Developing effective optimized machine learning approaches for settlement prediction of shallow foundation
The precise assessment of shallow foundation settlement on cohesionless soils is a challenging geotechnical issue, primarily due to the significant uncertainties related to the factors influencing the settlement. This study aims to create an advanced hybrid machine learning methodology for accuratel...
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sg-ntu-dr.10356-1813722024-11-29T15:34:08Z Developing effective optimized machine learning approaches for settlement prediction of shallow foundation Khajehzadeh, Mohammad Keawsawasvong, Suraparb Kamchoom, Viroon Shi, Chao Khajehzadeh, Alimorad School of Civil and Environmental Engineering Engineering Hybrid metaheuristic Long short-term memory The precise assessment of shallow foundation settlement on cohesionless soils is a challenging geotechnical issue, primarily due to the significant uncertainties related to the factors influencing the settlement. This study aims to create an advanced hybrid machine learning methodology for accurately estimating shallow foundations' settlement (Sm). The initial contribution of the current research is developing and validating a robust hybrid optimization methodology based on an artificial electric field and single candidate optimizer (AEFSCO). This approach is thoroughly tested using various benchmark functions. AEFSCO will also be used to optimize three useful machine learning methods: long short-term memory (LSTM), support vector regression (SVR), and multilayer perceptron neural network (MLPNN) by adjusting their hyperparameters for predicting the settlement of shallow foundations. A database consisting of 189 individual case histories, conducted through various investigations, was used for training and testing the models. The database includes five input parameters and one output. These factors encompassed both the geometric characteristics of the foundation and the properties of the sandy soil. The results demonstrate that employing effective optimization strategies to adjust the ML models' hyperparameters can significantly improve the accuracy of predicted results. The AEFSCO has increased the coefficient of determination (R2) value of the MLPNN model by 9.3 %, the SVR model by 8 %, and the LSTM model by 22 %. Also, the LSTM-AEFSCO model is more accurate than the SVR-AEFSCO and MLPNN-AEFSCO models. This is shown by the fact that R2 went from 0.9494 to 0.9290 to 0.9903, which is an increase of 4.5 % and 6 %. Published version This work (Grant No. RGNS 65-112) was supported by Office of the Permanent Secretary, Ministry of Higher Education, Science, Research and Innovation (OPS MHESI), Thailand Science Research and Innovation (TSRI) and Thammasat University. 2024-11-27T02:34:47Z 2024-11-27T02:34:47Z 2024 Journal Article Khajehzadeh, M., Keawsawasvong, S., Kamchoom, V., Shi, C. & Khajehzadeh, A. (2024). Developing effective optimized machine learning approaches for settlement prediction of shallow foundation. Heliyon, 10(17), e36714-. https://dx.doi.org/10.1016/j.heliyon.2024.e36714 2405-8440 https://hdl.handle.net/10356/181372 10.1016/j.heliyon.2024.e36714 39296184 2-s2.0-85203019726 17 10 e36714 en Heliyon © 2024 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/). application/pdf |
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Engineering Hybrid metaheuristic Long short-term memory |
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Engineering Hybrid metaheuristic Long short-term memory Khajehzadeh, Mohammad Keawsawasvong, Suraparb Kamchoom, Viroon Shi, Chao Khajehzadeh, Alimorad Developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
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The precise assessment of shallow foundation settlement on cohesionless soils is a challenging geotechnical issue, primarily due to the significant uncertainties related to the factors influencing the settlement. This study aims to create an advanced hybrid machine learning methodology for accurately estimating shallow foundations' settlement (Sm). The initial contribution of the current research is developing and validating a robust hybrid optimization methodology based on an artificial electric field and single candidate optimizer (AEFSCO). This approach is thoroughly tested using various benchmark functions. AEFSCO will also be used to optimize three useful machine learning methods: long short-term memory (LSTM), support vector regression (SVR), and multilayer perceptron neural network (MLPNN) by adjusting their hyperparameters for predicting the settlement of shallow foundations. A database consisting of 189 individual case histories, conducted through various investigations, was used for training and testing the models. The database includes five input parameters and one output. These factors encompassed both the geometric characteristics of the foundation and the properties of the sandy soil. The results demonstrate that employing effective optimization strategies to adjust the ML models' hyperparameters can significantly improve the accuracy of predicted results. The AEFSCO has increased the coefficient of determination (R2) value of the MLPNN model by 9.3 %, the SVR model by 8 %, and the LSTM model by 22 %. Also, the LSTM-AEFSCO model is more accurate than the SVR-AEFSCO and MLPNN-AEFSCO models. This is shown by the fact that R2 went from 0.9494 to 0.9290 to 0.9903, which is an increase of 4.5 % and 6 %. |
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School of Civil and Environmental Engineering |
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School of Civil and Environmental Engineering Khajehzadeh, Mohammad Keawsawasvong, Suraparb Kamchoom, Viroon Shi, Chao Khajehzadeh, Alimorad |
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Article |
| author |
Khajehzadeh, Mohammad Keawsawasvong, Suraparb Kamchoom, Viroon Shi, Chao Khajehzadeh, Alimorad |
| author_sort |
Khajehzadeh, Mohammad |
| title |
Developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
| title_short |
Developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
| title_full |
Developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
| title_fullStr |
Developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
| title_full_unstemmed |
Developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
| title_sort |
developing effective optimized machine learning approaches for settlement prediction of shallow foundation |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181372 |
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1819112999763312640 |