Change point detection in brucellosis time series from 2010 to 2023 in Xinjiang China using the BEAST algorithm

Change point detection in brucellosis time series from 2010 to 2023 in Xinjiang China using the BEAST algorithm

Abstract Brucellosis is a significant global challenge, but there has been a lack of epidemiological studies on brucellosis in Xinjiang from a change point perspective. This study aims to bridge this gap by employing sequence decomposition and identifying significant change points, with datasets sou...

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Bibliographic Details
Main Authors: Liping Yang, Chunxia Wang, Pan Zhou, Na Xie, Maozai Tian, Kai Wang
Format: Article
Language:English
Published: Nature Portfolio 2025-01-01
Series:Scientific Reports
Subjects:
Brucellosis
Change point analysis
Seasonality
Trend
Online Access:https://doi.org/10.1038/s41598-025-88508-0
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Summary:Abstract Brucellosis is a significant global challenge, but there has been a lack of epidemiological studies on brucellosis in Xinjiang from a change point perspective. This study aims to bridge this gap by employing sequence decomposition and identifying significant change points, with datasets sourced from the Xinjiang Disease Prevention and Control Information System. This study employed the BEAST algorithm to decompose the brucellosis time series in Xinjiang from 2010 to 2023, while simultaneously identifying change points in the decomposed seasonal and trend components. The probability of four change points occurring within the seasonal component is 0.8950. And the locations where these four change points occur and the probabilities associated with each change point are August 2013 ( $$\:Pr=0.9825$$ ), August 2017 ( $$\:Pr=0.3825$$ ), February 2022 ( $$\:Pr=0.3999$$ ), and May 2023 ( $$\:Pr=0.4146$$ ), respectively. The probability of the existence of five change points in the trend factors of brucellosis in Xinjiang is highest ( $$\:Pr=0.3250$$ ). The times at which these five change points occur, along with the probabilities of change at those moments, are as follows: March 2013 ( $$\:Pr=0.8262$$ ), August 2015 ( $$\:Pr=0.6311$$ ), July 2017 ( $$\:Pr=0.9833$$ ), February 2020 ( $$\:Pr=0.8387$$ ), and May 2023 ( $$\:Pr=0.3714$$ ). Change point analysis holds significant utility within the field of epidemiology. These discoveries furnish pivotal insights for epidemiological investigations and the development of early warning systems tailored to brucellosis.
ISSN:2045-2322

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