AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (luminance-defined) complex motion types i.e., radial and rotational motion, are processed by specialized extrastriate motion mechanisms. We ask whether radial and rotational second-order (texture-defined) motion patterns are processed in a similar manner. The motion sensitivity to translating, radiating and rotating motion patterns of both first-order (luminance-modulated noise) and second-order (contrast-modulated noise) were measured for patterns presented at four different exposure durations (106, 240, 500 and 750 ms). No significant difference in motion sensitivity was found across motion type for the first-order motion class across exposure d...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
AbstractWe sought to investigate why the direction of second-order motion, unlike first-order motion...
AbstractThis study assessed spatial summation of first-order (luminance-defined) and second-order (c...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
AbstractOptic flow—large-field rotational and radial motion—is processed as efficiently as translati...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...
AbstractPrevious studies [e.g. Vision Research 40 (2000) 173] have shown that when observers are req...
AbstractThe intention of this series of experiments was to determine the extent to which the pathway...
AbstractThis study characterises the spatiotemporal “window of visibility” for first-order motion (l...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
How are second-order (texture-defined) and third-order (pattern-tracking) motions processed in our b...
AbstractConverging evidence suggests that, at least initially, first-order (luminance defined) and s...
AbstractMotion detection can be achieved either with mechanisms sensitive to a target's velocity, or...
AbstractA common mechanism for perceiving first-order, luminance-defined, and second-order, texture-...
AbstractWe compared visual evoked potentials and psychophysical reaction times to the onset of first...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
AbstractWe sought to investigate why the direction of second-order motion, unlike first-order motion...
AbstractThis study assessed spatial summation of first-order (luminance-defined) and second-order (c...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
AbstractOptic flow—large-field rotational and radial motion—is processed as efficiently as translati...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...
AbstractPrevious studies [e.g. Vision Research 40 (2000) 173] have shown that when observers are req...
AbstractThe intention of this series of experiments was to determine the extent to which the pathway...
AbstractThis study characterises the spatiotemporal “window of visibility” for first-order motion (l...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
How are second-order (texture-defined) and third-order (pattern-tracking) motions processed in our b...
AbstractConverging evidence suggests that, at least initially, first-order (luminance defined) and s...
AbstractMotion detection can be achieved either with mechanisms sensitive to a target's velocity, or...
AbstractA common mechanism for perceiving first-order, luminance-defined, and second-order, texture-...
AbstractWe compared visual evoked potentials and psychophysical reaction times to the onset of first...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
AbstractWe sought to investigate why the direction of second-order motion, unlike first-order motion...
AbstractThis study assessed spatial summation of first-order (luminance-defined) and second-order (c...