BoxCars: 3D Boxes as CNN Input for Improved Fine-Grained Vehicle Recognition

Jakub Sochor, A. Herout, Jirí Havel
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引用次数: 161

Abstract

We are dealing with the problem of fine-grained vehicle make&model recognition and verification. Our contribution is showing that extracting additional data from the video stream - besides the vehicle image itself - and feeding it into the deep convolutional neural network boosts the recognition performance considerably. This additional information includes: 3D vehicle bounding box used for "unpacking" the vehicle image, its rasterized low-resolution shape, and information about the 3D vehicle orientation. Experiments show that adding such information decreases classification error by 26% (the accuracy is improved from 0.772 to 0.832) and boosts verification average precision by 208% (0.378 to 0.785) compared to baseline pure CNN without any input modifications. Also, the pure baseline CNN outperforms the recent state of the art solution by 0.081. We provide an annotated set "BoxCars" of surveillance vehicle images augmented by various automatically extracted auxiliary information. Our approach and the dataset can considerably improve the performance of traffic surveillance systems.
BoxCars: 3D盒子作为CNN输入,用于改进细粒度车辆识别
我们正在处理细粒度的车型识别和验证问题。我们的贡献是表明,从视频流中提取额外的数据——除了车辆图像本身——并将其输入深度卷积神经网络,大大提高了识别性能。这些附加信息包括:用于“拆封”车辆图像的3D车辆边界框,其栅格化的低分辨率形状,以及有关3D车辆方向的信息。实验表明,与未经任何输入修改的基线纯CNN相比,加入这些信息后,分类误差降低了26%(准确率从0.772提高到0.832),验证平均精度提高了208%(0.378提高到0.785)。此外,纯基线CNN比最新的最先进的解决方案高出0.081。我们提供了一组标注的“BoxCars”监控车辆图像,这些图像由各种自动提取的辅助信息增强。我们的方法和数据集可以大大提高交通监控系统的性能。
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