We used fMRI on neurologically intact humans to investigate whether or not there are different neural substrates for the different kinds of information that a visual surface signals (shape from texture vsmaterial properties from texture). Participants attended to differences in the shape (flat/convex), texture and color (wood/rock), or material properties (soft/hard) of a set of circular surfaces. Attending to shape activated the contour-sensitive lateral occipital (LO) area, and attending to texture activated a region of the collateral sulcus (CoS) that overlaps with the parahippocampal place area (PPA). Interestingly, attending to material properties activated the same texture-sensitive region in the CoS. These results demonstrate the exi...
Touching for shape recognition has been shown to activate occipital areas in addition to somatosenso...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Successful visual navigation requires a sense of the geometry of the local environment. How do our b...
We carried out 2 functional magnetic resonance imaging experi-ments to investigate the cortical mech...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
Multiple cortical regions are crucial for perceiving the visual world, yet the processes shaping rep...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
The studies described here use functional magnetic resonance imaging to test whether common or disti...
Previous research suggests the involvement of several ventral temporal brain areas in the processing...
Abstract In fMRI studies, human lateral occipital (LO) cortex is thought to respond selectively to i...
We used functional magnetic resonance imaging to investigate the human cortical areas involved in pr...
AbstractWhen planning interactions with nearby objects, our brain uses visual information to estimat...
Neuroimaging studies have identified three scene-selective regions in human cortex: parahippocampal ...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Real-world visual scenes are complex cluttered, and heterogeneous stimuli engaging scene- and object...
Touching for shape recognition has been shown to activate occipital areas in addition to somatosenso...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Successful visual navigation requires a sense of the geometry of the local environment. How do our b...
We carried out 2 functional magnetic resonance imaging experi-ments to investigate the cortical mech...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
Multiple cortical regions are crucial for perceiving the visual world, yet the processes shaping rep...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
The studies described here use functional magnetic resonance imaging to test whether common or disti...
Previous research suggests the involvement of several ventral temporal brain areas in the processing...
Abstract In fMRI studies, human lateral occipital (LO) cortex is thought to respond selectively to i...
We used functional magnetic resonance imaging to investigate the human cortical areas involved in pr...
AbstractWhen planning interactions with nearby objects, our brain uses visual information to estimat...
Neuroimaging studies have identified three scene-selective regions in human cortex: parahippocampal ...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Real-world visual scenes are complex cluttered, and heterogeneous stimuli engaging scene- and object...
Touching for shape recognition has been shown to activate occipital areas in addition to somatosenso...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Successful visual navigation requires a sense of the geometry of the local environment. How do our b...