Spatial Correlation in Single-Carrier Massive MIMO Systems

2020 Information Theory and Applications Workshop (ITA) Pub Date : 2020-02-02 DOI:10.1109/ITA50056.2020.9244975

Nader Beigiparast, G. M. Guvensen, E. Ayanoglu

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Abstract

We present the analysis of a single-carrier massive MIMO system for the frequency selective Gaussian multi-user channel, in both uplink and downlink directions. We develop expressions for the achievable sum rate when there is spatial correlation among antennas at the base station. It is known that the channel matched filter precoder (CMFP) performs the best in a spatially uncorrelated downlink channel. However, we show that, in a spatially correlated downlink channel with two different correlation patterns and at high long-term average power, two other precoders have better performance. For the uplink channel, part of the equivalent noise in the channel goes away, and implementing two conventional equalizers leads to a better performance compared to the channel matched filter equalizer (CMFE). These results are verified for uniform linear and uniform planar arrays. In the latter, due to more correlation, the performance drop with a spatially correlated channel is larger, but the performance gain against channel matched filter precoder or equalizer is also bigger. In highly correlated cases, the performance can be a significant multiple of that of the channel matched filter precoder or equalizers.

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单载波大规模MIMO系统的空间相关

本文对频率选择性高斯多用户信道的单载波大规模MIMO系统进行了上行和下行分析。给出了基站天线间存在空间相关性时可实现和速率的表达式。信道匹配滤波器预编码器(CMFP)在空间不相关的下行信道中性能最好。然而，我们表明，在具有两种不同相关模式的空间相关下行信道中，在高长期平均功率下，另外两种预编码器具有更好的性能。对于上行信道，信道中的部分等效噪声消失，并且与信道匹配滤波器均衡器(CMFE)相比，实现两个传统均衡器可以获得更好的性能。这些结果在均匀线性阵列和均匀平面阵列上都得到了验证。在后一种情况下，由于更多的相关性，与空间相关信道的性能下降更大，但与信道匹配的滤波器预编码器或均衡器的性能增益也更大。在高度相关的情况下，性能可能是信道匹配滤波器预编码器或均衡器性能的显著倍数。

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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2020 Information Theory and Applications Workshop (ITA)

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