Article

Implicit Upwind Difference Scheme for a Symmetric $$\boldsymbol{t}$$-Hyperbolic System with Variable Coefficients and Lowest Terms

Rakhmatillo AloevNational University of Uzbekistan, 100174, Tashkent, UzbekistanM. U. KhudoyberganovNational University of Uzbekistan, 100174, Tashkent, Uzbekistan

Lobachevskii Journal of Mathematicsjournal2023en

ABI

Abstract

The exponential stability of an upwind implicit difference scheme for a mixed problem posed for linear symmetric $$t$$ -hyperbolic systems with dissipative boundary conditions is proved in this article. The case is considered when the coefficients of a linear symmetric $$t$$ -hyperbolic system are variables and the system involves lowest terms. To solve the initial-boundary value difference problem, an explicit discrete quadratic Lyapunov function is constructed. Boundary conditions were determined, under which the exponential stability of an implicit upwind difference scheme for a mixed problem for linear symmetric $$t$$ -hyperbolic systems with dissipative boundary conditions in the $$l^{2}$$ -norm is proved.

Topics

Stability and Controllability of Differential Equations Advanced Mathematical Physics Problems Differential Equations and Numerical Methods

Identifiers

DOI: 10.1134/s1995080223020075

Citations and references

Cited by 4 16 references

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