Researchers put an implant in the area of the patient's brain that controls motor function. Those functions were then ...

The brain–computer interface allowed the participant to control the drone with six times the accuracy of EEG-based systems.

When you think about moving your fingers, neurons (brain cells) in the motor cortex (the brain’s movement control center) ...

A man with paralysis was able to fly a virtual drone through a complex obstacle course simply by thinking about moving his ...

In a demonstration of cutting-edge neuroscience and engineering, researchers have achieved something once thought to be science fiction—a brain-computer interface (BCI) that allowed a paralyzed ...

Now, thanks to a brain implant, he’s experienced the thrill in a simulation. By picturing finger movements in his mind, the 69-year-old flew a virtual drone in a video game, with the quadcopter ...

Brain-Computer Interface helps paralysed man control virtual drone Virtual drone control offers hope for people with paralysis Study paves the way for advanced BCI applications for mobility ...

A revolutionary brain implant lets a paralyzed man control a virtual drone, marking a stunning leap in tech that could redefine independence for millions.

The formation of about 500 drones ended up misaligned by about seven degrees, and the drones’ geofence — a virtual firewall ...

XTI Aerospace Inc. (XTIA) stock fell nearly 5% in pre-market trade on Tuesday after announcing that it has signed a ...