声学信号的分析采用参数时频表示和非参数时频表示

First International Symposium on Control, Communications and Signal Processing, 2004. Pub Date : 2004-09-27 DOI:10.1109/ISCCSP.2004.1296473

R. Latif, E. Aassif, A. Moudden, B. Faiz

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引用次数: 1

摘要

本文采用同时考虑信号时间参数和频率参数的时频表示法，对细弹性管的声信号后向散射进行了分析。本研究采用了非参数表示“Wigner-Ville分布”和参数表示“修改版本”，因为它们具有有趣的性质。这些表示被应用于分析对称的S0和反对称的A1环绕半径比为0.95的管传播的色散。将Wigner-Ville分布得到的图像与改进后的Wigner-Ville图像进行比较。从这些时频图像中，我们可以高精度地估计出群速度。这些速度与科学文献中给出的固有模态理论计算的速度进行了比较。得到了一个很好的协议。

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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Acoustic signals analysed by a parametric and non parametric time-frequency representations

In this article, the time-frequency representation, that takes into account both the time parameter and the frequency parameter of a signal, is used to analyse the acoustic signal backscattered by a thin elastic tube. The non parametric representation "Wigner-Ville distribution" and the parametric representation "modified version" are used in this study for their interesting properties. These representations are applied to the analysis of the dispersion of symmetric S0 and antisymmetric A1 circumferential waves propagating around a tube with a radii ratio equal to 0.95. The image obtained by Wigner-Ville distribution is compared with the modified Wigner-Ville image. From these time-frequency images, we have estimated the group velocity with a high precision. These velocities are compared with those computed by the proper mode theory given in the scientific literature. A good agreement is obtained.

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First International Symposium on Control, Communications and Signal Processing, 2004.

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