Abstract# 
|
Poster Title
|
First Author
|
Session
|
Room
|
56.301
|
The neurochemistry of adult sensory eye dominance plasticity
|
Kam, Ka Yee
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.302
|
Visual experience is necessary for selectivity of faces over language in the fusiform
|
Saccone, Elizabeth
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.303
|
Neural predictors of surprise in controlled visual task and naturalistic viewing contexts
|
Zhang, Ziwei
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.304
|
Neural representations of visual stimuli in primary visual cortex change as a function of threat and safety learning
|
Cui, Lihan
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.305
|
The medial prefrontal cortex and dorsolateral prefrontal cortex play complementary roles in facilitating visual perceptual learning during sleep
|
Yamada, Takashi
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.306
|
From repetition-based to reactivation-induced perceptual learning: engagement of higher-order attentional brain regions
|
Kondat, Taly
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.308
|
Direction discrimination training recovers fine orientation perception in V1-damage fields
|
Cavanaugh, Matthew
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.309
|
Bypassing V1: Orientation selectivity in hMT+ of cortically-blinded patients
|
Liu, Tina T.
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.310
|
The Timecourse of Distorted Representations in the Primary Visual Cortex
|
Erkat, O. Batuhan
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.311
|
Short-term monocular deprivation in adult humans alters pulvino-cortical functional connectivity measured with resting-state fMRI at ultra-high field
|
Acquafredda, Miriam
|
Plasticity and Learning: Cortex
|
Banyan Breezeway
|
56.312
|
Using tools as cues for dual adaptation to opposing visuomotor rotations in virtual reality
|
King, Andrew
|
Plasticity and Learning: Sensorimotor
|
Banyan Breezeway
|
56.313
|
Modulations of sensorimotor network through visual motor training in people with Parkinson's disease (PwPD)
|
DeSouza, Joseph FX
|
Plasticity and Learning: Sensorimotor
|
Banyan Breezeway
|
56.314
|
Specific motor learning induced by space-variant visual feedback distortion of the hand position
|
Sedda, Giulia
|
Plasticity and Learning: Sensorimotor
|
Banyan Breezeway
|
56.315
|
The effect of visual statistical learning on proactive motor control is modulated by transcranial random noise stimulation over frontoparietal cortex.
|
Ellena, Giulia
|
Plasticity and Learning: Sensorimotor
|
Banyan Breezeway
|
56.316
|
The domain-specific contribution of working memory to sensorimotor learning
|
O'Bryan, Sean
|
Plasticity and Learning: Sensorimotor
|
Banyan Breezeway
|
56.317
|
Effects of different kinds of feedback on unconscious action learning and unconscious perception learning
|
Gao, Jie
|
Plasticity and Learning: Sensorimotor
|
Banyan Breezeway
|
56.318
|
Grasping type affects Configural Encoding in Visual Working Memory
|
Ahn, Shinhae
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.319
|
Looking at the Ebbinghaus illusion: differences in fixations fail to explain a classic perception-action dissociation
|
Whitwell, Robert
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.320
|
Multisensory grasping relies on individual finger positions and their joint relationship
|
Camponogara, Ivan
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.321
|
Visual selection of multi-digit contact surfaces for objects of varying mass
|
Dehn, Kira Isabel
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.322
|
The simultaneous tilt illusion reveals separate yet interacting visual systems for perception and action
|
Hasan, Hasan A.
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.323
|
Visually occluded grasp modulates orientation representation in human early visual cortex
|
Threethipthikoon, Thanaphop
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.324
|
Shape Influences Perceived Ease of Grasping
|
Gunter, McKenzie
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.325
|
Abstract representations of grasping action parameters in the dorsal stream
|
Zur, Naama
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.326
|
How humans visually select how and where to grasp objects with articulated hands
|
Hartmann, Frieder
|
Perception & Action: Grasping
|
Banyan Breezeway
|
56.327
|
Psychophysical scale of optical distortions of multifocal spectacle lenses
|
Sauer, Yannick
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.328
|
People Separate Allocentric and Egocentric Cues to Judge Orientation of their Surroundings and the Self
|
Kim, Jong-Jin
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.329
|
Perceived absolute distances in the intermediate distance range (>2 m) affected by binocular vision and target duration
|
Chen, Yiya
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.330
|
Tracking Perceptual Depth with Eye Vergence Movements in Real World, Augmented Reality, and Virtual Reality Environments
|
Arefin, Mohammed Safayet
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.331
|
A method to align real and virtual objects for mixed reality investigations of visually guide grasping
|
Lepori, Fabrizio
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.332
|
Angular Expansion in Perceived Elevation Without a Visual Ground Plane
|
Tardeh, Prince
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.333
|
Vection, presence, and cybersickness in a virtual reality driving simulation
|
Hughes, Benjamin
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.334
|
Perceived location of a static target in the dark affected by self-motion in the natural environment
|
Yan, Lizhu
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.336
|
Pupil responses to near and far stimuli at varying fixation depths in virtual reality
|
Naber, Marnix
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.337
|
No evidence for a ‘close advantage’ effect in virtual reality
|
Hornsey, Rebecca
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.338
|
Affordances and expectations about depth play a role in real objects' access to visual awareness
|
Korisky, Uri
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.339
|
Correct rendering blur
|
Alshammari, Khatar
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.340
|
Exploration of laser-based augmented reality device in the investigation of melanopsin's role in human vision, via direct stimulation of the blind spot.
|
Tavakoli, Amir Vala
|
3D: Spatial layout and VR/AR
|
Banyan Breezeway
|
56.341
|
GAZE - a benchmark sample of free gaze behaviour towards complex scenes
|
Linka, Marcel
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.342
|
The influence of semantics and scene congruence on visual change detection during saccades
|
Odegaard, Brian
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.343
|
The Role of Prediction During Continuous Visual Tracking in 3D Environments
|
Marijan, Aleksandra
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.344
|
Cues for predictive eye movements in naturalistic scenes
|
Goettker, Alexander
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.345
|
Vergence performance to natural images of different sizes
|
Mestre, Clara
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.346
|
Dynamics of gaze and body while viewing omnidirectional stimuli
|
David, Erwan
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.347
|
Reconstructing pupillary dynamics during free-viewing of movies: the roles of pupil light and orienting responses
|
Cai, Yuqing
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.348
|
Looking for potential action: Differences in exploration behavior of static and (potentially) dynamic scenes
|
Roth, Nicolas
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.349
|
Free Moving Gaze-related Electroencephalography in Mobile Virtual Environments
|
Wu, Ying Choon
|
Eye Movements: Scenes, VR, 3D
|
Banyan Breezeway
|
56.350
|
Recasting visual areas specialized for processing optic flow in the human brain
|
Li, Li
|
Motion: Optic flow
|
Banyan Breezeway
|
56.351
|
Retinal flow controls gait during natural locomotion
|
Panfili, Daniel
|
Motion: Optic flow
|
Banyan Breezeway
|
56.352
|
Retinal optic flow during real-world bahavior
|
Matthis, Jonathan
|
Motion: Optic flow
|
Banyan Breezeway
|
56.353
|
Speed estimation for spatiotemporally bound and unbound motion stimuli
|
Martinatti Giorjiani, Giuliana
|
Motion: Optic flow
|
Banyan Breezeway
|
56.354
|
Temporal stability of human heading perception
|
Layton, Oliver
|
Motion: Optic flow
|
Banyan Breezeway
|
56.355
|
The Effects of Environmental Structure and Texture on Perceived Travel Distance
|
Bansal, Ambika
|
Motion: Optic flow
|
Banyan Breezeway
|
56.356
|
Travel distance estimation from biological motion and optic flow
|
Hülemeier, Anna-Gesina
|
Motion: Optic flow
|
Banyan Breezeway
|
56.357
|
Natural scene statistics of figure-ground motion in MT receptive fields
|
Wang, Clara Tenia
|
Motion: Optic flow
|
Banyan Breezeway
|
56.358
|
Comparing Visual and Omniscient Models of Collective Crowd Motion
|
Falandays, James
|
Motion: Optic flow
|
Banyan Breezeway
|
56.359
|
A moving watercolor illusion
|
Kral, Austin
|
Perceptual Organization: Contour integration, common fate
|
Banyan Breezeway
|
56.360
|
Contour Integration Using Boundary and Region Information
|
Hii, Doreen
|
Perceptual Organization: Contour integration, common fate
|
Banyan Breezeway
|
56.361
|
Detecting Correlated Target Motion in Moving and Static Dot Arrays
|
Rogowitz, Bernice
|
Perceptual Organization: Contour integration, common fate
|
Banyan Breezeway
|
56.362
|
Feature-selective mechanisms that underlie the perception of causality
|
Ohl, Sven
|
Perceptual Organization: Contour integration, common fate
|
Banyan Breezeway
|
56.363
|
Gestalt grouping vs. ensemble perception when following a crowd
|
Warren, William
|
Perceptual Organization: Contour integration, common fate
|
Banyan Breezeway
|
56.365
|
High Spatial Frequency Stimuli Amplify Visual Integration Deficits in Schizophrenia and Bipolar Disorder
|
Abrham, Yonatan
|
Perceptual Organization: Contour integration, common fate
|
Banyan Breezeway
|
56.401
|
Visuo-semantic clashes: What happens when objects do not look like they should?
|
Ólafsdóttir, Inga María
|
Object Recognition: Categories
|
Pavilion
|
56.402
|
Control of BOLD fMRI Responses Via Stimuli Generated with Voxel-Weighted Neural Network Activation Maximization
|
Shinkle, Matthew
|
Object Recognition: Categories
|
Pavilion
|
56.403
|
Assessing the feasibility of high stimulus presentation rates for contrasting conditions in functional MRI studies
|
Roth, Johannes
|
Object Recognition: Categories
|
Pavilion
|
56.404
|
Category trumps shape as an organizational principle of object space in the human occipitotemporal cortex
|
Yargholi, Elahe
|
Object Recognition: Categories
|
Pavilion
|
56.405
|
Comparing Human Object Learning with Deep Neural Networks
|
Peng, Yinuo
|
Object Recognition: Categories
|
Pavilion
|
56.406
|
Optimizing Naturalistic Object Categorization with Diagnostic Low-Level Visual Information
|
Xie, Yongzhen
|
Object Recognition: Categories
|
Pavilion
|
56.407
|
Temporal dynamics of stereoscopic object classification
|
Li, Zhen
|
Object Recognition: Categories
|
Pavilion
|
56.408
|
The tortoise and the hare: Fast and slow learners in an object categorization task
|
Tanaka, James
|
Object Recognition: Categories
|
Pavilion
|
56.409
|
Visual adaptation to non-face animate objects elicits temporally robust high-level aftereffects
|
Reindl, Antonia
|
Object Recognition: Categories
|
Pavilion
|
56.410
|
A common neural code for representing imagined and inferred tastes
|
Avery, Jason
|
Object Recognition: Categories
|
Pavilion
|
56.411
|
Probing feature spaces of object categories with a drawing task
|
Tiedemann, Henning
|
Object Recognition: Categories
|
Pavilion
|
56.412
|
The Sequential categorization identification paradigm: A New paradigm for combined inferences
|
Ak, Aylin
|
Object Recognition: Categories
|
Pavilion
|
56.413
|
Spatial-frequency channels for object recognition by neural networks are twice as wide as those of humans
|
Subramanian, Ajay
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.414
|
Detectability of optogenetic stimulation in inferior temporal cortex in non-human primates depends on the plausibility of a corresponding visual event in the external world
|
Lafer-Sousa, Rosa
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.415
|
Neurons in macaque V4 prefer natural images to scrambled textures
|
Lieber, Justin D.
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.416
|
Probing the role of bypass connections in core object recognition by chemogenetic suppression of macaque V4 neurons
|
Kar, Kohitij
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.417
|
Simultaneous recordings from posterior and anterior body-responsive regions in the macaque Superior Temporal Sulcus.
|
Bognar, Anna
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.418
|
Adaptation to numerosity changes monotonic responses of early visual cortex
|
Zhang, Liangyou
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.419
|
Color and Shape Contingency Representations in Rhesus Macaques
|
Loggia, Spencer
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.420
|
Recurrent processing in the visual cortex during object recognition
|
Maniquet, Timothée
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.421
|
The effects of visual backward masking on visual spatiotemporal dynamics
|
Xie, Siying
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.422
|
Changes in the speed of visual processing between foveola and perifovea: a combined behavioral and EEG investigation
|
Poletti, Martina
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.423
|
Lesioning category-selective units in silico yields functionally specialized deficits
|
Prince, Jacob S.
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.424
|
Evaluating the Central-Peripheral Dichotomy in human visual cortex using anatomical and retinotopic data in Human Connectome Project
|
Zhaoping, Li
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.425
|
Brain-optimized models reveal increase in few-shot concept learning accuracy across human visual cortex
|
St-Yves, Ghislain
|
Object Recognition: Neural mechanisms
|
Pavilion
|
56.426
|
Faces Are Not Processed Holistically in Ensemble Judgments
|
Gauthier, Isabel
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.427
|
Two faces of holistic face processing: Facilitation and interference underlying holistic processing paradigms
|
Jin, Haiyang
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.428
|
A novel framework to study configural and holistic processing
|
Zeng, Yuxuan
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.429
|
Mouth-specific distortions: Evidence from prosopometamorphopsia for independent representations of individual facial features
|
Kidder, Alexis
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.430
|
The Overestimation Effect in Gaze Perception Reduces with Distance
|
Horstmann, Gernot
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.431
|
Does perceptual integration efficiency predict face identification skills?
|
Côté, Laurianne
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.432
|
Face recognition ability is correlated with strength of cortical tuning to high-level identity features in natural faces
|
Jurigova, Barbora
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.433
|
The impact of eyeglasses on face identity perception
|
Nguyen, Hillary
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.434
|
Colour information biases facial age estimation and reduces inter-observer variability
|
Hsieh, Jean Y. J.
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.435
|
Illusory Conjunction in Faces
|
Fung, Herrick
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.436
|
Configural selectivity for faces in IT cortex is experience-dependent
|
Jagadeesh, Akshay V
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.438
|
Face information used to classify identity depends on emotional expression and vice-versa
|
Martin, Emily
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.439
|
Does the face say it all? Examining face and body integration in whole-person perception.
|
Forner, Katelyn
|
Face Perception: Wholes, parts, configurations, and features
|
Pavilion
|
56.440
|
Can face recognition/recollection in developmental prosopagnosia really be improved? Evidence from a repetition-lag training paradigm
|
Kirsch, Leah
|
Face Perception: Development and disorders
|
Pavilion
|
56.441
|
Accounting for speed-accuracy trade-offs in developmental prosopagnosia
|
Lowes, Judith
|
Face Perception: Development and disorders
|
Pavilion
|
56.442
|
Fine-grained face race processing in prosopagnosia
|
Schaller, Pauline
|
Face Perception: Development and disorders
|
Pavilion
|
56.443
|
Putting Memory back into Face Recognition: Aspects of Face Recollection Contribute to Deficits in Developmental Prosopagnosia
|
Palsamudram, Tanvi
|
Face Perception: Development and disorders
|
Pavilion
|
56.444
|
Quantifying dynamic facial expression recognition thresholds in prosopagnosia
|
Poncet, Fanny
|
Face Perception: Development and disorders
|
Pavilion
|
56.445
|
Prosopagnosia elicits atypical fixation patterns during dynamic facial expression recognition
|
Stacchi, Lisa
|
Face Perception: Development and disorders
|
Pavilion
|
56.446
|
Semantic encoding improves face recognition in prosopagnosia
|
Navon, Yuval
|
Face Perception: Development and disorders
|
Pavilion
|
56.447
|
Exploring facial expression recognition in Parkinson’s
|
Gracey, Maille
|
Face Perception: Development and disorders
|
Pavilion
|
56.448
|
Pose dependent face recognition in autism spectrum disorder
|
Kamensek, Todd
|
Face Perception: Development and disorders
|
Pavilion
|
56.449
|
Leveraging computational and animal models of vision to probe atypical emotion recognition in autism
|
Ramezanpour, Hamidreza
|
Face Perception: Development and disorders
|
Pavilion
|
56.450
|
Facial Emotion Recognition in People with Differing Levels of Eating Disorder Symptoms
|
Nudnou, Ilya
|
Face Perception: Development and disorders
|
Pavilion
|
56.451
|
Anxious youth and adults share threat-biased interpretations of visual and linguistic ambiguity
|
McDonagh, Delaney
|
Face Perception: Development and disorders
|
Pavilion
|
56.452
|
A NETWORK OF REGIONS IN THE HUMAN BRAIN INVOLVED IN PROCESSING FAMILIARITY
|
Noad, Kira
|
Face Perception: Social cognition
|
Pavilion
|
56.453
|
Electrophysiological evidence that own-race faces are recognized more automatically
|
Galinier, Chloé
|
Face Perception: Social cognition
|
Pavilion
|
56.454
|
Both Purely Visual and Simulation-based Models Uniquely Explain Human Social Interaction Judgements
|
Malik, Manasi
|
Face Perception: Social cognition
|
Pavilion
|
56.455
|
General architectural and learning constraints produce visual features sensitive to facing dyads
|
Janini, Daniel
|
Face Perception: Social cognition
|
Pavilion
|
56.456
|
Does face recognition correlate with narcissim? A replication.
|
Romero-Ayala, Gabriella
|
Face Perception: Social cognition
|
Pavilion
|
56.457
|
Religious labels and food preferences, but not country of origin, support opposing aftereffects on the basis of religion
|
Shakil, Maheen
|
Face Perception: Social cognition
|
Pavilion
|
56.458
|
Inferential tracking reveals context is more informative than faces in judgments of trustworthiness.
|
Fang, Yifan
|
Face Perception: Social cognition
|
Pavilion
|
56.459
|
Lateralization of dynamic social interaction perception
|
Small, Hannah
|
Face Perception: Social cognition
|
Pavilion
|
56.460
|
New task - new results? How the area of direct gaze is influenced by the method of measurement
|
Linke, Linda
|
Face Perception: Social cognition
|
Pavilion
|
56.461
|
How we can use the eyes to understand human interaction
|
Lau, Wee Kiat
|
Face Perception: Social cognition
|
Pavilion
|
56.462
|
Viewing images with closed eyes diminishes implied social presence
|
Jacobs, Oliver
|
Face Perception: Social cognition
|
Pavilion
|
56.463
|
Effect of Sclera Size on Social Judgements: A Potential Support for the Cooperative Eye Hypothesis
|
Boyer-Brosseau, Mathias
|
Face Perception: Social cognition
|
Pavilion
|
56.464
|
Positive Valence Acquisition of Non-social Stimuli Associated with Low Cognitive Effort
|
Reck, Lily R.
|
Face Perception: Social cognition
|
Pavilion
|
56.465
|
Dyad arrangement affects perceived emotional intensity
|
Gray, Katie L.H.
|
Face Perception: Social cognition
|
Pavilion
|