Experienced human cyclists can perform a wide range of maneuvers and acrobatics while riding their bicycle, from balancing in place to riding on a single wheel or hopping over obstacles. Reproducing ...

Generative AI is no longer just a tool for digital creativity—it’s now helping design real-world robots. Researchers at MIT’s Computer Science & Artificial Intelligence Laboratory (CSAIL) have ...

Recent advancements in robotics have increasingly drawn on biological principles to develop machines capable of dynamic, agile motion. One area of significant progress is the design of jumping robots ...

Typical jumping behavior of a spherical shell obtained from simulation: it jumps from the inverted configuration back to its original shape. Inspired by a simple children's toy, a jumping popper toy, ...

Inspired by the movements of a small parasitic worm, Georgia Tech engineers have created a 5-inch soft robot that can jump as high as a basketball hoop.

A 301 mg soft robot jumps continuously under constant light without batteries or electronics, using snap-through buckling and self-shadowing to create an autonomous feedback loop. (Nanowerk Spotlight) ...

Imagine walking into a bustling café where a humanoid robot greets you, takes your order, and expertly prepares your coffee, all while engaging in casual conversation. This scenario, once the stuff of ...

Inspired by the movements of a tiny parasitic worm, Georgia Tech engineers have created a 5-inch soft robot that can jump as high as a basketball hoop. Their device, a silicone rod with a carbon-fiber ...