A Formal and Efficient Routing Model for Persistent Traffics in the Internet of Things

2020 Conference on Information Communications Technology and Society (ICTAS) Pub Date : 2020-03-01 DOI:10.1109/ICTAS47918.2020.234002

Emmanuel Tuyishimire, A. Bagula

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引用次数: 3

Abstract

Emerging internet of things applications are predicting deployment of sensor devices in thousands of computing elements into multi-technology and multi-protocol platforms. In this complex system, access to information will be available not only at any time and anywhere, but also using anything. The efficient management of such a complex system is still a subject of research. This paper revisits the "Least Interference Beaconing Algorithm" (LIBA) recently proposed for IoT settings and proposes preventive mechanisms to ensure efficient performance in terms of traffic engineering for emerging Internet of Things (IOT). It reveals the LIBA issues and address them by proposing a persistently correct routing algorithm. Using Z notation, the proposed algorithm referred to as PLIBA (Persistent Least Interference Routing Algorithm), is formalised and its properties leading to its correctness are formally stated and proven. Simulations show how step by step, the proposed algorithm corrects LIBA and how it improves the performance in terms of load balancing.

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物联网持久流量的形式化高效路由模型

新兴的物联网应用预测，数千个计算元素中的传感器设备将部署到多技术和多协议平台中。在这个复杂的系统中，不仅可以随时随地获取信息，而且可以使用任何东西获取信息。如何对这样一个复杂的系统进行有效的管理仍然是一个研究课题。本文回顾了最近为物联网设置提出的“最小干扰信标算法”(LIBA)，并提出了预防机制，以确保新兴物联网(IoT)流量工程的高效性能。它揭示了LIBA问题，并通过提出持久正确的路由算法来解决这些问题。使用Z符号，所提出的算法被称为PLIBA(持久最小干扰路由算法)，被形式化，其导致其正确性的性质被形式化地陈述和证明。仿真结果表明，该算法逐步纠正了LIBA，并在负载平衡方面提高了性能。

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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2020 Conference on Information Communications Technology and Society (ICTAS)

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