A humanoid race exposed the measure of mechanical precision and patience required to develop two-legged robots. Plus, a look ...

Using these artificial muscles, the team demonstrated fully untethered underwater soft robots that can grip and release objects or crawl through pipes—without any batteries, wires, or pumps. These ...

A Korean research team has created a light-driven artificial muscle that functions independently ... light-powered aquatic robots. These materials were fabricated into linear, ring-shaped spring ...

Using these artificial muscles, the team demonstrated fully untethered underwater soft robots that can grip and release objects or crawl through pipes—without any batteries, wires, or pumps.

The team’s “muscle” — or actuator, the part of a robot that converts energy into physical movement — has three layers. The bottom one — the damage detection layer — is a soft ...

flexible actuator that enables robots to move by expanding and contracting—just like a human muscle. To demonstrate how the actuator works, the researchers used it to create a worm-like soft robot and ...

Using these artificial muscles, the team demonstrated fully untethered underwater soft robots that can grip and release objects or crawl through pipes—without any batteries, wires, or pumps.

Using these artificial muscles, the team demonstrated fully untethered underwater soft robots that can grip and release objects or crawl through pipes—without any batteries, wires, or pumps. These ...