The researchers then asked the participant to imagine simple finger, hand, and thumb movements over two weeks while the AI system learned to interpret his brain activity. Initially, the robotic arm’s ...

A paralyzed man was able to control a robotic arm through his thoughts, according to researchers at UC San Francisco. The ...

A flexible robotic arm mimics an elephant's trunk, twisting and stiffening to perform tasks, offering safer alternatives to rigid robots.

End of arm tooling is more than just a robot attachment — it’s a critical factor of automation. By carefully considering ...

Researchers at the University of California, San Francisco, have created a Brain-Computer Interface—a device that connects the brain to a computer—allowing a paralyzed man to move a robotic arm just ...

Researchers have enabled a paralysed man to control a robotic arm through a device that relays signals from his brain to a computer ...

A newly developed system combining AI and robotics has been helping a man with tetraplegia turn his thoughts into mechanical ...

The robotic arm picks up a block. Credit ... Reference: “Sampling representational plasticity of simple imagined movements across days enables long-term neuroprosthetic control” by Nikhilesh Natraj, ...

The illustration below shows how the brain-computer interface (BCI) receives brain signals to decode and allow a study participant to move the robotic arm. Ganguly then asked the participant to ...

Initially, the robotic arm’s movements were imprecise ... For people with paralysis, the ability to perform simple tasks like feeding themselves or getting a drink of water could be life ...