CSAIL robot disinfects Greater Boston Food Bank
Using UV-C light, the system can disinfect a warehouse floor in half an hour — and could one day be employed in grocery stores, schools, and other spaces.
Using UV-C light, the system can disinfect a warehouse floor in half an hour — and could one day be employed in grocery stores, schools, and other spaces.
Teaching assistants in Robotics: Science and Systems pulled out all the stops to help engineering students race across the finish line this spring.
In a pair of papers from MIT CSAIL, two teams enable better sense and perception for soft robotic grippers.
CSAIL's Conduct-A-Bot system uses muscle signals to cue a drone’s movement, enabling more natural human-robot communication.
By observing humans, robots learn to perform complex tasks, such as setting a table.
Weather’s a problem for autonomous cars. MIT’s new system shows promise by using “ground-penetrating radar” instead of cameras or lasers.
Flexible sensors and an artificial intelligence model tell deformable robots how their bodies are positioned in a 3D environment.
Device made of heart tissue and a robotic pumping system beats like the real thing.
MIT researchers and collaborators have developed an open-source curriculum to teach young students about ethics and artificial intelligence.
Weekend robotics workshops help middle and high school girls dispel “computing phobia.”
A novel experimental facility integrates automation and active learning, illuminating a path to accelerated scientific discovery.
Cornell University professor and physicist uses nanoscale parts to create smart, active microbots.
Optimizing soft robots to perform specific tasks is a huge computational problem, but a new model can help.
System from MIT CSAIL sizes up drivers as selfish or selfless. Could this help self-driving cars navigate in traffic?
Its extendable appendage can meander through tight spaces and then lift heavy loads.