Depth perception from motion parallax has been investigated with right-and-left head movement. From ecological point of view, humans move forward more frequently than sideways. The aim of this study was to determine the influence of the head movement direction on depth perception from motion parallax. We investigated depth perception at and above threshold level with lateral head movement and to-and-fro movement. Stimuli were vertical half cylinders, which was concave or convex, depicted with random dots that move synchronously with head. The viewing distance was 78.5 cm on average. The size of each display was 6.6 × 6.6 deg. The dot density in the entire display was always maintained constant for prevention of depth impression from differe...
AbstractPerceived depth was measured in a colored stimulus while stimulus movement yoked to head dis...
AbstractThis study investigated the human ability to discriminate the motion direction of sequential...
Although we have made major advances in understanding motion perception based on the processing of l...
AbstractA stationary monocular stimulus appears to move concomitantly with lateral head movements wh...
Motion parallax is widely regarded as providing metric depth information that is equal or superior t...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
Two important tasks that the visual system has to perform are determining the direction of motion an...
AbstractTwo important tasks that the visual system has to perform are determining the direction of m...
AbstractIt has been unclear whether the perception of depth from motion parallax is an entirely visu...
Motion parallax is often considered to be an inherently ambiguous cue to depth. Despite the theoreti...
<div><p>Theoretically, one can estimate the direction of an object that is relative to the head usin...
Under a variety of conditions, motion in depth from binocular cues is harder to detect than lateral ...
AbstractUnder a variety of conditions, motion in depth from binocular cues is harder to detect than ...
The visual phenomenon that perceived depth sign is opposite to depth sign geometrically predicted fr...
It is well known that when we intentionally make large head movements, the resulting motion parallax...
AbstractPerceived depth was measured in a colored stimulus while stimulus movement yoked to head dis...
AbstractThis study investigated the human ability to discriminate the motion direction of sequential...
Although we have made major advances in understanding motion perception based on the processing of l...
AbstractA stationary monocular stimulus appears to move concomitantly with lateral head movements wh...
Motion parallax is widely regarded as providing metric depth information that is equal or superior t...
AbstractWe examined whether depth perception was produced by the parallax of second-order motion (i....
Two important tasks that the visual system has to perform are determining the direction of motion an...
AbstractTwo important tasks that the visual system has to perform are determining the direction of m...
AbstractIt has been unclear whether the perception of depth from motion parallax is an entirely visu...
Motion parallax is often considered to be an inherently ambiguous cue to depth. Despite the theoreti...
<div><p>Theoretically, one can estimate the direction of an object that is relative to the head usin...
Under a variety of conditions, motion in depth from binocular cues is harder to detect than lateral ...
AbstractUnder a variety of conditions, motion in depth from binocular cues is harder to detect than ...
The visual phenomenon that perceived depth sign is opposite to depth sign geometrically predicted fr...
It is well known that when we intentionally make large head movements, the resulting motion parallax...
AbstractPerceived depth was measured in a colored stimulus while stimulus movement yoked to head dis...
AbstractThis study investigated the human ability to discriminate the motion direction of sequential...
Although we have made major advances in understanding motion perception based on the processing of l...