The ratio of the vertical sizes of corresponding features in the two eyes' retinal images depends both on the associated object's distance and on its horizontal direction relative to the head (eccentricity). It is known that manipulations of vertical size ratio can affect perceived distance, size, depth and shape. We examined how observers use the vertical size ratio to determine the viewing distance. Do they use the horizontal gradient of vertical size ratio, or do they combine the vertical size ratio itself with the eccentricity at which it is found? Distance scaling (as measured by having subjects set an ellipsoid's size and shape to match a tennis ball) was no better when the judged object was 30° to the right of the head (where vertica...
AbstractThe present study compared the relative effectiveness of differential perspective and vergen...
AbstractGårding et al. (Vis Res 1995;35:703–722) proposed a two-stage theory of stereopsis. The firs...
Since Ibn al-Haytham (c.1021), one of the central questions of vision science has been how the visua...
AbstractThe ratio of the vertical sizes of corresponding features in the two eyes' retinal images de...
Vertical binocular disparity provides a useful source of information allowing three-dimensional (3-D...
Vertical binocular disparity provides a useful source of information allowing three-dimensional (3-...
AbstractThe azimuth of a stimulus relative to the head can be determined from an extra-retinal, eye-...
Vertical disparities contribute to scaling of size and depth only with sufficiently large fields of ...
AbstractThe difference between the way in which binocular disparity scales with viewing distance and...
The slant of a stereoscopically defined surface cannot be determined solely from horizontal disparit...
AbstractThe slant of a stereoscopically defined surface cannot be determined solely from horizontal ...
AbstractTo determine the physical size and global three-dimensional (3-D) shape of an object, retina...
The difference between the way in which binocular disparity scales with viewing distance and the way...
Binocular disparity is a powerful cue for the perception of depth. The accuracy with which observers...
AbstractBinocular disparity is a powerful cue for the perception of depth. The accuracy with which o...
AbstractThe present study compared the relative effectiveness of differential perspective and vergen...
AbstractGårding et al. (Vis Res 1995;35:703–722) proposed a two-stage theory of stereopsis. The firs...
Since Ibn al-Haytham (c.1021), one of the central questions of vision science has been how the visua...
AbstractThe ratio of the vertical sizes of corresponding features in the two eyes' retinal images de...
Vertical binocular disparity provides a useful source of information allowing three-dimensional (3-D...
Vertical binocular disparity provides a useful source of information allowing three-dimensional (3-...
AbstractThe azimuth of a stimulus relative to the head can be determined from an extra-retinal, eye-...
Vertical disparities contribute to scaling of size and depth only with sufficiently large fields of ...
AbstractThe difference between the way in which binocular disparity scales with viewing distance and...
The slant of a stereoscopically defined surface cannot be determined solely from horizontal disparit...
AbstractThe slant of a stereoscopically defined surface cannot be determined solely from horizontal ...
AbstractTo determine the physical size and global three-dimensional (3-D) shape of an object, retina...
The difference between the way in which binocular disparity scales with viewing distance and the way...
Binocular disparity is a powerful cue for the perception of depth. The accuracy with which observers...
AbstractBinocular disparity is a powerful cue for the perception of depth. The accuracy with which o...
AbstractThe present study compared the relative effectiveness of differential perspective and vergen...
AbstractGårding et al. (Vis Res 1995;35:703–722) proposed a two-stage theory of stereopsis. The firs...
Since Ibn al-Haytham (c.1021), one of the central questions of vision science has been how the visua...