Researchers at the Intelligent Biomimetic Design Lab at Peking University have developed a bio-signal framework showing that fish muscles do far more than generate swimming motion. In a series of ...

Fish muscle signals can reveal movement, sense water flow & improve robot swimming, offering a way to design smarter ...

A new artificial muscle can change shape, repair damage, and be reused, bringing a major shift in how robots are built and ...

Schaeffler's Hermes Award-winning actuator platform targets the single costliest barrier to deploying humanoid robots at ...

Scientists at Friedrich-Alexander-Universität Erlangen-Nürnberg have created intelligent materials that change shape and mechanical properties when exposed to light. By linking molecular machines into ...

In the research world, Casey Harrell is known by subject name T-15. He's become a test case, and a point of hope, for people ...

Deion Sanders believes in divine protection. Whether it’s a cancer diagnosis or a game-winning drive, he always knows there ...

Researchers developed 3D printed, muscle-inspired magnetic actuators that push, pull, crawl, and grasp. The research paper describes a family of soft actuators that convert applied magnetic fields ...

Photon-driven nanorobots can steer, capture, and move bacteria with precision, enabling controlled manipulation in ...

Nature is replete with slender filaments that bend and coil—from climbing grape vines, to folded proteins, to elephant trunks that can pick up a peanut but also take down a tree.