Neural mechanisms behind stereopsis, which requires simultaneous disparity inputs from two eyes, have remained mysterious. Here we show how ultrafast mirror-symmetric photomechanical contractions in the frontal forward-facing left and right eye photoreceptors give Drosophila superresolution three-dimensional (3D) vision. By interlinking multiscale in vivo assays with multiscale simulations, we reveal how these photoreceptor microsaccades—by verging, diverging, and narrowing the eyes’ overlapping receptive fields—channel depth information, as phasic binocular image motion disparity signals in time. We further show how peripherally, outside stereopsis, microsaccadic sampling tracks a flying fly’s optic flow field to better resolve the world i...
Evolution shapes biological systems to better match their desired functions. Hence, we can assume th...
Vision is essential to maximize the efficiency of daily tasks such as feeding, avoiding predators o...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...
Abstract Neural mechanisms behind stereopsis, which requires simultaneous disparity inputs from two ...
Neural mechanisms behind stereopsis, which requires simultaneous disparity inputs from two eyes, hav...
Inside compound eyes, photoreceptors contract to light changes, sharpening retinal images of the mov...
Small fly eyes should not see fine image details. Because flies exhibit saccadic visual behaviors a...
My thesis is about the fruit fly (Drosophila melanogaster) photoreceptor microsaccades. These are l...
In order to survive and reproduce, every animal needs to run accurate and diverse visual processes e...
Small fly eyes should not see fine image details. Because flies exhibit saccadic visual behaviors an...
Color and motion information are thought to be channeled through separate neural pathways, but it re...
Many insects exploit skylight polarization as a compass cue for orientation and navigation. In the f...
Many insects exploit skylight polarization as a compass cue for orientation and navigation. In the f...
SummaryEarly stages of visual processing must capture complex, dynamic inputs. While peripheral neur...
SummaryTwo new studies introduce the power of Drosophila genetics to polarization vision, revealing ...
Evolution shapes biological systems to better match their desired functions. Hence, we can assume th...
Vision is essential to maximize the efficiency of daily tasks such as feeding, avoiding predators o...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...
Abstract Neural mechanisms behind stereopsis, which requires simultaneous disparity inputs from two ...
Neural mechanisms behind stereopsis, which requires simultaneous disparity inputs from two eyes, hav...
Inside compound eyes, photoreceptors contract to light changes, sharpening retinal images of the mov...
Small fly eyes should not see fine image details. Because flies exhibit saccadic visual behaviors a...
My thesis is about the fruit fly (Drosophila melanogaster) photoreceptor microsaccades. These are l...
In order to survive and reproduce, every animal needs to run accurate and diverse visual processes e...
Small fly eyes should not see fine image details. Because flies exhibit saccadic visual behaviors an...
Color and motion information are thought to be channeled through separate neural pathways, but it re...
Many insects exploit skylight polarization as a compass cue for orientation and navigation. In the f...
Many insects exploit skylight polarization as a compass cue for orientation and navigation. In the f...
SummaryEarly stages of visual processing must capture complex, dynamic inputs. While peripheral neur...
SummaryTwo new studies introduce the power of Drosophila genetics to polarization vision, revealing ...
Evolution shapes biological systems to better match their desired functions. Hence, we can assume th...
Vision is essential to maximize the efficiency of daily tasks such as feeding, avoiding predators o...
SummaryLike the mammalian visual cortex, the fly visual system is organized into retinotopic columns...