A man who hasn’t been able to move or speak for years imagines picking up a cup and filling it with water. In response to the man’s thoughts, a robotic arm mounted on his wheelchair glides forward, ...

Imagine being able to compose an email or steer a wheelchair directly with your thoughts. For millions of people living with neurological disorders such as ALS, this possibility could be life-changing ...

You can probably complete an amazing number of tasks with your hands without looking at them. But if you put on gloves that muffle your sense of touch, many of those simple tasks become frustrating.

Both recognitions cite the Layer 7 cortical interface and its potential to restore independence for people living with paralysisNEW YORK, June 17, 2026 (GLOBE NEWSWIRE) -- Precision Neuroscience ...

China has approved the world's first commercial brain-computer chip, NEO, ahead of Elon Musk's Neuralink. This coin-sized ...

Brain-computer interface technology has long belonged to the realm of science fiction, but it’s quickly emerging as a real-world innovation with the potential to transform how we live, work and ...

China has moved ahead of Elon Musk's 'Jesus-level technology' Neuralink in the race to commercialise brain-computer interface ...

Elon Musk's brain-computer interface implant startup Neuralink announced on X that it received approval to launch a new feasibility study, CONVOY, which will test the use of its wireless ...

Brain-computer interfaces (BCIs) come in many forms and can be non-invasive, integrated into wearable devices, or invasive, meaning they are implanted into the body to work nearer to the brain.

What are brain-computer interfaces? Brain-computer interfaces (BCIs) are devices that allow for the action or control of an external device from brain signals. These technologies have a broad range of ...

Doctors conduct the clinical trial of the invasive brain-computer interface in East China's Shanghai, March 25, 2025.

As the body’s most external organ, skin is privileged for human-computer interfaces because it can be accessed non-invasively. Despite much progress on thin flexible devices that conform to skin for ...