Humans are naturally aware of their bodies and can anticipate the outcomes of their movements. Robotic experts have been working to make robots self-adaptable, which could enhance the operational ...

Implantation of a brain-computer interface (BCI) into tetraplegic participants allowed for consistent control of a robotic arm and hand for reaching and grasping, according to a study performed at the ...

An AI that helps humanoid robots mirror a person’s movement could allow robots to walk, dance and fight in more convincingly human ways. The most agile and fluid robotic movements, such as Boston ...

Researchers at UC San Francisco have enabled a man who is paralyzed to control a robotic arm through a device that relays signals from his brain to a computer. He was able to grasp, move and drop ...

Researchers researchers bring noninvasive EEG-based BCI one step closer to everyday use by demonstrating real-time brain decoding of individual finger movement intentions and control of a dexterous ...

Using the AI-BCI system, a participant successfully completed the “pick-and-place” task moving four blocks with the assistance of AI and a robotic arm. UCLA engineers have developed a wearable, ...