MIT engineers developed artificial tendons that could connect robotic skeletons and biological muscle tissue. Made from tough ...

Could a robot smaller than a grain of sand really hoist a load heavier than a bowling ball? In South Korea, engineers have ...

Engineers 3D-print magnet-filled films that act like “magnetic muscles,” letting soft robots curl, twist, and shrink under a ...

According to its developers, the new robot features flapping wings that are powered by a set of artificial muscles that ...

Researchers have unveiled a microrobot that flies with speed and agility, mirroring the motion of real insects; these ...

New companies are building robots in record time ... and at record cost. Massive changes have made physical AI — giving AI a ...

Xpeng's humanoid robot moves so realistically that crowds believed it was fake, marking a major advancement in robotics ...

Scientists at the University of Texas at Arlington, for example, have built a soft exoskeleton that fastens onto the arm and, ...

Artificial tendons make muscle-powered robots stronger and faster. They can last longer and work in tricky or dangerous places.

Rather than pushing a futuristic, machine-forward aesthetic, XPENG leans into recognisable visual cues such as body shape, ...

What if a robot could show us how the brain keeps us balanced? UBC scientists built one—and their discovery could help shape ...