CAPE CANAVERAL, Fla. — Space is about to get its first humanoid from planet Earth.
Robonaut 2 — affectionately known as R2 — is hitching a one-way ride to the International Space Station this week aboard the final flight of space shuttle Discovery.
It is the first humanoid robot ever bound for space, a $2.5 million mechanical and electrical marvel that NASA hopes one day will assist flesh-and-bone astronauts in orbit.
Imagine, its creators say, a future where Robonaut could take over space station cleaning duties; spend hours outside in the extreme heat and cold, patiently holding tools for spacewalking astronauts; and handle emergencies like fires. Robonaut’s descendants could scout out asteroids, Mars, and other worlds in the decades ahead, paving the way for humans.
The adventure begins tomorrow afternoon, with the planned final launch of Discovery and Robonaut’s six human crewmates. Mission managers gave the green light yesterday for the new launch date; shuttle gas leaks had to be repaired before the countdown could begin and forced a two-day delay.
“While it might be just a single step for this robot, it’s really a giant leap forward for tinmankind,’’ said Rob Ambrose, acting chief of Johnson Space Center’s automation, robotics, and simulation division in Houston.
For now, R2 — a collaboration between NASA and General Motors — exists only from the waist up. It measures 3 feet 4 inches tall and weighs 330 pounds. Each arm is 2 feet, 8 inches long. Legs are still in the works. But, what an upper body: perfectly toned arms and hands with palms, a robotic rarity, along with broad shoulders and a washboard stomach.
Made of aluminum and nickel-plated carbon fiber, the torso and arms are padded to protect Robonaut and the astronauts, all the way down to the five fingers on each hand. No metal, bony-looking fingers for this robot.
R2’s eyes are in its gold-colored head. Four visible light cameras are located behind the robot’s visor, and an infrared camera is in its mouth for depth perception. Its brain is in its tummy; engineers had nowhere else to put the computerized gray matter.
A backpack holds a power system for plugging R2 into the space station. On an asteroid or Mars, the backpack would contain batteries. The joints are filled with springs for give, and more than 350 electrical sensors are scattered throughout, allowing R2 to sense even a feather with its fingertips.
The objective is to help astronauts, not replace them, NASA stresses.