How the brain helps us remember what we’ve seen
Research finds that as one looks around, mental images bounce between right and left brain as they shift around in our visual system.
Research finds that as one looks around, mental images bounce between right and left brain as they shift around in our visual system.
Expanding tissue samples before sequencing allows researchers to pinpoint locations of RNA molecules.
MISTI program expands to virtual activities while still planning for the world beyond.
Pablo Jarillo-Herrero, Aviv Regev, Susan Solomon, and Feng Zhang are the recipients of distinguished awards for major contributions to science.
In two years, the MIT Quest for Intelligence has allowed hundreds of students to explore AI in its many applications.
Brain and cognitive sciences professor will lead the Institute’s interdisciplinary initiative to advance research in natural and artificial intelligence.
Two MIT faculty members earn funding from the G. Harold and Leila Y. Mathers Foundation.
First virtual MIT Better World gathering featured MIT researchers sharing some of the ways the Institute excels as a hub of science and innovation.
EECS faculty head of artificial intelligence and decision making honored for significant and extended contributions to the field of AI.
The brain uses different frequency rhythms and cortical layers to suppress expected stimulation and increase activity for what’s novel.
Findings suggest this hippocampal circuit helps us to maintain our timeline of memories.
Frontal brain region overrides reflexive inclination of a deeper, older region when rules require.
Miniaturized device activates drugs in a small region deep within the brain.
Neuroscientists find that interpreting code activates a general-purpose brain network, but not language-processing centers.
A new algorithm capable of inferring goals and plans could help machines better adapt to the imperfect nature of human planning.