Application of ensemble learning techniques to model the atmospheric concentration of SO2

A. Masih

Application of ensemble learning techniques to model the atmospheric concentration of SO2

Publish place: Global Journal of Environmental Science and Management، Vol: 5، Issue: 3

Publish Year: 1398

نوع سند: مقاله ژورنالی

زبان: English

This Paper With 10 Page And PDF Format Ready To Download

دریافت فایل کامل Paper

Certificate
من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:

https://civilica.com/doc/862583

شناسه ملی سند علمی:

JR_GJESM-5-3_004

تاریخ نمایه سازی: 18 خرداد 1398

Abstract:

In view of pollution prediction modeling, the study adopts homogenous (random forest, bagging, and additive regression) and heterogeneous (voting) ensemble classifiers to predict the atmospheric concentration of Sulphur dioxide. For model validation, results were compared against widely known single base classifiers such as support vector machine, multilayer perceptron, linear regression and regression tree using M5 algorithm. The prediction of Sulphur dioxide was based on atmospheric pollutants and meteorological parameters. While, the model performance was assessed by using four evaluation measures namely Correlation coefficient, mean absolute error, root mean squared error and relative absolute error. The results obtained suggest that 1) homogenous ensemble classifier random forest performs better than single base statistical and machine learning algorithms; 2) employing single base classifiers within bagging as base classifier improves their prediction accuracy; and 3) heterogeneous ensemble algorithm voting have the capability to match or perform better than homogenous classifiers (random forest and bagging). In general, it demonstrates that the performance of ensemble classifiers random forest, bagging and voting can outperform single base traditional statistical and machine learning algorithms such as linear regression, support vector machine for regression and multilayer perceptron to model the atmospheric concentration of sulphur dioxide.

Keywords:

Air pollution modeling , Ensemble learning techniques , Multilayer Perceptron (MLP) , Random Forest , Bagging , Sulphur dioxide (SO2) , Support Vector Machine (SVM) , Voting

Authors

A. Masih

Department of System Analysis and Decision Making, Ural Federal University, Ekaterinburg, Russian Federation

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :

Abdul-Wahab, S.A.; Al-Alawi, S.M.. (2002). Assessment and prediction of tropospheric ...
Alfaro, E.; Garcı́a, N.; Gámez, M.; Elizondo, D., (2008). Bankruptcy ...
Baawain, M.S.; Al-Serihi, A.S., (2014). Systematic approach for the prediction ...
Balasubramanian, V.; Ho, S.S.; Vovk, V.,(2014). Conformal prediction for relaible ...
Bedoui, S.; Gomri, S.; Samet, H.; Kachouri, A., (2016). A ...
Brunekreef, B. and. (2002). Air pollution and health. The Lancet, ...
Brunelli, U.; Piazza, V.; Pignato, L.; Sorbello, F.; Vitabile, S., ...
Cannon, A.J.; Lord, E.R., (2000). Forecasting summertime surface-level ozone concentrations ...
Capilla, C., (2014). Multilayer perceptron and regression modeling to forecast ...
Chaloulakou, A.; Saisana, M.; Spyrellis, N., (2003). Comparative assessment of ...
Elangasinghe, M.A.; Singhal, N.; Dirks, K.N.; Salmond, J.A.; Samarasinghe, S., ...
Fathima, A.; Mangai, J.A.; Gulyani, B.B., (2014). An ensemble method ...
Gabralla, L.A.; Abraham, A., (2014). Prediction of oil prices using ...
Gardner, M.W.; Dorling, S.R., (1999). Neural network modeling and prediction ...
Grivas, G., and Chaloulakou, A. (2006). Artificial neural network models ...
Jiang, N.; Riley, M.L., (2015). Exploring the utility of the ...
Juhos, I.; Makra, L.; Tóth, B., (2008). Forecasting of traffic ...
Lu, W.Z.; Fan, H.Y.; Lo, S.M., (2003). Application of evolutionary ...
Lu, W.Z.; Wang, W.J.; Wang, X.K.; Xu, Z.B.; Leung, A.Y., ...
Lu, W.Z.; Wang, D., (2014). Learning machines: Rationale and application ...
Masih, A., (2018a). Thar Coalfield: Sustainable Development and an Open ...
Masih, A., (2018b). Modeling the atmospheric concentration of Carbon monoxide ...
Nawahda, A., (2016). An assessment of adding value of traffic ...
Palani, S.; Liong, S.Y.; Tkalich, P., (2008). An ANN application ...
Rahimi, A., (2017). Short-term prediction of NO2 and NOx concentrations ...
Riga, M.; Tzima, F.A.; Karatzas, K.; Mitkas, P.A., (2009). Development ...
Russo, A.; Soares, A.O., (2014). Hybrid model for urban air ...
Salnikov, V.G.; Karatayev, M.A., (2011). Impact of air pollution on ...
Samoli, E.; Atkinson, R.W.; Analitis, A.; Fuller, G.W.; Green, D.C.; ...
Schlink, U.; Dorling, S.; Pelikan, E.; Nunnari, G.; Cawley, G.; ...
Seinfeld, J.H., (1998). Atmospheric chemistry and physics: from air pollution ...
Shaban, K.B.: Kadri, A.; Rezk, E., (2016). Urban air pollution ...
Singh, K.P.; Gupta, S.; Rai, P., (2013). Identifying pollution sources ...
Singh, K.P.; Gupta, S.; Kumar, A.; Shukla, S.P., (2012). Linear ...
Tüfekci, P., (2014). Prediction of full load electrical power output ...
Loon, M.J.W.; Vautard, R.; Schaap, M.; Bergström, R.; Bessagnet, B.; ...
Wang, D.; Lu, W.Z., (2006). Interval estimation of urban ozone ...
Wang, W.; Men, C.; Lu, W., (2008). Online prediction model ...
WHO, (2014). WHO s ambient air pollution database Update 2014. ...
Windeatt, T., (2008). Ensemble MLP classifier design. Comput. Intell. Paradigms., ...
Xie, Y.; Zhao, L.; Xue, J.; Hu, Q.; Xu, X.; ...
Yang, P.; Hwa Yang, Y.; B Zhou, B.; Y Zomaya, ...
Yu, R.; Yang, Y.; Yang, L.; Han, G.; Move, O.A., ...
Zhan, Y.A., (2018). Spatiotemporal prediction of daily ambient ozone levels ...
HOW TO CITE THIS ARTICLE ...
Masih, A., (2019). Application of Ensemble learning techniques to model ...

نمایش کامل مراجع