A Secure Lightweight Wireless M-Bus Protocol for IoT: Leveraging the Noise Protocol Framework

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2024-10-04 DOI:10.1109/ICJECE.2024.3409156

Wafaa Anani;Abdelkader Ouda

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Abstract

Abstract-The escalating demand for secure communication in the Internet of Things (IoT), particularly in energy-sensitive devices such as smart meters, highlights a critical challenge: achieving robust security without excessive energy consumption. While various solutions have been proposed to minimize energy use, many fail to address the unique constraints of the IoT devices effectively. This article introduces an innovative approach by proposing a secure, lightweight wireless meter-bus (wM-Bus) protocol, specifically designed for the stringent resource constraints of the IoT environments. By incorporating the noise protocol framework (NPF), our protocol significantly reduces computational and power requirements without compromising security integrity. Through a methodical implementation that spanned five distinct phases, including a comparative analysis with the conventional transport layer security (TLS), our findings are compelling. The NPF, particularly with its NX and XX patterns, dramatically surpasses TLS in performance, extending operational lifetimes to approximately 9 and 7.88 years, respectively, in contrast to the 3.81 years offered by TLS. These results not only demonstrate the superior efficiency of the NPF in the IoT settings but also highlight its potential in striking an optimal balance between security and operational longevity.

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物联网安全轻量级无线M-Bus协议：利用噪声协议框架

物联网（IoT）中对安全通信的需求不断增长，特别是在智能电表等能源敏感设备中，这凸显了一个关键挑战：在不过度消耗能源的情况下实现强大的安全性。虽然已经提出了各种解决方案来最大限度地减少能源使用，但许多解决方案未能有效地解决物联网设备的独特限制。本文介绍了一种创新的方法，提出了一种安全、轻量级的无线仪表总线（wM-Bus）协议，专门为物联网环境的严格资源约束而设计。通过合并噪声协议框架（NPF），我们的协议在不影响安全完整性的情况下显着降低了计算和功耗需求。通过跨越五个不同阶段的系统实现，包括与传统传输层安全性（TLS）的比较分析，我们的发现令人信服。NPF，特别是其NX和XX模式，在性能上大大超过了TLS，将使用寿命分别延长到大约9年和7.88年，而TLS提供的使用寿命为3.81年。这些结果不仅证明了NPF在物联网环境中的卓越效率，而且还突出了其在安全性和运行寿命之间取得最佳平衡的潜力。

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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来源期刊

IEEE Canadian Journal of Electrical and Computer Engineering

CiteScore

3.70

自引率

0.00%

发文量