J. P. Huke scite author profile

Takens' Embedding Theorem forms the basis of virtually all approaches to the analysis of time series generated by nonlinear deterministic dynamical systems. It typically allows us to reconstruct an unknown dynamical system which gave rise to a given observed scalar time series simply by constructing a new state space out of successive values of the time series. This provides the theoretical foundation for many popular techniques, including those for the measurement of fractal dimensions and Liapunov exponents, for the prediction of future behaviour, for noise reduction and signal separation, and most recently for control and targeting. Current versions of Takens' Theorem assume that the underlying system is autonomous (and noise free). Unfortunately this is not the case for many real systems. In a previous paper, one of us showed how to extend Takens' Theorem to deterministically forced systems. Here, we use similar techniques to prove a number of delay embedding theorems for arbitrarily and stochastically forced systems. As a special case, we obtain embedding results for Iterated Functions Systems, and we also briefly consider noisy observations.

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Takens embedding theorems for forced and stochastic systems

Stark

Broomhead

Davies

et al. 1997

Nonlinear Analysis: Theory, Methods & Applications

137

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Linear Filters and Non-Linear Systems

Broomhead

Huke

Muldoon

1992

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It has been asserted in the literature that the low pass filtering of time series data may lead to erroneous results when calculating attractor dimensions. Here we prove that finite order, non-recursive filters do not have this effect. In fact, a generic, finite order, non-recursive filter leaves invariant all the quantities that can be estimated by using embedding techniques such as the method of delays.

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Topology from time series

Muldoon

MacKay

Huke³

et al. 1993

Physica D: Nonlinear Phenomena

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Density-matrix refinement for molecular crystals

Howard

Huke²,

Mallinson

et al. 1994

Phys. Rev. B

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J. P. Huke

Delay Embeddings for Forced Systems. II. Stochastic Forcing

Takens embedding theorems for forced and stochastic systems

Linear Filters and Non-Linear Systems

Topology from time series

Density-matrix refinement for molecular crystals

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