基于在线学习的多 RIS 辅助无线系统

IF 4 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Ishaan Sharma;Rohit Kumar;Sumit J. Darak
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引用次数: 0

摘要

软件定义无线电和可重新配置智能表面(RIS)的发展实现了对物理层参数和无线电传播环境的实时控制和重新配置。在多 RIS 辅助通信中,从一个或多个 RIS 中选择由一定数量的 RIS 元素组成的 RIS 块,以实现发射器和接收器之间的高吞吐量可靠通信。然而,由于候选块数量众多,在有多个 RIS 和接收器的情况下选择 RIS 块并非易事。本文提出了一种新颖的多臂匪徒(MAB)框架,它可以通过集中探索来学习和选择最佳 RIS 块。我们提供了所提算法的理论遗憾边界,并通过详细的仿真结果,从速率、遍历容量、中断概率、能效和接收信噪比等方面证明了与现有的最先进统计方法和 MAB 方法相比,所提算法在性能上的优势。在各种边缘平台上,拟议算法的延迟比现有 MAB 算法低 33%-85%。此外,随着网络中 RIS 数量和规模的增加,性能和延迟方面的增益也会提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Online-Learning-Based Multi-RIS-Aided Wireless Systems
The evolution of software-defined radios and reconfigurable intelligent surfaces (RIS) has enabled on-the-fly control and reconfigurability at the physical layer parameters and radio propagation environment. In multi-RIS-aided communication, the RIS block, comprising a certain number of RIS elements from one or more RIS, is selected to achieve high throughput reliable communication between transmitter and receiver. However, selecting an RIS block when there are multiple RIS and receivers is not trivial due to the large number of candidate blocks. In this article, a novel multiarmed bandit (MAB) framework, which can learn and select the optimal RIS block using focused exploration, is proposed. We provide the theoretical regret bound for the proposed algorithm and demonstrate the gain in performance over existing state-of-the-art statistical and MAB approaches via detailed simulation results in terms of rate, ergodic capacity, outage probability, energy efficiency, and received SNR. The proposed algorithm offers 33%–85% lower latency than existing MAB algorithms on various edge platforms. Furthermore, the gain in performance and latency improves with the increase in the number and size of the RIS in the network.
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来源期刊
IEEE Systems Journal
IEEE Systems Journal 工程技术-电信学
CiteScore
9.80
自引率
6.80%
发文量
572
审稿时长
4.9 months
期刊介绍: This publication provides a systems-level, focused forum for application-oriented manuscripts that address complex systems and system-of-systems of national and global significance. It intends to encourage and facilitate cooperation and interaction among IEEE Societies with systems-level and systems engineering interest, and to attract non-IEEE contributors and readers from around the globe. Our IEEE Systems Council job is to address issues in new ways that are not solvable in the domains of the existing IEEE or other societies or global organizations. These problems do not fit within traditional hierarchical boundaries. For example, disaster response such as that triggered by Hurricane Katrina, tsunamis, or current volcanic eruptions is not solvable by pure engineering solutions. We need to think about changing and enlarging the paradigm to include systems issues.
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