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Control valve stiction detection using Markov transition field and deep convolutional neural network

Amirreza Memarian, Seshu Kumar Damarla, Biao Huang

2023The Canadian Journal of Chemical Engineering23 citationsDOIOpen Access PDF

Abstract

Abstract Control valve stiction is an industrial problem that often causes oscillations in process control loops. Oscillating control loops are not capable of maintaining key process variables near or at their desired values, thus yielding low‐quality products, inducing economic loss, and increasing environmental impacts. Therefore, it is of vital importance to detect stiction in industrial control valves. In this regard, the present work proposes a new method based on the Markov transition field and convolutional neural network (CNN) to identify sticky control valves in industrial control loops. The Markov transition field is employed to convert process variable (PV) and controller output (OP) into two‐dimensional images, which are then utilized by CNN to learn to distinguish stiction induced oscillations from oscillations brought out by a non‐stiction condition. A transfer learning strategy is adopted to improve the stiction detection capability of the proposed method. Its performance is evaluated via its application to benchmark control loops taken from the chemical, paper, mining, and metal industries. Results demonstrate that the proposed method obtains the correct verdict for the majority of the control loops studied.

Topics & Concepts

StictionComputer scienceControl valvesConvolutional neural networkController (irrigation)Benchmark (surveying)Process (computing)Process controlControl theory (sociology)Artificial intelligenceControl (management)Control engineeringMaterials scienceEngineeringNanotechnologyGeographyBiologyOperating systemGeodesyAgronomyMicroelectromechanical systemsFault Detection and Control SystemsHydraulic and Pneumatic SystemsMineral Processing and Grinding
Control valve stiction detection using Markov transition field and deep convolutional neural network | Litcius