Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step

Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step

Surrogate data generation algorithms are useful for hypothesis testing or for generating realisations of a process for data extension or modelling purposes. This paper tests a well known surrogate data generation method against a stochastic and also a hybrid wavelet-Fourier transform variant of the...

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Main Author: C. J. Keylock
Format: Article
Language:English
Published: Copernicus Publications 2008-06-01
Series:Nonlinear Processes in Geophysics
Online Access:http://www.nonlin-processes-geophys.net/15/435/2008/npg-15-435-2008.pdf
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spelling doaj-2bf30a9a220d4006a2845da9f19227692020-11-24T22:02:30ZengCopernicus PublicationsNonlinear Processes in Geophysics1023-58091607-79462008-06-01153435444Improved preservation of autocorrelative structure in surrogate data using an initial wavelet stepC. J. KeylockSurrogate data generation algorithms are useful for hypothesis testing or for generating realisations of a process for data extension or modelling purposes. This paper tests a well known surrogate data generation method against a stochastic and also a hybrid wavelet-Fourier transform variant of the original algorithm. The data used for testing vary in their persistence and intermittency, and include synthetic and actual data. The hybrid wavelet-Fourier algorithm outperforms the others in its ability to match the autocorrelation function of the data, although the advantages decrease for high intermittencies and when attention is only directed towards the early part of the autocorrelation function. The improved performance is attributed to the wavelet step of the algorithm. http://www.nonlin-processes-geophys.net/15/435/2008/npg-15-435-2008.pdf
collection DOAJ
language English
format Article
sources DOAJ
author C. J. Keylock
spellingShingle C. J. Keylock
Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
Nonlinear Processes in Geophysics
author_facet C. J. Keylock
author_sort C. J. Keylock
title Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
title_short Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
title_full Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
title_fullStr Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
title_full_unstemmed Improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
title_sort improved preservation of autocorrelative structure in surrogate data using an initial wavelet step
publisher Copernicus Publications
series Nonlinear Processes in Geophysics
issn 1023-5809
1607-7946
publishDate 2008-06-01
description Surrogate data generation algorithms are useful for hypothesis testing or for generating realisations of a process for data extension or modelling purposes. This paper tests a well known surrogate data generation method against a stochastic and also a hybrid wavelet-Fourier transform variant of the original algorithm. The data used for testing vary in their persistence and intermittency, and include synthetic and actual data. The hybrid wavelet-Fourier algorithm outperforms the others in its ability to match the autocorrelation function of the data, although the advantages decrease for high intermittencies and when attention is only directed towards the early part of the autocorrelation function. The improved performance is attributed to the wavelet step of the algorithm.
url http://www.nonlin-processes-geophys.net/15/435/2008/npg-15-435-2008.pdf
work_keys_str_mv AT cjkeylock improvedpreservationofautocorrelativestructureinsurrogatedatausinganinitialwaveletstep
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