View more articles about

biomimicry

Bendy robot wiggles like a big worm

U. LEEDS (UK) — A robot built with a series of springs along the length of its body has the flexibility to move like a worm around obstacles.

The super-sized “worm-bot” is modeled on the C. elegans nematode, a tiny free-living worm that uses an ultra-simple nervous system to control the way that it moves. The robot is 2,000 times larger than the 1 mm-long C. elegans worm. Unlike its natural counterpart—which has no skeleton at all—the robot has a rigid “backbone,” just like a snake.

Designer Jordan Boyle is hopeful the worm-bot one day could be used by search and rescue crews to send heat-seeking equipment into collapsed buildings or deliver aid to trapped survivors.

“A future version of this robot could potentially navigate through irregular gaps and holes in buildings that had been damaged by fire, explosions or earthquakes,” says Boyle, an engineering research fellow at the University of Leeds.

“Given the correct ‘skin’, the next version of this robot should also be able to deal with different environments. For example, it should be able to swim through water or crawl through snow or mud, even if it has to weave its way between natural obstacles, such as boulders or trees,” he says.

The system driving the robot forward is essentially the same as that of the C. elegans nematode—with a few tweaks to improve the robot’s performance. As a result, the worm-bot deals with obstacles in a very different way to other flexible, floor-crawling robots.

Snake- or worm-like robots are typically propelled forwards by an ‘ideal’ wave that their control system has worked out in advance. When they meet an obstacle, the control system senses that something is hampering the way it wants to move and directs the robot to change its shape accordingly.

In contrast, this bioinspired worm-bot is not interested in its surroundings and simply wants to wriggle from side to side. When it hits an obstacle, it doesn’t need to know how that has altered the shape of its body in order to carry on—it just keeps on going, regardless.

Designer Jordan Boyle is hopeful the worm-bot one day could be used by search and rescue crews to send heat-seeking equipment into collapsed buildings or deliver aid to trapped survivors. (Credit: University of Leeds)

“The combination of the flexible control system and the ‘bendy’ body means that the robot adapts blindly to any obstacles that are preventing it from moving forward. Basically the worm-bot is thinking: ‘go, go, go!'” Boyle says.

“At the moment, this does mean that the worm-bot has no idea where it will end up so there is a small chance that it might get stuck. A future version would just need to include an extra layer of ‘intelligence’ to the control system that could step in if the robot needed extra help to wriggle its way out of a corner,” he adds.

The project was funded by the Engineering and Physical Sciences Research Council in the U.K.

More news from the University of Leeds: www.leeds.ac.uk/news

Related Articles