Volume-Preserving Geometric Shape Optimization of Dirichlet Energy Using Variational Neural Networks - PEPR NumPEx
Pré-Publication, Document De Travail Année : 2024

Volume-Preserving Geometric Shape Optimization of Dirichlet Energy Using Variational Neural Networks

Résumé

In this work, we explore the numerical solution of geometric shape optimization problems using neural network-based approaches. This involves minimizing a numerical criterion that includes solving a partial differential equation with respect to a domain, often under geometric constraints like constant volume. Our goal is to develop a proof of concept using a flexible and parallelizable methodology to tackle these problems. We focus on a prototypal problem: minimizing the so-called Dirichlet energy with respect to the domain under a volume constraint, involving a Poisson equation in $\mathbb{R}^2$. We use physics-informed neural networks (PINN) to approximate the Poisson equation's solution on a given domain and represent the shape through a neural network that approximates a volume-preserving transformation from an initial shape to an optimal one. These processes are combined in a single optimization algorithm that minimizes the Dirichlet energy. One of the significant advantages of this approach is its parallelizable nature, which makes it easy to handle the addition of parameters. Additionally, it does not rely on shape derivative or adjoint calculations. Our approach is tested on Dirichlet and Robin boundary conditions, parametric right-hand sides, and extended to Bernoulli-type free boundary problems. The source code for solving the shape optimization problem is open-source and freely available.
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hal-04663197 , version 1 (26-07-2024)

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  • HAL Id : hal-04663197 , version 1

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Amaury Bélières--Frendo, Victor Michel-Dansac, Emmanuel Franck, Yannick Privat. Volume-Preserving Geometric Shape Optimization of Dirichlet Energy Using Variational Neural Networks. 2024. ⟨hal-04663197⟩
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