Author
Listed:
- Xin Wang
- Changwei Ding
- Tongjun Chen
- Ting Yu
- Wenyu Zhang
Abstract
This paper proposed a Bayesian optimized extreme gradient boosting (XGBoost) model to recognize small-scale faults across coalbeds using reduced seismic attributes. Firstly, the seismic attributes of the mining area were preprocessed to remove abnormal samples and high-noise samples. Secondly, chi-square bins were performed for each feature of the processed attributes. The weight of evidence (WOE) was calculated in each container, and each element's information value (IV) was obtained to characterize the importance of each feature. Features with low information values are reduced to remove high-noise attributes. Thirdly, the reduced attributes are decomposed by variational modal decomposition (VMD) to obtain new features. Finally, the optimized XGBoost model and traditional methods were constructed to identify and locate faults across coalbeds. Here, the Bayesian-optimized XGBoost objective function was used to balance the training weights of asymmetric examples. As the Bayesian optimization algorithm quickly falls into local optimums, it does not easily balance the “exploit†and “explore†approaches. Therefore, this paper proposed an adaptive balance factor change algorithm to overcome this shortcoming. Comparing the identification outcomes, the optimized XGBoost model has a higher prediction accuracy than the BP neural network, support vector machines (SVMs), K-means clustering, extreme learning machines (ELMs), and random forests (RFs). In summary, the proposed method can improve the identification accuracy of small-scale faults in coal mining areas.
Suggested Citation
Xin Wang & Changwei Ding & Tongjun Chen & Ting Yu & Wenyu Zhang, 2022.
"Research on the Application of Bayesian-Optimized XGBoost in Minor Faults in Coalfields,"
Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-13, April.
Handle:
RePEc:hin:jnlmpe:3409468
DOI: 10.1155/2022/3409468
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