RIS-IoT: Towards Resilient, Interoperable, Scalable IoT

2022 ACM/IEEE 13th International Conference on Cyber-Physical Systems (ICCPS) Pub Date : 2022-05-01 DOI:10.1109/iccps54341.2022.00039

B. Sudharsan, Panchakarla S. Rahul, Piyush Yadav, S. Gupta, Vimal Kumar, Duc-Duy Nguyen, M. Ali, J. Breslin

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Abstract

With the introduction of ultra-low-power machine learning (TinyML), IoT devices are becoming smarter as they are driven by ML models. However, any loss of communication at the device level can lead to a failure of the entire IoT system or misleading information trans-mission. Since there exist numerous heterogeneous devices within an IoT system, it is not feasible to centrally monitor all devices or explore system logs to determine communication loss. In this work, to maintain the highest possible communication quality and enable devices adapt according to context changes, we implement a lightweight ML-based adaptive strategy (ASB) and deploy it using a memory-optimized approach over the designed Pycom FiPy based multi-protocol IoT hardware. In real-world ex-periments, ASB equipped FiPy board accurately predicted the RSSI of WiFi 4 & WiFi 5 in real-time and switched between protocols - demonstrating interoperability amongst multiple IoT communication protocols and resilience against communication breakdown.

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RIS-IoT:迈向弹性、可互操作、可扩展的物联网

随着超低功耗机器学习(TinyML)的引入，物联网设备正变得越来越智能，因为它们是由ML模型驱动的。然而，设备级的任何通信丢失都可能导致整个物联网系统的故障或误导性信息传输。由于物联网系统中存在大量异构设备，因此无法集中监控所有设备或探索系统日志以确定通信丢失。在这项工作中，为了保持尽可能高的通信质量并使设备能够根据上下文变化进行适应，我们实现了一个轻量级的基于ml的自适应策略(ASB)，并在设计的基于Pycom FiPy的多协议物联网硬件上使用内存优化方法进行部署。在现实世界的实验中，配备ASB的FiPy板实时准确地预测了WiFi 4和WiFi 5的RSSI，并在协议之间进行切换-展示了多个物联网通信协议之间的互操作性和对通信中断的弹性。

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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2022 ACM/IEEE 13th International Conference on Cyber-Physical Systems (ICCPS)

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