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This research aims to develop a predictive model for borehole drilling efficiency using advanced ensemble learning methods.

March 15, 2026Open Access

Research on a borehole drilling efficiency prediction model based on bacterial foraging optimization stacking ensemble learning

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Key Points

This research aims to develop a predictive model for borehole drilling efficiency using advanced ensemble learning methods.
Constructed a dataset from drilling efficiency data and factors like drilling depth and rock properties.
Trained three heterogeneous base learners (XGBoost, LightGBM, MLP) in parallel with a bacterial foraging optimization algorithm.
Employed support vector regression as a meta-learner to integrate predictions from base learners.
Achieved R² values above 0.93 for individual learners after optimization.
PCC values exceeded 0.97, indicating high correlation accuracy.
Final model's PCC value approached 0.98, ensuring reliability for simulation needs.

Abstract

钻孔效率是堆石坝料场开挖施工进度仿真的关键参数，其预测准确性直接关系到仿真模型的可靠性。针对现有数学方法预测效率较低、单一学习器难以满足仿真精度要求、集成学习研究中超参数调整方法局部搜索精细度不足的问题，本文提出了一种基于细菌觅食优化Stacking集成学习的钻孔效率预测模型。首先，以某堆石坝现场采集的钻孔效率数据为目标变量，以其影响因素（如钻孔深度、岩石性质、高程等）为特征变量构建数据集；其次，采用XGBoost、LightGBM和MLP三种异质基学习器并行训练，并引入细菌觅食优化算法模拟趋化和繁殖行为，通过R²曲线实时追踪，迭代优化各基学习器的超参数，确保输出稳定的“元特征”；最后，将各基学习器的预测结果输入支持向量回归（SVR）元学习器，通过整合多模型的互补信息，在抑制偏差与方差的同时获得集成预测结果。实验结果表明，经细菌觅食优化后，各基学习器的R²均可达到0.93以上，PCC值均超过0.97，集成模型在整个样本数据集上的学习曲线也平滑稳定，残差分析显示预测值与真实值的残差序列在零均值线附近均匀分布，最终结果的PCC值接近0.98，可以满足施工过程仿真需求。

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Guan et al. (Thu,) studied this question.

synapsesocial.com/papers/69b5ff8d83145bc643d1c415 — DOI: https://doi.org/10.3724/j.slxb.20250402

Authors

Tao Guan

Jiangsu University

Chunqi Jiao

Harbin Institute of Technology

Peng Yu

Henan University

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Research on a borehole drilling efficiency prediction model based on bacterial foraging optimization stacking ensemble learning

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