存在相位噪声的线性海量MIMO预编码器的大规模分析

R. Krishnan, M. Khanzadi, N. Krishnan, Yongpeng Wu, A. G. Amat, T. Eriksson, R. Schober
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引用次数: 9

摘要

我们研究了相位噪声对多用户多输入多输出系统下行链路性能的影响,其中基站(BS)采用大量发射天线M.我们考虑了一种设置,其中BS采用Mosc自由运行振荡器,M/Mosc天线连接到每个振荡器。对于这种配置,我们分析了当M和用户数量K渐近较大,而比值M/K = β固定时,相位噪声对正则化强制零(RZF)预编码性能的影响。我们分析表明,与没有相位噪声的系统相比,相位噪声对信噪比(SINR)的影响可以量化为在BS处可用的信道状态信息质量的有效降低。因此,我们观察到,随着Mosc的增加,RZF预编码器的SINR随着干扰功率的增加而降低,期望的信号功率降低。另一方面,BS振荡器引起的随机相位变化的方差随着Mosc的增加而减小。通过仿真验证了我们的分析结果,并研究了RZF预编码器在不同相位噪声和信道噪声方差下的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Large-scale analysis of linear massive MIMO Precoders in the Presence of Phase Noise
We study the impact of phase noise on the downlink performance of a multi-user multiple-input multiple-output system, where the base station (BS) employs a large number of transmit antennas M. We consider a setup where the BS employs Mosc free-running oscillators, and M/Mosc antennas are connected to each oscillator. For this configuration, we analyze the impact of phase noise on the performance of regularized zero-forcing (RZF) precoding, when M and the number of users K are asymptotically large, while the ratio M/K = β is fixed. We analytically show that the impact of phase noise on the signal-to-interference-plus-noise ratio (SINR) can be quantified as an effective reduction in the quality of the channel state information available at the BS when compared to a system without phase noise. As a consequence, we observe that as Mosc increases, the SINR of the RZF precoder degrades as the interference power increases, and the desired signal power decreases. On the other hand, the variance of the random phase variations caused by the BS oscillators reduces with increasing Mosc. Through simulations, we verify our analytical results, and study the performance of the RZF precoder for different phase noise and channel noise variances.
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