Brain-computer interfaces translate neural signals into actions, revolutionizing healthcare and enhancing communication for individuals with disabilities.

Researchers have conducted groundbreaking research on memristor-based brain-computer interfaces (BCIs). This research presents an innovative approach for implementing energy-efficient adaptive ...

Here’s what you should know about the project, including what’s theoretically possible, how skeptical you should be, and who else is designing brain-computer interfaces.

Researchers are exploring nonmedical brain-computer interface applications in many fields, including gaming, virtual reality, artistic performance, warfare, and air traffic control.

What if a paralyzed patient could communicate just by thinking, or control a prosthetic limb with their mind? Brain-computer interfaces (BCIs) are making this a reality, turning neural activity ...

Brain-Computer Interfaces fascinate the sci-fi and medical communities in equal measure. Here's how close the transformative technology is to everyday use.

Explore the thrilling convergence of AI and the human brain as cutting-edge technologies like Neuralink blur the lines between science fiction and reality.

Brain-computer connections used by paralyzed patients to type and control robotic limbs shows such devices could be the next great interface.

A new kind of neural interface system that coordinates the activity of hundreds of tiny brain sensors could one day deepen understanding of the brain and lead to new medical therapies.

Eventually, brain-computer interfaces could let people control augmented reality and virtual reality experiences with their mind instead of a screen or controller.