Numerical methods for stochastic partial differential equations with multiples scales
For researchers working on multiscale SPDEs, this method offers an efficient numerical approach to capture effective dynamics without resolving small scales.
The paper presents a numerical method combining spectral methods with heterogeneous multiscale methods to solve stochastic partial differential equations with multiple scales, capturing the amplitude equation at a cost independent of small scales.
A new method for solving numerically stochastic partial differential equations (SPDEs) with multiple scales is presented. The method combines a spectral method with the heterogeneous multiscale method (HMM) presented in [W. E, D. Liu, and E. Vanden-Eijnden, Comm. Pure Appl. Math., 58(11):1544--1585, 2005]. The class of problems that we consider are SPDEs with quadratic nonlinearities that were studied in [D. Blomker, M. Hairer, and G.A. Pavliotis, Nonlinearity, 20(7):1721--1744, 2007.] For such SPDEs an amplitude equation which describes the effective dynamics at long time scales can be rigorously derived for both advective and diffusive time scales. Our method, based on micro and macro solvers, allows to capture numerically the amplitude equation accurately at a cost independent of the small scales in the problem. Numerical experiments illustrate the behavior of the proposed method.