PIXEL: Physics-Informed Cell Representations for Fast and Accurate PDE Solvers

Authors

  • Namgyu Kang Sungkyunkwan University
  • Byeonghyeon Lee Sungkyunkwan University
  • Youngjoon Hong Sungkyunkwan University
  • Seok-Bae Yun Sungkyunkwan University
  • Eunbyung Park Sungkyunkwan University

DOI:

https://doi.org/10.1609/aaai.v37i7.25988

Keywords:

ML: Applications, ML: Deep Neural Network Algorithms, APP: Natural Sciences

Abstract

With the increases in computational power and advances in machine learning, data-driven learning-based methods have gained significant attention in solving PDEs. Physics-informed neural networks (PINNs) have recently emerged and succeeded in various forward and inverse PDE problems thanks to their excellent properties, such as flexibility, mesh-free solutions, and unsupervised training. However, their slower convergence speed and relatively inaccurate solutions often limit their broader applicability in many science and engineering domains. This paper proposes a new kind of data-driven PDEs solver, physics-informed cell representations (PIXEL), elegantly combining classical numerical methods and learning-based approaches. We adopt a grid structure from the numerical methods to improve accuracy and convergence speed and overcome the spectral bias presented in PINNs. Moreover, the proposed method enjoys the same benefits in PINNs, e.g., using the same optimization frameworks to solve both forward and inverse PDE problems and readily enforcing PDE constraints with modern automatic differentiation techniques. We provide experimental results on various challenging PDEs that the original PINNs have struggled with and show that PIXEL achieves fast convergence speed and high accuracy. Project page: https://namgyukang.github.io/PIXEL/

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Published

2023-06-26

How to Cite

Kang, N., Lee, B., Hong, Y., Yun, S.-B., & Park, E. (2023). PIXEL: Physics-Informed Cell Representations for Fast and Accurate PDE Solvers. Proceedings of the AAAI Conference on Artificial Intelligence, 37(7), 8186-8194. https://doi.org/10.1609/aaai.v37i7.25988

Issue

Section

AAAI Technical Track on Machine Learning II