Soft-bodied robots move via pneumatic "muscles" that are selectively inflated or deflated. And while the muscles themselves may be soft and squishy, they're usually hooked up to hard, unwieldy pumps.

Add Yahoo as a preferred source to see more of our stories on Google. Humanoid robots have glimmered on the tech horizon for half a century, but each new prototype still triggers Masahiro Mori’s ...

Several research groups across the United States and Europe have demonstrated that 3D-printed artificial muscles can replicate biological movements such as contracting, twisting, and lifting, bringing ...

Genoa/Pisa (Italy), 30 August 2022 - Artificial pneumatic muscles consisting of 3D-printed structures that can extend and contract as required: this is the innovative design of the GRACE actuators ...

Robotic clothing that is entirely soft and could help people to move more easily is a step closer to reality thanks to the development of a new flexible and lightweight power system for soft robotics.

Researchers have presented a class of muscle-fiber-array-inspired pneumatic artificial muscles (MAIPAMs) consisting of active 3D elastomer-balloon arrays reinforced by a passive 2D elastomer membrane, ...

We've been hearing a lot about "artificial muscles," which allow robotic devices or prosthetic limbs to perform human-like motions. And while most of them have been produced in labs utilizing ...

Humanoid robots have glimmered on the tech horizon for half a century, but each new prototype still triggers Masahiro Mori’s “uncanny valley.” When a machine looks almost, but not quite, human, our ...

(Nanowerk News) Artificial pneumatic muscles consisting of 3D-printed structures that can extend and contract as required: this is the innovative design of the GRACE actuators devised by researchers ...

Biological organisms (such as elephant trunks, octopus tentacles, and human tongues) show remarkable dexterity and self-adaptation in unstructured environments, relying on the multiple-mode actuations ...