Research on the prediction of blasting fragmentation in open-pit coal mines based on KPCA-BAS-BP

The blasting block size of open-pit mines is influenced by many factors, and the influencing factors have a very complex nonlinear relationship. Traditional empirical formulas and a single neural network model cannot meet the requirements of modern blasting safety. To improve the prediction accuracy...

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Bibliographic Details
Published in:Scientific reports 2024-10, Vol.14 (1), p.16804-9, Article 16804
Main Authors: Liu, Shuang, Qu, Enxiang, LV, Chun, Zhang, Xueyuan
Format: Article
Language:English
Subjects:
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639/705
Algorithms
Beetle antennae search algorithm (BAS)
Blasting fragmentation
BP neural network
Coal
Coal mines
Coal mining
Hierarchies
Humanities and Social Sciences
Kernel principal component analysis (KPCA)
Mines
multidisciplinary
Neural networks
Open-pit coal mine
Prediction models
Principal components analysis
Rocks
Science
Science (multidisciplinary)
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Summary:The blasting block size of open-pit mines is influenced by many factors, and the influencing factors have a very complex nonlinear relationship. Traditional empirical formulas and a single neural network model cannot meet the requirements of modern blasting safety. To improve the prediction accuracy of blasting block size, the measured data of Beskuduk open-pit coal mine is used as training and testing samples. Seven factors including rock tensile strength, rock compressive strength, and blast hole spacing are selected as input variables of the prediction model. The average size of blasting fragmentation X50 is used as the output variable of the prediction model. The kernel principal component analysis (KPCA) is adopted to reduce the dimensionality of the input variables. The beetle antennae search algorithm (BAS) is selected to optimize the parameters of the initial weights and thresholds of the back propagation (BP) neural network. Finally, prediction model of blasting fragmentation in open-pit coal mine based on KPCA-BAS-BP is established. The results show that the average relative error of the model is 1.77%, and the root mean square error is 1.52%. Compared with the unoptimized BP neural network and the BP neural network optimized by the artificial bee colony algorithm (ABC) model, this model has higher prediction accuracy and is more suitable for predicting the blasting block size of open-pit coal mines, it provides a new method for predicting the fragmentation of blasting under the influence of multiple factors, filling the gap in related theoretical research, and has certain practical application value.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-67139-x