Fishing at Sebastian Inlet has been hit or miss this week. This report covers what's biting at the jetty, the best times to ...

A member of the nearby east coast community seemed to be dancing an imaginary heap of cocoa as she executed her moves in the ...

Seoul National University College of Engineering announced that Professor Kyu-Jin Cho's research team from the Department of Mechanical Engineering has developed a "hyperelastic torque-reversal ...

Researchers developed a hyperelastic torque reversal mechanism, enhancing soft robots' performance with rapid and powerful movements.

A research team has taken inspiration from principles found in nature and developed the "hyperelastic torque reversal mechanism" (HeTRM), which enables robots made from rubber-like soft materials to ...

He added, "Our research team previously developed flea-inspired robots ... developed principle can instantly catch falling ping-pong balls, while other applications include a robot that crawls over ...

Our editorial teams' guide to small towns worth a visit, established by interviewing locals and visiting these charming destinations across the United States.

Shrimp and fleas inspire the latest generation of robotics, using soft, rubbery materials to generate powerful motion.

Head to the Historical Museum of Bern, where you will catch a glimpse of the city’s fascinating past ... Among the February highlights, the lively Jeu de Balle flea market makes a perfect destination ...

“Our research team previously developed flea ... sand, and one that wraps around objects like an octopus tentacle. The soft gripper, based on the developed principle, can instantly catch falling ...