2023 Poster Sessions
Friday, October 6
F.01 Noninvasive neuromodulation of subcortical visual pathways with transcranial focused ultrasound
Ryan Ash, Department of Psychiatry and Behavioral Sciences, Stanford University
F.02 Tests of a contrast gain control model of parabolic brightness matching functions
Osman B. Kavcar, Integrative Neuroscience Program, University of Nevada, Reno
F.03 Quantifying, modeling, and extending the scope of the principle of inverse effectiveness to vision
Vincent A. Billock, Leidos, Inc. at the Naval Aerospace Medical Research Laboratory, NAMRU-D, WPAFB, OH
F.04 Gain, not changes in spatial receptive field properties, improves task performance in a neural network attention model
Daniel Birman, Department of Biological Structure, University of Washington
F.05 Binocular facilitation of the BOLD response to melanopsin stimulation in the suprachiasmatic nucleus
Joel T. Martin, Department of Psychology, University of York, York, United Kingdom
F.06 Combining spatial and quantitative models to account for the relationship between luminance, context and brightness
Joris Vincent, Technische Universität Berlin
F.07 Non-rivalrous interocular contrast integration across the human visual cortex hierarchy
Kelly Chang, University of Washington
F.08 Binocular contrast integration: Cortical and behavioral signals reflect different computations
Kimberly Meier, Department of Psychology, University of Washington
F.09 How important is it to know your own limitations when making perceptual decisions?
Wilson Geisler, University of Texas at Austin
F.10 Perspective-correct rendering for active observers
Phillip Guan, Meta Reality Labs Research
F.11 Measuring luminance CSFs from the fovea to far peripheries
Kotaro Kitakami, Tokyo Institute of Technology
F.12 Diurnal variations in luminance and chromatic contrast sensitivity
Kowa Koida, Toyohashi University of Technology
F.13 Leveraging AI to accelerate scientific discoveries
Ipek Oruc, University of British Columbia
F.14 Effect of flicker adaptation on perception of small spots presented with AOSLO
J.T. Pirog, Herbert Werthiem School of Optometry and Vision Science, University of California Berkeley
F.15 Digital dual-Purkinje-image eye tracking enables precise determination of visual receptive fields in fixating macaques
Ryan Ressmeyer, Department of Bioengineering, University of Washington
F.16 Dissociation of torsional eye movements and perception during optokinetic stimulation by visual cues of gravity
Raul Rodriguez, University of California, Herbert Wertheim School of Optometry and Vision Science
F.17 Characteristics and coordination of microsaccades in 6 Dimensions
Roksana Sadeghi, Herbert Wertheim School of Optometry and Vision Science, University of California, Berkeley
F.18 LissEYEjous Tracker - precise fundus tracking device based on ultrafast Lissajous scanning
Maciej Marcin Bartuzel, Institute of Physics, Faculty of Physics, Astronomy and Informatics, Nicolaus Copernicus University in Torun, Poland; Center for Human Ophthalmic Imaging Research (CHOIR), UC Davis Eye Center, Sacramento, CA 95817, USA
F.19 Distortion of perceived visual space after eccentric gaze holding
Terence Tyson, Herbert Wertheim School of Optometry and Vision Science, University of California, Berkeley; Human Systems Integration Division, NASA Ames Research Center
F.20 Vernier thresholds of a Poisson-noise-limited computational observer with and without fixational eye movements
Mengxin Wang, Department of Experimental Psychology, University of Oxford
F.21 Does stimulus image quality affect fixational eye movement characteristics?
Laura K. Young, Newcastle University
F.22 Comparison of tripolar and traditional electrodes: Waveform morphology
Mackenzie V. Wise, University of Nevada, Reno
F.23 Divided attention in Sign Language Recognition
Dave Young, Department of Psychology, University of Washington
F.24 Criterion effects in maximum likelihood difference scaling: Similar is not always the opposite of different
Yangyi Shi, Psychology Department, College of Science, Northeastern University
Saturday, October 7
S.01 Alternating orientation of the chromatic pattern VEP improves signal even in the absence of contrast adaptation
Jawshan Ara, Integrative Neuroscience Program, University of Nevada Reno, Nevada, 89557, USA, Department of Psychology, University of Nevada Reno, Nevada, 89557, USA, and, Department of Computer Science, University of Nevada Reno, Nevada, 89557, USA
S.02 Attentional modulation of the achromatic and chromatic reversal VEP
Christabel Arthur, Integrative Neuroscience Program, University of Nevada, Reno
S.03 Color and luminance processing in V1 complex cells and artificial neural networks
Luke Bun, Department of Bioengineering, University of Washington
S.04 SSVEP measurements of color and spatial frequency response in V1
Alex Carter, University of York
S.06 Light-adaptation clamp: A tool to predictably manipulate photoreceptor light responses
Qiang Chen, University of Washington
S.07 Computational analysis of the effect of cone temporal filtering on detection threshold with and without retinal motion
Qiyuan Feng, Department of Psychology, University of Pennsylvania; Department of Brain and Cognitive Science, University of Rochester
S.09 Spillover effects of color discrimination training on color category boundaries and color appearance
Suzuha Horiuchi, Tokyo Institute of Technology
S.10 Constrained color-sorting and the evolution of color terms
Delwin Lindsey, Ohio State University
S.11 Kandinsky was right: Few do “express bright yellow in the bass notes, or dark lake in the treble”
Joshua Manfred, Wabash College
S.12 Luminance and chromaticity discrimination sensitivities following a sudden decrease in background luminance
Minwoo Son, Tokyo Institute of Technology
S.13 Image features involved in translucency enhancement by chromaticity information
Mizuki Takanashi, Department of Information and Communications Engineering, Tokyo Institute of Technology
S.14 Variation of cone spectral composition in the macula
Vimal Prabhu Pandiyan, Department of Ophthalmology, University of Washington
S.15 Cone spacing and S-cone proportion is sufficient to describe varying S-cone regularity across the human central retina
Sierra Schleufer, University of Washington Department of Ophthalmology and Graduate Program in Neuroscience
S.16 Non-degenerating double cone opsin knockout mouse model of blue cone monochromacy
Mikayla L. Puska, Department of Ophthalmology, University of Washington
S.17 XR-based personalized active aid for color deficient observers
Nasif Zaman, University of Nevada, Reno
S.18 The impact of eye’s longitudinal chromatic aberration on visual acuity and accommodation response
Tianlun Zou, Center for Visual Science, The Institute of Optics, University of Rochester
S.19 Investigating photoreceptor function in disease-affected retinas using optoretinography
Reddikumar Maddipatla, Center for Human Ophthalmic Imaging Research (CHOIR), UC Davis Eye Center, Sacramento, CA 95817, USA; EyePOD Imaging Lab, Dept. of Cell Biology and Human Anatomy, UC Davis, Davis, CA 95616, USA.
S.20 Understanding scattering in high-resolution retinal imaging
Brian Vohnsen, University College Dublin
S.21 Development of transparency in the human lens cells
John Clark, University of Washington
S.22 Intravitreal gene therapy in primate reaches extrafoveal cones
Briyana Bembry - Colegrove, Department of Ophthalmology, University of Washington
S.23 Can a drug for liver disease be used to treat Age-Related Macular Degeneration?
Kriti Pandey, Department of Biochemistry, University of Washington