Margrit Betke
Margrit Betke co-leads the Image and Video Computing Research Group. She conducts research in computer vision, in particular, the development of methods for detection, segmentation, registration, and tracking of objects in visible-light, infrared, and x-ray image data. She has worked on gesture, vehicle, and animal tracking, video-based human-computer interfaces, statistical object recognition, and medical imaging […]
Alice Cronin-Golomb
Prof. Cronin-Golomb conducts research on visual factors influencing high-order cognitive capacities in normal aging and age-related neurological disease, with special emphasis on object identification in Alzheimer’s disease and visuospatial function in Parkinson’s disease. Her work is supported by the National Institute of Neurological Diseases and Stroke (NIH). Prof. Cronin-Golomb’s students and research associates are conducting […]
Ian Davison
Our lab studies the neural circuits that underlie perception and behavior in the olfactory system. Smell is notorious for its links to emotion and memory, and in the animal world, it is also a powerful trigger of innate behaviors like aggression, courtship, and fear. Our overall goal is to establish the circuit architecture and computational […]
Rachel Denison
How does the brain generate our ongoing perceptual experience? The Denison Lab studies visual perception, attention, and decision making, with a focus on temporal dynamics. The lab’s research integrates behavioral measurements (psychophysics, eye tracking), neural measurements (fMRI, EEG/MEG), and computational modeling.
Nancy Kopell
For the last two decades, Prof. Kopell has worked on mathematical problems in neuroscience. Her current interests parallel the themes of the Cognitive Rhythms Collaborative: how does the brain produce its dynamics (physiological mechanisms), how do brain rhythms take part in cognition (sensory processing, attention, memory, motor control), and how can pathologies of brain dynamics […]
Sam Ling
The glut of information available for the brain to process at any given moment necessitates an efficient attentional system that can “pick and choose” what relevant information receives prioritized processing. Interestingly, a growing body of work suggests that one powerful way that attention separates the wheat from the chaff is by altering some of the […]
Gabriel Ocker
I work in theoretical neuroscience, studying structure-function relations in neuronal network models. How does neural activity encode sensory information and drive behavior? How do neural circuits evolve, learn, and adapt to shape that activity? How does that connectivity shape activity, and what computations does that activity perform? My group studies models of neural circuits, often […]
Robert Reinhart
Research in my laboratory seeks to understand (i) the nature of visual perception and cognition (e.g., attention, working memory, executive control, learning) in the healthy adult brain, (ii) how these processes breakdown in aging and neuropsychiatric illnesses, such as schizophrenia, and (iii) how we can leverage insights from basic and clinical science to develop novel […]
Kathleen Rockland
Dr. Rockland received her doctorate at Chobanian & Avedisian School of Medicine (1979), working on feedforward and feedback cortical connections with Dr. Deepak Pandya. She completed postdoctoral studies on patchy horizontal intrinsic collaterals with Jennifer Lund at the Medical University of South Carolina, and began an independent laboratory in 1983 at the E.K. Shriver Center […]
David Somers
My research employs functional MRI, psychophysics, and computational modeling to investigate the mechanisms underlying visual perception and cognition. My laboratory performs experiments to identify the human brain circuitry which support different visual tasks, and to study how different cognitive factors such as attention modulate these circuits. Modeling work investigates the computational mechanisms at work in […]