Spatial contrast, the difference in adjacent luminance values, provides information about objects, textures, and motion and supports diverse visual behaviors. Contrast computation is therefore an essential element of visual processing. The underlying mechanisms, however, are poorly understood. In human psychophysics, contrast illusions are means to explore such computations, but humans offer limited experimental access. Via behavioral experiments in Drosophila, we find that flies are also susceptible to contrast illusions. Using genetic silencing techniques, electrophysiology, and modeling, we systematically dissect the mechanisms and neuronal correlates underlying the behavior. Our results indicate that spatial contrast computation involve...
SummaryIn the eye, visual information is segregated into modalities such as color and motion, these ...
Background: Mutations that cause learning and memory defects in Drosophila melanogaster have been fo...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...
SummaryMotion vision is an ancient faculty, critical to many animals in a range of ethological conte...
Changes in luminance over space and time drive visual behaviors across species. Thus, sensitivity to...
Optical illusions provide powerful tools for mapping the algorithms and circuits that underlie visua...
AbstractIn many species, including humans, exposure to high image velocities induces motion adaptati...
SummaryBackgroundMany animals extract specific cues from rich visual scenes to guide appropriate beh...
The fruit fly Drosophila melanogaster has long become a paramount model organism for research in lif...
Many animals rely on visual figure-ground discrimination to aid in navigation, and to draw attention...
Motion vision is a major function of all visual systems, yet the underlying neural mechanisms and ci...
As we move through the world, our visual system constantly detects and tracks objects around us, usi...
Copyright © 2004 ARVOHow do animals regulate self-movement despite large variation in the luminance ...
How neurons detect the direction of motion is a prime example of neural computation: Motion vision i...
Models of sensory processing have historically abstracted underlying biological circuits, due to unk...
SummaryIn the eye, visual information is segregated into modalities such as color and motion, these ...
Background: Mutations that cause learning and memory defects in Drosophila melanogaster have been fo...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...
SummaryMotion vision is an ancient faculty, critical to many animals in a range of ethological conte...
Changes in luminance over space and time drive visual behaviors across species. Thus, sensitivity to...
Optical illusions provide powerful tools for mapping the algorithms and circuits that underlie visua...
AbstractIn many species, including humans, exposure to high image velocities induces motion adaptati...
SummaryBackgroundMany animals extract specific cues from rich visual scenes to guide appropriate beh...
The fruit fly Drosophila melanogaster has long become a paramount model organism for research in lif...
Many animals rely on visual figure-ground discrimination to aid in navigation, and to draw attention...
Motion vision is a major function of all visual systems, yet the underlying neural mechanisms and ci...
As we move through the world, our visual system constantly detects and tracks objects around us, usi...
Copyright © 2004 ARVOHow do animals regulate self-movement despite large variation in the luminance ...
How neurons detect the direction of motion is a prime example of neural computation: Motion vision i...
Models of sensory processing have historically abstracted underlying biological circuits, due to unk...
SummaryIn the eye, visual information is segregated into modalities such as color and motion, these ...
Background: Mutations that cause learning and memory defects in Drosophila melanogaster have been fo...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...