Moving dots can evoke a percept of the spatial structure of a three-dimensional object in the absence of other visual cues. This phenomenon, called structure from motion (SFM), suggests that the motion flowfield represented in the dorsal stream can form the basis of object recognition performed in the ventral stream. SFM processing is likely to contribute to object perception whenever there is relative motion between the observer and the object viewed. Here we investigate the motion flowfield component of object recognition with functional magnetic resonance imaging. Our SFM stimuli encoded face surfaces and random three-dimensional control shapes with matched curvature properties. We used two different types of an SFM stimulus with the dot...
The perception of motion provides valuable interpolations of the visual scene. This fundamental capa...
In a series of human functional magnetic resonance imaging experiments, we systematically manipulate...
Interactions in our dynamic environment require that the visual system processes both the form and m...
The brain decomposes visual information into its form and motion components and processes the two as...
International audienceFunctional magnetic resonance imaging was used to study the cortical bases of ...
Recent human fMRI studies have implicated separate cortical areas in the analysis of visual motion (...
Successful interactions in our dynamic environment require that the visual system processes the shap...
The perception of moving objects and our successful interaction with them entail that the visual sys...
Interactions in our dynamic environment require that the visual system processes both the shape and ...
Perception of object motion requires that the visual system integrates shape and motion information ...
Little is known about the neural development underlying high order visual perception. For example, i...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
The exquisite sensitivity of the human visual system to form-from-motion (FfM) cues is well document...
Structure-from-motion (SFM) is the perception of three-dimensional shape from motion cues. We used a...
The perception of motion provides valuable interpolations of the visual scene. This fundamental capa...
The perception of motion provides valuable interpolations of the visual scene. This fundamental capa...
In a series of human functional magnetic resonance imaging experiments, we systematically manipulate...
Interactions in our dynamic environment require that the visual system processes both the form and m...
The brain decomposes visual information into its form and motion components and processes the two as...
International audienceFunctional magnetic resonance imaging was used to study the cortical bases of ...
Recent human fMRI studies have implicated separate cortical areas in the analysis of visual motion (...
Successful interactions in our dynamic environment require that the visual system processes the shap...
The perception of moving objects and our successful interaction with them entail that the visual sys...
Interactions in our dynamic environment require that the visual system processes both the shape and ...
Perception of object motion requires that the visual system integrates shape and motion information ...
Little is known about the neural development underlying high order visual perception. For example, i...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
The exquisite sensitivity of the human visual system to form-from-motion (FfM) cues is well document...
Structure-from-motion (SFM) is the perception of three-dimensional shape from motion cues. We used a...
The perception of motion provides valuable interpolations of the visual scene. This fundamental capa...
The perception of motion provides valuable interpolations of the visual scene. This fundamental capa...
In a series of human functional magnetic resonance imaging experiments, we systematically manipulate...
Interactions in our dynamic environment require that the visual system processes both the form and m...