Reliability-Based Optimization of Uncertain Systems in Structural Dynamics

The reliability-based optimization of uncertain linear structural systems subjected to stochastic excitation is considered. Uncertain system parameters are modeled as random variables with prescribed joint probability density function. Second-order probabilistic descriptors are combined with approxi...

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Veröffentlicht in:	AIAA journal 2002-04, Vol.40 (4), p.731-738
1. Verfasser:	Jensen, Hector A
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerodynamics Aircraft Approximation theory Asymptotic stability Engineering Exact sciences and technology Fundamental areas of phenomenology (including applications) Physics Probability density function Random processes Reliability theory Solid mechanics Structural and continuum mechanics Structural optimization Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) Vibrations and mechanical waves
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creator	Jensen, Hector A
description	The reliability-based optimization of uncertain linear structural systems subjected to stochastic excitation is considered. Uncertain system parameters are modeled as random variables with prescribed joint probability density function. Second-order probabilistic descriptors are combined with approximate extreme response theories to obtain conditional reliability estimates for the system. Approximations based on asymptotic expansions are used to provide a computationally efficient estimate for the unconditional system reliability that accounts for the uncertainties in the system parameters. A general solution strategy for the corresponding reliability-based optimization problem is presented. Implementation issues related to the evaluation of system response functions and calculation of design points are addressed. The effects of uncertainty in the system parameters, as well as the accuracy of reliability estimates on the optimal design, are investigated. It is shown that these two factors are important because they can change the optimal design significantly. A generic primary-secondary system is presented to illustrate the performance and efficiency of the proposed implementation.
doi_str_mv	10.2514/2.1705
format	Article
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Uncertain system parameters are modeled as random variables with prescribed joint probability density function. Second-order probabilistic descriptors are combined with approximate extreme response theories to obtain conditional reliability estimates for the system. Approximations based on asymptotic expansions are used to provide a computationally efficient estimate for the unconditional system reliability that accounts for the uncertainties in the system parameters. A general solution strategy for the corresponding reliability-based optimization problem is presented. Implementation issues related to the evaluation of system response functions and calculation of design points are addressed. The effects of uncertainty in the system parameters, as well as the accuracy of reliability estimates on the optimal design, are investigated. It is shown that these two factors are important because they can change the optimal design significantly. 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subjects	Aerodynamics Aircraft Approximation theory Asymptotic stability Engineering Exact sciences and technology Fundamental areas of phenomenology (including applications) Physics Probability density function Random processes Reliability theory Solid mechanics Structural and continuum mechanics Structural optimization Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) Vibrations and mechanical waves
title	Reliability-Based Optimization of Uncertain Systems in Structural Dynamics
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