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Fault Detection in Distribution Network with the Cauchy-M Estimate—RVFLN Method

Cem Haydaroğlu, Bilal Gümüş

2022Energies16 citationsDOIOpen Access PDF

Abstract

Fault detection is an important issue in today’s distribution networks, the structure of which is becoming more complex. In this article, a data-based Cauchy distribution weighting M-estimate RVFLNs method is proposed for short-circuit fault detection in distribution networks. The proposed method detects short circuits based on current and voltage measurements. In addition, noises were added to the data to ensure the robustness of the method. The performance of the method was examined in the RTDS RTS simulator using the IEEE 33-bus-bar system model with the help of real-time simulations. The success rate of the proposed method is between 98% and 100% for low-impedance (0 ohm) short-circuit faults, depending on the fault type. The success rate of high-impedance (100 ohm) short-circuit faults, which are more difficult to detect, is between 80% and 92%, depending on the fault type.

Topics & Concepts

OhmRobustness (evolution)Cauchy distributionWeightingElectrical impedanceFault (geology)High impedanceFault detection and isolationVoltageShort circuitEngineeringFault current limiterElectronic engineeringComputer scienceElectrical engineeringMathematicsStatisticsGenePower (physics)BiochemistryPhysicsQuantum mechanicsSeismologyMedicineElectric power systemChemistryGeologyRadiologyActuatorPower Systems Fault DetectionPower System Optimization and StabilityPower System Reliability and Maintenance