Title of article
System identification-guided basis selection for reduced-order nonlinear response analysis
Author/Authors
Rizzi، نويسنده , , Stephen A. and Przekop، نويسنده , , Adam، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
19
From page
467
To page
485
Abstract
Reduced-order nonlinear simulation is often times the only computationally efficient means of calculating the extended time response of large and complex structures under severe dynamic loading. This is because the structure may respond in a geometrically nonlinear manner, making the computational expense of direct numerical integration in physical degrees of freedom prohibitive. As for any type of modal reduction scheme, the quality of the reduced-order solution is dictated by the modal basis selection. The techniques for modal basis selection currently employed for nonlinear simulation are ad hoc and are strongly influenced by the analystʹs subjective judgment. This work develops a reliable and rigorous procedure through which an efficient modal basis can be chosen. The method employs proper orthogonal decomposition to identify nonlinear system dynamics, and the modal assurance criterion to relate proper orthogonal modes to the normal modes that are eventually used as the basis functions. The method is successfully applied to the analysis of a planar beam and a shallow arch over a wide range of nonlinear dynamic response regimes. The error associated with the reduced-order simulation is quantified and related to the computational cost.
Journal title
Journal of Sound and Vibration
Serial Year
2008
Journal title
Journal of Sound and Vibration
Record number
1398686
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