scholarly article | Q13442814 |
P819 | ADS bibcode | 2011PLoSO...620910N |
P356 | DOI | 10.1371/JOURNAL.PONE.0020910 |
P932 | PMC publication ID | 3109001 |
P698 | PubMed publication ID | 21677786 |
P5875 | ResearchGate publication ID | 51223518 |
P50 | author | Wolfgang Einhäuser | Q37381536 |
P2093 | author name string | Marnix Naber | |
Stefan Frässle | |||
P2860 | cites work | Monocular rivalry exhibits three hallmarks of binocular rivalry: evidence for common processes | Q83386542 |
Is conscious perception gradual or dichotomous? A comparison of report methodologies during a visual task | Q83844166 | ||
Pupil dynamics during bistable motion perception | Q84568870 | ||
The Eyelink Toolbox: eye tracking with MATLAB and the Psychophysics Toolbox. | Q50766419 | ||
Binocular motion rivalry in macaque monkeys: eye dominance and tracking eye movements. | Q50798872 | ||
Right parietal brain activity precedes perceptual alternation of bistable stimuli. | Q51959129 | ||
Multistage model for binocular rivalry. | Q51964851 | ||
The role of (micro)saccades and blinks in perceptual bi-stability from slant rivalry. | Q52049847 | ||
Visual motion priming by invisible actions. | Q52170010 | ||
Independence between binocular rivalry suppression duration and magnitude of suppression. | Q52325711 | ||
Neural models of brightness perception and retinal rivalry in binocular vision. | Q52729958 | ||
Saliency in a suppressed image affects the spatial origin of perceptual alternations during binocular rivalry. | Q53070028 | ||
Contributions to the Physiology of Vision. Part the First. On Some Remarkable, and Hitherto Unobserved, Phenomena of Binocular Vision | Q54259082 | ||
Human brain activity during spontaneously reversing perception of ambiguous figures. | Q55395759 | ||
Telling more than we can know: Verbal reports on mental processes | Q55918859 | ||
LXI. Observations on some remarkable optical phænomena seen in Switzerland; and on an optical phænomenon which occurs on viewing a figure of a crystal or geometrical solid | Q55921544 | ||
Verbal reports as data | Q55966984 | ||
Pupillary Changes during a Decision-Making Task | Q61631686 | ||
Online action-to-perception transfer: Only percept-dependent action affects perception | Q63952215 | ||
Monocular and binocular rivalry between contours | Q67260798 | ||
Attenuation of the pupil response during binocular rivalry | Q72162437 | ||
Pupillary Responses in Rivalry and Amblyopia | Q72403871 | ||
Dynamics of the pupil during binocular rivalry | Q72760892 | ||
The temporal course of suppression during binocular rivalry | Q73155986 | ||
BINOCULAR RIVALRY AND MONOCULAR DOMINANCE STUDIED WITH OPTOKINETIC NYSTAGMUS | Q76550932 | ||
The time course of binocular rivalry reveals a fundamental role of noise | Q79514834 | ||
Phasic inhibition of the light reflex of the pupil during retinal rivalry | Q79608019 | ||
Voluntary action influences visual competition | Q79930024 | ||
Attention speeds binocular rivalry | Q80290403 | ||
The role of saccades in exerting voluntary control in perceptual and binocular rivalry | Q81534449 | ||
Attentional control over either of the two competing percepts of ambiguous stimuli revealed by a two-parameter analysis: means do not make the difference | Q83226742 | ||
Binaral rivalry between the nostrils and in the cortex | Q24614786 | ||
Pupillary contagion: central mechanisms engaged in sadness processing | Q24677593 | ||
Decoding the visual and subjective contents of the human brain | Q24684691 | ||
Control of goal-directed and stimulus-driven attention in the brain | Q27860553 | ||
The Psychophysics Toolbox | Q27861071 | ||
Predicting the stream of consciousness from activity in human visual cortex | Q28264147 | ||
Neural correlates of perceptual rivalry in the human brain | Q28274142 | ||
On inhibition. | Q29035944 | ||
The VideoToolbox software for visual psychophysics: transforming numbers into movies | Q29547363 | ||
Traveling waves of activity in primary visual cortex during binocular rivalry | Q30476154 | ||
Pupil dilation reflects perceptual selection and predicts subsequent stability in perceptual rivalry | Q30481243 | ||
Visual competition | Q30671313 | ||
Neural bases of binocular rivalry | Q33258339 | ||
The spatial origin of a perceptual transition in binocular rivalry | Q33342747 | ||
General validity of Levelt's propositions reveals common computational mechanisms for visual rivalry | Q33378463 | ||
Rhythms of consciousness: binocular rivalry reveals large-scale oscillatory network dynamics mediating visual perception | Q33479164 | ||
Multistable phenomena: changing views in perception. | Q33666120 | ||
Pupil dilation betrays the timing of decisions | Q33701453 | ||
Computational evidence for a rivalry hierarchy in vision | Q33718116 | ||
Interocular rivalry revealed in the human cortical blind-spot representation | Q33946277 | ||
Visual sensitivity underlying changes in visual consciousness | Q34054422 | ||
Superior parietal cortex activation during spatial attention shifts and visual feature conjunction. | Q34288958 | ||
Are switches in perception of the Necker cube related to eye position? | Q34368607 | ||
Can attention selectively bias bistable perception? Differences between binocular rivalry and ambiguous figures | Q34455251 | ||
A neural basis for inference in perceptual ambiguity | Q35576019 | ||
Enduring interest in perceptual ambiguity: alternating views of reversible figures | Q35887460 | ||
The role of temporal cortical areas in perceptual organization | Q36086292 | ||
Hierarchy of cortical responses underlying binocular rivalry | Q37040385 | ||
When the brain changes its mind: interocular grouping during binocular rivalry | Q37099162 | ||
The neural bases of multistable perception | Q37525333 | ||
A neural theory of binocular rivalry | Q38611897 | ||
An astable multivibrator model of binocular rivalry | Q39561801 | ||
Tactile rivalry demonstrated with an ambiguous apparent-motion quartet. | Q40069587 | ||
Optokinetic nystagmus with spontaneous reversal of transparent motion perception. | Q41700601 | ||
Human parietal cortex structure predicts individual differences in perceptual rivalry | Q42145872 | ||
Distance in feature space determines exclusivity in visual rivalry. | Q42635100 | ||
Pupil dilation during visual target detection | Q42872600 | ||
Attending to auditory signals slows visual alternations in binocular rivalry. | Q43118642 | ||
Stochastic variations in sensory awareness are driven by noisy neuronal adaptation: evidence from serial correlations in perceptual bistability. | Q43231564 | ||
Optokinetic nystagmus as an objective indicator of binocular rivalry | Q43784210 | ||
Multistability in perception | Q44193103 | ||
Spatial zones of binocular rivalry in central and peripheral vision | Q44436374 | ||
Is consciousness a gradual phenomenon? Evidence for an all-or-none bifurcation during the attentional blink | Q45105309 | ||
Neuronal activity in human primary visual cortex correlates with perception during binocular rivalry. | Q46138715 | ||
Shifting spatial attention makes you flip: Exogenous visual attention triggers perceptual alternations during binocular rivalry | Q48140362 | ||
The alternation of optokinetic responses driven by moving stimuli in humans | Q48337084 | ||
V1 activity is reduced during binocular rivalry | Q48343421 | ||
Binocular rivalry and visual awareness in human extrastriate cortex | Q48354865 | ||
Transient neural activity in human parietal cortex during spatial attention shifts | Q48490406 | ||
Suppression wave dynamics: visual field anisotropies and inducer strength | Q48647666 | ||
Neural correlates of spontaneous direction reversals in ambiguous apparent visual motion | Q48654918 | ||
Increased gamma-band synchrony precedes switching of conscious perceptual objects in binocular rivalry | Q48808318 | ||
Early interactions between neuronal adaptation and voluntary control determine perceptual choices in bistable vision | Q48889143 | ||
A fresh look at interocular grouping during binocular rivalry | Q48968896 | ||
Activity changes in early visual cortex reflect monkeys' percepts during binocular rivalry | Q49119178 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | e20910 | |
P577 | publication date | 2011-01-01 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | Perceptual rivalry: reflexes reveal the gradual nature of visual awareness | |
P478 | volume | 6 |
Q38375756 | Acting without seeing: eye movements reveal visual processing without awareness |
Q95840361 | Adaptation to transients disrupts spatial coherence in binocular rivalry |
Q44659328 | Age-related deficits in attentional control of perceptual rivalry |
Q63952206 | Binocular Rivalry: Frontal Activity Relates to Introspection and Action But Not to Perception |
Q37662105 | Can binocular rivalry reveal neural correlates of consciousness? |
Q43179653 | Commentary: Is the Frontal Lobe Involved in Conscious Perception? |
Q46380636 | Comparison of optomotor and optokinetic reflexes in mice |
Q37558846 | Complex Visual Motion Representation in Mouse Area V1. |
Q39386569 | Eye tracking under dichoptic viewing conditions: a practical solution |
Q64951388 | Gaze-Contingent Flicker Pupil Perimetry Detects Scotomas in Patients With Cerebral Visual Impairments or Glaucoma. |
Q35404411 | How Much of the "Unconscious" is Just Pre - Threshold? |
Q48529681 | How to Build a Dichoptic Presentation System That Includes an Eye Tracker. |
Q48208368 | Intracranial Recordings of Occipital Cortex Responses to Illusory Visual Events. |
Q36124849 | Motion Information via the Nonfixating Eye Can Drive Optokinetic Nystagmus in Strabismus |
Q33658172 | Neural processing of visual information under interocular suppression: a critical review. |
Q38614651 | New Light on the Mind's Eye: The Pupillary Light Response as Active Vision |
Q38380306 | Newly acquired audio-visual associations bias perception in binocular rivalry |
Q36306312 | Optokinetic nystagmus reflects perceptual directions in the onset binocular rivalry in Parkinson's disease |
Q55335527 | Parallel graded attention in reading: A pupillometric study. |
Q50550763 | Perception and the strongest sensory memory trace of multi-stable displays both form shortly after the stimulus onset. |
Q90137073 | Perceptual awareness and active inference |
Q90089946 | Pupil Mimicry is the Result of Brightness Perception of the Iris and Pupil |
Q60956693 | Pupil Size as a Gateway Into Conscious Interpretation of Brightness |
Q47435817 | Pupil size reflects the focus of feature-based attention. |
Q47401300 | Pupil size tracks perceptual content and surprise. |
Q30492002 | Pupillary Responses to Words That Convey a Sense of Brightness or Darkness |
Q50418425 | Pupillometry reveals perceptual differences that are tightly linked to autistic traits in typical adults |
Q64216306 | Pupillometry: Psychology, Physiology, and Function |
Q38420036 | Temporal dynamics of different cases of bi-stable figure-ground perception. |
Q34475575 | The attention schema theory: a mechanistic account of subjective awareness |
Q21559547 | The pupillary light response reveals the focus of covert visual attention |
Q90089875 | Visual Awareness in Binocular Rivalry Modulates Induced Pupil Fluctuations |