Litcius/Paper detail

State-of-the-art XGBoost, RF and DNN based soft-computing models for PGPN piles

Manish Kumar, Pijush Samui, Divesh Ranjan Kumar, Panagiotis G. Asteris

2024Geomechanics and Geoengineering40 citationsDOI

Abstract

Machine learning (ML) has made significant advancements in predictive modelling across many engineering sectors. However, predicting the bearing capacity of pre-bored grouted planted nodular (PGPN) piles remains a relatively unexplored area due to the complexity of the load-bearing mechanism, pile-soil interactions, and multiple variables involved. The study utilises state-of-the-art ML techniques such as extreme gradient boosting (XGBoost), random forest (RF), gradient boosting machines (GBMs), and deep learning-based simulation models. The dataset fed into the model comprises 81 case histories of static pile load tests conducted in various regions of Vietnam. The data was validated using descriptive statistics, sensitivity analysis, correlation matrix displays, SHAP plot analysis, and regression curves, with predictive performance validated through k-fold cross-validation. Among all the models tested, XGBoost (R2 = 0.91, RMSE = 0.09) and RF (R2 = 0.82, RMSE = 0.09) performed the best, while the deep neural network also yielded satisfactory results. However, GBM was found not to be a robust model for this analysis. The performance of the models was visually analysed using Violin plot comparisons and Taylor diagrams. The outcome of this study facilitates the safe and economical designs of the eco-friendly pile.

Topics & Concepts

Random forestPileArtificial neural networkExtreme learning machineGradient boostingBoosting (machine learning)Artificial intelligenceComputer scienceMean squared errorPredictive modellingMachine learningRegressionSensitivity (control systems)StatisticsMathematicsEngineeringAlgorithmElectronic engineeringGeotechnical Engineering and AnalysisSoil and Unsaturated FlowGeotechnical Engineering and Soil Mechanics