This process finally resulted in energy-efficient soft robots capable of directional crawling at a low actuation voltage value via paper substrate integration with LCEs in a bilayer architecture. "In ...

(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 ...

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, ...

Machines already think faster than we can with our squishy brains. But moving around is still a tough one for robots. Some machines can roll, walk, and even run, though they need a lot of power and ...

Cornell University researchers this week unveiled tiny “metasheet” robots capable of transforming into pre-determined shapes and crawling around when electricity is applied. Along with biological ...

A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or ...

Researches used a model trained on parkour completions to teach this 100 pound robot to run through an obstacle course. Researchers from ETH Zurich are trying to close the mobility gap between robots ...

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 ...

UC Berkeley might be able to claim the title of ‘world’s fastest turning robot‘ and it’s all thanks to an innovation that Mother Nature came up even well before the dinosaurs: a wagging tail. It turns ...