Résultats de recherche
6 févr. 2023 · MIT’s RoboTuna, for example, was composed of about 3,000 different parts and took about two years to design and build. Now, researchers at MIT and their colleagues — including one from the original RoboTuna team — have come up with an innovative approach to building deformable underwater robots, using simple repeating substructures instead of unique components.
What we do. The SPARK Lab works at the cutting edge of robotics and autonomous systems research for air, space, and ground applications. The lab develops the algorithmic foundations of robotics through the innovative design, rigorous analysis, and real-world testing of algorithms for single and multi-robot systems. A major goal of the lab is to ...
But soft robots have been limited due to their lack of good sensing. A good robotic gripper needs to feel what it is touching (tactile sensing), and it needs to sense the positions of its fingers (proprioception). Such sensing has been missing from most soft robots. In a new pair of papers, researchers from MIT’s Computer Science and ...
22 mai 2024 · Robots could give humans ‘superpowers’. By. Daniela Rus. Gregory Mone. In a new book, MIT roboticist Daniela Rus looks at the powers and limitations of robots and how humans can work with them to unlock new capabilities. Apr 9, 2024. Read Article. Ideas Made to Matter Artificial Intelligence.
7 juil. 2023 · MIT scientists have developed tiny, soft-bodied robots that can be controlled with a weak magnet. The robots, formed from rubbery magnetic spirals, can be programmed to walk, crawl, swim — all in response to a simple, easy-to-apply magnetic field. “This is the first time this has been done, to be able to control three-dimensional locomotion ...
David Nuñez, an alum of the Media Lab’s Personal Robots research group, takes MIT Technology Review on a tour of the re-imagined Museum. via MIT Technology Review · Feb. 21, 2023 in Center for Civic Media · Affective Computing · Responsive Environments +4 more
In experiments on a treadmill and an indoor track, the cheetah robot successfully cleared obstacles up to 18 inches tall — more than half of the robot’s own height — while maintaining an average running speed of 5 miles per hour. “A running jump is a truly dynamic behavior,” says Sangbae Kim, an assistant professor of mechanical ...
