A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm
Accurate forecasting of the air quality index (AQI) plays a crucial role in taking precautions against upcoming air pollution risks. However, air quality may fluctuate greatly in a certain period. Existing forecasting approaches always face the problem of losing valuable information on air quality s...
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sg-ntu-dr.10356-1720482023-11-20T07:01:45Z A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm Wang, Zicheng Gao, Ruobin Wang, Piao Chen, Huayou School of Civil and Environmental Engineering Engineering::Environmental engineering Air Quality Index Forecasting Ternary Interval-Valued Time Series Accurate forecasting of the air quality index (AQI) plays a crucial role in taking precautions against upcoming air pollution risks. However, air quality may fluctuate greatly in a certain period. Existing forecasting approaches always face the problem of losing valuable information on air quality status, even in the interval models of recent research. To address this issue, this paper suggests a new AQI forecasting perspective and paradigm built upon ternary interval-valued time series (TITS), multivariate variational mode decomposition (MVMD), multivariate relevance vector machine (MVRVM), mixed coding particle swarm optimization (MCPSO), and meteorological factors, which is able to capture the trend and volatility changes of AQI concurrently. The proposed paradigm involves four procedures: TITS construction in terms of the daily minimum, daily mean, and daily maximum AQI, multi-scale decomposition via MVMD, individual forecasting by MCPSO-optimized MVRVM, and ensemble learning forecasting using a simple addition approach. Experiments based on datasets collected from four municipalities in China demonstrated that the presented paradigm can hit higher accuracy than other comparable models, and the application analysis also shows that it has application potential in the AQI online forecasting system. To conclude, the proposed paradigm provides a promising alternative for AQI time series forecasting. This work was supported by the National Natural Science Foundation of China (Nos. 71871001, 72001001, 72171002), Graduate Scientific Research Project of Anhui Colleges (YJS20210078), Anhui Provincial Natural Science Foundation (Nos. 2008085QG334, 2108085QG290), Anhui Provincial Philosophy and Social Science Program (AHSKQ2020D10), Provincial Natural Science Research Project of Anhui Colleges (KJ2020A0004), and China Scholarship Council (File No. 202206500001). 2023-11-20T07:01:45Z 2023-11-20T07:01:45Z 2023 Journal Article Wang, Z., Gao, R., Wang, P. & Chen, H. (2023). A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm. Technological Forecasting and Social Change, 191, 122504-. https://dx.doi.org/10.1016/j.techfore.2023.122504 0040-1625 https://hdl.handle.net/10356/172048 10.1016/j.techfore.2023.122504 2-s2.0-85150364894 191 122504 en Technological Forecasting and Social Change © 2023 Elsevier Inc. All rights reserved. |
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Engineering::Environmental engineering Air Quality Index Forecasting Ternary Interval-Valued Time Series |
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Engineering::Environmental engineering Air Quality Index Forecasting Ternary Interval-Valued Time Series Wang, Zicheng Gao, Ruobin Wang, Piao Chen, Huayou A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| description |
Accurate forecasting of the air quality index (AQI) plays a crucial role in taking precautions against upcoming air pollution risks. However, air quality may fluctuate greatly in a certain period. Existing forecasting approaches always face the problem of losing valuable information on air quality status, even in the interval models of recent research. To address this issue, this paper suggests a new AQI forecasting perspective and paradigm built upon ternary interval-valued time series (TITS), multivariate variational mode decomposition (MVMD), multivariate relevance vector machine (MVRVM), mixed coding particle swarm optimization (MCPSO), and meteorological factors, which is able to capture the trend and volatility changes of AQI concurrently. The proposed paradigm involves four procedures: TITS construction in terms of the daily minimum, daily mean, and daily maximum AQI, multi-scale decomposition via MVMD, individual forecasting by MCPSO-optimized MVRVM, and ensemble learning forecasting using a simple addition approach. Experiments based on datasets collected from four municipalities in China demonstrated that the presented paradigm can hit higher accuracy than other comparable models, and the application analysis also shows that it has application potential in the AQI online forecasting system. To conclude, the proposed paradigm provides a promising alternative for AQI time series forecasting. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wang, Zicheng Gao, Ruobin Wang, Piao Chen, Huayou |
| format |
Article |
| author |
Wang, Zicheng Gao, Ruobin Wang, Piao Chen, Huayou |
| author_sort |
Wang, Zicheng |
| title |
A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| title_short |
A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| title_full |
A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| title_fullStr |
A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| title_full_unstemmed |
A new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| title_sort |
new perspective on air quality index time series forecasting: a ternary interval decomposition ensemble learning paradigm |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172048 |
| _version_ |
1783955625682665472 |