A figure from the research paper shows that both the model and experimental animals learned a task at a very similar pace. A new computational model of the brain based closely on its biology and ...

BrainAlignNet, AutoCellLabeler, and CellDiscoveryNet—to automatically track and identify neurons in moving worms and jellyfish.

A new computational model of the brain based closely on its biology and physiology not only learned a simple visual category learning task exactly as well as lab animals, but even enabled the ...

On a remote island in the Indian Ocean, six closely watched bats took to the star-draped skies. As they flew across the seven-acre speck of land, devices implanted in their brains pinged data back to ...

Animals survive in changing and unpredictable environments by not merely responding to new circumstances, but also, like humans, by forming inferences about their surroundings—for instance, squirrels ...

When we imagine the brain, we tend to picture one command center—such as a control hub within the human skull—managing all body functions. But nature is not always a centralised design. Indeed, ...

A new study shows macaque species with more tolerant social systems have larger brain regions linked to emotions and social signals.

Researchers at the Stanford University School of Medicine have found that neural signatures in sleeping zebrafish are analogous to those of humans, suggesting that the brain activity evolved at least ...