Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm
The horse herd optimization algorithm (HOA), one of the more contemporary metaheuristic algorithms, has demonstrated superior performance in a number of challenging optimization tasks. In the present work, the descriptor selection issue is resolved by classifying different essential oil retention in...
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2023
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my.utm.1067302024-07-28T06:10:26Z http://eprints.utm.my/106730/ Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm Alharthi, Aiedh Mrisi Kadir, Dler Hussein Al-Fakih, Abdo Mohammed Algamal, Zakariya Y. Al-Thanoon, Niam Abdulmunim Khalid Qasim, Maimoonah QD Chemistry The horse herd optimization algorithm (HOA), one of the more contemporary metaheuristic algorithms, has demonstrated superior performance in a number of challenging optimization tasks. In the present work, the descriptor selection issue is resolved by classifying different essential oil retention indices using the binary form, BHOA. Based on internal and external prediction criteria, Z-shape transfer functions (ZTF) were tested to verify their efficiency in improving BHOA performance in QSPR modelling for predicting retention indices of essential oils. The evaluation criteria involved the mean-squared error of the training and testing datasets (MSE), and leave-one-out internal and external validation (Q 2). The degree of convergence of the proposed Z-shaped transfer functions was compared. In addition, K-fold cross validation with k = 5 was applied. The results show that ZTF, especially ZTF1, greatly improves the performance of the original BHOA. Comparatively speaking, ZTF, especially ZTF1, exhibits the fastest convergence behaviour of the binary algorithms. It chooses the fewest descriptors and requires the fewest iterations to achieve excellent prediction performance. Taylor & Francis Group 2023 Article PeerReviewed Alharthi, Aiedh Mrisi and Kadir, Dler Hussein and Al-Fakih, Abdo Mohammed and Algamal, Zakariya Y. and Al-Thanoon, Niam Abdulmunim and Khalid Qasim, Maimoonah (2023) Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm. SAR and QSAR in Environmental Research, 34 (10). pp. 831-846. ISSN 1062-936X http://dx.doi.org/10.1080/1062936X.2023.2261855 DOI:10.1080/1062936X.2023.2261855 |
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QD Chemistry Alharthi, Aiedh Mrisi Kadir, Dler Hussein Al-Fakih, Abdo Mohammed Algamal, Zakariya Y. Al-Thanoon, Niam Abdulmunim Khalid Qasim, Maimoonah Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| description |
The horse herd optimization algorithm (HOA), one of the more contemporary metaheuristic algorithms, has demonstrated superior performance in a number of challenging optimization tasks. In the present work, the descriptor selection issue is resolved by classifying different essential oil retention indices using the binary form, BHOA. Based on internal and external prediction criteria, Z-shape transfer functions (ZTF) were tested to verify their efficiency in improving BHOA performance in QSPR modelling for predicting retention indices of essential oils. The evaluation criteria involved the mean-squared error of the training and testing datasets (MSE), and leave-one-out internal and external validation (Q 2). The degree of convergence of the proposed Z-shaped transfer functions was compared. In addition, K-fold cross validation with k = 5 was applied. The results show that ZTF, especially ZTF1, greatly improves the performance of the original BHOA. Comparatively speaking, ZTF, especially ZTF1, exhibits the fastest convergence behaviour of the binary algorithms. It chooses the fewest descriptors and requires the fewest iterations to achieve excellent prediction performance. |
| format |
Article |
| author |
Alharthi, Aiedh Mrisi Kadir, Dler Hussein Al-Fakih, Abdo Mohammed Algamal, Zakariya Y. Al-Thanoon, Niam Abdulmunim Khalid Qasim, Maimoonah |
| author_facet |
Alharthi, Aiedh Mrisi Kadir, Dler Hussein Al-Fakih, Abdo Mohammed Algamal, Zakariya Y. Al-Thanoon, Niam Abdulmunim Khalid Qasim, Maimoonah |
| author_sort |
Alharthi, Aiedh Mrisi |
| title |
Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| title_short |
Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| title_full |
Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| title_fullStr |
Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| title_full_unstemmed |
Quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| title_sort |
quantitative structure-property relationship modelling for predicting retention indices of essential oils based on an improved horse herd optimization algorithm |
| publisher |
Taylor & Francis Group |
| publishDate |
2023 |
| url |
http://eprints.utm.my/106730/ http://dx.doi.org/10.1080/1062936X.2023.2261855 |
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1805880860171304960 |