Abstract: A new finite-difference (NFD) scheme of fifth order in space and third order in time that maintains high accuracy in shock influence areas is constructed. The accuracy of the NFD scheme is compared with the Rusanov–Burstein–Mirin (RBM) and alternative weighted essentially non-oscillatory (A-WENO) schemes as applied to the shallow water equations for a special Cauchy problem with smooth periodic initial data and with an exact solution involving shock waves that arise in the computational domain due to gradient catastrophes. It is shown that the NFD scheme is much more accurate than the third-order RBM scheme in smooth parts of the approximated solution outside the shock influence areas and is more accurate than the A-WENO scheme (which is of the fifth order in space and third order in time) on rather coarse numerical grids; on finer grids, the NFD and A-WENO schemes have nearly identical accuracy in these parts of the computed solution. In shock influence areas, where the RBM scheme becomes much more accurate than A-WENO, the NFD scheme has higher accuracy than RBM.

Cite: Kolotilov V.A. , Ostapenko V.V. , Khandeeva N.A.
Fifth-Order Finite-Difference Scheme in Space with Increased Accuracy in Shock Influence Areas
Computational Mathematics and Mathematical Physics. 2025. V.65. P.901–916. DOI: 10.1134/S0965542525700101 РИНЦ

Original: Колотилов В.А. , Остапенко В.В. , Хандеева Н.А.
Конечно-разностная схема пятого порядка по пространству, имеющая повышенную точность в областях влияния ударных волн
Журнал вычислительной математики и математической физики. 2025. Т.65. №4. РИНЦ

Dates:

Submitted:	Nov 17, 2024
Accepted:	Feb 5, 2025
Published print:	Jun 17, 2025

Identifiers:

Elibrary:

82549746

Citing: Пока нет цитирований

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