Predicting Industrial Copper Hydrometallurgy Output with Deep Learning Approach Using Data Augmentation
Kenzhaliyev B. Azatbekuly N. Aibagarov S. Amangeldy B. Koizhanova A. Magomedov D.
July 2025Multidisciplinary Digital Publishing Institute (MDPI)
Minerals
2025#15Issue 7
Sustainable copper extraction presents significant challenges due to waste generation and environmental impacts, requiring advanced predictive methodologies to optimize production processes. This study addresses a gap in applying deep learning to forecast hydrometallurgical copper production by comparing six recurrent neural network architectures: Vanilla LSTM, Stacked LSTM, Bidirectional LSTM, GRU, CNN-LSTM, and Attention LSTM. Using time-series data from a full-scale industrial operation, we implemented a data augmentation approach to overcome data scarcity limitations. The models were evaluated through rigorous metrics and multi-step forecasting tests. The results demonstrated remarkable performance from five architectures, with Bidirectional LSTM and Attention LSTM achieving the highest accuracy (RMSE < 0.004, R2 > 0.999, MAPE < 1%). These models successfully captured and reproduced complex cyclical patterns in copper mass production for up to 500 time steps ahead. The findings validate our data augmentation strategy for enabling models to learn complex known cyclical patterns from limited initial data and establish a promising foundation for implementing AI-driven predictive systems that can enhance process control, reduce waste, and advance sustainability in hydrometallurgical operations. However, these performance metrics reflect the models’ ability to reproduce patterns inherent in the augmented dataset derived from a single operational cycle; validation on entirely independent operational data is crucial for assessing true generalization and is a critical next step.
copper extraction , deep learning , hydrometallurgy , LSTM , time-series forecasting
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Institute of Metallurgy and Ore Beneficiation, Satbayev University, Almaty, 050000, Kazakhstan
Faculty of Information Technology, Al-Farabi Kazakh National University, Almaty, 050000, Kazakhstan
Institute of Metallurgy and Ore Beneficiation
Faculty of Information Technology
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