about
Neural architectures for stereo vision.Stereoscopic depth constancyThe venetian-blind effect: a preference for zero disparity or zero slant?Disparity processing in primary visual cortex.Variation of stereothreshold with random-dot stereogram densityVertical binocular disparity is encoded implicitly within a model neuronal population tuned to horizontal disparity and orientation.Spatial stereoresolution for depth corrugations may be set in primary visual cortex.Transfer of perceptual learning of depth discrimination between local and global stereogramsLimits of stereopsis explained by local cross-correlation.Cue integration outside central fixation: a study of grasping in depthThe rate of change of vergence-accommodation conflict affects visual discomfort.Human stereopsis is not limited by the optics of the well-focused eye.Luminance, Colour, Viewpoint and Border Enhanced Disparity Energy ModelContrast gain-control in stereo depth and cyclopean contrast perceptionIdeal Binocular Disparity Detectors Learned Using Independent Subspace Analysis on Binocular Natural Image PairsA Single Mechanism Can Account for Human Perception of Depth in Mixed Correlation Random Dot Stereograms.Binocular Depth Judgments on Smoothly Curved SurfacesAccuracy Maximization Analysis for Sensory-Perceptual Tasks: Computational Improvements, Filter Robustness, and Coding Advantages for Scaled Additive NoiseThe Stereoscopic Anisotropy Develops During Childhood.Neurons in Striate Cortex Signal Disparity in Half-Matched Random-Dot Stereograms.Estimating 3D tilt from local image cues in natural scenes.Depth perception not found in human observers for static or dynamic anti-correlated random dot stereograms.The limits of human stereopsis in space and timeEncoding and estimation of first- and second-order binocular disparity in natural images.Vergence-accommodation conflicts hinder visual performance and cause visual fatigue.Spatially invariant computations in stereoscopic visionMechanisms for similarity matching in disparity measurement.Optimal disparity estimation in natural stereo images.Temporal presentation protocols in stereoscopic displays: Flicker visibility, perceived motion, and perceived depth.Visual Discomfort and the Temporal Properties of the Vergence-Accommodation Conflict.Why pictures look right when viewed from the wrong place.Key characteristics of specular stereo.Image-size differences worsen stereopsis independent of eye position.Focus information is used to interpret binocular images.Depth perception in disparity-defined objects: finding the balance between averaging and segregationA study on surface slant encoding in V1.Focus cues affect perceived depth.Vertical size disparity and the correction of stereo correspondence.Viewing geometry determines the contribution of binocular vision to the online control of grasping.The lawful imprecision of human surface tilt estimation in natural scenes.
P2860
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P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Why is spatial stereoresolution so low?
@en
Why is spatial stereoresolution so low?
@nl
type
label
Why is spatial stereoresolution so low?
@en
Why is spatial stereoresolution so low?
@nl
prefLabel
Why is spatial stereoresolution so low?
@en
Why is spatial stereoresolution so low?
@nl
P1476
Why is spatial stereoresolution so low?
@en
P2093
Martin S Banks
P304
P356
10.1523/JNEUROSCI.3852-02.2004
P407
P577
2004-03-01T00:00:00Z