用于宽带多用户太赫兹通信的交叉近场和远场波束成形

IF 3.7 3区 计算机科学 Q2 TELECOMMUNICATIONS IEEE Communications Letters Pub Date : 2024-08-29 DOI:10.1109/LCOMM.2024.3451696
Junhan Xie;Chunbo Luo;Yang Luo
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引用次数: 0

摘要

太赫兹(THz)和亚太赫兹通信被视为下一代移动网络(6G)的关键技术。然而,太赫兹的亚毫米波长和超大规模多输入多输出(Ultra-massive MIMO)的扩大阵列孔径增加了瑞利距离,从而使太赫兹系统的工作覆盖范围跨越了近场和远场。同时,太赫兹波束成形中出现的波束分裂问题会严重影响系统性能。虽然近场和远场的波束分裂问题已被分别研究,但它仍然是无缝跨场通信的一个重大挑战。在这封信中,我们提出了一种适用于多用户的新型宽带太赫兹跨场通信方案。为了使总和速率最大化,我们提出了一种交替优化算法,它将原来的非凸问题分解为三个子问题。这些子问题的解是通过连续凸近似、分数编程和大化最小化技术获得的。仿真结果表明,我们提出的方案能有效实现跨场通信。
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Cross Near- and Far-Field Beamforming for Wideband Multi-User Terahertz Communications
Terahertz (THz) and sub-THz communications are visioned as the key technologies for the next generation mobile networks (6G). However, the sub-millimeter wavelength of THz and the enlarged array aperture of ultra-massive MIMO increase the Rayleigh distance, thereby making the working coverage of THz systems cross the near-field and far-field. Meanwhile, the beam split issue arisen in THz beamforming significantly impacts the system performance. Although the beam split issue in the near-field and far-field has been studied separately, it still remains a significant challenge for seamless cross-field communications. In this letter, we propose a novel wideband THz cross-field communication scheme for multiple users. An alternating optimization algorithm is proposed to maximize the sum-rate, which decomposes the original non-convex problem into three subproblems. The solutions to these subproblems are obtained by successive convex approximation, fractional programming and majorization minimization techniques. Simulation results demonstrate that our proposed scheme can achieve cross-field communication effectively.
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来源期刊
IEEE Communications Letters
IEEE Communications Letters 工程技术-电信学
CiteScore
8.10
自引率
7.30%
发文量
590
审稿时长
2.8 months
期刊介绍: The IEEE Communications Letters publishes short papers in a rapid publication cycle on advances in the state-of-the-art of communication over different media and channels including wire, underground, waveguide, optical fiber, and storage channels. Both theoretical contributions (including new techniques, concepts, and analyses) and practical contributions (including system experiments and prototypes, and new applications) are encouraged. This journal focuses on the physical layer and the link layer of communication systems.
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