A
humanoid robot aboard the International Space Station is inspiring
technology that could be useful to both astronauts and people on Earth.
NASA's
Robonaut 2, which arrived at the orbiting lab in 2011, has human-like
arms and hands capable of performing simple tasks such as flipping
switches and grasping objects. The robot was originally designed to do
work outside the station, potentially reducing the number of
time-consuming and strenuous spacewalks required of astronauts.
However,
the technology developed during the Robonaut program has inspired other
ideas and is being adapted into several spinoffs that have applications
both in space and on Earth, NASA officials said.
First,
scientists converted Robonaut into a full exoskeleton called X1 that
can help astronauts exercise and stay healthy while spending long
periods in space. But X1 also has potential application closer to home;
scientists think paraplegia or stroke patients could use the skeleton to
regain some lost motion here on Earth.
NASA
robotics engineers worked with researchers at the Florida Institute for
Human and Machine Cognition to create the exoskeleton, which straps on
over the shoulders and back and covers the legs. Motorized joints
installed at the hips and knees allow the wearer to take halting steps.
The
exoskeleton can also be programmed to resist movement, making it a
useful device for astronauts who need to exercise two hours a day to
mitigate the long-term effects of microgravity exposure. (Without
exercising, long periods of time in microgravity can cause muscles to
shrink and bones to weaken.)
Robonaut
also inspired RoboGlove, a glove designed with flexible tendons that
can assist grip force. On spacewalks, astronauts must repair and
maintain the outside of the orbiting lab. But zero gravity combined with
a bulky spacesuit can make even simple tasks difficult.
"Due
to pressurization of the suit, it's like squeezing a balloon every time
you move your hand," Lyndon Bridgwater, senior robotics engineer at
NASA's Johnson Space Center in Houston, said in a statement. "That
causes extreme fatigue and even injury. We're looking at putting the
hardware and actuator in the glove itself to provide muscle augmentation
for the hand."
Finally,
scientists think Robonaut could be useful for telemedicine. Tests at
the Methodist Hospital in Houston have shown it's possible for Robonaut
to guide a user's hand to stick a needle in a vein. In the future,
scientists think Robonaut could assist astronauts performing medical
procedures in space with doctors supervising from Earth.
"The
robot could stabilize an injured individual or do nursing-level work,
even on Earth," Ron Diftler, Robonaut project manager, said in a
statement. "That essentially transports a doctor's skill and presence to
somewhere the doctor can't go or, in an emergency situation, where it
would be dangerous for a person to go."
Robonaut
2 has thus far been humanoid only from the waist up; it launched to the
space station without any legs. But a pair of legs for the robot
arrived at the orbiting complex aboard SpaceX's unmanned Dragon cargo
craft in April, so Robonaut 2 will soon get quite a bit taller.
Posted by : Gizmeon
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