It looks like footage taken from a deep-sea submersible. A small creature fills and deflates sacs to crawl across the ground, not a bone present in its translucent body. It’s not organic; in fact, ...

(A) Robot’s body featuring anterior and posterior segments and 2 proximity sensors mounted on its head. (B) Demonstration of different deformation modalities and schematic of inflated chambers. (C) ...

(Nanowerk News) For decades, scientists have envisioned a future where nimble robots could traverse rugged terrain and squeeze into tight spaces, ideal for search and rescue missions, industrial ...

Snakes are best known for slithering, but some species can also lift large portions of their bodies off the ground—rising ...

A research paper by scientists at Tianjin University presented an earthworm-inspired multimodal pneumatic continuous soft robot enhanced by wire-winding transmission. The research paper, published on ...

A kirigami-skinned soft robot powered by pneumatic muscles achieves crawling, steering and obstacle avoidance, advancing mobility for confined and rough terrain. (Nanowerk News) Limbless animals move ...

Engineers have developed a new soft, flexible device that makes robots move by expanding and contracting -- just like a human muscle. To demonstrate their new device, called an actuator, the ...

Engineers at Oxford University have developed a rapid, ultra-low-cost method for manufacturing soft robots using common lab equipment. The method has been published in Advanced Science. The new ...

The technique, published in Advanced Science, enables researchers to fabricate soft robotic actuators in under 10 minutes at a material cost of less than $0.10 per unit. Principal Investigator ...