Affiliations: [a] College of Information Engineering, Shenyang University of Chemical Technology, Shenyang, China
| [b] Liaoning Key Laboratory of Industry-Environment-Resource Collaborative Control and Optimization Technology, Shenyang University of Chemical Technology, Shenyang, China
Correspondence:
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Corresponding author. Ying Xie, College of Information Engineering, Shenyang University of Chemical Technology, Shenyang, China. E-mail: xieyingemail@163.com.
Abstract: In view of the large-scale and high-dimensional problems of industrial data and fault-tracing problems, a fault detection and diagnosis method based on multi-block probabilistic kernel partial least squares (MBPKPLS) is proposed. First, the process variables are divided into several blocks in a decentralized manner to address the large-scale and high-dimensional problems. The probabilistic characteristics and relationship between the corresponding process variables and the quality variables of each block are analyzed using latent variables, and the PKPLS model of each block is established separately. Second, the MBPKPLS model is applied to process monitoring, statistics of each block are established in a high-dimensional space, and the monitoring indicators in each block are used to detect faults. Third, based on fault detection, the multi-block concept is further used to locate the cause of fault, thereby solving the problem of fault tracing. Finally, a numerical example and the penicillin fermentation process (PFP) are used to test the effectiveness of the MBPKPLS method. The results demonstrate that the proposed method is suitable for processing large-scale, high-dimensional data with strong nonlinear characteristics, and the MBPKPLS process monitoring method is effective for improving the performance of fault detection and diagnosis.
