Abstract

Monitoring and maintenance of faults in the power system are very complex because its configuration keeps on changing due to the inclusion of new loads and distributed generation (DGs)/microgrids in the existing power system. As a result, in the event of a fault, manual fault diagnosis is time- consuming and tedious. Machine Learning-based fault diagnoses are being proposed by the researcher to replace previously used model-based fault diagnoses. ML enables timely identification and localization of faults which can prevent unattended long- duration power failure. Various researches have been done on different ML models for power system fault diagnosis. In this paper, a brief overview of recently popular ML-based fault diagnosis techniques has been discussed and a comparative study of these models on the IEEE 9bus system has been reported with a stepwise procedure of how they were implemented.

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