Add to ORKGUsing three-dimensional infrared high-speed video, we captured the wing and body kinematics of free-flying fruit flies as they performed rapid flight maneuvers. We then “replayed” the wing kinematics on a dynamically scaled robotic model to measure the aerodynamic forces produced by the wings. The results show that a fly generates rapid turns with surprisingly subtle modifications in wing motion, which nonetheless generate sufficient torque for the fly to rotate its body through each turn. The magnitude and time course of the torque and body motion during rapid turns indicate that inertia, not friction, dominates the flight dynamics of insects
The flying ability of insects is spellbinding: dragonflies can catch their prey in midair, mosquitoe...
Recent studies suggest that fruit flies use subtle changes to their wing motion to actively generate...
Recent studies suggest that fruit flies use subtle changes to their wing motion to actively generate...
Using three-dimensional infrared high-speed video, we captured the wing and body kinematics of free-...
Using 3D infrared high-speed video, we captured the continuous wing and body kinematics of free-flyi...
The flight pattern of many fly species consists of straight flight segments interspersed with rapid ...
The flight pattern of many fly species consists of straight flight segments interspersed with rapid ...
Insects are graceful and varied locomotors -- flying, darting, and hovering with apparent ease and ...
International audienceWinged insects have been a rich source of inspiration for designing flying rob...
The flight of insects is a beautiful example of an organism's complex interaction with its physical ...
International audienceWinged insects have been a rich source of inspiration for designing flying rob...
This study aimed to numerically simulate aerodynamic forces produced by wing motion of small fruit f...
We present a reconstruction of the dynamics of flight initiation from kinematic data extracted from ...
<div><p>Flies achieve supreme flight maneuverability through a small set of miniscule steering muscl...
Abstract—We have approached the problem of reverse-engi-neering the flight control mechanism of the ...
The flying ability of insects is spellbinding: dragonflies can catch their prey in midair, mosquitoe...
Recent studies suggest that fruit flies use subtle changes to their wing motion to actively generate...
Recent studies suggest that fruit flies use subtle changes to their wing motion to actively generate...
Using three-dimensional infrared high-speed video, we captured the wing and body kinematics of free-...
Using 3D infrared high-speed video, we captured the continuous wing and body kinematics of free-flyi...
The flight pattern of many fly species consists of straight flight segments interspersed with rapid ...
The flight pattern of many fly species consists of straight flight segments interspersed with rapid ...
Insects are graceful and varied locomotors -- flying, darting, and hovering with apparent ease and ...
International audienceWinged insects have been a rich source of inspiration for designing flying rob...
The flight of insects is a beautiful example of an organism's complex interaction with its physical ...
International audienceWinged insects have been a rich source of inspiration for designing flying rob...
This study aimed to numerically simulate aerodynamic forces produced by wing motion of small fruit f...
We present a reconstruction of the dynamics of flight initiation from kinematic data extracted from ...
<div><p>Flies achieve supreme flight maneuverability through a small set of miniscule steering muscl...
Abstract—We have approached the problem of reverse-engi-neering the flight control mechanism of the ...
The flying ability of insects is spellbinding: dragonflies can catch their prey in midair, mosquitoe...
Recent studies suggest that fruit flies use subtle changes to their wing motion to actively generate...
Recent studies suggest that fruit flies use subtle changes to their wing motion to actively generate...