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Explainable Anomaly Detection Framework for Maritime Main Engine Sensor Data

Donghyun Kim, Gian Antariksa, Melia Putri Handayani, Sang-Bong Lee, Jihwan Lee

2021Sensors62 citationsDOIOpen Access PDF

Abstract

In this study, we proposed a data-driven approach to the condition monitoring of the marine engine. Although several unsupervised methods in the maritime industry have existed, the common limitation was the interpretation of the anomaly; they do not explain why the model classifies specific data instances as an anomaly. This study combines explainable AI techniques with anomaly detection algorithm to overcome the limitation above. As an explainable AI method, this study adopts Shapley Additive exPlanations (SHAP), which is theoretically solid and compatible with any kind of machine learning algorithm. SHAP enables us to measure the marginal contribution of each sensor variable to an anomaly. Thus, one can easily specify which sensor is responsible for the specific anomaly. To illustrate our framework, the actual sensor stream obtained from the cargo vessel collected over 10 months was analyzed. In this analysis, we performed hierarchical clustering analysis with transformed SHAP values to interpret and group common anomaly patterns. We showed that anomaly interpretation and segmentation using SHAP value provides more useful interpretation compared to the case without using SHAP value.

Topics & Concepts

Anomaly detectionAnomaly (physics)Cluster analysisData miningComputer scienceMeasure (data warehouse)Interpretation (philosophy)Artificial intelligencePattern recognition (psychology)Condensed matter physicsPhysicsProgramming languageAnomaly Detection Techniques and ApplicationsRisk and Safety AnalysisFault Detection and Control Systems
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