The work that we’re doing brings AI closer to human thinking,” said Mick Bonner, who teaches cognitive science at Hopkins.

In a little over ten years, organoid models—miniature, lab-grown clusters of cells that imitate real organs—have transformed how we study human development and disease while accelerating drug ...

Our brain and eyes can play tricks on us—not least when it comes to the expanding hole illusion. A new computational model developed by Flinders University experts helps to explain how cells in the ...

Accumulating research and emerging experiences suggest we're witnessing fundamental changes in human psychological ...

Brain-computer interfaces will play a central role in defining how human intelligence and artificial intelligence fit together.

Some efforts to slash energy costs focus on using renewable sources, or on slimming down the AI models themselves. But ...

A new Genomic Press Interview with Prof. Dr. Paul Lucassen shares insights from his research spanning 30 years in which he ...

A high-speed “zap-and-freeze” method is giving scientists their clearest view yet of how brain cells send messages. By ...

A flash fiction contest hosted by The Hopkins Review uses short stories to push the boundaries of psychology research ...

Researchers around the world are studying how the human brain achieves its extraordinary complexity. A team at the Central ...

During the early thirties, the brain’s wiring pattern moves into what the researchers describe as the adult mode. This adult period is the longest, lasting more than 30 years. A subsequent turning ...

The human brain experiences five distinct eras as we age, and each is defined by changes in our neural architecture that influence how we process information, new research shows. The brain changes ...