Chemical Engineering & Technology, Vol.39, No.10, 1804-1812, 2016
Ensemble Correntropy-Based Mooney Viscosity Prediction Model for an Industrial Rubber Mixing Process
The development of accurate soft sensors for online prediction of Mooney viscosities in industrial rubber mixing processes is a difficult task because the modeling dataset often contains various outliers. A correntropy kernel learning (CKL) method for robust soft sensor modeling of nonlinear industrial processes with outlier samples is proposed. Simultaneously, the candidate outliers can be identified once the CKL-based soft sensor model is built. An index for describing the uncertainty of the CKL model is designed. Furthermore, to obtain more robust and accurate predictions, an ensemble CKL (ECKL) method is formulated by introducing the simple bagging strategy. Consequently, by detecting the outliers in a sequential manner, the database becomes more reliable for long-term use. The application results for the industrial rubber mixing process demonstrate the superiority of ECKL in terms of better prediction performance.
Keywords:Correntropy kernel learning;Ensemble learning;Outlier detection;Rubber mixing process;Soft sensor