To effectively travel on Mars, rovers need to deal with a lot of sand. German engineers have created a new kind of ground rover that uses swimming motions to push through sand that may otherwise cause the wheels to get stuck. Its inspiration: the African sandfish (Scincus scincus), a lizard known for burrowing into the Sahara Desert and literally swimming through its sand like a fish. Itâs one of the animal kingdomâs strangest methods of propulsion, but it may help shape the future of Mars exploration.
A video of the rover, released this week by the University of WĂŒrzburg, shows a mini-fridge-sized, silver rover making its way through a sandy, Martian-mimicking test floor. Rather than rolling forward, each of its four wheels cuts through the sand in what looks like a figure-eight motion. The rover pushes on several yards and then cuts a corner and returns to where it started.
Sandfish-inspired rover
âThe wheels mimic the animalâs [sandfishâs]characteristic interaction with the ground, generating both longitudinal and lateral forces,â University of WĂŒrzburg researcher Amenosis Lopez said in a statement. âThe rover leaves sinusoidal tracks in the sand.âÂ
The sandfish: natureâs cute solution to slippery sandÂ
Though most people likely associate space rovers with round wheels or tracks reminiscent of those on WALL-E, neither design is ideal for dealing with Marsâs uniquely harsh and sandy environment. Sand is unique because itâs a material with both solid and liquid-like qualities. On top of sandâs mixed texture, rovers roaming on the Red Planet have to deal with steep slopes and uneven terrain, where varying levels of slipperiness can cause imbalance. Patches of softer sand are also a nightmare for wheels, making the prospect of a rover getting stuck never far from mind
But nature figured out a solution to this issue millions of years ago, and itâs called the sandfish. Contrary to its name, the Sahara Desert native is a lizard in the skink family. Above ground, the sandfish uses its tiny legs to scrabble around much the same as any lizard. Things get more interesting when it burrows down into the sand. X-ray imaging shows the sandfish propelling itself forward under the sand, using a powerful waving motion to generate thrust and overcome drag. The result looks like an animal swimming through the sand, remarkably similarly to how a fish would oscillate its body to move through water
Sandfish
Engineers at Georgia Tech took those observations and used them to create their own sandfish robot in 2011. Testing with their robots showed that the little lizardâs oddly wedged shaped head may also help it generate lift forces and more easily swim through sand.Â
Georgia Tech Sandfish Robot
Sink or swim: new rover did bothÂ
Researchers working on the sandfish-inspired robot said it outperformed a wheeled version when navigating through a sandy test track. Where the round wheels would wobble and weave, the oscillating wheels stayed relatively stable. Thatâs not to say the new approach worked right out of the gate. Early models of the design were reportedly so heavy that the rover literally sank into the sand. The team went back to the drawing board and made a second version, this time increasing each wheelâs width and reducing overall mass
Itâs unlikely these oddball new wheels will become the main chassis system for NASA rovers, at least not in the immediate future. More work still needs to be done to increase their overall controllability and account for slippage that can occur in complicated, real-world environments. There are also the added variables of accounting for scientific instruments and other cargo a rover might have to carry.Â
More than anything, the wheel design is a testament to the sandfishâs innate ingenuity and evolutionary gifts. Many scientists only recently began to truly appreciate these traits and what other technology they could inspire.Â
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