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Robotic Exoskeletons from Cyberdyne Could Help Workers Clean Up Fukushima Nuclear Mess

The views expressed are those of the author and are not necessarily those of Scientific American.


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The Japanese government is searching for new ways to clean up the mess created by the reactor meltdowns earlier this year at the Fukushima Daiichi nuclear plant. As lawmakers and officials study new energy policy options, which they plan to present by next spring, a company called Cyberdyne, Inc. is offering to help with the more immediate concern of removing radioactive debris in and around the reactors with the help of a robotic exoskeleton.

Yoshiyuki Sankai, a professor of system and information engineering at Japan’s University of Tsukuba, first conceived of Cyberdyne’s sleek, white Hybrid Assistive Limb (HAL) exoskeleton in 1997 as a way to augment the body’s own strength or do the work of ailing (or missing) limbs. Now he is offering his company’s Iron Man-like suit for Fukushima clean-up workers. They would wear the exoskeletons under their tungsten anti-radiation outfits, which weigh 15 kilograms—by comparison, most people wear one or two kilograms of street clothing. The thinking is that the suits, which can support up to 60 kilograms of protective material, would allow workers to take longer shifts and clean up the site faster.

Using a sensor attached to the wearer’s skin, the exoskeleton detects brain signals sent to muscles. The exoskeleton’s computer analyzes these signals to determine how it must move (and with how much force) to assist the wearer. At this point, the battery-powered suit can operate for about an hour and a half with a full charge to its lithium-ion 100-volt AC battery.

Cyberdyne (which film buffs will recognize as the name of the company that built the ill-fated “Skynet” in the Terminator movies) first demonstrated the HAL in 2005. By April 2008 the company had created a prototype of the exoskeleton standing 1.6 meters tall. In 2009 Cyberdyne began mass producing the suits—which cost $14,000 to $19,000—for disabled people. They are now used in more than 100 hospitals and welfare centers throughout Japan, according to The Tokyo Times.

In addition to helping the disabled and supporting protective suits, exoskeletons are also being designed to make soldiers stronger and more durable. Raytheon’s second-generation Exoskeleton—XOS 2—is a 95-kilogram support system that enables the wearer to effortlessly lift about 23 kilograms with each arm. The company expects its exoskeletons to become available to the military in 2015. Those suits will likely be tethered by power cables, followed three to five years later by untethered versions. Lockheed Martin’s Human Universal Load Carrier (HULC) is a lower-body, electrohydraulically powered exoskeleton designed to lift and carry heavy loads. Lift Assist, mounted on the back of the HULC exoskeleton, enables the wearer to lift up to about 70 kilograms.

Image courtesy of yomiDr.

Larry Greenemeier About the Author: Larry Greenemeier is the associate editor of technology for Scientific American, covering a variety of tech-related topics, including biotech, computers, military tech, nanotech and robots. Follow on Twitter @lggreenemeier.

The views expressed are those of the author and are not necessarily those of Scientific American.





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  1. 1. StrapOnFetus 11:30 pm 11/9/2011

    This look a lot like the (Berkley) hybrid assisted limb technology. Can anyone say, cyber attack stolen technology?

    Link to this
  2. 2. Wayne Williamson 4:58 pm 11/11/2011

    I would think that something that could be controlled remotely would be much safer.

    Link to this
  3. 3. Jerzy New 8:44 am 11/14/2011

    Maybe better would be to use exoskeletons as remotely controlled robots – link two exoskeletons together, a human moves in one exoskeleton in a safe place, and movements are relayed to second exoskeleton in the nuclear plant.

    Link to this

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