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

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

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

Projects to create brain-computer interfaces, or BCIs, have been in the works since at least the early 2010s.

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 ...

Chinese scientists have developed the world’s first two-way adaptive brain-computer interface (BCI), significantly enhancing efficiency and paving the way for practical applications.

In this interview, Gray Newell explores the current landscape and future potential of Brain-Computer Interfaces (BCIs), emphasizing their capacity to revolutionize human-computer interaction.

A brain-computer interface (BCI) developed by UC Davis Health accurately translates brain signals into speech. The device implanted in the brain of a man with ALS is the most accurate system of its ...

A Brain-Computer Interface (BCI) measures and decodes cortical brain activity that can be used as a communication pathway between a human operator and an external device. The applications range from ...

A team of brain specialists at the California Institute of Technology has developed a brain–computer interface (BCI) approach to decode words "spoken" entirely in the brain by recording signals ...