Wiggly wheels might help rovers plow through loose lunar soils

This toylike model robot trundles over terrain in which simpler bots would get stuck

mini Mars rover

This rover may look like a sandbox toy, but it’s not. It’s a prototype rover. The way its wheels move could help researchers build a robot to explore atop the loose soil of the moon or Mars.

Goldman lab/Georgia Tech

A truly all-terrain rover on the moon or Mars may need to put a little wiggle in its walk.

Wheeled rovers can have trouble crossing soft soil. That’s especially true with the types that cover large swaths of the moon and Mars. NASA’s Spirit rover, for example, met its end after getting stuck in a sand trap on Mars in 2009. But a new rover design could spare future robotic explorers that fate.

The new model can move its four wheels up and down and sweep them back and forth. Scientists tested a mini, plastic version of it. In the lab, this rover wiggled its wheels in different ways. Some spun and others swept side to side. This allowed the vehicle to trundle up hills of loose grains. Those same hills would stop a simple wheeled bot in its tracks, its designers note.

A new planetary rover design could help robots navigate soft soils. The rover has wheels that can lift up and down and sweep back and forth. Such movements could help the vehicle trundle across loose soils on the moon or Mars.

Physicist Daniel Goldman works at Georgia Tech in Atlanta. He and his colleagues tested the mini rover in a tilted bed of poppy seeds. Those seed piles were meant to roughly mimic lunar soil. Just spinning the wheels on even a shallow incline caused the vehicle to sink into the seeds. In no time it was stuck. Then, the team spun the wheels and swept them backward in a paddling motion. The combined motions allowed the rover to scoot forward — at least for shallow slopes.

But the team wanted the rover to reliably climb hills with steeper inclines (more than about 15 degrees from horizontal). To do that, the rover had to switch up its strategy. The vehicle spun its two front wheels to shove under its belly the seeds that had been ahead of it. This effectively lowered the hill’s slope. Meanwhile, the rover’s back wheels paddled from side to side. Those wheels kicked seeds from underneath the rover and sent them behind it. This allowed the vehicle to slowly trudge uphill.   

Goldman’s team reported its new rover’s achievements May 13 in Science Robotics.

Future rovers could be based on this design. That might allow them to traverse slopes of soft lunar soil near the moon’s poles. There they could check the soil for resources like water ice or explore other similar areas.

Maria Temming is the Assistant Managing Editor at Science News Explores. She has bachelor's degrees in physics and English, and a master's in science writing.

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