Friday, December 10, 2010

GM and NASA Announce Robonaut 2

GM and NASA Announce Robonaut 2

Human-like Hands Key to Robonaut 2’s Dexterity. While his brother, R2B, is packed on the Discovery Shuttle at the Kennedy Space Center waiting for liftoff, R2A is at GM's Vehicle Engineering Center giving university and high school students the chance to experience the technology and ask both NASA and GM engineers detailed questions. In this video, Timothy, a 9th grader at West Bloomfield High School in Michigan, goes head-to-head with Robonaut 2 during a strength exercise.

GM and NASA's Robonaut 2 Demos Strength and Dexterity
Click on the images below to watch this video!
GM and NASAs Robonaut 2 Demos Strength and Dexterity GM and NASAs Robonaut 2 Demos Strength and Dexterity GM and NASAs Robonaut 2 Demos Strength and Dexterity
Video from gmblogs

In fact, R2 as he is known to his creators is one of the most dexterous robots ever built because of his very human-like hands. Engineers from the General Motors Technical Center in Warren, MI and NASA’s Johnson Space center in Houston collaborated to produce a robot that could work side-by-side with human astronauts at the International Space Station as well as future missions.

Since all of the tools and equipment aboard the space station were designed for use by human hands, R2 had to be able to perform them without modification.

R2’s mechanical hands work very much like the human hands on which they were modeled, including a similar range of motion and precise control of both position and force.

“R2’s arms and hands have a jointed skeleton similar to a human”, said Marty Linn, GM principal robotics engineer, “although the thumbs have four degrees of freedom, almost like a human”. It is widely believed that the opposable thumb was one reason why early humans could develop the ability to use tools. R2’s hand was designed to incorporate this capability.

Unlike many previous humanoid robots, R2 has slim fingers and thumbs resembling those on human hands. Just as human tendons attach muscle to bone, R2 has tendons to connect the skeletal joints to sensors and actuators in the palm. This allows R2’s control systems to precisely sense the reaction forces and continuously adjust the grip of the hand for whatever task R2 is performing.

While traditional industrial robots are designed to precisely place objects or follow a specific path, they don’t handle unexpected objects or items slightly out of position very well. Humans have a much greater ability to adapt to variation, and the design of R2’s hands and control systems provide him with similar capabilities. R2 shows off this capability when he shakes hands with visitors. No matter what size hand or the firmness of the grip, R2 automatically adjusts.

“We’ve invested some of our best and brightest minds to the creation of R2,” said Ken Knight, GM executive director, global manufacturing engineering. “Working with NASA’s scientists and engineers we are confident we have created the most technologically advanced robot in the world.”

Whether R2 is wiping down hand rails in the space station, where he is scheduled to travel in February 2011, or helping astronauts assemble new modules for the station – or someday helping in a manufacturing environment – the dexterity enabled by his hands will allow him to outperform predecessors hands down.

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