The role of the primate middle temporal area (MT) in depth perception was examined by considering the trial-to-trial correlations between neuronal activity and reported depth sensations. A set of moving random dots portrayed a cylinder rotating about its principal axis. In this structure-from-motion stimulus, the direction of rotation is ambiguous and the resulting percept undergoes spontaneous fluctuations. The stimulus can be rendered unambiguous by the addition of binocular disparities. We trained monkeys to report the direction of rotation in a set of these stimuli, one of which had zero disparity. Many disparity-selective neurons in area MT are selective for the direction of rotation defined by disparity. Across repeated presentations ...
Horizontal binocular disparity is a powerful depth cue, both for relative and absolute depth informa...
We see the world as three-dimensional, but because the retinal image is flat, we must derive the thi...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...
AbstractDue to the diversity of tuning properties in sensory cortex, only a fraction of neurons are ...
<div><p>Cortical neurons are frequently tuned to several stimulus dimensions, and many cortical area...
Cortical neurons are frequently tuned to several stimulus dimensions, and many cortical areas contai...
The primate visual system incorporates a highly specialized subsystem for the analysis of motion in ...
SummaryJudgments about the perceptual appearance of visual objects require the combination of multip...
Judgments about the perceptual appearance of visual objects require the combination of multiple para...
Judgments about the perceptual appearance of visual objects require the combination of multiple para...
In order to isolate the neuronal activity that relates to the making of perceptual decisions, we hav...
Judgments of visual depth rely crucially on the relative binocular disparity between two visual feat...
The middle temporal (MT) area is a cortical area integral to the “where” pathway of primate visual p...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...
The relationship between single neuronal activity in area MT and motion perception is a well studied...
Horizontal binocular disparity is a powerful depth cue, both for relative and absolute depth informa...
We see the world as three-dimensional, but because the retinal image is flat, we must derive the thi...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...
AbstractDue to the diversity of tuning properties in sensory cortex, only a fraction of neurons are ...
<div><p>Cortical neurons are frequently tuned to several stimulus dimensions, and many cortical area...
Cortical neurons are frequently tuned to several stimulus dimensions, and many cortical areas contai...
The primate visual system incorporates a highly specialized subsystem for the analysis of motion in ...
SummaryJudgments about the perceptual appearance of visual objects require the combination of multip...
Judgments about the perceptual appearance of visual objects require the combination of multiple para...
Judgments about the perceptual appearance of visual objects require the combination of multiple para...
In order to isolate the neuronal activity that relates to the making of perceptual decisions, we hav...
Judgments of visual depth rely crucially on the relative binocular disparity between two visual feat...
The middle temporal (MT) area is a cortical area integral to the “where” pathway of primate visual p...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...
The relationship between single neuronal activity in area MT and motion perception is a well studied...
Horizontal binocular disparity is a powerful depth cue, both for relative and absolute depth informa...
We see the world as three-dimensional, but because the retinal image is flat, we must derive the thi...
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal corti...