Watch a NASA moon rover complete a lunar obstacle course (video)

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When it comes to space rovers, it’s been all about Mars for NASA — save for the Apollo-era Lunar Roving Vehicle. But that’s about to change with the Commercial Lunar Payload Services (CLPS) program. The initiative will see quite a few machines, including rovers, delivered to the moon over the next few years.

One of those robots is NASA’s Volatiles Investigating Polar Exploration Rover (VIPER), currently scheduled to land on the moon in late 2024. VIPER will search the moon’s south pole for ice and other resources that may aid future human exploration. In order to prepare the rover for its tasks, engineers are testing prototypes of VIPER‘s components, most recently, its mobility engineering test unit, or Moon Gravitation Representative Unit 3 (MGRU3). For this test, which was completed at the Simulated Lunar Operations (SLOPE) Laboratory at NASA’s Glenn Research Center in Cleveland, a VIPER prototype endured a moon-like obstacle course with a detailed simulation of the terrain found around the south pole, including boulders, inclines and quicksand-like soil.

“We wanted to see if the rover is capable of moving forward in an extreme sinkage environment, and how much slower VIPER might drive or how much additional power the rover would use because of tricky soil conditions,” Mercedes Herreras-Martinez VIPER risk manager and mission systems engineering technical interchange lead at NASA’s Ames Research Center in California, said in a statement.

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The VIPER engineering test created a simulation of the terrain at the moon’s south pole. (Image credit: NASA)

For the test, the VIPER team replicated the lunar environment as accurately as possible. The rover, which will be deposited on the surface by Pennsylvania-based Astrobotic, will explore a patch of the moon just west of Nobile Crater.

“Using data and imagery from previous lunar missions, we created various randomized scenes to mimic the surface terrain of the moon, with craters and rocks of different sizes and shapes scattered over the SLOPE tilt bed,” Kevin May, rover and mission systems engineering intern at Ames who led the terrain preparation for the test, said in the statement. “By recreating realistic moon-like environments, we can get a much better idea of how VIPER will perform on the surface.”

The VIPER rover prototype traverses a lunar obstacle course in the SLOPE lab at NASA’s Glenn Research Center in Cleveland.  (Image credit: NASA)

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Because the Earth has much stronger gravity than the moon, the team stripped away some of the heavy components of the rover to create a test vehicle with a mass-to-gravity ratio that’s proportional to what the real rover will experience on the moon. Then, the prototype tested some of its maneuvers, such as the “inch-worm” maneuver, in which the wheels move in a caterpillar-like motion to get the rover out of a sticky situation.

“We’ve captured a lot of data with these tests about what happens when the rover wheels grind over a rock or slip on loose terrain, and any sensor drifts — when the rover gets slightly off-course,” Arno Rogg, test director and rover systems engineer at Ames, said in the same statement.

“These tests allowed us to verify the performance of the rover mobility system and know it will work well on the moon,” he noted of the prototype experiments.

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Source: space.com

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