Designing a random dynamical system requires the prediction of the statistics of the response, knowing the random model of the uncertain parameters. Direct Monte Carlo simulation (MCS) is the reference method for propagating uncertainties but its main drawback is the high numerical cost. A surrogate model based on a polynomial chaos expansion (PCE) can be built as an alternative to MCS. However, some previous studies have shown poor convergence properties around the deterministic eigenfrequencies. In this study, an extended Pade approximant approach is proposed not only to accelerate the convergence of the PCE but also to have a better representation of the exact frequency response, which is a rational function of the uncertain parameters. ...
This paper deals with the analysis of the dynamic behavior of nonlinear systems subject to probabili...
International audienceThe propagation of uncertain input parameters in a linear dynamic analysis is ...
This paper proposes a surrogate model which is able to deal with mixed uncertain dynamical systems: ...
Designing a random dynamical system requires the prediction of the statistics of the response, knowi...
Characterizing the time-domain response of a random multiple-degree-of-freedom dynamical system is c...
The first two moments of the steady-state response of a dynamical random system are determined throu...
The first two moments of the steady-state response of a dynamical random system are determined throu...
The random eigenvalue problem arises in frequency and mode shape determination for a linear system w...
The response of a random dynamical system is totally characterized by its probability density functi...
Frequency Response Functions (FRFs) are important for assessing the behavior of stochastic linear dy...
International audienceUncertainties are present in the modeling of dynamical systems and they must b...
Polynomial chaos solution for the frequency response of linear non-proportionally damped dynamic sys...
International audienceThis study aims at pointing out the somehow complex behavior of the structural...
This paper deals with the analysis of the dynamic behavior of nonlinear systems subject to probabili...
International audienceThe propagation of uncertain input parameters in a linear dynamic analysis is ...
This paper proposes a surrogate model which is able to deal with mixed uncertain dynamical systems: ...
Designing a random dynamical system requires the prediction of the statistics of the response, knowi...
Characterizing the time-domain response of a random multiple-degree-of-freedom dynamical system is c...
The first two moments of the steady-state response of a dynamical random system are determined throu...
The first two moments of the steady-state response of a dynamical random system are determined throu...
The random eigenvalue problem arises in frequency and mode shape determination for a linear system w...
The response of a random dynamical system is totally characterized by its probability density functi...
Frequency Response Functions (FRFs) are important for assessing the behavior of stochastic linear dy...
International audienceUncertainties are present in the modeling of dynamical systems and they must b...
Polynomial chaos solution for the frequency response of linear non-proportionally damped dynamic sys...
International audienceThis study aims at pointing out the somehow complex behavior of the structural...
This paper deals with the analysis of the dynamic behavior of nonlinear systems subject to probabili...
International audienceThe propagation of uncertain input parameters in a linear dynamic analysis is ...
This paper proposes a surrogate model which is able to deal with mixed uncertain dynamical systems: ...