A new teeny-tiny robot flies through the air like a jellyfish swims.
The jellyfish flier is a strange sight — it looks a little bit like a Chinese lantern that’s developed a hankering for the open skies — but its unique design keeps it from tipping over without the use of sensors or external controls. That talent could make it handy for maneuvering in small spaces, said its inventor Leif Ristroph, a postdoctoral researcher at New York University.
“What’s cool is you can actually build these flying things yourself,” Ristroph told LiveScience. “All the components I used to make this, they cost about $15 and they’re available on hobby airplane websites.” [See Video of the Flying Jellyfish Robot]
Ristroph, whose background is in physics, studied insect flight for his doctorate. Insects are intriguing to physicists and engineers, because of their flying abilities. Contrary to what might be expected, it’s harder to engineer something tiny to fly than something big, Ristroph said.
Many small robots take insects as their inspiration, such as the dragonfly-like DelFly, a Dutch drone that weights only 0.7 ounces (20 grams). But insect flight is notoriously unstable, Ristroph said. Instability is no big deal for bugs — they have nervous systems that can correct their wing motions when they begin to tip. Insect-inspired robots need sophisticated sensor systems to do the same.
“The real number-one issue in flying is stability,” Ristroph said. “How do I keep upright the whole time?”
Ristroph wanted to know if he could invent a winged flying machine that was inherently stable, no sensors or artificial nervous system needed. He tinkered with five or 10 designs, he said, including one inspired by an umbrella. In principle, he said, opening and closing an umbrella rapidly should generate lift and send the object flying.
The flying jellyfish
He ended up creating a conelike machine made of four wings approximately 3 inches (8 centimeters) long, surrounding a small motor. The wings flap up and down not-quite-simultaneously. In practice, Ristroph said, the motion is very similar to what a jellyfish does to propel itself through water.
“It has a bell that contracts and squirts water downwards,” Ristroph said. The jellyfish flier does the same with air.
The magic of the new robot is that it is automatically stable.