Dlafs级联r-cnn:基于动态标签分配的目标检测器

Journal of Computer Science and Cybernetics Pub Date : 2022-06-23 DOI:10.15625/1813-9663/38/2/16252

Doanh Bui Cao, Nguyen Vo Duy, Khang Nguyen

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引用次数: 0

摘要

基于深度学习的目标检测方法是计算机视觉领域的革命，特别是目标检测问题。具体来说，它们属于R - CNN家族:Faster R - CNN和Cascade R - CNN。它们的特点是区域提案网络，该网络用于生成可能包含对象或不包含对象的提案区域，然后根据IoU阈值对提案进行分类。在本研究中，我们应用动态训练，根据Faster R - CNN和Cascade R - CNN上的建议区域统计，在SeaShips和DODV数据集上进行训练，调整IoU阈值。Cascade R - CNN与动态训练相比，在这两个数据集上都取得了更高的结果(在SeaShips和DODV数据集上分别高出0.2%和5.7%)。在DODV数据集中，带有动态训练的Faster R - CNN也比其正常版本表现出更高的结果，高出4.4%。

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DLAFS CASCADE R-CNN: AN OBJECT DETECTOR BASED ON DYNAMIC LABEL ASSIGNMENT

Object detection methods based on Deep Learning are the revolution of the Computer Vision field in general and object detection problems in particular. In detail, they are methods that belonged to the R - CNN family: Faster R - CNN and Cascade R - CNN. The characteristic of them is the Region Proposal Network, which is utilized for generating proposal regions that may include objects or not, then the proposals will be classified by the IoU threshold. In this study, we apply dynamic training, which adjusts this IoU threshold depending on the statistic of proposal regions on the Faster R - CNN and Cascade R - CNN, training on the SeaShips and DODV dataset. Cascade R - CNN with dynamic training achieve higher results compared to normal on both two datasets (higher 0.2% and 5.7% on the SeaShips and DODV dataset, respectively). In the DODV dataset, Faster R - CNN with dynamic training also perform higher results compared to its normal version, 4.4% higher.

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Journal of Computer Science and Cybernetics

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