Bart Krekelberg, Ph.D.

Pew.Feature.Scholar.Bio.Title
Associate Professor
Pew.Feature.Scholar.Bio.Department
Center for Molecular and Behavioral Neuroscience
Pew.Feature.Scholar.Bio.Institution
Rutgers University, Newark
Pew.Feature.Scholar.Bio.Address
197 University Avenue
Pew.Feature.Scholar.Bio.City, Pew.Feature.Scholar.Bio.State, Pew.Feature.Scholar.Bio.Zip
Newark, NJ 07302
Pew.Feature.Scholar.Bio.Phone
(973) 353-3602
Pew.Feature.Scholar.Bio.Email
[email protected]
Pew.Feature.Scholar.Bio.Website
http://vision.rutgers.edu/
Pew.Feature.Scholar.Bio.ResearchField
Neuroscience
Pew.Feature.Scholar.Bio.AwardYear
2007

Research

The laboratory’s long term goal is to understand how the brain manages to make sense of its complex visual environment. How are the photons that hit the retina translated into meaningful information about where things are, where they are going and what they look like? An understanding of how this complex process may work, can only come from a combination of techniques: human psychophysics provides information at an abstract level; it tells us something about what humans do and sometimes it can provide constraints on how they do it. Functional magnetic resonance imaging can tell us something about the particular areas of the brain that are involved. To study the mechanisms, however, one also needs to have a detailed look at the neurons that do all this hard work. This is possible with electrophysiological methods in animals. The connection from the mechanistic single-cell knowledge to the high-level perceptual understanding can be made in monkeys that are performing psychophysical tasks while we record from relevant cells in their brains.

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