A Cosserat-based formulation for elastic, axisymmetric shells with implications to the pulsed-jetting propulsion of soft-bodied aquatic vehicles
A Cosserat-based formulation for elastic, axisymmetric shells with implications to the pulsed-jetting propulsion of soft-bodied aquatic vehicles
We take the cue from recent development in geometric-based modelling in order to describe the dynamics of a novel soft-structured aquatic vehicle. The Cosserat-like formulation for an axisymmetric, elastic shell subject to concentrated dynamic loadings lends itself to the case of this new vehicle, recently designed by the authors, which consists of a shell of rubber-like materials undergoing sequential stages of inflation and deflation in order to propel itself in water via pulsed-jetting. The experiments performed on the existing robotic prototypes are used for the validation of the geometric model. This is eventually employed for deriving an accurate measure of the efficiency of propulsion which explicitly accounts for the elastic energy involved during the propulsion routine. The model yields a-priori estimations of swimming efficiency based on vehicle specifications and mode of actuation. These provide invaluable information for both design optimization and control, as well as a means to study the biomechanics of soft-bodied aquatic organisms.
Renda, Federico
495810c0-7ec1-4d22-a099-1cfe208aba95
Giorgio-Serchi, Francesco
8571dc14-19c1-4ed1-8080-d380736a6ffa
Boyer, Frederic
3ee9d74c-2df5-46e7-b315-a49a41497626
March 2016
Renda, Federico
495810c0-7ec1-4d22-a099-1cfe208aba95
Giorgio-Serchi, Francesco
8571dc14-19c1-4ed1-8080-d380736a6ffa
Boyer, Frederic
3ee9d74c-2df5-46e7-b315-a49a41497626
Renda, Federico, Giorgio-Serchi, Francesco and Boyer, Frederic
(2016)
A Cosserat-based formulation for elastic, axisymmetric shells with implications to the pulsed-jetting propulsion of soft-bodied aquatic vehicles.
American Physical Society March Meeting 2016, Baltimore, United States.
14 - 18 Mar 2016.
Record type:
Conference or Workshop Item
(Other)
Abstract
We take the cue from recent development in geometric-based modelling in order to describe the dynamics of a novel soft-structured aquatic vehicle. The Cosserat-like formulation for an axisymmetric, elastic shell subject to concentrated dynamic loadings lends itself to the case of this new vehicle, recently designed by the authors, which consists of a shell of rubber-like materials undergoing sequential stages of inflation and deflation in order to propel itself in water via pulsed-jetting. The experiments performed on the existing robotic prototypes are used for the validation of the geometric model. This is eventually employed for deriving an accurate measure of the efficiency of propulsion which explicitly accounts for the elastic energy involved during the propulsion routine. The model yields a-priori estimations of swimming efficiency based on vehicle specifications and mode of actuation. These provide invaluable information for both design optimization and control, as well as a means to study the biomechanics of soft-bodied aquatic organisms.
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Published date: March 2016
Venue - Dates:
American Physical Society March Meeting 2016, Baltimore, United States, 2016-03-14 - 2016-03-18
Organisations:
Fluid Structure Interactions Group
Identifiers
Local EPrints ID: 404939
URI: http://eprints.soton.ac.uk/id/eprint/404939
PURE UUID: 8474d735-1075-48fb-ac60-51c442571ae2
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Date deposited: 25 Jan 2017 10:15
Last modified: 11 Dec 2021 13:02
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Contributors
Author:
Federico Renda
Author:
Francesco Giorgio-Serchi
Author:
Frederic Boyer
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