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Solving second-order nonlinear evolution partial differential equations using deep learning*

Jun Li, Yong Chen

2020Communications in Theoretical Physics83 citationsDOI

Abstract

Abstract Solving nonlinear evolution partial differential equations has been a longstanding computational challenge. In this paper, we present a universal paradigm of learning the system and extracting patterns from data generated from experiments. Specifically, this framework approximates the latent solution with a deep neural network, which is trained with the constraint of underlying physical laws usually expressed by some equations. In particular, we test the effectiveness of the approach for the Burgers’ equation used as an example of second-order nonlinear evolution equations under different initial and boundary conditions. The results also indicate that for soliton solutions, the model training costs significantly less time than other initial conditions.

Topics & Concepts

Nonlinear systemPartial differential equationOrder (exchange)Applied mathematicsFirst-order partial differential equationElliptic partial differential equationComputer sciencePhysicsMathematicsMathematical analysisQuantum mechanicsFinanceEconomicsModel Reduction and Neural NetworksFractional Differential Equations SolutionsNumerical methods for differential equations
Solving second-order nonlinear evolution partial differential equations using deep learning* | Litcius