Takens' theorem
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In mathematics, a delay embedding theorem gives the conditions under which a chaotic dynamical system can be reconstructed from a sequence of observations of the state of a dynamical system. The reconstruction preserves the properties of the dynamical system that do not change under smooth coordinate changes, but it does not preserve the geometric shape of structures in phase space.
The 1981 delay embedding theorem of Takens provides the conditions under which a smooth attractor can be reconstructed from the observations made with a generic function. Later results replaced the smooth attractor with a set of arbitrary box counting dimension and the class of generic functions with other classes of functions.
Delay embedding theorems are simpler to state for discrete-time dynamical systems. The state space of the dynamical system is a ν-dimensional manifold M. The dynamics is given by a smooth map
- f : M → M.
Assume that the dynamics f has a strange attractor A with box counting dimension dA. Using ideas from Whitney's embedding theorem, A can be embedded in k-dimensional Euclidean space with
- k > 2 dA.
That is, there is a diffeomorphism φ that maps A into R k such that the derivative of φ has full rank.
A delay embedding theorem uses an observation function to construct the embedding function. An observation function α must be twice-differentiable and associate a real number to any point of the attractor A. It must also be typical, so its derivative is of full rank and has no special symmetries in its components. The delay embedding theorem states that the function
is an embedding of the strange attractor A.
[edit] References
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[edit] Further reading
- N. Packard, J. Crutchfield, D. Farmer and R. Shaw (1980). "Geometry from time series". Physical Review Letters 45: 712–716.
- F. Takens (1981). "Detecting strange attractors in turbulence". D. A. Rand and L.-S. Young Dynamical Systems and Turbulence, Lecture Notes in Mathematics, vol. 898: 366–381, Springer-Verlag.
- R. Mañé (1981). "On the dimension of the compact invariant sets of certain nonlinear maps". D. A. Rand and L.-S. Young Dynamical Systems and Turbulence, Lecture Notes in Mathematics, vol. 898: 230–242, Springer-Verlag.
- Tim Sauer, James A. Yorke, and Martin Casdagli (1991). "Embedolgy". Journal of Statistical Physics 65: 579–616.