Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/66411
Title: A stochastic model updating strategy-based improved response surface model and advanced Monte Carlo simulation
Authors: Zhai, X
Fei, CW
Choy, YS 
Wang, JJ
Keywords: Stochastic model updating
Response surface model
Monte Carlo simulation
Moving least-squares method
Design of experiment
Experimental static test
Issue Date: 2017
Publisher: Academic Press
Source: Mechanical systems and signal processing, 1 Jan. 2017, v. 82, p. 323-338 How to cite?
Journal: Mechanical systems and signal processing 
Abstract: To improve the accuracy and efficiency of computation model for complex structures, the stochastic model updating (SMU) strategy was proposed by combining the improved response surface model (IRSM) and the advanced Monte Carlo (MC) method based on experimental static test, prior information and uncertainties. Firstly, the IRSM and its mathematical model were developed with the emphasis on moving least-square method, and the advanced MC simulation method is studied based on Latin hypercube sampling method as well. And then the SMU procedure was presented with experimental static test for complex structure. The SMUs of simply-supported beam and aeroengine stator system (casings) were implemented to validate the proposed IRSM and advanced MC simulation method. The results show that (1) the SMU strategy hold high computational precision and efficiency for the SMUs of complex structural system; (2) the IRSM is demonstrated to be an effective model due to its SMU time is far less than that of traditional response surface method, which is promising to improve the computational speed and accuracy of SMU; (3) the advanced MC method observably decrease the samples from finite element simulations and the elapsed time of SMU. The efforts of this paper provide a promising SMU strategy for complex structure and enrich the theory of model updating.
URI: http://hdl.handle.net/10397/66411
ISSN: 0888-3270
EISSN: 1096-1216
DOI: 10.1016/j.ymssp.2016.05.026
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