Imagine arriving at a busy location with people moving around and a multitude of visual and other sensory cues vying for your ...

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

A growing body of neuroimaging research is pinpointing exactly how psychedelic drugs hijack the brain’s visual system to produce vivid hallucinations, even when a person’s eyes are closed. Studies ...

Researchers use compressed AI models to discover "dot-detecting" neurons in the macaque visual cortex, offering a new path ...

A neuroimaging study published in Psychiatry Research: Neuroimaging has identified hyperactivity in the superior occipital ...

People who lose their visual imagination after a stroke share damage to a single neural circuit. A new analysis maps these ...

Researchers identify the fusiform imagery node as the brain's "imagination hub," explaining why strokes can cause the loss of visual mental imagery.

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

Why do our mental images stay sharp even when we are moving fast? A team of neuroscientists led by Professor Maximilian Jösch at the Institute of Science and Technology Austria (ISTA) has identified a ...

Imagine a ball bouncing down a flight of stairs. Now think about a cascade of water flowing down those same stairs. The ball and the water behave very differently, and it turns out that your brain has ...

Scientists used a compact AI model to predict how visual cortex neurons respond to images, revealing hidden patterns in ...