When AI-powered prosthetic arms that move autonomously become widespread, understanding how people feel about them and accept ...

As AI powered prosthetic arms become more advanced, a surprising detail could determine whether they truly feel like part of the body: how fast they move.

A virtual forearm can bend in a blink. It can also take its time, easing toward a target as if it is thinking about the move.

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 ...

A new methodology is helping robots to move its arms autonomously. Researchers combined a ...

Harvard researchers created an algorithm that allows a wearable robot to adapt to and assist the arm movements of stroke and Lou Gehrig’s disease patients in real-time. The researchers’ machine ...

China’s humanoid robots underwent rigorous training in advanced skills such as parkour, acrobatics and martial arts ahead of ...

When AI powered prosthetic arms that move autonomously become widespread, understanding how people feel about them and accept them will be crucial. In ...

He was able to grasp, move, and release objects simply by imagining himself performing the actions. The device, known as a brain-computer interface (BCI), functioned successfully for a record seven ...

Robots could soon do daily home tasks on their own. A new method helps them move both arms together and adjust when things change.

Researchers at UC San Francisco have achieved a remarkable breakthrough in brain-computer interface (BCI) technology, enabling individuals with paralysis to control robotic devices through thought ...

What if building a robotic arm didn’t require a massive budget or a team of engineers? Imagine a device capable of delivering smooth, precise movements for studio applications, constructed for less ...