AbstractAir vehicles undergo variations in structural mass and stiffness because of fuel consumption and the failure of structural components, which might lead to serious influences on the aeroelastic characteristics. An approach for aeroelastic robust stability analysis taking into account the perturbations of structural mass and stiffness is developed. Applying the perturbation method and harmonic unsteady aerodynamic forces, the frequency-domain linear fractal transformation (LFT) representation of perturbed aeroelastic system is modeled. Then, the robust stability is analyzed by using the structured singular value μ-method. The numerical results of a bi-spar wing show its effectiveness and low computational time in dealing with the robu...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
The paper discusses an extension of μ (or structured singular value), a well-established technique f...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
Robust flutter analysis deals with aeroelastic (or aeroservoelastic) stability analysis taking struc...
This work presents the robust stability analysis of 2DoF airfoil by including various uncertainties....
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
In this paper, a general approach to address modeling of aeroelastic systems, with the final goal to...
This article presents a new paradigm for robust flutter modeling and analysis of high-order uncertai...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
The present work deals with the robust flutter analysis of a sweptback wing in frequency domain in t...
The common practice in industry is to perform flutter analyses considering the generalized stiffness...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
Abstract This paper discusses the modeling and stability analysis of aero elastic system. Aero elast...
Free vibration and flutter analyses of two types of high aspect ratio aircraft wings are presented. ...
Currently, multiple air vehicles employ wing shape change to enhance their performance and achieve m...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
The paper discusses an extension of μ (or structured singular value), a well-established technique f...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...
Robust flutter analysis deals with aeroelastic (or aeroservoelastic) stability analysis taking struc...
This work presents the robust stability analysis of 2DoF airfoil by including various uncertainties....
AbstractUncertainties denote the operators which describe data error, numerical error and model erro...
In this paper, a general approach to address modeling of aeroelastic systems, with the final goal to...
This article presents a new paradigm for robust flutter modeling and analysis of high-order uncertai...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
The present work deals with the robust flutter analysis of a sweptback wing in frequency domain in t...
The common practice in industry is to perform flutter analyses considering the generalized stiffness...
Uncertainties denote the operators which describe data error, numerical error and model error in the...
Abstract This paper discusses the modeling and stability analysis of aero elastic system. Aero elast...
Free vibration and flutter analyses of two types of high aspect ratio aircraft wings are presented. ...
Currently, multiple air vehicles employ wing shape change to enhance their performance and achieve m...
The problems of uncertainty modeling and model validation of aeroelastic system are investigated. Th...
The paper discusses an extension of μ (or structured singular value), a well-established technique f...
An experimental-based approach to flutter speed uncertainty quantification in aeroelastic systems is...