Application of machine learning to predict hospital visits for respiratory diseases using meteorological and air pollution factors in Linyi, China

Yang, Jing; Xu, Xin; Ma, Xiaotian; Wang, Zhaotong; You, Qian; Shan, Wanyue; Yang, Ying; Xin, Bo; Yin, Chen

doi:10.1007/s11356-023-28682-8

Environ Sci Pollut Res

2023

DOI: 10.1007/s11356-023-28682-8

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Application of machine learning to predict hospital visits for respiratory diseases using meteorological and air pollution factors in Linyi, China

Jing Yang

Xin Xu

Xiaotian Ma

et al.

Abstract: Urbanization and industrial development have resulted in increased air pollution, which is concerning for public health. This study evaluated the effect of meteorological factors and air pollution on hospital visits for respiratory diseases (pneumonia, acute upper respiratory infections, and chronic lower respiratory diseases). The test dataset comprised meteorological parameters, air pollutant concentrations, and outpatient hospital visits for respiratory diseases in Linyi, China from January 1, 2016 to Augus… Show more

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2024

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Cited by 2 publications

References 79 publications

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Integrating discrete-event simulation and artificial intelligence for shortening bed waiting times in hospitalization departments during respiratory disease seasons

Ortiz-Barrios,

Ishizaka,

Barbati

et al. 2024

Computers & Industrial Engineering

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Integrating discrete-event simulation and artificial intelligence for shortening bed waiting times in hospitalization departments during respiratory disease seasons

Ortiz-Barrios,

Ishizaka,

Barbati

et al. 2024

Computers & Industrial Engineering

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Forecasting hospital discharges for respiratory conditions in Costa Rica using climate and pollution data

Chou-Chen,

Barboza

2024

MBE

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<p>Respiratory diseases represent one of the most significant economic burdens on healthcare systems worldwide. The variation in the increasing number of cases depends greatly on climatic seasonal effects, socioeconomic factors, and pollution. Therefore, understanding these variations and obtaining precise forecasts allows health authorities to make correct decisions regarding the allocation of limited economic and human resources. We aimed to model and forecast weekly hospitalizations due to respiratory conditions in seven regional hospitals in Costa Rica using four statistical learning techniques (Random Forest, XGboost, Facebook's Prophet forecasting model, and an ensemble method combining the above methods), along with 22 climate change indices and aerosol optical depth as an indicator of pollution. Models were trained using data from 2000 to 2018 and were evaluated using data from 2019 as testing data. During the training period, we set up 2-year sliding windows and a 1-year assessment period, along with the grid search method to optimize hyperparameters for each model. The best model for each region was selected using testing data, based on predictive precision and to prevent overfitting. Prediction intervals were then computed using conformal inference. The relative importance of all climatic variables was computed for the best model, and similar patterns in some of the seven regions were observed based on the selected model. Finally, reliable predictions were obtained for each of the seven regional hospitals.</p>

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Application of machine learning to predict hospital visits for respiratory diseases using meteorological and air pollution factors in Linyi, China

Cited by 2 publications

References 79 publications

Integrating discrete-event simulation and artificial intelligence for shortening bed waiting times in hospitalization departments during respiratory disease seasons

Integrating discrete-event simulation and artificial intelligence for shortening bed waiting times in hospitalization departments during respiratory disease seasons

Forecasting hospital discharges for respiratory conditions in Costa Rica using climate and pollution data

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