Performance analysis of dual-hop mixed relaying cooperative networks with Nth best-path selection

S. Arunmozhi, G. Nagarajan
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Abstract

Cooperative relaying is one of the promising technology which is used to improve coverage and spatial diversity. A new relay strategy, the Nth Best-Relay Selection scheme is proposed to improve the bandwidth penalty and to increase the spatial diversity by using a sub-optimal allocation for the relay relative distance between the source and destination in a multi-hop cooperative systems. A single branch dual-hop network and dual branch dual-hop network with adaptive Decode-and-forward (DF) and Amplify-and-forward (AF) cooperative diversity systems is considered. The proposed Nth Best-Relay selection scheme over single branch dual-hop system is compared with dual branch dual-hop network using the closed-form expression. The BER (Bit error rate) and Outage probability using binary and quadrature phase shift keying modulation schemes (BPSK & QPSK) with adaptive mixed decode-and-forward (DF) and amplify-and-forward (AF) cooperative diversity systems over Rayleigh fading channel were estimated. Results show that in the Nth best relay the diversity order is equal to (M -N +2) where M is the number of relays.
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具有n次最优路径选择的双跳混合中继合作网络性能分析
合作中继是一种很有前途的技术,可用于提高覆盖和空间多样性。提出了一种新的中继策略——第n次最佳中继选择方案,通过对多跳合作系统中源和目的之间的中继相对距离进行次优分配来改善带宽损失并增加空间分集。研究了具有自适应译码转发(DF)和放大转发(AF)合作分集系统的单分支双跳网络和双分支双跳网络。用封闭表达式对单支路双跳网络的n次最佳中继选择方案与双支路双跳网络进行了比较。估计了在瑞利衰落信道上使用自适应混合前解码(DF)和前放大(AF)协同分集系统的二进制和正交相移键控调制方案(BPSK & QPSK)的误码率和中断概率。结果表明,在第n个最佳继电器中,分集顺序为(M -N +2),其中M为继电器个数。
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