Helping robots collaborate to get the job done
Algorithm enables robot teams to complete missions, such as mapping or search-and-rescue, with minimal wasted effort.
Algorithm enables robot teams to complete missions, such as mapping or search-and-rescue, with minimal wasted effort.
Alumni-founded Multiply Labs uses an automated manufacturing platform to produce advanced treatments at scale.
Robotic arm equipped with a hairbrush helps with brushing tasks and could be an asset in assistive-care settings.
Student inventors recognized on World IP Day for groundbreaking, patentable solutions to issues related to maternal health, energy efficiency, and plastic waste.
A team of MIT engineers has developed a navigational method for autonomous vehicles to navigate accurately in the Arctic Ocean without GPS.
System uses penetrative radio frequency to pinpoint items, even when they’re hidden from view.
By measuring a person’s movements and poses, smart clothes developed at MIT CSAIL could be used for athletic training, rehabilitation, or health-monitoring for elder-care facilities.
A new tool helps humans better understand and develop artificial intelligence models by searching and highlighting representative scenarios.
Deep-learning technique optimizes the arrangement of sensors on a robot’s body to ensure efficient operation.
Method builds on gaming techniques to help autonomous vehicles navigate in the real world, where signals may be imperfect.
Study finds patients are receptive to interacting with robots designed to evaluate symptoms in a contact-free way.
New type of control system may broaden robots’ range of tasks and allow safer interactions with people.
Leveraging research done on campus, student-run MIT Driverless partners with industry collaborators to develop and test autonomous technologies in real-world racing scenarios.
Inspired by personal tragedy, graduate student Hyunwoo Yuk used his background in soft materials to develop a bioadhesive tape for repairing damaged tissue.
Reconnecting muscle pairs during amputation gives patients more sensory feedback from the limb.