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Online Detection of Events With Low-Quality Synchrophasor Measurements Based on $i$Forest

Tong Wu, Ying–Jun Angela Zhang, Xiaoying Tang

2020IEEE Transactions on Industrial Informatics29 citationsDOI

Abstract

In this article, we propose an online datadriven approach that leverages the isolation mechanism for fast event detection with low-quality data measurement. The proposed adaptive and online isolation forest (iForest)based detection (AOIFD) method adopts a hierarchical subspace feature selection scheme to design two levels of detectors. As such, it is capable of differentiating events from low-quality data measurements, preventing false alarms in the presence of low-quality data measurements. We further propose a data augmentation method to address the training data imbalance, which is caused by the rare occurrence of events. Moreover, we propose an adaptive training process to update the AOIFD method so that it can adapt to the time-varying operating conditions of power systems. The proposed AOIFD algorithm is practical in the sense that it is a fast-response method that requires no system modeling information and no global communications. Case studies with both synthetic and realistic PMU data are conducted to validate the effectiveness of the proposed method.

Topics & Concepts

Computer scienceSubspace topologyData miningFeature extractionData qualityProcess (computing)Data modelingEvent (particle physics)Scheme (mathematics)Real-time computingIsolation (microbiology)Artificial intelligenceDetectorQuality (philosophy)EngineeringDatabasePhysicsPhilosophyMathematical analysisQuantum mechanicsEpistemologyMetric (unit)Operating systemBiologyMathematicsOperations managementTelecommunicationsMicrobiologyAnomaly Detection Techniques and ApplicationsPower System Optimization and StabilityWater Systems and Optimization
Online Detection of Events With Low-Quality Synchrophasor Measurements Based on $i$Forest | Litcius