The functional architecture of human visual motion perception.
about
A first- and second-order motion energy analysis of peripheral motion illusions leads to further evidence of "feature blur" in peripheral visionTransitions between central and peripheral vision create spatial/temporal distortions: a hypothesis concerning the perceived break of the curveballThe Role of Feature Tracking in the Furrow Illusion.Rapid Motion Adaptation Reveals the Temporal Dynamics of Spatiotemporal Correlation between ON and OFF PathwaysA common framework for the analysis of complex motion? Standstill and capture illusionsContribution of Visuospatial and Motion-Tracking to Invisible Motion.Audiovisual associations alter the perception of low-level visual motion.Static sound timing alters sensitivity to low-level visual motion.Fractal rotation isolates mechanisms for form-dependent motion in human vision.Feature- and Face-Exchange illusions: new insights and applications for the study of the binding problemPerceptual interaction of local motion signals.Invisible noise obscures visible signal in insect motion detectionAttention-driven discrete sampling of motion perceptionSpatio-temporal interpolation is accomplished by binocular form and motion mechanismsThe continuous Wagon wheel illusion and the 'when' pathway of the right parietal lobe: a repetitive transcranial magnetic stimulation study.An empirical explanation of the speed-distance effect.More than one way to see it move?The emergence of visual objects in space-time.Independent perceptual learning in monocular and binocular motion systemsFeatures and the 'primal sketch'.Motion-onset visual evoked potentials predict performance during a global direction discrimination task.Initial ocular following in humans depends critically on the fourier components of the motion stimulus.Initial ocular following in humans: a response to first-order motion energy.Processing deficits of motion of contrast-modulated gratings in anisometropic amblyopiaWhen motion appears stopped: stereo motion standstill.Measuring the amplification of attention.Letter recognition reveals pathways of second-order and third-order motionDirection-selective patterns of activity in human visual cortex suggest common neural substrates for different types of motionBroad bandwidth of perceptual learning in second-order contrast modulation detectionPerceptual learning and attention: Reduction of object attention limitations with practice.The vergence eye movements induced by radial optic flow: some fundamental properties of the underlying local-motion detectors.Neuropsychological evidence for three distinct motion mechanismsApparent Motion Suppresses Responses in Early Visual Cortex: A Population Code ModelThe perception of motion in chromatic stimuli.The mechanism of isoluminant chromatic motion perception.Efficiency of extracting stereo-driven object motionsCUQI: cardiac ultrasound video quality index.The visual motion detectors underlying ocular following responses in monkeys.The initial ocular following responses elicited by apparent-motion stimuli: reversal by inter-stimulus intervals.Perception of second- and third-order orientation signals and their interactions.
P2860
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P2860
The functional architecture of human visual motion perception.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh-hant
name
The functional architecture of human visual motion perception.
@en
The functional architecture of human visual motion perception.
@nl
type
label
The functional architecture of human visual motion perception.
@en
The functional architecture of human visual motion perception.
@nl
prefLabel
The functional architecture of human visual motion perception.
@en
The functional architecture of human visual motion perception.
@nl
P1433
P1476
The functional architecture of human visual motion perception.
@en
P2093
P304
P356
10.1016/0042-6989(95)00025-U
P577
1995-10-01T00:00:00Z