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Board of Honors Tutors
Josh Tenenbaum
Paul E. Newton Career Development Professor of
Cognitive Science and Computation
Institution: MIT, Department of Brain and Cognitive Sciences
I would consider serving as (check all that apply):
_x_ Thesis Advisor
_x_Thesis Reader
_x_Research Placement (students interested in gaining research experience would be able to work in your laboratory as volunteers or for course credit)
Research Interests (It is best if you can describe specifically the kinds of projects you do that students could help work on or the general areas of expertise in which you are willing to advise students):
My group studies one of the most basic and distinctively human aspects of cognition: the ability to learn so much about the world, rapidly and flexibly. Given just a few relevant experiences, even young children can infer the meaning of a new word, the hidden properties of an object or substance, or the existence of a new causal relation or social rule. These inferences go far beyond the data given: after seeing three or four examples of "horses", a two-year-old will confidently judge whether any new entity is a horse or not, and she will be mostly correct, except for the occasional donkey or camel.
We want to understand these everyday inductive leaps in computational terms. What is the underlying logic that supports reliable generalization from so little data? What are its cognitive and neural mechanisms, and how can we build more powerful learning machines based on the same principles?
These questions demand a multidisciplinary approach. Our group's research combines computational modeling with behavioral experiments in adults and children. Our models make strong quantitative predictions about behavior, but more importantly, they attempt to explain why cognition works, by viewing it as an approximation to ideal statistical inference given the structure of natural tasks and environments. While our core interests are in human learning and reasoning, we also work actively in machine learning and artificial intelligence. These two programs are inseparable: bringing machine-learning algorithms closer to the capacities of human learning should lead to more powerful AI systems as well as more powerful theoretical paradigms for understanding human cognition.
Current research in our group explores the computational basis of many aspects of human cognition: learning concepts, judging similarity, inferring causal connections, forming perceptual representations, learning word meanings and syntactic principles in natural language, noticing coincidences and predicting the future, inferring the mental states of other people, and constructing intuitive theories of core domains, such as intuitive physics, psychology, biology, or social structure.
Personal homepage (with complete list of publications and pdf reprints):
http://web.mit.edu/cocosci/josh.html
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