The existence of a second-order motion system distinct from both the first-order and feature tracking motion systems remains controversial even though many consider it well established. In the present study, the texture contribution to motion was measured within and beyond the spatial acuity of attention by presenting the stimuli in the near periphery where the spatial resolution of attention is low. The logic was that when moving elements are too close one to another for attention to individually select them (i.e., crowding), it is not possible to track them. To test the existence of a dedicated second-order motion system, the texture contribution to motion was measured when neutralizing both the feature tracking motion system and the cont...
AbstractA static or counterphase (target) grating surrounded by drifting (inducer) gratings is perce...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
After prolonged adaptation to a moving pattern, a subsequently presented static or dynamic test patt...
AbstractMotion detection can be achieved either with mechanisms sensitive to a target's velocity, or...
AbstractAlthough second-order motion may be detected by early and automatic mechanisms, some models ...
AbstractA common mechanism for perceiving first-order, luminance-defined, and second-order, texture-...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
The current study introduces a new illusion in motion perception. The stimulus is a moving object th...
Psychophysical experiments on feature tracking suggest that most of our sensitivity to chromatic mot...
© 2001 Optical Society of AmericaMotion-defined motion can play a special role in the discussion of ...
The movement of luminance-defined targets can be easily extracted by elementary motion detectors (EM...
AbstractWhen a plaid pattern (the sum of two high spatial frequency gratings oriented ±84° from vert...
AbstractThis study assessed spatial summation of first-order (luminance-defined) and second-order (c...
AbstractWe sought to determine whether or not motion-from-texture mechanisms have access to monocula...
AbstractThe experiments reported here address the issue of whether the pathways which extract motion...
AbstractA static or counterphase (target) grating surrounded by drifting (inducer) gratings is perce...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
After prolonged adaptation to a moving pattern, a subsequently presented static or dynamic test patt...
AbstractMotion detection can be achieved either with mechanisms sensitive to a target's velocity, or...
AbstractAlthough second-order motion may be detected by early and automatic mechanisms, some models ...
AbstractA common mechanism for perceiving first-order, luminance-defined, and second-order, texture-...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
The current study introduces a new illusion in motion perception. The stimulus is a moving object th...
Psychophysical experiments on feature tracking suggest that most of our sensitivity to chromatic mot...
© 2001 Optical Society of AmericaMotion-defined motion can play a special role in the discussion of ...
The movement of luminance-defined targets can be easily extracted by elementary motion detectors (EM...
AbstractWhen a plaid pattern (the sum of two high spatial frequency gratings oriented ±84° from vert...
AbstractThis study assessed spatial summation of first-order (luminance-defined) and second-order (c...
AbstractWe sought to determine whether or not motion-from-texture mechanisms have access to monocula...
AbstractThe experiments reported here address the issue of whether the pathways which extract motion...
AbstractA static or counterphase (target) grating surrounded by drifting (inducer) gratings is perce...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
After prolonged adaptation to a moving pattern, a subsequently presented static or dynamic test patt...