Optimum topological configurations of sensor networks

Proceedings of the 2019 European Conference on Computing in Construction Pub Date : 2019-07-10 DOI:10.35490/EC3.2019.206

R. Greco, G. Marano

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Abstract

mportant task in the dynamic assessment of the mechanical systems and its role is central in structural health monitoring. All sensors have to be placed on the structure so that all sought system features be obtained from the experimental tests. Sensors network design is rather diffused in laboratory applications, but there are scarce investigations on real civil structures and they are not so well documented. In order to give a contribution in this framework, the present paper deals with the optimal sensors placement problem on lattice towers. With reference to six of the most diffused existing optimum criteria and according to mechanical and energetic formulations, several sensors network configurations are calculated for two example broadcasting antennas, adopted as benchmark cases of studies. The final topological configurations of the networks are compared and the most relevant differences are discussed. Moreover, the information content behaviour is computed to investigate the connection between sensors network topology and its ability to withstand the presence of undesired signals (e.g., noise) during the measurements. The results here illustrated may be useful for sensors network design for this special class of structures.

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传感器网络的最优拓扑结构

机械系统的动态评估是结构健康监测的重要内容之一。所有传感器必须放置在结构上，以便从实验测试中获得所有所寻求的系统特征。传感器网络设计在实验室应用中相当广泛，但对实际土木结构的研究很少，也没有很好的文献记录。为了在这个框架中做出贡献，本文讨论了格塔上传感器的最优放置问题。参考现有的六个最广泛的优化准则，根据力学和能量公式，计算了两个示例广播天线的几种传感器网络配置，作为基准研究案例。比较了网络的最终拓扑结构，并讨论了最相关的差异。此外，计算信息内容行为以研究传感器网络拓扑结构之间的连接及其在测量期间承受不期望信号(例如噪声)存在的能力。本文的研究结果对这类特殊结构的传感器网络设计有一定的指导意义。

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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Proceedings of the 2019 European Conference on Computing in Construction

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