Now, a team from Keio University and The University of Osaka has published a study in Advanced Robotics Research detailing the physics behind the jump of thin hemispherical shells, a fundamental ...

Researchers have created a new robot that combines the strengths of both soft and rigid materials, allowing it to leap explosively into the air.

Researchers have developed a soft robot capable of crawling like a worm, climbing cables, and rapidly changing shape to shift directions—all powered by a single air input.

MIT developed a deep learning system that lets soft robots follow commands from a single image, enabling accurate, low-cost ...

Conventional robots, like those used in industry and hazardous environments, are easy to model and control, but are too rigid ...

The gecko-inspired robot could be helpful for search and rescue missions in dangerous rubble and planetary exploration on treacherous terrain.

Team develops predictive model for jumping soft robots using hemispherical silicone shells.

Researchers reveal the physics of jumping shell structures, improving control and agility in soft robots inspired by the mechanics of a simple popper toy.

A small soft robot composed of strategically magnetized polymers could one day find its way into human bodies.

Researchers at Chicago’s DePaul University looked at the movements of aquatic mammals for their new robot prototype.