Triple-Refined Hybrid-Field Beam Training for mmWave Extremely Large-Scale MIMO

Kangjian Chen, Chenhao Qi, Octavia A. Dobre, Geoffrey Ye Li
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Abstract

This paper investigates beam training for extremely large-scale multiple-input multiple-output systems. By considering both the near field and far field, a triple-refined hybrid-field beam training scheme is proposed, where high-accuracy estimates of channel parameters are obtained through three steps of progressive beam refinement. First, the hybrid-field beam gain (HFBG)-based first refinement method is developed. Based on the analysis of the HFBG, the first-refinement codebook is designed and the beam training is performed accordingly to narrow down the potential region of the channel path. Then, the maximum likelihood (ML)-based and principle of stationary phase (PSP)-based second refinement methods are developed. By exploiting the measurements of the beam training, the ML is used to estimate the channel parameters. To avoid the high computational complexity of ML, closed-form estimates of the channel parameters are derived according to the PSP. Moreover, the Gaussian approximation (GA)-based third refinement method is developed. The hybrid-field neighboring search is first performed to identify the potential region of the main lobe of the channel steering vector. Afterwards, by applying the GA, a least-squares estimator is developed to obtain the high-accuracy channel parameter estimation. Simulation results verify the effectiveness of the proposed scheme.
用于毫米波超大规模多输入多输出的三重定义混合场波束训练
本文研究了超大规模多输入多输出系统的波束训练。通过同时考虑近场和远场,提出了一种三重细化混合场波束训练方案,通过三步渐进式波束细化获得高精度的信道参数估计。首先,开发了基于混合场波束增益(HFBG)的第一次细化方法。然后,开发了基于最大似然(ML)和基于静止相位原理(PSP)的第二次细化方法。通过利用波束训练的主题测量,最大似然法被用来估计信道参数。为了避免 ML 的高计算复杂性,根据 PSP 得出了信道参数的闭式估计值。此外,还开发了基于高斯近似(GA)的第三次细化方法。首先进行混合场邻域搜索,以确定信道转向矢量主叶的潜在区域。然后,通过应用 GA,开发出最小二乘估计器,以获得高精度信道参数估计。仿真结果验证了所提方案的有效性。
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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