AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i.e., movement of non-luminance features, such as flicker, texture size modulation, or contrast modulation that moved in synchrony with lateral head movement). The results, obtained with second-order motion from a simple grating stimuli, showed that depth order was judged correctly with probabilities well above chance, but the reported depth magnitude did not co-vary with parallax magnitude. When we used a complex spatial pattern for which feature tracking was difficult, the accuracy of depth-order judgments descended to chance level. Our results suggest that the visual system (a) can detect the correct depth order by tracking a relative shift ...
There is considerable evidence for the existence of a specialized mechanism in human vision for dete...
Previous studies of the motion aperture problem have shown that the direction of grating motion can ...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
Psychophysical and neurophysiological studies have revealed that the visual system is sensitive to b...
AbstractPerceived depth was measured in a colored stimulus while stimulus movement yoked to head dis...
AbstractIt has been unclear whether the perception of depth from motion parallax is an entirely visu...
Depth perception from motion parallax has been investigated with right-and-left head movement. From ...
AbstractSpeed matches were obtained, using a spatial two-alternative forced-choice task, between a s...
In the present study, the effects of depth order on forward and backward vection were examined using...
In this thesis the notion of an independent non-linear channel for the perception of second- order m...
AbstractLarge-field stimuli were used to investigate the interaction of first- and second-order path...
We measured the ability of human observers to discriminate the direction of motion of ditTerent spat...
Speed matches were obtained, using a spatial two-alternative forced-choice task, between asecond-ord...
AbstractFirst- and second-order motions differ in their ability to induce motion aftereffects (MAEs)...
There is considerable evidence for the existence of a specialized mechanism in human vision for dete...
Previous studies of the motion aperture problem have shown that the direction of grating motion can ...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
Psychophysical and neurophysiological studies have revealed that the visual system is sensitive to b...
AbstractPerceived depth was measured in a colored stimulus while stimulus movement yoked to head dis...
AbstractIt has been unclear whether the perception of depth from motion parallax is an entirely visu...
Depth perception from motion parallax has been investigated with right-and-left head movement. From ...
AbstractSpeed matches were obtained, using a spatial two-alternative forced-choice task, between a s...
In the present study, the effects of depth order on forward and backward vection were examined using...
In this thesis the notion of an independent non-linear channel for the perception of second- order m...
AbstractLarge-field stimuli were used to investigate the interaction of first- and second-order path...
We measured the ability of human observers to discriminate the direction of motion of ditTerent spat...
Speed matches were obtained, using a spatial two-alternative forced-choice task, between asecond-ord...
AbstractFirst- and second-order motions differ in their ability to induce motion aftereffects (MAEs)...
There is considerable evidence for the existence of a specialized mechanism in human vision for dete...
Previous studies of the motion aperture problem have shown that the direction of grating motion can ...
AbstractMany studies have documented that first-order motion influences perceived position. Here, we...