A collaborative effort aims to provide a new method of communication for people with cerebral palsy.
EEG and brain machine interface allows amputees to move a prosthetic hand, a new study reports.
Researchers report they have successfully replicated a previous brain-to-brain communication experiment.
Researchers have discovered a fundamental constraint in the brain which could explain why some skills are easier to learn than others.
Neurofeedback which enhances the signal-to-noise ratio of brain activity, could have positive implication for rehabilitation following brain injury.
Researchers develop a flexible carbon-nanotube 'harpoon' to study individual brain neurons. The 'brain harpoon' harnesses the electromechanical properties of carbon nanotubes to capture the electrical signals generated by single neurons.
Researchers show that when humans use brain-computer interface technology, the brain behaves much like it does when completing simple motor skills such as waving a hand. This technology could help improve the daily lives of those who are paralyzed or lost specific abilities due to neurodegenerative diseases.