Motor imagery or imagined limb movements can power brain–computer interface (BCI) devices, such as prostheses and wheelchairs, supporting rehabilitation for people with neuromusculoskeletal disorders.

Neuralink made history with its first human implant — but it's not the only player. Here's where brain-computer interface technology actually stands in 2026.

Everyone – ourselves included – is talking about AI these days, for good reason. AI models now draft legal contracts, design chips, code software, edit videos, discover drugs, even run autonomous labs ...

Velco Dar, author of the forthcoming Neuraleap: How BCIs Will Redefine Communication, Business and Governance, brings his ideas to Bangkok for a private session. The talk explores how brain-computer ...

On Sunday’s episode of The Excerpt podcast: Brain-computer interfaces promise breakthroughs in restoring lost function and beyond. But they also raise ethical and societal questions about the linking ...

Five years post-spinal injury, a patient is back on his feet. The NeuCyber Matrix BMI System (Beinao-1) made it possible.

Unlike other interfaces—which sound stiff and robotic, like early smart assistants—this one imitates the sound and cadence of real human speech. Share on Facebook (opens in a new window) Share on X ...

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 ...