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Extraction of stochastic dynamics from time series

We present a method for the reconstruction of the dynamics of processes with discrete time. The time series from such a system is described by a stochastic recurrence equation, the continuous form of which is known as the Langevin equation. The deterministic f and stochastic g components of the stoc...

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Published in:	Physical review. E, Statistical, nonlinear, and soft matter physics Statistical, nonlinear, and soft matter physics, 2012-07, Vol.86 (1 Pt 1), p.011114-011114, Article 011114
Main Authors:	Petelczyc, M, Żebrowski, J J, Gac, J M
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Language:	English
Subjects:	Algorithms Computer Simulation Data Interpretation, Statistical Information Storage and Retrieval - methods Models, Statistical Statistical Distributions Stochastic Processes
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description	We present a method for the reconstruction of the dynamics of processes with discrete time. The time series from such a system is described by a stochastic recurrence equation, the continuous form of which is known as the Langevin equation. The deterministic f and stochastic g components of the stochastic equation are directly extracted from the measurement data with the assumption that the noise has finite moments and has a zero mean and a unit variance. No other information about the noise distribution is needed. This is contrary to the usual Langevin description, in which the additional assumption that the noise is Gaussian (δ-correlated) distributed as necessary. We test the method using one dimensional deterministic systems (the tent and logistic maps) with Gaussian and with Gumbel noise. In addition, results for human heart rate variability are presented as an example of the application of our method to real data. The differences between cardiological cases can be observed in the properties of the deterministic part f and of the reconstructed noise distribution.
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subjects	Algorithms Computer Simulation Data Interpretation, Statistical Information Storage and Retrieval - methods Models, Statistical Statistical Distributions Stochastic Processes
title	Extraction of stochastic dynamics from time series
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