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ID-YOLO: A Multimodule Optimized Algorithm for Insulator Defect Detection in Power Transmission Lines

Qiang Zhang, Jianing Zhang, Ying Li, Changfei Zhu, Guifang Wang

2025IEEE Transactions on Instrumentation and Measurement27 citationsDOI

Abstract

Insulators play a crucial role in providing electrical isolation in power transmission lines, and timely detection of their defects is vital to avoid severe human life and property losses. In the context of drone inspections of power transmission lines, accurate and timely detection and localization of insulator defects are of paramount importance. Considering the inadequacy of the YOLO series of algorithms in extracting features of insulators and their defects in complex backgrounds, we have designed a method called Insulator Defect-YOLO (ID-YOLO) to address this challenge. First, we develop the Global Convolution (GConv) module to integrate spatial and channel information, thereby enhancing the effectiveness of feature extraction. Second, we built the C3-Global Pooling Fusion (C3-GPF) module, aimed at strengthening focus on key data during the feature extraction and fusion stages. Third, we develop the Multi-Scale Information Fusion (MSIF) module to balance the algorithm’s detection accuracy and speed, ensuring superior performance in practical applications. Fourth, we built the Weighted Feature Information Fusion (WFIF) module to further enhance the fusion capability of key information. Finally, we adopt the SCYLLA-IoU (SIoU) loss function to replace the original CIoU, thereby improving the algorithm’s localization precision and accelerating convergence speed. Experimental results indicate that ID-YOLO achieves an average precision of 90.9%, representing a 3.3% improvement over the baseline YOLOv5s algorithm. Additionally, ID-YOLO achieves a detection speed of 90 frames per second, meeting the requirements for real-time detection. Practical test results demonstrate that the ID-YOLO algorithm significantly improves detection precision while effectively addressing the challenges associated with multi-object and small-object detection, showcasing its potential application in detecting insulator defects in power transmission lines.

Topics & Concepts

Electric power transmissionComputer scienceFeature extractionTransmission (telecommunications)AlgorithmSensor fusionReal-time computingArtificial intelligenceEngineeringElectrical engineeringTelecommunicationsAdvanced Neural Network ApplicationsPower Line Inspection RobotsInfrastructure Maintenance and Monitoring
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