A novel method of neural network model predictive control integrated process monitoring and applications to hot rolling process

The stable control of product quality when abnormal working conditions occur in the industrial production process is essential to improve product quality and economic efficiency. However, the process industry suffers from multivariate, nonlinear, uncertainty, long time delays and frequent failures, making its modeling and control difficult. In this paper, a novel method of neural network model predictive control integrated process monitoring (PM-NNMPC) is proposed. First, the combination of gated recurrent unit and convolutional neural network (GRU-CNN) is used to extract the features from the time and the space separately to build prediction models for different working conditions of the process. Then, a process monitoring and fault diagnosis method of principal component analysis combined with deep neural network and XGBoost (PCA-DNN-XGBoost) is designed to monitor the working conditions in real-time and diagnose accurately when faults occur. Finally, a new operation control framework integrating process monitoring and fault diagnosis into the model prediction control is designed to solve the problem that equipment operation failure, which makes the product quality fluctuation because of the model mismatch and the system runaway. The experimental results of hot rolling process show that PM-NNMPC can effectively control the system under normal working conditions and in case of the system failure to ensure the stable product quality.

Automated summary

This paper proposes a novel method of neural network model predictive control integrated process monitoring (PM-NNMPC) for stable control of product quality in the presence of abnormal working conditions in the industrial production process. The method extracts features using a combination of gated recurrent unit and convolutional neural network (GRU-CNN), and utilizes principal component analysis combined with deep neural network and XGBoost (PCA-DNN-XGBoost) for process monitoring and fault diagnosis. A new operation control framework integrating process monitoring and fault diagnosis is designed to address equipment operation failure and ensure stable product quality. Experimental results demonstrate the effectiveness of PM-NNMPC in controlling the system under normal working conditions and in case of system failure.