During the pullout maneuver, peregrine falcons were observed to adopt a succession of specific flight configurations that are thought to offer an aerodynamic advantage over aerial prey. Analysis of the flight trajectory of a falcon in a controlled environment shows it experiencing load factors up to 3g, and further predictions suggest this could be increased up to almost 10g during high-speed pullout. This can be attributed to the high maneuverability promoted by lift-generating vortical structures over the wing. Wind-tunnel experiments on life-sized models in the different configurations together with high-fidelity computational fluid dynamics simulations (large-eddy simulations) show that deploying the hand wing in a pullout creates extra...
The paper presents an analytical model for estimation of proprotor aerodynamic loads at elevated inc...
This paper presents a parametric analysis of an active winglet concept applied to a high aspect rat...
International audienceA study of multi-elements wings applied to a wingsail of a america's cup yacht
The peregrine falcon (Falco peregrinus) is known for its extremely high speeds during hunting dives ...
A reduced-order model to estimate the aerodynamic forces and moments of a propeller at incidence ang...
Reduction of aircraft environmental footprint has become over years a key objective for the industr...
Convertible unmanned aerial vehicle (UAV) promises a good balance between convenient autonomous laun...
Direct numerical simulations are performed to assess the aerodynamic performance of three-dimensiona...
Transitioning vehicles experience three different flight phases during typical missions. The hoverin...
Fixed-wing miniature aerial vehicles usually fly at low altitudes that are often exposed to turbulen...
The capability of autonomous formation flight has the potential to significantly enhance the utility...
This Paper discusses energy harvesting from atmospheric phenomena for small unmanned aerial vehicles...
In the present work, the optimal control to maximize the energy harvesting through a sinusoidal vert...
The dynamics of perturbed aircraft wake models is investigated in the two-dimensional limit by means...
During the pull-out maneuver, Peregrine falcons were observed to adopt a succession of specific flig...
The paper presents an analytical model for estimation of proprotor aerodynamic loads at elevated inc...
This paper presents a parametric analysis of an active winglet concept applied to a high aspect rat...
International audienceA study of multi-elements wings applied to a wingsail of a america's cup yacht
The peregrine falcon (Falco peregrinus) is known for its extremely high speeds during hunting dives ...
A reduced-order model to estimate the aerodynamic forces and moments of a propeller at incidence ang...
Reduction of aircraft environmental footprint has become over years a key objective for the industr...
Convertible unmanned aerial vehicle (UAV) promises a good balance between convenient autonomous laun...
Direct numerical simulations are performed to assess the aerodynamic performance of three-dimensiona...
Transitioning vehicles experience three different flight phases during typical missions. The hoverin...
Fixed-wing miniature aerial vehicles usually fly at low altitudes that are often exposed to turbulen...
The capability of autonomous formation flight has the potential to significantly enhance the utility...
This Paper discusses energy harvesting from atmospheric phenomena for small unmanned aerial vehicles...
In the present work, the optimal control to maximize the energy harvesting through a sinusoidal vert...
The dynamics of perturbed aircraft wake models is investigated in the two-dimensional limit by means...
During the pull-out maneuver, Peregrine falcons were observed to adopt a succession of specific flig...
The paper presents an analytical model for estimation of proprotor aerodynamic loads at elevated inc...
This paper presents a parametric analysis of an active winglet concept applied to a high aspect rat...
International audienceA study of multi-elements wings applied to a wingsail of a america's cup yacht