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Bird wings act as a suspension system that rejects gusts

Bird wings act as a suspension system that rejects gusts
Bird wings act as a suspension system that rejects gusts
Musculoskeletal systems cope with many environmental perturbations without neurological control. These passive preflex responses aid animals to move swiftly through complex terrain. Whether preflexes play a substantial role in animal flight is uncertain. We investigated how birds cope with gusty environments and found that their wings can act as a suspension system, reducing the effects of vertical gusts by elevating rapidly about the shoulder. This preflex mechanism rejected the gust impulse through inertial effects, diminishing the predicted impulse to the torso and head by 32% over the first 80 ms, before aerodynamic mechanisms took effect. For each wing, the centre of aerodynamic loading aligns with the centre of percussion, consistent with enhancing passive inertial gust rejection. The reduced motion of the torso in demanding conditions simplifies crucial tasks, such as landing, prey capture and visual tracking. Implementing a similar preflex mechanism in future small-scale aircraft will help to mitigate the effects of gusts and turbulence without added computational burden.
0962-8452
Cheney, Jorn A.
3cf74c48-4eba-4622-9f29-518653d79d93
Stevenson, Jonathan P. J.
2d0f92cf-dd65-49c2-a99b-15ba80193a7d
Durston, Nicholas E.
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Song, Jialei
4c0b836e-1db5-4496-93de-5b50ed48a1a3
Usherwood, James R.
6fe1d216-042c-4da0-82d7-207282ed1e00
Bomphrey, Richard J.
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Windsor, Shane P.
be3e4944-d2be-45a4-8100-03c6ca0ebea7
Cheney, Jorn A.
3cf74c48-4eba-4622-9f29-518653d79d93
Stevenson, Jonathan P. J.
2d0f92cf-dd65-49c2-a99b-15ba80193a7d
Durston, Nicholas E.
d85c4143-64c2-435b-b6ec-02f070f176f0
Song, Jialei
4c0b836e-1db5-4496-93de-5b50ed48a1a3
Usherwood, James R.
6fe1d216-042c-4da0-82d7-207282ed1e00
Bomphrey, Richard J.
dff9b5b5-a316-4958-a642-60e756b56eba
Windsor, Shane P.
be3e4944-d2be-45a4-8100-03c6ca0ebea7

Cheney, Jorn A., Stevenson, Jonathan P. J., Durston, Nicholas E., Song, Jialei, Usherwood, James R., Bomphrey, Richard J. and Windsor, Shane P. (2020) Bird wings act as a suspension system that rejects gusts. Proceedings of the Royal Society B: Biological Sciences, 287 (1937), [1748]. (doi:10.1098/rspb.2020.1748).

Record type: Article

Abstract

Musculoskeletal systems cope with many environmental perturbations without neurological control. These passive preflex responses aid animals to move swiftly through complex terrain. Whether preflexes play a substantial role in animal flight is uncertain. We investigated how birds cope with gusty environments and found that their wings can act as a suspension system, reducing the effects of vertical gusts by elevating rapidly about the shoulder. This preflex mechanism rejected the gust impulse through inertial effects, diminishing the predicted impulse to the torso and head by 32% over the first 80 ms, before aerodynamic mechanisms took effect. For each wing, the centre of aerodynamic loading aligns with the centre of percussion, consistent with enhancing passive inertial gust rejection. The reduced motion of the torso in demanding conditions simplifies crucial tasks, such as landing, prey capture and visual tracking. Implementing a similar preflex mechanism in future small-scale aircraft will help to mitigate the effects of gusts and turbulence without added computational burden.

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More information

Accepted/In Press date: 25 September 2020
Published date: 28 October 2020
Additional Information: Funding for this research was provided by: Wellcome Trust (202854/Z/16/Z), H2020 European Research Council (679355), Air Force Office of Scientific Research (FA9550-16-1-0034) Electronic supplementary material is available online at https://doi.org/10.6084/m9.figshare. c.5170595.
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Identifiers

Local EPrints ID: 471771
URI: http://eprints.soton.ac.uk/id/eprint/471771
DOI: doi:10.1098/rspb.2020.1748
ISSN: 0962-8452
PURE UUID: 27a83390-780f-4a08-b755-8609cc4eee86
ORCID for Jorn A. Cheney: ORCID iD orcid.org/0000-0002-9952-2612

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Date deposited: 18 Nov 2022 17:30
Last modified: 17 Mar 2024 04:16

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Contributors

Author: Jorn A. Cheney ORCID iD
Author: Jonathan P. J. Stevenson
Author: Nicholas E. Durston
Author: Jialei Song
Author: James R. Usherwood
Author: Richard J. Bomphrey
Author: Shane P. Windsor

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