AbstractPerception of visual motion includes a first-order mechanism sensitive to luminance changes and a second-order motion mechanism sensitive to contrast changes. We studied neural substrates for these motion types in 142 subjects with visual cortex lesions, 68 normal controls and 28 brain lesion controls. On first-order motion, the visual cortex lesion group performed significantly worse than normal controls overall and in each hemifield, but second-order motion did not differ. Only one individual showed a selective second-order motion deficit. Motion deficits were seen with lesions outside the small occipito-temporal region thought to contain a human homolog of motion processing area MT (V5), suggesting that many areas of human brain ...
We used a psychophysical task to measure sensitivity to motion direction in 50 stroke patients with ...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
Visual motion perception is fundamental to many aspects of visual perception. Visual motion percepti...
AbstractPerception of visual motion includes a first-order mechanism sensitive to luminance changes ...
First-order (Fourier) motion consists of stable spatiotemporal luminance variations. Second-order (n...
An unresolved issue in visual motion perception is how distinct are the processes underlying "first-...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
Our visual world contains both luminance- (first-order) and contrast-defined (second-order) informa...
AbstractWe studied the motion perception abilities in a young adult, SF, who had her right occipito-...
We have examined the activity levels produced in various areas of the human occipital cortex in resp...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
The exquisite sensitivity of the human visual system to form-from-motion (FfM) cues is well document...
Lesions of area MT/V5 in monkeys and its presumed homologue, the motion area, in humans impair motio...
Several published single case studies reveal a double dissociation between the effects of brain dama...
Several published single case studies reveal a double dissociation between the effects of brain dama...
We used a psychophysical task to measure sensitivity to motion direction in 50 stroke patients with ...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
Visual motion perception is fundamental to many aspects of visual perception. Visual motion percepti...
AbstractPerception of visual motion includes a first-order mechanism sensitive to luminance changes ...
First-order (Fourier) motion consists of stable spatiotemporal luminance variations. Second-order (n...
An unresolved issue in visual motion perception is how distinct are the processes underlying "first-...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
Our visual world contains both luminance- (first-order) and contrast-defined (second-order) informa...
AbstractWe studied the motion perception abilities in a young adult, SF, who had her right occipito-...
We have examined the activity levels produced in various areas of the human occipital cortex in resp...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
The exquisite sensitivity of the human visual system to form-from-motion (FfM) cues is well document...
Lesions of area MT/V5 in monkeys and its presumed homologue, the motion area, in humans impair motio...
Several published single case studies reveal a double dissociation between the effects of brain dama...
Several published single case studies reveal a double dissociation between the effects of brain dama...
We used a psychophysical task to measure sensitivity to motion direction in 50 stroke patients with ...
Motion area V5/MT+ response to global motion in the absence of V1 resembles early visual cortex Sara...
Visual motion perception is fundamental to many aspects of visual perception. Visual motion percepti...