Development of Mode Separation Method for Frame-Panel Structures Using 3D Discrete Wavelet Transform
ID:180
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Updated Time:2021-09-13 09:43:44 Hits:745
Oral Presentation
Abstract
Computer simulations using the combination of finite element method and modal analysis are now useful methods for vibration prediction of machineries. Macroscopically, characteristic modes of vehicle bodies, which mainly consist of frame structures and attached panels, are regarded as combinations of global and local deformations. As these deformations differ in priorities and countermeasures in the design phase, it is essential to evaluate these deformations individually. However, when it comes to a large and complicated model, it is time consuming to analyse whole modes one by one. Therefore, an efficient analysis method to evaluate these deformations from characteristic modes is strongly desired in various industrial fields. The purpose of this study is to present an analytical method to automatically separate global and local deformations from a frame-panel structure model. The method focuses on the difference of spatial frequencies, as global deformation has lower spatial frequency than local deformation, which exists partially and thus has higher spatial frequency. Each deformation is separated from characteristic modes by means of three dimensional (3D) multiresolution analysis using 3D discrete wavelet transform (DWT). This method enables to evaluate each deformation individually and efficiently without taking a closer look at the model or considering its specification. In this study, first, a 3D finite element model is converted into voxel space in order to apply 3D-DWT. Then, mode separation method using 3D-DWT is demonstrated by a frame-panel structure model of automobile body.
Keywords
Finite element method,Vibration analysis,Modal analysis,Discrete wavelet transform,Multiresolution analysis
Submission Author
Itsuki Nakashima
Kyushu University
Takumi Inoue
Kyushu University
Ren Kadowaki
Kyushu University
Yuki Abe
Kyushu University
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