Jing Nie, R. Anwer, Hisham Cholakkal, F. Khan, Yanwei Pang, Ling Shao
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引用次数: 68
摘要
我们提出了一个单阶段检测框架,共同解决了多尺度目标检测和类不平衡问题。我们不是设计更深层次的网络,而是引入一种简单而有效的特征丰富方案来产生多尺度上下文特征。我们进一步引入了一种级联改进方案,该方案首先将多尺度上下文特征注入单级检测器的预测层,以增强其对多尺度检测的判别能力。其次,级联细化方案通过细化锚点和丰富特征来解决类不平衡问题,从而提高分类和回归能力。在PASCAL VOC和MS COCO两个基准上进行了实验。对于MS COCO测试开发的320×320输入,我们的检测器在单尺度推理的情况下实现了最先进的单级检测精度,COCO AP为33.2,而在Titan XP GPU上运行为21毫秒。对于MS COCO测试开发的512×512输入,与报告的最佳单阶段结果[5]相比,我们的方法在COCO AP方面获得了1.6%的绝对增益。源代码和模型可在:https://github.com/Ranchentx/EFGRNet。
Enriched Feature Guided Refinement Network for Object Detection
We propose a single-stage detection framework that jointly tackles the problem of multi-scale object detection and class imbalance. Rather than designing deeper networks, we introduce a simple yet effective feature enrichment scheme to produce multi-scale contextual features. We further introduce a cascaded refinement scheme which first instills multi-scale contextual features into the prediction layers of the single-stage detector in order to enrich their discriminative power for multi-scale detection. Second, the cascaded refinement scheme counters the class imbalance problem by refining the anchors and enriched features to improve classification and regression. Experiments are performed on two benchmarks: PASCAL VOC and MS COCO. For a 320×320 input on the MS COCO test-dev, our detector achieves state-of-the-art single-stage detection accuracy with a COCO AP of 33.2 in the case of single-scale inference, while operating at 21 milliseconds on a Titan XP GPU. For a 512×512 input on the MS COCO test-dev, our approach obtains an absolute gain of 1.6% in terms of COCO AP, compared to the best reported single-stage results[5]. Source code and models are available at: https://github.com/Ranchentx/EFGRNet.
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