Fractional frequency reuse schemes and performance evaluation for OFDMA multi-hop cellular networks

For the next generation wireless communication systems, inter-cell interference (ICI) is the primary cause of performance degradation in cell edge mobile stations of OFDMA multi-hop cellular networks with the frequency reuse pattern (1, 3, 1). This paper introduces a new fractional frequency reuse s...

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Hauptverfasser:	Yue Zhao, Xuming Fang, Xiaopeng Hu, Zhengguang Zhao, Yan Long
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Degradation fractional frequency reuse inter-cell interference (ICI) Land mobile radio cellular systems local forwarding Next generation networking Numerical analysis Radiofrequency interference Relays resource allocation Signal to noise ratio Spread spectrum communication Throughput Wireless communication
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creator	Yue Zhao Xuming Fang Xiaopeng Hu Zhengguang Zhao Yan Long
description	For the next generation wireless communication systems, inter-cell interference (ICI) is the primary cause of performance degradation in cell edge mobile stations of OFDMA multi-hop cellular networks with the frequency reuse pattern (1, 3, 1). This paper introduces a new fractional frequency reuse scheme to assign radio resources in OFDMA multi-hop networks to reduce inter-cell interference and maintain the sector frequency reuse factor at 1. Through the numerical analysis, we find that this scheme can yield higher SINR and improve the system capacity. Furthermore, the results also indicate that fractional frequency reuse relay system with local forwarding scheme can achieve higher throughput than local forwarding scheme in conventional relay system.
doi_str_mv	10.1109/TRIDENTCOM.2009.4976243
format	Conference Proceeding
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subjects	Degradation fractional frequency reuse inter-cell interference (ICI) Land mobile radio cellular systems local forwarding Next generation networking Numerical analysis Radiofrequency interference Relays resource allocation Signal to noise ratio Spread spectrum communication Throughput Wireless communication
title	Fractional frequency reuse schemes and performance evaluation for OFDMA multi-hop cellular networks
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