AbstractOptic flow—large-field rotational and radial motion—is processed as efficiently as translational motion for first-order (luminance-defined) stimuli. However, it has been suggested recently that the same pattern does not hold for second-order (e.g. contrast-defined) stimuli. We used random dot kinematogram (RDK) stimuli to determine whether global processing of optic flow is as efficient as processing of global translational motion for both first- and second-order stimuli. For first-order stimuli, we found that coherence thresholds for radial and rotational motion were equivalent to thresholds for translational motion, supporting previous findings. For second-order stimuli we found, firstly, that given sufficient contrast, second-ord...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
Motion in depth results in radial optic-flow patterns. Forward motion results in radially expanding ...
AbstractOptic flow—large-field rotational and radial motion—is processed as efficiently as translati...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
AbstractThe intention of this series of experiments was to determine the extent to which the pathway...
Although many studies have examined the principles governing first-order global motion perception, t...
AbstractAlthough many studies have examined the principles governing first-order global motion perce...
AbstractWe measured psychophysical thresholds for the detection of four different optic flow compone...
We measured psychophysical thresholds for the detection of four different optic flow components in t...
As we move around the world, complex patterns of visual motion are produced that can in principle be...
Optical flow fields composed of spatiotemporal luminance modulations (first-order) versus spatiotemp...
AbstractRadial optic flow applied to large random dot patterns is known to elicit horizontal vergenc...
AbstractVisual motion, such as radial optic flow, is an important cue for perceiving direction durin...
Retinal motion of objects is not in itself enough to signal whether or how objects are moving in the...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
Motion in depth results in radial optic-flow patterns. Forward motion results in radially expanding ...
AbstractOptic flow—large-field rotational and radial motion—is processed as efficiently as translati...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
AbstractThe intention of this series of experiments was to determine the extent to which the pathway...
Although many studies have examined the principles governing first-order global motion perception, t...
AbstractAlthough many studies have examined the principles governing first-order global motion perce...
AbstractWe measured psychophysical thresholds for the detection of four different optic flow compone...
We measured psychophysical thresholds for the detection of four different optic flow components in t...
As we move around the world, complex patterns of visual motion are produced that can in principle be...
Optical flow fields composed of spatiotemporal luminance modulations (first-order) versus spatiotemp...
AbstractRadial optic flow applied to large random dot patterns is known to elicit horizontal vergenc...
AbstractVisual motion, such as radial optic flow, is an important cue for perceiving direction durin...
Retinal motion of objects is not in itself enough to signal whether or how objects are moving in the...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
Motion in depth results in radial optic-flow patterns. Forward motion results in radially expanding ...