Special Session 135: Latest Developments in Computational Methods for Differential Equations Arising in Fluid Dynamics with Multi-scale and Boundary Layer Behaviour

Numerical Solution of Two-Parameter Singularly Perturbed Differential Equations by Efficient Physics-Informed Neural Networks
Natesan Srinivasan
Indian Institute of Technology Guwahati
India
Co-Author(s):    Aayushman Raina and Pradanya Boro
Abstract:
In recent years, machine learning techniques, namely, physics informed neural networks (PINNs) are becoming popular to solve various types of differential equations modelling several physical phenomena. Here, we focus the fundamentals of PINNs, and, their performance to solve 1D and 2D singularly perturbed differential equations having two small parameters in the diffusion and convection terms. Further, we study the shortfalls of classical PINNs in solving two-parameter singular perturbation problems, and how to overcome these difficulties through other variants of PINNs. Several numerical experiments are carried out to see their performance.