Beamspace ESPRIT for mmWave Channel Sensing: Performance Analysis and Beamformer Design

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Sina Shahsavari, P. Sarangi, P. Pal
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引用次数: 1

Abstract

In this paper, we consider the beamspace ESPRIT algorithm for Millimeter-Wave (mmWave) channel sensing. We provide a non-asymptotic analysis of the beamspace ESPRIT algorithm. We derive a deterministic upper bound for the matching distance error between the true angle of arrival (AoA) of the channel paths and the estimated AoA considering a bounded noise model. Additionally, we leverage the insight obtained from our theoretical analysis to propose a novel max-min criterion for beamformer design which can enhance the performance of mmWave channel estimation algorithms, including beamspace ESPRIT. We consider a family of multi-resolution beamformers which can be implemented using phase shifters and introduce a design scheme for the optimal beamformers from this family with respect to the proposed max-min criteria. We can guarantee a minimum beamforming gain uniformly over a region of possible multipath directions, which can lead to more robust channel estimation. We provide several numerical experiments to verify our theoretical claims and demonstrate the superior performance of the proposed beamformers compared to existing beamformer design criteria.
用于毫米波通道传感的波束空间ESPRIT:性能分析和波束形成器设计
在本文中,我们考虑了波束空间ESPRIT算法用于毫米波(mmWave)通道传感。我们提供了波束空间ESPRIT算法的非渐近分析。在考虑有界噪声模型的情况下,导出了信道路径的真实到达角与估计到达角之间匹配距离误差的确定性上界。此外,我们利用从理论分析中获得的见解,提出了一种新的波束形成器设计的最大最小准则,该准则可以提高毫米波信道估计算法的性能,包括波束空间ESPRIT。我们考虑了一组可以使用移相器实现的多分辨率波束形成器,并介绍了一种基于所提出的最大最小准则的最佳波束形成器的设计方案。我们可以保证在可能的多径方向区域内均匀地获得最小波束形成增益,这可以导致更鲁棒的信道估计。我们提供了几个数值实验来验证我们的理论主张,并证明了与现有波束形成器设计标准相比,所提出的波束形成器具有优越的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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