Chengyuan Sun scite author profile

Key performance indicator (KPI)‐relevant fault detection method has been raised for decades to hugely increase the economic interest of modern industries. However, the typical data‐driven approaches like the kernel principal component analysis (KPCA) and the kernel entropy analysis (KECA) are inefficient to consider the influence taken by the fault factor on the KPI. Thus, in this work, an algorithm called the kernel entropy regression (KECR) is proposed to enhance the interpretability between the fault and the KPI. The proposed algorithm captures the information relevant to the KPI state in the subspace and rewords the decomposition of the KECA method. The angular structure of the KECR method achieves an accurate partition for process variables to hugely decrease false detection results. In the end, an industrial case is utilized to demonstrate the effectiveness of the KECR method.

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A distributed principal component regression method for quality-related fault detection and diagnosis

Sun

Yin

Kang³

et al. 2022

Information Sciences

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Least Squares and Contribution Plot Based Approach for Quality-Related Process Monitoring

Guang¹,

Li²,

Sun³

et al. 2018

IEEE Access

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A Study of Complex Industrial Systems Based on Revised Kernel Principal Component Regression Method

Sun

2020

IFAC-PapersOnLine

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Chengyuan Sun

An Improved Principal Component Regression for Quality-Related Process Monitoring of Industrial Control Systems

A key performance indicator‐relevant approach based on kernel entropy component regression model for industrial system

A distributed principal component regression method for quality-related fault detection and diagnosis

Least Squares and Contribution Plot Based Approach for Quality-Related Process Monitoring

A Study of Complex Industrial Systems Based on Revised Kernel Principal Component Regression Method

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