Imagine controlling a virtual quadcopter with just your thoughts and finger movements. For patient T5, this is no longer a dream. Researchers have developed a high-performance brain-computer interface ...

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

Researchers developed a brain-computer interface allowing a paralyzed individual to control a virtual quadcopter by thinking ...

Neuralink advances brain-computer interfaces, implanting a third patient, improving battery life, receiving FDA/Canada ...

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

World: Discover how a pioneering NHS trial employs ultrasound in brain-computer interfaces to directly influence brain ...

A man with paralysis has been able to fly a virtual drone using only his thoughts. The feat was made possible by a ...

This approach, where the microchips are also referred to as neural implants or brain-computer ... interface between the brain and electronic devices. This allows the user to control devices with ...

The findings could mark a significant improvement in accuracy and dexterity for patients using external bionic limbs.

Brain-computer interfaces are increasingly being explored in order to modulate stimulation in a variety of settings. In a recent exploratory study, Little and colleagues (2013) aimed to test ...