Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/5474
Título
High-accuracy classification of thread quality in tapping processes with ensembles of classifiers for imbalanced learning
Publicado en
Measurement. 2021, V. 168, 108328
Editorial
Elsevier
Fecha de publicación
2021-01
ISSN
0263-2241
DOI
10.1016/j.measurement.2020.108328
Abstract
Industrial threading processes that use cutting taps are in high demand. However, industrial conditions differ markedly from laboratory conditions. In this study, a machine-learning solution is presented for the correct classification of threads, based on industrial requirements, to avoid expensive manual measurement of quality indicators. First, quality states are categorized. Second, process inputs are extracted from the torque signals including statistical parameters. Third, different machine-learning algorithms are tested: from base classifiers, such as decision trees and multilayer perceptrons, to complex ensembles of classifiers especially designed for imbalanced datasets, such as boosting and bagging decision-tree ensembles combined with SMOTE and under-sampling balancing techniques. Ensembles demonstrated the lowest sensitivity to window sizes, the highest accuracy for smaller window sizes, and the greatest learning ability with small datasets. Fourth, the combination of models with both high Recall and high Precision resulted in a reliable industrial tool, tested on an extensive experimental dataset.
Palabras clave
Bagging
Imbalanced datasets
Threading
Cutting taps
Quality assessment
Materia
Informática
Computer science
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