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Accurate Prediction of Concentration Changes in Ozone as an Air Pollutant by Multiple Linear Regression and Artificial Neural Networks

Author

Listed:
  • Svajone Bekesiene

    (General Jonas Zemaitis Military Academy of Lithuania, Silo 5a, 10322 Vilnius, Lithuania)

  • Ieva Meidute-Kavaliauskiene

    (General Jonas Zemaitis Military Academy of Lithuania, Silo 5a, 10322 Vilnius, Lithuania)

  • Vaida Vasiliauskiene

    (General Jonas Zemaitis Military Academy of Lithuania, Silo 5a, 10322 Vilnius, Lithuania)

Abstract

This study considers the usage of multilinear regression and artificial neural network modelling to forecast ozone concentrations with regard to weather-related indicators (wind speed, wind direction, relative humidity and temperature). Initial data were obtained by measuring the meteorological parameters using the PC Radio Weather Station. Ozone concentrations near high-voltage lines were measured using RS1003 and at a 220 m distance using ML9811. Neural network models such as the multilayer perceptron and radial basis function neural networks were constructed. The prognostic capacities of the designed models were assessed by comparing the result data by way of the square of the coefficient of multiple correlations ( R 2 ) and mean square error (MSE) values. The number of hidden neurons was optimised by decreasing an error function that recorded the number of units in the hidden layers to the precision of the expanded networks. The neural software IBM SPSS 26v was used for artificial neural network (ANN) modelling. The study demonstrated that the linear regression modelling approach was lacking in its capacity to predict the investigated ozone concentrations by used parameters, whereas the use of an ANN offered more precise outcomes. The conducted tests’ results established the strength of the designed artificial neural network models with irrelevant differences between detected and forecasted data.

Suggested Citation

  • Svajone Bekesiene & Ieva Meidute-Kavaliauskiene & Vaida Vasiliauskiene, 2021. "Accurate Prediction of Concentration Changes in Ozone as an Air Pollutant by Multiple Linear Regression and Artificial Neural Networks," Mathematics, MDPI, vol. 9(4), pages 1-21, February.
    • Handle: RePEc:gam:jmathe:v:9:y:2021:i:4:p:356-:d:497264
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    Citations

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    Cited by:

    1. NurIzzah M. Hashim & Norazian Mohamed Noor & Ahmad Zia Ul-Saufie & Andrei Victor Sandu & Petrica Vizureanu & György Deák & Marwan Kheimi, 2022. "Forecasting Daytime Ground-Level Ozone Concentration in Urbanized Areas of Malaysia Using Predictive Models," Sustainability, MDPI, vol. 14(13), pages 1-23, June.
    2. Svajone Bekesiene & Ieva Meidute-Kavaliauskiene, 2022. "Artificial Neural Networks for Modelling and Predicting Urban Air Pollutants: Case of Lithuania," Sustainability, MDPI, vol. 14(4), pages 1-24, February.
    3. Jelica Komarica & Draženko Glavić & Snežana Kaplanović, 2024. "Comparative Analysis of the Predictive Performance of an ANN and Logistic Regression for the Acceptability of Eco-Mobility Using the Belgrade Data Set," Data, MDPI, vol. 9(5), pages 1-22, May.
    4. Vitor Joao Pereira Domingues MARTINHO, 2023. "Energy Crops: Assessments In The European Union Agricultural Regions Through Machine Learning Approaches," Regional Science Inquiry, Hellenic Association of Regional Scientists, vol. 0(1), pages 29-42, June.
    5. Lili Li & Zhihui Mao & Jianjun Du & Tao Chen & Lu Cheng & Xiaocui Wen, 2022. "The Impact of COVID-19 Control Measures on Air Quality in Guangdong Province," Sustainability, MDPI, vol. 14(13), pages 1-14, June.

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