Researchers have used brain imaging to show how memories can be reactivated in the brain without them reaching conscious ...

Researchers used AI and deep learning to find a link between brain structure and navigation skills but found no measurable ...

Navigation in mammals including humans and rodents depends on specialized neural networks that encode the animal's location and trajectory in the environment, serving essentially as a GPS, findings ...

Steven Weisberg, a researcher at The University of Texas at Arlington, put some of the most advanced artificial intelligence ...

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

Neuroscientists from Bonn, New York, and Freiburg discover interactions between so-called "ripples" and nerve cells during human memory processes Spatial navigation and spatial memory play a central ...

As we age, it becomes more difficult to remember where things are—whether it’s recalling where we left the keys or where we parked the car. This spatial memory deteriorates further with the onset of ...

Combining virtual reality and non-invasive deep-brain electrical stimulation, researchers have improved healthy individuals’ spatial memory – the kind that helps you remember where you left the car ...