AbstractThe perceived position of a moving target at a particular point in time, indicated by a flash, is often judged to be different from its actual location. Here, we show that the position of a target moving in depth is also systematically mislocalized. We used three types of targets moving in depth at a range of speeds from 2 to 16cm/s. (i) A target realistically rendered that included concordant looming, disparity, and perspective cues. (ii) A random dot surface whose depth was defined by disparity, without concordant perspective or looming cues. (iii) A surface of dynamic random dots whose depth was defined by disparity with no consistent motion visible monocularly. Subjects viewed the targets moving either towards or away from them ...
When a brief flash is presented at the same location as a moving object, the flash is perceived to l...
In the flash-lag illusion, a moving object aligned with a flash is perceived to be offset in the dir...
International audienceDue to its inherent neural delays, the visual system has an outdated access to...
AbstractA moving object is perceived to lie beyond a static object presented at the same time at the...
When observers are asked to localize the onset or the offset position of a moving target, they typic...
AbstractTo investigate the dynamics of the position computation process for a moving object in human...
Targets that are flashed during smooth pursuit are mislocalised in the direction of the pursuit. It ...
To achieve perceptual alignment between a flashed target and a moving one, subjects typically requir...
Human subjects misjudge the position of a target that is flashed during a pursuit eye movement. Thei...
AbstractWhen a flash is presented aligned with a moving stimulus, the former is perceived to lag beh...
When a flash is presented aligned with a moving stimulus, the former is perceived to lag behind the ...
AbstractThe flash-lag effect is a robust visual illusion in which a flash appears to spatially lag a...
(a) The flash-lag test conditions used by [26]. The moving ring could have an initial trajectory (to...
Visual motion can influence the perceived position of appear displaced in the direction of motion (D...
AbstractObjective of this research is to study the presence of 3D flash lag illusion created by a mo...
When a brief flash is presented at the same location as a moving object, the flash is perceived to l...
In the flash-lag illusion, a moving object aligned with a flash is perceived to be offset in the dir...
International audienceDue to its inherent neural delays, the visual system has an outdated access to...
AbstractA moving object is perceived to lie beyond a static object presented at the same time at the...
When observers are asked to localize the onset or the offset position of a moving target, they typic...
AbstractTo investigate the dynamics of the position computation process for a moving object in human...
Targets that are flashed during smooth pursuit are mislocalised in the direction of the pursuit. It ...
To achieve perceptual alignment between a flashed target and a moving one, subjects typically requir...
Human subjects misjudge the position of a target that is flashed during a pursuit eye movement. Thei...
AbstractWhen a flash is presented aligned with a moving stimulus, the former is perceived to lag beh...
When a flash is presented aligned with a moving stimulus, the former is perceived to lag behind the ...
AbstractThe flash-lag effect is a robust visual illusion in which a flash appears to spatially lag a...
(a) The flash-lag test conditions used by [26]. The moving ring could have an initial trajectory (to...
Visual motion can influence the perceived position of appear displaced in the direction of motion (D...
AbstractObjective of this research is to study the presence of 3D flash lag illusion created by a mo...
When a brief flash is presented at the same location as a moving object, the flash is perceived to l...
In the flash-lag illusion, a moving object aligned with a flash is perceived to be offset in the dir...
International audienceDue to its inherent neural delays, the visual system has an outdated access to...