AbstractHumans are sensitive to the parameters of translational motion, namely, direction and speed. At the same time, people have special mechanisms to deal with more complex motions, such as rotations and expansions. One wonders whether people may also be sensitive to the parameters of these complex motions. Here, we report on a series of experiments that explore whether human subjects can use angular velocity to evaluate how fast a rotational motion is. In four experiments, subjects were required to perform a task of speed-of-rotation discrimination by comparing two annuli of different radii in a temporal 2AFC paradigm. Results showed that humans could rely on a sensitive measurement of angular velocity to perform this discrimination tas...
AbstractUsing random dot stimuli well controlled for dot speed, we found that the moving features in...
The motion of objects during motion parallax can be decomposed into 2 observer-relative components: ...
AbstractCurrent models of motion perception depend on unidirectional motion-sensitive mechanisms tha...
AbstractHumans are sensitive to the parameters of translational motion, namely, direction and speed....
AbstractOptic flow generated by rigid surface patches can be decomposed into a small number of eleme...
As an object rotates, each location on the object moves with an instantaneous linear velocity depend...
AbstractDo the mechanisms that underlie the perception of translational and rotational object motion...
AbstractThe perceived angular velocity of an ellipse undergoing a constant rate of rotation will var...
AbstractThe motion of an object can be described by a single velocity vector, or equivalently, by di...
International audienceRotation gains in Virtual Reality (VR) enable the exploration of wider Virtual...
Humans are able to judge whether a target is accelerating in many viewing contexts, but it is an ope...
AbstractThe data from two experiments, both using stimuli simulating orthographically rotating surfa...
AbstractThe brain can predict and estimate motion based on visual translation. This paper addresses ...
AbstractWe recently reported a new motion illusion where dots in expanding random dot patterns appea...
AbstractRandom dot kinematograms were used to simulate radial, rotational and spiral optic flow. The...
AbstractUsing random dot stimuli well controlled for dot speed, we found that the moving features in...
The motion of objects during motion parallax can be decomposed into 2 observer-relative components: ...
AbstractCurrent models of motion perception depend on unidirectional motion-sensitive mechanisms tha...
AbstractHumans are sensitive to the parameters of translational motion, namely, direction and speed....
AbstractOptic flow generated by rigid surface patches can be decomposed into a small number of eleme...
As an object rotates, each location on the object moves with an instantaneous linear velocity depend...
AbstractDo the mechanisms that underlie the perception of translational and rotational object motion...
AbstractThe perceived angular velocity of an ellipse undergoing a constant rate of rotation will var...
AbstractThe motion of an object can be described by a single velocity vector, or equivalently, by di...
International audienceRotation gains in Virtual Reality (VR) enable the exploration of wider Virtual...
Humans are able to judge whether a target is accelerating in many viewing contexts, but it is an ope...
AbstractThe data from two experiments, both using stimuli simulating orthographically rotating surfa...
AbstractThe brain can predict and estimate motion based on visual translation. This paper addresses ...
AbstractWe recently reported a new motion illusion where dots in expanding random dot patterns appea...
AbstractRandom dot kinematograms were used to simulate radial, rotational and spiral optic flow. The...
AbstractUsing random dot stimuli well controlled for dot speed, we found that the moving features in...
The motion of objects during motion parallax can be decomposed into 2 observer-relative components: ...
AbstractCurrent models of motion perception depend on unidirectional motion-sensitive mechanisms tha...