The video starts by showing Atlas walking and then running. The walking was a little stiff, but the running was perfectly human-looking. Next, the robot "crawled," in the company's words, but it ...

and enabling a paralyzed man to successfully control a robotic arm by imagining movement with his brain. “Studies in animals ...

The robotic device is mounted directly to the patient's head using a helmet so the subtle — and sometimes not so subtle — movements of the patient's head are compensated for, keeping the eye ...

However, when the participant tried to use the robotic arm and hand, the movements were not precise. To fix this, researchers used a virtual robot that gave the participant feedback on the accuracy of ...

However, when the participant tried to use the robotic arm and hand, the movements were not precise. To fix this, researchers used a virtual robot that gave the participant feedback on the ...

Then, the participant tried to control a robotic arm and hand. But the movements still weren't very precise. So, Ganguly had the participant practice on a virtual robot arm that gave him feedback on ...

Then, the participant tried to control a robotic arm and hand. But the movements still weren't very precise. So, Ganguly had the participant practice on a virtual robot arm that gave him feedback ...

This data was used to further train the AI, which then controlled a virtual robotic arm on a computer screen. At first, the movements were clumsy. But with practice — and real-time feedback from ...