When you get better at a skill-recognizing a familiar face in a crowd, spotting a typo at a glance, or anticipating the next move in a game-sensory neurons in your brain become more coordinated, ...

The parvocellular division of the red nucleus (RNp) represents both observed and predicted error signals, transmitting them to the cerebellum to adjust the aiming. M1 ...

Researchers use MEG imaging to show that the brain reactivates "forgotten" memories, but they only reach consciousness if they pulse at a specific rhythm.

A research team at The University of Osaka has identified a crucial brain region involved in motor learning during reaching movements. The parvocellular division of the red nucleus, a small but ...

Unexpected rewards boost movement speed within 220 milliseconds, revealing how dopamine-linked reward prediction shapes human motion and offering a potential biomarker for brain disorders.

The team pinpointed the exact moment mice learned a new skill by observing the activity of individual neurons, confirming earlier work that suggested animals are fast learners that purposely test the ...

Surprise rewards may boost movement speed, hinting that dopamine signals in the brain help control motivation and physical vigor.

Assistant Professor of Biomolecular Engineering Tal Sharf holds up a specialized chip for recording electrical activity in brain organoids. Artificial intelligence (AI) has proven its incredible ...

What can a honey bee tell us about human learning? According to researchers at Virginia Tech and Arizona State University, more than you might think. Their findings, published in Science Advances on ...