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Geomechanics and Engineering Volume 30, Number 3, August10 2022 , pages 259-272 DOI: https://doi.org/10.12989/gae.2022.30.3.259 |
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Decision based uncertainty model to predict rockburst in underground engineering structures using gradient boosting algorithms |
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Richard Kidega, Mary Nelima Ondiaka, Duncan Maina, Kiptanui Arap Too Jonah and Muhammad Kamran
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Abstract | ||
Rockburst is a dynamic, multivariate, and non-linear phenomenon that occurs in underground mining and civil engineering structures. Predicting rockburst is challenging since conventional models are not standardized. Hence, machine learning techniques would improve the prediction accuracies. This study describes decision based uncertainty models to predict rockburst in underground engineering structures using gradient boosting algorithms (GBM). The model input variables were uniaxial compressive strength (UCS), uniaxial tensile strength (UTS), maximum tangential stress (MTS), excavation depth (D), stress ratio (SR), and brittleness coefficient (BC). Several models were trained using different combinations of the input variables and a 3-fold cross-validation resampling procedure. The hyperparameters comprising learning rate, number of boosting iterations, tree depth, and number of minimum observations were tuned to attain the optimum models. The performance of the models was tested using classification accuracy, Cohen's kappa coefficient (k), sensitivity and specificity. The best-performing model showed a classification accuracy, k, sensitivity and specificity values of 98%, 93%, 1.00 and 0.957 respectively by optimizing model ROC metrics. The most and least influential input variables were MTS and BC, respectively. The partial dependence plots revealed the relationship between the changes in the input variables and model predictions. The findings reveal that GBM can be used to anticipate rockburst and guide decisions about support requirements before mining development. | ||
Key Words | ||
accuracy; gradient boosting algorithm; modelling; rockburst; sensitivity; specificity | ||
Address | ||
Richard Kidega, Mary Nelima Ondiaka, Duncan Maina, Kiptanui Arap Too Jonah: Department of Mining and Mineral Processing Engineering, School of Mines and Engineering, Taita Taveta University, P.O. Box 635-80300 Voi, Kenya Muhammad Kamran: Department of Mining Engineering, Institute Technology of Bandung, Indonesia | ||