Connecting orbits in one-parameter families of flows

doi:10.1017/S0143385700009482

Abstract

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Given a family of flows parametrized by an interval and a Morse decomposition which continues across the interval, a procedure is devised to detect connecting orbits at various parameter values. This is done by putting a small drift on the parameter space and considering the flow on the product of the phase space and the parameter interval. The Conley index and connection matrix are used to analyse the flow on the product space, then the drift is allowed to go to zero to obtain information about the original family of flows. This method can be used to detect connections between rest points of the same index for example.

References

REFERENCES

Conley, C. C.. Isolated Invariant Sets and the Morse Index. AMS Regional Conference Series in Mathematics 38. AMS, Providence, RI (1978).Google Scholar

Conley, C. C. & Zehnder, E.. Morse-type index theory for flows and periodic solutions for Hamiltonian equations. Comm. Pure Appl. Math. 37 (1984), 207–253.Google Scholar

Dold, A.. Lectures on Algebraic Topology. Springer-Verlag, New York (1972).Google Scholar

Franzosa, R.. Index nitrations and connection matrices for partially ordered Morse decompositions. Thesis. University of Wisconsin, Madison (1984).Google Scholar

Franzosa, R.. Index filtrations and the homology index braid for partially ordered Morse decompositions. Trans. AMS (to appear).Google Scholar

Franzosa, R.. The connection matrix theory for Morse decompositions. Preprint.Google Scholar

Kurland, H.. Homotopy invariants of a repeller-attractor pair, I: The Puppe-sequence of an R-A pair. J. Differential Equations 46 (1982), 1–31.Google Scholar

Mischaikow, K.. Classification of travelling wave solutions of reaction-diffusion equations. Preprint.Google Scholar

Munkres, J.. Topology: A First Course. Prentice-Hall, Englewood Cliffs, NJ (1975).Google Scholar

Reineck, J.. The connection matrix and the classification of flows arising from ecological models. Thesis. University of Wisconsin, Madison (1985).Google Scholar

Robbin, J. & Salamon, D.. Dynamical systems, shape theory and the Conley index. Ergod. Th. & Dynam. Sys. 8* (1988), 375–393.Google Scholar

Salamon, D.. Connected simple systems and the Conley index of isolated invariant sets. Trans. AMS 29 (1985), 1–41.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

McCord, Christopher 1988. The connection map for attractor-repeller pairs. Transactions of the American Mathematical Society, Vol. 307, Issue. 1, p. 195.

Terman, David 1988. Traveling wave solutions of a gradient system: solutions with a prescribed winding number. I. Transactions of the American Mathematical Society, Vol. 308, Issue. 1, p. 369.

Mischaikow, Konstantin 1988. Existence of generalized homoclinic orbits for one parameter families of flows. Proceedings of the American Mathematical Society, Vol. 103, Issue. 1, p. 59.

Reineck, James F. 1988. Travelling wave solutions to a gradient system. Transactions of the American Mathematical Society, Vol. 307, Issue. 2, p. 535.

Mischaikow, Konstantin 1989. Transition systems. Proceedings of the Royal Society of Edinburgh: Section A Mathematics, Vol. 112, Issue. 1-2, p. 155.

Mischaikow, Konstantin 1989. Homoclinic orbits in hamiltonian systems and heteroclinic orbits in gradient and gradient-like systems. Journal of Differential Equations, Vol. 81, Issue. 1, p. 167.

Mischaikow, Konstantin and Hattori, Harumi 1990. On the existence of intermediate magnetohydrodynamic shock waves. Journal of Dynamics and Differential Equations, Vol. 2, Issue. 2, p. 163.

Mischaikow, Konstantin and Wolkowicz, Gail 1990. A predator-prey system involving group defense: a connection matrix approach. Nonlinear Analysis: Theory, Methods & Applications, Vol. 14, Issue. 11, p. 955.

Mischaikow, Konstantin 1990. Nonlinear Evolution Equations That Change Type. Vol. 27, Issue. , p. 164.

Hattori, Harumi and Mischaikow, Konstantin 1991. Multidimensional Hyperbolic Problems and Computations. Vol. 29, Issue. , p. 169.

Hattori, Harumi and Mischaikow, Konstantin 1991. A dynamical system approach to a phase transition problem. Journal of Differential Equations, Vol. 94, Issue. 2, p. 340.

Reineck, James F. 1991. A connection matrix analysis of ecological models. Nonlinear Analysis: Theory, Methods & Applications, Vol. 17, Issue. 4, p. 361.

McCord, Christopher and Mischaikow, Konstantin 1992. Connected simple systems, transition matrices, and heteroclinic bifurcations. Transactions of the American Mathematical Society, Vol. 333, Issue. 1, p. 397.

Mischaikow, Konstantin and Hutson, Vivian 1993. Travelling Waves for Mutualist Species. SIAM Journal on Mathematical Analysis, Vol. 24, Issue. 4, p. 987.

Mischaikow, Konstantin and Reineck, James F. 1994. A product theorem for connection matrices and the structure of connecting orbits. Nonlinear Analysis: Theory, Methods & Applications, Vol. 23, Issue. 10, p. 1293.

Smoller, Joel 1994. Shock Waves and Reaction—Diffusion Equations. Vol. 258, Issue. , p. 553.

Mischaikow, Konstantin 1995. Dynamical Systems. Vol. 1609, Issue. , p. 119.

Kokubu, Hiroshi Mischaikow, Konstantin and Oka, Hiroe 1996. Existence of infinitely many connecting orbits in a singularly perturbed ordinary differential equation. Nonlinearity, Vol. 9, Issue. 5, p. 1263.

Mrozek, M. 1996. Non Linear Analysis and Boundary Value Problems for Ordinary Differential Equations. p. 175.

Franzosa, Robert and Mischaikow, Konstantin 1998. Algebraic transition matrices in the Conley index theory. Transactions of the American Mathematical Society, Vol. 350, Issue. 3, p. 889.

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Connecting orbits in one-parameter families of flows

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