Markov partition

Markov partition

A Markov partition is a tool used in dynamical systems theory, allowing the methods of symbolic dynamics to be applied to the study of hyperbolic systems. By using a Markov partition, the system can be made to resemble a discrete-time Markov process, with the long-term dynamical characteristics of the system represented as a Markov shift. The appellation 'Markov' is appropriate because the resulting dynamics of the system obeys the Markov property. The Markov partition thus allows standard techniques from symbolic dynamics to be applied, including the computation of expectation values, correlations, topological entropy, topological zeta functions, Fredholm determinants and the like.

Contents

Motivation

Let (M,φ) be a discrete dynamical system. A basic method of studying its dynamics is to find a symbolic representation: a faithful encoding of the points of M by sequences of symbols such that the map φ becomes the shift map.

Suppose that M has been divided into a number of pieces E1,E2,…,Er, which are thought to be as small and localized, with virtually no overlaps. The behavior of a point x under the iterates of φ can be tracked by recording, for each n, the part Ei which contains φn(x). This results in an infinite sequence on the alphabet {1,2,…r} which encodes the point. In general, this encoding may be imprecise (the same sequence may represent many different points) and the set of sequences which arise in this way may be difficult to describe. Under certain conditions, which are made explicit in the rigorous definition of a Markov partition, the assignment of the sequence to a point of M becomes an almost one-to-one map whose image is a symbolic dynamical system of a special kind called a shift of finite type. In this case, the symbolic representation is a powerful tool for investigating the properties of the dynamical system (M,φ).

Formal definition

A Markov partition[1] is a finite cover of the invariant set of the manifold by a set of curvilinear rectangles \{E_1, E_2, \cdots E_r\} such that

  • For any pair of points x,y\in E_i, that W_s(x)\cap W_u(y) \in E_i
  • \operatorname{Int} E_i \cap \operatorname{Int} E_j=\emptyset for i\ne j
  • If x\in \operatorname{Int} E_i and \phi(x)\in \operatorname{Int} E_j, then
\phi\left[W_u(x)\cap E_i\right] \supset W_u(\phi x) \cap E_j
\phi\left[W_s(x)\cap E_i\right] \subset W_s(\phi x) \cap E_j

Here, Wu(x) and Ws(x) are the unstable and stable manifolds of x, respectively, and \operatorname{Int} E_i simply denotes the interior of Ei.

These last two conditions can be understood as a statement of the Markov property for the symbolic dynamics; that is, the movement of a trajectory from one open cover to the next is determined only by the most recent cover, and not the past history of the system. It is this property of the covering that merits the 'Markov' appellation. The resulting dynamics is that of a Markov shift; that this is indeed the case is due to theorems by Yakov Sinai (1968)[citation needed] and Rufus Bowen (1975),[citation needed] thus putting symbolic dynamics on a firm footing.

Examples

Markov partitions have been constructed in several situations.

Markov partitions make homoclinic and heteroclinic orbits particularly easy to describe.[citation needed]

References

  1. ^ Pierre Gaspard, Chaos, scattering and statistical mechanics, (1998) Cambridge University Press.
  • Douglas Lind and Brian Marcus, An introduction to symbolic dynamics and coding, Cambridge University Press, 1995 ISBN 0-521-55124-2

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