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A physics-informed GAN framework based on model-free data-driven computational mechanics

Kerem Ciftci, Klaus Hackl

2024Computer Methods in Applied Mechanics and Engineering37 citationsDOIOpen Access PDF

Abstract

Model-free data-driven computational mechanics, first proposed by Kirchdoerfer and Ortiz, replace phenomenological models with numerical simulations based on sample datasets in strain–stress space. In this study, we integrate this paradigm within physics-informed generative adversarial networks (GANs). We enhance the conventional physics-informed neural network framework by implementing the principles of data-driven computational mechanics into GANs. Specifically, the generator is informed by physical constraints, while the discriminator utilizes the closest strain–stress data to discern the authenticity of the generator’s output. This combined approach presents a new formalism to harness data-driven mechanics and deep learning to simulate and predict mechanical behaviors.

Topics & Concepts

Computational mechanicsComputer sciencePhysicsComputational scienceApplied mathematicsFinite element methodMathematicsThermodynamicsModel Reduction and Neural NetworksLattice Boltzmann Simulation StudiesFluid Dynamics and Vibration Analysis