AbstractSubjects observed a random dot pattern that moved horizontally with modulated velocity within an invisible aperture. The velocity contrast, (V2-V1)/V1, was 23. Two different percepts occurred while observing this stimulus. At lower modulation frequencies, between 2 and 12 Hz, velocity changes were clearly seen; this percept is called “motion irregularity”. At frequencies higher than 20 Hz velocity changes were no longer visible; the moving pattern appeared to be divided into stationary columns of different luminance. We call this percept “pattern irregularity”. The critical frequency for detection of motion irregularity was independent of viewing distance; it was an inverted U-shaped function of the linear rather than the angular me...
The way in which movement enhances target visibility has been investigated by measuring the detectab...
The temporal properties of human visual motion detection were explored. Experiment 1 measured thresh...
Smooth pursuit eye movements change the retinal image motion of objects in the visual field. The vis...
AbstractSubjects observed a random dot pattern that moved horizontally with modulated velocity withi...
AbstractA random dot pattern that moved within an invisible aperture was used to present two motions...
The aim of these experiments is to investigate the sensitivity of the human visual system to two typ...
AbstractWe determined two-dimensional motion discrimination contours in the spatio-temporal frequenc...
We determined two-dimensional motion discrimination contours in the spatio-temporal frequency plane ...
We determined two-dimensional motion discrimination contours in the spatio-temporal frequency plane ...
AbstractWe evaluated the effect of +3.25 dioptres of optical blur on the discrimination of motion di...
Motion adaptation generates strong aftereffects in the opposite direction. Here, we investigated the...
AbstractA random dot pattern moved at a velocity V1. The velocity then increased or decreased abrupt...
To investigate whether or not adaptation to second-order motion can cause changes in perceived speed...
AbstractTo investigate whether or not adaptation to second-order motion can cause changes in perceiv...
AbstractThe upper spatial limit Dmax for perception of apparent motion of a random dot pattern may b...
The way in which movement enhances target visibility has been investigated by measuring the detectab...
The temporal properties of human visual motion detection were explored. Experiment 1 measured thresh...
Smooth pursuit eye movements change the retinal image motion of objects in the visual field. The vis...
AbstractSubjects observed a random dot pattern that moved horizontally with modulated velocity withi...
AbstractA random dot pattern that moved within an invisible aperture was used to present two motions...
The aim of these experiments is to investigate the sensitivity of the human visual system to two typ...
AbstractWe determined two-dimensional motion discrimination contours in the spatio-temporal frequenc...
We determined two-dimensional motion discrimination contours in the spatio-temporal frequency plane ...
We determined two-dimensional motion discrimination contours in the spatio-temporal frequency plane ...
AbstractWe evaluated the effect of +3.25 dioptres of optical blur on the discrimination of motion di...
Motion adaptation generates strong aftereffects in the opposite direction. Here, we investigated the...
AbstractA random dot pattern moved at a velocity V1. The velocity then increased or decreased abrupt...
To investigate whether or not adaptation to second-order motion can cause changes in perceived speed...
AbstractTo investigate whether or not adaptation to second-order motion can cause changes in perceiv...
AbstractThe upper spatial limit Dmax for perception of apparent motion of a random dot pattern may b...
The way in which movement enhances target visibility has been investigated by measuring the detectab...
The temporal properties of human visual motion detection were explored. Experiment 1 measured thresh...
Smooth pursuit eye movements change the retinal image motion of objects in the visual field. The vis...