论文信息 - Rigorous computational shadowing of orbits of ordinary differential equations

Rigorous computational shadowing of orbits of ordinary differential equations

Summary. The existence of a true orbit near a numerically computed approximate orbit -- shadowing -- of autonomous system of ordinary differential equations is investigated. A general shadowing theorem for finite time, which guarantees the existence of shadowing in ordinary differential equations and provides error bounds for the distance between the true and the approximate orbit in terms of computable quantities, is proved. The practical use and the effectiveness of this theorem is demonstrated in the numerical computations of chaotic orbits of the Lorenz equations.

Brian A. Coomes | Kenneth J. Palmer | Huseyin Koc cak

[1] Shui-Nee Chow,et al. A Shadowing Lemma Approach to Global Error Analysis for Initial Value ODEs , 1994, SIAM J. Sci. Comput..

[2] James F. Selgrade,et al. Hyperbolicity and chain recurrence , 1977 .

[3] E. Lorenz. Deterministic nonperiodic flow , 1963 .

[4] H. Koçak,et al. Shadowing orbits of ordinary differential equations , 1994 .

[5] Shui-Nee Chow,et al. On the numerical computation of orbits of dynamical systems: The higher dimensional case , 1992, J. Complex..

[6] Celso Grebogi,et al. Do numerical orbits of chaotic dynamical processes represent true orbits? , 1987, J. Complex..

[7] J. H. Wilkinson. The algebraic eigenvalue problem , 1966 .

[8] R. Bowen. ω-Limit sets for Axiom A diffeomorphisms , 1975 .

[9] C. Sparrow. The Lorenz Equations: Bifurcations, Chaos, and Strange Attractors , 1982 .