This article is cited in 3 papers

Modifications of weighted Monte Carlo algorithms for nonlinear kinetic equations

M. A. Korotchenko, G. A. Mikhailov, S. V. Rogazinskii

Institute of Computational Mathematics and Mathematical Geophysics, Siberian Branch, Russian Academy of Sciences, Novosibirsk, pr. Akademika Lavrent'eva 6, 630090, Russia

Abstract: Test problems for the nonlinear Boltzmann and Smoluchowski kinetic equations are used to analyze the efficiency of various versions of weighted importance modeling as applied to the evolution of multiparticle ensembles. For coagulation problems, a considerable gain in computational costs is achieved via the approximate importance modeling of the “free path” of the ensemble combined with the importance modeling of the index of a pair of interacting particles. A weighted modification of the modeling of the initial velocity distribution was found to be the most efficient for model solutions to the Boltzmann equation. The technique developed can be useful as applied to real-life coagulation and relaxation problems for which the model problems considered give approximate solutions.

Key words: weighted Monte Carlo algorithms, solution to nonlinear Boltzmann and Smoluchowski kinetic equations.

UDC: 519.676

Received: 22.05.2007

 English version: Computational Mathematics and Mathematical Physics, 2007, 47:12, 2023–2033

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