Dynamic modeling of soft continuum manipulators using lie group variational integration.

Dynamic modeling of soft continuum manipulators using lie group variational integration.

This paper presents the derivation and experimental validation of algorithms for modeling and estimation of soft continuum manipulators using Lie group variational integration. Existing approaches are generally limited to static and quasi-static analyses, and are not sufficiently validated for dynam...

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Main Authors: Abbas Tariverdi, Venkatasubramanian Kalpathy Venkiteswaran, Ørjan Grøttem Martinsen, Ole Jacob Elle, Jim Tørresen, Sarthak Misra
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0236121
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spelling doaj-7fb3d9a18f7f4601a9368106117e91432021-03-03T22:06:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01157e023612110.1371/journal.pone.0236121Dynamic modeling of soft continuum manipulators using lie group variational integration.Abbas TariverdiVenkatasubramanian Kalpathy VenkiteswaranØrjan Grøttem MartinsenOle Jacob ElleJim TørresenSarthak MisraThis paper presents the derivation and experimental validation of algorithms for modeling and estimation of soft continuum manipulators using Lie group variational integration. Existing approaches are generally limited to static and quasi-static analyses, and are not sufficiently validated for dynamic motion. However, in several applications, models need to consider the dynamical behavior of the continuum manipulators. The proposed modeling and estimation formulation is obtained from a discrete variational principle, and therefore grants outstanding conservation properties to the continuum mechanical model. The main contribution of this article is the experimental validation of the dynamic model of soft continuum manipulators, including external torques and forces (e.g., generated by magnetic fields, friction, and the gravity), by carrying out different experiments with metal rods and polymer-based soft rods. To consider dissipative forces in the validation process, distributed estimation filters are proposed. The experimental and numerical tests also illustrate the algorithm's performance on a magnetically-actuated soft continuum manipulator. The model demonstrates good agreement with dynamic experiments in estimating the tip position of a Polydimethylsiloxane (PDMS) rod. The experimental results show an average absolute error and maximum error in tip position estimation of 0.13 mm and 0.58 mm, respectively, for a manipulator length of 60.55 mm.https://doi.org/10.1371/journal.pone.0236121
collection DOAJ
language English
format Article
sources DOAJ
author Abbas Tariverdi
Venkatasubramanian Kalpathy Venkiteswaran
Ørjan Grøttem Martinsen
Ole Jacob Elle
Jim Tørresen
Sarthak Misra
spellingShingle Abbas Tariverdi
Venkatasubramanian Kalpathy Venkiteswaran
Ørjan Grøttem Martinsen
Ole Jacob Elle
Jim Tørresen
Sarthak Misra
Dynamic modeling of soft continuum manipulators using lie group variational integration.
PLoS ONE
author_facet Abbas Tariverdi
Venkatasubramanian Kalpathy Venkiteswaran
Ørjan Grøttem Martinsen
Ole Jacob Elle
Jim Tørresen
Sarthak Misra
author_sort Abbas Tariverdi
title Dynamic modeling of soft continuum manipulators using lie group variational integration.
title_short Dynamic modeling of soft continuum manipulators using lie group variational integration.
title_full Dynamic modeling of soft continuum manipulators using lie group variational integration.
title_fullStr Dynamic modeling of soft continuum manipulators using lie group variational integration.
title_full_unstemmed Dynamic modeling of soft continuum manipulators using lie group variational integration.
title_sort dynamic modeling of soft continuum manipulators using lie group variational integration.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description This paper presents the derivation and experimental validation of algorithms for modeling and estimation of soft continuum manipulators using Lie group variational integration. Existing approaches are generally limited to static and quasi-static analyses, and are not sufficiently validated for dynamic motion. However, in several applications, models need to consider the dynamical behavior of the continuum manipulators. The proposed modeling and estimation formulation is obtained from a discrete variational principle, and therefore grants outstanding conservation properties to the continuum mechanical model. The main contribution of this article is the experimental validation of the dynamic model of soft continuum manipulators, including external torques and forces (e.g., generated by magnetic fields, friction, and the gravity), by carrying out different experiments with metal rods and polymer-based soft rods. To consider dissipative forces in the validation process, distributed estimation filters are proposed. The experimental and numerical tests also illustrate the algorithm's performance on a magnetically-actuated soft continuum manipulator. The model demonstrates good agreement with dynamic experiments in estimating the tip position of a Polydimethylsiloxane (PDMS) rod. The experimental results show an average absolute error and maximum error in tip position estimation of 0.13 mm and 0.58 mm, respectively, for a manipulator length of 60.55 mm.
url https://doi.org/10.1371/journal.pone.0236121
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