Computational Vibro-Acoustic Time Reversal for Source and Novelty Localization

Signals Pub Date : 2022-10-12 DOI:10.3390/signals3040043

C. Panagiotopoulos, Spyros Kouzoupis, C. Tsogka

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Abstract

Time reversal has been demonstrated to be effective for source and novelty detection and localization. We extend here previous work in the case of a coupled structural-acoustic system, to which we refer to as vibro-acoustic. In this case, novelty means a change that the structural system has undergone and which we seek to detect and localize. A single source in the acoustic medium is used to generate the propagating field, and several receivers, both in the acoustic and the structural part, may be used to record the response of the medium to this excitation. This is the forward step. Exploiting time reversibility, the recorded signals are focused back to the original source location during the backward step. For the case of novelty detection, the difference between the field recorded before and after the structural modification is backpropagated. We demonstrate that the performance of the method is improved when the structural components are taken into account during the backward step. The potential of the method for solving inverse problems as they appear in non destructive testing and structural health monitoring applications is illustrated with several numerical examples obtained using a finite element method.

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震源与新颖点定位的计算振动声时间反演

时间反转已被证明对来源和新颖性的检测和定位是有效的。我们在这里扩展了以前在耦合结构声学系统的情况下的工作，我们称之为振动声学。在这种情况下，新颖性意味着结构系统已经发生了变化，我们试图检测和定位这种变化。声学介质中的单个源用于产生传播场，并且声学和结构部分中的多个接收器可以用于记录介质对此激励的响应。这是向前迈出的一步。利用时间可逆性，记录的信号在后退步骤中被聚焦回原始源位置。对于新颖性检测的情况，在结构修饰之前和之后记录的场之间的差异被反向传播。我们证明，当在后退步骤中考虑结构组件时，该方法的性能得到了改善。通过使用有限元方法获得的几个数值示例，说明了该方法在无损检测和结构健康监测应用中解决反问题的潜力。

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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