Performance and Complexity Analysis of SIC and OSIC Detectors for Massive MIMO Systems

2021 IEEE Fifth Ecuador Technical Chapters Meeting (ETCM) Pub Date : 2021-10-12 DOI:10.1109/ETCM53643.2021.9590746

Evelyn Solange Pérez Aguirre, Verónica Emma Soria Maldonado, Lenin Wladimir Aucatoma Guaman, German Vicente Arevalo Bermeo

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Abstract

This paper presents a comparison of the efficiency and computational complexity of successive interference cancellation (SIC) and ordered successive interference cancellation (OSIC) detectors in massive MIMO systems using QAM modulation. The challenge for the signal detectors of these systems is that as the number of antennas increases the detector complexity also increases. Therefore, so is important to have an efficient low-complexity detector. These four detectors are evaluated in a system of 16 antennas in transmission, 64, 100 and 200 antennas in reception using 4 QAM, 16 QAM, and 64QAM modulators, to evaluate the efficiency and computational complexity of each detector by increasing the number of receiving antennas and with different QAM modulation. With the result that increasing the number of antennas and decreasing the modulation index improves the performance of the system, since the higher the gain, the lower the probability of signal loss. The evaluation of the detectors in these systems shows that the OSIC detectors present better performance but have greater computational complexity.

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大规模MIMO系统中SIC和OSIC探测器的性能和复杂性分析

本文比较了采用QAM调制的大规模MIMO系统中连续干扰抵消(SIC)和有序连续干扰抵消(OSIC)探测器的效率和计算复杂度。这些系统的信号探测器所面临的挑战是，随着天线数量的增加，探测器的复杂性也在增加。因此，拥有一个高效的低复杂度检测器非常重要。采用4QAM、16 QAM和64QAM调制器，在16根天线发射、64根、100根和200根天线接收的系统中对这四种探测器进行了评估，通过增加接收天线数量和不同QAM调制来评估每种探测器的效率和计算复杂度。结果表明，增加天线数和减小调制指数可以提高系统的性能，因为增益越高，信号丢失的概率越小。对这些系统中检测器的评估表明，OSIC检测器具有更好的性能，但其计算复杂度较高。

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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2021 IEEE Fifth Ecuador Technical Chapters Meeting (ETCM)

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