| Q48339608 | "Brain-reading" of perceived colors reveals a feature mixing mechanism underlying perceptual filling-in in cortical area V1. |
| Q48335064 | A Distributed Intercortical Processing of Binocular Rivalry: Psychophysical Evidence |
| Q80814399 | A bias for looming stimuli to predominate in binocular rivalry |
| Q48878995 | A binocular rivalry study of motion perception in the human brain |
| Q28202202 | A common oscillator for perceptual rivalries? |
| Q36033459 | A dissociation of attention and awareness in phase-sensitive but not phase-insensitive visual channels |
| Q34649513 | A model of binocular rivalry and cross-orientation suppression |
| Q35576019 | A neural basis for inference in perceptual ambiguity |
| Q51969770 | A neural basis for percept stabilization in binocular rivalry. |
| Q34047440 | A neural network approach to fMRI binocular visual rivalry task analysis |
| Q37808019 | A new taxonomy for perceptual filling-in |
| Q33679688 | Action imitation changes perceptual alternations in binocular rivalry |
| Q48701145 | Activation in visual cortex correlates with the awareness of stereoscopic depth. |
| Q35607574 | Activity in early visual areas predicts interindividual differences in binocular rivalry dynamics |
| Q46686453 | Activity in the visual cortex is modulated by top-down attention locked to reaction time |
| Q36577034 | Affect of the unconscious: visually suppressed angry faces modulate our decisions |
| Q44659328 | Age-related deficits in attentional control of perceptual rivalry |
| Q36747178 | Aging into Perceptual Control: A Dynamic Causal Modeling for fMRI Study of Bistable Perception |
| Q37998458 | Ambiguous figures - what happens in the brain when perception changes but not the stimulus. |
| Q51004965 | Amygdala responses to fearful and happy facial expressions under conditions of binocular suppression. |
| Q36906981 | Amygdala, pulvinar, and inferior parietal cortex contribute to early processing of faces without awareness |
| Q51648889 | An integrative model of binocular vision: a stereo model utilizing interocularly unpaired points produces both depth and binocular rivalry. |
| Q37951934 | Attentional modulation of binocular rivalry |
| Q34383671 | BINOCULAR RIVALRY AND NEURAL DYNAMICS. |
| Q42125846 | Behavioral detection of electrical microstimulation in different cortical visual areas. |
| Q31065229 | Beyond a relay nucleus: neuroimaging views on the human LGN. |
| Q34442996 | Binaral rivalry in the presence of visual perceptual and semantic influences |
| Q34172724 | Binocular flash suppression in the primary visual cortex of anesthetized and awake macaques |
| Q82871877 | Binocular interactions in patients with age-related macular degeneration: acuity summation and rivalry |
| Q53593225 | Binocular rivalry and surface-boundary processing. |
| Q48712604 | Binocular rivalry and visual awareness |
| Q46717748 | Binocular rivalry between identical retinal stimuli with an induced color difference |
| Q48922214 | Binocular rivalry in migraine |
| Q38572682 | Binocular rivalry: competition and inhibition in visual perception |
| Q34760254 | Binocular switch suppression: a new method for persistently rendering the visible 'invisible'. |
| Q28742139 | Binocular vision |
| Q39107717 | Binocular vs. monocular hue perception |
| Q33918434 | Bistable percepts in the brain: FMRI contrasts monocular pattern rivalry and binocular rivalry |
| Q57519521 | Blinding revelations about rivalry |
| Q79252791 | Both monocular and binocular signals contribute to motion rivalry |
| Q37566286 | Brain activation and the locus of visual awareness |
| Q37143490 | Brain mechanisms for simple perception and bistable perception. |
| Q35598254 | Callosal connections of primary visual cortex predict the spatial spreading of binocular rivalry across the visual hemifields. |
| Q50456004 | Caloric vestibular stimulation reveals discrete neural mechanisms for coherence rivalry and eye rivalry: a meta-rivalry model. |
| Q59210729 | Can Contrast-Response Functions Indicate Visual Processing Levels? |
| Q37218398 | Can We Distinguish Emotions from Faces? Investigation of Implicit and Explicit Processes of Peak Facial Expressions |
| Q34455251 | Can attention selectively bias bistable perception? Differences between binocular rivalry and ambiguous figures |
| Q37662105 | Can binocular rivalry reveal neural correlates of consciousness? |
| Q41684814 | Category Selectivity of Human Visual Cortex in Perception of Rubin Face-Vase Illusion |
| Q64967094 | Changes in low-level neural properties underlie age-dependent visual decision making. |
| Q48402057 | Chapter 13 Bilateral frontal leucotomy does not alter perceptual alternation during binocular rivalry. |
| Q83609149 | Characteristics of the filled-in surface at the blind spot |
| Q37347722 | Color-binding errors during rivalrous suppression of form |
| Q51388948 | Competition in bistable vision is attribute-specific. |
| Q33718116 | Computational evidence for a rivalry hierarchy in vision |
| Q35206328 | Congruent tactile stimulation reduces the strength of visual suppression during binocular rivalry. |
| Q37270418 | Consciousness in humans and non-human animals: recent advances and future directions |
| Q59105190 | Contextual effects in speed perception may occur at an early stage of processing |
| Q81483187 | Contour interactions between pairs of Gabors engaged in binocular rivalry reveal a map of the association field |
| Q26999268 | Coronary computed tomography angiography with prospective electrocardiography triggering: a systematic review of image quality and radiation dose |
| Q37038771 | Cortical Representation of a Myopic Peripapillary Crescent. |
| Q34448459 | Cortical representation of space around the blind spot |
| Q35207931 | Crossmodal constraints on human perceptual awareness: auditory semantic modulation of binocular rivalry |
| Q42001920 | Crowding, visual awareness, and their respective neural loci |
| Q38165973 | Dichoptic viewing methods for binocular rivalry research: prospects for large-scale clinical and genetic studies. |
| Q34250865 | Distinct contributions of the magnocellular and parvocellular visual streams to perceptual selection |
| Q37367566 | Divergence of fMRI and neural signals in V1 during perceptual suppression in the awake monkey |
| Q47131984 | Do early neural correlates of visual consciousness show the oblique effect? A binocular rivalry and event-related potential study |
| Q38845577 | Does visual attention drive the dynamics of bistable perception? |
| Q51889530 | Dynamical systems modeling of Continuous Flash Suppression. |
| Q40464348 | Dynamics of perceptual bi-stability for stereoscopic slant rivalry and a comparison with grating, house-face, and Necker cube rivalry. |
| Q42128774 | Effect of binocular rivalry suppression on initial ocular following responses |
| Q37377983 | Endogenous attention selection during binocular rivalry at early stages of visual processing |
| Q37125592 | Enhancement of bistable perception associated with visual stimulus rivalry |
| Q78338231 | Evidence for perceptual "trapping" and adaptation in multistable binocular rivalry |
| Q28278636 | Eye-specific effects of binocular rivalry in the human lateral geniculate nucleus |
| Q83169087 | Feature mixing rather than feature replacement during perceptual filling-in |
| Q48332652 | Feature-based activation and suppression during binocular rivalry |
| Q21136363 | Feed-forward segmentation of figure-ground and assignment of border-ownership |
| Q35071713 | Filling-in of visual phantoms in the human brain |
| Q37600259 | Filling-in rivalry: Perceptual alternations in the absence of retinal image conflict |
| Q34211520 | Fluctuations of visual awareness: combining motion-induced blindness with binocular rivalry |
| Q30474640 | Functional MRI mapping neuronal inhibition and excitation at columnar level in human visual cortex |
| Q46568641 | Functional hierarchies of nonconscious visual processing. |
| Q28210229 | Functional magnetic resonance imaging of synesthesia: activation of V4/V8 by spoken words |
| Q57519312 | Hallucinatory aspects of normal vision |
| Q37040385 | Hierarchy of cortical responses underlying binocular rivalry |
| Q37965153 | High-level binocular rivalry effects |
| Q36426446 | How context influences predominance during binocular rivalry |
| Q51997316 | Illusory contours do not pass through the "blind spot". |
| Q34056084 | Illusory contours over pathological retinal scotomas |
| Q54941075 | Illusory occlusion affects stereoscopic depth perception. |
| Q33837750 | Image-based grouping during binocular rivalry is dictated by eye-of-origin |
| Q73614772 | Increasing depth of binocular rivalry suppression along two visual pathways |
| Q46603382 | Independent binocular integration for form and colour |
| Q48503129 | Individual peak gamma frequency predicts switch rate in perceptual rivalry |
| Q50787400 | Influence of emotional facial expressions on binocular rivalry. |
| Q43865361 | Integration of motion information during binocular rivalry |
| Q37354022 | Inter-ocular contrast normalization in human visual cortex |
| Q36287160 | Interacting competitive selection in attention and binocular rivalry |
| Q35176838 | Intercepting the First Pass: Rapid Categorization is Suppressed for Unseen Stimuli |
| Q52950639 | Intra- and interocular colour-specific activation during dichoptic suppression |
| Q48208368 | Intracranial Recordings of Occipital Cortex Responses to Illusory Visual Events. |
| Q55002608 | Invisible light inside the natural blind spot alters brightness at a remote location. |
| Q35768724 | Local field potential reflects perceptual suppression in monkey visual cortex |
| Q34959490 | Long-range traveling waves of activity triggered by local dichoptic stimulation in V1 of behaving monkeys. |
| Q48451353 | MEG alpha activity decrease reflects destabilization of multistable percepts |
| Q33467409 | Methods for dichoptic stimulus presentation in functional magnetic resonance imaging - a review |
| Q51906836 | Minimal physiological conditions for binocular rivalry and rivalry memory. |
| Q34390441 | Modulating the rate and rhythmicity of perceptual rivalry alternations with the mixed 5-HT2A and 5-HT1A agonist psilocybin |
| Q36945126 | Motion processing, directional selectivity, and conscious visual perception in the human brain |
| Q78067751 | Multi-coloured stereograms unveil two binocular colour mechanisms in human vision |
| Q48556965 | Multi-directional shifts of optokinetic responses to binocular-rivalrous motion stimuli |
| Q51964851 | Multistage model for binocular rivalry. |
| Q37198940 | Neural activity in the visual thalamus reflects perceptual suppression |
| Q34642781 | Neural correlates of binocular rivalry in the human lateral geniculate nucleus |
| Q30689212 | Neural correlates of consciousness in humans |
| Q36774915 | Neural correlates of the contents of visual awareness in humans |
| Q33658172 | Neural processing of visual information under interocular suppression: a critical review. |
| Q34987442 | Neural responses in the primary visual cortex of the monkey during perceptual filling-in at the blind spot. |
| Q36516274 | Neuronal correlates of perception in early visual cortex |
| Q35215837 | Neuronal mechanisms for the perception of ambiguous stimuli. |
| Q33800915 | Object Localization Does Not Imply Awareness of Object Category at the Break of Continuous Flash Suppression |
| Q37393557 | Ocular dominance columns: enigmas and challenges. |
| Q58125206 | On Sensory Eye Dominance Revealed by Binocular Integrative and Binocular Competitive Stimuli |
| Q38786958 | On the functional order of binocular rivalry and blind spot filling-in. |
| Q38421061 | Onset rivalry: factors that succeed and fail to bias selection. |
| Q35674594 | Onset rivalry: the initial dominance phase is independent of ongoing perceptual alternations |
| Q36944158 | Opposite neural signatures of motion-induced blindness in human dorsal and ventral visual cortex |
| Q39453499 | Oscillatory Correlates of Visual Consciousness. |
| Q48620664 | Oscillatory neuronal synchronization in primary visual cortex as a correlate of stimulus selection. |
| Q52006891 | Perception of temporally interleaved ambiguous patterns. |
| Q48398685 | Perceptual filling-in from the edge of the blind spot |
| Q28727753 | Perceptual grouping without awareness: superiority of Kanizsa triangle in breaking interocular suppression |
| Q21091030 | Perceptual rivalry: reflexes reveal the gradual nature of visual awareness |
| Q48087249 | Perceptual suppression revealed by adaptive multi-scale entropy analysis of local field potential in monkey visual cortex |
| Q90172727 | Persistent Biases in Binocular Rivalry Dynamics within the Visual Field |
| Q35217905 | Persistent hemispheric differences in the perceptual selection of spatial frequencies |
| Q41459668 | Pre-coincidence brain activity predicts the perceptual outcome of streaming/bouncing motion display |
| Q28310237 | Predicting the orientation of invisible stimuli from activity in human primary visual cortex |
| Q48179057 | Predictions of Visual Content across Eye Movements and Their Modulation by Inferred Information. |
| Q35614035 | Predictive Context Influences Perceptual Selection during Binocular Rivalry. |
| Q42434323 | Predominance of ground over ceiling surfaces in binocular rivalry |
| Q51601622 | Preserved gain control for luminance contrast during binocular rivalry suppression. |
| Q24811151 | Primary visual cortex activity along the apparent-motion trace reflects illusory perception |
| Q30773363 | Primary visual cortex and visual awareness |
| Q36332041 | Primary visual cortex: awareness and blindsight |
| Q30530410 | Priming with real motion biases visual cortical response to bistable apparent motion |
| Q51975644 | Processing of invisible stimuli: advantage of upright faces and recognizable words in overcoming interocular suppression. |
| Q43842099 | Psilocybin links binocular rivalry switch rate to attention and subjective arousal levels in humans |
| Q37334079 | Quantized visual awareness |
| Q48218321 | Rebound spiking as a neural mechanism for surface filling-in. |
| Q36125646 | Reduced perceptual exclusivity during object and grating rivalry in autism |
| Q38962455 | Regulating the Access to Awareness: Brain Activity Related to Probe-related and Spontaneous Reversals in Binocular Rivalry. |
| Q64102951 | Responses of Neurons in Lateral Intraparietal Area Depend on Stimulus-Associated Reward During Binocular Flash Suppression |
| Q47576778 | Rivalry-Like Neural Activity in Primary Visual Cortex in Anesthetized Monkeys. |
| Q35810851 | Role of mutual inhibition in binocular rivalry |
| Q53070028 | Saliency in a suppressed image affects the spatial origin of perceptual alternations during binocular rivalry. |
| Q37209789 | Seeing the invisible: the scope and limits of unconscious processing in binocular rivalry |
| Q36662227 | Selective biasing of a specific bistable-figure percept involves fMRI signal changes in frontostriatal circuits: a step toward unlocking the neural correlates of top-down control and self-regulation |
| Q34032788 | Single-neuron correlates of subjective vision in the human medial temporal lobe |
| Q37251939 | Slower rate of binocular rivalry in autism |
| Q55042670 | Stimulus flicker alters interocular grouping during binocular rivalry. |
| Q81259083 | Stochastic resonance in binocular rivalry |
| Q79268702 | Strength and coherence of binocular rivalry depends on shared stimulus complexity |
| Q34446354 | Strength of early visual adaptation depends on visual awareness. |
| Q52090884 | Subcortical discrimination of unperceived objects during binocular rivalry. |
| Q73468335 | Subjective contours and binocular rivalry suppression |
| Q38196799 | Subjective visual perception: from local processing to emergent phenomena of brain activity |
| Q91796549 | Tagged MEG measures binocular rivalry in a cortical network that predicts alternation rate |
| Q48465132 | Temporal dynamics of neural activity at the moment of emergence of conscious percept |
| Q48332160 | Temporal frequency and contrast tagging bias the type of competition in interocular switch rivalry |
| Q73022582 | The dynamics of bi-stable alternation in ambiguous motion displays: a fresh look at plaids |
| Q35691333 | The effects of categorical and linguistic adaptation on binocular rivalry initial dominance |
| Q36637521 | The influence of chromatic context on binocular color rivalry: perception and neural representation |
| Q41479120 | The initial interactions underlying binocular rivalry require visual awareness |
| Q41963035 | The magnitude and dynamics of interocular suppression affected by monocular boundary contour and conflicting local features |
| Q36095319 | The neural correlates of crowding-induced changes in appearance |
| Q28298773 | The neural mechanisms of perceptual filling-in |
| Q33582090 | The primary visual cortex fills in color |
| Q37762168 | The role of feedback in visual masking and visual processing |
| Q35135989 | The role of frontal and parietal brain areas in bistable perception. |
| Q27302194 | The role of temporally coarse form processing during binocular rivalry |
| Q30497095 | The role of the primary visual cortex in perceptual suppression of salient visual stimuli |
| Q33342747 | The spatial origin of a perceptual transition in binocular rivalry |
| Q92536441 | The spatiotemporal dynamics of binocular rivalry: evidence for increased top-down flow prior to a perceptual switch |
| Q28206123 | The underpinnings of the BOLD functional magnetic resonance imaging signal |
| Q53161610 | Time for a change: what dominance durations reveal about adaptation effects in the perception of a bi-stable reversible figure. |
| Q35086333 | Top-down modulation in human visual cortex predicts the stability of a perceptual illusion |
| Q30476154 | Traveling waves of activity in primary visual cortex during binocular rivalry |
| Q46245477 | Unconscious priming requires early visual cortex at specific temporal phases of processing |
| Q42859869 | Unmixing binocular signals |
| Q27025930 | Using brain stimulation to disentangle neural correlates of conscious vision |
| Q37700953 | Varieties of perceptual instability and their neural correlates |
| Q50317141 | Very few exclusive percepts for contrast-modulated stimuli during binocular rivalry |
| Q30671313 | Visual competition |
| Q50780155 | Visual grouping on binocular rivalry in a split-brain observer. |
| Q46386499 | Visual illusions and neurobiology |
| Q48680305 | Visual masking and RSVP reveal neural competition |
| Q35044491 | Visual perception: shaping what we see. |
| Q46448821 | Visual rivalry without spatial conflict |
| Q38747053 | What is Grouping during Binocular Rivalry? |
| Q38806557 | What kinds of contours bound the reach of filled-in color? |
| Q38796357 | Why is Binocular Rivalry Uncommon? Discrepant Monocular Images in the Real World |
| Q44917772 | fMRI Measures of perceptual filling-in in the human visual cortex |
| Q43990959 | fMRI investigation of monocular pattern rivalry |