Retinal motion can modulate visual sensitivity. For instance, low contrast drifting waveforms (targets) can be easier to detect when abutting the leading edges of movement in adjacent high contrast waveforms (inducers), rather than the trailing edges. This target-inducer interaction is contingent on the adjacent waveforms being consistent with one another - in-phase as opposed to out-of-phase. It has been suggested that this happens because there is a perceptually explicit predictive signal at leading edges of motion that summates with low contrast physical input - a 'predictive summation'. Another possible explanation is a phase sensitive 'spatial summation', a summation of physical inputs spread across the retina (not predictive signals)....
The movement of luminance-defined targets can be easily extracted by elementary motion detectors (EM...
Physiological and psychophysical evidence indicate that the human visual system contains mechanisms ...
SummaryThe scaling of behavioral performance and neuronal responses with visual luminance contrast i...
Retinal motion can modulate visual sensitivity. For instance, low contrast drifting waveforms (targe...
AbstractRetinal motion can modulate visual sensitivity. For instance, low contrast drifting waveform...
SummaryCortical motion analysis continuously encodes image velocity but might also be used to predic...
Cortical motion analysis continuously encodes image velocity but might also be used to predict futur...
Motion within a stationary object can cause spatially aligned images to appear shifted in their dire...
Spatial context can have a profound modulatory influence on visual sensitivity. Psychophysical evide...
According to current models of motion detection, cortical motion sensors are tuned in both space and...
Motion and position information interact within the visual cortex in such a way that creates the per...
Humans are extremely sensitive to visual motion, largely because local motion signals can be integra...
The effects of context on visual sensitivity are well established (e.g., sensitivity to luminance fl...
none4siRecent physiological and psychophysical research has challenged the traditional view that mot...
Motion dictates that the spatial structure of natural image sequences is highly structured over time...
The movement of luminance-defined targets can be easily extracted by elementary motion detectors (EM...
Physiological and psychophysical evidence indicate that the human visual system contains mechanisms ...
SummaryThe scaling of behavioral performance and neuronal responses with visual luminance contrast i...
Retinal motion can modulate visual sensitivity. For instance, low contrast drifting waveforms (targe...
AbstractRetinal motion can modulate visual sensitivity. For instance, low contrast drifting waveform...
SummaryCortical motion analysis continuously encodes image velocity but might also be used to predic...
Cortical motion analysis continuously encodes image velocity but might also be used to predict futur...
Motion within a stationary object can cause spatially aligned images to appear shifted in their dire...
Spatial context can have a profound modulatory influence on visual sensitivity. Psychophysical evide...
According to current models of motion detection, cortical motion sensors are tuned in both space and...
Motion and position information interact within the visual cortex in such a way that creates the per...
Humans are extremely sensitive to visual motion, largely because local motion signals can be integra...
The effects of context on visual sensitivity are well established (e.g., sensitivity to luminance fl...
none4siRecent physiological and psychophysical research has challenged the traditional view that mot...
Motion dictates that the spatial structure of natural image sequences is highly structured over time...
The movement of luminance-defined targets can be easily extracted by elementary motion detectors (EM...
Physiological and psychophysical evidence indicate that the human visual system contains mechanisms ...
SummaryThe scaling of behavioral performance and neuronal responses with visual luminance contrast i...