Physic Informed Neural Network

Physics-informed neural networks (PINNs) integrate physical laws, typically expressed as differential equations, into neural network training to solve complex scientific problems. Current research focuses on improving PINN accuracy and efficiency through architectural innovations like Fourier-based networks, Kolmogorov-Arnold networks, and wavelet-based approaches, as well as advanced optimization strategies such as dual cone gradient descent and DiffGrad. These advancements aim to overcome limitations in handling high-frequency solutions, complex geometries, and stiff equations, ultimately enhancing the applicability of PINNs across diverse scientific and engineering domains, including fluid dynamics, seismology, and materials science.

Papers

December 20, 2022

December 18, 2022

Deep learning applied to computational mechanics: A comprehensive review, state of the art, and the classics
Loc Vu-Quoc, Alexander Humer
Neural Network Deep Learning Physic Informed Neural Network Internal State Comprehensive Review Solid Mechanic CLASSIC Modern Contemporary

December 17, 2022

Physics-informed Neural Networks with Periodic Activation Functions for Solute Transport in Heterogeneous Porous Media
Salah A Faroughi, Ramin Soltanmohammad, Pingki Datta, Seyed Kourosh Mahjour, Shirko Faroughi
Physic Informed Neural Network Heterogeneous Setting Porous Medium Periodic Activation Function Solute Transport

December 15, 2022

December 14, 2022

December 9, 2022

A PINN Approach to Symbolic Differential Operator Discovery with Sparse Data
Lena Podina, Brydon Eastman, Mohammad Kohandel
Physic Informed Neural Network Scientific Discovery Sparse Data PINN Method Solution Operator Differential Operator

December 8, 2022

AutoPINN: When AutoML Meets Physics-Informed Neural Networks
Xinle Wu, Dalin Zhang, Miao Zhang, Chenjuan Guo, Shuai Zhao, Yi Zhang, Huai Wang, Bin Yang
Neural Network Physic Informed Neural Network Neural Architecture Online autoML PINN Model

December 6, 2022

RBF-MGN:Solving spatiotemporal PDEs with Physics-informed Graph Neural Network
Zixue Xiang, Wei Peng, Wen Yao
Graph Neural Network Physic Informed Neural Network Numerical Experiment Radial Basis Function Physic Informed Learning

December 1, 2022

On the Compatibility between Neural Networks and Partial Differential Equations for Physics-informed Learning
Kuangdai Leng, Jeyan Thiyagalingam
Neural Network Physic Informed Neural Network Multi Layer Partial Differential Equation Physic Informed Learning Rectified Linear Unit Self Compatibility Lipschitz Activation

November 30, 2022

VI-PINNs: Variance-involved Physics-informed Neural Networks for Fast and Accurate Prediction of Partial Differential Equations
Bin Shan, Ye Li, Shengjun Huang
Physic Informed Neural Network Partial Differential Equation Variance Information Reg PINNs accuratE Prediction Likelihood Loss Better Prediction

November 29, 2022

Fourier Continuation for Exact Derivative Computation in Physics-Informed Neural Operators
Haydn Maust, Zongyi Li, Yixuan Wang, Daniel Leibovici, Oscar Bruno, Thomas Hou, Anima Anandkumar
Physic Informed Neural Network Physic Based Fourier Transform Physic Informed Neural Operator Fourier Continuation

November 28, 2022

November 24, 2022

Design of Turing Systems with Physics-Informed Neural Networks
Jordon Kho, Winston Koh, Jian Cheng Wong, Pao-Hsiung Chiu, Chin Chun Ooi
Physic Informed Neural Network Product Design Turing Machine Reaction Diffusion

November 23, 2022

November 22, 2022

WarpPINN: Cine-MR image registration with physics-informed neural networks
Pablo Arratia López, Hernán Mella, Sergio Uribe, Daniel E. Hurtado, Francisco Sahli Costabal
Physic Informed Neural Network Image Registration Deformation Field Strain Estimation