In a sense, the origins of the kirigami robot were inspired by “living organisms that can change their shape.” Liu said. “But when people make a robot, once it’s fabricated, it might be ...

The robot then measures how much energy the structure absorbed, how its shape changes after being squashed ... wrist guards ...

As entertaining as it is to watch Nonoti at work, the presence of a machine that does what sketch artists train for years to ...

Researchers at Cornell University have developed tiny robots, less than 1 millimeter in size, that can fold into 3D shapes ...

Vitestro's blood drawing (phlebotomy) robot is designed to offer a solution to what the company says is a growing shortage of healthcare personnel, coupled with rising demand for blood tests with ...

Researchers developed electrically driven robotic components, called HEXEL modules, which can snap together into high-speed ...

Nvidia chief Jensen Huang referenced Star Wars when talking about the future of robotics during an appearance at T-Mobile's ...

Researchers from Princeton University have developed a new way to make concrete more resistant to cracking by drawing ...

Set and forget this hybrid robot vacuum and mop for up to a month with a self-cleaning mop and emptying system ...

Researchers have created microscale robots less than 1 millimeter in size that are printed as a 2D hexagonal 'metasheet' but, with a jolt of electricity, morph into preprogrammed 3D shapes and crawl.

The legacy of microscale robotics at Cornell continues to unfold – and refold and unfold itself again. The latest addition is a robot less than 1 millimeter in size that is printed as a 2D ...