AbstractRecent neurological studies of selective impairments in first and second-order motion processing are of considerable relevance in elucidating the mechanisms of motion perception in normal human observers. We examine the stimuli which have been used to assess first and second-order motion processing capabilities in clinical subjects, and discuss the nature of the computations necessary to extract their motion. We find that a simple computational model of first and second-order motion processing is able to account for the data. The model consists of a first-order channel computing motion at coarse and fine scales, and a coarse scale second-order channel. The second-order channel is sensitive to motion information defined by variations...
Priming for luminance-modulated (first-order) motion has been shown to rely on the functional integr...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
AbstractIt is well established that amblyopes exhibit deficits in processing first-order (luminance-...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
An unresolved issue in visual motion perception is how distinct are the processes underlying "first-...
First-order (Fourier) motion consists of stable spatiotemporal luminance variations. Second-order (n...
AbstractPerception of visual motion includes a first-order mechanism sensitive to luminance changes ...
AbstractDespite detailed psychophysical, neurophysiological and electrophysiological investigation, ...
Our visual world contains both luminance- (first-order) and contrast-defined (second-order) informa...
Motion is a fundamental property estimated by human sensory-perception. When visual shapes and patte...
In this thesis the notion of an independent non-linear channel for the perception of second- order m...
This paper considers the problem of designing computational models of the primitives that are at the...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
Priming for luminance-modulated (first-order) motion has been shown to rely on the functional integr...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
AbstractIt is well established that amblyopes exhibit deficits in processing first-order (luminance-...
AbstractRecent neurological studies of selective impairments in first and second-order motion proces...
Distinct mechanisms underlying the visual perception of luminance-(first-order) and contrast-defined...
An unresolved issue in visual motion perception is how distinct are the processes underlying "first-...
First-order (Fourier) motion consists of stable spatiotemporal luminance variations. Second-order (n...
AbstractPerception of visual motion includes a first-order mechanism sensitive to luminance changes ...
AbstractDespite detailed psychophysical, neurophysiological and electrophysiological investigation, ...
Our visual world contains both luminance- (first-order) and contrast-defined (second-order) informa...
Motion is a fundamental property estimated by human sensory-perception. When visual shapes and patte...
In this thesis the notion of an independent non-linear channel for the perception of second- order m...
This paper considers the problem of designing computational models of the primitives that are at the...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
AbstractConverging psychophysical and electrophysiological evidence suggests that first-order (lumin...
Priming for luminance-modulated (first-order) motion has been shown to rely on the functional integr...
AbstractA number of psychophysical and physiological studies have suggested that first- and second-o...
AbstractIt is well established that amblyopes exhibit deficits in processing first-order (luminance-...