The combination of artificial intelligence and neuroscience allows a paralyzed man to manipulate a robotic arm by using his brain to imagine movements.

These techniques include brain–computer interface (BCI), robotic exoskeletons, functional electrical stimulation (FES), and proprioceptive feedback. However, to the best of our knowledge, no studies ...

Do you want a chance to learn about cutting-edge, wearable technology? UMass Lowell researchers are investigating how people utilize a robotic arm exoskeleton/brace during reaching and grasping tasks ...

Wearable soft robotic devices offer ... the team sees their biorobotic arm as a platform for other scientists in the field to test new ideas in assistive exoskeleton technology.

Wearable soft robotic devices offer ... the team sees their biorobotic arm as a platform for other scientists in the field to test new ideas in assistive exoskeleton technology.

Researchers at the University of California, San Francisco, have created a Brain-Computer Interface—a device that connects ...

Wandercraft announced today that it enrolled the first participants in a clinical trial evaluating its Personal Exoskeleton ...

But tourism officials in Shandong have come up with another idea: robotic legs. On January 29, the first day of Chinese New Year, ten AI-powered exoskeletons debuted at Mount Tai (Taishan in ...