California-based Cognixion is launching a clinical trial to allow paralyzed patients with speech disorders the ability to communicate without an invasive brain implant. Cognixion is one of several ...

Practical brain–computer interfaces should be able to decipher brain signals and dynamically adapt to brain fluctuations. This, however, requires a decoder capable of flexible updates with ...

Motor imagery electroencephalography (EEG) signals depict changes in brain activity during imagined limb movements. Conventional methods, however, often fail to capture these spatiotemporal variations ...

The hardware isn't new, but a UC Davis research team's machine learning-powered method of translating brain activity in an ...

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

An ALS patient has been using a brain-computer interface daily at home for almost two years. The study provides important evidence for its everyday usability.

An important milestone for brain-computer interfaces has been achieved. A new peer-reviewed neuroscience study led by researchers at the University of California, Los Angeles (UCLA) demonstrates a ...

Brain-computer interfaces (BCIs) are moving from sci-fi to real-world use, with Neuralink, Stanford, and startups enabling everything from thought-controlled cursors to mood-tracking headbands. While ...

Neurosurgeon and Engineer Dr. Ben Rapoport, co-founder of Precision Neuroscience, joins WIRED to answer the internet's burning questions about the emerging technology of brain implants and ...

Brain computer interface technology is rapidly advancing, allowing neural signals to translate into digital commands. Experiments like Neuralink Synchron trials demonstrate thought-controlled cursors, ...