What can fly, swim and dive? This tiny robotic insect.
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Co-author Farrell Helbling, a Ph.D. candidate in the John A. Paulson School of Engineering and Applied Sciences at Harvard University, says that engineering the robots amphibious skill took “a lot of fluid mechanics.”“So air is 1,000 times less dense than water, so we flap at a much higher frequency in the air — around 265 beats per second in the air,” she says. “And then once we dive into the water, things slow down a little bit and we start flapping at a much lower rate, around nine times per second.”To make that happen, she says the robots wings had to shrink a little from earlier RoboBee versions. “A really big part of the work was trying to find the sweet spot of what our wing size needs to be to both operate in air and in water,” she explains.But for such a lightweight robot (its just 175 milligrams), Farrell says the real challenge was engineering it to break through the waters surface again after a swim. “The surface of the water kind of acts like a brick wall,” she says. “We're not allowed to break it ourselves, so we had to come up with a new mechanism.”To do so, the researchers added a tiny electrolytic plate to the robotic bees back that chemically decomposes water into oxygen and hydrogen gas. The gases collect in a tiny chamber to make the bee more buoyant, allowing its wings to gently break through the waters surface. Then, an onboard “sparker” ignites the gases, causing an explosion that launches the robot back out of the water and into the air. (From there, the robot can glide to safety, but has to dry off again before it can fly.)For now, the amphibious bee is restricted to in-lab adventures only — its still tethered with wires to an external power source. But once the bee is wireless and equipped with sensors and other gear, Helbling says it could aid in everything from water quality testing in lakes to search and rescue operations. And just as with real bees, the little robots could be powerful in great numbers.“I think that many applications such as search and rescue or environment exploration when you want as much information in parallel as possible, it would be nice to have a large distributed system of many tiny robots,” she says.But in these early days, Helbling says shes just excited the little robot can operate in water at all. “When my colleague came to me, Kevin, and said, 'I think that we should put the bee in a tank,' I was very worried about what was going to happen, both to the robots and to us in the lab, because there's a lot of electronics everywhere,” she says. “And just seeing it swim for the first time was something that was really impressive to me.”This article is based on an interview that aired on PRIs Science Friday with Ira Flatow.
By: PRI
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