University of Chicago computer scientist Sarah Sebo is programming robots to give empathetic responses and perform nonverbal ...

In a nutshell: Interfacing brains with computers is challenging. It requires decoding complex neural signals, ensuring biocompatibility, and preventing immune responses, to name a few hurdles.

Scientists use lab-grown human brain cells as computer processors that are one million times more energy efficient than AI ...

USF is working to improve communication in emergencies and everyday life by teaching robots to project instructions onto ...

Last year, Monash University scientists created the "DishBrain" – a semi-biological computer chip with some 800,000 human and mouse brain cells lab-grown into its electrodes. Demonstrating something ...

"The first human received an implant from Neuralink yesterday and is recovering well." Elon Musk has announced a milestone moment at his brain-machine interface company, after a surgical robot ...

When he's not battling bugs and robots in Helldivers 2, Michael is reporting on AI, satellites, cybersecurity, PCs, and tech policy. (Credit: Getty Images) A research team in Australia is merging ...

Faculty and students at RIT are conducting research in several areas of human computer interaction, including accessibility and inclusion, eye-tracking and visual perception, human-aware artificial ...

Instead of designing a humanoid robot with AI reasoning and neural networks, you can just teach it yourself. Researchers at Stanford University developed a robot that can imitate what you’re doing in ...

Human-machine interface technology is used by almost all industrial organizations—including energy, transportation, manufacturing and more. At Case Western Reserve University’s Case School of ...