A method to extract non-linear principal components of large datasets - an application in skill transfer

A significant number of control loops in process plants perform poorly due to control valve stiction. Stiction in control valves is the most common and long standing problem in industry, resulting in oscillations in process variables which subsequently lowers product quality and productivity. Developing a method to detect valve stiction in the early phase is imperative to avoid major disruptions to the plant operations. In this paper, nonlinear principal component analysis (NLPCA)-based stiction diagnostic tool is presented. Results from simulated case studies show that with proper quantification analysis, NLPCA shows a very promising capability for stiction diagnosis.

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Quantification Analysis for NLPCA-Based Stiction Diagnostic Tool

Zabiri

Ramasamy

Teh

2009

2009 International Conference on Advanced Computer Control

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A fast and flexible accuracy-guaranteed fractional bit-widths optimization approach

Zhang

Zhou

2009

2009 IEEE International Symposium on Circuits and Systems

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An affline arithmetic based methodology for the thermal rating assessment of overhead lines in the presence of data uncertainty

Piccolo

Vaccaro²,

Villacci³

2003 IEEE Bologna Power Tech Conference Proceedings,

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A method to extract non-linear principal components of large datasets - an application in skill transfer

Cited by 8 publications

References 8 publications

Quantification Analysis for NLPCA-Based Stiction Diagnostic Tool

Quantification Analysis for NLPCA-Based Stiction Diagnostic Tool

A fast and flexible accuracy-guaranteed fractional bit-widths optimization approach

An affline arithmetic based methodology for the thermal rating assessment of overhead lines in the presence of data uncertainty

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