The combination of artificial intelligence and neuroscience allows a paralyzed man to manipulate a robotic arm by using his brain to imagine movements.

Biological computers using lab-grown human neurons are becoming commercial reality, promising lower energy use and better learning abilities than conventional AI.

Spread the love Introduction Artificial Intelligence (AI) and Machine Learning (ML) have become integral parts of our daily ...

Google and the Computer History Museum release AlexNet’s original 2012 source code on GitHub, offering a rare look at a ...

Computing Across Disciplines is a three-part series that explores the interdisciplinary programs at UT that are shaping the ...

Global electronics distributor Mouser Electronics Inc. has released the latest installment of the Empowering Innovation ...

Reflecting on their announcements at GTC 2025, here's how TCS and NVIDIA are creating the 'neural' autonomous factory of the ...

Mouser Electronics, Inc., the authorized global distributor with the newest electronic components and industrial automation ...

Assistant Professor of Computer Science Elizabeth Dinella has received the Outstanding Doctoral Dissertation Award from the ...

University of Michigan labs are using advanced technology to help people like quadriplegics and amputees lead fuller lives ...

Turing AI,' which operates more like the human brain. This new AI integrates certain processes instead of separating them and then migrating huge amounts of data like current systems do.

A smaller, lighter and more energy efficient computer, demonstrated at the University of Michigan, could help save weight and power for autonomous drones and rovers, with implications for autonomous ...