Underwater soft-bodied pulsed-jet thrusters: actuator modeling and performance profiling
Underwater soft-bodied pulsed-jet thrusters: actuator modeling and performance profiling
A new kind of underwater vehicle is developed by taking inspiration from cephalopods. Its actuation routine is scrutinized via a suitable model. Similar to octopuses and squids, these vehicles consist of an elastic, hollow shell capable of undergoing sequential stages of ingestion and ejection of ambient fluid, which is driven by the recursive inflation and deflation of the shell. The shell actively collapses, and in this way it expels water through a funnel; then it passively returns to the inflated shape, drawing ambient fluid into the cavity. By doing so, a pulsed-jet propulsion routine is performed that enables the vehicle to propel itself in water. Due to their soft nature, the actuation of these vehicles is largely dependent on the subtle management of the elastic response of the shell throughout the propulsion routine. A kinematic model of the actuation mechanism, thoroughly corroborated by experimental validation, is devised which elucidates the relationship between the active (collapse) and passive (refill) stages of the actuation. Upon association with the dynamics of the vehicle, this model permits the derivation of the generic performance profiles of this new kind of vehicle. It is acknowledged that, for given design specifications, an optimal swimming speed exists in coincidence with the coordinated operation between the crank mechanism driving the shell contraction and the onset of elastic energy, which determines the speed of inflation of the shell. These results are invaluable in the definition of rigorous design criteria and derivation of ad-hoc control laws for a new breed of optimized soft-bodied, pulsed-jet, unmanned underwater vehicles.
1-22
Giorgio-Serchi, Francesco
8571dc14-19c1-4ed1-8080-d380736a6ffa
Arienti, Andrea
64933f16-d247-42bc-a453-cbe474efa594
Laschi, Cecilia
302c8a64-0ba9-4d5c-9d6f-efcfd4acc64a
September 2016
Giorgio-Serchi, Francesco
8571dc14-19c1-4ed1-8080-d380736a6ffa
Arienti, Andrea
64933f16-d247-42bc-a453-cbe474efa594
Laschi, Cecilia
302c8a64-0ba9-4d5c-9d6f-efcfd4acc64a
Giorgio-Serchi, Francesco, Arienti, Andrea and Laschi, Cecilia
(2016)
Underwater soft-bodied pulsed-jet thrusters: actuator modeling and performance profiling.
The International Journal of Robotics Research, 35 (11), .
(doi:10.1177/0278364915622569).
Abstract
A new kind of underwater vehicle is developed by taking inspiration from cephalopods. Its actuation routine is scrutinized via a suitable model. Similar to octopuses and squids, these vehicles consist of an elastic, hollow shell capable of undergoing sequential stages of ingestion and ejection of ambient fluid, which is driven by the recursive inflation and deflation of the shell. The shell actively collapses, and in this way it expels water through a funnel; then it passively returns to the inflated shape, drawing ambient fluid into the cavity. By doing so, a pulsed-jet propulsion routine is performed that enables the vehicle to propel itself in water. Due to their soft nature, the actuation of these vehicles is largely dependent on the subtle management of the elastic response of the shell throughout the propulsion routine. A kinematic model of the actuation mechanism, thoroughly corroborated by experimental validation, is devised which elucidates the relationship between the active (collapse) and passive (refill) stages of the actuation. Upon association with the dynamics of the vehicle, this model permits the derivation of the generic performance profiles of this new kind of vehicle. It is acknowledged that, for given design specifications, an optimal swimming speed exists in coincidence with the coordinated operation between the crank mechanism driving the shell contraction and the onset of elastic energy, which determines the speed of inflation of the shell. These results are invaluable in the definition of rigorous design criteria and derivation of ad-hoc control laws for a new breed of optimized soft-bodied, pulsed-jet, unmanned underwater vehicles.
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e-pub ahead of print date: 28 January 2016
Published date: September 2016
Organisations:
Fluid Structure Interactions Group
Identifiers
Local EPrints ID: 395558
URI: http://eprints.soton.ac.uk/id/eprint/395558
ISSN: 0278-3649
PURE UUID: d79430f6-92dd-40a4-ba87-f458a11cd8a0
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Date deposited: 01 Jun 2016 10:24
Last modified: 15 Mar 2024 00:43
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Author:
Francesco Giorgio-Serchi
Author:
Andrea Arienti
Author:
Cecilia Laschi
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