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Multisensor Decision Approach for HVCB Fault Detection Based on the Vibration Information

Suliang Ma, Yang Yuan, Jianwen Wu, Yuan Jiang, Bowen Jia, Weixin Li

2020IEEE Sensors Journal44 citationsDOI

Abstract

Mechanical faults of high-voltage circuit breakers (HVCBs) always occur during long-term operation; thus, the recognition of such fault types has become a key issue. Now, most related research involves improvements to the classification method for higher precision based on a single sensor, ignoring the multi-sensor information fusion of the vibration signal for the fault diagnosis of HVCB. Classical evidence theory is a common approach for solving multi-sensor fusion. However, it fails upon encountering conflicting evidence. Therefore, this study proposes an improved multi-sensor evidence combined rule to optimize the evidence gathered from different sensors, especially for the highly conflicting and invalid evidence. A numerical simulation example indicates that the proposed method achieves a better performance. On this basis, the proposed method is applied to diagnose HVCB faults with multi-sensor. Further, the superiority of the multi-sensor fusion is proved via a comparison with the diagnostic results of five typical classifiers under a single sensor; specifically, by comparing it with traditional Dempster's combination rules, it is verified that the proposed method is better than other multi-sensor fusion methods, which can be used in the field of HVCB fault diagnosis.

Topics & Concepts

Sensor fusionFault (geology)Computer scienceInformation fusionSoft sensorField (mathematics)Key (lock)Fault detection and isolationData miningArtificial intelligencePattern recognition (psychology)EngineeringActuatorMathematicsPure mathematicsProcess (computing)GeologyOperating systemSeismologyComputer securityElectrical Fault Detection and ProtectionHigh voltage insulation and dielectric phenomenaPower Transformer Diagnostics and Insulation
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