Aeroelastic stability remains an important concern for the design of modern structures such as wind turbine rotors, more so with the use of increasingly flexible blades. A nonlinear aeroelastic system has been considered in the present study with parametric uncertainties. Uncertainties can occur due to any inherent randomness in the system or modeling limitations, and so forth. Uncertainties can play a significant role in the aeroelastic stability predictions in a nonlinear system. The analysis has been put in a stochastic framework, and the propagation of system uncertainties has been quantified in the aeroelastic response. A spectral uncertainty quantification tool called Polynomial Chaos Expansion has been used. A projection-based nonint...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
2016-06-23This dissertation is motivated by challenges involved in the design optimization under unc...
This study explores the use of generalized polynomial chaos theory for modeling complex nonlinear mu...
The present study focuses on the uncertainty quantification of an aeroelastic instability system. Th...
AbstractThe present paper is about analyzing and quantifying parametric uncertainties in a nonlinear...
An aeroelastic model for airfoil with a third-order stiffness in both pitch and plunge degree of fre...
This study uses Non-Intrusive Polynomial Chaos Expansion (NIPCE) to propagate uncertainties related ...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
This paper presents an effective approach for uncertain aerodynamic analysis of airfoils via the pol...
AbstractIn this paper, the stochastic collocation method (SCM) is applied to investigate the nonline...
The uncertainties can generate fluctuations with aerodynamic characteristics. Uncertainty Quantifica...
This work is concerned with the quantification of uncertainties associated with wind turbines. A par...
This thesis develops theoretical and computational methods for the robustness analysis of uncertain ...
International audienceAn adaptive stochastic spectral projection method is deployed for the uncertai...
International audienceThe propagation of uncertain input parameters in a linear dynamic analysis is ...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
2016-06-23This dissertation is motivated by challenges involved in the design optimization under unc...
This study explores the use of generalized polynomial chaos theory for modeling complex nonlinear mu...
The present study focuses on the uncertainty quantification of an aeroelastic instability system. Th...
AbstractThe present paper is about analyzing and quantifying parametric uncertainties in a nonlinear...
An aeroelastic model for airfoil with a third-order stiffness in both pitch and plunge degree of fre...
This study uses Non-Intrusive Polynomial Chaos Expansion (NIPCE) to propagate uncertainties related ...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
This paper presents an effective approach for uncertain aerodynamic analysis of airfoils via the pol...
AbstractIn this paper, the stochastic collocation method (SCM) is applied to investigate the nonline...
The uncertainties can generate fluctuations with aerodynamic characteristics. Uncertainty Quantifica...
This work is concerned with the quantification of uncertainties associated with wind turbines. A par...
This thesis develops theoretical and computational methods for the robustness analysis of uncertain ...
International audienceAn adaptive stochastic spectral projection method is deployed for the uncertai...
International audienceThe propagation of uncertain input parameters in a linear dynamic analysis is ...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
2016-06-23This dissertation is motivated by challenges involved in the design optimization under unc...
This study explores the use of generalized polynomial chaos theory for modeling complex nonlinear mu...