We used functional magnetic resonance imaging to investigate the human cortical areas involved in processing 3-dimensional (3D) shape from texture (SfT) and shading. The stimuli included monocular images of randomly shaped 3D surfaces and a wide variety of 2-dimensional (2D) controls. The results of both passive and active experiments reveal that the extraction of 3D SfT involves the bilateral caudal inferior temporal gyrus (caudal ITG), lateral occipital sulcus (LOS) and several bilateral sites along the intraparietal sulcus. These areas are largely consistent with those involved in the processing of 3D shape from motion and stereo. The experiments also demonstrate, however, that the analysis of 3D shape from shading is primarily restricte...
We carried out 2 functional magnetic resonance imaging experi-ments to investigate the cortical mech...
Using fMRI in anesthetized monkeys, this study investigates how the primate visual system constructs...
AbstractUsing fMRI in anesthetized monkeys, this study investigates how the primate visual system co...
We used contrast-agent enhanced functional magnetic resonance imaging (fMRI) in the alert monkey to ...
We used contrast-agent enhanced functional magnetic resonance imaging (fMRI) in the alert monkey to ...
We used fMRI on neurologically intact humans to investigate whether or not there are different neura...
The studies described here use functional magnetic resonance imaging to test whether common or disti...
Previous work using fMRI in anesthetized monkeys investigating the representation of 3-D objects def...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
AbstractThe perception of shape from shading depends on the orientation of the shading gradient [1–4...
Humans have a remarkable ability to determine three dimensional shape and depth from orderly changes...
Using fMRI in anesthetized monkeys and a variety of computer-generated 3-D objects defined by shadin...
Our perception of the world's three-dimensional (3D) structure is critical for object recognition, n...
Human observers are able to extract information from multiple depth cues in a visual scene. In this ...
This study investigates how the visual system constructs representations of 3-D shape from a variety...
We carried out 2 functional magnetic resonance imaging experi-ments to investigate the cortical mech...
Using fMRI in anesthetized monkeys, this study investigates how the primate visual system constructs...
AbstractUsing fMRI in anesthetized monkeys, this study investigates how the primate visual system co...
We used contrast-agent enhanced functional magnetic resonance imaging (fMRI) in the alert monkey to ...
We used contrast-agent enhanced functional magnetic resonance imaging (fMRI) in the alert monkey to ...
We used fMRI on neurologically intact humans to investigate whether or not there are different neura...
The studies described here use functional magnetic resonance imaging to test whether common or disti...
Previous work using fMRI in anesthetized monkeys investigating the representation of 3-D objects def...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
AbstractThe perception of shape from shading depends on the orientation of the shading gradient [1–4...
Humans have a remarkable ability to determine three dimensional shape and depth from orderly changes...
Using fMRI in anesthetized monkeys and a variety of computer-generated 3-D objects defined by shadin...
Our perception of the world's three-dimensional (3D) structure is critical for object recognition, n...
Human observers are able to extract information from multiple depth cues in a visual scene. In this ...
This study investigates how the visual system constructs representations of 3-D shape from a variety...
We carried out 2 functional magnetic resonance imaging experi-ments to investigate the cortical mech...
Using fMRI in anesthetized monkeys, this study investigates how the primate visual system constructs...
AbstractUsing fMRI in anesthetized monkeys, this study investigates how the primate visual system co...