Sensitivity analysis of a sound absorption model with correlated inputs

Sound absorption in porous media is a complex phenomenon, which is usually addressed with homogenized models, depending on macroscopic parameters. Since these parameters emerge from the structure at microscopic scale, they may be correlated. This paper deals with sensitivity analysis methods of a so...

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Veröffentlicht in:	Journal of sound and vibration 2017-04, Vol.394, p.75-89
Hauptverfasser:	Chai, W., Christen, J.-L., Zine, A.-M., Ichchou, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Acoustics Analysis of PDEs Correlated inputs Correlation analysis Distribution functions Empirical analysis Engineering Sciences FAST Functional Analysis Global sensitivity analysis JCA model Materials Mathematics Micro-macro model Numerical Analysis Parameters Porous media Reactive fluid environment Sensitivity analysis Sound Sound transmission Test procedures Vibration
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creator	Chai, W. Christen, J.-L. Zine, A.-M. Ichchou, M.
description	Sound absorption in porous media is a complex phenomenon, which is usually addressed with homogenized models, depending on macroscopic parameters. Since these parameters emerge from the structure at microscopic scale, they may be correlated. This paper deals with sensitivity analysis methods of a sound absorption model with correlated inputs. Specifically, the Johnson-Champoux-Allard model (JCA) is chosen as the objective model with correlation effects generated by a secondary micro-macro semi-empirical model. To deal with this case, a relatively new sensitivity analysis method Fourier Amplitude Sensitivity Test with Correlation design (FASTC), based on Iman's transform, is taken into application. This method requires a priori information such as variables' marginal distribution functions and their correlation matrix. The results are compared to the Correlation Ratio Method (CRM) for reference and validation. The distribution of the macroscopic variables arising from the microstructure, as well as their correlation matrix are studied. Finally the results of tests shows that the correlation has a very important impact on the results of sensitivity analysis. Assessment of correlation strength among input variables on the sensitivity analysis is also achieved.
doi_str_mv	10.1016/j.jsv.2017.01.022
format	Article
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Since these parameters emerge from the structure at microscopic scale, they may be correlated. This paper deals with sensitivity analysis methods of a sound absorption model with correlated inputs. Specifically, the Johnson-Champoux-Allard model (JCA) is chosen as the objective model with correlation effects generated by a secondary micro-macro semi-empirical model. To deal with this case, a relatively new sensitivity analysis method Fourier Amplitude Sensitivity Test with Correlation design (FASTC), based on Iman's transform, is taken into application. This method requires a priori information such as variables' marginal distribution functions and their correlation matrix. The results are compared to the Correlation Ratio Method (CRM) for reference and validation. The distribution of the macroscopic variables arising from the microstructure, as well as their correlation matrix are studied. 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Since these parameters emerge from the structure at microscopic scale, they may be correlated. This paper deals with sensitivity analysis methods of a sound absorption model with correlated inputs. Specifically, the Johnson-Champoux-Allard model (JCA) is chosen as the objective model with correlation effects generated by a secondary micro-macro semi-empirical model. To deal with this case, a relatively new sensitivity analysis method Fourier Amplitude Sensitivity Test with Correlation design (FASTC), based on Iman's transform, is taken into application. This method requires a priori information such as variables' marginal distribution functions and their correlation matrix. The results are compared to the Correlation Ratio Method (CRM) for reference and validation. The distribution of the macroscopic variables arising from the microstructure, as well as their correlation matrix are studied. 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subjects	Absorption Acoustics Analysis of PDEs Correlated inputs Correlation analysis Distribution functions Empirical analysis Engineering Sciences FAST Functional Analysis Global sensitivity analysis JCA model Materials Mathematics Micro-macro model Numerical Analysis Parameters Porous media Reactive fluid environment Sensitivity analysis Sound Sound transmission Test procedures Vibration
title	Sensitivity analysis of a sound absorption model with correlated inputs
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