PINN(s): Physics-Informed Neural Network(s) for von Karman vortex street

This is an implementation of PINN(s) on TensorFlow 2 to learn the flow field of von Karman vortex street, and estimate the fluid density and kinemetic viscosity.

Usage

Simply type
python main.py
to run the entire code in src directory. This will load data in input and starts training to estimate the fluid density (rho), and kinematic viscosity (nu). Basic parameters (e.g., network architecture, batch size, initializer, etc.) are found in
params.py
and could be modified depending on the problem setup.

Environment

Tested on
python 3.8.10
with the following:

Package	Version
numpy	1.22.1
scipy	1.7.3
tensorflow	2.8.0

Reference

[1] Raissi, M., Perdikaris, P., Karniadakis, G.E.: Physics-informed neural networks: A deep learning framework for solving forward and inverse problems involving nonlinear partial differential equations, Journal of Computational Physics, Vol. 378, pp. 686-707, 2019. (paper)

PINN(s): Physics-Informed Neural Network(s) for von Karman vortex street

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Overview

PINN(s): Physics-Informed Neural Network(s) for von Karman vortex street

Usage

Environment

Reference

Owner

ShotaDEGUCHI

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