Efficient assessment of structural reliability in presence of random and fuzzy uncertainties
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Date
2014
Authors
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Journal ISSN
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Publisher
American Society of Mechanical Engineers (ASME)
Abstract
This paper presents an efficient uncertainty analysis for estimating the possibility distribution of structural reliability in presence of mixed uncertain variables. The proposed method involves high dimensional model representation for the limit state function approximation, transformation technique to obtain the contribution of the fuzzy variables to the convolution integral and fast Fourier transform for solving the convolution integral. In this methodology, efforts are required in evaluating conditional responses at a selected input determined by sample points, as compared to full scale simulation methods, thus the computational efficiency is accomplished. The proposed method is applicable for structural reliability estimation involving any number of fuzzy and random variables with any kind of distribution. Copyright © 2014 by ASME.
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Keywords
Computational efficiency, Convolution, Fast Fourier transforms, Reliability analysis, Convolution integrals, Functions approximations, Fuzzy uncertainties, High dimensional model representation, High-dimensional model representations, Limit-state function, Possibility distributions, Random uncertainties, Structural reliability, Uncertain variables, Uncertainty analysis
Citation
Journal of Mechanical Design, 2014, 136, 5, pp. -