Since simplifications are introduced in the theoretical formation of the models on one hand, and the measuring accuracy is limited in the experiment on the other, models and their parameters may include uncertainties, making it difficult to determine the dynamic stability boundaries. For the robust flutter analysis, it is necessary to propagate the effects of identified uncertainties towards aeroelastic stability of the aircraft to cover the uncertain-butbounded parameter space. Robust stability is guaranteed when the uncertainties cannot destabilize the system
Uncertainties denote the operators which describe data error, numerical error and model error in the...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
For robust analysis of the flutter stability, it is necessary to consider the uncertainties of the s...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
Worst-case flutter margins may be computed for a linear model with respect to a set of uncertainty o...
The common practice in industry is to perform flutter analyses considering the generalized stiffness...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
An approach for computing worst-case flutter margins has been formulated in a robust stability frame...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
This work presents the robust stability analysis of 2DoF airfoil by including various uncertainties....
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
In this paper, a general approach to address modeling of aeroelastic systems, with the final goal to...
Robust flutter analysis deals with aeroelastic (or aeroservoelastic) stability analysis taking struc...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
For robust analysis of the flutter stability, it is necessary to consider the uncertainties of the s...
Flutter is a dynamic instability that aerodynamic vehicles encounter in atmospheric flight. The inte...
Worst-case flutter margins may be computed for a linear model with respect to a set of uncertainty o...
The common practice in industry is to perform flutter analyses considering the generalized stiffness...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
An approach for computing worst-case flutter margins has been formulated in a robust stability frame...
How to estimate the stochastic aerodynamic parametric uncertainty on aeroelastic stability is studie...
This work presents the robust stability analysis of 2DoF airfoil by including various uncertainties....
In this work, a successive robust flutter prediction technique is developed by coupling nominal anal...
In this paper, a general approach to address modeling of aeroelastic systems, with the final goal to...
Robust flutter analysis deals with aeroelastic (or aeroservoelastic) stability analysis taking struc...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...