Researchers created tough hydrogel artificial tendons, attached them to lab-grown muscle to form a muscle-tendon unit, then linked the tendons to a robotic gripper's fingers. (Nanowerk News) Our ...

Most robots rely on rigid, bulky parts that limit their adaptability, strength, and safety in real-world environments. Researchers developed soft, battery-powered artificial muscles inspired by human ...

Imagine a rubber band that turns into a steel cable on command. Now imagine it’s inside a robot. That’s the basic trick of a new artificial muscle built by researchers at the Ulsan National Institute ...

A Korean research team has created a light-driven artificial muscle that functions independently underwater, advancing the future of soft robotics. The system, developed by the Korea Research ...

Light-powered artificial muscles for underwater robots with reversible, high-stroke actuation Demonstrating 3 times greater actuation stroke and 2 times higher work capacity than existing ...

Researchers at The Grainger College of Engineering are developing biohybrid robots, mimicking muscles to better understand ...

Copying human expressions is super-difficult, but scientists used hours of YouTube videos to teach a robot how humans move ...

Fluid robot motion is the result of design choices among five options including pneumatics and strain wave gears.

Our muscles are nature’s actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate “biohybrid robots” made ...

Future robots could soon have a lot more muscle power. Northwestern University engineers have developed a soft artificial muscle, paving the way for untethered animal- and human-scale robots. The new ...