Retinotopic activity in V1 reflects the perceived and not the retinal size of an afterimage
about
What can volumes reveal about human brain evolution? A framework for bridging behavioral, histometric, and volumetric perspectivesSize Constancy is Preserved but Afterimages are Prolonged in Typical Individuals with Higher Degrees of Self-Reported Autistic Traits.The Dynamic Ebbinghaus: motion dynamics greatly enhance the classic contextual size illusion.Perceptual similarity and the neural correlates of geometrical illusions in human brain structure.Neural Correlates underlying Size Constancy in Virtual Three-Dimensional Space.Object-centered shifts of receptive field positions in monkey primary visual cortex.Subjective size perception depends on central visual cortical magnification in human v1.Neural associations of the early retinotopic cortex with the lateral occipital complex during visual perception.Involvement of the Extrageniculate System in the Perception of Optical Illusions: A Functional Magnetic Resonance Imaging Study.A Neural Model of Distance-Dependent Percept of Object Size ConstancyIllusory Distance Modulates Perceived Size of Afterimage despite the Disappearance of Depth CuesApplying Emmert's Law to the Poggendorff illusionBlood oxygen level-dependent activation of the primary visual cortex predicts size adaptation illusion.Cortical idiosyncrasies predict the perception of object sizeThe hippocampus extrapolates beyond the view in scenes: an fMRI study of boundary extension.An Orientation Dependent Size Illusion Is Underpinned by Processing in the Extrastriate Visual Area, LO1.The Binding Ring Illusion: assimilation affects the perceived size of a circular array.The moon illusion and size-distance scaling--evidence for shared neural patterns.Illusory Increases in Font Size Improve Letter RecognitionGlobal processing during the Müller-Lyer illusion is distinctively affected by the degree of autistic traits in the typical population.Eye-Tracking Reveals that the Strength of the Vertical-Horizontal Illusion Increases as the Retinal Image Becomes More Stable with Fixation.The Influence of Auditory Information on Visual Size Adaptation.Simple reaction time and size-distance integration in virtual 3D space.Effect of the retinal size of a peripheral cue on attentional orienting in two- and three-dimensional worlds.Rescaling retinal size into perceived size: evidence for an occipital and parietal bottleneck.Representation of illusory and physical rotations in human MST: A cortical site for the pinna illusion.Position shifts of fMRI-based population receptive fields in human visual cortex induced by Ponzo illusion.Shining new light on dark percepts: visual sensations induced by TMS.SMA Selectively Codes the Active Accumulation of Temporal, Not Spatial, Magnitude.Neglect's perspective on the Ponzo illusion.Perceptual Discrimination of Basic Object Features Is Not Facilitated When Priming Stimuli Are Prevented From Reaching Awareness by Means of Visual Masking.How we perceive our own retina.
P2860
Q28657721-6CD27B8E-07BB-47BC-A3E1-955BF9B3C39CQ30362526-45979F7B-23B9-4D6E-851D-C905477105ECQ30620674-999159C0-970E-4040-8EB1-74969AC18D98Q30834229-B1B57D60-2069-4000-A6A4-23DA39FC1F17Q33789424-E12E635C-6F80-4D5B-8594-5A33264A8E1AQ34009021-875046C0-BE71-4C77-A47A-6DBD90C6649EQ34640004-384B678E-D4B0-4E4C-B7C0-BBDA384EE125Q35273666-321A9A31-05BD-4D8D-A711-C9D404AB551AQ35665970-4025B20A-4A67-4568-85A1-23A1ADB173EBQ35679827-9574ACA5-D8CB-4E90-AEA7-1C30BD4989F9Q36071225-9E59FBBB-480E-4246-BF59-6A65D71AF07FQ36167887-95270568-00FF-4431-BF54-21F1E427CEEFQ36956328-1B78016D-1678-4F04-8A23-5712B2A38A42Q37061273-7D103BA5-DAEF-45E8-B726-A75FF8536A21Q37150223-72AA6F58-D754-4132-B5B4-0B86A722F864Q37292413-4F41D9B1-3B79-4930-ADD8-A1F185B8294FQ37513631-EFF39500-9701-4B1E-B6CA-8E97A6A38462Q38441115-EC59A9FC-EDBC-4BFE-A1F2-519D17990CE7Q38693252-0E6F4631-DB3D-4328-8886-8A8183D09ACAQ39382738-0AD547AF-3B5C-4EBD-A4E6-C319274711D9Q42314531-01ED2490-FDC1-4686-802B-4CEB6EA49CC0Q46967303-99E39247-956E-41B9-BB22-3A12A1584D2CQ47314794-A7795434-8A37-447F-9CC7-03A378232A73Q47316200-201487AD-0F4F-400B-9165-AA017D32A682Q47411165-2D2689E0-E8D4-4333-9597-5271F5C2F640Q48858221-0FA00831-08C8-453D-8F9C-8407094B9D4BQ50571173-F3BDB7EF-C547-4BF9-B6B7-42A6A1BC8091Q50576887-49682C14-BBA9-4751-B1E2-4D7BBEFAB39AQ50719249-CF8EF426-8C79-4BAD-B7D5-B2C8097372F9Q50797479-1788CD53-155F-4408-9445-B17069E001B2Q54943468-79D8DBF4-DB3D-4E3B-8C05-7BCE4F368799Q55330427-BD9528BC-AD82-464B-A33D-BD5915EE1D4C
P2860
Retinotopic activity in V1 reflects the perceived and not the retinal size of an afterimage
description
2012 nî lūn-bûn
@nan
2012 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մարտին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@ast
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@en
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@nl
type
label
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@ast
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@en
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@nl
prefLabel
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@ast
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@en
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@nl
P2860
P3181
P356
P1433
P1476
Retinotopic activity in V1 ref ...... retinal size of an afterimage
@en
P2093
Irene Sperandio
P2860
P2888
P304
P3181
P356
10.1038/NN.3069
P407
P577
2012-03-11T00:00:00Z