A group at Cornell wanted to take a closer look into the control systems for drones and built this one-dimensional quadcopter to experiment with. The drone is only capable of flying in one ...

According to the team’s results, the BrainGate array wired directly to motor neurons offered a “sixfold improvement” on the ...

Researchers from the University of Zurich’s Robotics and Perception Group have proven that this does not need to be the case by keeping a quadcopter ... in drone control schemes are always ...

A brain-computer interface, surgically placed in a research participant with tetraplegia, paralysis in all four limbs, provided an unprecedented level of control over a virtual quadcopter -- just by ...

Scientists in the US have developed a neural interface that enables an individual with paralysis to control a virtual ...

Imagine controlling a virtual quadcopter with just your thoughts and finger movements. For patient T5, this is no longer a ...

Researchers developed a brain-computer interface that decodes finger movements, empowering paralysis patients to engage in ...

A brain-computer interface, surgically placed in a research participant with tetraplegia, paralysis in all four limbs, provided an unprecedented level of control over a virtual quadcopter—just ...

More information: Matthew Willsey, A high-performance brain–computer interface for finger decoding and quadcopter game control in an individual with paralysis, Nature Medicine (2025). DOI: 10. ...