Algorithm may improve brain-controlled prostheses and exoskeletons
An improved method for magnet tracking enables high-speed wireless tracking through various materials.
An improved method for magnet tracking enables high-speed wireless tracking through various materials.
Historian's research focuses on understanding how visions for social and economic policy are tied to changing ideas about technology.
New tool highlights what generative models leave out when reconstructing a scene.
Robotic boats could more rapidly locate the most valuable sampling spots in uncharted waters.
Math and computer science major tweaks soccer accelerometer’s algorithms and expands his worldview via MIT-France.
Model alerts driverless cars when it’s safest to merge into traffic at intersections with obstructed views.
An artificial intelligence model developed at MIT shows in striking detail what makes some images stick in our minds.
Whether racing cross country or teaching coding in rural schools, senior Billy Woltz relishes experimentation and creative thinking.
Developed at MIT’s Computer Science and Artificial Intelligence Laboratory, robots can self-assemble to form various structures with applications including inspection.
A low-cost analog circuit based on synchronizing oscillators could scale up quickly and cheaply to beat out digital computers.
By sensing tiny changes in shadows, a new system identifies approaching objects that may cause a collision.
Modeling web traffic could aid cybersecurity, computing infrastructure design, Internet policy, and more.
Drones can fly at high speeds to a destination while keeping safe “backup” plans if things go awry.
Systems “learn” from novel dataset that captures how pushed objects move, to improve their physical interactions with new objects.
Research aims to make it easier for self-driving cars, robotics, and other applications to understand the 3D world.