Circle Chaotic Map Tuna Swarm Optimization (CCMTSO) Based Feature Selection and Deep Learning Approach for Air Quality Prediction

  • Swamy Aradhyamatada Department of Electronics & Communication, Proudha Devaraya Institute of Technology, Hosapete, Visvesveraya Technological University, Belagavi -590018. India http://orcid.org/0009-0002-9490-7852
  • Rohitha U.M. Department of Electronics & Communication, Proudha Devaraya Institute of Technology, Hosapete, Visvesveraya Technological University, Belagavi -590018. India http://orcid.org/0009-0007-6242-0050

Abstract

Air pollution has threatened human life in many countries worldwide due to human activity, industrialization, and urbanization over the past few decades. In air forecasting, particulate matter (PM2.5) is a significant health concern. Thus, PM2.5 concentrations must be accurately predicted to protect communities from air pollution. This work aims to increase air quality forecasting by predicting their quality. The significant achievement of this work was the design of a new FS (Feature selection) and prediction method for air quality. Circle Chaotic Map Tuna Swarm Optimization (CCMTSO) and FCNN-LSTM (Fully Convolutional Neural Network - Long short-term term Memory) based DL (Deep Learning) have been used to select features and estimate air quality prediction. The FCNN-LSTM algorithm is generated by CCMTSO using previous information from the target station and nearby stations with chosen attributes. The FCNN model uses geographical features to filter out pollution components, meteorological circumstances, and station interactions. Using the training set, the network is trained until convergence once the model's structure has been established. The suggested approach outperforms competing systems regarding the accuracy of PM2.5 prediction and effectiveness in extracting spatiotemporal data. Three metrics are employed to assess the efficiency of the proposed framework: Root Mean Squared Error (RMSE), coefficient of determination (R2 ), and Mean Absolute Error (MAE). The findings demonstrate that the results achieved by the proposed system are 7.214, 13.437, and 0.961 for MAE, RMSE, and R2 at a batch size of 128. Utilizing LSTM and FCNN, this algorithm can extract the temporal and spatial components of the information with good precision and reliability.

Published
2024-07-08
How to Cite
ARADHYAMATADA, Swamy; U.M., Rohitha. Circle Chaotic Map Tuna Swarm Optimization (CCMTSO) Based Feature Selection and Deep Learning Approach for Air Quality Prediction. Yugoslav Journal of Operations Research, [S.l.], v. 34, n. 4, p. 669-686, july 2024. ISSN 2334-6043. Available at: <https://yujor.fon.bg.ac.rs/index.php/yujor/article/view/1280>. Date accessed: 21 dec. 2024. doi: https://doi.org/10.2298/YJOR2402016024A.
Section
Special Issue

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