AbstractDirection discrimination (upward/downward or left/right) for a Gabor patch in a two-frame motion display was measured as a function of the inter-frame displacement size of the component grating with the stimulus position (center, left, right, upper and lower visual fields) as a parameter. The results showed that, for vertical motion in the center, left, right and lower visual fields, the observers saw downward motion more frequently than upward motion, whereas for vertical motion in the upper field and for horizontal motion, no preference for one of the two opposite directions was obtained. Human motion vision is anisotropic in the lower half of the visual field. © 1997 Elsevier Science Ltd. All rights reserved
Orientation tuning of receptive fields is well documented in the spatial domain, but considerable va...
Contains fulltext : 71016.pdf (publisher's version ) (Closed access)To determine t...
AbstractOpponency between opposite directions of motion is a characteristic of many models of moveme...
AbstractDirection discrimination (upward/downward or left/right) for a Gabor patch in a two-frame mo...
AbstractA number of previous studies have extensively investigated directional anisotropy in motion ...
AbstractThe aim of this study was to determine whether there is a link between the statistical prope...
Stimulus localization affects visual motion processing. Vertical asymmetries favouring lower visual ...
The aim of this study was to determine whether there is a link between the statistical properties of...
AbstractA translating oriented grating viewed through a circular aperture with an occluding area in ...
We studied the binocular organization of motion opponency and its relationship to contrast gain cont...
AbstractIn a recent study (Fan, Z., & Harris, J. (2008). Perceived spatial displacement of motion-de...
AbstractDirection-specific losses in sensitivity were found for a test grating which was superimpose...
AbstractVisual motion signals distort the perceived positions of briefly presented stimuli; a briefl...
Discrimination performance is better for cardinal motion directions than for oblique ones, a phenome...
AbstractOrientation tuning of receptive fields is well documented in the spatial domain, but conside...
Orientation tuning of receptive fields is well documented in the spatial domain, but considerable va...
Contains fulltext : 71016.pdf (publisher's version ) (Closed access)To determine t...
AbstractOpponency between opposite directions of motion is a characteristic of many models of moveme...
AbstractDirection discrimination (upward/downward or left/right) for a Gabor patch in a two-frame mo...
AbstractA number of previous studies have extensively investigated directional anisotropy in motion ...
AbstractThe aim of this study was to determine whether there is a link between the statistical prope...
Stimulus localization affects visual motion processing. Vertical asymmetries favouring lower visual ...
The aim of this study was to determine whether there is a link between the statistical properties of...
AbstractA translating oriented grating viewed through a circular aperture with an occluding area in ...
We studied the binocular organization of motion opponency and its relationship to contrast gain cont...
AbstractIn a recent study (Fan, Z., & Harris, J. (2008). Perceived spatial displacement of motion-de...
AbstractDirection-specific losses in sensitivity were found for a test grating which was superimpose...
AbstractVisual motion signals distort the perceived positions of briefly presented stimuli; a briefl...
Discrimination performance is better for cardinal motion directions than for oblique ones, a phenome...
AbstractOrientation tuning of receptive fields is well documented in the spatial domain, but conside...
Orientation tuning of receptive fields is well documented in the spatial domain, but considerable va...
Contains fulltext : 71016.pdf (publisher's version ) (Closed access)To determine t...
AbstractOpponency between opposite directions of motion is a characteristic of many models of moveme...