The researchers detected a specific delay of about 18 milliseconds between the waves in the visual cortex and the ...

Explore the parallels and differences between AI architectures and the human brain's design and functionality in processing ...

A growing body of brain-imaging research has mapped, with increasing precision, how the Amazonian psychedelic brew ayahuasca ...

The trial-to-trial variability of neuronal responses and the correlated response variability among neurons are modulated by visual stimulus size in a manner that depends on cortical layer, suggesting ...

NYU Langone neuroscientists identified the brain region likely responsible for recognizing images after seeing them once, ...

Researchers challenge the "efficiency" theory of the brain, showing that neurons become more coordinated and share more information as learning occurs.

Imagine arriving at a busy location with people moving around and a multitude of visual and other sensory cues vying for your attention. How does the brain integrate such floods of sensory information ...

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 results include a comparison between two different basis functions for temporal selectivity and how these generate different predictions for the dynamics of neural populations. The conclusions are ...

A computer-vision system can detect movement in visual scenes faster than humans and up to four times faster than existing approaches, according to research published in Nature Communications. This ...

It’s quite the understatement to say that at this point in time we don’t quite understand how even the tiniest brain works exactly. Much of this is due to the sheer complexity and ...