改进声波场成像的反卷积处理

Christian Kexel, Jochen Moll
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引用次数: 4

摘要

基于Lamb波的结构健康监测(SHM)稀疏传感器网络可以检测到类板结构的缺陷。然而,有限数量的传感器位置提供了很少的信息来表征未知的散射体。这可以通过全波场分析来实现,例如使用激光多普勒振动测量。本文提出了反卷积处理,通过增加底层超声信号的时间分辨率来增强声波场的解释。将该预处理器应用于整个波场可以改进对缺陷的无损评估。通过四裂纹各向同性铝板的实验验证了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deconvolution processing for improved acoustic wavefield imaging

Sparse sensor networks for Lamb wave-based structural health monitoring (SHM) can detect defects in plate-like structures. However, the limited number of sensor positions provides little information to characterize the unknown scatterer. This can be achieved by full wavefield analysis e.g. using Laser Doppler vibrometry measurements.

This paper proposes deconvolution processing that enhances the acoustic wavefield interpretation by increasing the temporal resolution of the underlying ultrasound signals. Applying this preprocessor to the whole wavefield allows improved non-destructive assessment of the defect. This approach is verified experimentally through a case study on an isotropic aluminum plate with four cracks.

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