Gaussian Mixture Random Coefficient model based framework for SHM in structures with time-dependent dynamics under uncertainty

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Abstract

The problem of vibration–based damage diagnosis in structures characterized by time–dependent dynamics under significant environmental and/or operational uncertainty is considered. A stochastic framework consisting of a Gaussian Mixture Random Coefficient model of the uncertain time–dependent dynamics under each structural health state, proper estimation methods, and Bayesian or minimum distance type decision making, is postulated. The Random Coefficient (RC) time–dependent stochastic model with coefficients following a multivariate Gaussian Mixture Model (GMM) allows for significant flexibility in uncertainty representation. Certain of the model parameters are estimated via a simple procedure which is founded on the related Multiple Model (MM) concept, while the GMM weights are explicitly estimated for optimizing damage diagnostic performance. The postulated framework is demonstrated via damage detection in a simple simulated model of a quarter–car active suspension with time–dependent dynamics and considerable uncertainty on the payload. Comparisons with a simpler Gaussian RC model based method are also presented, with the postulated framework shown to be capable of offering considerable improvement in diagnostic performance.
Original languageEnglish
JournalMechanical Systems and Signal Processing
Volume97
Pages (from-to)59-83
ISSN0888-3270
DOIs
Publication statusPublished - 2016
Externally publishedYes

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