAD / 1024=14.1kpbs
Transmission OptimizationAbis of IP over E1
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 7
Avg frame bit rate (kbps) with MUX=Mux total size*50*VAD factor/1024/Mux number=8.8kbps
Avg frame bit rate (kbps) with MUX=Mux total size*50*VAD factor/1024/Mux number=8.8kbps
Mux Total Size (bit) with MUX=8*(Payload ( MAC Layer)+56) + internal defined header + IP_UDP header + PPP header=2872
Mux Total Size (bit) with MUX=8*(Payload ( MAC Layer)+56) + internal defined header + IP_UDP header + PPP header=2872
Maximum MUX number = 8Maximum MUX number = 8
End of CS User Plane
Dimensioning Procedure - User Plane
Transmission OptimizationAbis of IP over E1
speech version(Code Scheme)
Payload in RLC/MAC layer (bit
Avg frame bit rate(kbps)
FR 264 8.8
EFR 248 8.4
AMR-FR12.2 264 8.8
HR 120 5.2
AMR-HR7.95 176 6.6
CS-1 160 6.4
CS-2 240 8.4
CS-3 288 9.5
CS-4 400 12.3
MCS-1 176 6.8
MCS-2 224 8.0
MCS-3 296 9.7
MCS-4 352 11.1
MCS-5 448 13.5
MCS-6 592 17.0
MCS-7 896 24.4
MCS-8 1088 29.1
MCS-9 1184 31.4
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 8
Example - Abis of IP over E1
CS channel bandwidth (Kbps)=(1-LCLS percentage)*Avg frame bit rate (kbps) with MUX for CS* Total voice number/BH=(1-10%)*8.8*84=665.28 kbpsPS channel bandwidth (Kbps)=Number of Activated PDCHs in Busy Hours*Avg frame bit rate (kbps) with MUX for PS=3*31.4=97.2kbpsSignaling bandwidth (Kbps)=10% *CS channel bandwidth (Kbps)=10%*665.28=66.53kbpsTotal Abis requirement (Kbps)=(CS channel bandwidth (Kbps)+ PS channel bandwidth (Kbps)+ Signaling bandwidth (Kbps))/Transmission Link Bandwidth Utilization=(665.28+97.2+66.53)/85%=975.31kbpsTotal Abis timeslot requirement (64Kbps)=Roundup (Total Abis requirement (Kbps)/ 64kbps,0)+1=Roundup(975.31/64,0)+1=17
Dimensioning Procedure Case study: supposed S444; 10% LCLS; 100% FR; 3 Activated MCS9 PDCHs; 85%Transmission Link Bandwidth Utilization
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HUAWEI TECHNOLOGIES Co., Ltd. HUAWEI Confidential Page 9
Abis Dimensioning for S111 ConfigurationAssumption1: (1) S111; (2) 10% LCLS; (3) 20% HR; (4) 2 Activated MCS9 PDCHs;(5) 85%Transmission Link Bandwidth Utilization
Transmission Method Abis Bandwidth (Kbps)
Abis IP over FE/GE 379.62
Abis IP over E1/T1 326.32
Assumption2: (1) S111; (2) 10% LCLS; (3) 20% HR; (4) 2 Activated DAS-12 PDCHs (EDGE+);(5) 85%Transmission Link Bandwidth Utilization
Transmission Method Abis Bandwidth (Kbps)
Abis IP over FE/GE 494.47
Abis IP over E1/T1 402.89
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Thank youwww.huawei.com
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