Researchers discover decision-making signals in the brain's early sensory regions, suggesting bidirectional feedback loops ...

Researchers use statistical physics and "toy models" to explain how neural networks avoid overfitting and stabilize learning in high-dimensional spaces.

Two breakthroughs emerge: Princeton's 3D-MIND integrates electronics into living brain cells, while Sabi's beanie claims to read thoughts non-invasively. Wearable vs. lab tech: Sabi targets consumers ...

Contemporary artificial intelligence (AI) systems, such as the models underpinning the functioning of ChatGPT, image ...

New research challenges traditional views of how the brain makes decisions, suggesting that even its earliest regions play a ...

The secret behind insects' lightning-fast reactions could offer a blueprint for more energy-efficient robots and self-driving cars, according to a new study challenging our understanding of how brains ...

The rapid ascent of large-scale artificial intelligence has provided neuroscience with a new set of powerful tools for modeling complex cognitive functions.

Artificial intelligence systems based on neural networks—such as ChatGPT, Claude, DeepSeek or Gemini—are extraordinarily ...

This may sound crazy, but scientists use blood to build soft neural interfaces in the brain, and then control them with light ...

Credit: Mark Hersam/Northwestern University Printed artificial neurons can now send lifelike signals that activate real brain ...

A neurobot stained to highlight multiciliated cells – with small tufts of hairlike cilia around the periphery of the bot – and the neuronal extensions of dendrites and axons seen in the center. In ...