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Data-driven forward-inverse problems of the 2-coupled mixed derivative nonlinear Schrödinger equation using deep learning

by Dai, Chao-Qing , Qiu, Wei-Xin , Li, Ji-Tao , Liu, Wei , Geng, Kai-Li , Zhu, Bo-Wei

in Accuracy / Automotive Engineering / Classical Mechanics / Control / Deep learning / Dynamical Systems / Efficiency / Engineering / Generative adversarial networks / Inverse problems / Machine learning / Mechanical Engineering / Neural networks / Noise levels / Original Paper / Partial differential equations / Physics / Schrodinger equation / Solitary waves / Vibration

2024

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Data-driven forward-inverse problems of the 2-coupled mixed derivative nonlinear Schrödinger equation using deep learning

by Dai, Chao-Qing , Qiu, Wei-Xin , Li, Ji-Tao , Liu, Wei , Geng, Kai-Li , Zhu, Bo-Wei

2024

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Data-driven forward-inverse problems of the 2-coupled mixed derivative nonlinear Schrödinger equation using deep learning

by Dai, Chao-Qing , Qiu, Wei-Xin , Li, Ji-Tao , Liu, Wei , Geng, Kai-Li , Zhu, Bo-Wei

2024

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Journal Article

Data-driven forward-inverse problems of the 2-coupled mixed derivative nonlinear Schrödinger equation using deep learning

Dai, Chao-Qing,

Qiu, Wei-Xin,

Li, Ji-Tao,

Liu, Wei,

Geng, Kai-Li,

Zhu, Bo-Wei

2024

Overview

In recent years, generative adversarial networks(GAN) has achieved great success in generating realistic images. However, the instability of GAN and the lower accuracy of physics-informed neural networks(PINN) in solving highly complex partial differential equations make training models extremely challenging. This paper proposes a novel physics-informed GAN with gradient penalty (PIGAN-GP) and applies it to predict solutions of the 2-coupled mixed derivative nonlinear Schrödinger. The PIGAN-GP integrates PINN as part of the generator in the GAN framework, namely, utilizes PINN to solve the physical equation and generate predictions for the soliton positions and shapes. We predict the positions and shapes of nondegenerate solitons by the real and predicted solutions to demonstrate the high accuracy and stability of this PIGAN-GP network. Additionally, we also discuss the influence of noise levels and different initializations on the model parameter discovery using the PINN.

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Publisher

Springer Netherlands,Springer Nature B.V

Subject

Accuracy

/ Automotive Engineering

/ Classical Mechanics

/ Control

/ Deep learning

/ Dynamical Systems

/ Efficiency