Self-motion generates patterns of optic flow on the retina. Neurons in the dorsal part of the medial superior temporal area (MSTd) are selective for these optic flow patterns. It has been shown that neurons in this area that are selective for expanding optic flow fields are involved in heading judgments. We wondered how subpopulations of MSTd neurons, those tuned for expansion, rotation or spiral motion, contribute to heading perception. To investigate this question, we recorded from neurons in area MSTd with diverse tuning properties, while the animals performed a heading-discrimination task. We found a significant trial-to-trial correlation (choice probability) between the MSTd neurons and the animals' decision. Neurons in different subpo...
The speed of visual motion in optic flow fields can provide important cues about self-movement. We h...
As arboreal primates move through the jungle, they are immersed in visual motion that they must dist...
Heading perception in primates depends heavily on visual optic-flow cues. Yet during self-motion, he...
Self-motion generates patterns of optic flow on the retina. Neurons in the dorsal part of the medial...
Cells in the dorsal division of the medial superior temporal area (MSTd) have large receptive fields...
Self-motion, steering, and obstacle avoidance during navigation in the real world require humans to ...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
SummaryHumans and monkeys use both vestibular and visual motion (optic flow) cues to discriminate th...
Area MSTd is involved in the computation of heading direction from the focus of expansion (FOE) of t...
AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells wh...
Research on the neural circuitry responsible for perception of self-motion has focused on the medial...
Abstract The control of self-motion is supported by visual, vestibular, and proprioceptive signals. ...
UnlabelledNeurons in the dorsal subregion of the medial superior temporal (MSTd) area of the macaque...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
The speed of visual motion in optic flow fields can provide important cues about self-movement. We h...
As arboreal primates move through the jungle, they are immersed in visual motion that they must dist...
Heading perception in primates depends heavily on visual optic-flow cues. Yet during self-motion, he...
Self-motion generates patterns of optic flow on the retina. Neurons in the dorsal part of the medial...
Cells in the dorsal division of the medial superior temporal area (MSTd) have large receptive fields...
Self-motion, steering, and obstacle avoidance during navigation in the real world require humans to ...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
SummaryHumans and monkeys use both vestibular and visual motion (optic flow) cues to discriminate th...
Area MSTd is involved in the computation of heading direction from the focus of expansion (FOE) of t...
AbstractNeurophysiological studies in MSTd report the existence of motion pattern selective cells wh...
Research on the neural circuitry responsible for perception of self-motion has focused on the medial...
Abstract The control of self-motion is supported by visual, vestibular, and proprioceptive signals. ...
UnlabelledNeurons in the dorsal subregion of the medial superior temporal (MSTd) area of the macaque...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
The speed of visual motion in optic flow fields can provide important cues about self-movement. We h...
As arboreal primates move through the jungle, they are immersed in visual motion that they must dist...
Heading perception in primates depends heavily on visual optic-flow cues. Yet during self-motion, he...