Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise
Mukam JD, Tambue A (2024)
Computational Methods in Applied Mathematics.
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| E-Veröff. vor dem Druck | Englisch
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Autor*in
Mukam, Jean DanielUniBi;
Tambue, Antoine
Einrichtung
Abstract / Bemerkung
**Abstract**
This paper aims to investigate the weak convergence of the Rosenbrock semi-implicit method for semilinear parabolic stochastic partial differential equations (SPDEs) driven by additive noise. We are interested in SPDEs where the nonlinear part is stronger than the linear part, also called stochastic reaction dominated transport equations. For such SPDEs, many standard numerical schemes lose their stability properties. Exponential Rosenbrock and Rosenbrock-type methods were proved to be efficient for such SPDEs, but only their strong convergence were recently analyzed. Here, we investigate the weak convergence of the Rosenbrock semi-implicit method. We obtain a weak convergence rate which is twice the rate of the strong convergence. Our error analysis does not rely on Malliavin calculus, but rather only uses the Kolmogorov equation and the smoothing properties of the resolvent operator resulting from the Rosenbrock semi-implicit approximation.
This paper aims to investigate the weak convergence of the Rosenbrock semi-implicit method for semilinear parabolic stochastic partial differential equations (SPDEs) driven by additive noise. We are interested in SPDEs where the nonlinear part is stronger than the linear part, also called stochastic reaction dominated transport equations. For such SPDEs, many standard numerical schemes lose their stability properties. Exponential Rosenbrock and Rosenbrock-type methods were proved to be efficient for such SPDEs, but only their strong convergence were recently analyzed. Here, we investigate the weak convergence of the Rosenbrock semi-implicit method. We obtain a weak convergence rate which is twice the rate of the strong convergence. Our error analysis does not rely on Malliavin calculus, but rather only uses the Kolmogorov equation and the smoothing properties of the resolvent operator resulting from the Rosenbrock semi-implicit approximation.
Erscheinungsjahr
2024
Zeitschriftentitel
Computational Methods in Applied Mathematics
ISSN
1609-4840
eISSN
1609-9389
Page URI
https://pub.uni-bielefeld.de/record/2986611
Zitieren
Mukam JD, Tambue A. Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise. Computational Methods in Applied Mathematics. 2024.
Mukam, J. D., & Tambue, A. (2024). Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise. Computational Methods in Applied Mathematics. https://doi.org/10.1515/cmam-2023-0055
Mukam, Jean Daniel, and Tambue, Antoine. 2024. “Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise”. Computational Methods in Applied Mathematics.
Mukam, J. D., and Tambue, A. (2024). Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise. Computational Methods in Applied Mathematics.
Mukam, J.D., & Tambue, A., 2024. Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise. Computational Methods in Applied Mathematics.
J.D. Mukam and A. Tambue, “Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise”, Computational Methods in Applied Mathematics, 2024.
Mukam, J.D., Tambue, A.: Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise. Computational Methods in Applied Mathematics. (2024).
Mukam, Jean Daniel, and Tambue, Antoine. “Weak Convergence of the Rosenbrock Semi-implicit Method for Semilinear Parabolic SPDEs Driven by Additive Noise”. Computational Methods in Applied Mathematics (2024).
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