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Optimal wing hinge position for fast ascent in a model fly

Cornell Affiliated Author(s)

Author

R.M. Noest
Jane Wang

Abstract

It was thought that the wing hinge position can be tuned to stabilize an uncontrolled fly. However here, our Floquet stability analysis shows that the hinge position has a weak dependence on the flight stability. As long as the hinge position is within the fly's body length, both hovering and ascending flight are unstable. Instead, there is an optimal hinge position, , at which the ascending speed is maximized. is approximately half way between the centre of mass and the top of the body. We show that the optimal is associated with the anti-resonance of the body-wing coupling, and is independent of the stroke amplitude. At , the torque due to wing inertia nearly cancels the torque due to aerodynamic lift, minimizing the body oscillation thus maximizing the upward force. Our analysis using a simplified model of two coupled masses further predicts, . These results suggest that the ascending speed, in addition to energetics and stability, is a trait that insects are likely to optimize. © 2018 Cambridge University Press.

Date Published

Journal

Journal of Fluid Mechanics

Volume

849

Number of Pages

498-509,

URL

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85048853103&doi=10.1017%2fjfm.2018.337&partnerID=40&md5=bb0e68f6a654510281fc1e9016fbb638

DOI

10.1017/jfm.2018.337

Research Area

Group (Lab)

Z. Jane Wang Group

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