Light weight detection method for typical components and defects of transmission lines based on improved YOLOX

WANG Lingyun; WAN Xudong; LIU Lanlan; HUNAG Li

doi:10.15938/j.emc.2025.09.010

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Light weight detection method for typical components and defects of transmission lines based on improved YOLOX

更新时间：2025-11-03

- Light weight detection method for typical components and defects of transmission lines based on improved YOLOX
- Issue 9, Pages: 106-115(2025)
- 作者机构：
  
  1. 三峡大学电气与新能源学院,湖北,宜昌,443002
  2. 三峡大学湖北省输电线路工程技术研究中心,湖北,宜昌,443002
  3. 带电巡检与智能作业技术国网公司实验室,湖南,长沙,421000
- 作者简介：
- 基金信息：
- DOI：10.15938/j.emc.2025.09.010
  CLC： TM75;TP391
- Published：2025
- 稿件说明：
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WANG Lingyun, WAN Xudong, LIU Lanlan, et al. Light weight detection method for typical components and defects of transmission lines based on improved YOLOX[J]. 2025, (9): 106-115.
DOI：

WANG Lingyun, WAN Xudong, LIU Lanlan, et al. Light weight detection method for typical components and defects of transmission lines based on improved YOLOX[J]. 2025, (9): 106-115. DOI： 10.15938/j.emc.2025.09.010.

摘要

针对输电线路部件及缺陷检测中模型体积大、实时性差的问题

以及因背景复杂、样本不平衡导致易误检、漏检的问题

提出一种基于改进YOLOX的输电线路典型部件及缺陷轻量检测方法。首先引入Ghostnet替换原有主干网络

实现模型轻量化。其次为解决输电线路图像背景复杂导致易漏检、误检的问题

将坐标注意力模块嵌入特征融合网络和CSPLayer结构

加强对复杂背景中目标区域的关注。最后针对输电线路部件及缺陷样本不平衡以及不同目标检测难度差异大的问题

引入变焦损失函数

降低正负样本不平衡带来的影响

提升对难分类目标的训练强度以减少误检和漏检。实验结果表明

所提方法在输电线路部件及缺陷检测中的平均精度均值提高2.67%

模型尺寸减少33.01%

推理速度为19.61 ms/张

能够满足无人机轻量化、高精度的电力实时巡检要求。

Abstract

Aiming at the problems of large model size and poor real-time performance in the detection of transmission line components and defects

as well as the problems of frequent false detection and missed detection due to complex background and imbalanced samples

a light weight detection method for typical transmission line components and defects based on improved YOLOX was proposed. Firstly

Ghostnet was introduced to replace the original backbone network to achieve model lightweighting. Secondly

in order to solve the problem of frequent missed detection and false detection caused by the complex background of the transmission line image

the coordinate attention module was embedded into both of the feature fusion network and CSPLayer structure to enhance the focus on the target area in complex background. Finally

to address the problems of the imbalance samples of transmission line components and defects and the great differences in detection difficulty of different targets

the Varifocal loss function was introduced to reduce the impact caused by the imbalance of positive and negative samples

and improve the training intensity of difficult-to-classify targets to reduce false detection and missed detection. The experimental result shows that the average accuracy of the proposed method in the detection of transmission line components and defects is increased by 2.67%

the model size is reduced by 33.01%

and the reasoning speed is 19.61 ms/piece

which can satisfy the requirements of UAV lightweight and high-precision power real-time inspection.

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