Correspondence noise is a major factor limiting direction discrimination performance in random-dot kinematograms [1]. In the current study we investigated the influence of correspondence noise on Dmax, which is the upper limit for the spatial displacement of the dots for which coherent motion is still perceived. Human direction discrimination performance was measured, using 2-frame kinematograms having leftward/rightward motion, over a 200-fold range of dot-densities and a four-fold range of dot displacements. From this data Dmax was estimated for the different dot densities tested. A model was proposed to evaluate the correspondence noise in the stimulus. This model summed the outputs of a set of elementary Reichardt-type local detectors t...
AbstractDirection-discrimination performance was measured for two-frame random-dot kinematograms in ...
The maximum displacement threshold for direction discrimination (dmax) was determined for single or ...
AbstractWe compared observers' ability to discriminate the direction of apparent motion using images...
Correspondence noise is a major factor limiting direction discrimination performance in random-dot k...
One of the major goals of this thesis is to investigate the extent to which correspondence noise, (i...
When an array of random dots is displaced, the ability to report the direction of apparent motion is...
AbstractTwo-frame random-dot kinematograms (RDKs) of different dot density, area and contrast were u...
AbstractTwo-frame random-element kinematograms were used to study the matching algorithm employed by...
When an array of random dots is displaced, the ability to report the direction of apparent motion is...
AbstractIn conventional presentations of random-dot kinematograms, two frames of random dots are pre...
The upper displacement limit for motion was compared with the upper disparity limit for stereopsis u...
The upper displacement limit for motion was compared with the upper disparity limit for stereopsis u...
AbstractWhen a random spatial noise pattern is displaced for a short distance it seems to move coher...
AbstractIn a series of nine experiments, observers were required to identify the shapes of moving ta...
AbstractThe upper spatial limit Dmax for perception of apparent motion of a random dot pattern may b...
AbstractDirection-discrimination performance was measured for two-frame random-dot kinematograms in ...
The maximum displacement threshold for direction discrimination (dmax) was determined for single or ...
AbstractWe compared observers' ability to discriminate the direction of apparent motion using images...
Correspondence noise is a major factor limiting direction discrimination performance in random-dot k...
One of the major goals of this thesis is to investigate the extent to which correspondence noise, (i...
When an array of random dots is displaced, the ability to report the direction of apparent motion is...
AbstractTwo-frame random-dot kinematograms (RDKs) of different dot density, area and contrast were u...
AbstractTwo-frame random-element kinematograms were used to study the matching algorithm employed by...
When an array of random dots is displaced, the ability to report the direction of apparent motion is...
AbstractIn conventional presentations of random-dot kinematograms, two frames of random dots are pre...
The upper displacement limit for motion was compared with the upper disparity limit for stereopsis u...
The upper displacement limit for motion was compared with the upper disparity limit for stereopsis u...
AbstractWhen a random spatial noise pattern is displaced for a short distance it seems to move coher...
AbstractIn a series of nine experiments, observers were required to identify the shapes of moving ta...
AbstractThe upper spatial limit Dmax for perception of apparent motion of a random dot pattern may b...
AbstractDirection-discrimination performance was measured for two-frame random-dot kinematograms in ...
The maximum displacement threshold for direction discrimination (dmax) was determined for single or ...
AbstractWe compared observers' ability to discriminate the direction of apparent motion using images...