Title of article
Numerical solutions of Burgers’ equation with random initial conditions using the Wiener chaos expansion and the Lax–Wendroff scheme Original Research Article
Author/Authors
Hongjoong Kim، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
6
From page
545
To page
550
Abstract
The work is concerned with efficient computation of statistical moments of solutions to Burgers’ equation with random initial conditions. When the Lax–Wendroff scheme is expanded using the Wiener chaos expansion (WCE), it introduces an infinite system of deterministic equations with respect to non-random Hermite–Fourier coefficients. One of important properties of the system is that all the statistical moments of the solution can be computed using simple formulae that involve only the solution of the system. The stability, accuracy, and efficiency of the WCE approach to computing statistical moments have been numerically tested and compared to those for the Monte Carlo (MC) method. Strong evidence has been given that the WCE approach is as accurate as but substantially faster than the MC method, at least for certain classes of initial conditions.
Keywords
Burgers’ equation , Lax–Wendroff scheme , Monte Carlo method , Wiener chaos expansion
Journal title
Applied Mathematics Letters
Serial Year
2007
Journal title
Applied Mathematics Letters
Record number
898398
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