Hybrid Beamforming for Multi User Massive MIMO Systems

Orclever Proceedings of Research and Development Pub Date : 2023-03-28 DOI:10.56038/oprd.v2i1.246

Abdirahman Abdikarim Hussein, Didem Kıvanç Türeli

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Abstract

The increasing demand in wireless communications for enhanced spectral efficiency (SE) and throughput makes massive multiple input multiple output (MIMO) a great choice for meeting those demands by using a vast set of antennas. Despite the advantages of massive MIMO, to implement such systems comes with a huge price tag and consumes a lot of power. Hybrid beamforming (HBF) architecture has drawn considerable attention in the past few years, by significantly decreasing the amount of employed radio frequency (RF) chains and combining high dimensional analog beamforming (ABF) using phase shifters (PS) together with low dimensional digital beamforming (DBF). However, because of the extreme energy consumption and hardware complexity, traditional precoding designs are difficult to implement. In this paper, two HBF techniques are proposed to address the above issue. (i) low complexity precoding known as phased zero forcing (PZF) precoding, which controls phase only in the RF domain (ii) singular value decomposition (SVD) based optimal unconstrained precoding, that can be implemented on inexpensive RF components.

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多用户大规模MIMO系统的混合波束形成

无线通信对提高频谱效率(SE)和吞吐量的需求日益增长，使得大规模多输入多输出(MIMO)通过使用大量天线来满足这些需求成为一个很好的选择。尽管大规模MIMO具有优势，但实现这样的系统需要巨大的价格标签和大量的电力消耗。混合波束形成(HBF)架构在过去几年中引起了相当大的关注，它显著减少了射频(RF)链的使用数量，并将使用移相器(PS)的高维模拟波束形成(ABF)与低维数字波束形成(DBF)相结合。然而，由于极高的能耗和硬件复杂性，传统的预编码设计难以实现。本文提出了两种HBF技术来解决上述问题。(1)低复杂度预编码，称为相位零强制(PZF)预编码，仅在射频域控制相位;(2)基于奇异值分解(SVD)的最优无约束预编码，可在廉价的射频元件上实现。

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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Orclever Proceedings of Research and Development

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