Select an Abstract Title to view the poster presentation. Select a Room or Topic to filter the list.
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Poster Title
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Presenter
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Room
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Topic Area
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A1
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Classification images reveal uniform decay of facial feature information in visual working memory
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Kuuramo, Crista
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Osprey
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Visual Memory: Working, long-term 1
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A2
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Using Visual Memory Schemas for Modulation of Image Memorability
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Kyle-Davidson, Cameron
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Osprey
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Visual Memory: Working, long-term 1
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A3
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Expectations about the number of task-relevant objects gate attentional access to working memory
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Zivony, Alon
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Osprey
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Visual Memory: Working, long-term 1
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A4
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Here it comes: Working memory is effectively 'flushed' even just by anticipation of an impending visual event boundary
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Wang, Vivian
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Osprey
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Visual Memory: Working, long-term 1
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A5
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Random values from uncertainty intervals are as informative as point estimates in visual working memory
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Czoschke, Stefan
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Osprey
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Visual Memory: Working, long-term 1
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A6
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Reliability of Visual Access: Modeling the trade-off between internal storage in visual working memory and external sampling
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Hoogerbrugge, Alex J.
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Osprey
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Visual Memory: Working, long-term 1
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A8
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The format of visual working memory representations
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Kwak, Yuna
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Osprey
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Visual Memory: Working, long-term 1
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A9
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The Item-Specific Proportion Congruency Effect is Contaminated by Short-Term Repetition Priming
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Cochrane, Brett A.
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Osprey
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Visual Memory: Working, long-term 1
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A10
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Visual working memory for objects in scenes in younger and older adults: Insights from pupillometry
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D'Innocenzo, Giorgia
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Osprey
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Visual Memory: Working, long-term 1
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A11
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Location Encoding in Visual Working Memory is not Completely Automatic
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Tam, Joyce
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Osprey
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Visual Memory: Working, long-term 1
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A12
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Metrical properties of spatial and temporal reference frames in visual working memory
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Heuer, Anna
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Osprey
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Visual Memory: Working, long-term 1
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A13
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Binding continuous features in working memory with plastic attractors
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Bocincova, Andrea
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Osprey
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Visual Memory: Encoding
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A14
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Binding information to discrete objects improves retention in working memory
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Yousif, Sami
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Osprey
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Visual Memory: Encoding
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A15
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Building a comprehensive model of visual memory from images and individuals
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Wakeland-Hart, Cheyenne D.
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Osprey
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Visual Memory: Encoding
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A16
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Discounting the Effect of Memory on Repeated Measures of Beauty Judgment
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Pombo, Maria
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Osprey
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Visual Memory: Encoding
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A17
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Does average size of an ensemble bias individual size representations during perception or working memory retention?
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Choi, Yong Min
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Osprey
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Visual Memory: Encoding
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A18
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EEG signals represent updated memory representations in working memory
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Shin, Young Seon
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Osprey
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Visual Memory: Encoding
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A19
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Evolving visual representations from noise
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Maiello, Guido
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Osprey
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Visual Memory: Encoding
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A20
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How do humans process numerosity
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Yu, Yanfei
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Osprey
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Visual Memory: Encoding
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A21
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Serial dependence in visual working memory: cognitive and neuronal mechanisms
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Fischer, Cora
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Osprey
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Visual Memory: Encoding
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A22
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Temporal integration of feature probability distributions in visual working memory
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Hansmann-Roth, Sabrina
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Osprey
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Visual Memory: Encoding
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A23
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The multiple encoding benefit: contributions from the number of encoding opportunities amplifies benefits from the length of encoding duration in visual long-term memory
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Tozios, Caitlin J. I.
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Osprey
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Visual Memory: Encoding
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A24
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The Visual and Semantic Features that Predict Object Memory
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Hovhannisyan, Mariam
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Osprey
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Visual Memory: Encoding
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A25
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Adding another dimension to history effects in vision: Larger serial dependence in the depth plane than in the fronto-parallel plane in virtual reality
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Tanrikulu, Ömer Dağlar
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Osprey
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Visual Memory: Encoding
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A26
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Contextual vs. probabilistic learning of target locations in scenes differentially facilitate retrieval and attentional orienting
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Sefranek, Marcus
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Osprey
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Visual Memory: Encoding
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A27
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Contextual cueing survives allocentric and egocentric transformations
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Zheng, Lei
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Osprey
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Visual Memory: Encoding
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A28
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Auditory speed processing in sighted and blind individuals
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Bertonati, Giorgia
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Osprey
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Temporal Processing
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A29
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Modelling event duration and overlap during EEG analysis
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Skukies, René
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Osprey
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Temporal Processing
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A30
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The hand is quicker than the eye: Sensitivity to the timing of visual, vibrotactile, and bi-sensory stimulation
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Villalonga, Mercedes B.
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Osprey
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Temporal Processing
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A31
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No Evidence for a Single Oscillator Underlying Discrete Visual Percepts
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Morrow, Audrey
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Osprey
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Temporal Processing
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A32
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A strategy for presenting computational models intelligibly
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Pohlmann, Maximilian
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Osprey
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Temporal Processing
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A33
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What determines the temporal extent of unconscious feature integration?
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Vogelsang, Lukas
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Osprey
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Temporal Processing
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A34
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Sensory processes are delayed when expectations are not met
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Urgen, Buse Merve
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Osprey
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Temporal Processing
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A35
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How long does stimulus processing last?
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Herzog, Michael
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Osprey
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Temporal Processing
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A36
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Metacontrast Masking Across Different Contrast Polarities: The Role of Late ERP Components
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Aydin, Alaz
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Osprey
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Temporal Processing
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A41
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Pupil size automatically encodes numerosity
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Castaldi, Elisa
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A42
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Watching people decide: decision prediction using heatmaps of reading of a decision-support document
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Ghosh, Sucheta
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A43
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Predicting cognitive performance using eye-movements, reaction time and difficulty level.
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Arsalidou, Marie
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A44
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An attentional limbo: Between saliency-driven and goal-driven selection, saccades become momentarily non-selective.
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van Heusden, Elle
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A45
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The Price of Breaking the Tyranny of Film: The cognitive demand of top-down processes
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Simonson, Taylor
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A46
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Transsaccadic peripheral-foveal associations for familiar and novel objects
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Goktepe, Nedim
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A47
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Machine learning, eye movements and mathematical problem solving
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Sharaev, Maxim
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A48
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Detection, Inspection and Re-Inspection: A functional approach to gaze behavior towards complex scenes
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Linka, Marcel
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A49
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Object-context inconsistencies affect gaze behavior differently than predicted by contextualized meaning maps
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Pedziwiatr, Marek A.
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A50
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Decoding of visually guided and interceptive saccades from area LIP of macaque monkeys
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Churan, Jan
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A51
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Dissociating cognitive effects and stimulus properties during pupil size measurements in response to product images
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Franzen, Léon
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A52
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Gaze behaviour: a window into quantifying task difficulty and performance using the Tower of London Task
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Ayala, Naila
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A53
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High-Resolution Eye-Tracking during Natural Real-World Interaction
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Kapisthalam, Sanjana
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A54
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Rethinking the center bias: from fixations to saccades
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Mairon, Rotem
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A56
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Cognitive influences on fixational eye movements during visual discrimination
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Lin, Yen-Chu
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A57
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Attentional strategies during mental arithmetic
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Bachurina, Valentina
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Manatee
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Eye Movements: Cognition, neural mechanisms
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A58
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Retinotopic organization of high-level visual regions in the human brain
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Leferink, Charlotte A
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Manatee
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Scene Perception: Neural mechanisms
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A59
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Local Symmetry in Human and Artificial Neural Networks
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Xie, Yongzhen
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Manatee
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Scene Perception: Neural mechanisms
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A60
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Using a novel, stimuli-driven approach to uncover a robust image feature that drives human visual scene processing
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Cheng, Annie
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Manatee
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Scene Perception: Neural mechanisms
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A61
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Categorical and analog representations of spatial directions in visual scenes in behavior and the brain
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Weisberg, Steven
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Manatee
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Scene Perception: Neural mechanisms
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A62
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A river runs through it: Brain representations of segmented environments
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Peer, Michael
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Manatee
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Scene Perception: Neural mechanisms
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A63
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Representation of spatial relations between multiple faces, bodies or people in the visual cortex
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Abassi, Etienne
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Manatee
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Scene Perception: Neural mechanisms
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A64
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Neural Taskonomy: Explaining high-level visual processing of natural scenes using task-derived representations
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Wang, Aria Y
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Manatee
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Scene Perception: Neural mechanisms
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A65
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Brain networks dynamically resolve basic algorithmic functions with task-specific strategies
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Jaworska, Katarzyna
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Manatee
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Scene Perception: Neural mechanisms
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A66
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The stuff of natural scenes: probing human property judgments of textures, materials, and other amorphous scene components with convolutional neural networks
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Nandiwada, Neha
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Manatee
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Scene Perception: Neural mechanisms
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A67
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Accessing meaning from different visual inputs: Word and object frequency effects in recognition behavior.
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Turini, Jacopo
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Manatee
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Object Recognition: Features and parts
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A68
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‘Distinctiveness’ of parts in novel objects
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Tiedemann, Henning
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Manatee
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Object Recognition: Features and parts
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A69
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Investigating the Spatial Congruency Bias: The privileged role of location in visual processing is a product of development
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Gao, Mengcun
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Manatee
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Object Recognition: Features and parts
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A70
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Three-dimensional pose discrimination in natural images of humans
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Zhu, Hongru
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Manatee
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Object Recognition: Features and parts
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A71
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Amodal statistical completion of occluded objects
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Cherian, Thomas
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Manatee
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Object Recognition: Features and parts
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A72
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Asynchronous visual flicker alters perceived curvature
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Cunningham, Emily
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Manatee
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Object Recognition: Features and parts
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A73
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Quantifying the latent semantic content of visual representations
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Han, Chihye
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Manatee
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Object Recognition: Features and parts
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A74
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How do individuals who report psychotic-like experiences process visual illusions?
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Sperandio, Irene
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Manatee
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Object Recognition: Features and parts
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A75
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Mapping perceptual spaces of objects and low-level features
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Waraich, Suniyya A.
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Manatee
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Object Recognition: Features and parts
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A76
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Scene wheels: Measuring perception and memory of real-world scenes with a continuous stimulus space
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Son, Gaeun
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Manatee
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Object Recognition: Features and parts
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A81
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Deep Neural Networks as a Computational Model for the Human Perception of Visual Symmetry
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Bonneh, Yoram
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Dolphin
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Perceptual Organization 1
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A82
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Configural processing in humans and deep convolutional neural networks
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Keshvari, Shaiyan
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Dolphin
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Perceptual Organization 1
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A83
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Wedge patterns: A novel stimulus for studying mirror symmetry
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Martinovic, Jasna
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Dolphin
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Perceptual Organization 1
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A84
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Efficient ensemble summaries are inversely related to visual crowding
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Tiurina, Natalia
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Dolphin
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Perceptual Organization 1
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A85
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Ensemble representation of animacy could be based on mid-level visual features
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Markov, Yuri
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Dolphin
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Perceptual Organization 1
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A86
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Does ensemble priming survive masking?
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Servetnik, Maria
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Dolphin
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Perceptual Organization 1
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A87
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The effect of grouping on numerosity judgment varies with the autism-spectrum personality traits, consistent with changes in local-global biases.
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Pomè, Antonella
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Dolphin
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Perceptual Organization 1
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A88
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Can multiple repetitions shield local processing from global interference?
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Lee, Jong Han
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Dolphin
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Perceptual Organization 1
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A89
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I see something you don’t see: The influence of the learning context on object correspondence.
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Hein, Elisabeth
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Dolphin
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Perceptual Organization 1
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A90
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Task set and instructions influence the relative weight of figural priors in figure-ground organization
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Ghose, Tandra
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Dolphin
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Perceptual Organization 1
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A91
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Can Pac-Man Change Your Perception? Semantic Priming affects the probability of experiencing the Kanizsa Illusion
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Davidson Litvak, Nataly
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Dolphin
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Perceptual Organization 1
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A92
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The effect of proximity and continuity on amodal completion
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Komatsu, Hidemi
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Dolphin
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Perceptual Organization 1
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A93
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Toward Quantifying Ambiguities in Artistic Images
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Wang, Xi
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Dolphin
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Perceptual Organization 1
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A94
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The role of category label in forming and functioning of a target template in visual search
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Morozov, Maxim
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Dolphin
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Visual Search: Categories, cues
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A95
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Intertrial Effects in Visual Search Are Category Specific
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Kershner, Ariel
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Dolphin
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Visual Search: Categories, cues
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A96
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Distractor suppression: Can top-down knowledge of non-target categorical information elicit rapid rejection?
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Goetz, Jessica
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Dolphin
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Visual Search: Categories, cues
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A97
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The log rolls on: Hybrid search with same-category targets and distractors
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Utochkin, Igor
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Dolphin
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Visual Search: Categories, cues
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A98
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Scene grammar guidance affects both visual search and incidental object memory
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Beitner, Julia
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Dolphin
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Visual Search: Categories, cues
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A99
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Levels of visual clutter differentially impact search-based learning in naturalistic scenes.
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Gkoumas, Christos
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Dolphin
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Visual Search: Categories, cues
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A101
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Is Contextual Cueing Unconscious? The Indirect Task Advantage in Implicit Learning
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Meyen, Sascha
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Dolphin
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Visual Search: Categories, cues
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A102
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Contextual information, visual working memory and inhibitory control in hybrid visual search
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Ison, Matias J.
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Dolphin
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Visual Search: Categories, cues
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A103
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A factorial analysis of contextual cueing reveals the primacy of local context surrounding the target
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Ramzaoui, Hanane
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Dolphin
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Visual Search: Categories, cues
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A104
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Search guidance from the relative arrangement between objects
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Ford, Steven
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Dolphin
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Visual Search: Categories, cues
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A105
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Repetition number, but not spacing, affects spatial context learning
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Sisk, Caitlin
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Dolphin
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Visual Search: Categories, cues
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A106
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Different spatial transfer of high-level and low-level priming of pop-out with the double-drift illusion.
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Ozkan, Mert
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Dolphin
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Visual Search: Categories, cues
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A107
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Perceptual and categorical similarity in visual search for multiple targets
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Gorbunova, Elena
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Dolphin
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Visual Search: Categories, cues
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A108
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Nasal visual field of origin contributes to interocular competition strength
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Sahakian, Andre
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Dolphin
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Binocular Vision: Rivalry and competition
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A109
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Examining Eye- and Stimulus-Level Competition during Rivalry Onset
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Choi, Yeo Bi
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Dolphin
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Binocular Vision: Rivalry and competition
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A110
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InFoRM (Indicate-Follow-Replay-Me) Rivalry: A novel method to measure and analyze perceptual experience
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Skerswetat, Jan
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Dolphin
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Binocular Vision: Rivalry and competition
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A111
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Binocular rivalry perceptual memory in schizophrenia and in acute ayahuasca administration
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White, Keith
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Dolphin
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Binocular Vision: Rivalry and competition
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A112
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Interocular difference detection is facilitated as well as suppressed by surround masks
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Kingdom, Frederick A. A.
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Dolphin
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Binocular Vision: Rivalry and competition
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A113
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Measuring the monocular interocular delay in amblyopia
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Reynaud, Alexandre
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Dolphin
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Binocular Vision: Rivalry and competition
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A121
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Super-Recognizers: 70 cases identified with a novel diagnostic framework
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Ramon, Meike
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Egret
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Face Perception: Individual differences 1
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A122
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When better is worse: Better face recognizers are more susceptible to the effect of face masks
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Stajduhar, Andreja
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Egret
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Face Perception: Individual differences 1
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A123
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Consistency — a neglected marker of superior face processing
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Nador, Jeffrey
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Egret
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Face Perception: Individual differences 1
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A124
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Individual differences in face perception: Development and validation of the Oxford Face Matching Test (OFMT)
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Stantic, Mirta
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Egret
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Face Perception: Individual differences 1
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A125
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Face memory and source memory abilities correlate in typical perceivers.
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Hancock, Peter JB
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Egret
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Face Perception: Individual differences 1
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A126
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Response times in an old/new face recognition test provide an objective measure of face memory deficits in developmental prosopagnosia
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Palsamudram, Tanvi
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Egret
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Face Perception: Individual differences 1
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A127
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The inseparability of visual processes in developmental dyslexia and the inseparability of visual categories in developmental prosopagnosia
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Jozranjbar, Bahareh
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Egret
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Face Perception: Individual differences 1
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A128
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Typical visual processing of Navon-style compound letters and compound arrows in developmental prosopagnosia
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Tsantani, Maria
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Egret
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Face Perception: Individual differences 1
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A129
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Do developmental prosopagnosics with high vs. low levels of autism traits differ in how they process faces?
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Fry, Regan
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Egret
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Face Perception: Individual differences 1
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A130
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No association between face identification abilities and “mind-reading” in the eyes
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Ledrou-Paquet, Vicki
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Egret
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Face Perception: Individual differences 1
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A131
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Persisting Prosopagnosia due to COVID-19
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Kieseler, Marie-Luise
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Egret
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Face Perception: Individual differences 1
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A132
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Modelling individual preferences reveals that face beauty is not universally perceived across cultures
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Zhan, Jiayu
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Egret
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Face Perception: Individual differences 1
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A133
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Go-/ no-go decisions based on gradually revealed visual information.
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Kuper, Clara
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A134
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Motor inhibition processes in Go/No-Go and Stop Signal Tasks: New insight from mouse tracking
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Benedetti, Viola
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A135
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Differential effects of positive and negative reward prediction error on saccade response time adaptation in a reversal learning visual stop-signal task
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Sajad, Amirsaman
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A136
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Decision-Making in Human Crowds: Nonlinear Competition Dynamics
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Wirth, Trenton D.
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A137
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Near-instantaneous choices in a tapping task
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Brenner, Eli
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A138
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Effects of visually masked numbers and lines on brain activity
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Zerweck, Iris A.
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A139
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Modeling associative motor learning through capacity-limited reinforcement learning
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Lerch, Rachel
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A140
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The Black Hole Illusion: Theory and Tests
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Jakicic, Victoria
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A141
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Mixed selectivity in macaque medial parietal cortex for gaze and motor parameters
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Vaccari, Francesco Edoardo
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A142
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Precise functional connections from the dorsal anterior cingulate cortex to the intuitive physics network in the human brain
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Navarro-Cebrian, Ana
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Egret
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Perception and Action: Decision making, models, neural mechanisms
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A143
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Decoding observed actions at the subordinate, basic and superordinate level
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Zhuang, Tonghe
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Egret
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Perception and Action: Action and body perception 1
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A144
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Emotional body language mediates activity in the macaque body patches
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Patterson, Amanda
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Egret
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Perception and Action: Action and body perception 1
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A145
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Revealing the architecture underlying the representation of observed actions - evidence from behavioral and fMRI studies
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Kabulska, Zuzanna
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Egret
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Perception and Action: Action and body perception 1
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A146
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Perceiving social events in a physical world
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Shu, Tianmin
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Egret
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Perception and Action: Action and body perception 1
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A147
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Seeing others’ intentions in autism
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Becchio, Cristina
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Egret
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Perception and Action: Action and body perception 1
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A148
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Individual differences in classification images of Mooney faces
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Canas-Bajo, Teresa
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Egret
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Face Perception: Individual differences 1
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B1
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The role of crowding in mental maze solving
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Semizer, Yelda
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Osprey
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Spatial Vision: Crowding
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B2
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More crowded, less numerous: Crowding reduces the number of perceived items in numerosity perception
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Li, Miao
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Osprey
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Spatial Vision: Crowding
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B3
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The role of transient attention on the inner-outer asymmetry of crowding
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Khalayly, Bahiya
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Osprey
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Spatial Vision: Crowding
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B4
|
Probability cuing uncovers object-based frames of reference in crowding
|
Rummens, Koen
|
Osprey
|
Spatial Vision: Crowding
|
|
B5
|
Does the training on a visual crowding task alter the population receptive field estimates?
|
Lin, Yih-Shiuan
|
Osprey
|
Spatial Vision: Crowding
|
|
B6
|
Simplifying the repeated crowding-distance test for normal and amblyopic children.
|
Haine, Louisa
|
Osprey
|
Spatial Vision: Crowding
|
|
B7
|
How crowding challenges (feedforward) convolutional neural networks
|
Lonnqvist, Ben
|
Osprey
|
Spatial Vision: Crowding
|
|
B8
|
Modulation of fixational eye movements during visual crowding
|
Prahalad, Krish
|
Osprey
|
Spatial Vision: Crowding
|
|
B10
|
The Energy-Normalized MAX Observer Approximates the Ideal Observer Under High-levels of Simultaneous Orientation and Scale Uncertainty in White Noise
|
Oluk, Can
|
Osprey
|
Spatial Vision: Models
|
|
B11
|
Consequences of Eye’s Optics and Geometry for Retinal Image Motion
|
Cox, Michele A.
|
Osprey
|
Spatial Vision: Models
|
|
B12
|
Visual Information Fidelity with better Vision Models and better Mutual Information Estimates
|
Malo, Jesus
|
Osprey
|
Spatial Vision: Models
|
|
B13
|
Contralateral delay activity and induced alpha power are modulated by memory load independently of stimulus eccentricity in a virtual reality setup
|
Klotzsche, Felix
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B14
|
Decoding visible and memorized stimulus features from neuronal ensembles in the prefrontal and visual cortices
|
Sapountzis, Panagiotis
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B15
|
Dissociating the impact of stimulus memorability and encoding success on EEG correlates of visual long-term memory encoding
|
Kolisnyk, Matthew
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B16
|
Dissociation between eye position and working memory signals during virtual reality tasks in the primate lateral prefrontal cortex
|
Roussy, Megan
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B17
|
Embracing New Techniques in Deep Learning for Predicting Image Memorability
|
Needell, Coen
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B18
|
Ruling out a role for oscillatory coupling of frontal theta and posterior alpha in visual long-term memory encoding
|
Zhao, Chong
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B19
|
Understanding how analysis choices are essential for the meaningful interpretation of visual working memory data
|
Iamshchinina, Polina
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B20
|
Working Memory and Prefrontal Neural Activity of Macaques in Early Adolescence
|
Zhu, Junda
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B21
|
Prefrontal gamma power and LFP tuning in working memory decrease during monkey adolescent development
|
Wang, Zhengyang
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B22
|
Distraction disrupts attentional filtering for visual working memory: Neural and behavioral evidence for the Filter Disruption Theory
|
Dube, Blaire
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B23
|
Sleep depth is represented in the early visual area: evidence from multivoxel pattern analysis
|
Yamada, Takashi
|
Osprey
|
Visual Memory: Neural mechanisms
|
|
B24
|
Attention to Absences
|
Morales, Jorge
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B25
|
Does mental imagery vividness predict memory performance?
|
Thorudottir, Sandra
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B26
|
Exploring individual differences in neuropsychological and visuospatial working memory task performance in aphantasia
|
Pounder, Zoe
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B27
|
Matter over mind: Effects of imagery and perceptual priming on visual attention
|
Liao, Ming-Ray
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B28
|
Parallel neural representation shared by visual perception and mental imagery
|
Huang, Yingying
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B29
|
Intuitive physics does not rely on visual imagery
|
Washington, Taylor
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B30
|
Drawing ability correlates with visual memory performance
|
Děchtěrenko, Filip
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B31
|
Drawings reveal accurate visual information in memory after just 100 ms of exposure
|
Greenberg, Rebecca
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B32
|
Effects of prior knowledge on memory for objects in real-world scenes: Schema violations benefit memory and metacognitive performance
|
Klever, Lena
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B33
|
Fast, fleeting, and memorable: The link between image memorability and the perception of time
|
Gedvila, Madeline
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B34
|
Scene grammar facilitates object-location binding in realistic scenes
|
Mikhalev, Nikita
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B35
|
Perception of soft materials relies on physics-based object representations: Behavioral and computational evidence
|
Bi, Wenyan
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B36
|
Seeing cloth-covered objects: A case study of intuitive physics in perception, attention, and memory
|
Wong, Kimberly W.
|
Osprey
|
Visual Memory: Imagery, drawing, scenes
|
|
B41
|
Pairing a visual stimulus with VTA micro-stimulation changes the response properties of posterior inferior temporal cortical neurons
|
Herpers, Jerome
|
Manatee
|
Plasticity and Learning 1
|
|
B42
|
Neural mechanisms underlying enhanced visual search performance in action video game players
|
Birch-Hurst, Kayley
|
Manatee
|
Plasticity and Learning 1
|
|
B43
|
Skipping breakfast changes visual processing: incretins contribution to short-term visual plasticity
|
Animali, Silvia
|
Manatee
|
Plasticity and Learning 1
|
|
B44
|
Sequence learning is surprisingly fragile in visual search
|
Toh, Yi Ni
|
Manatee
|
Plasticity and Learning 1
|
|
B45
|
Task-irrelevant perceptual learning of moving natural stimuli induces a bias away from the exposed movement direction
|
Marzoll, Andreas
|
Manatee
|
Plasticity and Learning 1
|
|
B46
|
Spatiotopic skew distortion adaptation with simultaneously present opposing stimuli
|
Sauer, Yannick
|
Manatee
|
Plasticity and Learning 1
|
|
B47
|
Recovering Spatial Structure in Spatio-Temporal Visual Statistical Learning
|
Garber, Dominik
|
Manatee
|
Plasticity and Learning 1
|
|
B48
|
Pupil dynamics signals visuo-spatial statistical learning
|
Nagy, Marton
|
Manatee
|
Plasticity and Learning 1
|
|
B49
|
Mutual information predicts the magnitude of categorical perception in a shape space
|
Feldman, Jacob
|
Manatee
|
Plasticity and Learning 1
|
|
B50
|
Replicating Synesthetic Stroop effects in Non-synesthetic Contexts
|
Zelazny, Aurore
|
Manatee
|
Plasticity and Learning 1
|
|
B51
|
Failure to account for extrinsic noise when integrating visual cues and prior information
|
Aston, Stacey
|
Manatee
|
Plasticity and Learning 1
|
|
B52
|
Common structure underlying visual and non-visual judgments of randomness
|
Reiner, Caroline
|
Manatee
|
Plasticity and Learning 1
|
|
B53
|
From fixation to fixational eye movements – microsaccades in perceptual learning
|
Hung, Shao-Chin
|
Manatee
|
Plasticity and Learning 1
|
|
B54
|
Visual field defects – correspondence of fMRI and subjective estimates
|
Prabhakaran, Gokulraj T
|
Manatee
|
Plasticity and Learning 1
|
|
B55
|
Chiasmal malformations dataset: a unique neuroimaging testbed
|
Puzniak, Robert J.
|
Manatee
|
Plasticity and Learning 1
|
|
B56
|
Broad and long-lasting vision improvements in youth with infantile nystagmus after home training with a perceptual learning app
|
Goossens, Jeroen
|
Manatee
|
Plasticity and Learning 1
|
|
B57
|
Mechanisms that stabilize visual perceptual learning differ in children and adults: Evidence from psychophysics and magnetic resonance spectroscopy
|
Frank, Sebastian
|
Manatee
|
Plasticity and Learning 1
|
|
B58
|
Perceptual learning with complex objects: A comparison between full-practice training and memory reactivation
|
Chen, Chiu-Yueh
|
Manatee
|
Plasticity and Learning 1
|
|
B59
|
Tracking moving objects with attention and working memory
|
Lukavský, Jiří
|
Manatee
|
Attention: Objects
|
|
B60
|
Visual sensitivity and reaction time measures show no evidence for purely exogenous object-based attention
|
Shurygina, Olga
|
Manatee
|
Attention: Objects
|
|
B61
|
Excess success in studies of object-based attention
|
Thunell, Evelina
|
Manatee
|
Attention: Objects
|
|
B62
|
Have a look - the role of covert attention shifts for object integration: Evidence from pupillometry.
|
Nowack, Leonie
|
Manatee
|
Attention: Objects
|
|
B63
|
Lapses in sustained attention predicted by changes in visually-guided movements
|
Moher, Jeff
|
Manatee
|
Attention: Inattention and lapses
|
|
B64
|
What we’ve been missing about what we’ve been missing: Above-chance sensitivity to inattentional blindness stimuli
|
Nartker, Makaela
|
Manatee
|
Attention: Inattention and lapses
|
|
B65
|
Attention Differentially Modulates Brief and Prolonged Inhibitions in Paracontrast Masking
|
Konyali, Afife
|
Manatee
|
Attention: Inattention and lapses
|
|
B66
|
Expected and unexpected distractors in the Eriksen flanker task
|
Bulger, Eli
|
Manatee
|
Attention: Inattention and lapses
|
|
B67
|
Meta-cognitive judgements of change detection predict change blindness
|
Barnas, Adam
|
Manatee
|
Attention: Inattention and lapses
|
|
B68
|
The role of emotional information in banner blindness
|
Sapronov, Frol
|
Manatee
|
Attention: Inattention and lapses
|
|
B69
|
Exploring the consistency of the affective consequences of cognitive-control for visual stimuli across tasks and individuals.
|
Clancy, Elizabeth
|
Manatee
|
Attention: Inattention and lapses
|
|
B70
|
Statistical regularity affects inattentional blindness
|
Chong, Ling Lee
|
Manatee
|
Attention: Inattention and lapses
|
|
B71
|
The Attentional Blink when viewing Natural vs. Urban Scenes
|
Eich, Brandon
|
Manatee
|
Attention: Inattention and lapses
|
|
B72
|
The Decisional Blink? Response criterion and the attentional blink paradigm.
|
Grubb, Michael A.
|
Manatee
|
Attention: Inattention and lapses
|
|
B81
|
Threshold versus Accumulator Frameworks of Manual Steering and Automation Takeover Initiation
|
Goodridge, Courtney Michael
|
Dolphin
|
Perception and Action: Navigation
|
|
B82
|
The coordination of gaze and steering behavior in drone-racing pilots during high-speed flight
|
Powell, Nathaniel V.
|
Dolphin
|
Perception and Action: Navigation
|
|
B83
|
Gaze distribution around footholds in rough terrain.
|
Panfili, Daniel
|
Dolphin
|
Perception and Action: Navigation
|
|
B84
|
The neighborhood of interaction in human crowds is explained by visual information
|
Warren, William
|
Dolphin
|
Perception and Action: Navigation
|
|
B85
|
Third-order Motion, Not First-order Motion, Is Used to Control Locomotion When Following a Crowd
|
Zhu, Zhenyu
|
Dolphin
|
Perception and Action: Navigation
|
|
B86
|
Visual Models of Collision Avoidance with Moving Obstacles
|
Bai, Jiuyang
|
Dolphin
|
Perception and Action: Navigation
|
|
B87
|
Walking speed and trunk sway: Influence of an approaching person's gait pattern on collision avoidance
|
Bourgaize, Sheryl
|
Dolphin
|
Perception and Action: Navigation
|
|
B88
|
Where do I go from here?: Spatial navigation strategy and disorientation when switching environments
|
Krzys, Karolina
|
Dolphin
|
Perception and Action: Navigation
|
|
B89
|
Modelling trajectories from choice reaching experiments through submovement decomposition
|
Heinke, Dietmar
|
Dolphin
|
Perception and Action: Reaching, pointing and grasping 1
|
|
B90
|
Motor adaptations for object size perception and grasping
|
Sanz Diez, Pablo
|
Dolphin
|
Perception and Action: Reaching, pointing and grasping 1
|
|
B91
|
Bimanual grasping adheres to Weber’s law
|
Giesel, Martin
|
Dolphin
|
Perception and Action: Reaching, pointing and grasping 1
|
|
B92
|
Further evidence that people do not rely on allocentric information to guide their movements when the target is visible
|
Crowe, Emily M.
|
Dolphin
|
Perception and Action: Reaching, pointing and grasping 1
|
|
B93
|
Prediction of visual target positions from movement kinematics
|
Bosco, Annalisa
|
Dolphin
|
Perception and Action: Reaching, pointing and grasping 1
|
|
B94
|
The effect of airflow on (visually induced) motion sickness during a simulated driving task
|
Igoshina, Elizaveta
|
Dolphin
|
Perception and Action: Virtual environments 1
|
|
B95
|
A Toolbox for Perception and Action Experiments Using the Vizard VR Platform
|
Schuetz, Immo
|
Dolphin
|
Perception and Action: Virtual environments 1
|
|
B96
|
Impact of development on spatial cue processing
|
Garobbio, Simona
|
Dolphin
|
Perception and Action: Virtual environments 1
|
|
B97
|
Integrating top-down and bottom-up attention control factors: an EEG study
|
Rashal, Einat
|
Dolphin
|
Attention: Neural
|
|
B98
|
Tuned normalization bandwidth is unaltered by attention
|
Klimova, Michaela
|
Dolphin
|
Attention: Neural
|
|
B99
|
Reduced learning of implicit expectations in behavior and early visual cortex responses in autism
|
Costa, Thiago Leiros
|
Dolphin
|
Attention: Neural
|
|
B100
|
Extracting Evidence for Neural Rhythms from Behavioral Measurements
|
Cha, Oakyoon
|
Dolphin
|
Attention: Neural
|
|
B101
|
Flaws in data binning for population receptive field analyses
|
Stoll, Susanne
|
Dolphin
|
Attention: Neural
|
|
B102
|
Lateralization of spontaneous alpha-band oscillations biases contrast perception
|
Balestrieri, Elio
|
Dolphin
|
Attention: Neural
|
|
B103
|
The N2pc Component Does Not Always Precede Eye Movements
|
Talcott, Travis N.
|
Dolphin
|
Attention: Neural
|
|
B104
|
TMS entrains occipital alpha activity: Individual alpha frequency predicts inter-trial phase coherence
|
Lin, Yong-Jun
|
Dolphin
|
Attention: Neural
|
|
B105
|
How are theories of consciousness empirically tested? The Consciousness Theories Studies (ConTraSt) database
|
Yaron, Itay
|
Dolphin
|
Attention: Neural
|
|
B106
|
Prevalence effects in two feature dimensions
|
Lyu, Wanyi
|
Dolphin
|
Attention: Spatial, features
|
|
B107
|
Long-term selection history persistently enhances and suppresses visual features
|
Addleman, Douglas
|
Dolphin
|
Attention: Spatial, features
|
|
B108
|
Feature Avoidance: A Result of Probabilistic Attentional Guidance
|
Narhi-Martinez, William
|
Dolphin
|
Attention: Spatial, features
|
|
B109
|
Peripheral Cues Can Repulse Unbound Features Closer to Fixation
|
Ceja, Cristina
|
Dolphin
|
Attention: Spatial, features
|
|
B110
|
Narrowing Down Spatial Attention Reduces Surround Suppression
|
Kınıklıoğlu, Merve
|
Dolphin
|
Attention: Spatial, features
|
|
B111
|
The role of attention and feature-space proximity in perceptual biases from serial dependence
|
Rafiei, Mohsen
|
Dolphin
|
Attention: Spatial, features
|
|
B112
|
Feature Competition Modulates the Profile of Feature-based Attention
|
Fang, Ming W.H.
|
Dolphin
|
Attention: Spatial, features
|
|
B121
|
Radial biases influence face identification in the periphery
|
Roux-Sibilon, Alexia
|
Egret
|
Face Perception 2
|
|
B122
|
Untangling human face identity based on horizontal information
|
Dumont, H
|
Egret
|
Face Perception 2
|
|
B123
|
Object Categorization and Response Bias Flexibly Change Depending on Cross-Spatial Scale Coherence and Task Demands
|
Santo, Miguel
|
Egret
|
Face Perception 2
|
|
B124
|
The role of the eye region for familiar face recognition: Event-related brain potentials reveal repetition priming for blur chimeras but not fully filtered faces.
|
Quinn, Bartholomew
|
Egret
|
Face Perception 2
|
|
B125
|
Face categories modulate the perceived proximity of faces
|
Galusca, Cristina I.
|
Egret
|
Face Perception 2
|
|
B126
|
Reading direction alters how faces are perceived
|
Hussain, Zahra
|
Egret
|
Face Perception 2
|
|
B127
|
Tracking Face learning: Understanding face familiarity in natural and laboratory settings.
|
Mileva, Viktoria R
|
Egret
|
Face Perception 2
|
|
B128
|
Confidence judgements for detecting and discriminating changes in emotional facial expressions
|
Bruno, Aurelio
|
Egret
|
Face Perception 2
|
|
B129
|
Happy centre, happy whole: Foveal vision determines the perceived emotion of face ensembles
|
Yu, Dandan
|
Egret
|
Face Perception 2
|
|
B130
|
Facial expressions of emotion include iconic signals of rejection and acceptance
|
Noelle, Jonas
|
Egret
|
Face Perception 2
|
|
B131
|
Social Trait Facial Expressions Comprise Latent Affective Facial Signals
|
Hensel, Laura B.
|
Egret
|
Face Perception 2
|
|
B132
|
The influence of emotion and empathy on gaze patterns when exploring controlled static and ecological dynamic faces
|
Coutrot, Antoine
|
Egret
|
Face Perception 2
|
|
B133
|
The Impact of Acute Diesel Exhaust Exposure on Executive Brain Function
|
Faherty, Thomas
|
Egret
|
Face Perception 2
|
|
B134
|
Synthetic faces: how perceptually convincing are they?
|
Nightingale, Sophie
|
Egret
|
Face Perception 2
|
|
B135
|
Brain networks dynamically represent and transfer behaviorally-relevant face and object features but quickly reduce them when they are behaviorally-irrelevant
|
Duan, Yaocong
|
Egret
|
Object Recognition: Dynamics
|
|
B136
|
Can MEG Source Localization Reveal the Time Course of Processing in the FFA, PPA, and EBA?
|
Lydic, Kirsten
|
Egret
|
Object Recognition: Dynamics
|
|
B137
|
Contributions of the early visual system to high-level visual distinctions
|
Kramer, Lily E.
|
Egret
|
Object Recognition: Dynamics
|
|
B138
|
Dynamic representation of information prediction in the brain
|
Yan, Yuening
|
Egret
|
Object Recognition: Dynamics
|
|
B139
|
From the lab into the wild: studying cognition with mobile EEG and augmented reality
|
Krugliak, Alexandra
|
Egret
|
Object Recognition: Dynamics
|
|
B140
|
Modeling feedback representations in ventral visual cortex using a generative adversarial autoencoder
|
Mohsenzadeh, Yalda
|
Egret
|
Object Recognition: Dynamics
|
|
B141
|
The dynamic relationship between neural category discrimination and perceptual behavior measured with iEEG across tasks
|
Boring, Matthew
|
Egret
|
Object Recognition: Dynamics
|
|
B142
|
Modelling local and global explanations for shape aftereffects with naturalistic novel stimuli
|
Morgenstern, Yaniv
|
Egret
|
Object Recognition: Dynamics
|
|
B143
|
Individual differences in attractive and repulsive context effects on shape categorization
|
Van Geert, Eline
|
Egret
|
Object Recognition: Dynamics
|
|
B144
|
Visual affects: Linking curiosity, Aha-Erlebnis, and memory through information gain
|
Damiano, Claudia
|
Egret
|
Object Recognition: Dynamics
|
|
B145
|
Eye and hand tracking during a complex task: Parsing a neuropsychological test in their subcomponents
|
Juantorena, Gustavo
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B146
|
Microsaccades before response initiation reflect angular errors in a manual peripheral localization task
|
Kosovicheva, Anna
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B147
|
The Dynamics of Perception and Action
|
Lappin, Joseph S
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B148
|
Updating across saccades depends on eccentricity and predictability
|
Stewart, Emma
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B149
|
A sensory race between oculomotor control areas for coordinating motor timing
|
Buonocore, Antimo
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B150
|
Anticipatory smooth eye movements adapt to higher-order probabilistic structure of the environment
|
Carneiro Morita, Vanessa
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B151
|
The role of knowledge of Newtonian mechanics in anticipatory smooth pursuit eye movements
|
Wang, Jie
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B152
|
Keep your eyes on the puck: Context information can induce predictive eye movements
|
Goettker, Alexander
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
B153
|
Are tracking eye movements driven by an internal model of target motion ?
|
Quinet, Julie
|
Egret
|
Eye Movements: Saccades, cognition, neural mechanisms
|
|
C1
|
Revealing Visual Information Use Through Random Sampling of Spatial Frequencies and Orientations
|
Gingras, Francis
|
Osprey
|
Face Perception: Features and configurations
|
|
C2
|
The Importance of Internal and External Features in Face Recognition
|
Latif, Menahal
|
Osprey
|
Face Perception: Features and configurations
|
|
C3
|
Interocular transfer of Flashed Face Distortion Effect
|
Gao, Yi
|
Osprey
|
Face Perception: Features and configurations
|
|
C4
|
The Effects of temporal rates on Flashed Face Distortion Effect and facial expression recognition
|
Miller, Kamilla
|
Osprey
|
Face Perception: Features and configurations
|
|
C6
|
I guess I just have one of those faces: The effect of similar intervening identities on familiarization
|
Koca, Yaren
|
Osprey
|
Face Perception: Features and configurations
|
|
C8
|
Face gender versus identity in visual search and divided attention
|
Lee, Samantha
|
Osprey
|
Face Perception: Features and configurations
|
|
C9
|
Opposing aftereffects are still measurable after a one-week delay
|
Foglia, Victoria
|
Osprey
|
Face Perception: Features and configurations
|
|
C10
|
Encoding specificity in face memory: Face masks harm long-term memory for faces, but wearing the same (unique) mask each time is best
|
Abovian, Ani
|
Osprey
|
Face Perception: Features and configurations
|
|
C11
|
Recognition of emotions is affected by face masks
|
McCrackin, Sarah
|
Osprey
|
Face Perception: Features and configurations
|
|
C12
|
Perceptual factors underlie the underestimation bias in pain perception of black and white faces
|
Plouffe-Demers, Marie-Pier
|
Osprey
|
Face Perception: Features and configurations
|
|
C13
|
Visualizing Androgynous Faces Using Reverse Correlation
|
Greenberg, Leigh
|
Osprey
|
Face Perception: Features and configurations
|
|
C14
|
Training on groups of similar faces decreases similarity both within and between groups
|
Liu, Xinyu
|
Osprey
|
Face Perception: Individual differences 2
|
|
C15
|
Face dominance modulates the perceived face size: converging evidence from three countries
|
Fang, Wei
|
Osprey
|
Face Perception: Individual differences 2
|
|
C16
|
Impact of sustained lifetime exposure to a racially-heterogenous face-diet
|
Mousavi, Seyed Morteza
|
Osprey
|
Face Perception: Individual differences 2
|
|
C17
|
The preferred fixation location on the face modulates the locus of the Composite Face Effect
|
Chakravarthula, Puneeth
|
Osprey
|
Face Perception: Individual differences 2
|
|
C18
|
Looking-at-nothing: an ocular motor index of face recognition in control subjects and developmental prosopagnosics
|
Albonico, Andrea
|
Osprey
|
Face Perception: Individual differences 2
|
|
C19
|
Social motivation in autism and developmental prosopagnosia
|
Kamensek, Todd
|
Osprey
|
Face Perception: Individual differences 2
|
|
C21
|
Individual differences in the spatial localization of upright versus inverted faces
|
Wang, Zixuan
|
Osprey
|
Face Perception: Individual differences 2
|
|
C41
|
Neural edge integration model with different weights for positive and negative luminance steps explains lightness scaling in the Staircase Gelb effect
|
Rudd, Michael
|
Manatee
|
Color, Light and Material: Lightness and brightness
|
|
C42
|
A history and modular future of multiscale spatial filtering models
|
Vincent, Joris
|
Manatee
|
Color, Light and Material: Lightness and brightness
|
|
C43
|
Luminance dictates arousal-based pupil modulation
|
Pan, Jasmine
|
Manatee
|
Color, Light and Material: Lightness and brightness
|
|
C44
|
Measurement of the omitted-stimulus response within the retina
|
Fradkin, Samantha I
|
Manatee
|
Color, Light and Material: Lightness and brightness
|
|
C45
|
Color similarities assessed by phase matching
|
Lee, Kassandra R.
|
Manatee
|
Color, Light and Material: Color 1
|
|
C46
|
The Temporal Clocking Rates of Where (Dorsal) and What (Ventral) Visual Systems: Measurement of Motion and Color-Hue Direction Thresholds
|
Krynen, R. Chandler
|
Manatee
|
Color, Light and Material: Color 1
|
|
C47
|
Can variations in luminance sensitivity predict variations in the cardinal color directions?
|
Richardson, Alex
|
Manatee
|
Color, Light and Material: Color 1
|
|
C48
|
Rayleigh Matching With Multiple Reference Wavelengths Improves Estimation of L and M Photopigment Lambda Max and Optical Density
|
Elul, Deena C.
|
Manatee
|
Color, Light and Material: Color 1
|
|
C49
|
Modeling the Effect of Aging on Equiluminance Settings
|
He, Jingyi
|
Manatee
|
Color, Light and Material: Color 1
|
|
C50
|
Warm vs. cool colors and their relation to cone-opponent and perceptual-opponent dimensions
|
Fite, Derartu
|
Manatee
|
Color, Light and Material: Color 1
|
|
C51
|
Anomalous color vision and wide gamut LED lighting
|
Joyce, Daniel S.
|
Manatee
|
Color, Light and Material: Color 1
|
|
C52
|
High-resolution functional MRI responses to chromatic and achromatic stimuli in V1 and V2
|
Navarro, Karen T.
|
Manatee
|
Color, Light and Material: Color 1
|
|
C53
|
More of what: does the dark-is-more bias for colormap data visualizations operate on numeric or conceptual magnitude?
|
Soto, Alexis V.
|
Manatee
|
Color, Light and Material: Cognition and preference 1
|
|
C54
|
Political party affiliation alters implicit color processing as measured by attentional filtering of distractors
|
Dishak, Souriyo
|
Manatee
|
Color, Light and Material: Cognition and preference 1
|
|
C55
|
Investigating coloration as an emotion expressive cue for social robots
|
Thorstenson, Christopher
|
Manatee
|
Color, Light and Material: Cognition and preference 1
|
|
C56
|
Ensemble Perception: Asymmetrical Relationships between Mean, Variability, and Numerosity
|
Witt, Jessica
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C57
|
Ensemble Perception: Perceivers Overestimate Variability by 50-200%
|
Warden, Amelia C.
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C58
|
Image- and Task-Based Contributions to Human Object Localization in Natural Scenes
|
Flowers, Colin S.
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C59
|
Oculomotor strategies do not vary under increasing levels of cognitive demand
|
Walter, Kerri
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C60
|
Meaning guides clicks like fixations and drives memory for real-world scenes
|
Cronin, Deborah
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C61
|
Scene Inversion Interferes with Meaning-based Guidance in Real-world Scenes
|
Hayes, Taylor
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C62
|
Effects of phonological and visual-spatial working memory load on Boundary Extension.
|
Gottesman, Carmela
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C63
|
Visual penetration through structured occluders
|
Yu, Ru Qi
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C64
|
Where to draw the line?
|
Walther, Dirk B.
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C65
|
Tangled Physics: Knots as a challenge for physical scene understanding
|
Croom, Sholei
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C66
|
Selective processing of social interactions during naturalistic movie viewing
|
Lee Masson, Haemy
|
Manatee
|
Scene Perception: Cognitive processes 1
|
|
C81
|
Attentional dynamics during multiple object tracking are explained at subsecond resolution by a new 'hypothesis-driven adaptive computation' framework
|
Belledonne, Mario
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C82
|
Behavioral benefits of spatial attention explained by multiplicative gain, not receptive field shifts, in a neural network model.
|
Fox, Kai
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C83
|
Investigating the Role of Cognitive Control in Aesthetic Judgments
|
Bara, Ionela
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C84
|
Hemifield effects on divided attention for dual tasks with visual objects
|
Popovkina, Dina
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C85
|
Inopportune Warning Cues Benefit Only Some Participants in a Poser Cueing Task
|
Crouse, Monique
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C86
|
Effects of task-relevant, and -irrelevant competition on attentional cuing and visual search
|
Kim, Cheol Hwan
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C87
|
Neural Correlates of Object-Based Attention in Early Visual Cortex in a 100% Valid Exogenous Cuing Task
|
Lytchenko, Taissa K.
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C88
|
Neural reconstructions of task-relevant and irrelevant features of attended objects
|
Chen, Jiageng
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C89
|
Frontal-plane distance judgments between two equal-size items are made on the basis of a salience map
|
Gan, Lingyu
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C90
|
Quantifying the effects of feature similarity on attentional selection using psychophysical scaling
|
Chapman, Angus
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C91
|
An improved method for evaluating inverted encoding models
|
Scotti, Paul S
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C92
|
Successfully withholding attention shifts is strongly modulated by shift/hold cue ratio
|
Elliott, Lauren
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C93
|
Both cue directionality and mental perspective contribute to social attention
|
Mayrand, Florence
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C94
|
Examining External and Internal Attentional Breadths
|
Lim, Y. Isabella
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C95
|
Gazing to look vs. gazing to think: Gaze cueing is modulated by the perception of others' external vs. internal attention
|
Colombatto, Clara
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C96
|
Comparing Human and AI Attention in Visuomotor Tasks
|
Zhang, Ruohan
|
Dolphin
|
Attention: Divided, models, objects and cues
|
|
C97
|
Stereopsis and Distance Representation for Action in Pictorial Space
|
Aubuchon, Celine
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C98
|
Binocular contrast perception of gratings, noise, and natural images
|
Wang, Minqi
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C99
|
Differences in contrast tuning for absolute and relative disparity channels
|
Kaestner, Milena
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C100
|
Vergence accuracy and precision are degraded by fusion lock eccentricity
|
Lo Verde, Luca
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C101
|
The impact of spherical defocus on diplopia and vergence
|
Mestre, Clara
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C102
|
Predicting residual stereopsis in macular degeneration
|
Verghese, Preeti
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C103
|
A Revolutionary Method of Infant Acuity Measurement
|
Hytowitz, Allan
|
Dolphin
|
Binocular Vision: Stereopsis
|
|
C121
|
Transfer of Attentional Sharpening Across Contexts is Stimulus-Specific
|
Williams, Ryan
|
Egret
|
Visual Search: Attention, individual differences
|
|
C122
|
Increasing target template precision decreases distractor recognition in hybrid search
|
Murdock, Ryan J.
|
Egret
|
Visual Search: Attention, individual differences
|
|
C123
|
Generalization of attentional control strategies across distinct tasks
|
Li, Walden Y.
|
Egret
|
Visual Search: Attention, individual differences
|
|
C124
|
Quantifying distraction in a visual search task
|
Teodorescu, Daniela
|
Egret
|
Visual Search: Attention, individual differences
|
|
C125
|
Transitions in daylight saving time negatively affect visual search performance
|
Nag, Samoni
|
Egret
|
Visual Search: Attention, individual differences
|
|
C126
|
Visual search dynamics in amblyopic adults
|
Ramesh, Priyanka V.
|
Egret
|
Visual Search: Attention, individual differences
|
|
C127
|
You are the type of searcher you are instructed to be: The impact of task instructions on search in the absence of feedback
|
Cox, Patrick H.
|
Egret
|
Visual Search: Attention, individual differences
|
|
C128
|
Selective attention bias between the eyes in adults with amblyopia
|
Hou, Chuan
|
Egret
|
Visual Search: Attention, individual differences
|
|
C129
|
Bilingual Non-Selective Activation Modulates Attention During Visual Object Search
|
Vingron, Naomi
|
Egret
|
Visual Search: Attention, individual differences
|
|
C130
|
Learning to identify visual signals of intentionality
|
Ji, Mohan
|
Egret
|
Visual Search: Attention, individual differences
|
|
C131
|
A General Model for Medical Stimuli Synthesis
|
Ren, Zhihang
|
Egret
|
Visual Search: Attention, individual differences
|
|
C132
|
Missing what is right in front of our eyes
|
Wolfe, Jeremy M
|
Egret
|
Visual Search: Attention, individual differences
|
|
C133
|
Guiding search in 3D volumes with 2D synthesized images
|
Klein, Devi S.
|
Egret
|
Visual Search: Attention, individual differences
|
|
C134
|
How does a 2D preview help a 3D search? – An eye tracking study of Digital Breast Tomosynthesis
|
Wu, Chia-Chien
|
Egret
|
Visual Search: Attention, individual differences
|
|
C135
|
Does feature priming guide your whole visual search?
|
Suresh, Sneha B
|
Egret
|
Visual Search: Attention, individual differences
|
|
C136
|
How Do Expectations of the Upcoming Search Difficulty Alter Search Performance?
|
Paquette, Natalie A
|
Egret
|
Visual Search: Attention, individual differences
|
|
D1
|
Differential Patterns of Activation and Deactivation among Brain Regions Selective for Face and Scene Processing
|
Peng, Vivian T.-Y.
|
Osprey
|
Face Perception 1
|
|
D2
|
Modulating Activation of Brain Regions Selective for Face and Scene Processing: The Effects of Attentional Orienting
|
Shyi, Gary C.-W.
|
Osprey
|
Face Perception 1
|
|
D3
|
Brain activity reflecting social values associated with faces during binocular rivalry
|
Whang, Soo Young
|
Osprey
|
Face Perception 1
|
|
D4
|
Individual differences in susceptibility to temporal contextual cues during classification of facial expressions
|
Hussain Ismail, Ahamed Miflah
|
Osprey
|
Face Perception 1
|
|
D5
|
The Subjective Duration of Looming and Receding Emotional Faces
|
Min, Yeji
|
Osprey
|
Face Perception 1
|
|
D6
|
Pattern completion of object-level information in classification images of Mooney faces
|
Gauper, Aidan
|
Osprey
|
Face Perception 1
|
|
D7
|
The Effect of Image Variability on Matching Unfamiliar Own and Other-Race Faces
|
Mugavin, Samantha
|
Osprey
|
Face Perception 1
|
|
D8
|
Racial ambiguity impairs holistic face processing
|
Yan, Linlin
|
Osprey
|
Face Perception 1
|
|
D9
|
Upper visual field bias for face detection in infants
|
Tsurumi, Shuma
|
Osprey
|
Face Perception 1
|
|
D10
|
The effects of gaze and head orientation on the speed of face categorization during RSVP
|
Or, Charles C.-F.
|
Osprey
|
Face Perception 1
|
|
D11
|
The relationship between facial ensemble representations
|
Kwon, Dasom
|
Osprey
|
Face Perception 1
|
|
D12
|
Direct gaze detection advantage is independent from normal face/eyes configuration
|
Wang, Haozhe
|
Osprey
|
Face Perception 1
|
|
D13
|
Follow Because of Trust: Trust Modulates the Gaze Cueing Effect
|
Shengyuan, Wang
|
Osprey
|
Face Perception 1
|
|
D14
|
Vitality makes dynamic faces more attractive than static faces
|
Zheng, Ruoying
|
Osprey
|
Face Perception 1
|
|
D15
|
The effects of stimulus onset and offset asynchrony on audiovisual temporal recalibration
|
Wang, Yaru
|
Osprey
|
Multisensory Processing 1
|
|
D16
|
Audiovisual Spatial Congruency Modulates Perceptual and Metacognitive Components of Sound-induced Flash Illusion
|
Chen, Yi-Chuan
|
Osprey
|
Multisensory Processing 1
|
|
D17
|
Multi-modal representation of the size of space in the human brain
|
Lee, Jaeeun
|
Osprey
|
Multisensory Processing 1
|
|
D18
|
Origins of the Kiki-Bouba effect
|
Passi, Ananya
|
Osprey
|
Multisensory Processing 1
|
|
D19
|
The association between audio-visual spatial integration and hallucinations in Schizophrenia
|
Lee, Hyunseok
|
Osprey
|
Multisensory Processing 1
|
|
D20
|
The Asymmetric Switch Cost between Subitizing and Estimation in Tactile Modality
|
Lou, Chunmiao
|
Osprey
|
Multisensory Processing 1
|
|
D21
|
Illusory body ownership of dynamic invisible body is not associated with multimodal changes in body perception
|
Tanino, Fumiya
|
Osprey
|
Multisensory Processing 1
|
|
D41
|
Blue light impairment on the speed of exogenous attention shift
|
Yang, Chien-Chun
|
Manatee
|
Color, Light and Material
|
|
D42
|
Difference analysis of visual brain response between natural light and traditional LED based on steady-state visual evoked potential (SSVEP) paradigm stimulation
|
Tian, Peiyuan
|
Manatee
|
Color, Light and Material
|
|
D43
|
In search of early cortical mechanisms for color: individual variability in steady-state VEP amplitudes for hues sweeping around the isoluminant LM and S cone-opponent plane
|
Kaneko, Sae
|
Manatee
|
Color, Light and Material
|
|
D44
|
The development of hue selectivity in human visual cortex
|
Yang, Jiale
|
Manatee
|
Color, Light and Material
|
|
D45
|
Comparison of fMRI Experimental Paradigm for Decoding Color Constancy
|
Kuang, Mei
|
Manatee
|
Color, Light and Material
|
|
D46
|
Effects of the surface-undulation spatial frequency on perceptual highlight removal for lightness perception.
|
Nohira, Hiroki
|
Manatee
|
Color, Light and Material
|
|
D47
|
What factors determine the effects of color on perceived gloss? -Helmholtz-Kohlrausch effect vs highlight-shading color contrast-
|
Koizumi, Kazuto
|
Manatee
|
Color, Light and Material
|
|
D48
|
Temporal characteristics of the Craik–O’Brien–Cornsweet effect as revealed by high-speed motion correspondence
|
Yokosuka, Saki
|
Manatee
|
Color, Light and Material
|
|
D49
|
Comparison of Asian countries on the brightness perception of facial skin influenced by skin hue
|
He, Yuanyuan Haley
|
Manatee
|
Color, Light and Material
|
|
D50
|
Color and Emotion Associations in Dravidian Culture.
|
Shiva Ram, Male
|
Manatee
|
Color, Light and Material
|
|
D51
|
Painterly depictions of glasses display a stylized pattern of highlights
|
Van Zuijlen, Mitchell J.P.
|
Manatee
|
Color, Light and Material
|
|
D52
|
Inhibiting saccades to hands: High-level visual processes modulate oculomotor control
|
Chen, Hsinyuan
|
Manatee
|
Eye movements
|
|
D53
|
Does the difference in cranial current path change the torsional impression and behavior Galvanic Vestibular Stimulation?
|
Hara, Akiyoshi
|
Manatee
|
Eye movements
|
|
D54
|
The mind’s eye: mind-wandering revealed by eye movement hidden Markov model
|
Chen, Zih-Ling
|
Manatee
|
Eye movements
|
|
D55
|
Differentiating luminance, arousal, and cognitive signals on pupil size and microsaccades
|
Wang, Chin-An Josh
|
Manatee
|
Eye movements
|
|
D81
|
Exploring and explaining properties of motion processing in biological brains using a neural network
|
Rideaux, Reuben
|
Dolphin
|
Motion Perception 1
|
|
D82
|
Dynamic presentation boosts the Ebbinghaus illusion but eliminates simultaneous contrast and Muller-lyer
|
Takao, Saki
|
Dolphin
|
Motion Perception 1
|
|
D83
|
A motion-energy-based optimization method for generating an image sequence causing four-stroke apparent motion illusion
|
Kawabe, Takahiro
|
Dolphin
|
Motion Perception 1
|
|
D84
|
Adaptation to an illusory aspect ratio distorted by motion patches in a deformation vector field
|
Nakada, Hoko
|
Dolphin
|
Motion Perception 1
|
|
D85
|
The flash grab effect into the blind spot
|
Murakami, Ikuya
|
Dolphin
|
Motion Perception 1
|
|
D87
|
Metacognitive adaptation revealed in serial dependence of visual confidence judgments
|
Ng, Leo C. H.
|
Dolphin
|
Motion Perception 1
|
|
D88
|
The effect of high fps on vision in visual presentation under active motion
|
Furukawa, Masahiro
|
Dolphin
|
Motion Perception 1
|
|
D89
|
Differences in virtual and physical head orientation predict sickness during head-mounted display based virtual reality
|
Palmisano, Stephen
|
Dolphin
|
Motion Perception 1
|
|
D90
|
Creation of a new vection total index calculated by new individual models of latency, duration and magnitude of vection.
|
Iida, Ryo
|
Dolphin
|
Motion Perception 1
|
|
D91
|
Comparison of the features of visual vection with those of cutaneous vection
|
Murata, Kayoko
|
Dolphin
|
Motion Perception 1
|
|
D92
|
Stimulus meaning can alter vection strength
|
Jiang, Moyou
|
Dolphin
|
Motion Perception 1
|
|
D93
|
Subjective colorfulness and preferred color facilitate vection.
|
Yu, Lu
|
Dolphin
|
Motion Perception 1
|
|
D94
|
A picture book that causes vection and that ratings.
|
Aoki, Takuya
|
Dolphin
|
Motion Perception 1
|
|
D95
|
Three vection studies from a view point of multimedia
|
Na, Hua
|
Dolphin
|
Motion Perception 1
|
|
D96
|
Correlation analyses between various aspects of human life and vection strength
|
Seno, Takeharu
|
Dolphin
|
Motion Perception 1
|
|
D97
|
Four-dimensional energy spectrum model of natural texture perception
|
Okada, Kosuke
|
Dolphin
|
Spatial and Temporal Vision
|
|
D98
|
A computational model to predict the visibility of alpha-blended images
|
Fukiage, Taiki
|
Dolphin
|
Spatial and Temporal Vision
|
|
D99
|
White matter microstructural properties in glaucoma: multi-contrast magnetic resonance imaging study
|
Ogawa, Shumpei
|
Dolphin
|
Spatial and Temporal Vision
|
|
D101
|
Temporal synchrony accompany with structure cue is more effective in the segmentation task
|
Chen, Yen-Ju
|
Dolphin
|
Spatial and Temporal Vision
|
|
D102
|
Temporal characteristics of bandpass noise that cause visual unpleasantness
|
Ogawa, Narumi
|
Dolphin
|
Spatial and Temporal Vision
|
|
D103
|
Averaging performances of orientations decrease in proportion to depth increase
|
Takebayashi, Hikari
|
Dolphin
|
Spatial and Temporal Vision
|
|
UG-A1
|
Familiar Size Reliably Affects Size and Distance Perception in High-Resolution Virtual Reality
|
Hussey, Kieran
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A2
|
Perceived visual similarity between scenes influences behavioural discrimination in an observer-specific manner
|
Sharma, Pratishtha
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A3
|
Perceptual Comparisons Induce Varying Forms of Memory Updating
|
Babiy, Zoryana
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A4
|
Prevalence effects on the road: Rare hazards are often missed
|
Kanda, Simran
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A5
|
Sleep Quality and its Links to Attention
|
Steinkrauss, Ashley C
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A6
|
Sound-induced Flash Illusion in Forced-choice and Go/No-Go Tasks
|
Wooten-Soto, Gabriel J
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A7
|
Strategy instruction boosts visual search optimality but such improvements transfer poorly to similar tasks
|
Khandelwal, Vaibhav
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A8
|
The effect of auditory feedback on perceptual and oculomotor performance in a gaze-contingent simulated scotoma paradigm
|
Costa, Katherine
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A9
|
Using Functional Near-Infrared Spectroscopy for the Study of Visually Guided Hand Actions
|
Vahidi, Homa
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A10
|
Discomfort from Contemporary Art: Contribution of Color
|
Ross, Xortia
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A11
|
Emotion recognition of perceived genuine or posed expressions using web-based eye tracking
|
Altair, Tahirih
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A12
|
Evaluating faces and bodies: Does body information influence face perception?
|
Forner, Katelyn
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A13
|
Investigating the Effects of Orthography, Neighborhood Density, and Frequency on Single Word Recognition in a Visual Search Task
|
Longpre, Olivia
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A14
|
Investigating the Time Course of Face Perception Using Web-based Eye Tracking
|
vanWell, Amy
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A15
|
Monocular Deprivation: Ocular balance shift or mere contrast adaptation?
|
Lo, Sharon C. Y.
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A16
|
No evidence for gender and cultural differences in eye movements – a meta-analysis
|
Hood, Charlotte
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A17
|
Postural and kinematic contributions to expertise identification in yoga
|
Baia, Sophia
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A18
|
Preference of Facial Attractiveness is ‘heritable’ within the Family
|
zhou, Yan
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A19
|
Real World Objects in the Attentional Blink
|
Zhang, Xinran
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A20
|
Serial dependence in biological motion perception
|
Li, Yongqi
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A21
|
The neural correlates of sensory eye dominance as revealed by visual white matter tract properties
|
Chan, Ailene Y. C.
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A22
|
Visual Communication of Object Concepts at Different Levels of Abstraction
|
Yang, Justin
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
UG-A23
|
Navigating distractors in the new normal world: An investigation of selective attention and social facilitation in the online environment
|
Dave, Karishma
|
Flamingo
|
Undergraduate Just-In-Time Posters 1
|
|
E1
|
Category labels do not improve working memory performance for ambiguous shapes
|
Williams, Lauren
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E2
|
Interactions between items within working memory overpower biases from recent history and long-term category priors
|
DeStefano, Isabella
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E3
|
Visual working memory and long-term memory attentional control settings: Can we maintain both simultaneously?
|
Plater, Lindsay
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E4
|
Explicit Perceptual Comparisons Modulate Memory Biases Induced by Overlapping Visual Input
|
Saito, Joseph M.
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E5
|
Saccades disrupt attentional filtering for visual working memory
|
Bao, Jacqueline
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E6
|
Tracing the emergence of stimulus memorability
|
Gillies, Greer
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E7
|
Pre-existing semantic associations contribute to memorability of visual changes in a scene
|
Xie, Weizhen
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E8
|
The Impact of Multisensory Perception on Incidental Visual Memory
|
Duarte, Shea E.
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E9
|
Capacity and Allocation across Sensory and Short-Term Memories
|
Wang, Shaoying
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E10
|
Chunking is not all-or-none: hierarchical representations preserve perceptual detail within chunks
|
Brady, Timothy
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E11
|
The Depth of Executive Control: Investigating Working Memory, Inhibitory Control and Selective Attention in Multiple Depth Planes
|
Sarno, Dawn
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E12
|
Reconstructing physical representations of block towers in visual working memory
|
Uddenberg, Stefan
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E13
|
Disjunctive strategies for tracking occluded objects in visual working memory in children and adults
|
Cheng, Chen
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E14
|
Cognitive control is related to spatial memory biases in adults
|
Jacoby, Morgan
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E15
|
Visual event boundaries eliminate anchoring effects: A case study in the power of visual perception to influence decision-making
|
Ongchoco, Joan Danielle K.
|
Osprey
|
Visual Memory: Working, long-term 2
|
|
E16
|
Spatial Heterogeneity of Biological Motion Perception
|
Pu, Kyle Z
|
Osprey
|
Perception and Action: Action and body perception 2
|
|
E17
|
Aesthetic experience is influenced by causality in biological movements
|
Chen, Yi-Chia
|
Osprey
|
Perception and Action: Action and body perception 2
|
|
E18
|
Shared and distinct neural representations of human-agent actions and inanimate events
|
Akbiyik, Seda
|
Osprey
|
Perception and Action: Action and body perception 2
|
|
E19
|
A data-driven investigation of human action representations
|
Dima, Diana C
|
Osprey
|
Perception and Action: Action and body perception 2
|
|
E41
|
Modeling visual estimation of the centers of symmetric distributions
|
Ota, Keiji
|
Manatee
|
Perceptual Organization 2
|
|
E42
|
The figural shape of 3D concave regions activates temporopolar cortex
|
Cate, Anthony
|
Manatee
|
Perceptual Organization 2
|
|
E43
|
Relative surface area biases figure-ground reversibility in abstract images
|
Kroeger, Jonathan K.
|
Manatee
|
Perceptual Organization 2
|
|
E44
|
Do Semantic Expectations Influence Object Detection? A Stringent test using figure assignment responses
|
Skocypec, Rachel M.
|
Manatee
|
Perceptual Organization 2
|
|
E45
|
On the hole, interpretations of Venn diagrams are influenced by perceptual organization
|
Bartel, Anna
|
Manatee
|
Perceptual Organization 2
|
|
E46
|
Visual Salience and Grouping Cues Guide Relation Perception in Visual Data Displays
|
Xiong, Cindy
|
Manatee
|
Perceptual Organization 2
|
|
E47
|
The Bar-Tip Limit Error: a Common, Qualitative Misinterpretation of Bar Graphs of Means Revealed by the DDoG Method
|
Kerns, Sarah
|
Manatee
|
Perceptual Organization 2
|
|
E48
|
Correlation perception in scatterplots is invariant to dot size
|
Ip, Jessica
|
Manatee
|
Perceptual Organization 2
|
|
E49
|
Physical event representations: Observers spontaneously impose discrete temporal structure in intuitive physical scene understanding
|
Yasuda, Shannon
|
Manatee
|
Perceptual Organization 2
|
|
E50
|
Contextual modulations in high-level vision are partly accounted for by low-level mechanisms
|
Canoluk, Mehmet Umut
|
Manatee
|
Perceptual Organization 2
|
|
E51
|
Cortical magnification analysis of shape adaptation reveals early curvature coding mechanisms
|
Nisar, Irfa
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E52
|
Early Visual Cortex Reflects Object-Based Perceptual Warping
|
Gurariy, Gennadiy
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E53
|
Representational similarity analysis of 7T fMRI data suggests disorganized contour processing in psychosis
|
Kamath, Rohit S.
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E54
|
Independent Mechanisms for Processing Local Contour Features and Global Shape
|
Kellman, Philip
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E55
|
Aging and the perception of texture-defined form
|
Norman, J. Farley
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E56
|
Boundary segmentation from luminance and texture cues: Underlying mechanisms
|
DiMattina, Christopher
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E57
|
Spatial and chromatic properties of numerosity estimation in context
|
Gheorghiu, Elena
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E58
|
The Channel Between Perception and Cognition Is Perfect: The JND Does Not Exist
|
Sanford, Emily
|
Manatee
|
Perceptual Organization: Contours and shape
|
|
E59
|
Additive contrast strengths model of perceived motion direction of equal-spatial-frequency plaids
|
Sun, Peng
|
Manatee
|
Motion Perception: Models and neural mechanisms
|
|
E60
|
Neural coding for the illusion of direction repulsion of transparently moving stimuli
|
Wiesner, Steven
|
Manatee
|
Motion Perception: Models and neural mechanisms
|
|
E61
|
Adaptive Trade-off between Sensitivity and Spatial Resolution and its Implications for Motion Discrimination and Segregation
|
Penaloza, Boris
|
Manatee
|
Motion Perception: Models and neural mechanisms
|
|
E62
|
How are objects represented during dynamic occlusion?
|
Teichmann, Lina
|
Manatee
|
Motion Perception: Models and neural mechanisms
|
|
E63
|
The Barber-Pole illusion and the peripheral motion processing of line-ends
|
Braham Chaouche, Asma
|
Manatee
|
Motion Perception: Models and neural mechanisms
|
|
E64
|
Psychophysically estimated low-speed prior expectations match the encoding characteristics of neurons in area MT
|
Zhang, Ling-Qi
|
Manatee
|
Motion Perception: Models and neural mechanisms
|
|
E81
|
The efficiency of visual search for a frequently-changed target is preserved in older adults
|
Goodhew, Stephanie C.
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E82
|
Mechanisms of covert spatial attention in encoding letter combinations
|
Ramamurthy, Mahalakshmi
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E83
|
Drift Diffusion Modeling of Intentional and Incidental Temporal Selection of Behaviorally Relevant Moments
|
Turker, Hamid
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E84
|
The spatial distribution of exogenous attention within and across hemifields
|
Chung, Yong Hoon
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E85
|
Exogenous Shifts of Spatial Attention Operate at a Finer Resolution than Endogenous Shifts
|
Reynolds, Chris
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E86
|
How exogenous and endogenous attention affect the vertical meridian asymmetry across spatial frequency and eccentricity
|
Jigo, Michael
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E87
|
Differential effects of endogenous and exogenous attention on sensory tuning
|
Fernandez, Antonio
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E88
|
Web-Based Assessment of Visuospatial Processing Speed Across the Lifespan
|
Fortenbaugh, Francesca
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E89
|
Effects of Age are Not Uniform Across Cognitive Processes: A Repeated-measures ERP Study
|
Reed, Catherine
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E90
|
Hemianopic field loss and change blindness in simulated driving
|
Swan, Garrett
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E91
|
Individual Differences in Objective and Subjective Socioeconomic Status, and the N2pc
|
Couperus, Jane
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E92
|
Improving left visual field attention in right unilateral stroke patients
|
Edwards, Grace
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E93
|
Depth-specific IOR effect when attention shifts from far to near space relative to viewer
|
Haponenko, Hanna
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E94
|
The Impact of Image Contrast, Blur, and Presentation Pattern on Visual Sustained Attention
|
Brau, Julia M.
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E95
|
The Role of Kinematic Properties in Multiple Object Tracking
|
Wang, Yang
|
Dolphin
|
Attention: Individual differences, spatiotemporal
|
|
E96
|
Exposure to congruent or incongruent audiovisual stimuli modulates observers’ prior about a common cause for vision and audition
|
Hong, Fangfang
|
Dolphin
|
Multisensory Processing 2
|
|
E97
|
Occlusion of dynamic objects influences visual expectations of ensuing sounds
|
Marin, Andrew
|
Dolphin
|
Multisensory Processing 2
|
|
E98
|
Spatial and feature tuning of serial dependence in audiovisual timing perception
|
Murai, Yuki
|
Dolphin
|
Multisensory Processing 2
|
|
E99
|
Primary visual cortex is activated by spoken language comprehension
|
Seydell-Greenwald, Anna
|
Dolphin
|
Multisensory Processing 2
|
|
E100
|
Visual Cues Reduce Spatial Uncertainty in Multi-Talker Situations
|
Xiong, Ying-Zi
|
Dolphin
|
Multisensory Processing 2
|
|
E101
|
Visual experience modulates sensitivity to statistics of reverberation
|
Garcia-Lazaro, Haydee
|
Dolphin
|
Multisensory Processing 2
|
|
E102
|
Influences of posture on gravity perception in the audiovisual bounce inducing effect
|
Brannick, Sydney M.
|
Dolphin
|
Multisensory Processing 2
|
|
E103
|
Online vs. In-Person Investigations of Multisensory Motion Perception
|
Soma Tsutsuse, Kayla
|
Dolphin
|
Multisensory Processing 2
|
|
E104
|
Visual-Emotional Association with Vowel Phonemes: Support of the Gleam-Glum Effect when Paired with Visual Imagery
|
McBeath, Michael K.
|
Dolphin
|
Multisensory Processing 2
|
|
E105
|
The feeling of "kiki": select tactile exposure or visual imagery can enhance abstract audio-tactile crossmodal correspondences, the bouba/kiki effect, early in development
|
Ciaramitaro, Vivian
|
Dolphin
|
Multisensory Processing 2
|
|
E106
|
Does color change the identification of color-flavor pairs?
|
Shavit, Adam
|
Dolphin
|
Multisensory Processing 2
|
|
E107
|
The effect of spatial frequency on visual-vestibular conflict detection
|
Halow, Savannah
|
Dolphin
|
Multisensory Processing 2
|
|
E108
|
Neural correlates of spontaneous non-optic vision in a blind individual
|
Breedlove, Jesse
|
Dolphin
|
Multisensory Processing 2
|
|
E121
|
Why do line drawings work? A realism hypothesis
|
Hertzmann, Aaron
|
Egret
|
3D Perception: Models, neural mechanisms
|
|
E122
|
Neural representation of multiple visual stimuli moving transparently at different depths in cortical area MT
|
Chakrala, Anjani
|
Egret
|
3D Perception: Models, neural mechanisms
|
|
E123
|
Visual Skills and Reading Ability: Role of Functional Binocular Vision (FBV)
|
Powers, Maureen
|
Egret
|
3D Perception: Models, neural mechanisms
|
|
E124
|
Functional specificity of attentional modulation in the disparity domain
|
Chen, Yulan D.
|
Egret
|
3D Perception: Models, neural mechanisms
|
|
E125
|
A unified model for binocular fusion and depth perception: Stereo spatial resolution and disparity variance limits
|
Ding, Jian
|
Egret
|
3D Perception: Models, neural mechanisms
|
|
E126
|
Distance Influences Affordance Perception of Standonability in Virtual Reality
|
Surber, Tyler
|
Egret
|
3D Perception: Real and virtual environments
|
|
E127
|
Testing the generality of depth tracking deficits in realistic virtual environments
|
Whritner, Jake A
|
Egret
|
3D Perception: Real and virtual environments
|
|
E128
|
The role of texture for extracting depth in virtual reality
|
Lew, Wei Hau
|
Egret
|
3D Perception: Real and virtual environments
|
|
E129
|
Differences in size and distance perception between virtual reality and the real world
|
Rzepka, Anna M.
|
Egret
|
3D Perception: Real and virtual environments
|
|
E130
|
Visual Distance Perception Indoors, Outdoors, and in the Dark
|
Dukes, Jessica
|
Egret
|
3D Perception: Real and virtual environments
|
|
E131
|
Recovery of vivid 3D percepts from 125 years of historical motion film and animation clips
|
Peterzell, David Henry
|
Egret
|
3D Perception: Real and virtual environments
|
|
E132
|
Building 3D scene representations from different viewpoints: A contextual cueing study
|
Liang, Yibiao
|
Egret
|
3D Perception: Real and virtual environments
|
|
E133
|
Investigating Non-Rigid Structure-From-Motion: A Role for Part-Wise Rigidity?
|
Choi, Ryne
|
Egret
|
3D Perception: Real and virtual environments
|
|
E134
|
Enhancing simulated prosthetic vision with deep learning–based scene simplification strategies
|
Xu, Aiwen
|
Egret
|
Object Recognition: Categories 1
|
|
E135
|
Object Category and Retinotopic Location Differentially Modulate Temporal Dynamics of Category Selective Regions of Ventral Temporal Cortex
|
Bankson, Brett
|
Egret
|
Object Recognition: Categories 1
|
|
E136
|
Does familiarity influence discrimination? Famous and Inverted Faces and Logos
|
Yang, Pei-Ling
|
Egret
|
Object Recognition: Categories 1
|
|
E137
|
The interaction of visual properties in object-text displays: How shape and font influence preference and attention
|
Trawinski, Tobiasz
|
Egret
|
Object Recognition: Categories 1
|
|
E138
|
Human susceptibility to subtle adversarial image manipulations with unlimited exposure time
|
Veerabadran, Vijay
|
Egret
|
Object Recognition: Categories 1
|
|
E139
|
The spatial tuning of the visual word form area depends jointly on stimulus type and task demands
|
White, Alex
|
Egret
|
Object Recognition: Categories 1
|
|
E140
|
Considering the Speed and Comprehension Trade-Off in Reading Mediated by Typography
|
Wallace, Shaun
|
Egret
|
Object Recognition: Categories 1
|
|
E141
|
Improving Reading Outcomes Using Digital Reading Rulers for Readers With & Without Dyslexia
|
Watson, Aleena
|
Egret
|
Object Recognition: Categories 1
|
|
E142
|
PseudoSloan: A perimetric-complexity and area-controlled font for vision and reading research
|
Vildavski, Vladimir
|
Egret
|
Object Recognition: Categories 1
|
|
E143
|
Decoding the orientation of small targets in the periphery using magnetoencephalography
|
Allen, Henry
|
Egret
|
Object Recognition: Categories 1
|
|
E144
|
Co-occurrence statistics from vision and language capture thematic relationships between objects
|
Hall, Elizabeth
|
Egret
|
Object Recognition: Categories 1
|
|
E145
|
Effects of language familiarity and style (font vs. handwriting) on the word inversion effect
|
Singh, Mehar
|
Egret
|
Object Recognition: Categories 1
|
|
F1
|
Behavioral and attentional coding of expected reward and risk
|
Sun, Sai
|
Osprey
|
Attention
|
|
F3
|
Can attention break through the ensemble? Only with more time
|
Deepu Rajan, Nidhi
|
Osprey
|
Attention
|
|
F4
|
Disengaging from the forest versus the trees: The spatial extent of focused attention modulates the rate of attentional disengagement
|
Jefferies, Lisa
|
Osprey
|
Attention
|
|
F5
|
Exploring the neural correlates of stimulus-driven reorienting and stimulus evaluation
|
Lee, Jongmin
|
Osprey
|
Attention
|
|
F6
|
The postdictive effect of choice reflects the modulation of attention on choice
|
Zhou, Yiling
|
Osprey
|
Attention
|
|
F7
|
Temporal blank event facilitates sustained attention and attenuates the attentional blink
|
Kihara, Ken
|
Osprey
|
Attention
|
|
F9
|
The temporal window of attention to self-generated stimuli
|
Tanaka, Takumi
|
Osprey
|
Attention
|
|
F10
|
The visual attention at the hand-movement goal independent of the top-down attention
|
Wu, Wei
|
Osprey
|
Attention
|
|
F11
|
Visual attention maximizes expected information gain in goal inference
|
Shi, Bohao
|
Osprey
|
Attention
|
|
F12
|
Effects of exogenous and endogenous attention on perceived duration and stimulus onset detection
|
Katsumata, Ryosuke
|
Osprey
|
Attention
|
|
F13
|
Horizontal vs. vertical spatial anisotropy of attentional bias toward negatively valenced words
|
Tanda, Tomoyuki
|
Osprey
|
Attention
|
|
F14
|
Visibility of the prime is associated with both inhibition and facilitation in response priming.
|
Morimoto, Yukihiro
|
Osprey
|
Attention
|
|
F15
|
Different effects of multisensory integration on three attention networks
|
Guo, Xuanru
|
Osprey
|
Attention
|
|
F16
|
Attention Prioritization for a Friend’s Target During Joint Visual Search
|
Sakata, Chifumi
|
Osprey
|
Visual Search
|
|
F17
|
Distractor size matters: Distractors may, or may not, speed target-absent searches
|
Lawrence, Rebecca
|
Osprey
|
Visual Search
|
|
F18
|
Scene context limits processing to target-consistent regions without changing object processing rates in efficient search tasks
|
Ng, Gavin J.P.
|
Osprey
|
Visual Search
|
|
F19
|
Search Asymmetry Revisited: Search for Target with More Features than Distractors is Not Necessarily More Efficient
|
Tsai, Chia-Chun
|
Osprey
|
Visual Search
|
|
F20
|
Semantic contextual cueing effects depend on verbal working memory rather than spatial working memory
|
Xu, Luzi
|
Osprey
|
Visual Search
|
|
F21
|
Search efficiency in parallel search is not impacted (or only minimally so) by background complexity.
|
Cui, Yaoyun
|
Osprey
|
Visual Search
|
|
F22
|
Possibility of predicting target position immediately by anchor object
|
Katsuragi, Reiya
|
Osprey
|
Visual Search
|
|
F23
|
Target-absent visual search reveals distinctiveness computations in the brain
|
Jacob, Georgin
|
Osprey
|
Visual Search
|
|
F24
|
Category Learning of Medical Images: How does Comparison Help?
|
Yang, Zhong
|
Osprey
|
Visual Search
|
|
F41
|
Visual short-term memory contents bias eye-specific attention
|
Choe, Eunhye
|
Manatee
|
Visual Memory
|
|
F42
|
Trading Capacity for Precision in Working Memory: Reviving the Effect of Negative Emotion on Working Memory
|
Guo, Yang
|
Manatee
|
Visual Memory
|
|
F43
|
Retaining Quantitative-dimension Binding in Working Memory: A Passive Process
|
Gao, Qi
|
Manatee
|
Visual Memory
|
|
F44
|
How does working memory work? The manipulation unit of visual working memory
|
Ji, Huichao
|
Manatee
|
Visual Memory
|
|
F45
|
Memory superiority for interactive biological motion in working memory
|
Li, Wenwen
|
Manatee
|
Visual Memory
|
|
F47
|
Probabilistic working memory representations in visual cortex
|
Temudo, Ainsley
|
Manatee
|
Visual Memory
|
|
F48
|
Selectively maintaining object features within visual working memory
|
Wei, Chen
|
Manatee
|
Visual Memory
|
|
F49
|
Biological Movement is Stored Independently from Body Posture in Working Memory
|
Zhao, Yuanxiu
|
Manatee
|
Visual Memory
|
|
F50
|
A gradual transition from veridical to categorical representations along the visual hierarchy for memory but not perception.
|
Chunharas, Chaipat
|
Manatee
|
Visual Memory
|
|
F51
|
Involuntary and voluntary processes compete for entering focus of attention of working memory
|
Li, Jiaofeng
|
Manatee
|
Visual Memory
|
|
F52
|
Continuous spatial perception is organized via cartesian coordinate over time: evidence from ‘serial dependence effect’
|
Luo, Minghao
|
Manatee
|
Visual Memory
|
|
F53
|
The role of anodal transcranial direct current stimulation (tDCS) in the consolidation of visual perceptual learning is mediated by the wake/sleep cycle
|
He, Qing
|
Manatee
|
Visual Memory
|
|
F54
|
The fate of surface features in moving object when crossing a tunnel
|
He, Wenzhen
|
Manatee
|
Visual Memory
|
|
F56
|
The role of high-order statistics in evoking perceptual priming effect on rapid scene categorization
|
Yu, Yana
|
Manatee
|
Scene Perception
|
|
F58
|
Determinants of visual discrimination, visual preference and perceived complexity of synthetic images varying in natural scene statistics
|
Nguyen, Leena
|
Manatee
|
Scene Perception
|
|
F59
|
Ensemble coding of temporally distributed elements eliminates irrelevant stimuli of salient size
|
Saito, Marina
|
Manatee
|
Scene Perception
|
|
F60
|
Boundary extension and contraction are predicted by the natural statistics of images
|
Lin, Feikai
|
Manatee
|
Scene Perception
|
|
F61
|
Effective CNN-based Image Dehazing for UAV Deep Visual Odometry
|
Lee, Gao Yu
|
Manatee
|
Scene Perception
|
|
F62
|
Postural adjustment as a function of the spatial frame tilt.
|
Fujimoto, Kanon
|
Manatee
|
Perception and Action
|
|
F63
|
Members of highly entitative groups are implicitly expected to behave consistently based on their deep-level goals instead of their shallow-level movements
|
Yin, Jun
|
Manatee
|
Perception and Action
|
|
F64
|
Using model comparisons to reveal the mechanisms of confidence generation
|
Shekhar, Medha
|
Manatee
|
Perception and Action
|
|
F65
|
Eye–hand coordination reveals the role of body awareness in motor control
|
Matsumiya, Kazumichi
|
Manatee
|
Perception and Action
|
|
F66
|
Working memory load affects both motor replanning and execution
|
Wen, Xiao
|
Manatee
|
Perception and Action
|
|
F67
|
Confidence computation incorporates both task-relevant and task-irrelevant noises unlike decision making
|
Kim, Kyuin
|
Manatee
|
Perception and Action
|
|
F68
|
The Occipital Place Area Encodes the Existence of an Obstacle
|
Kham, Dongheon
|
Manatee
|
Perception and Action
|
|
F69
|
Shape congruence modulates visuo-haptic interactions during binocular rivalry
|
Shin, Haeji
|
Manatee
|
Perception and Action
|
|
F81
|
Towards acquisition of shape bias: Training convolutional neural networks with blurred images
|
Yoshihara, Sou
|
Dolphin
|
Object recognition
|
|
F82
|
Microgenesis of orientation appearance during common-onset masking
|
Nakamura, Tomoya
|
Dolphin
|
Object recognition
|
|
F83
|
Absence of object substitution masking in early infancy
|
Nakashima, Yusuke
|
Dolphin
|
Object recognition
|
|
F84
|
Simultaneous and sequential subitizing share a common object individuation-based mechanism: Evidence based on resource competition
|
Lei, Yang
|
Dolphin
|
Object recognition
|
|
F85
|
Which comes first? Examining breaking continuous suppression time of high-calorie and low-calorie foods
|
Lee, Hsing-Hao
|
Dolphin
|
Object recognition
|
|
F86
|
Tell the difference between pictures made by artists and computers: Categorization and evaluation
|
Ueda, Yoshiyuki
|
Dolphin
|
Object recognition
|
|
F87
|
Toward a general model of visual art perception - the role of expertise and culture.
|
Darda, Kohinoor M
|
Dolphin
|
Object recognition
|
|
F88
|
The Relationship Between Daytime and Nighttime Stereoacuity
|
Cheng, Chao-Chien
|
Dolphin
|
Binocular Vision
|
|
F89
|
Three-dimensional depth estimation of virtual objects in augmented reality
|
Lee, Ju Hyeong
|
Dolphin
|
Binocular Vision
|
|
F90
|
The effect of binocular disparities on the Mona Lisa effect: Examination of the effect of disparities given to different components of a portrait
|
Morita, Marie
|
Dolphin
|
Binocular Vision
|
|
F91
|
Relationship between the disparity tuning symmetry and responses to anti-correlated random dot stereograms in macaque areas V2, V3 and V3A
|
Yoshioka, Toshihide W.
|
Dolphin
|
Binocular Vision
|
|
F92
|
Greebles in 3D: Depth sensitivity is altered by classification training involving novel objects
|
Li, Zhen
|
Dolphin
|
Binocular Vision
|
|
F93
|
Content-Based Interaction Between Mask and Target in Continuous Flash Suppression
|
Zhu, Weina
|
Dolphin
|
Binocular Vision
|
|
F94
|
Feature-CoAlignment Between Mask and Stimulus Affects Suppression Depth in Continuous Flash Suppression
|
Drewes, Jan
|
Dolphin
|
Binocular Vision
|
|
G1
|
Human talent and career development: Distinct cognitive profiles of STEM versus non-STEM professionals and college majors
|
Strong, Roger
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G2
|
Fluctuations of Visuospatial Attention are Predicted by Behavioral and Neuropsychological Measures
|
Greiner, Brooke
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G3
|
Expectation Modulates Performance Above the Effect of Attention in Two Dynamic Online Experiments
|
Todorova, Greta K.
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G4
|
The Influence of Reward History on Goal-Directed Visual Search
|
Lee, David
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G5
|
Sustained orienting of attention and microsaccades with dynamic social cues require the joint presence of heads and bodies
|
Han, Nicole
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G6
|
Gaze following and mental state attribution: the agent’s line of sight moderates the gaze cueing effect
|
Falck, Andreas
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G7
|
Social settings and motivation affect attentional capture
|
van Zoest, Wieske
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G8
|
The Effect of Exogenous Temporal Attention on the Gradient of Spatial Attention
|
Zoroufi, Aryan
|
Osprey
|
Attention: Individual differences, spatiotemporal, reward, social
|
|
G9
|
Measuring the saliency of an invisible visual feature and its interaction with visible features
|
Zou, Jinyou
|
Osprey
|
Attention: Divided, models
|
|
G10
|
Perceiving what is not there: Distractor intrusions accounted for by a computational model.
|
Hosseini, Mahan
|
Osprey
|
Attention: Divided, models
|
|
G11
|
Different Attention Allocation Determines Character of Visual Awareness
|
Evans, Karla K.
|
Osprey
|
Attention: Divided, models
|
|
G12
|
Modeling the Geometry of Psychological Manifolds Using Continuously Changing Stimuli
|
Ralston, Robert
|
Osprey
|
Attention: Divided, models
|
|
G13
|
Attentional bias for faces, not scenes: neural and behavioral evidence
|
Persichetti, Andrew
|
Osprey
|
Attention: Divided, models
|
|
G14
|
Meaningfulness affects performance in Navon task and Embedded Figures Test
|
Fan, Gaojie
|
Osprey
|
Attention: Divided, models
|
|
G16
|
Predicting visual attention of human drivers boosts the training speed and performance of Autonomous Vehicles
|
Faisal, Aldo
|
Osprey
|
Attention: Divided, models
|
|
G17
|
The development of peak alpha frequency from infancy to adolescence and its role in visual temporal processing: A meta-analysis
|
Freschl, Julie
|
Osprey
|
Development
|
|
G18
|
The Development of Oculomotor Suppression of Salient Distractors in Children
|
Blakley, Emily C.
|
Osprey
|
Development
|
|
G19
|
A diffusion model decomposition of motion processing performance in children with dyslexia and related neural dynamics
|
Manning, Catherine
|
Osprey
|
Development
|
|
G20
|
Dorsal stream receptive field development entails growing visual field coverage
|
Duffield, Stuart
|
Osprey
|
Development
|
|
G21
|
Behavioral and neural analysis of the development of shape sensitivity in macaques
|
Rodriguez-Deliz, Carla L.
|
Osprey
|
Development
|
|
G22
|
Analogous development of local/global preference in vision and touch.
|
Tortelli, Chiara
|
Osprey
|
Development
|
|
G23
|
Neural measurements of sensitivity to contrast and texture naturalness in developing macaques
|
Lee, Gerick M.
|
Osprey
|
Development
|
|
G24
|
Early emergence and later development of face, scene, and object regions revealed by natural vision
|
Kamps, Frederik
|
Osprey
|
Development
|
|
G25
|
Innate organization of the human brain
|
Molloy, M. Fiona
|
Osprey
|
Development
|
|
G26
|
The shape skeleton supports one-shot categorization in human infants
|
Ayzenberg, Vladislav
|
Osprey
|
Development
|
|
G27
|
Counting sheep: Perceptual narrowing of other-species faces in infant fMRI
|
Yates, Tristan S
|
Osprey
|
Development
|
|
G28
|
Anatomical changes to primary visual cortex in the congenital absence of cone input
|
Molz, Barbara
|
Osprey
|
Development
|
|
G29
|
Drawing from the Mind’s Eye: The Development of Drawing in Sight-Restored Children.
|
Gilad-Gutnick, Sharon
|
Osprey
|
Development
|
|
G30
|
The ontogeny of spatial perception in sighted and blind infants
|
Gori, Monica
|
Osprey
|
Development
|
|
G31
|
Performing visual tasks by children with amblyopia.
|
Kalnica-Dorosenko, Kristine
|
Osprey
|
Development
|
|
G41
|
Conservation across individuals of cortical crowding distance in human V4
|
Kurzawski, Jan W.
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G42
|
Contribution of receptive field center and surround to repetition suppression in macaque visual area V2
|
Williams, Nathaniel P.
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G43
|
Learning a model of shape selectivity in V4 cells reveals shape encoding mechanisms in the brain
|
Mehrani, Paria
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G44
|
Measuring crowding in a hundred people
|
Pelli, Denis
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G45
|
Neural correlates of configural processing of faces and words: Domain-general or domain-specific?
|
Cheung, Olivia S.
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G46
|
Representational structure for letters is found throughout ventral visual cortex and matches human perception
|
Janini, Daniel
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G47
|
The relative coding strength of color and form in the human ventral visual pathway and convolutional neural networks
|
Taylor, JohnMark
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G48
|
THINGS-fMRI/MEG: A large-scale multimodal neuroimaging dataset of responses to natural object images
|
Contier, Oliver
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G49
|
Two distinct networks containing position invariant representations of actions in the human brain
|
Yargholi, Elahe'
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G50
|
Maps of object animacy and aspect ratio in human high-level visual cortex.
|
Coggan, David
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G51
|
Putting people in context: N190 responses to bodies in natural scenes
|
Nudnou, Ilya
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G52
|
GLMsingle: a turnkey solution for accurate single-trial fMRI response estimates
|
Prince, Jacob S.
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G53
|
Odors assist the categorization of ambiguous visual stimuli
|
Rekow, Diane
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G54
|
Generate visual metamers using fMRI and deep learning to assess the specificity of human visual processing and encoding
|
Larouche, Jean-Maxime
|
Manatee
|
Object Recognition: Neural mechanisms
|
|
G55
|
The mental representation of materials distilled from >1.5 million similarity judgements
|
Schmidt, Filipp
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G56
|
Material recognition and the role of assumed viewing distance
|
Cheeseman, Jacob R.
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G57
|
The relationship between specular reflection image features, perceived gloss, and material category
|
Schmid, Alexandra
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G58
|
Learning From Paintings Improves Representations for Fabric Recognition
|
Lin, Hubert
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G59
|
Perceptual scale for transparency
|
Huang, Zhehao
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G60
|
Individual Differences in Classification of Translucent Materials Using Photos of Real-world Objects
|
Liao, Chenxi
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G61
|
A striking take on mass inferences from collisions
|
Mitko, Alex
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G62
|
Perceptual haptic representation of materials emerges from efficient encoding
|
Metzger, Anna
|
Manatee
|
Color, Light and Material: Surfaces and materials
|
|
G63
|
Color-selective brain responses and hue representations from ultra-high-field fMRI of natural scenes
|
Pennock, Ian
|
Manatee
|
Color, Light and Material: Color 2
|
|
G64
|
How to make a #TheShoe
|
Cavdan, Müge
|
Manatee
|
Color, Light and Material: Color 2
|
|
G65
|
How fast does the color of daylight change?
|
Pastilha, Ruben
|
Manatee
|
Color, Light and Material: Color 2
|
|
G66
|
Variations of saturation in natural objects and their effects on perception
|
Hedjar, Laysa
|
Manatee
|
Color, Light and Material: Color 2
|
|
G67
|
Saturation as a function of stimulus size: dependence on thresholds and luminance contrast
|
Rozman, Ana
|
Manatee
|
Color, Light and Material: Color 2
|
|
G68
|
Is color discrimination influenced by the chromatic statistics of different visual environments?
|
Skelton, Alice
|
Manatee
|
Color, Light and Material: Color 2
|
|
G69
|
Color ensemble percepts from three-dimensional color variation.
|
Virtanen, Lari
|
Manatee
|
Color, Light and Material: Color 2
|
|
G70
|
Making a Display look like Paper: the Effects of Adaptation Duration and Luminance
|
Kučera, Jan
|
Manatee
|
Color, Light and Material: Color 2
|
|
G71
|
Effects of inter-reflections in box spaces on perceived object color harmony and shape
|
Yu, Cehao
|
Manatee
|
Color, Light and Material: Cognition and preference 2
|
|
G72
|
Mapping a low-dimensional space of color-concept associations
|
Mukherjee, Kushin
|
Manatee
|
Color, Light and Material: Cognition and preference 2
|
|
G73
|
The Colour of Nostalgia
|
Witzel, Christoph
|
Manatee
|
Color, Light and Material: Cognition and preference 2
|
|
G81
|
The Role of Target Representation in subsequent search misses effect
|
Ermolova, Anastasiia
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G82
|
Serial dependence from distractor stimuli at irrelevant locations
|
Houborg, Christian
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G83
|
Previous fixations do not facilitate search when a distractor becomes a target
|
Sanz, Elena
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G84
|
Target Detection Vulnerability to Low Target Prevalence Across Display Type and Speed
|
Diaz, Krystina
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G85
|
Gaze cues from the past can attenuate change blindness in the flicker paradigm
|
Varakin, Donald
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G86
|
Effects of working memory load in visual search in development
|
Quirós-Godoy, María
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G87
|
Working memory resources protect attentional templates during visual search: Converging evidence from event-related potentials
|
Huynh Cong, Stanislas
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G88
|
Canonical specular and velvety material modes form a basic feature in visual search
|
Zhang, Fan
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G89
|
Assessment of Perceived Task Difficulty Across Multiple Search Conditions
|
Wise, Margaret
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G90
|
Evidence from contralateral delay activity that proto-objects are a good approximation of real-world set size
|
Miuccio, Michael
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G91
|
Eye movements and interactions between numerical and physical size in visual search for digits
|
Puri, Amrita
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G92
|
Search for center-surround colored stimuli highlights peripheral vision processing limitations
|
Wang, Yiwen
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G93
|
Individual differences in crowding predict visual search performance
|
Verissimo, Ines
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G94
|
Contrasting attentional processing in visual search, object recognition, and complex tasks
|
Beuth, Frederik
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G95
|
Changes in Viewing Behaviour in Healthy Aging and Amnestic Mild Cognitive Impairment
|
Khosla, Anisha
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G96
|
Feature distribution learning by passive exposure
|
Kristjansson, Arni
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G97
|
Efficient sensory encoding predicts robust averaging
|
Ni, Long
|
Dolphin
|
Decision Making
|
|
G99
|
Reported confidence is based on imprecision in visual cortical stimulus representations
|
Geurts, Laura S.
|
Dolphin
|
Decision Making
|
|
G100
|
The Set Salience Bias in Ensemble Decision-Making
|
Haroz, Steve
|
Dolphin
|
Decision Making
|
|
G101
|
Cybersecurity and Fatigue: Does fatigue from visual contrast impact our ability to correctly classify emails?
|
Telschow, Genna
|
Dolphin
|
Decision Making
|
|
G102
|
The shape of metacognitive noise confounds metacognitive efficiency with confidence bias
|
Xue, Kai
|
Dolphin
|
Decision Making
|
|
G103
|
Serial dependence is related to the task and not the stimulus
|
Ceylan, Gizay
|
Dolphin
|
Decision Making
|
|
G104
|
Do we perceive the world differently if we need to evaluate our percept? – an EEG study
|
Knötzele, Jessica
|
Dolphin
|
Decision Making
|
|
G105
|
Dissociating bias and precision of perceptual decision making in parietal and frontal cortices with TMS
|
Taylor, Paul
|
Dolphin
|
Decision Making
|
|
G106
|
Without adaptive stimulus sampling, comparison-of-comparison tasks skew perceptual bias estimates
|
Ho, Man-Ling
|
Dolphin
|
Decision Making
|
|
G107
|
Brain connectivity profiles associated with perceptual task performance
|
Nakuci, Johan
|
Dolphin
|
Decision Making
|
|
G108
|
Perceptual decisions under stable visual input: absence of serial dependence and the build-up of adaptation
|
Biryukov, Alice
|
Dolphin
|
Decision Making
|
|
G109
|
Serial dependence and representational momentum in single-trial perceptual decisions
|
Pascucci, David
|
Dolphin
|
Decision Making
|
|
G110
|
Decreases loom larger than increases: A perceptual account for loss aversion
|
Luo, Yu
|
Dolphin
|
Decision Making
|
|
G111
|
Did you find it? Visual search tends to be faster when applying saliency-aware subtle scene modulation in VR-based realistic scenario
|
Lukashova-Sanz, Olga
|
Dolphin
|
Visual Search: Spatial, temporal, memory
|
|
G121
|
The comparison makes a difference: What to choose when measuring the Just Noticeable Difference of a 3D cue-conflicting standard
|
Deng, Ailin
|
Egret
|
3D Perception: Cue combination
|
|
G122
|
Casting a Shadow on the Ponzo Size illusion
|
Lages, Martin
|
Egret
|
3D Perception: Cue combination
|
|
G123
|
Interpretation of Depth from Scaled Motion Parallax in Virtual Reality
|
Teng, Xue
|
Egret
|
3D Perception: Cue combination
|
|
G124
|
Effects of cue integration on three-dimensional shape from shading
|
Coltekin, Arzu
|
Egret
|
3D Perception: Cue combination
|
|
G125
|
Just Noticeable Differences in 3D Shape Perception: A Measure of Estimation Noise or Cue Gain?
|
Kemp, Jovan
|
Egret
|
3D Perception: Cue combination
|
|
G126
|
Depth perception from successive occlusion
|
Lee, Abigail
|
Egret
|
3D Perception: Shape
|
|
G127
|
Does the vertical-horizontal illusion explain over-estimation of perceived step height?
|
Schofield, Andrew
|
Egret
|
3D Perception: Shape
|
|
G128
|
Regions of High Curvature Help to Stabilize the Perception of 3D Shape
|
Yu, Ying
|
Egret
|
3D Perception: Shape
|
|
G129
|
The perception of average slant is biased in concave surfaces
|
Tong, Jonathan
|
Egret
|
3D Perception: Shape
|
|
G130
|
Depth percepts from monocular self-occlusions in 3D objects
|
Au, Domenic
|
Egret
|
3D Perception: Shape
|
|
G131
|
Mental geometry of three-dimensional size estimation in pictures.
|
Maruya, Akihito
|
Egret
|
3D Perception: Shape
|
|
G132
|
Human judgments of relative 3D pose of novel complex objects
|
Hartmann, Frieder
|
Egret
|
3D Perception: Shape
|
|
G133
|
Inverse graphics explains population responses in body-selective regions of the IT cortex
|
Yilmaz, Hakan
|
Egret
|
3D Perception: Stereopsis, models and mechanisms
|
|
G134
|
Feedforward-Feedback-Verity-reWeight (FFVW) and perceptual impact of contrast-reversed binocular dot-pairs in random dot stereograms
|
Zhaoping, Li
|
Egret
|
3D Perception: Stereopsis, models and mechanisms
|
|
G136
|
Brain connectivity measures for holistic mechanisms of face perception
|
Gani-zada, Jahan
|
Egret
|
Face Perception: Neural mechanisms
|
|
G137
|
Time-varying functional connectivity reveals fast, band-limited communication between amygdala and cortex during face presentation
|
Rana, Kunjan
|
Egret
|
Face Perception: Neural mechanisms
|
|
G138
|
Coarse-to-fine processing of faces throughout the ventral visual hierarchy.
|
Schuurmans, Jolien P.
|
Egret
|
Face Perception: Neural mechanisms
|
|
G139
|
Comparing stimulus-evoked and spontaneous responses of face-selective multi-units in humans
|
Schwartz, Rina
|
Egret
|
Face Perception: Neural mechanisms
|
|
G140
|
Event-related brain potentials reveal robust face identity learning after a brief real-life encounter
|
Popova, Tsvetomila
|
Egret
|
Face Perception: Neural mechanisms
|
|
G141
|
Intracranial electroencephalography reveals neurodynamics underlying face perception during real-world vision in humans
|
Alreja, Arish
|
Egret
|
Face Perception: Neural mechanisms
|
|
G142
|
Semantic Decoding of Affective Face Signals in the Brain is Temporally Distinct
|
Liu, Meng
|
Egret
|
Face Perception: Neural mechanisms
|
|
G143
|
Using EEG frequency-tagging to measure visual representations of faces
|
Gervais, Rose-Marie
|
Egret
|
Face Perception: Neural mechanisms
|
|
G144
|
Extensive visual training in adulthood reduces an implicit neural marker of the face inversion effect
|
Hagen, Simen
|
Egret
|
Face Perception: Neural mechanisms
|
|
G145
|
Face-preferring areas of the ventral stream can acquire tuning for artificial face features
|
Broda, Maximilian Davide
|
Egret
|
Face Perception: Neural mechanisms
|
|
G146
|
Not quite human, not quite machine: face-sensitive ERP responses to human and robot faces
|
Geiger, Allie
|
Egret
|
Face Perception: Neural mechanisms
|
|
G147
|
A large-scale, naturalistic dataset of two-person social actions
|
McMahon, Emalie
|
Egret
|
Face Perception: Models and metrics
|
|
G148
|
Recall of faces quantified through an avatar creation interface
|
Zhou, Leon
|
Egret
|
Face Perception: Models and metrics
|
|
G149
|
Psychophysical Scaling of Dynamic Episode-based Affective Database: A Paired-Comparison Approach
|
Tsai, Wei-Ning
|
Egret
|
Face Perception: Models and metrics
|
|
G150
|
Facial similarity judgements are well predicted by image-computable DNNs and a statistical face distribution model
|
Jozwik, Kamila M.
|
Egret
|
Face Perception: Models and metrics
|
|
G151
|
Causal inference in face identification, matching, and verification
|
Gurkan, Necdet
|
Egret
|
Face Perception: Models and metrics
|
|
G152
|
Deep networks trained to recognize facial expressions predict ventral face-selective ECoG responses as well as networks trained to recognize identity
|
Schwartz, Emily
|
Egret
|
Face Perception: Models and metrics
|
|
G153
|
Exploring perceived face similarity and its relation to image-based spaces: an effect of familiarity
|
Somai, Rosyl S.
|
Egret
|
Face Perception: Models and metrics
|
|
G154
|
Using task-optimized neural networks to understand how experience might shape human face perception
|
Dobs, Katharina
|
Egret
|
Face Perception: Models and metrics
|
|
G155
|
What type of experience is needed to generate a human-like view-invariant representation of face identity? Evidence from Deep Convolutional Neural Networks
|
Rosemblaum, Mandy
|
Egret
|
Face Perception: Models and metrics
|
|
G156
|
Investigating the role of orientation information in face processing within a spiking neural network
|
Bennett, Matthew
|
Egret
|
Face Perception: Models and metrics
|
|
UG-B1
|
Masking the smeared perception of natural scenes tachistoscopically presented during saccades: A follow-up on Campbell & Wurtz (1978).
|
Doering, Mara
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B2
|
Motor affordances in visual search for multiple targets
|
Ahufrieva, Anastasia
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B3
|
Probing human 3D shape perception with novel, but natural stimuli
|
Dehn, Kira I.
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B4
|
The Effect of Emotion on Generalising Trustworthiness
|
Yahya, Zara
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B5
|
The Sabancı University Dynamic Face Database (SU DFace)
|
Nadeem, Mahnoor
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B6
|
A multiple regression model of social processing during naturalistic movie viewing
|
Chang, Lucy
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B7
|
A potential role for binocular integration without binocular disparity information in primary visual cortex
|
Cheng, Ethan S.
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B8
|
Adults’ recognition of newly learned faces: The effect of within-person variability in appearance after a long-delay
|
McLaughlin, Emily
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B9
|
Binocular Disruption in Amblyopia Investigated with Standardized Clinical Tests and FInD-Psychophysics
|
Aycardi, Nicolas
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B10
|
Can You Break the Tyranny of Film?: The power of viewers’ film genre preferences and knowledge on attentional selection
|
Hubbell, Isabella
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B11
|
Changes in Cortical Activity in a Parkinson's Disease Patient: Effects of Training with Visual and Auditory Cues
|
Simon, Royze
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B12
|
Comparisons with Similar Faces Induce Lasting Distortions in Face Memories
|
Teoh, Jerrick
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B13
|
Effects of Neuronal Excitability Parameters on Spiking RNN Activity
|
Simonoff, Amelia
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B14
|
Expertise predicts perceived visual similarity between exemplars of real-world object categories
|
Minos, Alexander N.
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B15
|
Exploring the mental representation of observed grasp movements based on similarity judgements
|
Ettensohn, Leah J.
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B16
|
Flanker task under (perceived) time pressure
|
Sussman, Rachel
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B17
|
InFoRM (Indicate-Follow-Replay-Me): Rivalry generates individual, validated introspection maps and generates new insights in binocular rivalry dynamics
|
Jefferis, Hanley
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B18
|
Investigating distributed functional connectivity during word and nonword visual recognition
|
Vin, Raina
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B19
|
Neuronal encoding of rapid categorical decisions across the primate oculomotor network
|
Chang, Suha
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B20
|
Using Biological Motion to Perceive Human Movement During a Remote Task
|
Kelly, Jeffrey
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
UG-B21
|
Weather Discrimination in Scene Processing Regions
|
Durham, Tess
|
Flamingo
|
Undergraduate Just-In-Time Posters 2
|
|
H1
|
Using electrooculography to track closed-eye movements.
|
MacNeil, Raymond R.
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H2
|
Discriminable human gaze patterns for solid objects versus 2-D and 3-D pictures of those objects
|
Fairchild, Grant
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H3
|
Torsional eye movements while viewing an illusory tilted scene
|
Winnick, Ariel
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H5
|
A Model of the Post-saccadic Dynamics of Visual Sensitivity
|
Yang, Bin
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H6
|
Temporal dynamics of peri-microsaccadic perceptual modulations in the foveola
|
Stearns, Zoe
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H7
|
Alterations in oculomotor behavior in healthy aging and mild cognitive impairment
|
Kwon, Elisa
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H8
|
Eye movement deficits in Parkinson’s patients are compensated during go/no-go manual interceptions
|
Fooken, Jolande
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H9
|
Objective Dynamic Visual Acuity Assessment Method Based on Steady-State Visual Evoked Potentials with Smooth-Pursuit Eye Movements Recording
|
Du, Chenghang
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H10
|
Smooth Pursuit Stabilizes Objects in Perceptual and not Retinal Coordinates
|
Maechler, Marvin, R.
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H11
|
Post-saccadic dynamics of visual sensitivity across the visual field
|
Li, Yuanhao
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H12
|
A natural look at scanpath theory: The way we move our head and eyes predicts scene recognition
|
Anderson, Nicola
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H13
|
Features derived from a deep neural network distinguish visual cues used by CCTV experts versus novices
|
Peng, Yujia
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H14
|
Pathologist pupil dilation reflects difficulty in diagnosing digital breast tissue biopsies
|
Lavelle, Mark
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H15
|
PRL location consistency across tasks and participants: a simulated scotoma study
|
Maniglia, Marcello
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H16
|
Saccades during visual search: adaptations in the presence of a binocular scotoma
|
Vullings, Cécile
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H17
|
Spatial resolution of pre-microsaccadic perceptual enhancements across the foveola
|
Zhang, Yue
|
Osprey
|
Eye Movements: Neural mechanisms
|
|
H18
|
A large-scale standardized survey of neural receptive fields in an entire column in mouse V1
|
Abbasi Asl, Reza
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H19
|
Using classification-based decoding to analyze the Spatiotopic and Retinotopic memory representations in primates
|
Khaki, Milad
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H20
|
Diffeomorphic Registration of Retinotopic Maps with Quasiconformal Mapping
|
Wang, Yalin
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H21
|
Quantitative Characterization of the Human Retinotopic Map Based on Quasiconformal Mapping
|
Ta, Duyan
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H22
|
Development of the visual pathways predicts changes in electrophysiological responses in visual cortex
|
Caffarra, Sendy
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H23
|
Assessing the general utility of a probabilistic atlas for independent delineation of early visual areas
|
Weldon, Kimberly
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H24
|
Multi-voxel pattern analysis of center-surround processing in psychosis
|
Montoya, Samantha
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H25
|
Stronger BOLD responses along the horizontal meridian in V1
|
Kay, Kendrick
|
Osprey
|
Spatial Vision: Neural Mechanisms 1
|
|
H41
|
Gaining the system: population limits on compensating color deficiencies through gain control
|
Emery, Kara
|
Manatee
|
Plasticity and Learning 2
|
|
H42
|
Evidence for the McCollough Effect in Primary Visual Cortex
|
Tregillus, Katherine EM
|
Manatee
|
Plasticity and Learning 2
|
|
H43
|
Hour-long color adaptation gradually expands perceptual color space
|
Li, Yanjun
|
Manatee
|
Plasticity and Learning 2
|
|
H44
|
New evidence for preservation of conditioned behavior based on UV light sensitivity in dissected tail halves of planarians
|
Shimojo, Kensuke
|
Manatee
|
Plasticity and Learning 2
|
|
H45
|
Evidence for sequential reading effects in screening mammography
|
Abbey, Craig
|
Manatee
|
Plasticity and Learning 2
|
|
H46
|
On the Relationship between Perceptual Learning and Statistical Learning: Evidence from Coherent Motion Detection
|
Phillips, Austin
|
Manatee
|
Plasticity and Learning 2
|
|
H47
|
Modeling visual perceptual learning of Contrast Discrimination with Integrated Reweighting
|
Barnes-Diana, Tyler
|
Manatee
|
Plasticity and Learning 2
|
|
H48
|
Multi-location, two-interval paradigms can overcome roving costs – an explanation of Xie & Yu (2020) data by an extended Integrating Reweighting Theory (IRT)
|
Liu, Jiajuan
|
Manatee
|
Plasticity and Learning 2
|
|
H49
|
Hierarchical Bayesian modeling of mixed training accuracy effects in perceptual learning
|
Lu, Zhong-Lin
|
Manatee
|
Plasticity and Learning 2
|
|
H50
|
Hierarchical Bayesian modeling of training accuracy and feedback interaction in perceptual learning
|
Zhao, Yukai
|
Manatee
|
Plasticity and Learning 2
|
|
H51
|
Enhancing Perceptual Learning Through Adaptive Comparisons
|
Jacoby, Victoria L.
|
Manatee
|
Plasticity and Learning 2
|
|
H52
|
Rapid Reorganization of Cerebellar Involvement in Mental Visualization
|
Likova, Lora
|
Manatee
|
Plasticity and Learning 2
|
|
H53
|
Sampling Human Visual Experience Through Text and Media Messages
|
Hart, Jennifer
|
Manatee
|
Scene Perception: Models and statistics
|
|
H54
|
Measuring the 1/f spatiotemporal amplitude spectrum of the DynTex database
|
Isherwood, Zoey
|
Manatee
|
Scene Perception: Models and statistics
|
|
H55
|
Using machine learning to understand human sensitivity to noise in naturalistic images
|
Sheth, Bhavin
|
Manatee
|
Scene Perception: Models and statistics
|
|
H56
|
Emergent dimensions underlying human perception of the reachable world
|
Josephs, Emilie L.
|
Manatee
|
Scene Perception: Models and statistics
|
|
H57
|
A Performance-Optimized Limb Detection Model Selectively Predicts Behavioral Responses Based on Movement Similarity
|
Zhou, Xilin
|
Manatee
|
Scene Perception: Models and statistics
|
|
H58
|
Neural Correlates of Efficient Coding of Visual Scenes
|
Greene, Michelle
|
Manatee
|
Scene Perception: Models and statistics
|
|
H59
|
Semantic, statistical and aesthetic determinants of how natural and urban images make us feel
|
Spehar, Branka
|
Manatee
|
Scene Perception: Models and statistics
|
|
H60
|
Through the looking-glass: Visual sensitivity to chirality
|
Boger, Tal
|
Manatee
|
Scene Perception: Models and statistics
|
|
H61
|
Deep-net-derived surface estimations from natural scenes predict voxel responses in scene-selective cortex
|
Shafer-Skelton, Anna
|
Manatee
|
Scene Perception: Models and statistics
|
|
H62
|
Different responses of the scene-selective cortical regions to magnocellular- and parvocellular-biased visual information
|
Im, Hee Yeon
|
Manatee
|
Scene Perception: Models and statistics
|
|
H63
|
Context Matters: Recovering Human Visual and Semantic Knowledge from Machine Learning Analysis of Large-Scale Text Corpora
|
Iordan, Marius Cătălin
|
Manatee
|
Scene Perception: Models and statistics
|
|
H81
|
Attentional Cueing in the World: Temporal and Spatiotemporal Cues for Road Hazards
|
Wolfe, Benjamin
|
Dolphin
|
Attention: Capture 1
|
|
H82
|
Examining Overt and Covert Attentional Capture by Task Irrelevant Stimuli during a Novel Continuous Performance Task
|
Blumberg, Michelle
|
Dolphin
|
Attention: Capture 1
|
|
H83
|
Linking Threat-Related Attentional Biases Toward Bicyclists to Driving Behavior
|
Kim, Andy
|
Dolphin
|
Attention: Capture 1
|
|
H84
|
Measuring attentional capture across learned states of cognitive flexibility
|
Sali, Anthony W
|
Dolphin
|
Attention: Capture 1
|
|
H85
|
Threatening Targets Unable to Capture Attention, Yet Won't Let It Go
|
Lewis, Joanna
|
Dolphin
|
Attention: Capture 1
|
|
H86
|
Attentional Capture during Public Speaking in Virtual Reality Environment
|
Guo, Sihang
|
Dolphin
|
Attention: Capture 1
|
|
H87
|
Oculomotor Feedback Rapidly Reduces Attentional Capture
|
Mrkonja, Lana
|
Dolphin
|
Attention: Capture 1
|
|
H88
|
Even Highly Salient Distractors Are Proactively Suppressed
|
Stilwell, Brad T.
|
Dolphin
|
Attention: Capture 1
|
|
H89
|
Attentional capture by threat is independent of uni- versus multi-modal threat intensity
|
Kim, Haena
|
Dolphin
|
Attention: Capture 1
|
|
H90
|
Semantic generalization of threat-related attentional capture
|
Grégoire, Laurent
|
Dolphin
|
Attention: Capture 1
|
|
H91
|
Exogenous attention improves perception through visual-cortical facilitation, not suppression
|
Keefe, Jonathan
|
Dolphin
|
Attention: Capture 1
|
|
H92
|
Learned but not distracting: low-value stimuli and value-driven attentional capture
|
Albanese, John S.
|
Dolphin
|
Attention: Capture 1
|
|
H93
|
Latent attentional capture is dependent on search display duration
|
Truuvert, Annie
|
Dolphin
|
Attention: Capture 1
|
|
H94
|
Learned Associations Among Objects Bias Attention
|
Clement, Andrew
|
Dolphin
|
Attention: Capture 1
|
|
H95
|
A line-doubling illusion
|
Anstis, Stuart
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H96
|
Adaptation to medical images within and across imaging modalities
|
Kuppuswamy Parthasarathy, Mohana
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H97
|
Estimating perceptual priors with finite experiments
|
Manning, Tyler
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H98
|
FInD - Foraging Interactive D-prime, a rapid and easy general method for visual function measurement
|
Bex, Peter
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H99
|
The orientation-difference cue in figure-ground separation: border ownership and timing
|
Victor, Jonathan D.
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H100
|
Systematic deviations between human and ideal observers in visual spatial averaging imply adaptation to natural-image statistics
|
Doi, Takahiro
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H101
|
Assessment of contrast sensitivity in children with Phenylketonuria
|
Shahin, Yousef M
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H102
|
Luminance modulations from eye movements predict visual sensitivity
|
Rucci, Michele
|
Dolphin
|
Spatial Vision: Psychophysics 1
|
|
H121
|
Influences of pedestrian group size on exit routes in an online desktop virtual environment
|
Boone, Alexander P
|
Egret
|
Perception and Action: Virtual environments 2
|
|
H123
|
Perception of action-relevant egocentric distance is not underestimated in virtual reality
|
Masoner, Hannah
|
Egret
|
Perception and Action: Virtual environments 2
|
|
H124
|
Removing feedforward visual information affects performance but not learning in a sequence learning online task
|
Cates, Alex
|
Egret
|
Perception and Action: Virtual environments 2
|
|
H125
|
Attentional context-dependent memory during gradual visuomotor adaptation
|
Liddy, Joshua
|
Egret
|
Perception and Action: Reaching, pointing and grasping 2
|
|
H126
|
Unaltered motion-induced blindness in peri-hand space
|
Sun, Hsin-Mei
|
Egret
|
Perception and Action: Reaching, pointing and grasping 2
|
|
H127
|
Dissociating mechanism underlying selection history bias for goal-directed reaching movements
|
Makwana, Mukesh
|
Egret
|
Perception and Action: Reaching, pointing and grasping 2
|
|
H128
|
Evaluating visuomotor coordination in children with amblyopia
|
Hou, Sabrina
|
Egret
|
Perception and Action: Reaching, pointing and grasping 2
|
|
H129
|
Looking without seeing: Children do not distinguish efficient from inefficient means to achieve a goal
|
Ossmy, Ori
|
Egret
|
Perception and Action: Reaching, pointing and grasping 2
|
|
H130
|
Unilateral Cortical Resection of Both Visual Pathways Alters Action but not Perception in a Pediatric Patient with Pharmaco-resistant Epilepsy
|
Ahmad, Zoha
|
Egret
|
Perception and Action: Reaching, pointing and grasping 2
|
|
H131
|
Visual perception of surface properties through direct manipulation
|
Padhye, Snehal
|
Egret
|
Perception and Action: Affordances
|
|
H132
|
Visual and Haptic Perception of Affordances of Feelies
|
Dowell, Catherine
|
Egret
|
Perception and Action: Affordances
|
|
H133
|
Object weight is visually available in simple kinematic features of object lifting actions
|
Cormiea, Sarah
|
Egret
|
Perception and Action: Affordances
|
|
H134
|
Factors affecting the perception of axis of rotation of pivot doors
|
Raveendranath, Balagopal
|
Egret
|
Perception and Action: Affordances
|
|
H135
|
Integrating feedback to improve reaching estimates in virtual reality
|
Rohovit, Taren
|
Egret
|
Perception and Action: Affordances
|
|
H136
|
Influence of autistic tendencies on EEG correlates of body movement perception
|
Harris, Alison
|
Egret
|
Perception and Action: Neural mechanisms 1
|
|
H137
|
Prestimulus Alpha Phase Gates Afferent Visual Cortex Responses
|
Dou, Wei
|
Egret
|
Perception and Action: Neural mechanisms 1
|
|
H138
|
Spontaneous traveling waves are an intrinsic feature of ongoing cortical dynamics and regulate perceptual sensitivity
|
Davis, Zachary W.
|
Egret
|
Perception and Action: Neural mechanisms 1
|
|
I1
|
The Top-down Modulation of Task-Irrelevant Sounds Processing
|
Cavicchi, Shari
|
Osprey
|
Attention: Capture 2
|
|
I2
|
Immunity from Capture: Not!
|
Klein, Raymond M.
|
Osprey
|
Attention: Capture 2
|
|
I3
|
Does color priming alter attentional priorities in visual search?
|
Ramgir, Aniruddha
|
Osprey
|
Attention: Capture 2
|
|
I4
|
Information-optimal local features automatically attract covert and overt orienting of attention
|
Castellotti, Serena
|
Osprey
|
Attention: Capture 2
|
|
I5
|
Independent time courses for feature-binding errors after attentional capture and disengagement
|
Pidaparthi, Lasyapriya
|
Osprey
|
Attention: Capture 2
|
|
I6
|
Attentional templates are sharpened through differential signal enhancement, not differential allocation of attention
|
Kerzel, Dirk
|
Osprey
|
Attention: Capture 2
|
|
I7
|
The selection balance: how target value, proximity and priming shape search strategy and eye movement dynamics during visual foraging
|
Tagu, Jérôme
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I8
|
Eye Movements in Tablet-based Visual Foraging
|
Tünnermann, Jan
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I9
|
A two-stage diffusion model in foraging: Simulation and empirical results
|
Bella Fernández, Marcos
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I10
|
Can Hybrid Foraging tasks help us to understand attentional problems in development?
|
Cruces, Laura
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I11
|
Age differences in foraging organization
|
Ólafsdóttir, Inga María
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I12
|
Effects of target value and prevalence on foraging in aging
|
Wiegand, Iris
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I13
|
Individual Differences in Inattentional Blindness in Visual Search
|
Gil-Gómez de Liaño, Beatriz
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I14
|
High Level Feature Search in Autism Spectrum Disorder
|
Abassi Abu Rukab, Safaa
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I15
|
Maximizers and Satisficers in Visual Search: Extra Effort Doesn’t Guarantee Additional Reward
|
Slifkin, Elisabeth
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I16
|
Gaze behaviour when visually searching for targets to be reached toward is influenced by movement-related costs imposed by obstacles
|
Moskowitz, Joshua B.
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I17
|
How does multidimensional complexity impact processing efficiency in visual search?
|
Xu, Zoe (Jing)
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I18
|
Exploring the gist-based modulation of learning rate in visual search
|
Adema, Juliana D.
|
Osprey
|
Visual Search: Attention, models, individual differences
|
|
I19
|
Deep Neural Network Selectivity for Global Shape
|
Baker, Nicholas
|
Osprey
|
Object Recognition: Models
|
|
I20
|
Increasing neural network robustness improves match to V1 eigenspectrum and improves V1 predictivity
|
Kong, Nathan
|
Osprey
|
Object Recognition: Models
|
|
I21
|
Is initial training with blurry images beneficial for the development of object recognition systems?
|
Jang, Hojin
|
Osprey
|
Object Recognition: Models
|
|
I22
|
Representing contextual associations in convolutional neural networks
|
Roginek, Eric
|
Osprey
|
Object Recognition: Models
|
|
I23
|
Quantifying Adversarial Sensitivity of a Model as a Function of the Image Distribution
|
Kunhardt, Owen
|
Osprey
|
Object Recognition: Models
|
|
I24
|
A Signature of Orientation Invariance in Human fMRI & (Some) Deep Neural Networks
|
Conwell, Colin
|
Osprey
|
Object Recognition: Models
|
|
I25
|
High-performing computational models of visual cortex are marked by high intrinsic dimensionality
|
Elmoznino, Eric
|
Osprey
|
Object Recognition: Models
|
|
I26
|
Hierarchically Local Tasks and Deep Convolutional Networks
|
Deza, Arturo
|
Osprey
|
Object Recognition: Models
|
|
I27
|
VISCNN: A tool for Visualizing Interpretable Subgraphs in CNNs
|
Hamblin, Christopher
|
Osprey
|
Object Recognition: Models
|
|
I28
|
Synthesizing preferred stimuli for individual voxels in the human visual system
|
Seeliger, K.
|
Osprey
|
Object Recognition: Models
|
|
I29
|
A unifying parametric language and a toolbox for future investigations of the role of the medial axis parameters in human vision.
|
Morfoisse, Théo
|
Osprey
|
Object Recognition: Models
|
|
I30
|
Bayesian inference of population prevalence
|
Ince, Robin
|
Osprey
|
Object Recognition: Models
|
|
I32
|
A deep neural network trained with human-like visual experience on lookalike objects, perceives animacy in lookalike objects similar to the brain.
|
Duyck, Stefanie
|
Osprey
|
Object Recognition: Categories 2
|
|
I33
|
The Role of Retinal Position and Semantic Relatedness of Objects on The Familiar-Size Stroop Effect
|
Kollenda, Diana
|
Osprey
|
Object Recognition: Categories 2
|
|
I34
|
Limitations on Animacy Categorization in Ensemble Perception
|
Khvostov, Vladislav
|
Osprey
|
Object Recognition: Categories 2
|
|
I35
|
On the time course of Conscious and Unconscious Semantic Processing
|
Micher, Nitzan
|
Osprey
|
Object Recognition: Categories 2
|
|
I41
|
Perceived timing of stimuli briefly stabilized on the retina during microsaccades
|
Klanke, Jan-Nikolas
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I42
|
The Effects of Abutting Pattern Motion and Smooth Pursuit Eye Movement on the Visibility of Low-Contrast Luminance-Modulated Target Gratings
|
Alashan, Didem
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I43
|
Theoretical evidence for an active model of edge sensitivity in human lightness perception
|
Schmittwilken, Lynn
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I44
|
Lawful kinematics of saccades predict the limits of high-speed motion perception
|
Rolfs, Martin
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I45
|
Initiating the tracking of a target moving across the central visual field: a study in macaque monkey
|
Orlando-Dessaints, Nicolas
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I46
|
The Effect of Target Motion and Smooth Pursuit Eye Movement on the Visibility of Isoluminant Target Gratings
|
Tanrıverdi, Dilce
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I47
|
Classifying binary decision-outcomes from pupil dilation: A random forest approach
|
Strauch, Christoph
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I48
|
Unfold.jl: Leveraging Julia to fit fast and flexible Linear(Mixed)Models to EEG data with optional overlap correction or spline regression
|
Ehinger, Benedikt V.
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I49
|
Midbrain superior colliculus motor bursts do not dictate saccade kinematics
|
Hafed, Ziad
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I50
|
More and faster secondary saccades after a lesion to the posterior parietal cortex
|
Böing, Sanne
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I51
|
Fixation Related Microsaccade Inhibition in Free-Viewing and its Dependence on Stimulus Saliency
|
Kadosh, Oren
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I52
|
Contrast Sensitivity of Vertical Vergence Eye Alignment
|
Dhungel, Deepa
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I53
|
Linking individual differences in fixational eye movements and visual acuity
|
Clark, Ashley
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I54
|
Rapid and persistent visual adaptation transfers across saccades
|
Hübner, Carolin
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I55
|
Saccades and pupil size are driven by a common arousal-related input
|
Burlingham, Charlie
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I56
|
How fixation durations are related to the functional visual field and target guidance
|
Ernst, Daniel
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I57
|
Fixation-related potentials in total darkness
|
Dimigen, Olaf
|
Manatee
|
Eye Movements: Perception, neural mechanisms
|
|
I58
|
The weights of internal and external motion driving the double-drift illusion depend on the external speed
|
Faustin, Victoria
|
Manatee
|
Motion Perception 2
|
|
I59
|
Temporal integration window of the double-drift illusion: an immediate effect of the internal motion
|
Heller, Nathan H.
|
Manatee
|
Motion Perception 2
|
|
I60
|
Exploring common mechanisms of visual motion prediction
|
Hu, Dan
|
Manatee
|
Motion Perception 2
|
|
I61
|
Position shifts following motion aftereffects in non-static translating stimuli result in angled trajectories
|
Patel, Nisha
|
Manatee
|
Motion Perception 2
|
|
I62
|
The Orbiting Circles Illusion: Induced changes in the length and direction of motion trajectory
|
Mruczek, Ryan
|
Manatee
|
Motion Perception 2
|
|
I63
|
Eccentricity Dependence of Motion Induced Position Shifts Revealed by Continuous Motion Nulling
|
Chen, Shuyi
|
Manatee
|
Motion Perception 2
|
|
I64
|
Idiosyncratic preferences in translational and rotational motion transparency
|
Hwang, Byung-Woo
|
Manatee
|
Motion Perception 2
|
|
I65
|
Paradoxical frame stabilization for flashed but not continuous probes
|
Cavanagh, Patrick
|
Manatee
|
Motion Perception 2
|
|
I66
|
The effect of a moving reference frame depends on its perceived not physical motion
|
Saleki, Sharif
|
Manatee
|
Motion Perception 2
|
|
I67
|
High phi as a probe of global motion processing
|
Bossard, Martin
|
Manatee
|
Motion Perception 2
|
|
I68
|
Sex differences in visual processing: Does it relate to other cognition or behaviors?
|
Qian, Yiming
|
Manatee
|
Motion Perception 2
|
|
I69
|
Causality detection in the visual system is tuned to motion direction
|
Ohl, Sven
|
Manatee
|
Motion Perception 2
|
|
I70
|
Visual Prediction of Bounce Trajectories
|
Paulun, Vivian C.
|
Manatee
|
Motion Perception 2
|
|
I71
|
Effects of behavioural properties on the perception of collective flow
|
van Assen, Jan Jaap R.
|
Manatee
|
Motion Perception 2
|
|
I81
|
Explicit Ensemble Perception of Temporal and Spatio-temporal Element Sequences
|
Pavlovskaya, Marina
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I82
|
Influences of Prior Experience on Current-trial Ensemble Perception
|
Khayat, Noam
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I83
|
The effect of spatial frequency on perceiving the gist of abnormality in mammograms
|
Raat, Emma M.
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I84
|
Perceived position stabilization depends on the moving frame’s displacement: an online study
|
't Hart, Bernard Marius
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I85
|
How far away is your phone in this picture? Determining object distance and size in a 2D scene
|
Kim, John Jong-Jin
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I86
|
Discrete field-of-view primes reinstate holistic representations of 360° space
|
Mynick, Anna
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I87
|
Systematic transition from boundary extension to contraction along an object-scene continuum
|
Park, Jeongho
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I88
|
The adult visual system resists learning continuity violations
|
Bai, Dawei
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I89
|
Influences on the visual categorization of naturalistic structures in infancy and early childhood
|
Schlegelmilch, Karola
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I90
|
Neurophysiologically-inspired model for social interactions recognition from abstract and naturalistic stimuli
|
Giese, Martin A.
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I91
|
Comparison of threshold measurements in laboratory and online studies using a Quest+ algorithm
|
Myrodia, Vasiliki
|
Dolphin
|
Scene Perception: Cognitive processes 2
|
|
I92
|
Visual to motor cross-decoding of hand shapes from mirror neuron activity
|
Tzamali, Eleftheria
|
Dolphin
|
Perception and Action: Neural mechanisms 2
|
|
I93
|
How visual feedback influence neural dynamics in macaque medial posterior parietal cortex
|
Diomedi, Stefano
|
Dolphin
|
Perception and Action: Neural mechanisms 2
|
|
I94
|
Differential visuomotor and somatosensory claustral inputs to macaque medial posterior parietal cortex
|
Gamberini, Michela
|
Dolphin
|
Perception and Action: Neural mechanisms 2
|
|
I95
|
Neural correlates of eye-position and proprioception during reaching in the superior parietal lobule of the macaque
|
Tabanelli, Marta
|
Dolphin
|
Perception and Action: Neural mechanisms 2
|
|
I96
|
Contrast sensitivity is formed by visual experience and task demands
|
Akbarinia, Arash
|
Dolphin
|
Spatial Vision: Psychophysics 2
|
|
I97
|
Effect of age on threshold and suprathreshold contrast vision
|
Ashraf, Maliha
|
Dolphin
|
Spatial Vision: Psychophysics 2
|
|
I98
|
Spatial properties of the adaptation-based compression of perceived distance
|
Jovanovic, Ljubica
|
Dolphin
|
Spatial Vision: Psychophysics 2
|
|
I99
|
Y-like human psychophysical responses to contrast modulated patterns
|
Ramirez Hernandez, Ana Leticia
|
Dolphin
|
Spatial Vision: Psychophysics 2
|
|
I100
|
Spatial modulation of contour integration: The role of eccentricity, inter-element spacing and display density
|
Reuther, Josephine
|
Dolphin
|
Spatial Vision: Psychophysics 2
|
|
I101
|
Contrast surround suppression in people with psychosis: A behavioral and 7 tesla fMRI study
|
Moser, Hannah R.
|
Dolphin
|
Spatial Vision: Neural Mechanisms 2
|
|
I102
|
Cross-dataset reproducibility of population receptive field (pRF) estimates and retinotopic map structure
|
Himmelberg, Marc
|
Dolphin
|
Spatial Vision: Neural Mechanisms 2
|
|
I103
|
Can neurochemical concentrations in the visual cortex differentiate patients with psychosis from healthy controls via multivariate decoding?
|
Killebrew, Kyle
|
Dolphin
|
Spatial Vision: Neural Mechanisms 2
|
|
I104
|
Information redundancy across spatial scales modulates early visual cortex responses
|
Petras, Kirsten
|
Dolphin
|
Spatial Vision: Neural Mechanisms 2
|
|
I105
|
Structure-function relationship of retinal ganglion cells in multiple sclerosis
|
Al-Nosairy, K.O.
|
Dolphin
|
Spatial Vision: Neural Mechanisms 2
|
|
I106
|
Comparison of decoding of visual-evoked potentials from tri-polar and conventional EEG
|
Kelly, Sean
|
Dolphin
|
Spatial Vision: Neural Mechanisms 2
|
|
I121
|
Fragile Memories for Fleeting Percepts
|
Aviles, Alberto
|
Egret
|
Visual Memory: Capacity and content
|
|
I122
|
Induced forgetting is the result of true forgetting, not shifts in decision-making thresholds
|
Megla, Emma E.
|
Egret
|
Visual Memory: Capacity and content
|
|
I123
|
Is attribute amnesia really just forgetting?: Assessing the influence of reading on surprise trial performance
|
O'Donnell, Ryan
|
Egret
|
Visual Memory: Capacity and content
|
|
I124
|
Isolating Working Memory Capacity Deficits from Sustained Attention Deficits in Patients with Schizophrenia Using a Single Behavioral Task
|
Harrison, Geoffrey W.
|
Egret
|
Visual Memory: Capacity and content
|
|
I125
|
Switching target templates decreases search efficiency in efficient search
|
Lin, Zuhan
|
Egret
|
Visual Memory: Capacity and content
|
|
I126
|
The new K on the block: working memory capacity estimates from a memory game
|
Wick, Farahnaz
|
Egret
|
Visual Memory: Capacity and content
|
|
I128
|
Individual Differences in Working Memory Capacity Are Unrelated to the Magnitude of Benefits from Object- and Dimension-Based Retro-Cues
|
Ye, Chaoxiong
|
Egret
|
Visual Memory: Capacity and content
|
|
I129
|
Just How Great are Those Expectations? Evaluating the Influence of Object-Color Violations on Visual Memory for Object-Shape
|
Persaud, Kimele
|
Egret
|
Visual Memory: Capacity and content
|
|
I130
|
Revealing the Relative Contributions of Conceptual and Perceptual Information to Visual Memorability
|
Kramer, Max
|
Egret
|
Visual Memory: Capacity and content
|
|
I131
|
Retro-cue benefits are not resource-based
|
Lin, Yin-ting
|
Egret
|
Visual Memory: Capacity and content
|
|
I132
|
The role of meaning in visual working memory: Real-world objects, but not simple features, benefit from deeper processing
|
Stoermer, Viola
|
Egret
|
Visual Memory: Capacity and content
|
|
I133
|
The Visual Mandela Effect: Evidence for specific shared false memories in popular iconography
|
Prasad, Deepasri
|
Egret
|
Visual Memory: Capacity and content
|
|
I134
|
Visual Hindsight Bias for Mammogram Abnormalities in Expert Radiologists
|
Schill, Hayden
|
Egret
|
Visual Memory: Capacity and content
|
|
I135
|
Retrospective Behavioral Sampling: A method to effectively track fluctuations in cognitive states during naturalistic audiovisual stimulation
|
Brandman, Talia
|
Egret
|
Multisensory Processing 3
|
|
I136
|
Unpredictive linguistic verbal cues accelerate congruent visual targets into awareness
|
Paffen, Chris
|
Egret
|
Multisensory Processing 3
|
|
I137
|
EEG signature of evidence integration suggests distinct visual and auditory representation in multisensory context
|
Schaffhauser, Thomas
|
Egret
|
Multisensory Processing 3
|
|
I138
|
Decoding semantic sound categories in Early Visual Cortex
|
Pollicina, Giusi
|
Egret
|
Multisensory Processing 3
|
|
I139
|
Statistical learning decreases sensitivity to temporal asynchrony of events within as well as across modalities
|
Reguly, Helga
|
Egret
|
Multisensory Processing 3
|
|
I140
|
Integration of visual and haptic texture information: Lederman & Abbott revisited
|
Kangur, Karina
|
Egret
|
Multisensory Processing 3
|
|
I141
|
Influence of tactile flow on visual heading perception
|
Rosenblum, Lisa
|
Egret
|
Multisensory Processing 3
|
