Bibliographic Information: Jiang, F., Hou, X., & Xia, M. (Year). Densely Multiplied Physics Informed Neural Networks. [Journal Name].
Research Objective: This paper investigates the potential of densely multiplied architectures to enhance the accuracy and efficiency of Physics-Informed Neural Networks (PINNs) in solving partial differential equations (PDEs).
Methodology: The authors propose a novel DM-PINN architecture that incorporates element-wise multiplication between a hidden layer and its subsequent hidden layers. This structure allows for the reuse of hidden layer outputs, increasing the network's expressive power without adding trainable parameters. The performance of DM-PINN is evaluated on four benchmark PDE problems: Allan-Cahn equation, Helmholtz equation, Burgers' equation, and 1D convection equation. Comparisons are drawn against vanilla PINN, ResNet, and a modified MLP architecture.
Key Findings:
Main Conclusions: The study demonstrates that densely multiplied architectures significantly improve the accuracy and efficiency of PINNs. This approach offers a promising avenue for enhancing PINN performance without increasing computational complexity.
Significance: This research contributes to the advancement of PINNs as a powerful tool for solving complex PDEs in various scientific and engineering domains. The proposed DM-PINN architecture offers a practical solution to enhance PINN accuracy and efficiency, potentially leading to more reliable and efficient simulations and predictions.
Limitations and Future Research: While the study showcases the benefits of DM-PINNs, further investigation into its generalization capabilities across a wider range of PDEs and real-world applications is warranted. Exploring the integration of DM-PINN with other advanced training techniques could further enhance its performance and broaden its applicability.
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arxiv.org
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by Feilong Jian... ที่ arxiv.org 10-07-2024
https://arxiv.org/pdf/2402.04390.pdfสอบถามเพิ่มเติม