Many visual processes integrate information over protracted periods, a process known as temporal integration. One consequence of this is that objects that cast images that move across the retinal surfaces can generate blurred form signals, similar to the motion blur that can be captured in photographs taken with slow shutter speeds. Subjectively, retinal motion blur signals are suppressed from awareness, such that moving objects seem sharply defined. One suggestion has been that this subjective impression is due to humans not being able to distinguish between focussed and blurred moving objects. Contrary to this suggestion, here we report a novel illusion, and consequent experiments, that implicate a suppressive mechanism. We find that the ...
AbstractWe evaluated the effect of +3.25 dioptres of optical blur on the discrimination of motion di...
In human vision, mechanisms specialized for encoding static form can signal the presence of blurred ...
AbstractHuman observers are not normally conscious of blur from moving objects [Nature 284 (1980) 16...
Many visual processes integrate information over protracted periods, a process known as temporal int...
AbstractMany visual processes integrate information over protracted periods, a process known as temp...
This article appeared in a journal published by Elsevier. The attached copy is furnished to the auth...
Visual information about the form of an object and its movement in the world can be processed indepe...
AbstractThe perceived blur of moving images is less than expected given the sluggish temporal respon...
AbstractBlurred images may appear sharper when drifting than when stationary. But, paradoxically, mo...
Retinal-image motion induces the perceptual loss of high spatial-frequency content - motion blur - t...
Sensing the movements of the world and the objects within it appears to be a fundamental job for our...
AbstractThe effect of motion sharpening upon blur discrimination thresholds was examined for a range...
SummaryIn motion-induced blindness (MIB), persistent static targets intermittently disappear when pr...
AbstractEven at moderatos speeds, moving objects stimulate many retinal photoreceptors within the in...
Several experiments on human subjects evidenced how they are endowed with a good ability to recogniz...
AbstractWe evaluated the effect of +3.25 dioptres of optical blur on the discrimination of motion di...
In human vision, mechanisms specialized for encoding static form can signal the presence of blurred ...
AbstractHuman observers are not normally conscious of blur from moving objects [Nature 284 (1980) 16...
Many visual processes integrate information over protracted periods, a process known as temporal int...
AbstractMany visual processes integrate information over protracted periods, a process known as temp...
This article appeared in a journal published by Elsevier. The attached copy is furnished to the auth...
Visual information about the form of an object and its movement in the world can be processed indepe...
AbstractThe perceived blur of moving images is less than expected given the sluggish temporal respon...
AbstractBlurred images may appear sharper when drifting than when stationary. But, paradoxically, mo...
Retinal-image motion induces the perceptual loss of high spatial-frequency content - motion blur - t...
Sensing the movements of the world and the objects within it appears to be a fundamental job for our...
AbstractThe effect of motion sharpening upon blur discrimination thresholds was examined for a range...
SummaryIn motion-induced blindness (MIB), persistent static targets intermittently disappear when pr...
AbstractEven at moderatos speeds, moving objects stimulate many retinal photoreceptors within the in...
Several experiments on human subjects evidenced how they are endowed with a good ability to recogniz...
AbstractWe evaluated the effect of +3.25 dioptres of optical blur on the discrimination of motion di...
In human vision, mechanisms specialized for encoding static form can signal the presence of blurred ...
AbstractHuman observers are not normally conscious of blur from moving objects [Nature 284 (1980) 16...