Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network

Advanced human activities, including�modern agricultural practices, are responsible for alteration of natural concentration of nitrogen compounds in rivers. Future prediction of nitrogen compound concentrations (especially nitrate-nitrogen and ammonia-nitrogen) are important for countries where hous...

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Main Authors: Kumar P., Lai S.H., Mohd N.S., Kamal M.R., Ahmed A.N., Sherif M., Sefelnasr A., El-shafie A.
Other Authors: 57206939156
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Published: Taylor and Francis Ltd. 2023
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spelling my.uniten.dspace-264722023-05-29T17:10:55Z Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network Kumar P. Lai S.H. Mohd N.S. Kamal M.R. Ahmed A.N. Sherif M. Sefelnasr A. El-shafie A. 57206939156 36102664300 57192892703 6507669917 57214837520 7005414714 6505592467 16068189400 Advanced human activities, including�modern agricultural practices, are responsible for alteration of natural concentration of nitrogen compounds in rivers. Future prediction of nitrogen compound concentrations (especially nitrate-nitrogen and ammonia-nitrogen) are important for countries where household water is obtained from rivers after treatment. Increased concentrations of nitrogen compounds result in the suspension of household water supplies. Artificial Neural Networks (ANNs) have already been deployed for the prediction of nitrogen compounds in various countries. But standalone ANN have several limitations. However, the limitations of ANNs can be resolved using hybrid models. This study proposes a new ACO-ENN hybrid model developed by integrating Ant Colony Optimization (ACO) with an Elman Neural Network (ENN). The developed ACO-ENN hybrid model was used to improve the prediction results of nitrate-nitrogen and ammonia-nitrogen prediction models. The results of new hybrid models were compared with multilayer ANN models and standalone ENN models. There was a significant improvement in the mean square errors�(MSE)�(0.196?0.049?0.012, i.e. ANN?ENN?Hybrid), mean absolute errors�(MAE)�(0.271?0.094?0.069) and Nash�Sutcliffe efficiencies�(NSE)�(0.7255?0.9321?0.984). The hybrid model had outstanding performance compared with the ANN and ENN models. Hence, the prediction�accuracy�of nitrate-nitrogen and ammonia-nitrogen has been improved using new ACO-ENN hybrid model. � 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group. Final 2023-05-29T09:10:55Z 2023-05-29T09:10:55Z 2021 Article 10.1080/19942060.2021.1990134 2-s2.0-85120165210 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85120165210&doi=10.1080%2f19942060.2021.1990134&partnerID=40&md5=f1001468d1d2bd483794f9db2a6ef17c https://irepository.uniten.edu.my/handle/123456789/26472 15 1 1843 1867 All Open Access, Gold, Green Taylor and Francis Ltd. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Advanced human activities, including�modern agricultural practices, are responsible for alteration of natural concentration of nitrogen compounds in rivers. Future prediction of nitrogen compound concentrations (especially nitrate-nitrogen and ammonia-nitrogen) are important for countries where household water is obtained from rivers after treatment. Increased concentrations of nitrogen compounds result in the suspension of household water supplies. Artificial Neural Networks (ANNs) have already been deployed for the prediction of nitrogen compounds in various countries. But standalone ANN have several limitations. However, the limitations of ANNs can be resolved using hybrid models. This study proposes a new ACO-ENN hybrid model developed by integrating Ant Colony Optimization (ACO) with an Elman Neural Network (ENN). The developed ACO-ENN hybrid model was used to improve the prediction results of nitrate-nitrogen and ammonia-nitrogen prediction models. The results of new hybrid models were compared with multilayer ANN models and standalone ENN models. There was a significant improvement in the mean square errors�(MSE)�(0.196?0.049?0.012, i.e. ANN?ENN?Hybrid), mean absolute errors�(MAE)�(0.271?0.094?0.069) and Nash�Sutcliffe efficiencies�(NSE)�(0.7255?0.9321?0.984). The hybrid model had outstanding performance compared with the ANN and ENN models. Hence, the prediction�accuracy�of nitrate-nitrogen and ammonia-nitrogen has been improved using new ACO-ENN hybrid model. � 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.
author2 57206939156
author_facet 57206939156
Kumar P.
Lai S.H.
Mohd N.S.
Kamal M.R.
Ahmed A.N.
Sherif M.
Sefelnasr A.
El-shafie A.
format Article
author Kumar P.
Lai S.H.
Mohd N.S.
Kamal M.R.
Ahmed A.N.
Sherif M.
Sefelnasr A.
El-shafie A.
spellingShingle Kumar P.
Lai S.H.
Mohd N.S.
Kamal M.R.
Ahmed A.N.
Sherif M.
Sefelnasr A.
El-shafie A.
Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network
author_sort Kumar P.
title Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network
title_short Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network
title_full Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network
title_fullStr Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network
title_full_unstemmed Enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an Elman neural network
title_sort enhancement of nitrogen prediction accuracy through a new hybrid model using ant colony optimization and an elman neural network
publisher Taylor and Francis Ltd.
publishDate 2023
_version_ 1806425979931852800
score 13.222552