杏吧原创

What would it take to put a walking robot on the moon?

A group of Japanese companies wants to land a bipedal robot on the moon by 2015, but the mission will be no walk in the park
Robotic missions
Robotic missions 鈥渞e-ignite dreams and enthusiasm about space among the Japanese people鈥, says Hideo Sugimoto, head of a group of companies that aims to land a walking robot on the moon around 2015 (Illustration: Astro-Technology SOHLA)

See also: NASA鈥檚 android astronaut assistant prepares for launch

A humanoid robot could be walking on the moon 鈥 and drawing the Japanese flag on its surface 鈥 by 2015, according to a plan proposed by a group of Japanese companies. Experts say wheeled or many-legged robots would be easier to operate on the moon鈥檚 uneven terrain, but backers of the proposal say a two-legged android would make a bigger splash in the public imagination.

The plan was announced last week by a small cooperative of companies in Osaka called Astro-Technology , which in January 2009.

The group hopes that its robot, dubbed Maido-kun, could hitch a ride to the moon with a set to be launched by the Japanese space agency JAXA in about five years, according to the newspaper.

The newspaper said that JAXA had previously opted against sending a bipedal robot to the moon because its footing would not be steady on the sandy lunar surface. But SOHLA president Hideo Sugimoto countered that a walking robot would be more inspiring than a wheeled rover, adding that Maido-kun would draw the Japanese flag on the moon鈥檚 surface.

鈥淲e decided on a human-like robot because it鈥檚 more fascinating and stimulating for us,鈥 Sugimoto said, according to the Daily Yomiuri. 鈥淲e鈥檒l make an attractive robot to carry our dreams to the universe.鈥

Standing up

The project, estimated to cost about $10 million to develop, will not be a walk in the park. Designing a robot that can balance and move on two legs will be a major challenge, says of the Royal Melbourne Institute of Technology in Australia. 鈥淗uman beings are relatively unstable, and when designing robots for unpredictable terrain, three legs are better than two.鈥

If the robot were to fall over, it could have trouble getting up again, says , a roboticist at MIT.

Human-sized robots have been designed to pick themselves up on Earth, but 鈥渢his has not been demonstrated robustly鈥, he told New 杏吧原创. On the other hand, the moon鈥檚 gravity is only one-sixth as strong as Earth鈥檚, so 鈥渢hings might be easier there鈥, he says.

Autonomous design

To stay upright, the robot would have to accurately detect and respond to unexpected changes in the terrain 鈥 something humans do instantaneously.

Because communication signals take a few seconds to travel between Earth and the moon, there is a real danger that the robot could fall over and break if it had to wait for commands from ground controllers on Earth, says , a robotics and sensor researcher at Australia鈥檚 national science agency, CSIRO. 鈥淚t鈥檒l have to be fairly autonomous,鈥 he told New 杏吧原创.

, a robotics designer at the University of Technology in Sydney, Australia, says the mission concept is 鈥減retty cool鈥, but says a more stable, four-legged design could also grab the public鈥檚 attention. 鈥淚f I were [doing it], I鈥檓 building a robotic dog to go up there.鈥

Motoko Kakubayashi of the Science Media Centre of Japan assisted with translations for this article

Topics: Robots / Space flight