Quadcopters are flying machines. Traditionally, that would mean you’d optimize the design for lightweight and minimum drag, ...

According to the team’s results, the BrainGate array wired directly to motor neurons offered a “sixfold improvement” on the user’s quadcopter piloting when compared to an EEG system.

The authors believe that to restore highly functional fine motor control, electrodes need to be placed closer to the neurons. The study notes a sixfold improvement in the user's quadcopter flight ...

The Chinese drone SUPER can detect obstacles at great distances and therefore fly safely and autonomously at high speeds.

Severe motor impairment or paralysis is associated ... endpoints for controlling the speed and direction of a virtual quadcopter, which in turn allowed the participant to pilot the device through ...

Visitors to the Consumer Electronics Show in Las Vegas saw a new concept motorcycle that also converts into a personal flying ...

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Scientists have enabled a paralyzed man to control a drone using brain-computer interface technology, paving the way for ...

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