Researchers at the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, have developed advanced robotic ...

A team led by the University of Oxford has developed a new class of soft robots that operate without electronics, motors, or ...

Researchers have solved the complex "peg-in-hole" assembly challenge with a deep reinforcement learning system.

A laboratory in Pittsburgh’s Bakery Square is poised to make the next breakthrough in wheelchairs, a mostly stagnant industry ...

Imagine a rubber band that turns into a steel cable on command. Now imagine it’s inside a robot. That’s the basic trick of a ...

That’s why engineers at The University of Texas at Arlington have developed a soft robotic exoskeleton that lightens the load ...

Unlike a super shoe, Project Amplify isn't about making people quicker. But I'll be damned if it isn't fun to run fast.

The soft, pneumatic exoskeleton PASE can reduce the effort required for arm work. The perceived workload also decreases.

For workers whose jobs involve hours of lifting and repetitive motion, even small innovations can make a big difference in ...

UTA engineers develop a soft robotic elbow exoskeleton that reduces arm strain and cuts muscle activity by up to 22%.

Learn how lessons from medical robot design can be applied to all robotics from cobots to humanoids and autonomous mobile ...