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Integrating Physics-Informed Neural Networks for Earthquake Modeling: 2D Verification, Applicationsby@seismology

Integrating Physics-Informed Neural Networks for Earthquake Modeling: 2D Verification, Applications

by Seismology TechnologyAugust 2nd, 2024
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This paper is available on arxiv.org/abs/2312.09403 under CC BY 4.0 DEED license. The physics-informed deep learning framework is able to solve both forward and inverse problems to reasonable accuracy. Verification is an essential first step to ensure credible results 20, 12.
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Authors:

(1) Cody Rucker, Department of Computer Science, University of Oregon and Corresponding author;

(2) Brittany A. Erickson, Department of Computer Science, University of Oregon and Department of Earth Sciences, University of Oregon.

Abstract and 1. Context and Motivation

  1. Physics-Informed Deep Learning Framework
  2. Learning Problems for Earthquakes on Rate-and-State Faults
  3. 2D Verification, Validation and Applications
  4. Summary and Future Work and References

4. 2D Verification, Validation and Applications

When computational methods for physical problems are used to address science questions, verification is an essential first step to ensure credible results [20, 12]. While validation with observational data is the focus of future work, we must first verify that our physics-informed deep learning framework is able to solve both forward and inverse problems to reasonable accuracy.

4.1. Verification with the Method of Manufactured Solutions








Figure 6: 2D inversion results showing (a) convergence of loss components and (b) convergence of the inferred parameter approximation.


This paper is available on arxiv under CC BY 4.0 DEED license.