A biocomputer powered by lab-grown human brain cells has leveled up from Pong to Doom. While nowhere ready to handle the video game shooter’s most challenging levels, researchers at Cortical Labs in ...

Researchers at Australian start-up Cortical Labs have taught human neurons grown on a chip to play the classic Doom game. In 2021, they had already used 800,000 neurons to play Pong. Now, with four ...

A new study published in Frontiers in Human Neuroscience suggests that assistive robots may work best when they share control with their users, striking a middle-ground between full automation and ...

A new study suggests AI systems could be a lot more efficient. Researchers were able to shrink an AI vision model to 1/1000th of its original size.

Researchers at a Melbourne start-up have taught their “biological computer” made from living human brain cells to play Doom.

Human brain cells are now interacting with computer systems, learning to play video games like Doom. Researchers have ...

Artificial intelligence now plays Go, paints pictures, and even converses like a human. However, there remains a decisive difference: AI requires far more electricity than the human brain to operate.

Unlike most frontier neuroscience projects that rely primarily on state funding, this one has been built through a rare mix ...

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

Robotics technology that not only performs simple tasks but also supports humans in all their tasks is among the key technologies in industrial manufacturing. But this requires that robots be able to ...

An international study has revealed a surprising connection between quantum physics and the theoretical models underlying ...

Digital engagement is neither inherently benign nor uniformly harmful among young people. Later in life, it can fortify specific cognitive skills through intentional practice.