Soft Pneumatic Actuator Design using Differentiable Simulation

Arvi Gjoka; Espen Knoop; Moritz Bächer; Denis Zorin; Daniele Panozzo

doi:10.1145/3641519.3657467

Soft Pneumatic Actuator Design using Differentiable Simulation

Arvi Gjoka, Espen Knoop, Moritz Bächer, Denis Zorin, Daniele Panozzo

Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We propose a computational design pipeline for pneumatically-actuated soft robots interacting with their environment through contact. We optimize the shape of the robot with a shape optimization approach, using a physically-accurate high-order finite element model for the forward simulation. Our approach enables fine-grained control over both deformation and contact forces by optimizing the shape of internal cavities, which we exploit to design pneumatically-actuated robots that can assume user-prescribed poses, or apply user-controlled forces. We demonstrate the efficacy of our method on two artistic and two functional examples.

Original language	English (US)
Title of host publication	Proceedings - SIGGRAPH 2024 Conference Papers
Editors	Stephen N. Spencer
Publisher	Association for Computing Machinery, Inc
ISBN (Electronic)	9798400705250
DOIs	https://doi.org/10.1145/3641519.3657467
State	Published - Jul 13 2024
Event	2024 Special Interest Group on Computer Graphics and Interactive Techniques Conference - Conference Papers, SIGGRAPH 2024 - Denver, United States Duration: Jul 28 2024 → Aug 1 2024

Publication series

Name	Proceedings - SIGGRAPH 2024 Conference Papers

Conference

Conference	2024 Special Interest Group on Computer Graphics and Interactive Techniques Conference - Conference Papers, SIGGRAPH 2024
Country/Territory	United States
City	Denver
Period	7/28/24 → 8/1/24

Keywords

Differentiable Simulation
Finite Element Method
Pneumatic Actuator
Shape Optimization
Soft Robotics

ASJC Scopus subject areas

Computer Vision and Pattern Recognition
Visual Arts and Performing Arts
Computer Graphics and Computer-Aided Design

Access to Document

10.1145/3641519.3657467

Cite this

Soft Pneumatic Actuator Design using Differentiable Simulation. / Gjoka, Arvi; Knoop, Espen; Bächer, Moritz et al.
Proceedings - SIGGRAPH 2024 Conference Papers. ed. / Stephen N. Spencer. Association for Computing Machinery, Inc, 2024. 106 (Proceedings - SIGGRAPH 2024 Conference Papers).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Gjoka, A, Knoop, E, Bächer, M, Zorin, D & Panozzo, D 2024, Soft Pneumatic Actuator Design using Differentiable Simulation. in SN Spencer (ed.), Proceedings - SIGGRAPH 2024 Conference Papers., 106, Proceedings - SIGGRAPH 2024 Conference Papers, Association for Computing Machinery, Inc, 2024 Special Interest Group on Computer Graphics and Interactive Techniques Conference - Conference Papers, SIGGRAPH 2024, Denver, United States, 7/28/24. https://doi.org/10.1145/3641519.3657467

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abstract = "We propose a computational design pipeline for pneumatically-actuated soft robots interacting with their environment through contact. We optimize the shape of the robot with a shape optimization approach, using a physically-accurate high-order finite element model for the forward simulation. Our approach enables fine-grained control over both deformation and contact forces by optimizing the shape of internal cavities, which we exploit to design pneumatically-actuated robots that can assume user-prescribed poses, or apply user-controlled forces. We demonstrate the efficacy of our method on two artistic and two functional examples.",

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AB - We propose a computational design pipeline for pneumatically-actuated soft robots interacting with their environment through contact. We optimize the shape of the robot with a shape optimization approach, using a physically-accurate high-order finite element model for the forward simulation. Our approach enables fine-grained control over both deformation and contact forces by optimizing the shape of internal cavities, which we exploit to design pneumatically-actuated robots that can assume user-prescribed poses, or apply user-controlled forces. We demonstrate the efficacy of our method on two artistic and two functional examples.

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Soft Pneumatic Actuator Design using Differentiable Simulation

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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