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Journal Articles Mechanical Systems and Signal Processing Year : 2017

Variance analysis for model updating with a finite element based subspace fitting approach

Abstract

Recently, a subspace fitting approach has been proposed for vibration-based finite element model updating. The approach makes use of subspace-based system identification, where the extended observability matrix is estimated from vibration measurements. Finite element model updating is performed by correlating the model-based observability matrix with the estimated one, by using a single set of experimental data. Hence, the updated finite element model only reflects this single test case. However, estimates from vibration measurements are inherently exposed to uncertainty due to unknown excitation, measurement noise and finite data length. In this paper, a covariance estimation procedure for the updated model parameters is proposed, which propagates the data-related covariance to the updated model parameters by considering a first-order sensitivity analysis. In particular, this propagation is performed through each iteration step of the updating minimization problem, by taking into account the covariance between the updated parameters and the data-related quantities. Simulated vibration signals are used to demonstrate the accuracy and practicability of the derived expressions. Furthermore, an application is shown on experimental data of a beam.
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Dates and versions

hal-01433175 , version 1 (12-01-2017)

Identifiers

Cite

Guillaume Gautier, Laurent Mevel, Jean-Mathieu Mencik, Roger Serra, Michael Döhler. Variance analysis for model updating with a finite element based subspace fitting approach. Mechanical Systems and Signal Processing, 2017, 91, pp.142 - 156. ⟨10.1016/j.ymssp.2017.01.006⟩. ⟨hal-01433175⟩
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