An efficient uncertainty quantification method for unsteady problems is presented in order to achieve a constant accuracy in time for a constant number of samples. The approach is applied to the aeroelastic problems of a transonic airfoil flutter system and the AGARD 445.6 wing benchmark with uncertainties in the flow and the structure.Aerodynamics & Wind EnergyAerospace Engineerin
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
This document suggests some suitable methods for efficient quantification of uncertainties in the i...
An efficient uncertainty quantification method for unsteady problems is presented in order to achiev...
Abstract. An efficient uncertainty quantification method for unsteady problems is presented in order...
An efficient uncertainty quantification method for unsteady problems is presented in order to achiev...
A robust and efficient uncertainty quantification method is presented for resolving the effect of un...
Abstract. A robust and efficient uncertainty quantification method is presented for re-solving the e...
Physical uncertainties due to atmospheric variations and production tolerances can nowadays have a l...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
The Unsteady Adaptive Stochastic Finite Elements (UASFE) approach is a robust and efficient uncertai...
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
The paper deals with the propagation of uncertainty in input parameters through the aircraft model i...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
This document suggests some suitable methods for efficient quantification of uncertainties in the i...
An efficient uncertainty quantification method for unsteady problems is presented in order to achiev...
Abstract. An efficient uncertainty quantification method for unsteady problems is presented in order...
An efficient uncertainty quantification method for unsteady problems is presented in order to achiev...
A robust and efficient uncertainty quantification method is presented for resolving the effect of un...
Abstract. A robust and efficient uncertainty quantification method is presented for re-solving the e...
Physical uncertainties due to atmospheric variations and production tolerances can nowadays have a l...
The application of a Point-Collocation Non-Intrusive Polynomial Chaos method to the uncertainty quan...
The Unsteady Adaptive Stochastic Finite Elements (UASFE) approach is a robust and efficient uncertai...
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
The paper deals with the propagation of uncertainty in input parameters through the aircraft model i...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
This document suggests some suitable methods for efficient quantification of uncertainties in the i...