Deep License Plate Recognition in Ill-Conditioned Environments With Ill-Conditional Data Augmentation

C. Lien, Yu-Chun Chien, Fu-Yu Teng, Chih-Chieh Yang
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Abstract

In general, the conventional LPR systems consist of the following modules: feature extraction, license plate locating, character segmentation, and character recognition. The performances of these module are strongly correlated with some low level image features, e.g., edges, colors, and textures. These low level image features can be influenced significantly by the illumination and view angle variations such that the recognition accuracy is degraded. Recently, the deep learning technologies make the conventional vision-based recognition technologies getting significant improvement in terms of feature discrimination and recognition accuracy. In this paper, we aim to develop a novel deep learning based LPR system with the ill-conditional data augmentation. Therefore, this paper is expected to the following contributions. First, we apply the WebGL technology to augment the training database for the ill-conditioned outdoor environments. Second, we apply the YOLOv2 DNN architecture to develop deep license plate recognition system in the ill-conditioned environments with recognition accuracy 98%.
基于病态数据增强的病态环境下车牌深度识别
一般来说,传统的车牌识别系统包括以下几个模块:特征提取、车牌定位、字符分割和字符识别。这些模块的性能与一些低级图像特征密切相关,例如边缘、颜色和纹理。这些低水平的图像特征会受到光照和视角变化的显著影响,从而降低识别精度。近年来,深度学习技术使传统的基于视觉的识别技术在特征识别和识别精度方面得到了显著的提高。在本文中,我们的目标是开发一种新的基于深度学习的LPR系统。因此,本文预计将做出以下贡献。首先,我们应用WebGL技术对恶劣室外环境下的训练数据库进行扩充。其次,应用YOLOv2深度神经网络架构开发了病态环境下深度车牌识别系统,识别准确率达到98%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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