Carrier-Sense Multiple Access for Heterogeneous Wireless Networks Using Deep Reinforcement Learning

2019 IEEE Wireless Communications and Networking Conference Workshop (WCNCW) Pub Date : 2018-10-16 DOI:10.1109/WCNCW.2019.8902705

Yiding Yu, S. Liew, Taotao Wang

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引用次数: 11

Abstract

This paper investigates a new class of carrier-sense multiple access (CSMA) protocols that employ deep reinforcement learning (DRL) techniques for heterogeneous wireless networking, referred to as carrier-sense deep-reinforcement learning multiple access (CS-DLMA). Existing CSMA protocols, such as the medium access control (MAC) of WiFi, are designed for a homogeneous network environment in which all nodes adopt the same protocol. Such protocols suffer from severe performance degradation in a heterogeneous environment where there are nodes adopting other MAC protocols. This paper shows that DRL techniques can be used to design efficient MAC protocols for heterogeneous networking. In particular, in a heterogeneous environment with nodes adopting different MAC protocols (e.g., CS-DLMA, TDMA, and ALOHA), a CS-DLMA node can learn to maximize the sum throughput of all nodes. Furthermore, compared with WiFi’s CSMA, CS-DLMA can achieve both higher sum throughput and individual throughputs when co-existing with other MAC protocols. Last but not least, a salient feature of CS-DLMA is that it does not need to know the operating mechanisms of the co-existing MACs. Neither does it need to know the number of nodes using these other MACs.

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基于深度强化学习的异构无线网络载波感知多址接入

本文研究了一类新的载波感知多址(CSMA)协议，该协议采用深度强化学习(DRL)技术用于异构无线网络，称为载波感知深度强化学习多址(CS-DLMA)。现有的CSMA协议，如WiFi的介质访问控制(MAC)，是针对所有节点采用相同协议的同构网络环境而设计的。这种协议在异构环境中会遭受严重的性能下降，因为存在采用其他MAC协议的节点。本文表明，DRL技术可以用于设计高效的异构网络MAC协议。特别是在节点采用不同MAC协议(如CS-DLMA、TDMA和ALOHA)的异构环境中，CS-DLMA节点可以学习使所有节点的吞吐量总和最大化。此外，与WiFi的CSMA相比，CS-DLMA在与其他MAC协议共存时可以实现更高的总吞吐量和单个吞吐量。最后但并非最不重要的是，CS-DLMA的一个显著特征是它不需要知道共存mac的操作机制。它也不需要知道使用这些其他mac的节点数量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Wireless Communications and Networking Conference Workshop (WCNCW)

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