Modelling time-varying first and second-order structure of time series via wavelets and differencing
Modelling time-varying first and second-order structure of time series via wavelets and differencing
Most time series observed in practice exhibit time-varying trend (first-order) and autocovariance (second-order) behaviour. Differencing is a commonly-used technique to remove the trend in such series, in order to estimate the time-varying second-order structure (of the differenced series). However, often we require inference on the second-order behaviour of the original series, for example, when performing trend estimation. In this article, we propose a method, using differencing, to jointly estimate the time-varying trend and second-order structure of a nonstationary time series, within the locally stationary wavelet modelling framework. We develop a wavelet-based estimator of the second-order structure of the original time series based on the differenced estimate, and show how this can be incorporated into the estimation of the trend of the time series. We perform a simulation study to investigate the performance of the methodology, and demonstrate the utility of the method by analysing data examples from environmental and biomedical science.
4398 - 4448
McGonigle, Euan T.
1eec7a96-1343-4bf5-a131-432fe50842cd
Killick, Rebecca
c954436d-0b66-4ceb-bc63-bdf247ebee48
Nunes, Matthew
925d2e9f-8185-4479-aaf4-55fa45b83e1f
22 August 2022
McGonigle, Euan T.
1eec7a96-1343-4bf5-a131-432fe50842cd
Killick, Rebecca
c954436d-0b66-4ceb-bc63-bdf247ebee48
Nunes, Matthew
925d2e9f-8185-4479-aaf4-55fa45b83e1f
McGonigle, Euan T., Killick, Rebecca and Nunes, Matthew
(2022)
Modelling time-varying first and second-order structure of time series via wavelets and differencing.
Electronic Journal of Statistics, 16 (2), .
(doi:10.1214/22-EJS2044).
Abstract
Most time series observed in practice exhibit time-varying trend (first-order) and autocovariance (second-order) behaviour. Differencing is a commonly-used technique to remove the trend in such series, in order to estimate the time-varying second-order structure (of the differenced series). However, often we require inference on the second-order behaviour of the original series, for example, when performing trend estimation. In this article, we propose a method, using differencing, to jointly estimate the time-varying trend and second-order structure of a nonstationary time series, within the locally stationary wavelet modelling framework. We develop a wavelet-based estimator of the second-order structure of the original time series based on the differenced estimate, and show how this can be incorporated into the estimation of the trend of the time series. We perform a simulation study to investigate the performance of the methodology, and demonstrate the utility of the method by analysing data examples from environmental and biomedical science.
Text
22-EJS2044
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More information
Accepted/In Press date: 17 August 2021
Published date: 22 August 2022
Identifiers
Local EPrints ID: 483360
URI: http://eprints.soton.ac.uk/id/eprint/483360
ISSN: 1935-7524
PURE UUID: 53694de9-af43-4855-8485-a611da4224b7
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Date deposited: 30 Oct 2023 09:28
Last modified: 17 Mar 2024 04:20
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Contributors
Author:
Euan T. McGonigle
Author:
Rebecca Killick
Author:
Matthew Nunes
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