A new brain-computer interface has achieved an “unprecedented” level of control for a person who isn’t able to use their limbs, enabling them to fly a quadcopter in a gaming environment.

However, previous inverted quadcopters always used collective pitch to control the thrust produced by the blades. Collective pitch on a quadcopter is much simpler than it is on the main rotor of ...

Scientists in the US have developed a neural interface that enables an individual with paralysis to control a virtual quadcopter by decoding brain activity into distinct finger movements.… ...

Initially, he also used conventional fin control that caused the servos to ... but we’re not sure if it has any real advantages over a quadcopter with ducted propellers. Servos are cheaper ...

"The goal of doing the quadcopter was really kind of shared ... These signals were then decoded to control the speed and direction of the virtual drone, allowing the participant to maneuver ...

In the Vobla concept, each quadcopter takes the role of a rotor ... with the additional weight of the frame and complexity of control, but it can work. Open-source analyst Roy has collected ...

HUNTSVILLE, Ala.--(BUSINESS WIRE)--Performance Drone Works (PDW) is excited to announce the release of PDW CORE, a software bundle designed for the C100 multi-mission quadcopter, adding a powerful ...