Multi-material inverse design of soft deformable bodies via functional optimization

Controlling the deformation of a soft body has potential applications in fields requiring precise control over the shape of the body. Areas such as medical robotics can use the shape control of soft robots to repair aneurysms in humans, deliver medicines within the body, among other applications. Ho...

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Published in	Inverse problems Vol. 39; no. 3; pp. 35006 - 35039
Main Authors	Awasthi, Chaitanya, Lamperski, Andrew, Kowalewski, Timothy M
Format	Journal Article
Language	English
Published	IOP Publishing 01.03.2023
Subjects	hyperelasticity inverse design problem nonlinear elasticity nonlinear optimization
Online Access	Get full text
ISSN	0266-5611 1361-6420 1361-6420
DOI	10.1088/1361-6420/acaa31

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Abstract	Controlling the deformation of a soft body has potential applications in fields requiring precise control over the shape of the body. Areas such as medical robotics can use the shape control of soft robots to repair aneurysms in humans, deliver medicines within the body, among other applications. However, given known external loading, it is usually not possible to deform a soft body into arbitrary shapes if it is fabricated using only a single material. In this work, we propose a new physics-based method for the computational design of soft hyperelastic bodies to address this problem. The method takes as input an undeformed shape of a body, a specified external load, and a user desired final shape. It then solves an inverse problem in design using nonlinear optimization subject to physics constraints. The nonlinear program is solved using a gradient-based interior-point method. Analytical gradients are computed for efficiency. The method outputs fields of material properties which can be used to fabricate a soft body. A body fabricated to match this material field is expected to deform into a user-desired shape, given the same external loading input. Two regularizers are used to ascribe a priori characteristics of smoothness and contrast, respectively, to the spatial distribution of material fields. The performance of the method is tested on three example cases in silico.
AbstractList	Controlling the deformation of a soft body has potential applications in fields requiring precise control over the shape of the body. Areas such as medical robotics can use the shape control of soft robots to repair aneurysms in humans, deliver medicines within the body, among other applications. However, given known external loading, it is usually not possible to deform a soft body into arbitrary shapes if it is fabricated using only a single material. In this work, we propose a new physics-based method for the computational design of soft hyperelastic bodies to address this problem. The method takes as input an undeformed shape of a body, a specified external load, and a user desired final shape. It then solves an inverse problem in design using nonlinear optimization subject to physics constraints. The nonlinear program is solved using a gradient-based interior-point method. Analytical gradients are computed for efficiency. The method outputs fields of material properties which can be used to fabricate a soft body. A body fabricated to match this material field is expected to deform into a user-desired shape, given the same external loading input. Two regularizers are used to ascribe a priori characteristics of smoothness and contrast, respectively, to the spatial distribution of material fields. The performance of the method is tested on three example cases in silico.
Author	Kowalewski, Timothy M Awasthi, Chaitanya Lamperski, Andrew
Author_xml	– sequence: 1 givenname: Chaitanya orcidid: 0000-0002-6641-1967 surname: Awasthi fullname: Awasthi, Chaitanya organization: University of Minnesota Department of Electrical and Computer Engineering, Minneapolis, MN 55455, United States of America – sequence: 2 givenname: Andrew surname: Lamperski fullname: Lamperski, Andrew organization: University of Minnesota Department of Electrical and Computer Engineering, Minneapolis, MN 55455, United States of America – sequence: 3 givenname: Timothy M surname: Kowalewski fullname: Kowalewski, Timothy M organization: University of Minnesota Department of Mechanical Engineering, Minneapolis, MN 55455, United States of America
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Snippet	Controlling the deformation of a soft body has potential applications in fields requiring precise control over the shape of the body. Areas such as medical...
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SubjectTerms	hyperelasticity inverse design problem nonlinear elasticity nonlinear optimization
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Title	Multi-material inverse design of soft deformable bodies via functional optimization
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