Achieving rapid and effective object detection in large-scale unmanned aerial vehicle (UAV) images presents a challenge. Existing methods typically split the original large UAV image into overlapping patches and perform object detection on each image patch. However, the extensive object-free background areas in large-scale aerial imagery reduce detection efficiency. To address this issue, we propose an efficient object detection approach for large-scale UAV aerial imagery via multi-task classification. Specifically, we develop a lightweight multi-task classification (MTC) network to efficiently identify background areas. Our method leverages bounding box label information to construct a salient region generation branch. Then, to improve the training process of the classification network, we design a multi-task loss function to optimize the parameters of the multi-branch network. Furthermore, we introduce an optimal classification threshold strategy to balance detection speed and accuracy. Our proposed MTC network can rapidly and accurately determine whether an aerial image patch contains objects, and it can be seamlessly integrated with existing detectors without the need for retraining. We conduct experiments on three datasets to verify the effectiveness and efficiency of our classification-driven detection method, including the DOTA v1.0, DOTA v2.0, and ASDD datasets. In the large-scale UAV images and ASDD dataset, our proposed method increases the detection speed by more than 30% and 130%, respectively, while maintaining good object detection performance.


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    Title :

    Towards Efficient Object Detection in Large-Scale UAV Aerial Imagery via Multi-Task Classification


    Contributors:
    Shuo Zhuang (author) / Yongxing Hou (author) / Di Wang (author)


    Publication date :

    2025




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    Unknown




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