Wednesday, May 14, 2025, 9:00 am – 6:00 pm, Blue Heron Thursday, May 15, 2025, 9:00 am – 6:00 pm, Blue Heron
Organizers: Marianne Maertens (Technische Universität Berlin); Jeff Mulligan (Freelance Vision Scientist); Tim Oleskiw (University of Regina); Zygmunt Pizlo (UC Irvine); Anne B. Sereno (Purdue University); Qasim Zaidi (SUNY College of Optometry); Mengmi Zhang (Nanyang Technological University)
Contributed oral presentations on models of all aspects of vision, in an intimate setting with ample discussion. More information can be found at the workshop website https://www.purdue.edu/conferences/events/modvis/
Sunday, May 18, 2025, 12:30 – 2:30 pm, Sabal/Sawgrass
Organizers: Caitlin Mullin, VISTA Program Director, York University; Laurie Wilcox, VISTA Scientific Director, York University; Rob Allison, Director, Center for Vision Research, York University Speaker: Laurie Wilcox, VISTA Scientific Director, York University
This social event is open to any VSS member who is, knows, or would like to meet a Canadian Vision Scientist! Join us for casual discussions with students and faculty from several Canadian Institutes or to just satisfy your curiosity as to why we in the North are so polite and good natured, Eh? We particularly encourage trainees and scientists who would like to learn about the various opportunities available through York’s Centre for Vision Research (CVR) and Vision: Science to Applications (VISTA) program. So, grab your toques and your double-double and come connect with your favourite Canucks. This event will feature free food and refreshments.
Monday, May 19, 2025, 2:30 – 4:00 pm EDT, Banyan/Citrus
Organizers: Akihito Maruya, State University of New York; Amy Bucklaew, University of Rochester; and Brady Roberts, University of Chicago (VSS Student-Postdoc Advisory Committee); Shin’ya Nishida (VSS Board of Directors) Moderator: Akihito Maruya, State University of New York Speakers: Frank Tong, American University; Michael F. Bonner, Johns Hopkins University; Kohitij Kar, York University
In recent years, AI has made remarkable progress, becoming increasingly accessible and implementable even for individuals without extensive expertise in computer science. Visual AI, a subset of artificial intelligence, empowers machines to interpret and understand the visual world. Recent advances have demonstrated AI’s value in modeling the visual cortex, predicting neural responses, simulating eye-tracking behavior, and analyzing psychophysical data. As AI technology becomes widely adopted, it is critical to understand the principles of its successes as well as its challenges.
This review begins by exploring how AI has empowered visual neuroscientists to unravel aspects of visual processing that were previously beyond reach. We will also examine how the similarity between AI and human vision can be quantified. While AI models can mimic human visual processing to some extent, they often produce percepts that deviate significantly from human perception, such as susceptibility to hallucinations or inversion effects. Understanding these differences raises an intriguing question: how can visual scientists help guide AI to align more closely with human visual perception? We will delve into the key differences between AI and human vision, uncover the reasons for these disparities—such as biases in training data and fundamental computational differences—and explore strategies to make AI systems emulate human visual processing more effectively.
Finally, while AI is a rapidly evolving technology with the potential to revolutionize research and innovation, it also brings substantial ethical challenges. For instance, when tools like ChatGPT generate code, the output is often built upon the contributions of others, yet those contributions may not be adequately recognized. This underscores the importance of addressing issues like training data bias, privacy concerns, and the steep learning curve required to grasp foundational AI principles. In this review, we will highlight these challenges and provide insights into fostering a deeper understanding of AI ethics, emphasizing the responsibility of integrating AI into scientific workflows thoughtfully and equitably.
Frank Tong
Vanderbilt University
Frank Tong is a Centennial Professor of Psychology and Professor of Ophthalmology and Visual Sciences at Vanderbilt University. He completed his PhD studies at Harvard University (1995-1999) working with Ken Nakayama and Nancy Kanwisher. His early research capitalized on functional MRI to investigate the neural bases of face processing and visual awareness, followed by the development of novel techniques to decode feature-selective responses from the human visual cortex to characterize their role in attentional selection and visual working memory. In recent years, he has been captivated by noteworthy similarities and striking divergences between the human visual system and current deep neural network models. His research has been recognized by YIA awards from the Vision Sciences Society, Cognitive Neuroscience Society, and the Troland Award from the National Academy of Sciences. Frank has previously served on the VSS Board of Directors and currently serves on the NIH Neuroscience of Basic Visual Processes study section panel.
Michael F. Bonner
Johns Hopkins University
Mick Bonner is an Assistant Professor of Cognitive Science at Johns Hopkins University, where he leads the Cognitive Neuroscience & Deep Learning Group. His work uses computational methods, including deep neural networks and advanced statistical techniques, in combination with neuroimaging and behavioral studies to understand the visual system of the human brain. The goal of this work is to identify the statistical principles that govern the representations of visual cortex and to build theoretically grounded models of how these representations are computed from sensory inputs. Before joining the Cognitive Science Department at Johns Hopkins, Mick completed a PhD in Neuroscience and a postdoctoral fellowship at the University of Pennsylvania.
Kohitij Kar
York University
Kohitij Kar is an Assistant Professor at the Department of Biology in the Faculty of Science at York University, Toronto, Canada. Dr. Kar is also a Canada Research Chair in Visual Neuroscience. Dr. Kar was named one of the Future Leaders in Canadian Brain Research in 2022. Prior to this, Dr. Kar was a Research Scientist at the McGovern Institute for Brain Research at MIT, working in the lab of Dr. James DiCarlo. Before joining the DiCarlo Lab, he completed his Ph.D. in the Department of Behavioral and Neural Sciences at Rutgers University in New Jersey (PhD advisor: Bart Krekelberg) in 2015. Dr. Kar’s research lies at the intersection of neurophysiological investigations of visual intelligence in non-human primates and artificial intelligence systems. His work has been published in top-tier neuroscience journals like Science, Nature Neuroscience, and Neuron and competitive machine learning conferences like NeurIPS and ICLR. Dr. Kar has also recently become an SFARI investigator after receiving a Simons Foundation grant to develop a non-human primate model of autism.
Each year, VSS holds a Graphics Competition to collect creative visual images related to the field of vision science, the Society, or the VSS meeting. There are two competitions, the Website Banner Competition and the T-Shirt Design Competition. Winning graphic images are featured on the website, program, signage, and t-shirts.
The Vision Sciences Society is pleased to recognize David Yu as this year’s winner of both the Website Banner Competition and the T-Shirt Design Competition.
Website Banner Competition
Winner: David Yu, Senses Lab, The University of Sydney, Australia
Need a description here.
T-Shirt Design Competition
Winner: David Yu, Senses Lab, The University of Sydney, Australia
The Vision Sciences Society is honored to present J. Anthony Movshon with the 2025 Ken Nakayama Medal for Excellence in Vision Science.
The Ken Nakayama Medal is in honor of Professor Ken Nakayama’s contributions to the Vision Sciences Society, as well as his innovations and excellence in the domain of vision sciences.
The winner of the Ken Nakayama Medal receives this honor for high-impact work that has made a lasting contribution in vision science in the broadest sense. The nature of this work can be fundamental, clinical or applied.
J. Anthony Movshon
University Professor and Silver Professor; Professor of Neural Science and Psychology; Professor of Ophthalmology and of Neuroscience and Physiology, and Investigator, Neuroscience Institute (NYU School of Medicine)
Tony Movshon has been selected as this year’s recipient of the Ken Nakayama Medal for Excellence in Vision Science. This honor recognizes his singular synthesis of the three primary strands of modern vision research—psychophysics, physiology and computational theory—and tireless leadership of the vision science community. Tony is known for foundational research transforming our understanding of the mechanisms representing the form, texture, and motion of objects, how these mechanisms contribute to perceptual judgments and guidance of actions, and how visual experience influences development of these mechanisms. His quantitative analysis of the linearity of simple and complex receptive fields led to formal insights like normalization. His investigation of the nature of motion transparency and coherence led to a cascade model explaining visual appearances. His rigorous use of signal detection theory linked physiological measurements to psychophysical judgments and gaze control. His pioneering studies of visual system development under normal and deprived conditions supported clinical insights into amblyopia.
Tony is also recognized as an exceptionally impactful mentor and role model, who has trained dozens and influenced generations of scientists. Tony’s contributions to the vision science community have been amplified by his service on countless scientific editorial boards and grant review committees and by his role advising, among others, the McKnight Endowment Fund for Neuroscience, the Simons Foundation, the Kavli Institute for Systems Neuroscience, the Gatsby Computational Neuroscience Unit, and the Max Planck Society. He established the Center for Neural Science at NYU, the Cold Spring Harbor Laboratory summer course Computational Neuroscience: Vision, and the Annual Review of Vision Science. He was elected to the Board of Directors of VSS in 2007 and served as President.
Tony earned a B.A. at Cambridge University in 1972 and continued there to earn a Ph.D. under the supervision of Colin Blakemore in 1975. Since 1975 he has been a faculty member at New York University. Tony’s research contributions have been recognized by the Young Investigator Award from the Society for Neuroscience, the Rank Prize in Optoelectronics, and the Champalimaud Vision Award. He has been elected a Fellow of the American Association for the Advancement of Science and of the Association for Psychological Science and member of the National Academy of Sciences, the American Academy of Arts and Sciences, and the Royal Society of London.
As part of VSS’s ongoing commitment to inclusivity, we are pleased to announce the launch of a new initiative for VSS 2025 to help offset costs of childcare at the annual meeting. These funds will make it easier for members with children to attend a wider range of meeting events.
Value: Up to $500 per family. In the event that the number of requests exceeds the funding available, preference will be given to applicants in the early stages of their careers.
Number: Up to 20 awards.
Use of Funds
Recipients can use funds to support childcare in the form that best serves the family. Note that due to logistical constraints, VSS will not be offering an in-house childcare program. Recipients will be responsible for organizing their own childcare solutions. The VSS Discord server, dedicated to VSS participants, provides an avenue for attendees to engage with one another, fostering connections and facilitating the coordination and sharing of services like childcare.
Eligible expenses for the budget can include:
Third party dependent care services for the duration of the conference.
Travel costs for the designated caregiver.
Per diem of up to $50/day for the designated caregiver.
Recommended Childcare Services
The TradeWinds recommends both Jovie.com and Care.com for parents looking to hire babysitters or nannies during the VSS meeting.
How to Apply
The deadline for applications is March 4, 2025. Awardees will be notified by email by March 18, 2025.
Receipt of Funds
Recipients should come to the registration desk accompanied by the child(ren) to receive the subsidy on the final day of the conference (or last day of attendance).
Schedule
Applications Open: February 11, 2025 Applications Close: March 4, 2025 Announcement of Awards: March 18, 2025
