In this work, Bayesian techniques are employed to quantify model-form and predictive uncertainty in the linear behavior of an elastically mounted airfoil undergoing pitching and plunging motions. The Bayesian model averaging approach is used to construct an adjusted stochastic model from different model classes for time-harmonic incompressible flows. From a set of deterministic function approximations, we construct different stochastic models, whose uncertain coefficients are calibrated using Bayesian inference with regard to the critical flutter velocity. Results show substantial reductions in the predictive uncertainties of the critical flutter speed compared to non-calibrated stochastic simulations. In particular, it is shown that an eff...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
La vitesse critique de flottement est un facteur essentiel à la conception aéronautique car elle car...
In this work, Bayesian techniques are employed to quantify model-form and predictive uncertainty in ...
A Bayesian statistical framework is presented for Zimmerman and Weissenburger flutter margin method ...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
The critical flutter velocity is an essential factor in aeronautic design because it caracterises th...
Bayesian inference framework to efficiently identify parameters and select models of nonlinear aeroe...
A Bayesian model selection and parameter estimation algorithm is applied to investigate the influenc...
A nonintrusive point collocation method is used to propagate parametric uncertainties of the flexibl...
Zimmerman and Weissenburger flutter margin method is extended to account for modal parameter uncerta...
This report documents the culmination of in-house work in the area of uncertainty quantification and...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
We perform a fully stochastic analysis of an experiment in aerodynamics. Given esti-mated uncertaint...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
La vitesse critique de flottement est un facteur essentiel à la conception aéronautique car elle car...
In this work, Bayesian techniques are employed to quantify model-form and predictive uncertainty in ...
A Bayesian statistical framework is presented for Zimmerman and Weissenburger flutter margin method ...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
The critical flutter velocity is an essential factor in aeronautic design because it caracterises th...
Bayesian inference framework to efficiently identify parameters and select models of nonlinear aeroe...
A Bayesian model selection and parameter estimation algorithm is applied to investigate the influenc...
A nonintrusive point collocation method is used to propagate parametric uncertainties of the flexibl...
Zimmerman and Weissenburger flutter margin method is extended to account for modal parameter uncerta...
This report documents the culmination of in-house work in the area of uncertainty quantification and...
Flutter-critical velocity is usually estimated from deterministic analyses by assuming that physical...
We perform a fully stochastic analysis of an experiment in aerodynamics. Given esti-mated uncertaint...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
La vitesse critique de flottement est un facteur essentiel à la conception aéronautique car elle car...