Enabling densely-scalable low-power WSNs for shipping and industrial IoT

J. M. Williams, Juan Ruiz-Rosero, Rahul Khanna, G. Pisharody, Yi Qian, J. Wang, C. Carlson, H. Liu, G. Ramírez-González
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引用次数: 6

Abstract

Low-power technologies and communication protocols have enabled pervasive monitoring and the Internet of Things (IoT) for diverse applications. Yet, many wide-reaching use-cases such as shipping and industrial IoT (IIoT) demand next-generation energy-efficiency for wireless sensor networks (WSNs). The enormous growth requirements in this and related fields are not easily met by current state-of-the-art prototypes and comparisons are nontrivial among dozens of differentiating characteristics and impact factors. This work ideates a lightweight densely-scalable network of sensor nodes that must survive on a coin-cell battery for 15 days minimum, sending minute-to-minute alerts for remote analytics and control. This end-to-end solution enables status tracking throughout the shipping lifecycle with a quick-deploy WSN to detect damage/theft in near-real-time. This work contributes a scalable WSN (1) communication protocol, (2) software development kit, and (3) reference hardware. This full-stack system offers a self-configuring, customizable WSN for low-duty-cycle pervasive monitoring in a small, low-cost form-factor.
为航运和工业物联网提供密集可扩展的低功耗无线传感器网络
低功耗技术和通信协议使无孔不入的监控和物联网(IoT)的各种应用成为可能。然而,许多广泛的用例,如航运和工业物联网(IIoT),都需要无线传感器网络(wsn)的下一代能效。这个和相关领域的巨大增长需求是目前最先进的原型不容易满足的,在几十个不同的特征和影响因素之间进行比较是很重要的。这项工作设想了一个轻量级的密集可扩展的传感器节点网络,它必须在硬币电池上存活至少15天,每分钟发送一分钟的警报,用于远程分析和控制。这种端到端解决方案通过快速部署的WSN实现整个运输生命周期的状态跟踪,以近乎实时地检测损坏/盗窃。这项工作提供了一个可扩展的WSN(1)通信协议,(2)软件开发工具包和(3)参考硬件。该全栈系统提供自配置、可定制的WSN,以小型、低成本的形式实现低占空比的普适监控。
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