| scholarly article | Q13442814 |
| P50 | author | Olivia Carter | Q43123109 |
| P2093 | author name string | John D Pettigrew | |
| P2860 | cites work | The Perceptual Fragmentation of Unstabilized Images | Q43679491 |
| Neuronal activity in human primary visual cortex correlates with perception during binocular rivalry. | Q46138715 | ||
| Binocular rivalry and visual awareness in human extrastriate cortex | Q48354865 | ||
| Timing and competition in networks representing ambiguous figures. | Q52325346 | ||
| Contributions to the Physiology of Vision. Part the First. On Some Remarkable, and Hitherto Unobserved, Phenomena of Binocular Vision | Q54259082 | ||
| A 'sticky' interhemispheric switch in bipolar disorder? | Q55068186 | ||
| Binocular rivalry | Q56454972 | ||
| Resolving perceptual ambiguity | Q57743050 | ||
| What is rivalling during binocular rivalry? | Q59090993 | ||
| Similarities in normal and binocularly rivalrous viewing | Q24642394 | ||
| Interhemispheric switching mediates perceptual rivalry | Q28141050 | ||
| Motion-induced blindness in normal observers | Q28207088 | ||
| Why we see things the way we do: evidence for a wholly empirical strategy of vision | Q28214028 | ||
| Modulating motion-induced blindness with depth ordering and surface completion | Q28216048 | ||
| Neural correlates of perceptual rivalry in the human brain | Q28274142 | ||
| Visual competition | Q30671313 | ||
| Interocular rivalry revealed in the human cortical blind-spot representation | Q33946277 | ||
| How context influences predominance during binocular rivalry | Q36426446 | ||
| When the brain changes its mind: interocular grouping during binocular rivalry | Q37099162 | ||
| A neural theory of binocular rivalry | Q38611897 | ||
| Neurophysiology of the suprachiasmatic circadian pacemaker in rodents | Q38663203 | ||
| Single units and conscious vision | Q40853651 | ||
| A transition between eye and object rivalry determined by stimulus coherence | Q43574380 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 295-305 | |
| P577 | publication date | 2003-01-01 | |
| P1433 | published in | Perception | Q2070151 |
| P1476 | title | A common oscillator for perceptual rivalries? | |
| P478 | volume | 32 |
| Q28291844 | "Perceptual scotomas": a functional account of motion-induced blindness |
| Q39327036 | A Common Mechanism for Perceptual Reversals in Motion-Induced Blindness, the Troxler Effect, and Perceptual Filling-In. |
| Q35208304 | An integrated framework of spatiotemporal dynamics of binocular rivalry |
| Q43118642 | Attending to auditory signals slows visual alternations in binocular rivalry. |
| Q43188178 | Attention-like deficit and hyperactivity in a Drosophila memory mutant. |
| Q83226742 | Attentional control over either of the two competing percepts of ambiguous stimuli revealed by a two-parameter analysis: means do not make the difference |
| Q30358436 | Audio-visual interactions uniquely contribute to resolution of visual conflict in people possessing absolute pitch. |
| Q55040113 | Autistic Traits Are Not a Strong Predictor of Binocular Rivalry Dynamics. |
| Q38572682 | Binocular rivalry: competition and inhibition in visual perception |
| Q28742139 | Binocular vision |
| Q33694060 | Chromatic interocular-switch rivalry |
| Q89506241 | Collaborative dialogue between Buddhism and science: A contribution to expanding a science of consciousness |
| Q51915738 | Combined effects of perceptual grouping cues on object representation: evidence from motion-induced blindness. |
| Q42266911 | Competition between newly recruited and pre-existing visual cues during the construction of visual appearance |
| Q48863373 | Competitive dynamics in cortical responses to visual stimuli |
| Q48204469 | Conflict-sensitive neurons gate interocular suppression in human visual cortex |
| Q48830434 | Does direction of walking impact binocular rivalry between competing patterns of optic flow? |
| Q50481184 | Does interhemispheric competition mediate motion-induced blindness? A transcranial magnetic stimulation study. |
| Q38845577 | Does visual attention drive the dynamics of bistable perception? |
| Q46647477 | Effects of selective 5-HT1A agonist tandospirone on the rate and rhythmicity of binocular rivalry |
| Q47331974 | Extending Levelt's Propositions to perceptual multistability involving interocular grouping. |
| Q37600259 | Filling-in rivalry: Perceptual alternations in the absence of retinal image conflict |
| Q94566713 | Fluctuations of consciousness, mood and science: The interhemispheric switch and sticky switch models two decades on |
| Q34211520 | Fluctuations of visual awareness: combining motion-induced blindness with binocular rivalry |
| Q52058382 | Forming and updating object representations without awareness: evidence from motion-induced blindness. |
| Q91287911 | Frequency of alpha oscillation predicts individual differences in perceptual stability during binocular rivalry |
| Q33378463 | General validity of Levelt's propositions reveals common computational mechanisms for visual rivalry |
| Q37654618 | Genes contribute to the switching dynamics of bistable perception |
| Q91637729 | Genomic Analyses of Visual Cognition: Perceptual Rivalry and Top-Down Control |
| Q22251224 | Hallucinogens |
| Q37965153 | High-level binocular rivalry effects |
| Q97645413 | How experimental neuroscientists can fix the hard problem of consciousness |
| Q42145872 | Human parietal cortex structure predicts individual differences in perceptual rivalry |
| Q55154054 | Human single neuron activity precedes emergence of conscious perception. |
| Q90100268 | Humans Perceive Binocular Rivalry and Fusion in a Tristable Dynamic State |
| Q90015670 | Individual differences in continuous flash suppression: Potency and linkages to binocular rivalry dynamics |
| Q48030268 | Individual differences in motion-induced blindness: The effects of mask coherence and depth ordering |
| Q35054666 | Individual differences in the temporal dynamics of binocular rivalry and stimulus rivalry |
| Q48503129 | Individual peak gamma frequency predicts switch rate in perceptual rivalry |
| Q92369071 | Individual variation in inter-ocular suppression and sensory eye dominance |
| Q41935624 | Intermittent ambiguous stimuli: implicit memory causes periodic perceptual alternations |
| Q64118541 | Intrinsic timescales of sensory integration for motion perception |
| Q30375701 | Melodic sound enhances visual awareness of congruent musical notes, but only if you can read music. |
| Q34390441 | Modulating the rate and rhythmicity of perceptual rivalry alternations with the mixed 5-HT2A and 5-HT1A agonist psilocybin |
| Q28731972 | Multistability in perception: binding sensory modalities, an overview |
| Q38380306 | Newly acquired audio-visual associations bias perception in binocular rivalry |
| Q59105202 | On the relation between dichoptic masking and binocular rivalry |
| Q30521407 | Oscillatory modulations in human fusiform cortex during motion-induced blindness: intracranial recording. |
| Q55515406 | Perceptual switch rates with ambiguous structure-from-motion figures in bipolar disorder. |
| Q28305091 | Plaid motion rivalry: correlates with binocular rivalry and positive mood state |
| Q83202861 | Preceding stimulus awareness augments offset-evoked potentials: evidence from motion-induced blindness |
| Q43842099 | Psilocybin links binocular rivalry switch rate to attention and subjective arousal levels in humans |
| Q30481243 | Pupil dilation reflects perceptual selection and predicts subsequent stability in perceptual rivalry |
| Q48368729 | Rhythmic gamma stimulation affects bistable perception |
| Q48866673 | Separability and commonality of auditory and visual bistable perception |
| Q45398529 | Spatiotemporal rivalry: a perceptual conflict involving illusory moving and static forms |
| Q48573131 | Spontaneous local alpha oscillations predict motion-induced blindness |
| Q79816038 | Subjective disappearance of a target by flickering flankers |
| Q84817138 | Switching dynamics of border ownership: a stochastic model for bi-stable perception |
| Q46314921 | TMS over the intraparietal sulcus induces perceptual fading |
| Q28080519 | The 'laws' of binocular rivalry: 50 years of Levelt's propositions |
| Q55072308 | The Independent and Shared Mechanisms of Intrinsic Brain Dynamics: Insights From Bistable Perception. |
| Q34219804 | The role of mask coherence in motion-induced blindness. |
| Q30834340 | The time course of binocular rivalry during the phases of the menstrual cycle |
| Q35086333 | Top-down modulation in human visual cortex predicts the stability of a perceptual illusion |
| Q64114682 | Transcutaneous Vagus Nerve Stimulation (tVNS) and the Dynamics of Visual Bistable Perception |
| Q33609873 | What causes alternations in dominance during binocular rivalry? |
| Q38796357 | Why is Binocular Rivalry Uncommon? Discrepant Monocular Images in the Real World |
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