Brain-computer interfaces may allow paralyzed people to perform basic actions such as eating and typing, but … well, there's ...

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

UChicago scientists are making major progress on a technology designed to give nuanced “feeling” to prosthetic hands, by ...

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

For the first time ever, a complex sense of touch for individuals living with spinal cord injuries is a step closer to reality. A new study published in Science, paves the way for complex touch ...

Elon Musk wants to merge humans with AI. And his goal of achieving "symbiosis" with artificial intelligence starts with a ...

Previously, a bionic hand would not be perceived by the ... By utilizing the Brain Computer Interface, the researchers could decode the intention of motion from the participant's brain in order ...

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

Neuralink’s brain-computer interface technology also has been discussed for other potential uses, for example, in mental ...

Together they are designing, building, implementing and refining brain-computer interfaces (BCIs ... brain responsible for moving and feeling the hand. On one side, a participant can move a ...

Astonishing advancements fueled by AI, agentic AI, quantum computing, brain-computer interfaces, and blockchain are on the ...

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