User mobility into NOMA assisted communication: Analysis and a Reinforcement Learning with Neural Network based approach

Q2 Engineering EAI Endorsed Transactions on Industrial Networks and Intelligent Systems Pub Date : 2021-01-01 DOI:10.4108/eai.7-1-2021.167841

Antonino Masaracchia, M. Nguyen, A. Kortun

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引用次数: 4

Abstract

This article proposes a performance analysis of a non-orthogonal multiple access (NOMA) transmission system in the presence of user mobility. The main objective is to illustrate how the users’ mobility can affect the system performance in terms of downlink aggregated throughput, downlink network fairness, and percentage of quality-of-service requirement guaranteed. The idea behind is to highlight the importance to take into account user mobility in designing power allocation policies for NOMA systems. It is shown how the communication technologies are mainly dependent from channel state information (CSI) which in turns depends on users’ mobility. In addition a reinforcement learning (RL) to tackle with user mobility is proposed. Performance investigations regarding the proposed framework have shown how the network performances in presence of users’ mobility can be improved, especially when a feed-forward neural network is used as CSI estimator. Received on 10 December 2020; accepted on 19 December 2020; published on 07 January 2021

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用户移动性进入NOMA辅助通信:分析和基于神经网络的强化学习方法

提出了一种存在用户移动性的非正交多址(NOMA)传输系统的性能分析方法。主要目的是说明用户的移动性如何影响系统性能，包括下行链路聚合吞吐量、下行链路网络公平性和保证服务质量需求的百分比。其背后的思想是强调在为NOMA系统设计电力分配策略时考虑用户移动性的重要性。研究表明，通信技术主要依赖于信道状态信息，而信道状态信息又依赖于用户的移动性。此外，还提出了一种强化学习(RL)方法来解决用户移动性问题。关于所提出的框架的性能调查表明，在存在用户移动性的情况下，网络性能可以得到改善，特别是当使用前馈神经网络作为CSI估计器时。2020年12月10日收到;2020年12月19日接受;于2021年1月7日发布

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