Thursday, November 21, 2019

Robotic Caterpillar Crawls Ahead

Robotic Caterpillar Crawls Ahead Robotic Caterpillar Crawls Ahead Robotic Caterpillar Crawls AheadCaterpillars have met their robotic double. Well, maybe the real-life creatures havent met their robotic likeness, but the caterpillar robot does exist.Through a process called biomimetics, engineers borrow design ideas from natureincluding from the ways creators navigate their environmentto create engineered products that mimic the original.For robotic design, theyve looked to animals that move in ways uniquely suited to the jobs they need to perform. Spiders, for example, can travel quickly over bumpy, difficult terrain thanks to the hinged nature of their eight legs. So robotic spiders move over terrain impassible to most land vehicles.But until recently, engineers could only build robots that copy the way animals with relatively rigid skeletons and joints moved. Thats because robots traditionally rely on joints driven by hardwareusually electric or pneumatic actuatorsto move.But in t he natural world, a large number of creatures have soft bodies with which they navigate their habitats. Earthworms, snails, and larval insects employ different strategies to move through complex environments. Robots built to employ the same types of strategies could navigate irregular landscapes like the ocean floor, the sides of mountains, even the surface of a distant planet or the veins within a human body.Mikolaj Rogz (left) and Lukasz Zinkiewicz in the lab. Image University of WarsawNow, a team of researchers at the University of Warsaw has created a 15-millimeter soft-bodied robot that mimics the rippling way caterpillars move along flat surfaces. Like caterpillars, the robot can also climb slopes, squeeze through narrow slits, and transport loads and up to six times its own weight, says Piotr Wasylczyk, head of the universitys Photonic Nanostructure Facility, who led the robotic development team.The caterpillar robot is made entirely of plastic and feeds on light, says Mikola j Rogz, astudent at the university who helped design the robot.Difficult as it was to design soft-bodied robots, an even greater challenge was making them small, due to difficulties in power management and remote control. The need to pack actuators inside has kept miniaturization out of the equation, Wasylczyk says.Imagine agrown man pushing aFiat 126, he says.Designing soft robots calls for a new paradigm in terms of mechanics, power supply, and control, he adds.The robotic caterpillar looks a long way from popular conceptions of robots large, lumbering creatures made from metal with arms and legs or more simply, the robotic arm used on a factory line to lift and lower. This little guy resembles nothing so much as a tiny line of plastic. That is, in fact, what it is.The caterpillar robot contains no internal electronics. Its made completely from zerflossen crystal elastomer, a plastic comprised of polymer networks that respond to changes in light. The researchers shaped the plastic materials into three-dimensional forms with predefined actuation performance.The robot moves in response to a spatially modulated green laser beam that pinpoints and changes the shape of specific molecules in the plastic. The light-induced deformation allows a monolithic LCE structure to perform complex actions without numerous discrete actuators, Rogz says.When scanning the robot with alaser beam, you can only stimulate and heat selected parts of it. This is how you decide which way the robot moves, he says. The deformation process is fully reversible, Rogz adds. Once you cool the material down, it resumes its original shape.And it goes without saying that such a small robot is easily transported.In the future, the caterpillar robot could be employed to assemble items into place. Or, it could be inserted into the human body to transport medicines directly to a human organ, a process called targeted medicine, Rogz adds.That process could be about a decade away, however, as research ers would need to find a new way to power the robot. Light, of course, couldnt reach within the body, he says.Research into robots that dont contain internal power systems or engines, but that can be steered externally, whether through light or another source, is just beginning, Rogz says.Were not yet at the point of looking closer at that caterpillar crawling across the yard to determine if its real or robotic. But like actual caterpillars, their robotic counterparts will be a necessary addition to the workings of everyday life.Jean Thilmany is an independent writer.When scanning the robot with a laser beam, you can only stimulate and heat selected parts of it. This is how you decide which way the robot moves.Mikolaj Rogz, University of Warsaw

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