Wireless Mediation of Multiple Equi-Priority Events in Time-Critical Industrial Applications

Proceedings of the 1st ACM MobiHoc Workshop on Networking and Cybersecurity for Smart Cities Pub Date : 2018-06-25 DOI:10.1145/3214701.3214703

S. Hassan, Aamir Mahmood, Syed Ali Hassan, M. Gidlund

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引用次数: 5

Abstract

Wireless technologies are nowadays being considered for implementation in industrial automation. However due to strict reliability and timeliness requirements of time-critical applications, there are many open research challenges for the merger of wireless technologies with the industrial systems. Although many medium access and control (MAC) protocols are proposed in recent years, a coherent effort on both the physical (PHY) and MAC layers is needed. In this paper, we propose a protocol termed as multiple equi-priority MAC (MEP-MAC) which combines the functions of MAC and PHY layers: the MAC layer ensures a deterministic behavior of the system by assigning priorities to the nodes, while non-orthogonal multiple access (NOMA) at PHY layer enables multiple nodes of equal priorities to simultaneously gain the channel access and transmit data to the gateway. We adapt a discrete-time Markov chain (DTMC) model to handle multiple nodes of equal priorities and perform the analytical analysis of the proposed protocol. The results show that the proposed protocol can provide up to 70% and 40% improvement in terms of system throughput and latency respectively as compared to a system that does not leverage NOMA at PHY layer.

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时间关键工业应用中多个等优先级事件的无线中介

无线技术目前正被考虑在工业自动化中实施。然而，由于时间关键型应用对可靠性和时效性的严格要求，无线技术与工业系统的融合存在许多开放性的研究挑战。尽管近年来提出了许多介质访问和控制(MAC)协议，但需要在物理层(PHY)和MAC层上进行一致的努力。在本文中，我们提出了一种称为多重等优先级MAC (MEP-MAC)的协议，它结合了MAC层和PHY层的功能:MAC层通过为节点分配优先级来确保系统的确定性行为，而PHY层的非正交多址(NOMA)使多个同等优先级的节点同时获得通道访问并向网关传输数据。我们采用离散时间马尔可夫链(DTMC)模型来处理同等优先级的多个节点，并对所提出的协议进行分析分析。结果表明，与在物理层不使用NOMA的系统相比，所提出的协议在系统吞吐量和延迟方面分别可以提供高达70%和40%的改进。

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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Proceedings of the 1st ACM MobiHoc Workshop on Networking and Cybersecurity for Smart Cities

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