Rolling robots and mechanisms represent a dynamic research field at the intersection of mechanical design, advanced control and materials engineering. These systems harness innovative kinematic ...

Robots are often limited by how they move. Wheels struggle with obstacles, legs require complex joints and control, and ...

Nvidia has released DreamDojo, an open-source world model trained on 44,000 hours of human video that lets robots learn ...

Traditional safety protocols weren’t designed for self-improving systems, which raises important questions about validation, ...

At one end of the spectrum, we have the Dunning Underwood Mammoth Beat Organ; at the other end, we have the tiny 1 × 1 × 1-in. Scoobot robot I like this … but I couldn’t eat a whole one. The ...

AI-powered robots are no longer a concept from sci-fi movies. We already see them used in various industries, from industrial robots in manufacturing and humanoid robots in warehouses to surgical ...

It’s a bizarre sight: With a short burst of light, a sponge-shaped robot scoots across a tiled surface. Flipped on its back, it repeatedly twitches as if doing sit-ups. By tinkering with the light’s ...

The PM01 robot from EngineAI (China) impresses with its ability to balance, absorb impact forces, and self-recover from a posture as accurately as a human.

Force- and power-limited robot arms, are only as safe as the quality of cobot workspace design, explains a columnist.

The robot utilises ultra-lightweight electrodes to respond rapidly to surrounding electric fields, which trigger stretching, bending, and twisting.