Deep learning acceleration of Total Lagrangian Explicit Dynamics for soft tissue mechanics

Meister F, Passerini T, Mihalef V, Tuysuzoglu A, Maier A, Mansi T (2020)

Publication Type: Journal article

Publication year: 2020

Journal

Computer Methods in Applied Mechanics and Engineering Elsevier

Book Volume: 358

Article Number: 112628

DOI: 10.1016/j.cma.2019.112628

Abstract

Simulating complex soft tissue deformations has been an intense research area in the fields of computer graphics or computational physiology for instance. A desired property is the ability to perform fast, if not real-time, simulations while being physically accurate. Numerical schemes have been explored to speed up finite element methods, like the Total Lagrangian Explicit Dynamics (TLED). However, real-time applications still come at the price of accuracy and fidelity. In this work, we explore the use of neural networks as function approximators to accelerate the time integration of TLED, while being generic enough to handle various geometries, motion and materials without having to retrain the neural network model. The method is evaluated on a set of experiment, showing promising accuracy at time steps up to 20 times larger than the “breaking” time step, as well as in a simple medical application. Such an approach could pave the way to very fast but accurate acceleration strategies for computational biomechanics.

Authors with CRIS profile

Felix Meister Lehrstuhl für Informatik 5 (Mustererkennung) Andreas Maier Lehrstuhl für Informatik 5 (Mustererkennung)

Involved external institutions

Siemens Healthineers DE Germany (DE) Siemens Healthineers US United States (USA) (US)

How to cite

APA:

Meister, F., Passerini, T., Mihalef, V., Tuysuzoglu, A., Maier, A., & Mansi, T. (2020). Deep learning acceleration of Total Lagrangian Explicit Dynamics for soft tissue mechanics. Computer Methods in Applied Mechanics and Engineering, 358. https://dx.doi.org/10.1016/j.cma.2019.112628

MLA:

Meister, Felix, et al. "Deep learning acceleration of Total Lagrangian Explicit Dynamics for soft tissue mechanics." Computer Methods in Applied Mechanics and Engineering 358 (2020).

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