Ecc-RCNN: An efficient and high-accuracy object detection framework for transmission line defect identification

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IET Smart Grid Pub Date : 2023-10-08 DOI:10.1049/stg2.12135
Yaocheng Li, Yongpeng Xu, Weihao Sun, Qinglin Qian, Zhe Li, Xiuchen Jiang
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Abstract

In order to improve the accuracy of image-based transmission line defect detection, while reducing the computational complexity and the high demand on chip performance, an object detection framework is proposed, which aims to improve model performance without increasing the scale of the model and the amount of calculation. An efficient feature fusion module to combine different-level semantic features in non-linear transformations is introduced. It includes channel-level hierarchy features, linear projection and residual mappings to gather task-oriented features across different spatial locations and scales. Then a context information modelling module is proposed to extract features around the target objects, which further increases the detection accuracy. Finally, an Intersection-over-Union-based training examples sampling strategy is adopted to alleviate the class imbalance problem. Experiments on dataset show that the proposed method, with a similar number of model parameters, has an accuracy improved by 8.1% compared to the baseline, and outperforms all the competitors in the area of transmission line defect detection.

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Ecc-RCNN:用于输电线路缺陷识别的高效、高精度目标检测框架
为了提高基于图像的输电线路缺陷检测的精度,同时降低计算复杂度和对芯片性能的高要求,提出了一种对象检测框架,其目的是在不增加模型规模和计算量的情况下提高模型性能。引入了一个高效的特征融合模块,在非线性变换中结合不同层次的语义特征。它包括通道级层次特征、线性投影和残差映射,以收集不同空间位置和尺度的任务导向特征。然后提出了一个上下文信息建模模块,用于提取目标对象周围的特征,从而进一步提高检测精度。最后,采用基于 "交叉-联合"(Intersection-over-Union)的训练示例抽样策略来缓解类不平衡问题。数据集实验表明,在模型参数数量相近的情况下,所提出的方法与基线方法相比,准确率提高了 8.1%,在输电线路缺陷检测领域优于所有竞争对手。
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来源期刊
IET Smart Grid
IET Smart Grid Computer Science-Computer Networks and Communications
CiteScore
6.70
自引率
4.30%
发文量
41
审稿时长
29 weeks
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