Sensitivity analysis of generalised eigenproblems and application to wave and finite element models

Alice Cicirello; Brian  Mace; Michael Kingan; Yi Yang

doi:10.1016/j.jsv.2020.115345

Sensitivity analysis of generalised eigenproblems and application to wave and finite element models

Alice Cicirello, Brian Mace, Michael Kingan, Yi Yang

Mechanics and Physics of Structures

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Abstract

The first and second order sensitivity analysis of the eigenvalue problem of generalised, nonsymmetric matrices using perturbation theory is developed. These results are then applied to sensitivity analysis of wave propagation in structures modelled using the wave and finite element (WFE) method. Three formulations of the WFE eigenvalue problem are considered: the transfer matrix method, the projection method and Zhong’s method. The sensitivities with respect to system parameters of wavenumbers and wave mode shapes are derived. Expressions for the group velocity are presented. Numerical results for a thin beam, a foam core panel and a cross-laminated timber panel are used to demonstrate the proposed approach. It is shown that sensitivities can be calculated at negligible computational cost.

Original language	English
Article number	115345
Number of pages	18
Journal	Journal of Sound and Vibration
Volume	478
DOIs	https://doi.org/10.1016/j.jsv.2020.115345
Publication status	Published - 2020

Keywords

Generalised eigenproblems
Perturbation theory
Sensitivity analysis
Wave propagation
WFE

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10.1016/j.jsv.2020.115345

1-s2.0-S0022460X20301760-mainFinal published version, 2.41 MBLicence: CC BY

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title = "Sensitivity analysis of generalised eigenproblems and application to wave and finite element models",

abstract = "The first and second order sensitivity analysis of the eigenvalue problem of generalised, nonsymmetric matrices using perturbation theory is developed. These results are then applied to sensitivity analysis of wave propagation in structures modelled using the wave and finite element (WFE) method. Three formulations of the WFE eigenvalue problem are considered: the transfer matrix method, the projection method and Zhong{\textquoteright}s method. The sensitivities with respect to system parameters of wavenumbers and wave mode shapes are derived. Expressions for the group velocity are presented. Numerical results for a thin beam, a foam core panel and a cross-laminated timber panel are used to demonstrate the proposed approach. It is shown that sensitivities can be calculated at negligible computational cost.",

keywords = "Generalised eigenproblems, Perturbation theory, Sensitivity analysis, Wave propagation, WFE",

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language = "English",

volume = "478",

journal = "Journal of Sound and Vibration",

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T1 - Sensitivity analysis of generalised eigenproblems and application to wave and finite element models

AU - Cicirello, Alice

AU - Mace, Brian

AU - Kingan, Michael

AU - Yang, Yi

PY - 2020

Y1 - 2020

N2 - The first and second order sensitivity analysis of the eigenvalue problem of generalised, nonsymmetric matrices using perturbation theory is developed. These results are then applied to sensitivity analysis of wave propagation in structures modelled using the wave and finite element (WFE) method. Three formulations of the WFE eigenvalue problem are considered: the transfer matrix method, the projection method and Zhong’s method. The sensitivities with respect to system parameters of wavenumbers and wave mode shapes are derived. Expressions for the group velocity are presented. Numerical results for a thin beam, a foam core panel and a cross-laminated timber panel are used to demonstrate the proposed approach. It is shown that sensitivities can be calculated at negligible computational cost.

AB - The first and second order sensitivity analysis of the eigenvalue problem of generalised, nonsymmetric matrices using perturbation theory is developed. These results are then applied to sensitivity analysis of wave propagation in structures modelled using the wave and finite element (WFE) method. Three formulations of the WFE eigenvalue problem are considered: the transfer matrix method, the projection method and Zhong’s method. The sensitivities with respect to system parameters of wavenumbers and wave mode shapes are derived. Expressions for the group velocity are presented. Numerical results for a thin beam, a foam core panel and a cross-laminated timber panel are used to demonstrate the proposed approach. It is shown that sensitivities can be calculated at negligible computational cost.

KW - Generalised eigenproblems

KW - Perturbation theory

KW - Sensitivity analysis

KW - Wave propagation

KW - WFE

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DO - 10.1016/j.jsv.2020.115345

M3 - Article

SN - 0022-460X

VL - 478

JO - Journal of Sound and Vibration

JF - Journal of Sound and Vibration

M1 - 115345

ER -

Sensitivity analysis of generalised eigenproblems and application to wave and finite element models

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Keywords

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