Deep Learning-Based Bird's Nest Detection on Transmission Lines Using UAV Imagery

In order to ensure the safety of transmission lines, the use of unmanned aerial vehicle (UAV) images for automatic object detection has important application prospects, such as the detection of birds' nests. The traditional bird's nest detection methods mainly include the study of morphological characteristics of the bird's nest. These methods have poor applicability and low accuracy. In this work, we propose a deep learning-based birds' nests automatic detection framework-region of interest (ROI) mining faster region-based convolutional neural networks (RCNN). First, the prior dimensions of anchors are obtained by using k-means clustering to improve the accuracy of coordinate boxes generation. Second, in order to balance the number of foreground and background samples in the training process, the focal loss function is introduced in the region proposal network (RPN) classification stage. Finally, the ROI mining module is added to solve the class imbalance problem in the classification stage, combined with the characteristics of difficult-to-classify bird's nest samples in the UAV images. After parameter optimization and experimental verification, the deep learning-based bird's nest automatic detection framework proposed in this work achieves high detection accuracy. In addition, the mean average precision (mAP) and formula 1 (F1) score of the proposed method are higher than the original faster RCNN and cascade RCNN. Our comparative analysis verifies the effectiveness of the proposed method.