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Active learning for anomaly detection in environmental data

Stefania Russo, Moritz Lürig, Wenjin Hao, Blake Matthews, Kris Villez

2020Environmental Modelling & Software58 citationsDOIOpen Access PDF

Abstract

Due to the growing amount of data from in-situ sensors in environmental monitoring, it becomes necessary to automatically detect anomalous data points. Nowadays, this is mainly performed using supervised machine learning models, which need a fully labelled data set for their training process. However, the process of labelling data is typically cumbersome and, as a result, a hindrance to the adoption of machine learning methods for automated anomaly detection. In this work, we propose to address this challenge by means of active learning. This method consists of querying the domain expert for the labels of only a selected subset of the full data set. We show that this reduces the time and costs associated to labelling while delivering the same or similar anomaly detection performances. Finally, we also show that machine learning models providing a nonlinear classification boundary are to be recommended for anomaly detection in complex environmental data sets.

Topics & Concepts

Anomaly detectionComputer scienceProcess (computing)Anomaly (physics)Machine learningData setArtificial intelligenceSet (abstract data type)Data miningDomain (mathematical analysis)Labeled dataTraining setSemi-supervised learningBoundary (topology)MathematicsCondensed matter physicsOperating systemMathematical analysisPhysicsProgramming languageAnomaly Detection Techniques and ApplicationsData Stream Mining TechniquesMachine Learning and Algorithms
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