Researchers from Ben Gurion University in the Negev, Israel, have designed a reconfigurable crawling robot that can shift its shape to traverse different terrains. Known as DSTAR, the robot’s video ...

Biological systems have inspired the development of next-generation soft robotic systems with diverse motions and functions. Such versatility in soft robots—in terms of rapid and efficient ...

(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 ...

Collapsing bridges, crumbling aqueducts, and corroding highways: Infrastructure is big (and increasingly urgent) news in the U.S. A new class of robots and inspection drones from a variety of vendors ...

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 ...

The robots utilize paper-based electrodes and liquid crystal elastomers for asymmetric bending and crawling motions. Biological systems have inspired the development of next-generation soft robotic ...