On the fluid dynamical effects of synchronization in side-by-side swimmers

Ramiro Godoy-Diana; Jérôme Vacher; Veronica Raspa; Benjamin Thiria

doi:10.3390/biomimetics4040077

On the fluid dynamical effects of synchronization in side-by-side swimmers

Ramiro Godoy-Diana
, Jérôme Vacher
, Veronica Raspa
, Benjamin Thiria

PSL Research University

Research output: Contribution to journal › Article › peer-review

Abstract

In-phase and anti-phase synchronization of neighboring swimmers is examined experimentally using two self-propelled independent flexible foils swimming side-by-side in a water tank. The foils are actuated by pitching oscillations at one extremity-the head of the swimmers-and the flow engendered by their undulations is analyzed using two-dimensional particle image velocimetry in their frontal symmetry plane. Following recent observations on the behavior of real fish, we focus on the comparison between in-phase and anti-phase actuation by fixing all other geometric and kinematic parameters. We show that swimming with a neighbor is beneficial for both synchronizations tested, as compared to swimming alone, with an advantage for the anti-phase synchronization. We show that the advantage of anti-phase synchronization in terms of swimming performance for the two-foil "school" results from the emergence of a periodic coherent jet between the two swimmers.

Original language	English
Article number	77
Journal	Biomimetics
Volume	4
Issue number	4
DOIs	https://doi.org/10.3390/biomimetics4040077
Publication status	Published - 1 Dec 2019
Externally published	Yes

Keywords

Bio-Inspired swimmers
Collective swimming
Fish schooling
Fluid-Structure interaction
Self-Propulsion
Synchronization

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10.3390/biomimetics4040077

Cite this

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title = "On the fluid dynamical effects of synchronization in side-by-side swimmers",

abstract = "In-phase and anti-phase synchronization of neighboring swimmers is examined experimentally using two self-propelled independent flexible foils swimming side-by-side in a water tank. The foils are actuated by pitching oscillations at one extremity-the head of the swimmers-and the flow engendered by their undulations is analyzed using two-dimensional particle image velocimetry in their frontal symmetry plane. Following recent observations on the behavior of real fish, we focus on the comparison between in-phase and anti-phase actuation by fixing all other geometric and kinematic parameters. We show that swimming with a neighbor is beneficial for both synchronizations tested, as compared to swimming alone, with an advantage for the anti-phase synchronization. We show that the advantage of anti-phase synchronization in terms of swimming performance for the two-foil {"}school{"} results from the emergence of a periodic coherent jet between the two swimmers.",

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AU - Godoy-Diana, Ramiro

AU - Vacher, Jérôme

AU - Raspa, Veronica

AU - Thiria, Benjamin

PY - 2019/12/1

Y1 - 2019/12/1

N2 - In-phase and anti-phase synchronization of neighboring swimmers is examined experimentally using two self-propelled independent flexible foils swimming side-by-side in a water tank. The foils are actuated by pitching oscillations at one extremity-the head of the swimmers-and the flow engendered by their undulations is analyzed using two-dimensional particle image velocimetry in their frontal symmetry plane. Following recent observations on the behavior of real fish, we focus on the comparison between in-phase and anti-phase actuation by fixing all other geometric and kinematic parameters. We show that swimming with a neighbor is beneficial for both synchronizations tested, as compared to swimming alone, with an advantage for the anti-phase synchronization. We show that the advantage of anti-phase synchronization in terms of swimming performance for the two-foil "school" results from the emergence of a periodic coherent jet between the two swimmers.

AB - In-phase and anti-phase synchronization of neighboring swimmers is examined experimentally using two self-propelled independent flexible foils swimming side-by-side in a water tank. The foils are actuated by pitching oscillations at one extremity-the head of the swimmers-and the flow engendered by their undulations is analyzed using two-dimensional particle image velocimetry in their frontal symmetry plane. Following recent observations on the behavior of real fish, we focus on the comparison between in-phase and anti-phase actuation by fixing all other geometric and kinematic parameters. We show that swimming with a neighbor is beneficial for both synchronizations tested, as compared to swimming alone, with an advantage for the anti-phase synchronization. We show that the advantage of anti-phase synchronization in terms of swimming performance for the two-foil "school" results from the emergence of a periodic coherent jet between the two swimmers.

KW - Bio-Inspired swimmers

KW - Collective swimming

KW - Fish schooling

KW - Fluid-Structure interaction

KW - Self-Propulsion

KW - Synchronization

U2 - 10.3390/biomimetics4040077

DO - 10.3390/biomimetics4040077

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VL - 4

JO - Biomimetics

JF - Biomimetics

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ER -

On the fluid dynamical effects of synchronization in side-by-side swimmers

Abstract

Keywords

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