Exoskeleton Could Make Astronauts Super Strong

NASA project engineer Roger Rovekamp demonstrates the X1 Robotic Exoskeleton.
Robert Markowitz

Astronauts could one day get a power surge from hi-tech robotic suits, like real-life versions of "Iron Man" hero Tony Stark.

That's not to suggest that spaceflyers will soon become superheroes; most of Iron Man's abilities will long remain in the realm of science fiction. But the X1 Robotic Exoskeleton, which NASA is co-developing along with several partners, could give superhuman strength to people on long-duration space missions to an asteroid or Mars, or act as a "resistive device" for exercising, agency officials say.

First Mind-Controlled Exoskeleton Steps Up

Four years after being paralyzed in a car accident, UC Berkeley graduate Austin Whitney was able to walk again thanks to a new robotic exoskeleton. Jorge Ribas finds out how it works.

The 57-pound (26 kilograms) X1 fits over an astronaut's legs, with a harness that goes across the back and shoulders. The exoskeleton has motorized joints at the knees and hips, as well as six passive joints that allow the person wearing it to turn, flex and sidestep as needed. [5 Reasons to Fear Robots]

In the short term, astronauts could use the device to add resistive force in microgravity to improve exercising on the International Space Station, NASA officials say. X1 can record information on each session and stream the data back to Earth, where doctors can monitor an astronaut's progress.

But NASA aims to send astronauts farther afield -- to a near-Earth asteroid by 2025, then on to the vicinity of Mars by the mid-2030s -- and X1 could really shine in deep space.

The suit "could provide a robotic power boost to astronauts as they work on the surface of distant planetary bodies," NASA officials wrote in a description of the technology earlier this month.

"Coupled with a spacesuit, X1 could provide additional force when needed during surface exploration, improving the ability to walk in a reduced gravity environment, providing even more bang for its small bulk."

While the device has otherworldly applications, X1 could also be used closer to home, officials said. The exoskeleton shows promise as an assistive walking device, so it may eventually provide a valuable service to people who have trouble getting around here on Earth.

Soft Exoskeleton Flexes Its Artificial Muscles

"X1 has the potential to produce high torques to allow for assisted walking over varied terrain, as well as stair climbing," NASA officials said, adding that preliminary studies into this possible use are underway.

NASA is working on the X1 in collaboration with The Florida Institute for Human and Machine Cognition (IMHC), and Oceaneering Space Systems of Houston. The technology is based on NASA's humanoid Robonaut 2, which is currently on board the space station, and IHMC's Mina exoskeleton.

X1 is still under development, and it's unclear when the technology might be available for astronauts or others to use.

Get more from SPACE.com

This article originally appeared on Space.com, a TechMediaNetwork company. All rights reserved, copyright 2013. This material may not be published, broadcast, rewritten or redistributed.

Recommended for you