基于半监督学习的真实朦胧场景鲁棒车辆相似学习

Wei-Ting Chen, I-Hsiang Chen, C. Yeh, Han Yang, Hua-En Chang, Jianwei Ding, Sy-Yen Kuo
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引用次数: 3

摘要

近年来,车辆相似学习,也称为再识别(ReID),在计算机视觉领域引起了广泛的关注。已经开发了几种算法并取得了相当大的成功。然而,由于能见度差,现有的大多数方法在雾霾场景下的性能都不理想。虽然有一些策略可以解决这个问题,但由于在现实场景中的性能有限,并且缺乏现实世界明确的事实,它们仍然有改进的空间。因此,为了解决这个问题,受CycleGAN的启发,我们构建了一个名为\textbf{RVSL}的训练范式,该范式集成了ReID和域转换技术。该网络采用半监督方式进行训练,不需要使用ID标签和相应的清晰地面事实来学习真实雾霾场景下的雾霾车辆ReID任务。为了进一步有效地约束无监督学习过程,提出了几种损失算法。在合成数据集和真实数据集上的实验结果表明,本文提出的方法可以在雾天车辆ReID问题上达到最先进的性能。值得一提的是,尽管所提出的方法是在没有真实世界标签信息的情况下进行训练的,但与现有的在完整标签信息上训练的监督方法相比,它可以获得具有竞争力的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
RVSL: Robust Vehicle Similarity Learning in Real Hazy Scenes Based on Semi-supervised Learning
Recently, vehicle similarity learning, also called re-identification (ReID), has attracted significant attention in computer vision. Several algorithms have been developed and obtained considerable success. However, most existing methods have unpleasant performance in the hazy scenario due to poor visibility. Though some strategies are possible to resolve this problem, they still have room to be improved due to the limited performance in real-world scenarios and the lack of real-world clear ground truth. Thus, to resolve this problem, inspired by CycleGAN, we construct a training paradigm called \textbf{RVSL} which integrates ReID and domain transformation techniques. The network is trained on semi-supervised fashion and does not require to employ the ID labels and the corresponding clear ground truths to learn hazy vehicle ReID mission in the real-world haze scenes. To further constrain the unsupervised learning process effectively, several losses are developed. Experimental results on synthetic and real-world datasets indicate that the proposed method can achieve state-of-the-art performance on hazy vehicle ReID problems. It is worth mentioning that although the proposed method is trained without real-world label information, it can achieve competitive performance compared to existing supervised methods trained on complete label information.
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