Add to ORKGThe aerodynamic performance of hovering insects is largely explained by the presence of a stably attached leading edge vortex (LEV) on top of their wings. Although LEVs have been visualized on real, physically modeled, and simulated insects, the physical mechanisms responsible for their stability are poorly understood. To gain fundamental insight into LEV stability on flapping fly wings we expressed the Navier–Stokes equations in a rotating frame of reference attached to the wing's surface. Using these equations we show that LEV dynamics on flapping wings are governed by three terms: angular, centripetal and Coriolis acceleration. Our analysis for hovering conditions shows that angular acceleration is proportional to the inverse of dimensio...
Summary: We used a dynamically scaled model insect to measure the rotational forces produced by a fl...
The ability to regulate forward speed is an essential capability for flying animals. Here, we use a ...
We investigated whether flapping flight has an inherent stability by analyzing the inertial and aero...
The aerodynamic performance of hovering insects is largely explained by the presence of a stably att...
The elevated aerodynamic performance of insects has been attributed in part to the generation and ma...
The motivation of the current study is to explore two major aspects of flapping flight in insects: t...
Lentink & Dickinson (2009 J. Exp. Biol. 212, 2705–2719. (doi:10.1242/jeb.022269)) showed that rotati...
At high angles of attack, an aircraft wing stalls. This dreaded event is characterized by the develo...
While a leading-edge vortex on an infinite translating wing is shed after a short distance of travel...
Despite intense study by physicists and biologists, we do not fully understand the unsteady aerodyna...
The wings of many insect species including crane flies and damselflies are petiolate (on stalks), wi...
The stable attachment of a leading-edge vortex (LEV) is responsible for the high lift observed from ...
Insect wing shapes are diverse and a renowned source of inspiration for the new generation of autono...
In summary the tilting mechanism helps to explain the overall flow structure and the stability of th...
Mosquitoes exhibit unusual wing kinematics; their long, slender wings flap at remarkably high freque...
Summary: We used a dynamically scaled model insect to measure the rotational forces produced by a fl...
The ability to regulate forward speed is an essential capability for flying animals. Here, we use a ...
We investigated whether flapping flight has an inherent stability by analyzing the inertial and aero...
The aerodynamic performance of hovering insects is largely explained by the presence of a stably att...
The elevated aerodynamic performance of insects has been attributed in part to the generation and ma...
The motivation of the current study is to explore two major aspects of flapping flight in insects: t...
Lentink & Dickinson (2009 J. Exp. Biol. 212, 2705–2719. (doi:10.1242/jeb.022269)) showed that rotati...
At high angles of attack, an aircraft wing stalls. This dreaded event is characterized by the develo...
While a leading-edge vortex on an infinite translating wing is shed after a short distance of travel...
Despite intense study by physicists and biologists, we do not fully understand the unsteady aerodyna...
The wings of many insect species including crane flies and damselflies are petiolate (on stalks), wi...
The stable attachment of a leading-edge vortex (LEV) is responsible for the high lift observed from ...
Insect wing shapes are diverse and a renowned source of inspiration for the new generation of autono...
In summary the tilting mechanism helps to explain the overall flow structure and the stability of th...
Mosquitoes exhibit unusual wing kinematics; their long, slender wings flap at remarkably high freque...
Summary: We used a dynamically scaled model insect to measure the rotational forces produced by a fl...
The ability to regulate forward speed is an essential capability for flying animals. Here, we use a ...
We investigated whether flapping flight has an inherent stability by analyzing the inertial and aero...
