Design of a Robust MAC Protocol for LoRa

IF 3.5 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Internet of Things Pub Date : 2022-09-16 DOI:10.1145/3557048

Absar-Ul-Haque Ahmar, Emekcan Aras, T. D. Nguyen, Sam Michiels, W. Joosen, D. Hughes

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Abstract

Low-power wide-area networks enable large-scale deployments of low-power wireless devices. LoRaWAN is a long-range wireless technology that has emerged as a low-power and low data rate solution to support Internet of Things applications. Although LoRaWAN provides a low-power and cost-efficient networking solution, recent literature shows that it performs poorly in terms of reliability and security in dense deployments due to the uncoordinated (ALOHA-based) nature of the MAC (medium access control) protocol. Furthermore, LoRaWAN is not robust against selective jamming attacks. This article proposes CRAM: a time-synchronized cryptographic frequency hopping MAC protocol designed for the LoRa physical layer. CRAM reduces the contention by fairly exploiting the available frequency space and maximizes the entropy of the channel hopping algorithm. We develop a large physical testbed and a simulator to thoroughly evaluate the proposed protocol. Our evaluations show that CRAM significantly improves reliability and scalability and increases channel utilization while making selective jamming difficult to perform compared to the standard LoRaWAN protocol.

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LoRa的鲁棒MAC协议设计

低功耗广域网使低功耗无线设备的大规模部署成为可能。LoRaWAN是一种远程无线技术，已成为支持物联网应用的低功耗和低数据速率解决方案。尽管LoRaWAN提供了一种低功耗和低成本的网络解决方案，但最近的文献表明，由于MAC(介质访问控制)协议的不协调(基于aloha)性质，它在密集部署中的可靠性和安全性方面表现不佳。此外，LoRaWAN对选择性干扰攻击的鲁棒性不强。本文提出了一种针对LoRa物理层设计的时间同步加密跳频MAC协议CRAM。CRAM通过充分利用可用的频率空间来减少争用，并使信道跳频算法的熵最大化。我们开发了一个大型物理测试平台和模拟器来彻底评估所提出的协议。我们的评估表明，与标准的LoRaWAN协议相比，CRAM显著提高了可靠性和可扩展性，增加了信道利用率，同时使选择性干扰难以执行。

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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