大规模MIMO系统中有限反馈的优化混合波束形成方法

Kaiyue Yan, Yan Yang, Yushu Zhang, Yuan Zhu
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引用次数: 0

摘要

由于数字链数量的限制,混合波束形成结构可用于大规模多输入多输出(MIMO)系统,其中eNodeB可以维持多个模拟Tx波束。为了获得更高的频谱效率,进一步提出了两种基于幅度或角度插值算法的模拟波束插值方法,以提高下行模拟波束形成的精度。本文利用来自用户设备(UE)的典型信道状态信息(CSI)来确定候选发射波束。特别是,通过利用相邻候选波束的空间相关性,通过插值上行控制信息(UCI)报告中的两个最强波束,可以生成每个UE的最佳下行模拟波束。此外,我们开发了一种有限的CSI反馈,以减轻传统频分双工(FDD)大规模mimo系统中的反馈负荷,从而提高覆盖范围和频谱效率。仿真结果表明,利用模拟波束插值可以显著提高下行频谱效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimized hybrid beamforming method with limited feedback in Massive MIMO systems
Due to the limitation of digital chains' number, the hybrid beamforming structure may be utilized for massive Multiple Input and Multiple Output (MIMO) systems, where the eNodeB may maintain a number of analog Tx beams. To achieve higher spectral efficiency, two analog beam interpolation methods are further proposed to enhance the accuracy of downlink analog beamforming, which based on amplitude or angle interpolation algorithm. In this paper, the typical channel state information(CSI) from user equipment (UE) is used to determine the candidate Transmitting (Tx) beams. Especially, by exploiting the spatial correlation of neighbor candidate beams, the best downlink analog Tx beam for each UE can be generated by interpolating the two strongest Tx beams from the Uplink Control Informat ion (UCI) report. Moreover, we develop a limited CSI feedback to alleviate the feedback load in traditional frequency division duplexing (FDD) Massive-MIMO systems, giving rise to better coverage and spectrum efficiency. Simulation results show that with the help of analog beam interpolation, the downlink spectrum efficiency can be significantly increased.
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