Nash equilibrium for proactive anti-jamming in IEEE 802.15.4e (Emerging wireless sensor actuator technologies for I4.0)

2017 IEEE 15th International Conference on Industrial Informatics (INDIN) Pub Date : 2017-07-01 DOI:10.1109/INDIN.2017.8104764

Aydin E. Homay, M. Sousa, L. Almeida

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Abstract

An emerging trend in industry 4.0 is to use wireless communication infrastructure and mesh networks in applications requiring high reliability and safety. Although not a typical industrial production process, railway vehicular networks are also an industrial application which come with stringent reliability and safety requirements. Current research is focusing on using vehicular networks as an enabling technology to actively control the separation between two consecutive vehicles, enforcing a safe distance which is nevertheless much shorter than currently used to maintain vehicle separation. In this respect, we analyze a hopping strategy for Time-Slotted Channel-Hopping (TSCH), which was introduced in the IEEE 802.15.4e amendment with a view of improving the reliability of IEEE 802.15.4 networks. We define a probability framework to estimate the chance of successful hopping assuming two previously merged vehicles, and we design a zero-sum game and propose a payoff function to always place communicating nodes in a Nash equilibrium by choosing whether to hop or not, and therefore maximizing the communication throughput by mitigating jamming signals.

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IEEE 802.15.4e中主动抗干扰的纳什均衡(面向工业4.0的新兴无线传感器执行器技术)

工业4.0的一个新兴趋势是在需要高可靠性和安全性的应用中使用无线通信基础设施和网状网络。虽然不是典型的工业生产过程，但铁路车辆网络也是工业应用，具有严格的可靠性和安全性要求。目前的研究重点是利用车辆网络作为一种使能技术，主动控制两辆连续车辆之间的间隔，强制执行一个比目前用于保持车辆间隔的安全距离短得多的安全距离。在这方面，我们分析了IEEE 802.15.4e修正案中引入的时隙信道跳频(TSCH)跳频策略，以提高IEEE 802.15.4网络的可靠性。我们定义了一个概率框架来估计假设两个先前合并的车辆成功跳跃的机会，我们设计了一个零和博弈，并提出了一个支付函数，通过选择是否跳跃来始终将通信节点置于纳什均衡中，从而通过减少干扰信号来最大化通信吞吐量。

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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2017 IEEE 15th International Conference on Industrial Informatics (INDIN)

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