Session D17: Biofluids: Locomotion II - Swimming

2:15 PM–4:25 PM, Sunday, November 24, 2013
Room: 305

Chair: Azar Eslampanah, University of Iowa

Abstract ID: BAPS.2013.DFD.D17.1

Abstract: D17.00001 : Hovering of a jellyfish-like flying machine

2:15 PM–2:28 PM

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Authors:

  Leif Ristroph
    (Courant Institute, New York University)

  Stephen Childress
    (Courant Institute, New York University)

Ornithopters, or flapping-wing aircraft, offer an alternative to helicopters in achieving maneuverability at small scales, although stabilizing such aerial vehicles remains a key challenge. Here, we present a hovering machine that achieves self-righting flight using flapping wings alone, without relying on additional aerodynamic surfaces and without feedback control. We design, construct, and test-fly a prototype that opens and closes four wings, resembling the motions of swimming jellyfish more so than any insect or bird. Lift measurements and high-speed video of free-flight are used to inform an aerodynamic model that explains the stabilization mechanism. These results show the promise of flapping-flight strategies beyond those that directly mimic the wing motions of flying animals.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2013.DFD.D17.1