scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.VISRES.2004.12.002 |
P698 | PubMed publication ID | 15743607 |
P50 | author | Hiroyuki Mitsudo | Q73071475 |
P2093 | author name string | Hiroshi Ono | |
Sachio Nakamizo | |||
P2860 | cites work | Single units and visual cortical organization | Q33597598 |
Feature analysis in early vision: Evidence from search asymmetries | Q34175755 | ||
Attention alters appearance | Q37438668 | ||
Orientation tuning of the transient-stereopsis system | Q41691312 | ||
Depth aliasing by the transient-stereopsis system | Q41733154 | ||
A signal detection model predicts the effects of set size on visual search accuracy for feature, conjunction, triple conjunction, and disjunction displays | Q41749925 | ||
Preattentive recovery of three-dimensional orientation from line drawings | Q44916996 | ||
Unconscious adaptation: a new illusion of depth induced by stimulus features without depth | Q46086976 | ||
Configuration saliency revealed in short duration binocular rivalry | Q48212341 | ||
Visual search and dual tasks reveal two distinct attentional resources. | Q50803015 | ||
Neither occlusion constraint nor binocular disparity accounts for the perceived depth in the 'sieve effect'. | Q51644787 | ||
Asymmetries and errors in perception of depth from disparity suggest a multicomponent model of disparity processing. | Q51648658 | ||
An integrative model of binocular vision: a stereo model utilizing interocularly unpaired points produces both depth and binocular rivalry. | Q51648889 | ||
Quantitative depth for a phantom surface can be based on cyclopean occlusion cues alone. | Q52177774 | ||
Early completion of occluded objects. | Q52182691 | ||
The psychophysics of visual search. | Q52921506 | ||
Guided Search 2.0 A revised model of visual search | Q55982827 | ||
Binocularity and visual search | Q57743073 | ||
Attentional requirements in a ‘preattentive’ feature search task | Q59066942 | ||
Contrast detection in luminance and chromatic noise | Q67580284 | ||
da Vinci stereopsis: depth and subjective occluding contours from unpaired image points | Q68678781 | ||
Detection threshold differences to crossed and uncrossed disparities | Q68693499 | ||
Depth from binocular rivalry without spatial disparity | Q71900097 | ||
Parallel detection of Kanizsa subjective figures in the human visual system | Q72741920 | ||
On the preattentive accessibility of stereoscopic disparity: evidence from visual search | Q73121927 | ||
Phantom surface captures stereopsis | Q73408242 | ||
Monocular gap stereopsis: manipulation of the outer edge disparity and the shape of the gap | Q73586346 | ||
Content and context of monocular regions determine perceived depth in random dot, unpaired background and phantom stereograms | Q74486957 | ||
Stereopsis based on monocular gaps: metrical encoding of depth and slant without matching contours | Q77793132 | ||
Paired and unpaired features can be equally effective in human depth perception | Q78727664 | ||
Monocular Discs in the Occlusion Zones of Binocular Surfaces Do Not Have Quantitative Depth—A Comparison with Panum's Limiting Case | Q79212055 | ||
P433 | issue | 11 | |
P304 | page(s) | 1365-1374 | |
P577 | publication date | 2005-05-01 | |
P1433 | published in | Vision Research | Q1307852 |
P1476 | title | Greater depth seen with phantom stereopsis is coded at the early stages of visual processing | |
P478 | volume | 45 |
Q81401937 | A long-distance stereoscopic detector for partially occluding surfaces |
Q52004515 | Depth scaling in phantom and monocular gap stereograms using absolute distance information. |
Q34372444 | Electrophysiological correlates of binocular stereo depth without binocular disparities |
Q54941075 | Illusory occlusion affects stereoscopic depth perception. |
Q37541187 | The role of monocularly visible regions in depth and surface perception. |
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