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Publication
Big Data 2024
Conference paper
Optimal Transport for Efficient, Unsupervised Anomaly Detection on Industrial Data
Abstract
Effective anomaly detection frameworks are a central pillar of the Industry 4.0 paradigm. In this paper, we introduce an Optimal Transport (OT)-based framework for anomaly detection, designed to detect deviations from normal behaviour in time-series sensor data. The OT-based method requires minimal user input and adapts to real-time data without the need for labelled training data. Our method shows robustness to short-term fluctuations, noise, and data gaps, which are common challenges in industrial environments. Additionally, our method provides counterfactual explanations for detected anomalies generated using the OT mapping, improving the auditability of the approach when deployed in industrial settings. The proposed method learns the mapping between normal and observed operating conditions through a sliding reference window that adapts to the dynamicity of the data. We evaluate our approach on three industrial datasets, from shipping, industrial HVAC systems, and publicly available benchmark data. The method was highly effective in identifying anomalies and reducing false positives, outperforming traditional methods, while maintaining computational efficiency and ease of configuration.