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

Participant says controlling the virtual drone felt like playing a musical instrument, evoking activity and socialization.

A groundbreaking brain implant has allowed a paralyzed man to control a virtual drone and fly it through an obstacle course.

Learn how a brain-computer interface allowed a paralyzed patient to guide a quadcopter through a virtual course by thinking ...

When patient T5 suffered a spinal cord injury that left him paralyzed, his dream of flying a drone seemed forever out of reach. Now, thanks to a brain implant, he’s experienced the thrill in a ...

A man with paralysis has been able to fly a virtual drone using only his thoughts. The feat was made possible by a brain-computer interface (BCI) that decoded the man’s brain activity in real ...

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 ...