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Title
Critical Analysis of the Suitability of Surrogate Models for Finite Element Method Application in Catalog-Based Suspension Bushing DesignAuthor
Version
Postprint
Rights
© 2020 IEEEAccess
Open accessPublisher’s version
https://doi.org/10.1109/ETFA46521.2020.9212166Published at
IEEE International Conference on Emerging Technologies and Factory Automation (ETFA) 25. Vienna, 8-11 septiembre 2020Publisher
IEEEKeywords
Design of Experiments
Surrogate model
Finite Element Method
Bushing ... [+]
Surrogate model
Finite Element Method
Bushing ... [+]
Design of Experiments
Surrogate model
Finite Element Method
Bushing
Support vector regression
Random Forest [-]
Surrogate model
Finite Element Method
Bushing
Support vector regression
Random Forest [-]
Abstract
This work presents a critical analysis of the suitability of surrogate models for finite element method application. A case study of a finite element method (FEM) structural problem was selected in or ... [+]
This work presents a critical analysis of the suitability of surrogate models for finite element method application. A case study of a finite element method (FEM) structural problem was selected in order to test the performance of surrogate algorithms. A simple design of experiments (DoE) approach, based on 1D kernel density estimations, is employed to construct a representative pool of real FEM simulations, which becomes the dataset for five different surrogate models, two linear and three non-linear, whose most relevant hyperparameters were tuned (model selection). Results in a real bushing case study show that surrogate models can accurately mimic FEM simulations outcomes, in this case four types of stiffnesses (axial, radial, torsion, and cardanic). [-]
