Rapid advances in computational neuroscience and neurotechnology are fundamentally reshaping our ability to decode, model, and modify the human brain.

China's NMPA granted Neuracle Medical Technology the world's first commercial approval for an invasive brain-computer ...

It might soon be "game over" for the video game controller. Yale researchers have developed a new kind of brain-computer ...

When a person loses a limb, a prosthesis often can help restore a significant degree of mobility. But when movement or communication is impaired by a neurological condition such as amyotrophic lateral ...

The University of California San Diego has received $4.85 million from the National Institutes of Health (NIH) to bolster a platform that makes available large-scale neuroscience data together with ...

We collaborate with the world's leading lawyers to deliver news tailored for you. Sign Up for any (or all) of our 25+ Newsletters. Some states have laws and ethical rules regarding solicitation and ...

Five years post-spinal injury, a patient is back on his feet. The NeuCyber Matrix BMI System (Beinao-1) made it possible. Through brain-controlled rehabilitation, the patient graduated from total ...

A student at the robotic department of The University of Texas Austin shows a mind controlled fingers exoskeleton at ITU’s AI for Good Global Summit in Geneva, Switzerland, May 31, 2024 (Keystone ...

A fundamental challenge in the rapid development of BCI systems is the absence of comprehensive software solutions specifically tailored for advancing cognitive neuroscience experiments. Existing BCI ...

Brain-computer interfaces, or BCIs, are a big deal right now. They’re basically systems that let your brain talk directly to computers, skipping the usual ways we interact, like typing or talking.

The electrode in the Beinao-2 intelligent BCI system developed by Neucyber Neurotech (Beijing) Co Ltd. [Photo by Wang Songsong/chinadaily.com.cn] Beinao-2 (The NeuCyber Array BCI System), a ...