Prediction of Jakarta's Air Quality Using a Stacking Framework of CLSTM, CatBoost, SVR, and XGBoost

Prediction of Jakarta's Air Quality Using a Stacking Framework of CLSTM, CatBoost, SVR, and XGBoost

Air quality prediction, particularly in estimating PM10 particle concentration, is a significant challenge in major cities like Jakarta, which experience high levels of air pollution. This study aims to develop an air quality prediction model using an innovative stacking framework that combines s...

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Main Authors: Usman, Syapotro, Silvia, Ratna, M., Muflih, Haldi, Budiman, M. Rezqy, Noor Ridha, Muhammad, Hamdani
格式: Article
語言:English
English
出版: INTI International University 2024
主題:
GE Environmental Sciences
QA75 Electronic computers. Computer science
QA76 Computer software
T Technology (General)
在線閱讀:http://eprints.intimal.edu.my/2045/1/jods2024_46.pdf
http://eprints.intimal.edu.my/2045/2/586
http://eprints.intimal.edu.my/2045/
http://ipublishing.intimal.edu.my/jods.html
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機構: INTI International University
語言: English
English
實物特徵
總結:Air quality prediction, particularly in estimating PM10 particle concentration, is a significant challenge in major cities like Jakarta, which experience high levels of air pollution. This study aims to develop an air quality prediction model using an innovative stacking framework that combines several machine learning algorithms, namely ConvLSTM, CatBoost, SVR, and XGBoost. The methodology employed in this research is an experimental approach, where each model is trained and tested individually before being integrated into the stacking framework. The dataset used was sourced from the Kaggle platform, containing historical air quality data in Jakarta. Performance evaluation was conducted by measuring the Root Mean Squared Error (RMSE) for each model. The results of the study showed that the ConvLSTM model produced an RMSE of 13.5168, CatBoost with an RMSE of 13.4113, and SVR with an RMSE of 14.2725. To improve prediction accuracy, the researchers employed a stacking approach of the four models (ConvLSTM, CatBoost, SVR, and XGBoost), which yielded a much lower RMSE of 0.8093. Thus, this stacking framework has proven to significantly enhance air quality prediction performance, particularly in predicting PM10 concentrations in Jakarta.

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