Add to ORKGWe present a reconstruction of the dynamics of flight initiation from kinematic data extracted from high-speed video recordings of the fruit fly Drosophila melanogaster. The dichotomy observed in this insectpsilas flight initiation sequences, generated by the presence or absence of visual stimuli, clearly generates two contrasting sets of dynamics once the flies become airborne. By calculating reaction forces and moments using the unconstrained motion formulation for a rigid body, we assess the flypsilas responses amidst these two dynamic patterns as a step towards refining our understanding of insect flight control
To study the visual cues that control steering behavior in the fruit fly Drosophila melanogaster, we...
By simultaneously measuring flight forces and stroke kinematics in several species of fruit flies in...
Insects are graceful and varied locomotors -- flying, darting, and hovering with apparent ease and ...
We present a reconstruction of the dynamics of flight initiation from kinematic data extracted from ...
In response to abrupt visual stimulation, the fruit fly, Drosophila melanogaster, quickly initiates ...
Abstract—We have approached the problem of reverse-engi-neering the flight control mechanism of the ...
The flight of insects is a beautiful example of an organism's complex interaction with its physical ...
The fruit fly Drosophila melanogaster performs at least two distinct types of flight initiation. One...
Using 3D infrared high-speed video, we captured the continuous wing and body kinematics of free-flyi...
This paper presents a framework for simulating the flight dynamics and control strategies of the fru...
Using three-dimensional infrared high-speed video, we captured the wing and body kinematics of free-...
Flight control in insects depends on self-induced image motion (optic flow), which the visual system...
We have used flow visualizations and instantaneous force measurements of tethered fruit flies (Droso...
We have used flow visualizations and instantaneous force measurements of tethered fruit flies (Droso...
We have used flow visualizations and instantaneous force measurements of tethered fruit flies (Droso...
To study the visual cues that control steering behavior in the fruit fly Drosophila melanogaster, we...
By simultaneously measuring flight forces and stroke kinematics in several species of fruit flies in...
Insects are graceful and varied locomotors -- flying, darting, and hovering with apparent ease and ...
We present a reconstruction of the dynamics of flight initiation from kinematic data extracted from ...
In response to abrupt visual stimulation, the fruit fly, Drosophila melanogaster, quickly initiates ...
Abstract—We have approached the problem of reverse-engi-neering the flight control mechanism of the ...
The flight of insects is a beautiful example of an organism's complex interaction with its physical ...
The fruit fly Drosophila melanogaster performs at least two distinct types of flight initiation. One...
Using 3D infrared high-speed video, we captured the continuous wing and body kinematics of free-flyi...
This paper presents a framework for simulating the flight dynamics and control strategies of the fru...
Using three-dimensional infrared high-speed video, we captured the wing and body kinematics of free-...
Flight control in insects depends on self-induced image motion (optic flow), which the visual system...
We have used flow visualizations and instantaneous force measurements of tethered fruit flies (Droso...
We have used flow visualizations and instantaneous force measurements of tethered fruit flies (Droso...
We have used flow visualizations and instantaneous force measurements of tethered fruit flies (Droso...
To study the visual cues that control steering behavior in the fruit fly Drosophila melanogaster, we...
By simultaneously measuring flight forces and stroke kinematics in several species of fruit flies in...
Insects are graceful and varied locomotors -- flying, darting, and hovering with apparent ease and ...