Researchers at Chiba University in Japan have developed a new artificial intelligence framework capable of decoding complex brain activity with significantly improved accuracy, marking an important ...

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.

Motor imagery (MI) is the mental process of imagining a specific limb movement, such as raising a hand or walking, without physically performing it ...

BrainWhisperer is Tether’s Brain-to-text project. Tether is earmarking resources to build technologies that push the borders of intracranial electrocortical decoding. The latest result is a variable ...

DelveInsight's Implanted Brain-Computer Interface Devices Market Insights report provides the current and forecast market ...

Chinese company Gestala develops non-invasive ultrasound brain-computer interfaces as alternative to surgical implants, ...

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

No one has had a Synchron brain-computer interface longer than Rodney Gorham. He’s still finding new ways to use it.

While Elon Musk’s Neuralink likes to say it’s “pioneering” brain-computer interfaces (BCIs), China’s BCI industry is already quietly moving from research to scale. A new wave of startups is racing to ...

Alzheimer's disease (AD) is the most common neurodegenerative disorder, characterized by progressive cognitive decline and ...

The crackle of electricity inside your brain has long been too complex to decode. Artificial intelligence is changing that.

The experiment was conducted by researchers at Stanford University in the United States as part of a wider study involving patients with amyotrophic lateral sclerosis (ALS), a progressive neurodegener ...