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Communication Dans Un Congrès Année : 2021

Subtractive modelling using the reverse Condensed Transfer Function method: influence of the numerical errors

Résumé

Decoupling procedures based on substructuring methods allow to predict the vibroacoustic behaviour of a given system by removing a part of an original system that can be easily modelled. The reverse Condensed Transfer Function (rCTF) method has been developed to decouple acoustical or mechanical subsystems that are coupled along lines or surfaces. From the so-called condensed transfer functions (CTFs) of the original system and of the removed part, the behaviour of the system of interest can be predicted. The theoretical framework as well as a numerical validation have been recently published. In the present paper, we focus on the influence of numerical errors on the results of the rCTF method, when the CTFs are calculated using numerical models for the original system and the removed part. The rCTF method is applied to a test case consisting in the scattering problem of a rigid sphere in an infinite water domain and impacted by an acoustic plane wave. Discrete green formulation and finite element method are used to estimate the CTFs. Numerical results will be presented in order to evaluate the sensitivity of the method to model errors and the potential promises and limitations of the method will be highlighted.
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Dates et versions

hal-03427206 , version 1 (13-11-2021)

Identifiants

  • HAL Id : hal-03427206 , version 1

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Florent Dumortier, Laurent Maxit, Valentin Meyer. Subtractive modelling using the reverse Condensed Transfer Function method: influence of the numerical errors. InterNoise21, Aug 2021, Washington, United States. ⟨hal-03427206⟩

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