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Robotics

Mole-inspired robot is designed to dig its way through other planets

By Ben Coxworth
June 08, 2020
Mole-inspired robot is designed to dig its way through other planets
From left: Prof. Hyun Myung, PhD candidate Junseok Lee, researcher Christian Tirtawardhana and PhD candiate Hyunjun Lim, with the Mole-bot
From left: Prof. Hyun Myung, PhD candidate Junseok Lee, researcher Christian Tirtawardhana and PhD candiate Hyunjun Lim, with the Mole-bot
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From left: Prof. Hyun Myung, PhD candidate Junseok Lee, researcher Christian Tirtawardhana and PhD candiate Hyunjun Lim, with the Mole-bot
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From left: Prof. Hyun Myung, PhD candidate Junseok Lee, researcher Christian Tirtawardhana and PhD candiate Hyunjun Lim, with the Mole-bot
The European mole's soil-clearing anatomy, as compared to that of the Mole-bot
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The European mole's soil-clearing anatomy, as compared to that of the Mole-bot
The Mole-bot is currently powered via a cable that extends to the surface
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The Mole-bot is currently powered via a cable that extends to the surface
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As we continue to explore other planets, we're going to want to know not only what's on their surface, but also what's underneath it. That's where the Mole-bot comes in – it's a robot that autonomously tunnels its way through the ground.

Developed at the Korea Advanced Institute of Science and Technology (KAIST), the Mole-bot is inspired by both the European mole and the African mole-rat. The latter excavates tunnels by biting into the earth with its strong incisor teeth, while the former uses its powerful forelimbs to push dislodged soil back behind itself.

Instead of mole-rat-like teeth, the Mole-bot has a sort of propeller-like expandable drill in front. As this whirls around and grinds its way into the soil, its folding serrated blades extend outwards to dig a tunnel that's wider than the robot's cylindrical body. Next, instead of forelimbs, the bot uses two extendable hinged metal flanges located on either side of the drill to push the loose soil back past its front end.

The drill and the flanges operate alternately, so that they don't get in one another's way.

The Mole-bot is currently powered via a cable that extends to the surface
The Mole-bot is currently powered via a cable that extends to the surface

Three caterpillar-like tracks in the rear push the Mole-bot forward, plus a pivoting mechanical "waist" in its midsection allows it to change direction while tunnelling. It's able to orient itself utilizing 3D Simultaneous Localization and Mapping (SLAM) technology, which continuously tracks the robot's location relative to the Earth's magnetic field.

Along with its use on other planets, the Mole-bot might also be utilized in the mining industry. As compared to existing drilling systems, it is claimed to be cheaper, less labor-intensive and more eco-friendly, as it doesn't require mud compounds in order to clear debris. The current prototype, which is the third version of the robot, measures 84 cm long by 25 cm wide (33 by 9.8 in) and weighs 26 kg (57 lb).

"We look forward to a more efficient resource exploration with this type of drilling robot," says the lead scientist, Prof. Hyun Myung. "We also hope Mole-bot will have a very positive impact on the robotics market in terms of its extensive application spectra and economic feasibility."

You can see it in action, in the video below.

And for another example of an autonomous tunnelling robot, check out the worm-inspired BADGER.

Source: KAIST

Mole-bot 3 (2020 version)

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RoboticsKAISTBiomimicryMiningNew Atlas Audio
3 comments
Ben Coxworth
Ben Coxworth
Based out of Edmonton, Canada, Ben Coxworth has been writing for New Atlas since 2009 and is presently Managing Editor for North America. An experienced freelance writer, he previously obtained an English BA from the University of Saskatchewan, then spent over 20 years working in various markets as a television reporter, producer and news videographer. Ben is particularly interested in scientific innovation, human-powered transportation, and the marine environment.

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3 comments
FB36
Imagine, someday, a large tunnel boring machine robot sent to moon/mars (piece by piece)! It creates a long straight tunnel, into a hill/mountain & later another robot sent to seal the entrance (w/ a circular air lock door) & fill-up inside w/ O2! (Existing lavatubes, on the other hand, cannot be used as a base, unlike some people think, because they cannot be sealed airtight!)
ljaques
Just add a 12,756 km long cable and it can get us a quick way to import our cheap chiwanese shite! They could blow it through. Well, except for that pesky molten core being in the way.
Ralf Biernacki
Looking at the movie, the boring head works fine, but the arms are sort of pathetic. They would do better to extend the tracks farther forward, and rely on them to do the soil removal. And the location system relies on the Earth's magnetic field, so it would not work on the Moon, Mars, or the asteroids. They need to come up with a different location system, and work out how to back up this robot if it runs into something impassable like a lump of iron---a plausible obstacle on any of these bodies. And @FB36, it is relatively trivial to seal a rock tunnel with a layer of spray-on polymer or something, so yes, lava tubes can be sealed airtight.