A fast-moving robot modeled after a cockroach can now perform acrobat-like flips that mimic the movements of both cockroaches and geckos while escaping predators. The robot, named Dynamic Autonomous Sprawled Hexapod (DASH), may serve as a model for small, highly mobile search-and-rescue robots that can assist first responders.
The 10-cm-long, six-legged DASH had already been developed by the University of California, Berkeley's Biomimetics Millisystems Laboratory, including a winged version for studying wing-assisted running. It can move at 15 body lengths per second. The new research was conducted by a team from the same lab, together with researchers from the University's PolyPEDAL Lab, led by professor Robert Full.
Although smaller animals don't move as fast as larger ones in terms of absolute speed, smaller animals can take advantage of better maneuverability partly because of their smaller scale, the researchers say. When running to escape a predator, both cockroaches and geckos can quickly swing under a ledge in a 180-degree flipping motion that the researchers describe as "pendulum-like."
High-speed 180-degree flips performed by a cockroach (a), a house gecko (b), and the cockroach-inspired DASH robot (c). (Source: PLoS ONE)
To analyze these movements, the team recorded geckos and cockroaches running quickly up an incline toward the edge of a ledge. Then they digitized the creatures' motions and generated a simple model to generalize their movements.
In an article published in PLoS ONE, the team says, "Both species ran rapidly at 12 to 15 body lengths per second toward the ledge without braking, dove off the ledge, attached their feet by claws like a grappling hook, and used a pendulum-like motion that can exceed one meter-per-second to swing around to an inverted position under the ledge, out of sight."
To simulate the movements that geckos and cockroaches made by using their claws, the team equipped a DASH robot with small Velcro hooks attached at the end of its hind legs. Researchers also attached Velcro to the bottom and top sides of the ledge to create points for pivoting and holding.
The researchers have started to develop both active and passive designs for bio-inspired claws to replace the Velcro hooks. They point out that robots have been designed to either run or climb, but not do both, or to transition from one surface to another. By quantifying acrobatic behavior in small animals, they say, small robots like DASH could soon become more mobile and able to make those transitions.
I suppose in an emergency situation, you would lose some of these little guys. But I would also guess deployment would involve a number of these robots to create an accurate picture of what's around the corner or under rubble.
This makes me want to cry. I'll bet $100 that this was somehow funded by our bankrupt govt.
Even REAL cockroaches seem to get stuck on their backs (feet up) which makes it much easier to spray them with Raid and they have had a million years to perfect themselves. Hell we can't even make a lawnmower (see previous article) that works properly.
How is it that Honda can make a human that walks on two legs and goes up and down stairs and serves food and all we can come with is an F-ing cockroach.
I don't care how well it scurries around in the dark. I'm tired of sending my (very hard earned) tax dollars to bureaucrats to develop cockroaches.
Would someone PLEASE publish an article of somekind that doesn't piss me off.
Dozer789, it's for search-and-rescue ops. But see Chuck's comment above yours. Chuck, see Dozer789's. Looks like you guys will be having nightmares soon. I mean, really: a world over-ridden by robots that look like bugs and worms and crabs and whatnot, some of them (gulp) 500x the size of bugs? All kidding aside, that does sound like a movie script.
"We have the technology. We can make him better than he was. Better...stronger... faster."
Before you know it people will be performing the same acrobatics. Of course, that would require some structural reinforcement due to limits of the human bone structure, but they did it with Wolverine in X-Men. It seems like some of the things seen in movies over theyears are starting to become more and more of a reality, and it's kind of scary.
I'm also curious about the size issue. The robots in the video are definitely too small to do much of anything beyond creep us out. I'm assuming the design is scalable and transferrable to a more robust version.
It won't be too much longer and hardware design, as we used to know it, will be remembered alongside the slide rule and the Karnaugh map. You will need to move beyond those familiar bits and bytes into the new world of software centric design.
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