Refracting Reconfigurable Intelligent Surface Assisted URLLC for Millimeter Wave High-Speed Train Communication Coverage Enhancement

Changzhu Liu, Ruisi He, Yong Niu, Shiwen Mao, Bo Ai, Ruifeng Chen
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Abstract

High-speed train (HST) has garnered significant attention from both academia and industry due to the rapid development of railways worldwide. Millimeter wave (mmWave) communication, known for its large bandwidth is an effective way to address performance bottlenecks in cellular network based HST wireless communication systems. However, mmWave signals suffer from significant path loss when traversing carriage, posing substantial challenges to cellular networks. To address this issue, reconfigurable intelligent surfaces (RIS) have gained considerable interest for its ability to enhance cell coverage by reflecting signals toward receiver. Ensuring communication reliability, a core performance indicators of ultra-reliable and low-latency communications (URLLC) in fifth-generation systems, is crucial for providing steady and reliable data transmissions along railways, particularly for delivering safety and control messages and monitoring HST signaling information. In this paper, we investigate a refracting RIS-assisted multi-user multiple-input single-output URLLC system in mmWave HST communications. We propose a sum rate maximization problem, subject to base station beamforming constraint, as well as refracting RIS discrete phase shifts and reliability constraints. To solve this optimization problem, we design a joint optimization algorithm based on alternating optimization method. This involves decoupling the original optimization problem into active beamforming design and packet error probability optimization subproblem, and discrete phase shift design subproblems. These subproblems are addressed exploiting Lagrangian dual method and the local search method, respectively. Simulation results demonstrate the fast convergence of the proposed algorithm and highlight the benefits of refracting RIS adoption for sum rate improvement in mmWave HST networks.
用于毫米波高速列车通信覆盖增强的可折射可重构智能表面辅助 URLLC
随着全球铁路的快速发展,高速列车(HST)引起了学术界和工业界的极大关注。毫米波(mmWave)通信以带宽大而著称,是解决基于蜂窝网络的高速列车无线通信系统性能瓶颈的有效方法。然而,毫米波信号在穿越车厢时会出现严重的路径损耗,给蜂窝网络带来巨大挑战。为解决这一问题,可重构智能表面(RIS)因其通过向接收器反射信号来增强蜂窝覆盖范围的能力而备受关注。确保通信可靠性是第五代系统中超可靠和低延迟通信(URLLC)的核心性能指标,这对于在铁路沿线提供稳定可靠的数据传输至关重要,尤其是在传输安全和控制信息以及监控 HST 信号信息方面。本文研究了毫米波 HST 通信中的折射 RIS 辅助多用户多输入单输出URLLC 系统。我们提出了一个总速率最大化问题(sum rate maximizationproblem),该问题受到基站波束成形约束、折射 RIS 离散相移和可靠性约束的限制。为了解决这个优化问题,我们设计了一种基于交替优化方法的联合优化算法。这包括将原始优化问题解耦为主动波束成形设计和数据包误差概率优化子问题,以及离散相移设计子问题。分别利用拉格朗日对偶法和局部搜索法解决这些子问题。仿真结果证明了所提算法的快速收敛性,并突出了采用折射 RIS 提高毫米波 HST 网络总和速率的优势。
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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