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Tracking Hammerhead Sharks with Deep Learning

Abstract:

In this study, we propose a new automated method based on deep convolutional neural networks to detect and track endangered hammerhead sharks in video sequences. The proposed method improved the standard YOLOv3 deep architecture by adding 18 more layers (16 convolutional and 2 Yolo layers), which increased the model performance in detecting the species under analysis at different scales. According to the frame analysis based validation, the proposed method outperformed the standard YOLOv3 architecture in terms of accuracy scores for the majority of inspected frames. Also, the mean of precision and recall on an experimental frames dataset formed using the 10-fold cross-validation method highlighted that the proposed method was better than the standard YOLOv3 architecture, reaching scores of 0.99 and 0.93 versus 0.95 and 0.89 for the mean of precision and recall, respectively. Furthermore, both methods were able to avoid introducing false positive detections. However, they were unable to handle the problem of species occlusion. Our results indicate that the proposed method is a feasible alternative tool that could help to monitor relative abundance of hammerhead sharks in the wild.