Gainesville High School students visited UVA Health Prince William Medical Center for a hands-on look at robotic-assisted ...

AI-powered wearable cleans noisy motion signals to let users control machines with simple gestures in real-world conditions.

At the heart of industrial productivity lies the ability to cut through the toughest materials without compromising stability ...

Walk through almost any small or mid-sized machine shop in the United States today and a new scene is emerging. Amid the familiar soundtrack of mills and grinders, a robotic arm might be tending a ...

A decade ago, at age 55, Don Lewis suffered a stroke in his sleep. When he woke up, he couldn't move his left arm or leg.

A new wearable system uses stretchable electronics and artificial intelligence to interpret human gestures with high accuracy even in chaotic, high-motion environments.

Engineers at the University of California San Diego have developed a next-generation wearable system that enables people to control machines using everyday gestures — even while running, riding in a ...

DailyRobotics prepares for 2026 debut in California with a robotic harvester it claims can pick strawberries 2-3x faster than ...

Joanna Hoh, a biomechanics and movement science (BIOMS) doctoral student at the University of Delaware, tests Don Lewis’ sensory loss in his arm post-stroke using a KINARM robotic exoskeleton.

Industrial automation is entering a new era with physical AI, where machine learning meets real-world motion control.

Beyond road tests, the project integrates smart infrastructure. At a low-carbon green charging station, the bus autonomously ...