Power‐DETR: end‐to‐end power line defect components detection based on contrastive denoising and hybrid label assignment

Zhiyuan Xie; Chao Dong; Ke Zhang; Jiacun Wang; Yangjie Xiao; Xiwang Guo; Zhenbing Zhao; Chaojun Shi; Wei Zhao

doi:10.1049/gtd2.13275

IET Generation, Transmission & Distribution (Oct 2024)

Power‐DETR: end‐to‐end power line defect components detection based on contrastive denoising and hybrid label assignment

Zhiyuan Xie,
Chao Dong,
Ke Zhang,
Jiacun Wang,
Yangjie Xiao,
Xiwang Guo,
Zhenbing Zhao,
Chaojun Shi,
Wei Zhao

Affiliations

Zhiyuan Xie: Department of Electric and Communication Engineering and the Technology Innovation Center for Transformers of Hebei Province North China Electric Power University Baoding China
Chao Dong: Electrical and Electronic Engineering North China Electric Power University Beijing China
Ke Zhang: Department of Electric and Communication Engineering and the Hebei Key Laboratory of Power Internet of Things Technology North China Electric Power University Baoding China
Jiacun Wang: Department of Computer Science and Software Engineering Monmouth University West Long Branch New Jersey USA
Yangjie Xiao: Electrical and Electronic Engineering North China Electric Power University Beijing China
Xiwang Guo: College of Computer and Communication Engineering Liaoning Shihua University Fushun China
Zhenbing Zhao: Department of Electric and Communication Engineering and the Hebei Key Laboratory of Power Internet of Things Technology North China Electric Power University Baoding China
Chaojun Shi: Department of Electric and Communication Engineering and the Hebei Key Laboratory of Power Internet of Things Technology North China Electric Power University Baoding China
Wei Zhao: Department of Electric and Communication Engineering and the Hebei Key Laboratory of Power Internet of Things Technology North China Electric Power University Baoding China

DOI: https://doi.org/10.1049/gtd2.13275
Journal volume & issue: Vol. 18, no. 20
pp. 3264 – 3277

Abstract

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Abstract Maintenance of power transmission lines is essential for the safe and reliable operation of the power grid. The use of deep learning‐based networks to improve the performance of power line defect detection faces significant challenges, such as small target sizes, shape similarities, and occlusion issues. In response to these challenges, a transformer‐based end‐to‐end power line detection network called Power‐DETR is introduced. Initially, building upon Deformable DETR, a large pre‐trained model (Swin‐large) is utilized to increase the number of multi‐scale features, and activation checkpoint technology is applied to ensure effective training within limited memory capacity. Subsequently, a contrastive denoising training strategy is integrated to combat ambiguity and instability of the Hungarian matching algorithm during training, aiming to expedite model convergence. Additionally, a hybrid label assignment strategy combining OHEM and cost‐based ATSS is proposed to provide the model with high‐quality queries, ensuring adequate training for the decoder and enhancing encoder supervision. Experimental results substantiate the efficacy of the proposed Power‐DETR model as a novel end‐to‐end detection paradigm, surpassing both one‐stage and two‐stage detection models. Furthermore, the model demonstrates a significant 15.7% enhancement in mAP0.5 compared to the baseline.

Published in IET Generation, Transmission & Distribution

ISSN: 1751-8687 (Print); 1751-8695 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Distribution or transmission of electric power; Technology: Electrical engineering. Electronics. Nuclear engineering: Production of electric energy or power. Powerplants. Central stations
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17518695

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