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Fault diagnosis in low voltage smart distribution grids using gradient boosting trees

Nikolaos Sapountzoglou, Jesus Lago, Bertrand Raison

2020Electric Power Systems Research99 citationsDOIOpen Access PDF

Abstract

In this paper, a gradient boosting tree model is proposed to detect, identify and localize single-phase-to-ground and three-phase faults in low voltage (LV) smart distribution grids. The proposed method is based on gradient boosting trees and considers branch-independent input features to be generalizable and applicable to different grid topologies. Particularly, as it is shown, the method can be estimated in a specific grid topology and be employed in a different one. To test the algorithm, the method is evaluated in a simulated real LV distribution grid of Portugal. In this case study, different fault resistances, fault locations and hours of the day are considered. In detail, the algorithm is evaluated at eighteen fault resistance values between 0.1 and 1000 Ω; similarly, nine fault locations are considered within each one of the 32 sectors of the grid and the faults are simulated across different hours of a day. The developed algorithm showed promising results in both out-of-sample branch and fault resistance data especially for fault detection, demonstrating a maximum fault detection error of 0.72%.

Topics & Concepts

Gradient boostingBoosting (machine learning)GridVoltageSmart gridFault coverageFault (geology)Network topologyAlgorithmFault indicatorComputer scienceEngineeringFault detection and isolationTopology (electrical circuits)MathematicsArtificial intelligenceRandom forestElectrical engineeringElectronic circuitActuatorGeologyGeometrySeismologyOperating systemPower Systems Fault DetectionIslanding Detection in Power SystemsOptimal Power Flow Distribution