scholarly journals Overcoming the curse of dimensionality in the numerical approximation of Allen–Cahn partial differential equations via truncated full-history recursive multilevel Picard approximations

2020 ◽  
Vol 28 (4) ◽  
pp. 197-222
Author(s):  
Christian Beck ◽  
Fabian Hornung ◽  
Martin Hutzenthaler ◽  
Arnulf Jentzen ◽  
Thomas Kruse
Keyword(s):  
Partial Differential Equations ◽  
Differential Equations ◽  
Applied Mathematics ◽  
Nonlinear Partial Differential Equations ◽  
Reaction Diffusion ◽  
Curse Of Dimensionality ◽  
Computational Effort ◽  
Approximation Schemes ◽  
Partial Differential ◽  
Diffusion Type

AbstractOne of the most challenging problems in applied mathematics is the approximate solution of nonlinear partial differential equations (PDEs) in high dimensions. Standard deterministic approximation methods like finite differences or finite elements suffer from the curse of dimensionality in the sense that the computational effort grows exponentially in the dimension. In this work we overcome this difficulty in the case of reaction–diffusion type PDEs with a locally Lipschitz continuous coervice nonlinearity (such as Allen–Cahn PDEs) by introducing and analyzing truncated variants of the recently introduced full-history recursive multilevel Picard approximation schemes.

scholarly journals Overcoming the curse of dimensionality in the numerical approximation of semilinear parabolic partial differential equations

2020 ◽  
Vol 476 (2244) ◽  
pp. 20190630
Author(s):  
Martin Hutzenthaler ◽  
Arnulf Jentzen ◽  
Thomas Kruse ◽  
Tuan Anh Nguyen ◽  
Philippe von Wurstemberger
Keyword(s):  
Partial Differential Equations ◽  
Differential Equations ◽  
Curse Of Dimensionality ◽  
Computational Effort ◽  
Parabolic Partial Differential Equations ◽  
Heat Equations ◽  
Partial Differential ◽  
Lipschitz Continuous ◽  
Semilinear Pdes ◽  
Long Time

For a long time it has been well-known that high-dimensional linear parabolic partial differential equations (PDEs) can be approximated by Monte Carlo methods with a computational effort which grows polynomially both in the dimension and in the reciprocal of the prescribed accuracy. In other words, linear PDEs do not suffer from the curse of dimensionality. For general semilinear PDEs with Lipschitz coefficients, however, it remained an open question whether these suffer from the curse of dimensionality. In this paper we partially solve this open problem. More precisely, we prove in the case of semilinear heat equations with gradient-independent and globally Lipschitz continuous nonlinearities that the computational effort of a variant of the recently introduced multilevel Picard approximations grows at most polynomially both in the dimension and in the reciprocal of the required accuracy.

scholarly journals Third-Order Approximate Solution of Chemical Reaction-Diffusion Brusselator System Using Optimal Homotopy Asymptotic Method

2017 ◽  
Vol 2017 ◽  
pp. 1-8 ◽  
Author(s):  
Salem Alkhalaf
Keyword(s):  
Partial Differential Equations ◽  
Differential Equations ◽  
Chemical Reaction ◽  
Asymptotic Method ◽  
Nonlinear Partial Differential Equations ◽  
Computational Cost ◽  
Reaction Diffusion ◽  
Partial Differential ◽  
Optimal Homotopy Asymptotic Method ◽  
And Performance

The objective of this paper is to investigate the effectiveness and performance of optimal homotopy asymptotic method in solving a system of nonlinear partial differential equations. Since mathematical modeling of certain chemical reaction-diffusion experiments leads to Brusselator equations, it is worth demanding a new technique to solve such a system. We construct a new efficient recurrent relation to solve nonlinear Brusselator system of equations. It is observed that the method is easy to implement and quite valuable for handling nonlinear system of partial differential equations and yielding excellent results at minimum computational cost. Analytical solutions of Brusselator system are presented to demonstrate the viability and practical usefulness of the method. The results reveal that the method is explicit, effective, and easy to use.

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