Quantifying self-organization with optimal wavelets

Quantifying self-organization with optimal wavelets

An optimal wavelet basis is used to develop a quantitative, experimentally applicable criterion for self-organization. The choice of the optimal wavelet is based on the model of selforganization in the wavelet tree. The framework of the model is founded on the wavelet-domain hidden Markov model and...

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Veröffentlicht in:Europhysics letters 2013-05, Vol.102 (4), p.P1-P1
Hauptverfasser: Milovanovic, Milos, Rajkovic, Milan
Format: Artikel
Sprache:eng
Schlagworte:
Analogies
Construction equipment
Criteria
Mathematical models
Noise reduction
Optimization
System dynamics
Wavelet
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Zusammenfassung:An optimal wavelet basis is used to develop a quantitative, experimentally applicable criterion for self-organization. The choice of the optimal wavelet is based on the model of selforganization in the wavelet tree. The framework of the model is founded on the wavelet-domain hidden Markov model and the optimal wavelet basis criterion for self-organization. The principle assumes increase in statistical complexity considered as the information content necessary for maximally accurate prediction of the system's dynamics. The causal states and the wavelet machine (w-machine) are defined in analogy with the [varepsilon]-machine constructed as the unique, minimal, predictive model of the process. The method, presented here for the one-dimensional data, concurrently performs superior denoising and may be easily generalized to higher dimensions.
ISSN:0295-5075
1286-4854