Add to ORKGIn flying insects control of power by alteration of the setting of the wing relative to the air was suggested for Drosophila by Chadwick (1951), and in Schistocerca Weis-Fogh (19566) discovered that lift was kept constant during extended flights and calculated that this was achieved by active regulation of wing twisting. Wilson &
While much attention has been given to locomotory controlling reactions in animals, most studies hav...
How does the locust nervous system co-ordinate flight behaviour? Wilson & Weis-Fogh (1962) showe...
Locusts (Orthoptera, Acrididae) were induced to fly while tethered within a simulated horizon displa...
The mechanisms underlying locust flight include a central neuronal pattern generator determining the...
Control of forewing twisting in locusts depends upon transfer of nervous activity between pterothora...
It has been suggested by several authors that optomotor responses play a part in promoting stability...
The optomotor reactions of Drosophila have been studied intensively, with the conclusion that in fli...
1. We simultaneously recorded lift/body weight, flight speed, body angle and 12 variables of wing mo...
The total power output of tethered flying Drosophila melanogaster in still air depends on translatio...
Wing movements in locust flight derive chiefly from a central neuronal signal generator determining ...
That proprioceptive feedback is important in the regulation of locomotory patterns has been widely d...
Thesis (Ph.D.)--University of Washington, 2015Flying insects rapidly stabilize after perturbations u...
Thesis (Ph.D.)--University of Washington, 2015Flying insects rapidly stabilize after perturbations u...
Insects have evolved sophisticated fight control mechanisms permitting a remarkable range of manoeuv...
The tegula, a complex sense organ associated with the wing base of the locust, plays an important ro...
While much attention has been given to locomotory controlling reactions in animals, most studies hav...
How does the locust nervous system co-ordinate flight behaviour? Wilson & Weis-Fogh (1962) showe...
Locusts (Orthoptera, Acrididae) were induced to fly while tethered within a simulated horizon displa...
The mechanisms underlying locust flight include a central neuronal pattern generator determining the...
Control of forewing twisting in locusts depends upon transfer of nervous activity between pterothora...
It has been suggested by several authors that optomotor responses play a part in promoting stability...
The optomotor reactions of Drosophila have been studied intensively, with the conclusion that in fli...
1. We simultaneously recorded lift/body weight, flight speed, body angle and 12 variables of wing mo...
The total power output of tethered flying Drosophila melanogaster in still air depends on translatio...
Wing movements in locust flight derive chiefly from a central neuronal signal generator determining ...
That proprioceptive feedback is important in the regulation of locomotory patterns has been widely d...
Thesis (Ph.D.)--University of Washington, 2015Flying insects rapidly stabilize after perturbations u...
Thesis (Ph.D.)--University of Washington, 2015Flying insects rapidly stabilize after perturbations u...
Insects have evolved sophisticated fight control mechanisms permitting a remarkable range of manoeuv...
The tegula, a complex sense organ associated with the wing base of the locust, plays an important ro...
While much attention has been given to locomotory controlling reactions in animals, most studies hav...
How does the locust nervous system co-ordinate flight behaviour? Wilson & Weis-Fogh (1962) showe...
Locusts (Orthoptera, Acrididae) were induced to fly while tethered within a simulated horizon displa...