Developing an Advanced Soft Computational Model for Estimating Blast-Induced Ground Vibration in Nui Beo Open-pit Coal Mine (Vietnam) Using Artificial Neural Network

  • Hoang NGUYEN
  • Xuan Nam BUI
  • Quang Hieu TRAN
  • Quoc Long NGUYEN
  • Dinh Hieu VU
  • Van Hoa PHAM
  • Qui Thao LE
  • Phu Vu NGUYEN

Abstrakt

The principal object of this study is blast-induced ground
vibration (PPV), which is one of the dangerous side effects of blasting
operations in an open-pit mine. In this study, nine artificial neural
networks (ANN) models were developed to predict blast-induced PPV in
Nui Beo open-pit coal mine, Vietnam. Multiple linear regression and the
United States Bureau of Mines (USBM) empirical techniques are also
conducted to compare with nine developed ANN models. 136 blasting
operations were recorded in many years used for this study with 85% of
the whole datasets (116 blasting events) was used for training and the rest
15% of the datasets (20 blasting events) for testing. Root Mean Square
Error (RMSE), Determination Coefficient (R2), and Mean Absolute Error
(MAE) are used to compare and evaluate the performance of the models.
The results revealed that ANN technique is more superior to other
techniques for estimating blast-induced PPV. Of the nine developed ANN
models, the ANN 7-10-8-5-1 model with three hidden layers (ten neurons
in the first hidden layer, eight neurons in the second layers, and five
neurons in the third hidden layer) provides the most outstanding
performance with an RMSE of 1.061, R2 of 0.980, and MAE of 0.717 on
testing datasets. Based on the obtained results, ANN technique should be
applied in preliminary engineering for estimating blast-induced PPV in
open-pit mine.

Opublikowane
2022-01-13