Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems
China, India, and the United States consume the most energy and emit the most CO2. According to datacommons.org, India's CO2 emission is 1.80 tnes per capita, which is harmful to living beings: hence, this study exhibits India's harmful CO2 emission effect and forecasts CO2 emission for th...
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Format: | Article |
Language: | English |
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Elsevier
2023-04-01
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Series: | Environmental Challenges |
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Online Access: | http://www.sciencedirect.com/science/article/pii/S2667010023000306 |
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author | Ashok Kumar Nanda Neelakandan. S Sachi Gupta Angel Latha Mary Saleth Ramya. S Siripuri Kiran |
author_facet | Ashok Kumar Nanda Neelakandan. S Sachi Gupta Angel Latha Mary Saleth Ramya. S Siripuri Kiran |
author_sort | Ashok Kumar Nanda |
collection | DOAJ |
description | China, India, and the United States consume the most energy and emit the most CO2. According to datacommons.org, India's CO2 emission is 1.80 tnes per capita, which is harmful to living beings: hence, this study exhibits India's harmful CO2 emission effect and forecasts CO2 emission for the next ten years using univariate time-series data from 1980 to 2019. A multilayer perceptron is used in this study to analyse 2099 experimental data of binary systems made up of CO2 and ionic liquids and predict solubility. 33 different types of ionic liquids are represented in the dataset, which spans a wide variety of solubilities, pressures, and temperatures. In recent decades, greenhouse gas (GHG) emissions have caused air pollution and environmental problems in several countries. A precise prediction is essential for managing and planning for the decrease of greenhouse gas emissions. Furthermore, the Modified Coyote Optimization Algorithm was used to extract required properties. The empirical data revealed that predictions obtained from Multi-Layer Perceptron's Neural Network (MPNN) were more accurate than those derived from other models. The MPNN-MCOA identified a link between CO2 emissions, economic growth, and entrepreneurship. Government, personal liberty, education, and pollution all have a negative correlation. We conclude by emphasising the critical role of machine learning in achieving carbon neutrality, from global-scale energy management to the revolutionary potential of atomic-scale MPNN-MCOA simulations for application development. As a result, one of the most reliable approaches for estimating greenhouse gas (GHG) emissions from agricultural regions and companies was recommended: the MPNN-MCOA model. The Artificial neural network is trained with three input combinations with three combinations of thermodynamic variables such as temperature (T), pressure (P), critical temperature (Tc), critical pressure, the critical compressibility factor (Zc), and the acentric factor (w). Moreover, the proposed MPNN–MCOA model demonstrates an improvement in the forecasting accuracy obtained from the LSTM, KNN, CNN, and MPNN–MCOA models by 50.82%, 34.91%, 44.19%, and 29.77% decrease in mean square error, respectively. |
first_indexed | 2024-04-09T12:53:54Z |
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institution | Directory Open Access Journal |
issn | 2667-0100 |
language | English |
last_indexed | 2024-04-09T12:53:54Z |
publishDate | 2023-04-01 |
publisher | Elsevier |
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series | Environmental Challenges |
spelling | doaj.art-89d75984f6564765ab3db66caa6741052023-05-14T04:30:07ZengElsevierEnvironmental Challenges2667-01002023-04-0111100708Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systemsAshok Kumar Nanda0Neelakandan. S1Sachi Gupta2Angel Latha Mary Saleth3Ramya. S4Siripuri Kiran5Department of CSE, B V Raju Institute of Technology, Narsapur Medak, Telangana, IndiaDepartment of Computer Science and Engineering, R.M.K Engineering College, Chennai, India; Corresponding author.Department of Information Technology, IMS Engineering College, Ghaziabad, IndiaDepartment of Computer Science and Business Systems, Sri Eshwar College of Engineering, IndiaDepartment of Electronics and Communication Engineering, R.V.College of Engineering, IndiaDepartment of CSE(Networks), Kakatiya Institute of Technology & Science, Warangal, Telangana 15, IndiaChina, India, and the United States consume the most energy and emit the most CO2. According to datacommons.org, India's CO2 emission is 1.80 tnes per capita, which is harmful to living beings: hence, this study exhibits India's harmful CO2 emission effect and forecasts CO2 emission for the next ten years using univariate time-series data from 1980 to 2019. A multilayer perceptron is used in this study to analyse 2099 experimental data of binary systems made up of CO2 and ionic liquids and predict solubility. 33 different types of ionic liquids are represented in the dataset, which spans a wide variety of solubilities, pressures, and temperatures. In recent decades, greenhouse gas (GHG) emissions have caused air pollution and environmental problems in several countries. A precise prediction is essential for managing and planning for the decrease of greenhouse gas emissions. Furthermore, the Modified Coyote Optimization Algorithm was used to extract required properties. The empirical data revealed that predictions obtained from Multi-Layer Perceptron's Neural Network (MPNN) were more accurate than those derived from other models. The MPNN-MCOA identified a link between CO2 emissions, economic growth, and entrepreneurship. Government, personal liberty, education, and pollution all have a negative correlation. We conclude by emphasising the critical role of machine learning in achieving carbon neutrality, from global-scale energy management to the revolutionary potential of atomic-scale MPNN-MCOA simulations for application development. As a result, one of the most reliable approaches for estimating greenhouse gas (GHG) emissions from agricultural regions and companies was recommended: the MPNN-MCOA model. The Artificial neural network is trained with three input combinations with three combinations of thermodynamic variables such as temperature (T), pressure (P), critical temperature (Tc), critical pressure, the critical compressibility factor (Zc), and the acentric factor (w). Moreover, the proposed MPNN–MCOA model demonstrates an improvement in the forecasting accuracy obtained from the LSTM, KNN, CNN, and MPNN–MCOA models by 50.82%, 34.91%, 44.19%, and 29.77% decrease in mean square error, respectively.http://www.sciencedirect.com/science/article/pii/S2667010023000306Co2 emissionForecastingMachine-learning algorithmsGreenhouse gas (GHG)Multi-layer perceptron's neural network (MPNN)Modified coyote optimization algorithm (MCOA) |
spellingShingle | Ashok Kumar Nanda Neelakandan. S Sachi Gupta Angel Latha Mary Saleth Ramya. S Siripuri Kiran Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems Environmental Challenges Co2 emission Forecasting Machine-learning algorithms Greenhouse gas (GHG) Multi-layer perceptron's neural network (MPNN) Modified coyote optimization algorithm (MCOA) |
title | Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems |
title_full | Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems |
title_fullStr | Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems |
title_full_unstemmed | Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems |
title_short | Multi-layer perceptron's neural network with optimization algorithm for greenhouse gas forecasting systems |
title_sort | multi layer perceptron s neural network with optimization algorithm for greenhouse gas forecasting systems |
topic | Co2 emission Forecasting Machine-learning algorithms Greenhouse gas (GHG) Multi-layer perceptron's neural network (MPNN) Modified coyote optimization algorithm (MCOA) |
url | http://www.sciencedirect.com/science/article/pii/S2667010023000306 |
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