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Classification of faults in an IEEE 30 bus transmission system using fully convolutional network

Publication Type : Journal Article

Source : International Transactions on Electrical Energy Systems, Volume 31, Issue 11, 2021

Url : https://onlinelibrary.wiley.com/doi/abs/10.1002/2050-7038.13134

Campus : Bengaluru

School : School of Artificial Intelligence

Verified : No

Year : 2021

Abstract : Fault diagnosis is vital for detecting the type of fault and rapid restoration of the electric power supply. The existing machine learning‐based classification method for detecting fault shows better performance. But these methods require manual pre‐processing steps and feature engineering, which makes them unreliable and time‐consuming for the complex and multi‐bus system. In this paper, a fully automated approach based on a deep learning framework has been proposed for the multi‐classification of faults in a grid network. The deep learning framework provides a better incentive to predict the type of fault directly using raw data as input. For this intended task of fault diagnosis, a fully convolutional network is designed and implemented to provide better performance with less trainable parameters. The proposed scheme is tested on the large number of simulated data generated from an IEEE 30 bus system. The performance for fault classification is validated through 10‐fold cross‐validation and numerous performance metrics like accuracy, recall, precision, specificity, and F1 score are evaluated. The performance of the different models with parameter variation is compared to obtain better performance with optimal trainable parameters. It has also been compared with some existing methods and shows promising result for fault classification in the large or multi‐bus system.

Cite this Research Publication : Anurag Tikariha, Narendra D. Londhe, Baidyanath Bag and Ritesh Raj, Classification of faults in an IEEE 30 bus transmission system using fully convolutional network, International Transactions on Electrical Energy Systems, Volume 31, Issue 11, 2021, e13134, https://doi.org/10.1002/2050-7038.13134

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