AbstractStereoacuity depends not only on the carrier frequency of Gabor stimuli, but also upon their size. To determine if this is also the case at large disparities, we have measured the upper limit for stereopsis, “Dmax”, and assessed its dependence on carrier frequency and overall envelope size. The results differ markedly from the stereoacuity data. Dmax for stereopsis is primarily dependent on the size of the envelope of the Gabor patch, and is relatively independent of its carrier frequency. These results support the proposition that stereopsis is achieved at large disparities by way of non-linear processing (envelope extraction)
We have measured the contrast dependence of stereoacuity using both horizontally and vertically orie...
AbstractStereoscopic depth discrimination thresholds increase with retinal eccentricity and distance...
AbstractTo better understand the pooling properties underlying global stereopsis we examined the rel...
AbstractStereoacuity depends not only on the carrier frequency of Gabor stimuli, but also upon their...
AbstractStereopsis is the sense of depth derived from binocular disparities that are formed between ...
AbstractPrevious data [Prince, S.J.D., & Eagle, R.A., (1999). Size-disparity correlation in human bi...
AbstractWe measured the maximum disparity grating amplitude (dmax) for seeing cyclopean surface shap...
AbstractUsing filtered, broad band, fractal noise images we measured the dependence of Dmin and Dmax...
AbstractStereoacuity was determined for gratings and gabor patches as their orientation was varied. ...
AbstractTo study the spatial extent and shape of the binocular disparity mechanisms subserving depth...
Our sense of depth perception is mediated by spatial filters at different scales in the visual brain...
AbstractThe experiments reported here focus on the temporal dynamics of stereopsis in an effort to s...
AbstractOur prior studies have demonstrated that the transient-vergence system responds preferably t...
Our sense of depth perception is mediated by spatial filters at different scales in the visual brain...
A disparity gradient limit explains why the maximum amplitude of sinusoidal disparity gratings incre...
We have measured the contrast dependence of stereoacuity using both horizontally and vertically orie...
AbstractStereoscopic depth discrimination thresholds increase with retinal eccentricity and distance...
AbstractTo better understand the pooling properties underlying global stereopsis we examined the rel...
AbstractStereoacuity depends not only on the carrier frequency of Gabor stimuli, but also upon their...
AbstractStereopsis is the sense of depth derived from binocular disparities that are formed between ...
AbstractPrevious data [Prince, S.J.D., & Eagle, R.A., (1999). Size-disparity correlation in human bi...
AbstractWe measured the maximum disparity grating amplitude (dmax) for seeing cyclopean surface shap...
AbstractUsing filtered, broad band, fractal noise images we measured the dependence of Dmin and Dmax...
AbstractStereoacuity was determined for gratings and gabor patches as their orientation was varied. ...
AbstractTo study the spatial extent and shape of the binocular disparity mechanisms subserving depth...
Our sense of depth perception is mediated by spatial filters at different scales in the visual brain...
AbstractThe experiments reported here focus on the temporal dynamics of stereopsis in an effort to s...
AbstractOur prior studies have demonstrated that the transient-vergence system responds preferably t...
Our sense of depth perception is mediated by spatial filters at different scales in the visual brain...
A disparity gradient limit explains why the maximum amplitude of sinusoidal disparity gratings incre...
We have measured the contrast dependence of stereoacuity using both horizontally and vertically orie...
AbstractStereoscopic depth discrimination thresholds increase with retinal eccentricity and distance...
AbstractTo better understand the pooling properties underlying global stereopsis we examined the rel...