Constraint-based Simulation of Passive Suction Cups

Author:

Bernardin Antonin1ORCID,Coevoet Eulalie1ORCID,Kry Paul2ORCID,Andrews Sheldon3ORCID,Duriez Christian4ORCID,Marchal Maud1ORCID

Affiliation:

1. Univ. Rennes, INSA, IRISA, Inria, Rennes, France

2. McGill University, Montréal, QC, Canada

3. École de technologie supérieure, Montréal, QC, Canada

4. Inria, Univ. Lille, CNRS, Centrale Lille Villeneuve-d’Ascq, France

Abstract

In this paper, we propose a physics-based model of suction phenomenon to achieve simulation of deformable objects like suction cups. Our model uses a constraint-based formulation to simulate the variations of pressure inside suction cups. The respective internal pressures are represented as pressure constraints which are coupled with anti-interpenetration and friction constraints. Furthermore, our method is able to detect multiple air cavities using information from collision detection. We solve the pressure constraints based on the ideal gas law while considering several cavity states. We test our model with a number of scenarios reflecting a variety of uses, for instance, a spring loaded jumping toy, a manipulator performing a pick and place task, and an octopus tentacle grasping a soda can. We also evaluate the ability of our model to reproduce the physics of suction cups of varying shapes, lifting objects of different masses, and sliding on a slippery surface. The results show promise for various applications such as the simulation in soft robotics and computer animation.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Graphics and Computer-Aided Design

Reference35 articles.

1. Design and suction cup analysis of a wall climbing robot

2. Large steps in cloth simulation

3. An introduction to physics-based animation

4. An Interactive Physically-based Model for Active Suction Phenomenon Simulation

5. N. Chentanez, M. Müller, and M. Macklin. 2016. Real-time simulation of large elasto-plastic deformation with shape matching. In Proc. of the ACM SIGGRAPH/ Eurographics Symposium on Computer Animation. 159–167.

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