Beam Structured Signal Detector for HF Skywave Massive MIMO-OFDM Communications

IF 10.7 1区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Wireless Communications Pub Date : 2024-10-25 DOI:10.1109/TWC.2024.3483784

Ding Shi;Linfeng Song;Xiqi Gao;Jiaheng Wang;Mats Bengtsson;Geoffrey Ye Li

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Abstract

In this paper, we investigate signal detection for HF skywave massive multiple-input multiple-output (MIMO) communications with orthogonal frequency division multiplexing (OFDM) modulation. We first introduce beam based channel models (BBCM) in the space domain at each subcarrier and in the space-frequency domain for all subcarriers. Based on the BBCM in the space domain, we propose a beam structured detector (BSD) for each subcarrier. Specifically, we prove that the space domain detector design can be transformed into that of a beam domain detector without sacrificing optimality, and the asymptotically optimal space domain detector is beam structured with a low-dimensional beam domain detector, thus significantly reducing the design and implementation complexities. Furthermore, we extend the BSD to the space-frequency domain based on the BBCM jointly for all subcarriers. The design of space-frequency domain detector is also converted to that of a low-dimensional beam domain detector, which enables a very efficient design and implementation of BSD. Simulation results demonstrate the low complexity and satisfactory performance of the proposed detectors.

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用于高频天波大规模 MIMO-OFDM 通信的波束结构信号检测器

本文研究了正交频分复用（OFDM）调制下高频天波海量多输入多输出（MIMO）通信的信号检测问题。我们首先在每个子载波的空间域和所有子载波的空间频域引入基于波束的信道模型（BBCM）。基于空间域的BBCM，我们提出了每个子载波的波束结构检测器（BSD）。具体来说，我们证明了空间域探测器的设计可以在不牺牲最优性的情况下转化为波束域探测器的设计，并且渐近最优空间域探测器是由低维波束域探测器构成的波束结构，从而大大降低了设计和实现的复杂性。在此基础上，对所有子载波联合将BSD扩展到空频域。将空间频域探测器的设计转换为低维波束域探测器的设计，使得BSD的设计和实现非常高效。仿真结果表明，该检测器具有较低的复杂度和良好的性能。

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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来源期刊

IEEE Transactions on Wireless Communications 工程技术-电信学

CiteScore

18.60

自引率

10.60%

发文量

708

审稿时长

5.6 months

期刊介绍： The IEEE Transactions on Wireless Communications is a prestigious publication that showcases cutting-edge advancements in wireless communications. It welcomes both theoretical and practical contributions in various areas. The scope of the Transactions encompasses a wide range of topics, including modulation and coding, detection and estimation, propagation and channel characterization, and diversity techniques. The journal also emphasizes the physical and link layer communication aspects of network architectures and protocols. The journal is open to papers on specific topics or non-traditional topics related to specific application areas. This includes simulation tools and methodologies, orthogonal frequency division multiplexing, MIMO systems, and wireless over optical technologies. Overall, the IEEE Transactions on Wireless Communications serves as a platform for high-quality manuscripts that push the boundaries of wireless communications and contribute to advancements in the field.