A new artificial intelligence control system enables soft robotic arms to learn a wide repertoire of motions and tasks once, ...

Researchers have developed an AI control system that enables soft robotic arms to learn a wide repertoire of motions and ...

Engineers at Harvard have developed a 3D printing technique that produces soft robotic structures capable of twisting and bending in predictable patterns when inflated with air. The method, which ...

Soft robots made out of flexible, biocompatible materials are in high demand in industries from healthcare to manufacturing, but precisely designing ...

This week's report shows how robotics is evolving beyond isolated cells into integrated, intelligent manufacturing systems.

New Harvard 3D printing technique builds twistable, bendable robotic muscles in a single print with programmed movement logic ...

A new humanoid robot aims for lifelike movement, expressions, and even a warm touch. The result is impressive, even if it's a little unsettling.

A newly developed AI control system using neuron-inspired learning enables soft robotic arms to learn a broad set of motions ...

The method, described in Advanced Materials, replaces the slow, multi-step molding and casting process that traditionally defines soft robotics. Researchers have figured out how to 3D-print ...

Controlled manipulation of fibers that are as thin as or even thinner than human hair is a real challenge. Despite ...

"Cephalopods use a complex system of muscles and nerves to exhibit dynamic control over the appearance and texture of their ...