A study of acoustic transmission of transient signal in an inhomogeous medium with the help of a wavelet transform. Application to an air-water plane interface.

Ginette Saracco; Philippe Tchamitchian

HAL: hal-00549905, version 1

A study of acoustic transmission of transient signal in an inhomogeous medium with the help of a wavelet transform. Application to an air-water plane interface.
Saracco G. et al
WORLD-SCIENTIFIC (1989) 222-241 - http://hal.archives-ouvertes.fr/hal-00549905

Publication type:

Article in peer-reviewed journal

Subject:

Engineering Sciences/Acoustics

Physics/Mechanics/Acoustics

Mathematics/Spectral Theory

Physics/Physics/Computational Physics

Title:

A study of acoustic transmission of transient signal in an inhomogeous medium with the help of a wavelet transform. Application to an air-water plane interface.

Author(s):

Ginette Saracco (

) ¹, Philippe Tchamitchian ^2, 3

Laboratory:

1:	Laboratoire de Mécanique et d'Acoustique (LMA)

	http://www.lma.cnrs-mrs.fr/

	CNRS : UPR7051

	31, Chemin Joseph Aiguier - 13402 Marseille Cedex 20

	France

2:	Laboratoire d'Analyse, Topologie, Probabilités (LATP)

	http://www.latp.univ-mrs.fr

	CNRS : UMR6632 – Université de Provence - Aix-Marseille I – Université Paul Cézanne - Aix-Marseille III

	39 rue Joliot-Curie 13453 Marseille Cedex 13

	France

3:	Centre de Physique Théorique (CPT)

	http://www.cpt.univ-mrs.fr

	CNRS : FR2291 – Université de Provence - Aix-Marseille I – Université de la Méditerranée - Aix-Marseille II – Université Sud Toulon Var

	CNRS Luminy case 907 13288 Marseille cedex 9

	France

Abstract:

The analysis of acoustic propagation in an inhomopgeneous fluid medium, generated by an impulsive point source (fluid-fluid or fluid-solid interface) has been discussed innumerable times[1-6]. Most of these works use the Cagniard-de Hoop method which consists essentially in an application of a Fourier transform in the space variables along the plane interface and a Laplace transform in the time variable. The resolution of the propagation equation is very easy in the transform domain, but requires elaborate tools for the return to the original space-time domain. An exact analytic solution, hard to interpret physically, can be found only in certain cases. More recently, it has been shown that one can use also a Fourier transform in the time variable (so-called impulse method [7]. The soltion is easier to interpret physically, however the problem then becomes to find an explicit causal solution. Our aim here is the analysis and solution of an acoustic propagation problem in which we preserve at evry scale the time and frequency characteristics of different waves of the transmiited acoustic field (Saracco et al 1989). A recent time-and-scale method adapted to the study of rapid transitions is the wavelet transform. This method can furthermore decompose an arbitrary signal into a sum of elementary contributions, each well localized both in time and in the frequency domain.

Fulltext language:

English

Production date:

1988-06

Journal:

WORLD-SCIENTIFIC

Audience:

international

Publication date:

1989

Page, identifiant, ...:

222-241

Keyword(s):

wave propagation – wavelet transform – Green's function – complex analyzing wavelet – wave-front – surface wave – evanescent wave – geometric wave – inhomogeous wave – Morlet wavelet – transient regime

Project(s), collaboration(s):

GDR International 820 "Ondelettes", DIGILOG SA

Contract, financing:

GDR international 820 "Wavelet", DIGILOG SA


hal-00549905, version 1
http://hal.archives-ouvertes.fr/hal-00549905
oai:hal.archives-ouvertes.fr:hal-00549905
From: Ginette Saracco <>
Submitted on: Thursday, 23 December 2010 06:38:19
Updated on: Thursday, 23 December 2010 06:38:19