Researchers use AI to identify similar materials in images
This machine-learning method could assist with robotic scene understanding, image editing, or online recommendation systems.
This machine-learning method could assist with robotic scene understanding, image editing, or online recommendation systems.
With full genetic control and visibility into neural activity and behavior, MIT scientists map out chemical’s role in behavior.
Developing a new neuroscience model is no small feat. New faculty member Brady Weissbourd has risen to the challenge in order to study nervous system evolution, development, regeneration, and function.
A variety of recent events highlighted efforts by faculty, staff, and students to make a difference today.
The approach could improve the performance of many other materials as well.
Assistant Professor César Terrer and recent visiting student Stephen Bell describe how agricultural lands that are no longer productive could play an important role in carbon sequestration.
FlexBoard is a flexible breadboard that enables rapid prototyping of objects with interactive sensors, actuators, and displays on curved and deformable surfaces.
Through the Multidisciplinary University Research Initiative, the US Department of Defense supports research projects in areas of critical importance to national defense.
Fifteen principal investigators from across MIT will conduct early work to solve issues ranging from water contamination to aquaculture monitoring and management.
A new machine-learning model makes more accurate predictions about ocean currents, which could help with tracking plastic pollution and oil spills, and aid in search and rescue.
The bioderived “smart sutures” could help patients heal after bowel resection or other types of surgery.
A new study finds people are more creative after waking from the earliest stage of sleep, especially when they are guided to dream about a particular topic.
A new computational tool empowers decision-makers to target interventions.
With the new method, scientists can explore many cancer mutations whose roles are unknown, helping them develop new drugs that target those mutations.
A new study shows the carbon-capturing phytoplankton colonized the ocean by rafting on particles of chitin.