A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost
The resilient modulus (MR) of pavement subgrade soils is an index describing the structural response of flexible pavement foundations. Commonly, MR under different conditions of confining pressures and deviatoric stresses are tested by cyclic triaxial compressive experiments. However, such experimen...
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my.um.eprints.455752024-11-04T08:13:31Z http://eprints.um.edu.my/45575/ A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost He, Biao Armaghani, Danial Jahed Tsoukalas, Markos Z. Qi, Chongchong Bhatawdekar, Ramesh Murlidhar Asteris, Panagiotis G. TA Engineering (General). Civil engineering (General) The resilient modulus (MR) of pavement subgrade soils is an index describing the structural response of flexible pavement foundations. Commonly, MR under different conditions of confining pressures and deviatoric stresses are tested by cyclic triaxial compressive experiments. However, such experiments are elaborate, expensive, and time-consuming, so developing more flexible and efficient approaches is imperative. This study investigates the potential application of a tree-based model termed extreme gradient boosting (XGBoost) on predicting MR. First, a dataset containing 891 samples of repeated load triaxial tests and the characteristics of subgrade soil is collected. Then, an XGBoost model, combined with a feature selection technique (Exhaustive Feature Selector (EFS)) and an optimization algorithm (Jellyfish Swarm Optimizer (JSO)), is trained on the collected dataset. EFS is used to identify the most suitable combinations of factors for MR prediction and JSO is applied to determine the hyper-parameters of the XGBoost model, which aim to establish a robust XGBoost model with the best predictive capacity. Lastly, this study employs two advanced model interpretation techniques to identify the predominant factors affecting MR prediction based on the established XGBoost model. The results indicated that the EFS approach can effectively ascertain the best combination of factors for MR prediction; the JSO algorithm can effectively capture the optimal hyper-parameters of the XGBoost model; the resultant XGBoost model achieved a favorable capacity for MR prediction. Moreover, three primary factors affecting MR prediction are unveiled, which are the degree of soil saturation (Sr), confining stress (sigma 3), and plasticity index (PI). Elsevier 2024-03 Article PeerReviewed He, Biao and Armaghani, Danial Jahed and Tsoukalas, Markos Z. and Qi, Chongchong and Bhatawdekar, Ramesh Murlidhar and Asteris, Panagiotis G. (2024) A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost. Transportation Geotechnics, 45. p. 101216. ISSN 2214-3912, DOI https://doi.org/10.1016/j.trgeo.2024.101216 <https://doi.org/10.1016/j.trgeo.2024.101216>. https://doi.org/10.1016/j.trgeo.2024.101216 10.1016/j.trgeo.2024.101216 |
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TA Engineering (General). Civil engineering (General) He, Biao Armaghani, Danial Jahed Tsoukalas, Markos Z. Qi, Chongchong Bhatawdekar, Ramesh Murlidhar Asteris, Panagiotis G. A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost |
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The resilient modulus (MR) of pavement subgrade soils is an index describing the structural response of flexible pavement foundations. Commonly, MR under different conditions of confining pressures and deviatoric stresses are tested by cyclic triaxial compressive experiments. However, such experiments are elaborate, expensive, and time-consuming, so developing more flexible and efficient approaches is imperative. This study investigates the potential application of a tree-based model termed extreme gradient boosting (XGBoost) on predicting MR. First, a dataset containing 891 samples of repeated load triaxial tests and the characteristics of subgrade soil is collected. Then, an XGBoost model, combined with a feature selection technique (Exhaustive Feature Selector (EFS)) and an optimization algorithm (Jellyfish Swarm Optimizer (JSO)), is trained on the collected dataset. EFS is used to identify the most suitable combinations of factors for MR prediction and JSO is applied to determine the hyper-parameters of the XGBoost model, which aim to establish a robust XGBoost model with the best predictive capacity. Lastly, this study employs two advanced model interpretation techniques to identify the predominant factors affecting MR prediction based on the established XGBoost model. The results indicated that the EFS approach can effectively ascertain the best combination of factors for MR prediction; the JSO algorithm can effectively capture the optimal hyper-parameters of the XGBoost model; the resultant XGBoost model achieved a favorable capacity for MR prediction. Moreover, three primary factors affecting MR prediction are unveiled, which are the degree of soil saturation (Sr), confining stress (sigma 3), and plasticity index (PI). |
| format |
Article |
| author |
He, Biao Armaghani, Danial Jahed Tsoukalas, Markos Z. Qi, Chongchong Bhatawdekar, Ramesh Murlidhar Asteris, Panagiotis G. |
| author_facet |
He, Biao Armaghani, Danial Jahed Tsoukalas, Markos Z. Qi, Chongchong Bhatawdekar, Ramesh Murlidhar Asteris, Panagiotis G. |
| author_sort |
He, Biao |
| title |
A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost |
| title_short |
A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost |
| title_full |
A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost |
| title_fullStr |
A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost |
| title_full_unstemmed |
A case study of resilient modulus prediction leveraging an explainable metaheuristic-based XGBoost |
| title_sort |
case study of resilient modulus prediction leveraging an explainable metaheuristic-based xgboost |
| publisher |
Elsevier |
| publishDate |
2024 |
| url |
http://eprints.um.edu.my/45575/ https://doi.org/10.1016/j.trgeo.2024.101216 |
| _version_ |
1814933273815547904 |