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Application of Artificial Neural Network (ANN) for Prediction and Optimization of Blast-Induced Impacts
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Application of Artificial Neural Network (ANN) for Prediction and Optimization of Blast-Induced Impacts
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Journal Article
Application of Artificial Neural Network (ANN) for Prediction and Optimization of Blast-Induced Impacts
2021
Overview
Drilling and blasting remain the preferred technique used for rock mass breaking in mining and construction projects compared to other methods from an economic and productivity point of view. However, rock mass breaking utilizes only a maximum of 30% of the blast explosive energy, and around 70% is lost as waste, thus creating negative impacts on the safety and surrounding environment. Blast-induced impact prediction has become very demonstrated in recent research as a recommended solution to optimize blasting operation, increase efficiency, and mitigate safety and environmental concerns. Artificial neural networks (ANN) were recently introduced as a computing approach to design the computational model of blast-induced fragmentation and other impacts with proven superior capability. This paper highlights and discusses the research articles conducted and published in this field among the literature. The prediction models of rock fragmentation and some blast-induced effects, including flyrock, ground vibration, and back-break, were detailed investigated in this review. The literature showed that applying the artificial neural network for blast events prediction is a practical way to achieve optimized blasting operation with reduced undesirable effects. At the same time, the examined papers indicate a lack of articles focused on blast-induced fragmentation prediction using the ANN technique despite its significant importance in the overall economy of whole mining operations. As well, the investigation revealed some lack of research that predicted more than one blast-induced impact.
Publisher
MDPI AG
Subject
/ artificial neural network (ANN)
/ Blasting
/ Costs
/ flyrock
/ Mines
/ Mining
/ Neurons
/ rock fragmentation prediction
/ Rocks
