基于振动频域模式匹配技术的无线传感器网络结构健康监测

W. Contreras, S. Ziavras
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引用次数: 4

摘要

结构健康监测(SHM)涉及到评估仪器化工程结构状况的策略的发展。大多数SHM技术涉及某种形式的基于物理的建模,这可能是困难和昂贵的。我们提出了一种使用无线传感器网络(wsn)的有效振动收集方法,该方法最大限度地减少了执行建模的需要,使SHM系统易于部署在任何结构上,几乎不需要修改。在我们的算法中,我们采用了两层堆叠技术,类似于网络中的协议堆叠。该算法的核心是一种频域模式匹配技术,该技术应用于由算法底层的每个传感器节点执行的观测振动。提出了一种能量管理方案,以达到期望的无线传感器网络寿命。该方案基于一种新颖的能量管理电路,该电路可以减少非活动传感器节点的电流,从而将节点的寿命提高到90倍。利用基于Zolertia Z1模型的传感器节点,实验确定了系统寿命的上界。最后,在一个实验结构上对模式匹配技术进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient structural health monitoring with wireless sensor networks using a vibration-based frequency domain pattern matching technique
Structural health monitoring (SHM) concerns the development of strategies to assess the condition of instrumented engineering structures. Most SHM techniques involve some form of physics-based modeling, which can be difficult and costly. We propose an efficient vibration-collecting method using wireless sensor networks (WSNs) that minimizes the need to perform modeling, making the SHM system easy to deploy on any structure with little to no modification. In our algorithm, we employ a two-layer stacking technique, similar to protocol stacking in networking. At the core of the algorithm is a frequency domain pattern matching technique applied to observed vibrations that is executed by each sensor node in the bottom layer of the algorithm. An energy management scheme for attaining the desired lifetime of the WSN is also proposed. The scheme is based upon a novel energy management circuit that decreases current for inactive sensor nodes, such to increase the lifetime of the nodes up to 90-fold. Upper bounds on system lifetime are determined experimentally using sensor nodes based upon the Zolertia Z1 mote. Finally, the pattern matching technique is validated on an experimental structure.
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