How we make complex decisions
Neuroscientists identify a brain circuit that helps break decisions down into smaller pieces.
Neuroscientists identify a brain circuit that helps break decisions down into smaller pieces.
New findings help explain the surprising discovery that exposure to flickering light reduces amyloid plaques in mice.
Study shows that artificial neural networks can be used to drive brain activity.
Mutation in disease model flies undermines maintenance of key ion balance.
Analysis of genes altered by the disease could provide targets for new treatments.
Gifts to MIT and Harvard Medical School totaling $9 million will fund independent research on cannabinoid’s influence on brain health and behavior.
The DiCarlo lab finds that a recurrent architecture helps both artificial intelligence and our brains to better identify objects.
Mouse study yields insights into the rare condition, may shed light on other neurological disorders.
Marshall Scholar Katie O’Nell investigates how the brain resolves complicated questions involving morality and generosity.
Prestigious honor society announces more than 200 new members.
Model improves a robot’s ability to mold materials into shapes and interact with liquids and solid objects.
PhD student Sarah Schwettmann explains how the study of visual perception can translate students’ creativity across domains.
Finding could improve development of personalized psychiatric treatments.
Researchers combine statistical and symbolic artificial intelligence techniques to speed learning and improve transparency.
Ten staff members in the School of Science are recognized for going above and beyond their job descriptions to support a better Institute.