Reconfigurable Intelligent Surface Assisted VEC Based on Multi-Agent Reinforcement Learning

IF 3.7 3区 计算机科学 Q2 TELECOMMUNICATIONS IEEE Communications Letters Pub Date : 2024-08-28 DOI:10.1109/LCOMM.2024.3451182
Kangwei Qi;Qiong Wu;Pingyi Fan;Nan Cheng;Qiang Fan;Jiangzhou Wang
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Abstract

Vehicular edge computing (VEC) is an emerging technology that enables vehicles to perform high-intensity tasks by executing tasks locally or offloading them to nearby edge devices. However, obstacles may degrade the communications and incur communication interruptions, and thus the vehicle may not meet the requirement for task offloading. Reconfigurable intelligent surfaces (RIS) is introduced to support vehicle communication and provide an alternative communication path. The system performance can be improved by flexibly adjusting the phase-shift of the RIS. For RIS-assisted VEC system where tasks arrive randomly, we design a control scheme that considers offloading power, local power allocation and phase-shift optimization. To solve this non-convex problem, we propose a new deep reinforcement learning (DRL) framework that employs modified multi-agent deep deterministic policy gradient (MADDPG) approach to optimize the power allocation for vehicle users (VUs) and block coordinate descent (BCD) algorithm to optimize the phase-shift of the RIS. Simulation results show that our proposed scheme outperforms the centralized deep deterministic policy gradient (DDPG) scheme and random scheme.
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基于多代理强化学习的可重构智能表面辅助 VEC
车载边缘计算(VEC)是一项新兴技术,可使车辆通过在本地执行任务或将任务卸载到附近的边缘设备来执行高强度任务。然而,障碍物可能会降低通信性能并导致通信中断,因此车辆可能无法满足任务卸载的要求。可重构智能表面(RIS)被引入来支持车辆通信并提供替代通信路径。通过灵活调整 RIS 的相移,可以提高系统性能。对于任务随机到达的 RIS 辅助 VEC 系统,我们设计了一种考虑卸载功率、本地功率分配和相移优化的控制方案。为了解决这个非凸问题,我们提出了一种新的深度强化学习(DRL)框架,采用改进的多代理深度确定性策略梯度(MADDPG)方法来优化车辆用户(VUs)的功率分配,并采用块坐标下降(BCD)算法来优化 RIS 的相移。仿真结果表明,我们提出的方案优于集中式深度确定性策略梯度(DDPG)方案和随机方案。
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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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