Post-Processing Noise of ZF Detector with Varying Channel Condition

2018 International Conference on Recent Innovations in Electrical, Electronics & Communication Engineering (ICRIEECE) Pub Date : 2018-07-01 DOI:10.1109/ICRIEECE44171.2018.9008682

A. D. Borah, J. Bora

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Abstract

Spatial multiplexing increases the efficiency of a multiple input multiple output (MIMO) system by effectively using the available spectrum without the need of an additional power. Among the linear detector, ZF (zero forcing) is the most simple and effective, that regains multiple transmitted data at the receiver. Usually, in a service area, user may experience different channel type from highly scattered environment to less scattered one and hence the post processing noise will vary. Here, we present the mathematical derivation of post-processing SINR and hence the post-processing noise of ZF receiver with imperfect channel estimates for a seven cluster cellular network. We investigate the noise variation with channel condition at the output of MIMO ZF receiver when the channel varies from Rayleigh to Nakagami-m fading for different ‘m’ values in the cellular service area. We find that post processing noise with Rayleigh channel is higher than with Nakagami-m as expected at the ZF receiver output for MIMO system.

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变信道条件下ZF检测器的后处理噪声

空间复用通过有效地利用可用频谱而不需要额外的功率来提高多输入多输出(MIMO)系统的效率。在线性检测器中，零强迫(zero forcing, ZF)是最简单、最有效的一种，它可以在接收端恢复多次传输的数据。通常，在一个服务区域内，用户从高散射环境到低散射环境可能会体验到不同的信道类型，因此后处理噪声会有所不同。在这里，我们给出了一个七簇蜂窝网络中具有不完全信道估计的ZF接收机的后处理SINR的数学推导和后处理噪声。研究了MIMO ZF接收机在蜂窝服务区中，当信道从瑞利到中agami-m衰落变化时，信道条件下的噪声变化。我们发现，在MIMO系统的ZF接收机输出处，瑞利信道的后处理噪声高于中agami信道。

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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2018 International Conference on Recent Innovations in Electrical, Electronics & Communication Engineering (ICRIEECE)

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