Stationarity test

Version 1.3 (108 ko) par E. Cheynet

The stationarity of a time series is evaluated by using the reverse arrangement test or moving-window functions

https://windengineeringuis.github.io/

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stationaryTests

Matlab functions to test the stationarity of a random process

Summary

The N-th order stationarity [1] of a random process is assessed using two tests. In the present submission, only the first and second-order stationarities are described. A random process is stationary at the first order if its mean does not change (significantly) with the time. Similarly, a random process is stationary at the second-order if its variance or standard deviation does not change (significantly) with the time.

The LiveScript example considers the case of turbulent velocity time histories. Their stationarity is assessed using two different approaches:

A non-parametric test [2,3], which detects trends and classify the time as non-stationary if the trend is not negligible.
A parametric test based on moving-window functions that compare the instantaneous mean or standard deviation to the one obtained without any detrending.

To run the examples, you will need some additional functions:

randomProcess.m, available on https://se.mathworks.com/matlabcentral/fileexchange/76854-one-point-random-process-generation
getSamplingPara.m, available on https://se.mathworks.com/matlabcentral/fileexchange/76854-one-point-random-process-generation
binAveraging.m, available on https://se.mathworks.com/matlabcentral/fileexchange/73584-averaging-noisy-data-into-bins

Content

The present submission contains:

The function RA_test.m, which implements the reverse-arrangement test by Bendat and piersol[2] but also Siegel et al [3]
The function MW_test.m, which implement a parametric stationarity test relying on moving windows functions.
A LiveScript example Documentation.mlx

References

[1] Priestley, M. B. (1981). Spectral Analysis and Time Series. Academic Press. ISBN 0-12-564922-3.

[2] Bendat and piersol, Random data, 2010, page 99

[3] Siegel, Sidney, and N. J. Castellan. "Non-para-metric statistics for the behavioral sciences." (1988).

Citation pour cette source

E. Cheynet. ECheynet/StationaryTests: Sationarity Tests for Random Process. Zenodo, 2020, doi:10.5281/ZENODO.3891111.

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Cheynet, Etienne, et al. “Flow Distortion Recorded by Sonic Anemometers on a Long-Span Bridge: Towards a Better Modelling of the Dynamic Wind Load in Full-Scale.” Journal of Sound and Vibration, vol. 450, Elsevier BV, June 2019, pp. 214–30, doi:10.1016/j.jsv.2019.03.013.

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Compatibilité avec les versions de MATLAB

Créé avec R2020b

Compatible avec les versions R2016a et ultérieures

Plateformes compatibles

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Remerciements

Inspiré par : One-point random process generation, Averaging noisy data into bins

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Documentation.mlx

Version	Publié le	Notes de version
1.3	8 mai 2022	See release notes for this release on GitHub: https://github.com/ECheynet/stationaryTests/releases/tag/v1.3	Télécharger
1.2.1	12 juin 2020	See release notes for this release on GitHub: https://github.com/ECheynet/stationaryTests/releases/tag/v1.2.1	Télécharger
1.2	12 juin 2020	See release notes for this release on GitHub: https://github.com/ECheynet/stationaryTests/releases/tag/v1.2	Télécharger
1.1.0.0	28 mai 2016	function description + some debugging Title	Télécharger
1.0.0.0	18 nov. 2015	-doi updated -type + picture -typo	Télécharger

Pour consulter ou signaler des problèmes liés à ce module complémentaire GitHub, accédez au dépôt GitHub.

MLA	E. Cheynet. ECheynet/StationaryTests: Sationarity Tests for Random Process. Zenodo, 2020, doi:10.5281/ZENODO.3891111.
APA	E. Cheynet. (2020). ECheynet/stationaryTests: Sationarity tests for random process. Zenodo. Retrieved from https://zenodo.org/record/3891111
BibTeX	@misc{https://doi.org/10.5281/zenodo.3891111, doi = {10.5281/ZENODO.3891111}, url = {https://zenodo.org/record/3891111}, author = {{E. Cheynet}}, title = {ECheynet/stationaryTests: Sationarity tests for random process}, publisher = {Zenodo}, year = {2020} }

MLA	Cheynet, Etienne, et al. “Flow Distortion Recorded by Sonic Anemometers on a Long-Span Bridge: Towards a Better Modelling of the Dynamic Wind Load in Full-Scale.” Journal of Sound and Vibration, vol. 450, Elsevier BV, June 2019, pp. 214–30, doi:10.1016/j.jsv.2019.03.013.
APA	Cheynet, E., Jakobsen, J. B., & Snæbjörnsson, J. (2019). Flow distortion recorded by sonic anemometers on a long-span bridge: Towards a better modelling of the dynamic wind load in full-scale. Journal of Sound and Vibration, 450, 214–230. Elsevier BV. Retrieved from https://doi.org/10.1016%2Fj.jsv.2019.03.013
BibTeX	@article{Cheynet_2019, doi = {10.1016/j.jsv.2019.03.013}, url = {https://doi.org/10.1016%2Fj.jsv.2019.03.013}, year = 2019, month = {jun}, publisher = {Elsevier {BV}}, volume = {450}, pages = {214--230}, author = {Etienne Cheynet and Jasna Bogunovi{\'{c}} Jakobsen and J{\'{o}}nas Sn{\ae}björnsson}, title = {Flow distortion recorded by sonic anemometers on a long-span bridge: Towards a better modelling of the dynamic wind load in full-scale}, journal = {Journal of Sound and Vibration} }