交通基础设施监测无线传感器网络的环境能量收集和自我可持续性

Jin Zhu, Laura Hattaway, Sultan Altamimi
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引用次数: 1

摘要

由于任何一种桥梁监控系统的成本都很大一部分在于其布线和安装成本,因此无线传感器网络的应用对于桥梁监控的广泛应用具有重要意义。然而,有限的电力存储(需要更换电池)仍然是阻碍无线传感器网络部署的主要技术挑战,尽管将其用于结构监测具有许多优势。因此,无线传感器节点能够从周围环境中获取能量,为传感、处理和通信操作提供动力是非常有吸引力的。本文研究了用于桥梁监测的无线传感器的环境能量收集问题以及如何实现完全的自我持续。对桥梁监测应用中可用的能源进行了研究。实现了一种无线传感器系统,并给出了其能耗曲线的测试结果。通过仔细的预算,对于一些环境能量收集的应用来说,实现完全的自我可持续性是可行的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ambient energy harvesting and self-sustainability for transportation infrastructure monitoring wireless sensor networks
Due to the fact that a significant cost of any bridge monitoring system lies in the cost of cabling and its installation, the application of wireless sensor networks is of great importance to the widespread use of bridge monitoring. However, limited power storage, which requires battery replacement, remains a major technical challenge that hinders the deployment of wireless sensor networks, despite the many advantages of using them for structure monitoring. Thus it is very attractive for wireless sensor nodes to be able to harvest energy from the ambient environment to provide power for the sensing, processing, and communications operations. In the paper, we studied the ambient energy harvesting problem of wireless sensors for bridge monitoring and how to achieve complete self-sustainability. The available energy resources were investigated for the bridge monitoring application. A wireless sensor system was implemented and test results on its energy consumption profiles were provided. With careful budgeting it is feasible to achieve complete self-sustainability for some applications with ambient energy harvesting.
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