Explore how brain computer interface technology and advanced brain-computer interfaces are transforming digital interaction, ...

As a part of a study testing out a new type of implanted brain-computer interface (BCI), three rhesus monkeys controlled ...

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

Restoring both walking and sensation to patients with paraplegia is an ambitious goal—but a team of researchers from the Keck ...

Epia Neuro’s brain-computer interface will include a motorized glove to help stroke patients recover movement in their hand. Stroke is one of the leading causes of long-term disability, with roughly ...

Objectives: Brain‒computer interfaces (BCI) are currently used in clinical studies but mostly rely on population level signals that limit their precision, facing challenges of interpretability and ...

A new study demonstrated a brain-computer interface technology that enables spinal cord injury patients to walk with a ...

Implantable Brain Computer Interface (iBCI) technology is emerging as an innovation that holds great promise for improving the lives of individuals with upper extremity paralysis or bulbar (severe ...

For people with severe motor impairments, a simple conversation can take minutes instead of seconds. Assistant Professor of Computer Science Dylan Gaines is developing technology to change that, ...

TL;DR: Neuralink's second patient, an ALS sufferer named Kenneth Shock, uses the N1 brain implant to convert brain signals into audible speech, restoring his ability to communicate despite ALS ...