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Article type: Research Article
Authors: Pan, Lujiaa; b | Kalander, Marcusc; * | Wang, Pinghuia
Affiliations: [a] NSKeyLab, Xi’an Jiaotong University, Xi’an, China | [b] Noah’s Ark Lab, Huawei Technologies, Shenzhen, China | [c] Noah’s Ark Lab, Huawei Technologies, Hong Kong
Correspondence: [*] Corresponding author. Marcus Kalander, Noah’s Ark Lab, Huawei Technologies, Hong Kong. E-mail: [email protected].
Abstract: Classification algorithms are widely applied to predict failures and detect anomalies in various application areas. It is common to assume that the data and labels are correct when training, but this is challenging to guarantee in the real world. If there are erroneous labels in the training data, a model can easily overfit to these, resulting in poor performance. How to handle label noise has been previously researched, however, few works focus on label noise in anomaly detection. In this work, we propose LDAAD, a novel algorithm framework for label de-noising for anomaly detection that combines unsupervised learning and semi-supervised learning methods. Specifically, we apply anomaly detection to partition the training data into low-risk and high-risk sets. We subsequently build upon ideas from cross-validation and train multiple classification models on segments of the low-risk data. The models are used both to relabel the samples in the high-risk set and to filter the low-risk samples. Finally, we merge the two sets to obtain a final sample set with more confident labels. We evaluate LDAAD on multiple real-world datasets and show that LDAAD achieves robust results that outperform the benchmark methods. Specifically, LDAAD achieves a 5% accuracy improvement over the second-best method for symmetric noise while having a minimal detrimental impact when no label noise is present.
Keywords: Label noise, anomaly detection, ensemble learning, semi-supervised learning
DOI: 10.3233/JIFS-212096
Journal: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 6, pp. 5627-5637, 2022
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