Uplink Capacity Maximization based on Random Access Channel (RACH) Parameters in WCDMA

Random access channel (RACH) of WCDMA system is the common uplink channel that can be used to send call request message or short packet data. However, RACH could be the interference source against traffic channels. The amount of interference power generated by RACH depends on the setting of RACH par...

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Hauptverfasser:	Sangbum Kim, Youngwan So, Daehyoung Hong, Joungcheol Kim, Soonjoo Moon, Kyonglak Lee, Sehyun Oh
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Channel capacity Degradation Fading Interference Multiaccess communication Power control Probability random access channel Statistics Throughput Traffic control uplink Erlang capacity WCDMA
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creator	Sangbum Kim Youngwan So Daehyoung Hong Joungcheol Kim Soonjoo Moon Kyonglak Lee Sehyun Oh
description	Random access channel (RACH) of WCDMA system is the common uplink channel that can be used to send call request message or short packet data. However, RACH could be the interference source against traffic channels. The amount of interference power generated by RACH depends on the setting of RACH parameters such as the target signal to interference ratio (SIR) of preamble and the ramp step size. When the target SIR becomes higher, RACH performance, such as access success ratio, gets improved. However, the interference caused by RACH is getting severe and can degrade the quality of traffic channels. If the target SIR becomes lower, the retransmissions of preamble can occur frequently to obtain a desirable RACH performance, and then the interference level can be increased by the retransmissions. In this paper, we analyze the uplink traffic channel capacity for a level of RACH performance in WCDMA system. The retransmission probabilities of preamble on the fast fading environment are derived by a simulation. The simulation results are applied to the Erlang capacity formula of uplink traffic channel. Then we drive the capacity as functions of RACH parameters. Results show that the uplink traffic channel capacity can be maximized by setting the RACH parameters carefully
doi_str_mv	10.1109/VETECS.2006.1682884
format	Conference Proceeding
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However, RACH could be the interference source against traffic channels. The amount of interference power generated by RACH depends on the setting of RACH parameters such as the target signal to interference ratio (SIR) of preamble and the ramp step size. When the target SIR becomes higher, RACH performance, such as access success ratio, gets improved. However, the interference caused by RACH is getting severe and can degrade the quality of traffic channels. If the target SIR becomes lower, the retransmissions of preamble can occur frequently to obtain a desirable RACH performance, and then the interference level can be increased by the retransmissions. In this paper, we analyze the uplink traffic channel capacity for a level of RACH performance in WCDMA system. The retransmission probabilities of preamble on the fast fading environment are derived by a simulation. The simulation results are applied to the Erlang capacity formula of uplink traffic channel. Then we drive the capacity as functions of RACH parameters. Results show that the uplink traffic channel capacity can be maximized by setting the RACH parameters carefully</abstract><pub>IEEE</pub><doi>10.1109/VETECS.2006.1682884</doi><tpages>5</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Channel capacity Degradation Fading Interference Multiaccess communication Power control Probability random access channel Statistics Throughput Traffic control uplink Erlang capacity WCDMA
title	Uplink Capacity Maximization based on Random Access Channel (RACH) Parameters in WCDMA
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