A two-stage training deep neural network for small pedestrian detection

Tran Duy Linh, Masayuki Arai
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引用次数: 1

Abstract

In the present paper, we propose a deep network architecture in order to improve the accuracy of pedestrian detection. The proposed method contains a proposal network and a classification network that are trained separately. We use a single shot multibox detector (SSD) as a proposal network to generate the set of pedestrian proposals. The proposal network is fine-tuned from a pre-trained network by several pedestrian data sets of large input size (512 × 512 pixels) in order to improve detection accuracy of small pedestrians. Then, we use a classification network to classify pedestrian proposals. We then combine the scores from the proposal network and the classification network to obtain better final detection scores. Experiments were evaluated using the Caltech test set, and, compared to other state-of-the-art methods of pedestrian detection task, the proposed method obtains better results for small pedestrians (30 to 50 pixels in height) with an average miss rate of 42%.
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一种用于小型行人检测的两阶段训练深度神经网络
在本文中,我们提出了一种深度网络架构,以提高行人检测的准确性。该方法包含单独训练的提议网络和分类网络。我们使用单镜头多盒检测器(SSD)作为提议网络来生成行人提议集。为了提高对小型行人的检测精度,该网络通过多个大输入尺寸(512 × 512像素)的行人数据集对预训练网络进行微调。然后,我们使用分类网络对行人建议进行分类。然后,我们将提议网络和分类网络的分数结合起来,得到更好的最终检测分数。使用加州理工学院的测试集对实验进行了评估,与其他最先进的行人检测任务方法相比,该方法在小行人(高度为30 ~ 50像素)中获得了更好的结果,平均缺失率为42%。
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