Abstract
Monitoring manufacturing process variation remains challenging, especially within a rapid and automated manufacturing environment. Problematic and unstable processes may produce distinct time series patterns that could be associated with assignable causes for diagnosis purpose. Various machine learning classification techniques such as artificial neural network (ANN), classification and regression tree (CART), and fuzzy inference system have been proposed to enhance the capability of traditional Shewhart control chart for process monitoring and diagnosis. ANN classifiers are often opaque to the user with limited interpretability on the classification procedures. However, fuzzy inference system and CART are more transparent, and the internal steps are more comprehensible to users. There have been limited works comparing these two techniques in the control chart pattern recognition (CCPR) domain. As such, the aim of this paper is to demonstrate the development of fuzzy heuristics and CART technique for CCPR and compare their classification performance. The results show the heuristics Mamdani fuzzy classifier performed well in classification accuracy (95.76%) but slightly lower compared to CART classifier (98.58%). This study opens opportunities for deeper investigation and provides a useful revisit to promote more studies into explainable artificial intelligence (XAI).
Highlights
Statistical process control charts are commonly used to detect process variations in manufacturing processes [1]
This study investigated two soft computing methods, namely fuzzy heuristics based on Mamdani fuzzy inference system, and Classification and Regression Tree (CART)
Trend up pattern tends to be confused with shift up patterns (12.2%) and trend down patterns tends to be confused with shift down patterns (3.7%)
Summary
Statistical process control charts are commonly used to detect process variations in manufacturing processes [1]. Shewhart-based X-bar control chart introduced in 1920s remains as one of the most widely implemented statistical process control tool [2]. Normal patterns indicate a statistically in-control process. As time goes on, the manufacturing process may experience tool wear, operator fatigue, seasonal effects, failure of machine parts, fluctuation in power supply, and lose fixture, among others. A sudden shift pattern could be attributed to failures in machined parts, and a cyclic pattern could be attributed to seasonal changes like fluctuation in temperature [3,4]. The ability to classify such pattern classes is invaluable for focusing the diagnosis efforts
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