Development of the Optuna-NGBoost-SHAP model for estimating ground settlement during tunnel excavation

Development of the Optuna-NGBoost-SHAP model for estimating ground settlement during tunnel excavation

This study aims to develop and evaluate a natural gradient boosting (NGBoost) model optimized with Optuna for estimating ground settlement during tunnel excavation, incorporating Shapley additive explanations (SHAP) to perform interpretability analysis on the model’s estimation results. The model’s...

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Bibliographic Details
Main Authors: Yuxin Chen, Mohammad Hossein Kadkhodaei, Jian Zhou
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2025-10-01
Series:Underground Space
Subjects:
Ground settlement
Hyperparameter optimization
NGBoost
Estimation
Interpretable machine learning
Online Access:http://www.sciencedirect.com/science/article/pii/S2467967425000595
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Summary:This study aims to develop and evaluate a natural gradient boosting (NGBoost) model optimized with Optuna for estimating ground settlement during tunnel excavation, incorporating Shapley additive explanations (SHAP) to perform interpretability analysis on the model’s estimation results. The model’s predictive performance was comprehensively assessed using datasets from two earth pressure balance shield tunneling projects in Changsha and Zhengzhou, China. Comparative analyses demonstrated the superior accuracy and generalization capability of the Optuna-NGBoost-SHAP model (training set: R2 = 0.9984, MAE = 0.1004, RMSE = 0.4193, MedAE = 0.0122; validation set: R2 = 0.9001, MAE = 1.3363, RMSE = 3.2992, MedAE = 0.3042; test set: R2 = 0.9361, MAE = 0.9961, RMSE = 2.5388, MedAE = 0.2147). SHAP value analysis quantitatively evaluated the contributions of input features to the model’s estimations, identifying geometric factors (distance from the shield machine to the monitoring section and cover depth) as the most important features. The findings provide robust decision support for safety management during tunnel construction and demonstrate the reliability and efficiency of the Optuna-NGBoost-SHAP framework in estimating complex ground settlement scenarios.
ISSN:2467-9674

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