We often imagine robots as machines with rigid arms, rotating joints, and targeted mechanical movements. The famous Optimus ...

A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or computers—using only air pressure. The study, published in Advanced ...

These conditions at demos are useful for illustrating capabilities, but they mask many of the challenges that dominate real ...

AI stacks require heavy processing and high energy use. Humanoid robots run on batteries with limited power. This makes it ...

Robots that move, sense and even coordinate with one another usually bring to mind tangled wires, circuit boards and humming motors. In a new study from the University of Oxford, all of that ...

DNA robots are emerging as tiny programmable machines that could one day deliver drugs, hunt viruses, and build ...

A soft electroactive gel enables untethered robots to deform, grip, and move using only external electric fields, eliminating the need for internal wiring or circuitry. (Nanowerk Spotlight) The ...

RBTX is a marketplace that is unlocking partnerships and boosting access to humanoid robots. The plastics specialist will ...

After decades of steady progress and deployment, we believe the technology is approaching growth inflection as AI models ...