Abstract# 
|
Poster Title
|
First Author
|
Session
|
Room
|
63.301
|
Perceptual sensitivity depends on the contrast of preceding and following stimuli across hundreds of milliseconds
|
Epstein, Michael
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.302
|
Aperiodic and Periodic EEG predict performance in a double-flash fusion task
|
Deodato, Michele
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.303
|
Relationship between steady-state responses in simultaneously acquired LFP and EEG
|
Sharma, Dixit
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.304
|
Gain Changes in Response to Full Field Flicker
|
Krekelberg, Bart
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.305
|
Event probabilities tend to scale inversely with neural measures of prediction error, but positively with measures of time perception
|
Saurels, Blake
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.306
|
Cortical quantity representations of visual numerosity and timing overlap increasingly but remain distinct
|
Hendrikx, Evi
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.307
|
An experimental and theoretical study of the critical fusion frequency as a function of stimulus duty ratio
|
Oikawa, Kotaro
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.308
|
Event-related Potentials Associated with Inhibitory Processes of Forward Masking
|
Kafaligonul, Hulusi
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.309
|
Seeing fast and slow: systematic state and trait variations in visual temporal acuity
|
Melcher, David
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.310
|
Evidence for a second rod pathway in the human retina with a cone-like spectral sensitivity
|
Tyler, Christopher
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.311
|
Is temporal crowding mediated by averaging across time?
|
Hochmitz, Ilanit
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.312
|
Temporal sensitivity in the central fovea
|
Lin, Ruitao
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.313
|
Segmenting the magnocellular regions in the human lateral and medial geniculate nuclei using quantitative MRI
|
Yildirim, Irem
|
Temporal Processing: Neural mechanisms and models
|
Banyan Breezeway
|
63.314
|
Temporal-spatial configuration of musical notation: Distinguishing visual and conceptual influences on expert and novice performance
|
Verosky, Niels J.
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.315
|
Perception of retinal images: Can artificial intelligence help us discover new diagnostic features?
|
Yuan, Lei
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.316
|
Revisiting the animacy, size, and curvature organization of human visual cortex
|
Stoinski, Laura M.
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.317
|
Different tasks performed on same objects result in functionally distinct activation of LOTC and IPS
|
Biswas, Arnab
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.318
|
Functional contributions of the dorsal pathway to shape perception: Evidence from intracranial recording
|
Kramer, Max
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.319
|
The impact of culture on the processing of spatial frequencies during the recognition of homogenous objects
|
Cousineau, Alexandre
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.320
|
The Signal and the Noise: Optimizing the Reverse Correlation Technique via Noise Selection
|
Gurariy, Gennadiy
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.321
|
The spatiotemporal neural dynamics of Braille letter representations in individuals with congenital blindness
|
Haupt, Marleen
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.322
|
Uncovering the hidden computations of deep neural networks by tracing the trajectory manifold from images to feature activations
|
Hamblin, Christopher
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.323
|
Unsupervised feature selection methods for modeling human similarity judgments with deep neural networks
|
Truong, Nhut
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.324
|
Which fragments support object recognition best?
|
Scialom, Elsa
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.325
|
Delayed foveal noise affects performance in a vernier offset discrimination task
|
Morea, Martina
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.326
|
Effect of Radial Frequency and Amplitude on Target Detection
|
Smithers, Samuel
|
Object Recognition: Features and parts
|
Banyan Breezeway
|
63.327
|
Image memorability modulates image recognition, but not image localization in space and time
|
Trinkl, Nathan
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.328
|
Modestly related memories for when and where an object was seen in a Massive Memory paradigm.
|
Wolfe, Jeremy
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.329
|
No Icon in "Iconic" Memory: Short Retention Intervals Benefit Simple Visual Features But Not Complex Objects
|
Catington, Mary
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.330
|
Confidence in reality monitoring judgments.
|
Ranjan, Saurabh
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.331
|
Global Mean Position Perception of Multiple Spatially-Separated Ensembles
|
Wang, Yang
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.332
|
People remember face pareidolia more than human face images during naturalistic encoding
|
Kreichman, Olga
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.333
|
Symbol superiority: Why $ is better remembered than ‘dollar’
|
Roberts, Brady
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.334
|
Color priming facilitates cued location recall in a visuospatial short-term memory partial report paradigm
|
Lumpkin, Tanner
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.335
|
Exploring the impact of a constructive encoding task on visual recognition memory
|
McCarthy, William P.
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.336
|
Mixed Graph Designs Do Not Improve Visual Memory
|
Awad, Madeline F.
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.337
|
Quantifying the Temporal Dynamics of Memorability Across the Creation of Art
|
Davis, Trent M.
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.338
|
Visual similarity structure a priori predicts memory errors for novel high-dimensional face stimuli
|
Brady, Timothy
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.339
|
When is it helpful to forget? Comparing the effects of forgetting on visual and auditory perceptual decisions
|
McPherson, Malinda
|
Visual Memory: Capacity, encoding, retrieval
|
Banyan Breezeway
|
63.340
|
The effects of symmetry on visual ensemble perception
|
LEE, Jaeeun
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.341
|
Texture difference cues in figure-ground separation
|
Victor, Jonathan
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.342
|
Second-order boundaries segment more easily when density-defined rather than feature-defined
|
DiMattina, Christopher
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.343
|
Contextual interactions between orientation- and contrast-modulated textures in the tilt induction
|
Gheorghiu, Elena
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.344
|
Surround induction with orientation modulated textures
|
Thomas, Amenabhwon Natasha
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.345
|
When Summary Statistics Clash: Competing summary statistics modulate the attentional prioritization of ensemble representations
|
Knox, Kristina
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.346
|
The cost of forming statistical summary representations across multiple spatial scales
|
Pandey, Sandarsh
|
Spatial Vision: Texture
|
Banyan Breezeway
|
63.347
|
Super-additive associative learning benefit for repeated task-relevant and task-irrelevant elements in visual search
|
Siritzky, Emma M.
|
Visual Search: Attention
|
Banyan Breezeway
|
63.348
|
Activation of multiple attentional templates in conjunction search
|
Wang, Ziyi
|
Visual Search: Attention
|
Banyan Breezeway
|
63.349
|
Does visual distinctiveness from an unexpected feature dimension facilitate search?
|
Xu, Zoe (Jing)
|
Visual Search: Attention
|
Banyan Breezeway
|
63.350
|
Using regularity-based temporal predictions to shift our attentional template across time during multiple-target dynamic visual search
|
Williams, Gwenllian C.
|
Visual Search: Attention
|
Banyan Breezeway
|
63.351
|
Shifting target representations away from distractor features is task-adapative
|
Yu, Xinger
|
Visual Search: Attention
|
Banyan Breezeway
|
63.352
|
Contextual cueing effects of various targets in the same context
|
Choi, Jeunghwan
|
Visual Search: Attention
|
Banyan Breezeway
|
63.353
|
Enhancement and suppression of category exemplars
|
Lim, Y. Isabella
|
Visual Search: Attention
|
Banyan Breezeway
|
63.354
|
Joint contributions of instruction and preview on visual search strategy
|
Zhang, Tianyu
|
Visual Search: Attention
|
Banyan Breezeway
|
63.355
|
The limitations of categorical distractor suppression
|
Goetz, Jessica N.
|
Visual Search: Attention
|
Banyan Breezeway
|
63.356
|
To Feedback or Not to Feedback? That is the Question When Attempting to Improve the Low Prevalence Effect Using Probes Trials
|
Rodriguez, Andrew
|
Visual Search: Attention
|
Banyan Breezeway
|
63.357
|
Attentional differences predict ensemble coding and are moderated by probe effects
|
Starling, Laramie
|
Visual Search: Attention
|
Banyan Breezeway
|
63.358
|
Statistical Learning and Attentional Priority
|
Golan, Aidai
|
Visual Search: Attention
|
Banyan Breezeway
|
63.359
|
Not so rapid: Dominant-looking faces elicit deliberate but not efficient search
|
Ye, Shujuan
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.360
|
Search efficiency scales with semantic relatedness in audiovisual contexts
|
Wegner-Clemens, Kira
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.361
|
Visual detection of threat and rapid decisions to "shoot": Can mindfulness-based meditation practices improve signal detection accuracy and reduce implicit racial bias?
|
Peterzell, David
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.362
|
Modeling Observer Search Termination in a Subsequent Search Misses (SSM) Experimental Framework: The Role of Experience.
|
Roque, Nelson
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.363
|
The effects of blur adaptation on visual search performance
|
Shareef, Idris
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.364
|
The FORAGEKID Game: Using Hybrid Foraging to Study Executive Functions and Search Strategies During Development
|
Gil-Gómez de Liaño, Beatriz
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.365
|
Close, but not a T: Feedback, not similarity search, reduces the low-prevalence effect
|
Gillies, Greer
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.366
|
Emotion recognition, not attentional capture, drives visual search asymmetries to emotional expressions
|
Stuit, Sjoerd
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.367
|
Multidimensional templates: Explicit goals unlock implicit spatial statistical learning
|
Carlisle, Nancy
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.368
|
Individual differences in patch leaving strategy in visual foraging tasks
|
Li, Walden
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.369
|
Why are some individuals better in using negative templates to suppress distractors? Exploration of the inter-individual differences in proactive control efficiency
|
Chidharom, Matthieu
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.370
|
Category Variability Provides Challenges to Learning and Search Performance
|
Luby, Paean
|
Visual Search: Strategies, efficiencies
|
Banyan Breezeway
|
63.401
|
The role of action-related properties in shaping the object space in the biological and artificial brain
|
Cortinovis, Davide
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.402
|
Individual variability in sensorimotor mu suppression to observation of human actions
|
Harris, Alison
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.403
|
Force representations support social perception of moving shapes
|
Yun, Yiling
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.404
|
Shared and individual thresholds for social signal detection
|
Varrier, Rekha S.
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.405
|
Semantic representations of human actions across vision and language
|
Dima, Diana C
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.406
|
Virtual reality protocol for decomposing complex behaviour into tractable subcomponents.
|
Kumle, Levi
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.407
|
Neurodynamical model for IT responses during the anorthoscopic perception of bodies
|
Giese, Martin A.
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.408
|
The roles of kinematics and posture in yoga expertise identification
|
Baia, Sophia
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.409
|
The visual dorsal stream processes tool-use actions regardless of body part even in people born without hands
|
Martinez Addiego, Florencia
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.410
|
Prior Knowledge Biases the Perception of Body Postures
|
Han, Qiu
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.412
|
Identification and relative depth estimation in natural images of single human body parts
|
Liu, Jiaqi
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.413
|
Identification of ambiguous human body parts depends on pair-wise structural knowledge in natural images
|
Liu, Ziwei
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.414
|
fROI-level computational models enable broad-scale experimental testing and expose key divergences between models and brains
|
Mieczkowski, Elizabeth
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.415
|
Percepts of biological motion disappear in slow-moving displays: Evidence for domain-specific agent perception
|
Erdogan, Merve
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.416
|
Human see, human do? Viewing tool pictures evokes action-specific activity in visual hand-selective occipitotemporal cortex
|
Warman, Annie
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.417
|
Computing a unique neural fingerprint of bodily expressions and actions
|
Smekal, Vojtech
|
Perception and Action: Perception of Human Actions and Bodies
|
Pavilion
|
63.418
|
Occluding one eye during fixation increases wandering of both eyes
|
Watamaniuk, Scott N.J.
|
Eye Movements: Fixation
|
Pavilion
|
63.419
|
Fixational instability impedes visually-guided behaviors in patients with amblyopia
|
Kwon, Sunwoo
|
Eye Movements: Fixation
|
Pavilion
|
63.420
|
Systematic variation of fixational eye movements with degree of myopia.
|
Cox, Michele A.
|
Eye Movements: Fixation
|
Pavilion
|
63.421
|
The effect of fixational eye movements on the flicker-defined edge detection
|
Choe, Seonggyu
|
Eye Movements: Fixation
|
Pavilion
|
63.422
|
Dynamical modeling of interindividual differences in fixational drift and microsaccades
|
Schwetlick, Lisa
|
Eye Movements: Fixation
|
Pavilion
|
63.423
|
Dilation can minimize pupil-induced fixational drift.
|
Willeford, Kevin
|
Eye Movements: Fixation
|
Pavilion
|
63.424
|
Microsaccades in head-free high-acuity tasks
|
Jolly, Paul
|
Eye Movements: Fixation
|
Pavilion
|
63.425
|
A model comprising independent control and conjugacy explains miniature fixation eye movements
|
Heinen, Stephen
|
Eye Movements: Fixation
|
Pavilion
|
63.426
|
Different levels of awareness for spontaneous, involuntary, and voluntary microsaccades
|
Klanke, Jan-Nikolas
|
Eye Movements: Fixation
|
Pavilion
|
63.427
|
Eye torsion induced by a tilted image is larger during free viewing than fixation
|
Otero-Millan, Jorge
|
Eye Movements: Fixation
|
Pavilion
|
63.428
|
Mr. Chips Jr. : A transformer-based computational model to study eye movements during reading
|
Kwon, MiYoung
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.429
|
Maintaining eye fixations facilitates resolution of spatial cognitive conflicts
|
Krause, Anika
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.430
|
Eye movements as indicators of trait impulsivity and hypomania proneness in healthy adults
|
Ayala, Juana
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.431
|
Eye movements reveal alternative problem-solving strategies in concussed individuals during performance of the Tower of London task
|
Ayala, Naila
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.432
|
Leveraging the pupillary light reflex for cognitive pupillometry: An initial characterization of the PLR in two data sets
|
Cohen Hoffing, Russell
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.433
|
Attention modulates V4 neural activity across and in the absence of microsaccades
|
Willett, Shawn
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.434
|
Pathway selective optogenetic manipulations on the oculomotor circuits of non-human primates
|
Yu, Xuefei
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.435
|
Functional architecture of visual responses in supplementary eye field
|
Thirunavukkarasu, Pranavan
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.436
|
Linking brain activity during viewing and recall of movie events through gaze behavior
|
Nau, Matthias
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.437
|
V1 neural response precedes saccadic shift of visual target to the fovea
|
Bouhnik, Tomer
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.438
|
SSVE(PLR): Comparing target classification via pupillary light responses to standard EEG-based SSVEP
|
Thurman, Steven
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.439
|
The Costs of Paying Overt and Covert Attention Assessed with Pupillometry
|
Koevoet, Damian
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.440
|
Lateralized EEG markers of attention preceding and following shifts in eye position
|
Zhao, Chong
|
Eye Movements: Attention, cognition, neural processes
|
Pavilion
|
63.441
|
Detecting second order symmetry
|
Chen, Chien-Chung
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.442
|
Relating Variability in Scalp EEG to Variability in Cortical Morphology
|
Chaparian, Sara
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.443
|
Multiple ambiguous neural representations may be perceived as identical to or different from each other: Can Divisive Normalization Explain Which?
|
Peiso, Jaelyn
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.444
|
Task-dependent geometry of a perceptual space
|
Waraich, Suniyya A.
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.445
|
Inductive Biases of Children and Adults in a Visual Patterning Task
|
Dedhe, Abhishek
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.446
|
Estimating the error contributions of six component processes that determine the number of reportable centroids following a brief exposure of multicolor dot arrays
|
Sperling, George
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.447
|
ERP Evidence for the Role of Attention in the Visual Discrimination of Ensemble Summary Statistics
|
Lukashevich, Anton
|
Perceptual Organization: Symmetry, preference, ensembles
|
Pavilion
|
63.448
|
Ensemble Scene Processing is Regulated by Feature Complexity
|
Tharmaratnam, Vignash
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.449
|
Overestimation of Variability in Ensembles of Size and Color Despite Focusing Attention on Relevant Features
|
Warden, Amelia C.
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.450
|
Contextual coherence increases perceived numerosity independent of semantic content
|
Qu, Chuyan
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.451
|
Toddler and preschooler attention to naturalistic scene features
|
Klotz, Shannon
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.452
|
The statistics of visual input change systematically with development
|
Anderson, Erin
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.453
|
The time course of adaptation in modified reality: isotropic environments and orientation anisotropies
|
Richard, Bruno
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.454
|
Visual perceptual learning of natural and Portilla & Simoncelli images occurs in a significantly different manner than visual perceptual learning of unnatural images
|
Shibata, Kazuhisa
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.456
|
N300 sensitivity to statistical regularity persists for low-pass filtered scenes
|
Chong, Ling Lee
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.457
|
Eye movements during active vision are not driven by saliency, meaning, or aesthetics
|
Hart, Jennifer
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.458
|
Local image statistics can account for the perceived naturalness of image contrast
|
Fukiage, Taiki
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.459
|
Viewpoint and seasonal variations in natural scene statistics
|
Greene, Michelle
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.460
|
Understanding the high-dimensional nature of visual cortex representations
|
Gauthaman, Raj Magesh
|
Scene Perception: Natural image statistics
|
Pavilion
|
63.461
|
Perceptual estimates of the physical attributes of people in photographs
|
Barrington, Sarah
|
Scene Perception: Models
|
Pavilion
|
63.462
|
Evaluating physical scene understanding with objects consisting of different physical attributes in humans and machines
|
Tung, Hsiao-Yu
|
Scene Perception: Models
|
Pavilion
|
63.463
|
How real can they get? Investigating neural responses to GAN generated scenes.
|
Kallmayer, Aylin
|
Scene Perception: Models
|
Pavilion
|
63.464
|
Benchmarking Human Mid-Level Scene Understanding
|
Friedman, Yoni
|
Scene Perception: Models
|
Pavilion
|
63.465
|
The similarity of CNN, behavioral, and PPA feature spaces
|
Yang, Pei-Ling
|
Scene Perception: Models
|
Pavilion
|
63.466
|
Toward A Computational Model of Directional Visual Relations
|
Sailamul, Pachaya
|
Scene Perception: Models
|
Pavilion
|
63.467
|
A Transfer Account of Orientation Ensemble Averaging
|
Zepp, Jacob
|
Scene Perception: Models
|
Pavilion
|
63.468
|
Studying spatial representations of our visual experience using real-world environments
|
Garcia, Brenda
|
Scene Perception: Virtual environments
|
Pavilion
|
63.469
|
Artificial Scene Grammar Acquisition
|
Spur, Maxim
|
Scene Perception: Virtual environments
|
Pavilion
|
63.470
|
The brain predominantly represents attended semantics rather than global semantics in a naturalistic task
|
Zhang, Tianjiao
|
Scene Perception: Virtual environments
|
Pavilion
|
63.471
|
Comparing Fire: Precision of Visual Perception of Fire Intensity
|
Bonny, Justin W.
|
Scene Perception: Virtual environments
|
Pavilion
|
63.472
|
Memory-based predictions facilitate perceptual judgements across head-turns in naturalistic scene perception
|
Mynick, Anna
|
Scene Perception: Virtual environments
|
Pavilion
|
63.473
|
Visual clutter: The role of background texture, set size, and item organization
|
Semizer, Yelda
|
Scene Perception: Virtual environments
|
Pavilion
|