A control chart pattern recognition system for feedback-control processes
Research output: Contribution to journal › Article › peer-review
The automated diagnosis of control charts to detect faults is a problem studied by many researchers. In recent years, they have turned their attention to processes that do not fulfil the condition of having normally, identically and independently distributed (NIID) variables. With those processes, it is common to have one or more manipulatable variables that can affect the quality characteristic under investigation. The Engineering Process Control (EPC) approach is often used to minimise the variance around the target value of the monitored characteristic by adjusting the manipulatable variables. In this work, a control chart pattern recognition (CCPR) system was developed for processes adjusted by EPC (also known as SPC-EPC or feedback-control processes). This issue of simultaneous identification of simple control chart patterns for feedback-control processes had previously not been studied. A Machine Learning algorithm was proposed to train a pattern recognition system. All the possible combinations of factors of the CCPR system were studied to determine the combination yielding the highest recognition accuracy, namely, using raw data as input, generating patterns with significance level α=0.01, monitoring the output signal, and employing a Proportional Integrative Derivative (PID) controller and the Radial Basis Function (RBF) kernel. This combination yielded overall accuracies of 94.18% and 94.14% for the AR(1) and ARMA(1,1) models, respectively.
|Journal||Expert Systems with Applications|
|Early online date||19 Jul 2019|
|Publication status||Published - 30 Dec 2019|
- Control chart pattern recognition, PID control, Support Vector Machine, SPC, EPC