In the present paper, an ‘in-house’ genetic algorithm was numerically and experimentally validated. The genetic algorithm was applied to an optimization problem for improving the aerodynamic performances of an aircraft wing tip through upper surface morphing. The optimization was performed for 16 flight cases expressed in terms of various combinations of speeds, angles of attack and aileron deflections. The displacements resulted from the optimization were used during the wind tunnel tests of the wing tip demonstrator for the actuators control to change the upper surface shape of the wing. The results of the optimization of the flow behavior for the airfoil morphing upper-surface problem were validated with wind tunnel experimental transiti...
A large-scale multi-disciplinary research project, CRIAQ 7.1, was undertaken to investigate a morph...
An experimental validation of an optimised wing geometry in the Price-Païdoussis subsonic wind tunne...
The paper investigates the drag reduction of aerofoils and wings using a morphing technique which co...
In the present paper, an ‘in-house’ genetic algorithm was numerically and experimentally validated. ...
In this paper, an ‘in-house’ genetic algorithm is described and applied to an optimization problem f...
In the present paper an \u2018in-house\u2019 genetic algorithm is described and applied to an ...
In this paper, an \u2018in-house\u2019 genetic algorithm is described and applied to an optimization...
A new wing-tip concept with morphing upper surface and interchangeable conventional and morphing ail...
The drag coefficient and the laminar-to-turbulent transition for the aerofoil component of a wing mo...
A new wing-tip concept with morphing upper surface and interchangeable conventional and morphing ail...
This paper presents numerical optimization and experimental wind tunnel testing of a morphing wing t...
To increase the aerodynamic efficiency of aircraft, in order to reduce the fuel consumption, a novel...
A large-scale multi-disciplinary research project, CRIAQ 7.1, was undertaken to investigate a morph...
An experimental validation of an optimised wing geometry in the Price-Païdoussis subsonic wind tunne...
The paper investigates the drag reduction of aerofoils and wings using a morphing technique which co...
In the present paper, an ‘in-house’ genetic algorithm was numerically and experimentally validated. ...
In this paper, an ‘in-house’ genetic algorithm is described and applied to an optimization problem f...
In the present paper an \u2018in-house\u2019 genetic algorithm is described and applied to an ...
In this paper, an \u2018in-house\u2019 genetic algorithm is described and applied to an optimization...
A new wing-tip concept with morphing upper surface and interchangeable conventional and morphing ail...
The drag coefficient and the laminar-to-turbulent transition for the aerofoil component of a wing mo...
A new wing-tip concept with morphing upper surface and interchangeable conventional and morphing ail...
This paper presents numerical optimization and experimental wind tunnel testing of a morphing wing t...
To increase the aerodynamic efficiency of aircraft, in order to reduce the fuel consumption, a novel...
A large-scale multi-disciplinary research project, CRIAQ 7.1, was undertaken to investigate a morph...
An experimental validation of an optimised wing geometry in the Price-Païdoussis subsonic wind tunne...
The paper investigates the drag reduction of aerofoils and wings using a morphing technique which co...