Explore how neurotechnology, including BCIs, can transform healthcare and enhance India's capabilities in addressing ...

Developing chips that simulate how the brain works has great promise for AI, robotics, and other fields. But making them so ...

The human brain processes spoken language in a step-by-step sequence that closely matches how large language models transform ...

A new brain implant stands to transform human-computer interaction and expand treatment possibilities for neurological ...

A radically miniaturized brain implant called BISC is redefining what’s possible in human–computer interaction, offering a ...

A new brain-computer interface (BCI) platform unveiled by researchers at Columbia University, New York-Presbyterian ...

R esearchers around the world are racing to push computing into unfamiliar territory. Their latest pursuit blends lab-grown ...

UC Santa Cruz research innovations and academic programs advance brain and mental health.

Artificial intelligence may write award-winning essays and diagnose disease with remarkable accuracy, but biological brains still hold the upper hand in at least one crucial domain: flexibility.

New research reveals that the brain’s flexibility comes from its ability to reuse “cognitive building blocks” across many tasks, allowing rapid adaptation with minimal relearning.

Artificial intelligence may write award-winning essays and diagnose disease with remarkable accuracy, but biological brains ...

Princeton researchers found that the brain excels at learning because it reuses modular “cognitive blocks” across many tasks.