Astronauts could soon be able to move more freely thanks to a soft robotic exosuit developed by researchers at the University ...

Forget the cold, metal robots of science fiction. At Georgia Tech, scientists are building something very different—machines ...

This dual cross-linking design lets the muscle switch stiffness on demand. In lab tests, its stiffness jumps from about 213 ...

AI-powered muscles, made from lifelike materials, paired with intelligent control systems can perform motions that feels ...

In a groundbreaking leap for robotics, scientists have developed artificial muscles that can empower humanoid robots to lift weights previously ...

Once again, scientists have created something to give humanoid robots skills that no human possesses without asking themselves if it is truly a good idea.

Sanket and his students found their answer in bats and the winged mammal’s highly sophisticated ability to echolocate, or navigate via reflected sound. With a National Science Foundation grant, ...

Many existing soft lens designs depend on liquid-filled pouches or actuators requiring electronics. These factors can ...

South Korean researchers develop fabric muscles for lightweight wearable robots that move naturally with the human body.

Researchers at ETH Zurich have developed artificial muscles that contain microbubbles and can be controlled with ultrasound.

From cells that migrate to tissues that heal, nature abounds with systems capable of sensing and adapting to their ...

Researchers have developed a chemical structure for an artificial muscle that can lift up to 4,000 times its weight, and they say it could be used in future humanoid robots.