Swarms of drones flying in terrifyingly perfect formation could be one step closer, thanks to a control algorithm being developed at MIT. The complexities involved in controlling teams of moving ...

Tiny microrobots are learning to fly with insect-like speed and control, thanks to new AI-driven technology developed at MIT.

MIT’s Computer Science and Artificial Intelligence Lab (CSAIL) has come up with a use for virtual reality headsets that goes beyond firing them up, checking out a new game, muttering “cool” briefly ...

If you've ever piloted a drone, you'll know that utilizing a joystick-style controller takes some getting used to. MIT scientists have developed what they claim is a more intuitive control system, ...

MIT researchers have developed a way to help people with amputation or paralysis regain limb control. Instead of using electricity to stimulate muscles, they used light. Here, Guillermo Herrera-Arcos ...

A team from MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL) wanted robots to be a more natural extension of our bodies. See, you'd usually have to issue vocal or very specific ...

Artificial intelligence -- some fear it, some welcome it. New research from MIT shows that robots are not only more efficient than humans at controlling human workers, but that the workers prefer ...

For people with paralysis or amputation, neuroprosthetic systems that artificially stimulate muscle contraction with electrical current can help them regain limb function. However, despite many years ...

‘Optogenetics offers precise muscle control with significantly less fatigue. #neuroprosthetics #optogenetics #medindia’ “It turns out that by using light, through optogenetics, one can control muscle ...

Given the state of our world, being able to escape to a chosen alternate reality through dreams sounds like a, er, dream. Luckily, scientists at MIT’s Media Lab have been working on a way to let ...