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‘It’s like giving these robots superpowers’

INSPIRED by the Japanese folding art of origami, US researchers on Monday said they have crafted cheap, artificial muscles for robots that give them the power to lift up to 1000 times their own weight.

The advance offers a leap forward in the field of soft robotics, which is fast replacing an older generation of robots that were jerky and rigid in their movements.

“It’s like giving these robots superpowers,” said senior author Daniela Rus, professor of electrical engineering and computer science at the Massachusetts Institute of Technology (MIT).

The muscles, known as actuators, are built on a framework of metal coils or plastic sheets, and each muscle costs around $1 to make, said the Proceedings of the National Academy of Sciences, a peer-reviewed US journal.

Their origami inspiration comes from a zigzag structure that some of the muscles use, allowing them to contract and expand as commanded, using vacuum-powered air or water pressure.

“The skeleton can be a spring, an origami-like folded structure, or any solid structure with hinged or elastic voids,” said the report.

Possible uses include expandable space habitats on Mars, miniature surgical devices, wearable robotic exoskeletons, deep-sea exploration devices or even transformable architecture.

“Artificial muscle-like actuators are one of the most important grand challenges in all of engineering,” said co-author Rob Wood, professor of engineering and applied sciences at Harvard University.

“Now that we have created actuators with properties similar to natural muscle, we can imagine building almost any robot for almost any task.” Researchers built dozens of muscles in a range of shapes and sizes, using metal springs, packing foam or plastic.

They created “muscles that can contract down to 10 per cent of their original size, lift a delicate flower off the ground and twist into a coil, all simply by sucking the air out of them,” said the report.

The artificial muscles “can generate about six times more force per unit area than mammalian skeletal muscle can, and are also incredibly lightweight,” it added.

A 2.6g muscle can lift an object weighing 3kg — “the equivalent of a mallard duck lifting a car”.

Co-author Daniel Vogt, research engineer at the Wyss Institute, said the vacuum-based muscles “have a lower risk of rupture, failure and damage, and they don’t expand when they’re operating so you can integrate them into closer-fitting robots on the human body.”

The research was funded by the Defense Advanced Research Projects Agency (DARPA), the National Science Foundation and the Wyss Institute for Biologically Inspired Engineering.


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