End-to-end deep learning on classification of neutral-to-ground voltage in secondary distribution systems

•Classification of the high neutral-to-ground voltage (NTGV) events in the secondary distribution system.•A proposed deep learning (DL) model based on gate recurrent unit (GRU) for classify NTGV events.•5-fold cross-validation showed that the proposed model outperforms basic DL models (i.e., LSTM, B...

Full description

Saved in:
Bibliographic Details
Published in:e-Prime 2024-12, Vol.10, p.100795, Article 100795
Main Authors: Mahadan, Mohd Ezwan, Abidin, Ahmad Farid, Yusoh, Mohd Abdul Talib Mat, Hairuddin, Muhammad Asraf, Ashar, Nur Dalila Khirul
Format: Article
Language:English
Subjects:
Deep learning
Disturbances classification
Gate recurrent unit (GRU)
Neutral-to-ground voltage (NTGV)
Power distribution systems
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Classification of the high neutral-to-ground voltage (NTGV) events in the secondary distribution system.•A proposed deep learning (DL) model based on gate recurrent unit (GRU) for classify NTGV events.•5-fold cross-validation showed that the proposed model outperforms basic DL models (i.e., LSTM, Bi-LSTM and GRU) by demonstrating superior accuracy and F1-score.•The comparison to the existing model (i.e., SVM, KNN) revealed that the proposed model was more efficient in terms of computing power, with comparable accuracy and F1-score to the existing model.•The work reveals that the proposed DL model emerged as the most efficient and accurate approach for NTGV classification. Neutral-to-ground voltage (NTGV) abnormalities in secondary distribution systems (SDS) pose significant power quality (PQ) challenges, including safety hazards, power losses, and equipment damage. Despite their importance, these abnormalities remain relatively understudied. Accurate classification of NTGV events is crucial for effective mitigation strategies. Existing research primarily relies on machine learning (ML) models trained on manually extracted features from simulated or real-world signals. This paper introduces a novel end-to-end deep learning approach that leverages Gate Recurrent Units (GRU) to bypass manual feature extraction, directly utilizing real-world signals from three NTGV event categories: ground fault, lightning strike, and normal conditions. This is first time that GRU has been used for NTGV classification using raw data. The model's generalizability is assessed through 5-fold cross-validation. A comparative analysis with baseline models and traditional ML techniques demonstrates the proposed model's superior performance and computational efficiency due to its ability to directly process raw data.
ISSN:2772-6711
2772-6711
DOI:10.1016/j.prime.2024.100795