Performance of multi-antenna relay based cooperative spectrum sensing in cognitive radio network

Q3 Engineering

International Journal of Electronics Letters Pub Date : 2021-10-06 DOI:10.1080/21681724.2021.1969434

Rupali Agarwal, Neelam Srivastava, H. Katiyar

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Abstract

ABSTRACT In this paper, we analyse the performance of infrastructure-based fixed relay with multi-antenna in cognitive radio. We derive the mathematical expression for detection probability of single cooperative relay system over Rayleigh fading channel. Relay and fusion centre may perform either selection combining or maximal ratio combining of the signals. Effect of number of relay antennas for all four combinations of combining schemes has been analysed and as expected, increase in relay diversity improves the sensing performance. This is because, on installing more number of receiving antennas on the relay, it’s participation increases, so the detection performance also improves. In the non-cooperative system also, the performance improves on increasing the diversity order but on the other hand, this increment imposes burden on the fusion centre. Whereas in multi-antenna cooperative relay system, the burden of relay gets transferred on relay node and the fusion centre takes advantage of increased diversity order of relay. For cooperative spectrum sensing, we have used soft decision combining scheme in which secondary users send their test statistics calculated from their local observations.

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认知无线电网络中基于多天线中继的协同频谱感知性能研究

本文分析了认知无线电中基于基础设施的多天线固定中继的性能。导出了瑞利衰落信道上单个协同中继系统检测概率的数学表达式。继电器和融合中心可对信号进行选择合并或最大比例合并。分析了中继天线数量对四种组合方案的影响，结果表明中继分集的增加提高了传感性能。这是因为，在中继上安装更多的接收天线，它的参与增加，因此检测性能也提高了。在非合作系统中，随着分集阶数的增加，融合中心的性能也有所提高，但同时也增加了融合中心的负担。而在多天线协同中继系统中，中继的负担转移到中继节点上，融合中心利用了中继分集阶数的提高。对于协同频谱感知，我们采用软决策组合方案，其中二次用户发送由其本地观测计算的测试统计量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Electronics Letters Engineering-Electrical and Electronic Engineering

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： International Journal of Electronics Letters (IJEL) is a world-leading journal dedicated to the rapid dissemination of new concepts and developments across the broad and interdisciplinary field of electronics. The Journal welcomes submissions on all topics in electronics, with specific emphasis on the following areas: • power electronics • embedded systems • semiconductor devices • analogue circuits • digital electronics • microwave and millimetre-wave techniques • wireless and optical communications • sensors • instrumentation • medical electronics Papers should focus on technical applications and developing research at the cutting edge of the discipline. Proposals for special issues are encouraged, and should be discussed with the Editor-in-Chief.