Proposal of a methodology for prediction of heavy metals concentration based on PM2.5 concentration and meteorological variables using machine learning

被引:0
作者
Shin-Young Park
Hye-Won Lee
Jaymin Kwon
Sung-Won Yoon
Cheol-Min Lee
机构
[1] Seokyeong University,Department of Environmental & Chemical Engineering
[2] Institute of Environment & Health,Department of Public Health
[3] California State University,Department of Nano, Chemical and Biological Engineering
[4] Seokyeong University,undefined
来源
Asian Journal of Atmospheric Environment | / 18卷
关键词
Prediction model; Ensemble model; Artificial neural networks; Heavy metals; PM; Meteorological factors;
D O I
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中图分类号
学科分类号
摘要
In this study, we developed a prediction model for heavy metal concentrations using PM2.5 concentrations and meteorological variables. Data was collected from five sites, encompassing meteorological factors, PM2.5, and 18 metals over 2 years. The study employed four analytical methods: multiple linear regression (MLR), random forest regression (RFR), gradient boosting, and artificial neural networks (ANN). RFR was the best predictor for most metals, and gradient boosting and ANN were optimal for certain metals like Al, Cu, As, Mo, Zn, and Cd. Upon evaluating the final model’s predicted values against the actual measurements, differences in the concentration distribution between measurement locations were observed for Mn, Fe, Cu, Ba, and Pb, indicating varying prediction performances among sites. Additionally, Al, As, Cd, and Ba showed significant differences in prediction performance across seasons. The developed model is expected to overcome the technical limitations involved in measuring and analyzing heavy metal concentrations. It could further be utilized to obtain fundamental data for studying the health effects of exposure to hazardous substances such as heavy metals.
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