Brain-computer interfaces (BCI) sound like science fiction to most people. But this technology is getting real, quickly.

The country wants to become a global leader in brain implants. Strong government support is expected to help accelerate that ...

On Sunday’s episode of The Excerpt podcast: Brain-computer interfaces promise breakthroughs in restoring lost function and beyond. But they also raise ethical and societal questions about the linking ...

Elon Musk co-founded Neuralink in 2016 to develop brain-machine interfaces. The first product — the N1 implant — focuses on allowing patients with paralysis to control computer cursors with their mind ...

UCLA engineers have developed a wearable, noninvasive brain-computer interface system that utilizes artificial intelligence as a co-pilot to help infer user intent and complete tasks by moving a ...

A Brain Computer Interface (BCI) connects your brain directly to a computer or machine, picking up electrical signals and ...

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.

Everyone – ourselves included – is talking about AI these days, for good reason. AI models now draft legal contracts, design chips, code software, edit videos, discover drugs, even run autonomous labs ...

University of Pittsburgh School of Medicine scientists are one step closer to developing a brain-computer interface, or BCI, that allows people with tetraplegia to restore their lost sense of touch.

The human brain is remarkably complex, with trillions of connections that control how you move, think and feel. Yet it’s still vulnerable to debilitating conditions such as paralysis, stroke, epilepsy ...

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 ...

When a new technology shows promise, performance-wise and commercially, innovation does not stop. To the contrary, it gathers pace. New medical devices typically emerge from competing groups of ...