Three independent studies with human functional magnetic resonance imaging (fMRI) measurements were designed to investigate the neural basis of visual glossiness processing in the human brain. The first study is to localize brain areas preferentially responding to glossy objects defined by specular reflectance. We found activations related to gloss in the posterior fusiform (pFs) and in area V3B/KO. The second study is to investigate how the visual-induced haptic sensation is achieved in our brain. We found that in secondary somatosensory area (S2) was distinguishable between glossy and rough surfaces, suggesting that visual information about object surfaces may be transformed into tactile information in S2. In the third study we investigat...
The variation of the appearance such as gloss provides one of the most important information for obj...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
The neural substrates of tactile roughness perception have been investigated by many neuroimaging st...
AbstractSurface gloss is an important cue to the material properties of objects. Recent progress in ...
AbstractGlossiness is the visual appearance of an object's surface as defined by its surface reflect...
We conducted two fMRI experiments to clarify what cortical areas are involved in perception of surfa...
The visual impression of an object’s surface reflectance (‘gloss’) relies on a range of visual cues,...
Visually identifying glossy surfaces can be crucial for survival (e.g., ice patches on a road), yet ...
SummaryNew insights into the perception of surface glossiness embody a conceptual change in percepti...
© 2016 The Authors. When planning interactions with nearby objects, our brain uses visual informati...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Determining the compositional properties of surfaces in the environment is an important visual capac...
The neural substrates of tactile roughness perception have been investigated by many neuroimaging st...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
AbstractWhen planning interactions with nearby objects, our brain uses visual information to estimat...
The variation of the appearance such as gloss provides one of the most important information for obj...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
The neural substrates of tactile roughness perception have been investigated by many neuroimaging st...
AbstractSurface gloss is an important cue to the material properties of objects. Recent progress in ...
AbstractGlossiness is the visual appearance of an object's surface as defined by its surface reflect...
We conducted two fMRI experiments to clarify what cortical areas are involved in perception of surfa...
The visual impression of an object’s surface reflectance (‘gloss’) relies on a range of visual cues,...
Visually identifying glossy surfaces can be crucial for survival (e.g., ice patches on a road), yet ...
SummaryNew insights into the perception of surface glossiness embody a conceptual change in percepti...
© 2016 The Authors. When planning interactions with nearby objects, our brain uses visual informati...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
Determining the compositional properties of surfaces in the environment is an important visual capac...
The neural substrates of tactile roughness perception have been investigated by many neuroimaging st...
When planning interactions with nearby objects, our brain uses visual information to estimate shape,...
AbstractWhen planning interactions with nearby objects, our brain uses visual information to estimat...
The variation of the appearance such as gloss provides one of the most important information for obj...
Real-life visual object recognition requires the processing of more than just geometric (shape, size...
The neural substrates of tactile roughness perception have been investigated by many neuroimaging st...