Robust Soft Sensor with Deep Kernel Learning for Quality Prediction in Rubber Mixing Processes

Robust Soft Sensor with Deep Kernel Learning for Quality Prediction in Rubber Mixing Processes

Although several data-driven soft sensors are available, online reliable prediction of the Mooney viscosity in industrial rubber mixing processes is still a challenging task. A robust semi-supervised soft sensor, called ensemble deep correntropy kernel regression (EDCKR), is proposed. It integrates...

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Bibliographic Details
Main Authors: Shuihua Zheng, Kaixin Liu, Yili Xu, Hao Chen, Xuelei Zhang, Yi Liu
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Sensors
Subjects:
soft sensor
deep learning
semi-supervised learning
robust estimator
ensemble strategy
rubber mixing process
mooney viscosity
Online Access:https://www.mdpi.com/1424-8220/20/3/695
Description
Summary:Although several data-driven soft sensors are available, online reliable prediction of the Mooney viscosity in industrial rubber mixing processes is still a challenging task. A robust semi-supervised soft sensor, called ensemble deep correntropy kernel regression (EDCKR), is proposed. It integrates the ensemble strategy, deep brief network (DBN), and correntropy kernel regression (CKR) into a unified soft sensing framework. The multilevel DBN-based unsupervised learning stage extracts useful information from all secondary variables. Sequentially, a supervised CKR model is built to explore the relationship between the extracted features and the Mooney viscosity values. Without cumbersome preprocessing steps, the negative effects of outliers are reduced using the CKR-based robust nonlinear estimator. With the help of ensemble strategy, more reliable prediction results are further obtained. An industrial case validates the practicality and reliability of EDCKR.
ISSN:1424-8220

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