克服5G网络中非正交多址挑战的深度学习方法综述

Mohammed S. Alzaidi
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引用次数: 0

摘要

非正交多址(NOMA)是一种很有前途的5G无线网络多址方案。然而,NOMA面临着一些挑战,仍然需要以最佳方式解决。深度学习算法已被提出作为解决这些挑战的潜在解决方案。本综述概述了在5G网络中使用深度学习算法优化NOMA性能的情况。研究了如何在NOMA系统中应用深度学习方法进行资源分配、信道估计和检测、连续干扰消除和用户聚类。它们可以学习最优用户聚类、最优分配和干扰对齐策略,最终提高网络性能。此外,深度学习算法可以学习发送符号与接收信号之间的复杂关系,从而准确检测叠加信号。根据现有的研究,可以确定NOMA中的机遇和挑战,这些研究表明,应用深度学习算法比传统方法更好。本综述的主要贡献是深入了解深度学习算法在5G网络中显著提高NOMA性能的潜力。对于有兴趣在5G网络中使用深度学习算法的NOMA的研究人员和实践者来说,本文也是一份宝贵的资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep Learning Approaches for Overcoming Nonorthogonal Multiple Access Challenges in 5G Networks: A Review
Nonorthogonal multiple access (NOMA) is a promising multiple access scheme for 5G wireless networks. However, NOMA faces several challenges that still need to be solved optimally. Deep learning algorithms have been proposed as a potential solution to address these challenges. This review provides an overview of the use of deep learning algorithms to optimize NOMA performance in 5G networks. An investigation is conducted on how deep learning methods are applied in NOMA systems for resource allocation, channel estimation and detection, successive interference cancellation, and user clustering.They can learn optimal user clustering, optimal allocation, and interference alignment strategies, eventually boosting the network performance. In addition, deep learning algorithms can learn the complex relationships between the transmitted symbols and the received signal, leading to accurate detection of the superimposed signals. Opportunities and challenges in NOMA can be identified based on existing research showing how applying deep learning algorithms is better than conventional approaches. The main contribution of this review is to provide insights into the potential of deep learning algorithms to remarkably improve NOMA performance in 5G networks. This article is also a valuable resource for researchers and practitioners interested in using deep learning algorithms for NOMA in 5G networks.
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