Non-Linear Relay Optimization Using Deep-Learning Tools

IF 10.7 1区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Wireless Communications Pub Date : 2024-10-22 DOI:10.1109/TWC.2024.3481329

Itsik Bergel

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Abstract

Widespread deployment of relays can yield a significant boost in the throughput of forthcoming wireless networks. However, the optimal operation of large relay networks is still infeasible. This paper presents two approaches for the optimization of large relay networks. In the traditional approach, we formulate and solve an optimization problem where the relays are considered linear. In the second approach, we take an entirely new direction and consider the true non-linear nature of the relays. Using the similarity to neural networks, we leverage deep-learning methodology. Unlike previous applications of neural networks in wireless communications, where neural networks are added to the network to perform computational tasks, our deep relay optimization treats the relay network itself as a neural network. By exploiting the non-linear transfer function exhibited by each relay, we achieve over 15dB gain compared to traditional optimization methods. Moreover, we are able to implement part of the network functionality over the relay network. Our findings shed light on the potential of deep relay optimization, promising significant advancements in future wireless communication systems.

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利用深度学习工具进行非线性中继优化

广泛部署中继可以大大提高即将到来的无线网络的吞吐量。然而，大型中继网络的优化运行仍然是不可行的。本文提出了大型中继网络优化的两种方法。在传统的方法中，我们制定并解决了一个优化问题，其中继电器是线性的。在第二种方法中，我们采取了一个全新的方向，并考虑了继电器的真正非线性性质。利用与神经网络的相似性，我们利用了深度学习方法。与之前神经网络在无线通信中的应用不同，在无线通信中，神经网络被添加到网络中来执行计算任务，我们的深度中继优化将中继网络本身视为神经网络。通过利用每个继电器的非线性传递函数，与传统的优化方法相比，我们获得了超过15dB的增益。此外，我们能够在中继网络上实现部分网络功能。我们的发现揭示了深度中继优化的潜力，有望在未来的无线通信系统中取得重大进展。

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来源期刊

IEEE Transactions on Wireless Communications 工程技术-电信学

CiteScore

18.60

自引率

10.60%

发文量

708

审稿时长

5.6 months

期刊介绍： The IEEE Transactions on Wireless Communications is a prestigious publication that showcases cutting-edge advancements in wireless communications. It welcomes both theoretical and practical contributions in various areas. The scope of the Transactions encompasses a wide range of topics, including modulation and coding, detection and estimation, propagation and channel characterization, and diversity techniques. The journal also emphasizes the physical and link layer communication aspects of network architectures and protocols. The journal is open to papers on specific topics or non-traditional topics related to specific application areas. This includes simulation tools and methodologies, orthogonal frequency division multiplexing, MIMO systems, and wireless over optical technologies. Overall, the IEEE Transactions on Wireless Communications serves as a platform for high-quality manuscripts that push the boundaries of wireless communications and contribute to advancements in the field.