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Blasting is an indispensable part of the open pit mining operations. It plays a vital role in preparing the rock mass for subsequent operations, such as loading/unloading, transporting, crushing, and dumping. However, adverse effects, especially blast-induced ground vibrations, are considered one of the most dangerous problems. In this study, artificial intelligence was supposed to predict the intensity of blast-induced ground vibration, which is represented by the peak particle velocity (PPV). Accordingly, an artificial neural network was designed to predict PPV at the Coc Sau open pit coal mine with 137 blasting events were collected. Aiming to optimize the ANN model, the modified version of the particle swarm optimization (MPSO) algorithm was applied to optimize the ANN model for predicting PPV, called the MPSO-ANN model. For the comparison purposes, two forms of empirical equations, namely United States Bureau of Mining (USBM) and U Langefors - Kihlstrom, were also developed to predict PPV and compared with the proposed MPSO-ANN model. The results showed that the proposed MPSO-ANN model provided a better performance with a mean absolute error (MAE) of 1.217, root-mean-squared error (RMSE) of 1.456, and coefficient of determination (R2) of 0.956. Meanwhile, the empirical models only provided poorer performances with an MAE of 1.830 and 2.012, RMSE of 2.268 and 2.464, and R2 of 0.874 and 0.852 for the USBM and U Langefors – Kihlstrom empirical models, respectively.
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Rocznik
Tom
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79--90
Opis fizyczny
Bibliogr. 34 poz., rys., tab., wykr., zdj.
Twórcy
autor
- Hanoi University of Mining and Geology (HUMG), 18 Vien street, Hanoi, Vietnam
- Innovations for Sustainable and Responsible Mining Group, HUMG, Hanoi, Vietnam
autor
- Hanoi University of Mining and Geology (HUMG), 18 Vien street, Hanoi, Vietnam
- Innovations for Sustainable and Responsible Mining Group, HUMG, Hanoi, Vietnam
autor
- Vinacomin - Mining Chemical Industrial Corporation Limited, Hanoi, Vietnam
Bibliografia
- 1. X.-N. Bui, Y. Choi, V. Atrushkevich, H. Nguyen, Q.-H. Tran, N.Q. Long, H.-T. Hoang, Prediction of Blast-Induced Ground Vibration Intensity in Open-Pit Mines Using Unmanned Aerial Vehicle and a Novel Intelligence System, Natural Resources Research, 29 (2020) 771-790.
- 2. X.-N. Bui, P. Jaroonpattanapong, H. Nguyen, Q.-H. Tran, N.Q. Long, A novel Hybrid Model for predicting Blast-induced Ground Vibration Based on k-nearest neighbors and particle Swarm optimization, Scientific reports, 9 (2019) 1-14.
- 3. H. Nguyen, Support vector regression approach with different kernel functions for predicting blastinduced ground vibration: a case study in an open-pit coal mine of Vietnam, SN Applied Sciences, 1 (2019) 1-10.
- 4. H. Nguyen, N.X. Bui, H.Q. Tran, G.H.T. Le, A novel soft computing model for predicting blast - induced ground vibration in open - pit mines using gene expression programming, Journal of Mining and Earth Sciences, 61 (2020) 107-116.
- 5. A.D. Nguyen, B.V. Nhu, B.D. Tran, H.V. Pham, T.A. Nguyen, Definition of amount explosive per blast for spillway at the Nui Mot lake - Binh Dinh province, Journal of Mining and Earth Sciences, 61 (2020) 117-124.
- 6. H.Q. Tran, N.X. Bui, H. Nguyen, T.A. Nguyen, L.Q. Nguyen, Applicable posssibility of advanced technologies and equipment in surface mines of Vietnam (in Vietnames), Journal of Mining and Earth Sciences, 61 (2020) 16-32.
- 7. A.I. Lawal, S. Kwon, O.S. Hammed, M.A. Idris, Blast-induced ground vibration prediction in granite quarries: an application of gene expression programming, ANFIS, and sine cosine algorithm optimized ANN, International Journal of Mining Science and Technology, 31 (2021) 265-277.
- 8. W.I. Duvall, B. Petkof, Spherical propagation of explosion-generated strain pulses in rock, US Department of the Interior, Bureau of Mines1958.
- 9. N. Ambraseys, Rock Mechanics in Engineering Practice, 1968
- 10. U. Langefors, B. Kihlström, The modern technique of rock blasting, Wiley New York1963.
- 11. H. Nguyen, X.-N. Bui, A Novel Hunger Games Search Optimization-Based Artificial Neural Network for Predicting Ground Vibration Intensity Induced by Mine Blasting, Natural Resources Research, (2021).
- 12. N.X. Bui, G.S. Ho, Vietnamese Surface Mining - Training and scientific research for integrating the Fourth Industrial Revolution, Journal of Mining and Earth Sciences, 61 (2020) 1-15.
- 13. B.D. Tran, T.D. Vu, V.V. Pham, T.A. Nguyen, A.D. Nguyen, G.H.T. Le, Developing a mathematical model to optimize long - term quarrying planing for limestone quarries producing cement in Vietnam, Journal of Mining and Earth Sciences, 61 (2020) 58-70.
- 14. M. Khandelwal, T. Singh, Prediction of blast-induced ground vibration using artificial neural network, International Journal of Rock Mechanics and Mining Sciences, 46 (2009) 1214-1222.
- 15. M. Monjezi, M. Ghafurikalajahi, A. Bahrami, Prediction of blast-induced ground vibration using artificial neural networks, Tunnelling and Underground Space Technology, 26 (2011) 46-50.
- 16. M. Khandelwal, P.K. Kankar, S.P. Harsha, Evaluation and prediction of blast induced ground vibration using support vector machine, Mining Science and Technology (China), 20 (2010) 64-70.
- 17. M. Hasanipanah, R.S. Faradonbeh, H.B. Amnieh, D.J. Armaghani, M. Monjezi, Forecasting blastinduced ground vibration developing a CART model, Engineering with Computers, 33 (2017) 307- 316.
- 18. W. Chen, M. Hasanipanah, H.N. Rad, D.J. Armaghani, M. Tahir, A new design of evolutionary hybrid optimization of SVR model in predicting the blast-induced ground vibration, Engineering with Computers, (2019) 1-17.
- 19. H. Nguyen, C. Drebenstedt, X.-N. Bui, D.T. Bui, Prediction of Blast-Induced Ground Vibration in an Open-Pit Mine by a Novel Hybrid Model Based on Clustering and Artificial Neural Network, Natural Resources Research, 29 (2020) 691-709.
- 20. Y. Qiu, J. Zhou, M. Khandelwal, H. Yang, P. Yang, C. Li, Performance evaluation of hybrid WOAXGBoost, GWO-XGBoost and BO-XGBoost models to predict blast-induced ground vibration, Engineering with Computers, (2021) 1-18.
- 21. U. Langefors, B. Kihlstrom, The Modern Techniques of Rock Blasting, JohnWiley and Sons Inc., New York, 1963.
- 22. A. Krogh, What are artificial neural networks?, Nature biotechnology, 26 (2008) 195-197.
- 23. J. Kennedy, R. Eberhart, Particle swarm optimization, Proceedings of ICNN'95-international conference on neural networks, IEEE, 1995, pp. 1942-1948.
- 24. M. Li, W. Du, F. Nian, An adaptive particle swarm optimization algorithm based on directed weighted complex network, Mathematical problems in engineering, 2014 (2014).
- 25. M. Dorigo, M.A.M. de Oca, A. Engelbrecht, Particle swarm optimization, Scholarpedia, 3 (2008) 1486.
- 26. S. Yu, K. Zhu, F. Diao, A dynamic all parameters adaptive BP neural networks model and its application on oil reservoir prediction, Applied mathematics and computation, 195 (2008) 66-75.
- 27. M. Li, X. Huang, H. Liu, B. Liu, Y. Wu, A. Xiong, T. Dong, Prediction of gas solubility in polymers by back propagation artificial neural network based on self-adaptive particle swarm optimization algorithm and chaos theory, Fluid Phase Equilibria, 356 (2013) 11-17.
- 28. X.-N. Bui, C.W. Lee, H. Nguyen, H.-B. Bui, N.Q. Long, Q.-T. Le, V.-D. Nguyen, N.-B. Nguyen, H. Moayedi, Estimating PM10 Concentration from Drilling Operations in Open-Pit Mines Using an Assembly of SVR and PSO, Applied Sciences, 9 (2019) 2806.
- 29. M. Protodiakonov, M. Koifman, S. Chirkov, M. Kuntish, R. Tedder, Rock strength passports and methods for their determination, Nauka, Moscow, 1964.
- 30. Q. Gao, W. Lu, P. Yan, H. Hu, Z. Yang, M. Chen, Effect of initiation location on distribution and utilization of explosion energy during rock blasting, Bulletin of Engineering Geology and the Environment, 78 (2019) 3433-3447.
- 31. C. Kuzu, The mitigation of the vibration effects caused by tunnel blasts in urban areas: a case study in Istanbul, Environmental geology, 54 (2008) 1075-1080.
- 32. R. Nateghi, Prediction of ground vibration level induced by blasting at different rock units, International Journal of Rock Mechanics and Mining Sciences, 48 (2011) 899-908.
- 33. R. Kumar, D. Choudhury, K. Bhargava, Determination of blast-induced ground vibration equations for rocks using mechanical and geological properties, Journal of Rock Mechanics and Geotechnical Engineering, 8 (2016) 341-349.
- 34. G. Paneiro, F. Durão, M.C. e Silva, P.F. Neves, Prediction of ground vibration amplitudes due to urban railway traffic using quantitative and qualitative field data, Transportation Research Part D: Transport and Environment, 40 (2015) 1-13.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f9609f1a-2de9-4303-b29b-623a61252a66