In a tiny laboratory pond, a robotic stingray flaps its fins and swims around. Roughly the width of a dime, the bot dashes distances multiple times its body size. It easily navigates around corners ...

This humanoid robot has a mind of its own. Researchers at Tianjin University in China have created a robot that is controlled by human brain cells in a first-of-its-kind breakthrough in biocomputation ...

Advancements in neuroscience and robotics have been separate, but this world's first study from Chinese researchers has now been delivered on a robot controlled by human brain cells alone. No, it is ...

'Brain-in-a-jar' biocomputers can now learn to control robots Living brain cells wired into organoid-on-a-chip biocomputers can now learn to drive robots, thanks to an open-source intelligent ...

Elon Musk’s brain-computer interface (BCI) company is entering its next phase of experiments: seeing if patients can move a robotic arm using their minds. In a statement posted on X-formerly Twitter — ...

Rats are incredibly nimble creatures. They can climb up curtains, jump down tall ledges, and scurry across complex terrain—say, your basement stacked with odd-shaped stuff—at mind-blowing speed.

In a nutshell: Interfacing brains with computers is challenging. It requires decoding complex neural signals, ensuring biocompatibility, and preventing immune responses, to name a few hurdles.

Robots are learning from videos to execute tasks, thanks to a new AI model from Skild. The system enables robots to acquire skills by observing human videos and performing tasks such as opening doors, ...