Szczegóły publikacji

Opis bibliograficzny

Comparison of selected ensemble supervised learning algorithms used for meteorological normalisation of particulate matter ($PM_{10}$) / Karolina Góra, Mateusz RZESZUTEK // Sustainability [Dokument elektroniczny]. — Czasopismo elektroniczne ; ISSN 2071-1050. — 2025 — vol. 17 iss. 12 art. no. 5274, s. 1–16. — Wymagania systemowe: Adobe Reader. — Bibliogr. s. 14–16, Abstr. — Publikacja dostępna online od: 2025-06-07

Autorzy (2)

Słowa kluczowe

supervised learningair qualityair pollution trendstree based methodsmeteorological normalisationPM10 particulate matter

Dane bibliometryczne

ID BaDAP160637
Data dodania do BaDAP2025-06-27
Tekst źródłowyURL
DOI10.3390/su17125274
Rok publikacji2025
Typ publikacjiartykuł w czasopiśmie
Otwarty dostęptak
Creative Commons
Czasopismo/seriaSustainability

Abstract

Air pollution, particularly PM10 particulate matter, poses significant health risks related to respiratory and cardiovascular diseases as well as cancer. Accurate identification of PM10 reduction factors is therefore essential for developing effective sustainable development strategies. According to the current state of knowledge, machine learning methods are most frequently employed for this purpose due to their superior performance compared to classical statistical approaches. This study evaluated the performance of three machine learning algorithms—Decision Tree (CART), Random Forest, and Cubist Rule—in predicting PM10 concentrations and estimating long-term trends following meteorological normalisation. The research focused on Tarnów, Poland (2010–2022), with comprehensive consideration of meteorological variability. The results demonstrated superior accuracy for the Random Forest and Cubist models (R2 ~0.88–0.89, RMSE ~14 μg/m3) compared to CART (RMSE 19.96 μg/m3). Air temperature and boundary layer height emerged as the most significant predictive variables across all algorithms. The Cubist algorithm proved particularly effective in detecting the impact of policy interventions, making it valuable for air quality trend analysis. While the study confirmed a statistically significant annual decrease in PM10 concentrations (0.83–1.03 μg/m3), pollution levels still exceeded both the updated EU air quality standards from 2024 (Directive (EU) 2024/2881), which will come into force in 2030, and the more stringent WHO guidelines from 2021.

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