Abstract# 
|
Poster Title
|
First Author
|
Session
|
Room
|
26.301
|
Separate normalization of ON / OFF channels is not enough to account for perceived brightness
|
Vincent, Joris
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.302
|
The role of rod and cone signals in mesopic brightness induction
|
Barrionuevo, Pablo A.
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.303
|
The asymmetry between achromatic increments and decrements in perceptual scaling and discrimination
|
Shi, Yangyi
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.304
|
Luminance and heterochromatic brightness
|
Guan, Shuchen
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.305
|
Effect of Background Color and Light Source Intensity on Lightness Discrimination Thresholds
|
Reynolds, Devin
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.306
|
Measuring lightness constancy with varying realism
|
Künstle, David-Elias
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.307
|
Discriminating color ensembles
|
Macyczko, Jesse R.
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.308
|
Can deep neural networks for intrinsic image decomposition model human lightness constancy?
|
Flachot, Alban
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.309
|
Eye closure elicits qualitatively distinct responses within the lateral geniculate nucleus and visual cortex
|
Cicero, Nicholas
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.310
|
Free and fast implementations of a novel lightness computational model
|
Kobayashi, Yuki
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.311
|
Statistical properties of 1st- and 2nd-order brightness induction in a disk/annulus paradigm
|
Kavcar, Osman B.
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.312
|
Linearisation of a monitor for web-based experiments
|
Peirce, Jonathan
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.313
|
Optimizing data acquisition for MLDS: when is it valid to take a short-cut?
|
Aguilar, Guillermo
|
Color, Light and Materials: Lightness, brightness
|
Banyan Breezeway
|
26.314
|
Color naming, color identification, and the focal color terms
|
brown, Angela
|
Color, Light and Materials: Cognition
|
Banyan Breezeway
|
26.315
|
Hue ensemble segregation does not rely on color categories
|
Virtanen, Lari
|
Color, Light and Materials: Cognition
|
Banyan Breezeway
|
26.316
|
Hue variation masks effects of lightness on interpretations of colormap data visualizations
|
Zimnicki, Clementine
|
Color, Light and Materials: Cognition
|
Banyan Breezeway
|
26.317
|
Investigation of the opaque-is-more bias reveals a high chroma-is-more bias for colormap data visualizations
|
Schoenlein, Melissa A.
|
Color, Light and Materials: Cognition
|
Banyan Breezeway
|
26.318
|
Active attentional suppression and its limitations in the template-for-rejection effect
|
Tanda, Tomoyuki
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.319
|
Are complex attentional templates restricted to a single location?
|
Racioppo, Keith
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.320
|
Reduced contextual variability facilitates learned attending towards task-relevant features and away from distracting information
|
Jungerius, Chris
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.321
|
Selection errors: How do target and distractor features affect attentional capture and learning of spatial distractor regularities?
|
Hanne, Aylin A.
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.322
|
Spatial distraction reverses category-tuned attentional filters by disrupting both facilitation and suppression
|
Dube, Blaire
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.323
|
Effort-driven attentional capture
|
McKinney, Molly
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.324
|
Learned reliability of a distracting cue impacts feature errors
|
McNally, John A.
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.325
|
Value-Driven Attentional Capture and Reward Variability
|
Youn, Sojung
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.326
|
It’s All About Me: Attentional Prioritization of Self-Rewarding Information
|
Warren, Rebecca
|
Attention: Top-down, reward
|
Banyan Breezeway
|
26.327
|
Contribution of a common ability in judgments for the mode of object identities
|
Cha, Oakyoon
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.328
|
Face recognition plays a role in ensemble judgments of facial features
|
Kim, Soo Jin
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.329
|
Effects of Age and Fixation Location on Face Identification
|
Cui, Eric
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.330
|
Individual differences in judging facial categories
|
Lee, Kassandra R.
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.331
|
Individual differences in rapid face-directed saccades
|
Broda, Maximilian Davide
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.332
|
Stable individual differences in the serial dependence of face perception
|
Murai, Yuki
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.333
|
The computational value of face information sampled by super-recognizers
|
Miellet, Sebastien
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.334
|
Impact of judgment criteria on the hue-dependent brightness perception of face
|
He, Yuanyuan
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.335
|
Does Observers’ Ethnicity Influence Visual Strategies for Gender and Expressiveness Judgments ?
|
Charbonneau, Isabelle
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.336
|
Mixed-race categorization of Asian-White and Asain-Black faces in Taiwanese children and adults: effect of skin color revealed by a 3AFC task
|
Chien, Sarina Hui-Lin
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.337
|
Development of Electrophysiological Correlates of Face/non-face Distinction in Children with Late Sight Onset
|
Ralekar, Chetan
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.338
|
The visual perks of (not) being a wallflower: how individual differences in social intelligence predict face recognition performance
|
Carter, Maleah J.
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.339
|
Autistic adults exhibit highly precise representations of others’ emotions but a reduced influence of emotion representations on emotion recognition accuracy
|
COOK, JENNIFER
|
Face Perception: Individual differences
|
Banyan Breezeway
|
26.340
|
The impact of face ethnicity on the detection of pain facial expressions
|
Sénécal, Daphnée
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.341
|
Which gender do we perceive in a painful face?
|
Saumure, Camille
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.342
|
Mental Representations of Pain: the Effect of the Sex of the Perceiver
|
Richer, Arianne
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.343
|
Emotional judgments depend on perceived gender
|
Mirzaei Domabi, Sheida
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.345
|
Longer presentation duration helps to individuate faces in an RSVP stream
|
Deepu Rajan, Nidhi
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.346
|
The Contextual Affects of Facial Expression
|
Cui, Bliss
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.347
|
Positive and negative facial valence are differently modulated by eccentricity: Replicating and extending earlier findings
|
Akselevich, Vasilisa
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.348
|
Unbiased by redundant signals: Negativity bias for emotion perception of single but not two identical faces
|
Dandan, Yu R.
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.349
|
Angry faces do draw out attention more compared to happy faces
|
Yoon, Young Jun
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.350
|
Upside-Down Selfies Look Much More Alert and Awake
|
McBeath, Michael K.
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.351
|
Modeling Emotional Cue Integration of Context-rich and Dynamic Stimuli reveals Bayesian as well as anti-Bayesian Properties
|
Ortega, Jefferson
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.352
|
The visual representation of pain facial expressions: a high-definition transcranial direct current stimulation study
|
Desjardins, Marie-Claude
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.353
|
Decoding the neural representations of emotional faces in stereo- versus monoscopic viewing conditions
|
Klotzsche, Felix
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.354
|
Probing the link between dynamics of “face-selectivity” in macaque IT cortex and facial emotion discrimination behavior
|
Wehrheim, Maren
|
Face Perception: Emotion
|
Banyan Breezeway
|
26.355
|
Are Artificial Motion Scotomas Driven by Cortical Feedback or Lateral Inhibition Mechanisms? Undergraduate Just-In-Time Submission
|
Chu, Wing Kwan Hannah
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.356
|
Somehow, everything has changed: Event boundaries defined only by unnoticed changes in implicit visuospatial statistics drive active forgetting in visual working memory Undergraduate Just-In-Time Submission
|
Dhar, Pranava
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.357
|
VWM Impairs Visual Detection: A Function of Shared Attentional or Sensory Resources Undergraduate Just-In-Time Submission
|
Hamkari, Aysha
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.358
|
Effects of Familiarity in Advertisements Logos During The Attentional Blink Undergraduate Just-In-Time Submission
|
Besch, Shaun
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.359
|
Target similarity in the attentional blink explained by recurrent convolutional networks Undergraduate Just-In-Time Submission
|
Lebeau, Emmanuel
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.360
|
Reconstruction of Motion Feature Maps From Human Cortex Using An Augmented Inverted Encoding Model Undergraduate Just-In-Time Submission
|
Ding, Connor
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.361
|
Seeing both sides of things: Exploring visual consciousness and self-awareness Undergraduate Just-In-Time Submission
|
Das, Anwesha
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.362
|
The automaticity of 'seeing-in': Pictorial depth cues influence judgments of surrounding spatial relationships even when task-irrelevant Undergraduate Just-In-Time Submission
|
Zhang, Kexuan
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.363
|
Interaction of expectancy effects and the illusory object benefit on working memory performance Undergraduate Just-In-Time Submission
|
Rodriguez, Phelix
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.364
|
The Things-Action Database Undergraduate Just-In-Time Submission
|
Pallis-Hassani, Natalia
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.365
|
Investigating the neural development of social scene perception in young children using naturalistic stimuli Undergraduate Just-In-Time Submission
|
Im, Elizabeth Jiwon
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.366
|
Target interception in virtual reality is faster for natural than unnatural trajectory shapes Undergraduate Just-In-Time Submission
|
Varon, Sofia
|
Undergraduate Just-In-Time 1
|
Banyan Breezeway
|
26.401
|
Do fewer salient events modulate the emotional attentional blink?
|
Santacroce, Lindsay A.
|
Attention: Affect, threat
|
Pavilion
|
26.402
|
Effects of Emotional Distractors on the Processing of Motion Stimuli
|
Xiong, Changhao
|
Attention: Affect, threat
|
Pavilion
|
26.403
|
Emotional Valence Effects on Facilitation of Cognitive Control
|
Malykke, Sarah B.
|
Attention: Affect, threat
|
Pavilion
|
26.404
|
Failure to replicate an effect of affective state on attentional breadth and attentional blink
|
Saunders, Jeffrey
|
Attention: Affect, threat
|
Pavilion
|
26.405
|
Generalization of threat-related attentional priority with visual objects
|
Moore, Kirsten
|
Attention: Affect, threat
|
Pavilion
|
26.407
|
Investigating the interaction between affective arousal and luminance in modulating pupil size
|
Pan, Jasmine
|
Attention: Affect, threat
|
Pavilion
|
26.408
|
Neural Processing of Affective Scenes: A Comparison between Convolutional Neural Networks and Human Visual Pathways
|
Chen, Yujun
|
Attention: Affect, threat
|
Pavilion
|
26.409
|
Vicarious learning of threat-related attentional capture
|
Grégoire, Laurent
|
Attention: Affect, threat
|
Pavilion
|
26.410
|
How robust are negative attentional templates?
|
Han, Sizhu
|
Attention: Affect, threat
|
Pavilion
|
26.411
|
Peri-saccadic mislocalization in a rhesus macaque monkey depends on the visual appearance of the saccade target
|
Baumann, Matthias Philipp
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.412
|
Pre-saccadic modulation of collinear lateral interactions
|
Mueller de Melo, Gabriela
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.413
|
Post-saccadic impairment of scene perception
|
Choi, Yong Min
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.414
|
Is trans-retinal integration exclusive to saccades?
|
Hübner, Carolin
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.415
|
Robust and saccade-specific feature blanking effect for a wide range of spatial frequencies, sizes and eccentricities
|
Grzeczkowski, Lukasz
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.416
|
Microsaccade rates reflect trial difficulty for perifoveal motion discrimination
|
Ezzo, Rania
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.417
|
The influence of task-irrelevant landmarks on spatiotopic localization and object-location binding
|
Lu, Zitong
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.418
|
Are smooth pursuit eye movements influenced by perceptual experience?
|
Daumail, Loic
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.419
|
The perceived motion of stimuli moving with, or opposite to, the direction of eye motion
|
D'Angelo, Josephine
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.420
|
Serial dependence in Oculomotor inhibition uncovers stimulus predictability: what, where, and when
|
Shwartz, Yahel
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.421
|
Motion prediction explains saccadic omission
|
Zimmermann, Eckart
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.422
|
Eye Movements during Free Viewing and Scene Description are Similarly Directed to Objects Critical to Scene Understanding
|
Murlidaran, Shravan
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.423
|
Sound-induced pupil dilation response reflects location in auditory space
|
Liao, Hsin-I
|
Eye Movements: Perception, remapping
|
Pavilion
|
26.424
|
Can a gamified, rapid, online assessment of letter encoding ability in kindergarten and first grade children predict future reading development?
|
Ramamurthy, Mahalakshmi
|
Object Recognition: Reading
|
Pavilion
|
26.425
|
Diverse reading themes for readability
|
Cai, Tianyuan
|
Object Recognition: Reading
|
Pavilion
|
26.426
|
How reading acquisition changes the landscape of the function within the visual word form area
|
Li, Jin
|
Object Recognition: Reading
|
Pavilion
|
26.427
|
Interacting effects of stimulus familiarity, attention and language in the visual word form area
|
Chauhan, Vassiki
|
Object Recognition: Reading
|
Pavilion
|
26.428
|
Psychophysics of variable fonts: Gaze measures of reading efficiency
|
Haseeb, Zainab
|
Object Recognition: Reading
|
Pavilion
|
26.429
|
Psychophysics of variable fonts: Speed and comprehension measures
|
Guidi, Silvia
|
Object Recognition: Reading
|
Pavilion
|
26.430
|
RSVP reading speed varies two-fold across fonts, in inverse proportion to crowding distance
|
Pelli, Denis G.
|
Object Recognition: Reading
|
Pavilion
|
26.431
|
Semantically related Korean words can be processed in parallel
|
Yoo, Sang-Ah
|
Object Recognition: Reading
|
Pavilion
|
26.432
|
The spatiotemporal dynamics of letter processing in visual word recognition elucidated by random temporal sampling
|
Arguin, Martin
|
Object Recognition: Reading
|
Pavilion
|
26.433
|
The visual word form area engages in processing Braille in expert visual readers
|
Cerpelloni, Filippo
|
Object Recognition: Reading
|
Pavilion
|
26.434
|
Visual Word Recognition in Text Prediction Users and Non-Users
|
Djedilbaev, Timurhan
|
Object Recognition: Reading
|
Pavilion
|
26.436
|
Are crossed and uncrossed disparities processed by the same mechanism?
|
Wang, Penghan
|
Binocular Vision: Disparity processing
|
Pavilion
|
26.438
|
Global versus local internal disparity noise in stereovision
|
Ding, Jian
|
Binocular Vision: Disparity processing
|
Pavilion
|
26.439
|
Stereopsis from interocular temporal delay: disentangling the effects of target versus background luminance
|
Doi, Takahiro
|
Binocular Vision: Disparity processing
|
Pavilion
|
26.440
|
Efficient Coding Predicts Changes in Motion-in-Depth Speed Judgements
|
Murray, Lauren
|
Binocular Vision: Disparity processing
|
Pavilion
|
26.441
|
Characterizing frontoparallel stereoscopic motion by measuring duration thresholds
|
Serrano-Pedraza, Ignacio
|
Binocular Vision: Disparity processing
|
Pavilion
|
26.442
|
A different point of view: The entrance pupil, not the nodal point, is the center of projection
|
Duijnhouwer, Jacob
|
3D: Cues and integration
|
Pavilion
|
26.443
|
The disparity gradient limit has limited relevance to natural environments
|
Aksay, Arleen
|
3D: Cues and integration
|
Pavilion
|
26.444
|
Just-Noticeable Differences do not reflect depth cue uncertainty: Evidence from depth discrimination between motion and disparity stimuli
|
Kemp, Jovan
|
3D: Cues and integration
|
Pavilion
|
26.445
|
A Prior for Convexity can Override the Rigidity Assumption in Structure-From-Motion
|
Choi, Ryne
|
3D: Cues and integration
|
Pavilion
|
26.446
|
What changes after visuomotor training? Cue reweighting may in fact be cue recalibration
|
Deng, Ailin
|
3D: Cues and integration
|
Pavilion
|
26.447
|
Action-response mode modulates go/no-go decision accuracy
|
Kreyenmeier, Philipp
|
Perception and Action
|
Pavilion
|
26.449
|
Why does what you’re moving affect how fast you search?
|
Crowe, Emily M
|
Perception and Action
|
Pavilion
|
26.450
|
Sensorimotor Synchronization to External and Imagined Visual Stimuli
|
Jiang, Fang
|
Perception and Action
|
Pavilion
|
26.451
|
Effects of motor preparation on category-specific representations in human cortex
|
Luo, Canhuang
|
Perception and Action
|
Pavilion
|
26.452
|
The influence of active tracing on shape representation in visual pathways
|
Baratz, Guy
|
Perception and Action
|
Pavilion
|
26.453
|
Visually guided (joint) action in a novel ball-and-beam task
|
Hafkamp, Marijn
|
Perception and Action
|
Pavilion
|
26.454
|
Neural bases of attentional contexts that mediate visuomotor adaptation
|
Im, Hee Yeon
|
Perception and Action
|
Pavilion
|
26.455
|
The locus of flanker congruency effects: Insights from Bayesian modelling and a choice reaching flanker task using random dot kinematograms.
|
Deakin, Jordan
|
Perception and Action
|
Pavilion
|
26.456
|
Intention as Hierarchical Constraints in Human Planning
|
Zhu, Jingyin
|
Perception and Action
|
Pavilion
|
26.457
|
A Simplified Model of Motor Control
|
Arora, Kabir
|
Perception and Action
|
Pavilion
|
26.458
|
Strong evidence against number adaptation
|
Yousif, Sami
|
Perception and Action
|
Pavilion
|
26.459
|
Metacognitive monitoring of the perceptual resolution across and around the visual field
|
Kim, Cheongil
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.460
|
Hemifield Asymmetries in Crowding
|
Oppenheimer, Nicole L.
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.461
|
Exploring perceptual sensitivity and response bias in the visual periphery
|
Pruitt, Joseph
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.462
|
Does your old clutter measure spark joy?
|
Rosenholtz, Ruth
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.463
|
An enhanced Bouma model fits fifty people’s visual crowding
|
Kurzawski, Jan
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.464
|
Pop-out and crowding effect in adults with ADHD
|
Tsruya, Hani
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.465
|
Interactions of crowding, overlap masking and surround suppression
|
Chung, Susana
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.467
|
Does pre-microsaccadic remapping alter parafoveal crowding zones?
|
Prahalad, Krish
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.468
|
Information compression determines the appearance of repeating patterns in peripheral vision
|
Hansmann-Roth, Sabrina
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.469
|
Can crowding distance be measured using standard letters in young children?
|
Waugh, Sarah J
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|
26.470
|
Featural representation underlies performance differences around the visual field
|
Xue, Shutian
|
Spatial Vision: Crowding and eccentricity
|
Pavilion
|