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A Physics-Informed Neural Network Approach to Solution and Identification of Biharmonic Equations of Elasticity

M. Vahab, Ehsan Haghighat, M. Khaleghi, Nasser Khalili

2021Journal of Engineering Mechanics61 citationsDOI

Abstract

We explore an application of the Physics-Informed Neural Networks (PINNs) in conjunction with Airy stress functions and Fourier series to find optimal solutions to a few reference biharmonic problems of elasticity and elastic plate theory. Biharmonic relations are fourth-order partial differential equations (PDEs) that are challenging to solve using classical numerical methods and have not been addressed using PINNs. Our work highlights a novel application of classical analytical methods to guide the construction of efficient neural networks with a minimal number of parameters that are very accurate and fast to evaluate. In particular, we find that enriching the feature space using Airy stress functions can significantly improve the accuracy of PINN solutions for biharmonic PDEs.

Topics & Concepts

Biharmonic equationPartial differential equationArtificial neural networkElasticity (physics)Airy functionApplied mathematicsMathematicsMathematical analysisComputer sciencePhysicsArtificial intelligenceThermodynamicsBoundary value problemModel Reduction and Neural NetworksFluid Dynamics and Vibration AnalysisNumerical methods in engineering
A Physics-Informed Neural Network Approach to Solution and Identification of Biharmonic Equations of Elasticity | Litcius