Motion detection in fly vision has been investigated experimentally and theoretically for half of a century, yet mechanistic insights into the neuronal computation have only started to emerge. In a recent issue of Nature, two studies provide major insights into how motion direction is extracted from the image flow projected onto the retina
Detecting the direction of visual movement is fundamental for every sighted animal in order to navig...
Motion-sensitive neurons have long been studied in both the mammalian retina and the insect optic lo...
Images projected onto the retina of an animal eye are rarely still. Instead, they usually contain mo...
Motion detection in fly vision has been investigated experimentally and theoretically for half of a ...
SummaryA new semi-automated method for high-throughput identification of visual neurons and their sy...
Detecting the direction of image motion is important for visual navigation as well as predator, prey...
SummaryRecent experiments have shown that motion detection in Drosophila starts with splitting the v...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...
Animals typically rely on vision to direct their locomotion through the environment. Flies, who move...
Detecting the direction of image motion is a fundamental component of visual computation, essential ...
How neurons detect the direction of motion is a prime example of neural computation: Motion vision i...
Flies use visual motion information for flight control, stabilization and object tracking. However, ...
Detecting the direction of visual movement is fundamental for every sighted animal in order to navig...
Spalthoff C. Representation of motion information in the visual system of the blowfly. Bielefeld: Un...
Seeing the direction of motion is fundamental for visual navigation, predator avoidance, and prey ca...
Detecting the direction of visual movement is fundamental for every sighted animal in order to navig...
Motion-sensitive neurons have long been studied in both the mammalian retina and the insect optic lo...
Images projected onto the retina of an animal eye are rarely still. Instead, they usually contain mo...
Motion detection in fly vision has been investigated experimentally and theoretically for half of a ...
SummaryA new semi-automated method for high-throughput identification of visual neurons and their sy...
Detecting the direction of image motion is important for visual navigation as well as predator, prey...
SummaryRecent experiments have shown that motion detection in Drosophila starts with splitting the v...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...
Animals typically rely on vision to direct their locomotion through the environment. Flies, who move...
Detecting the direction of image motion is a fundamental component of visual computation, essential ...
How neurons detect the direction of motion is a prime example of neural computation: Motion vision i...
Flies use visual motion information for flight control, stabilization and object tracking. However, ...
Detecting the direction of visual movement is fundamental for every sighted animal in order to navig...
Spalthoff C. Representation of motion information in the visual system of the blowfly. Bielefeld: Un...
Seeing the direction of motion is fundamental for visual navigation, predator avoidance, and prey ca...
Detecting the direction of visual movement is fundamental for every sighted animal in order to navig...
Motion-sensitive neurons have long been studied in both the mammalian retina and the insect optic lo...
Images projected onto the retina of an animal eye are rarely still. Instead, they usually contain mo...