AbstractAlthough it is well known that motion-in-depth can be detected using binocular cues, it is not known whether those cues can be used to judge the speed of an object moving in depth. There are at least t two possible binocular cues that could be used by the visual system to calculate three dimensional (3-D) speed: the rate of change of binocular disparity, or a comparison of the speeds of motion in the two eyes. We tested which of these cues is used to discriminate the speed of motion-in-depth. First, speed discrimination was measured for a dot moving away from the observer in depth (along the z-axis) and for a random dot stereogram in which a central square moved away from the observer in depth. These stimuli contained both disparity...
When an object moves in three dimensions, the two eyes' views of the world deliver slightly differen...
Sensory systems are faced with an essentially infinite number of possible environmental events but h...
AbstractWe measured just-noticeable differences in the direction and speed of motion in depth of cyc...
The role of two binocular cues to motion in depth - changing disparity (CD) and interocular velocity...
AbstractWe investigate the influence of local motion in the retinal image plane on the perception of...
Stereomotion (binocularly specified motion-in-depth) studies have established the existence of sever...
As animals that move in a 3D world and interact with 3D objects, it is very important for our surviv...
To examine the spatial scale of the mechanisms supporting the perception of motion in depth defined ...
AbstractTwo different binocular cues are known for detecting motion in depth. One is disparity chang...
The precision and accuracy of speed discrimination performance for stereomotion stimuli were assesse...
Relative binocular disparity cannot tell us the absolute 3-D shape of an object, nor its 3-D traject...
The perceived speed of motion in depth (MID) for a monocularly visible target was measured in centra...
It has been established that the motion in depth of stimuli visible to both eyes may be signalled bi...
The retinal velocity of an object moving in space depends on its distance from us. Thus, to interpre...
YesMotion-in-depth can be detected by using two different types of binocular cues: change of dispar...
When an object moves in three dimensions, the two eyes' views of the world deliver slightly differen...
Sensory systems are faced with an essentially infinite number of possible environmental events but h...
AbstractWe measured just-noticeable differences in the direction and speed of motion in depth of cyc...
The role of two binocular cues to motion in depth - changing disparity (CD) and interocular velocity...
AbstractWe investigate the influence of local motion in the retinal image plane on the perception of...
Stereomotion (binocularly specified motion-in-depth) studies have established the existence of sever...
As animals that move in a 3D world and interact with 3D objects, it is very important for our surviv...
To examine the spatial scale of the mechanisms supporting the perception of motion in depth defined ...
AbstractTwo different binocular cues are known for detecting motion in depth. One is disparity chang...
The precision and accuracy of speed discrimination performance for stereomotion stimuli were assesse...
Relative binocular disparity cannot tell us the absolute 3-D shape of an object, nor its 3-D traject...
The perceived speed of motion in depth (MID) for a monocularly visible target was measured in centra...
It has been established that the motion in depth of stimuli visible to both eyes may be signalled bi...
The retinal velocity of an object moving in space depends on its distance from us. Thus, to interpre...
YesMotion-in-depth can be detected by using two different types of binocular cues: change of dispar...
When an object moves in three dimensions, the two eyes' views of the world deliver slightly differen...
Sensory systems are faced with an essentially infinite number of possible environmental events but h...
AbstractWe measured just-noticeable differences in the direction and speed of motion in depth of cyc...