3.8 Proceedings Paper

Product Quality Control in Assembly Machine under Data Restricted Settings

Publisher

IEEE
DOI: 10.1109/INDIN51773.2022.9976173

Keywords

Medical Device Assembly; Anomaly Detection; Product Quality Assessment; One Class Support Vector Machine; Binary Classifier

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This paper proposes a quality assessment method for an industrial use case. By preparing data and applying two data classification approaches, product quality can be evaluated efficiently, and the most efficient model can be selected to predict product labels and deviate anomalies.
Evaluating the product quality in an assembly machine is critical yet time-consuming since, in product assessment in batch manufacturing, a certain amount of products should be investigated in an invasive manner. However, continuous manufacturing ensures product quality assessment during assembly with high efficiency and traceability. This paper proposes a quality assessment method for an industrial use case. First, the data is prepared based on two indicators and expert knowledge. Then two data classification approaches (one-class classification and binary classification) are applied to evaluate the products' quality by analysing the related data. Finally, the most efficient model is selected to predict the product labels and deviate anomalies from normal products. For the studied use case and the limited number of products, the binary classifier guarantees to detect 100% of defective products. The proposed approach can provide the engineers and operators with understandable extracted process knowledge, and can therefore be adapted to a high-speed manufacturing line where large data volume and process complexity can be problematic.

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