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

Engineers at the University of California San Diego have developed a next-generation wearable system that enables people to ...

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

Engineers unveil a soft wearable that uses AI to interpret everyday gestures even in high-motion environments like running or ...

Engineers at the University of California San Diego have developed a next-generation wearable system that enables people to control machines using ...

Imagine being able to control a robot just by moving your arm, even if you’re running, riding in a car or being bounced ...

Engineers at the University of California San Diego have developed a next-generation wearable system that enables people to ...

A new wearable system uses everyday gestures to control robotic devices and machinery while the user is on the move.<br /><br /> ...

Industrial AI at the edge merges context-aware intelligence with scalable compute to achieve new levels of operational ...

Think of robotics as a field where science, engineering, and technology all come together. The main goal? To create machines, ...

UCSD engineers created a soft, AI-powered wearable that filters motion noise and interprets gestures in real time.

Miniaturization offers robotics designers new levels of power efficiency, nimbleness, and precision for a range of ...