使纸质标签智能增强葡萄酒识别

Alessia Angeli, Lorenzo Stacchio, Lorenzo Donatiello, Alessandro Giacchè, Gustavo Marfia
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引用次数: 0

摘要

随着情境可视化和基于现实的信息检索系统的出现,一个无形的知识层正在逐渐增长。从本质上讲,数字内容将与现实世界的实体重叠,最终为用户提供对周围环境的洞察和有用的信息。这样一个愿景的实现可能看起来很接近,但许多微妙的细节使我们无法实现它。这种实现,由于渲染的虚拟注释和相机的真实世界视图之间的重叠,需要不同的计算机视觉范式来进行对象识别和跟踪,这通常需要高计算能力和大规模的图像数据集。然而,这些资源并不总是可用的,并且在某些特定领域,缺乏适当的参考数据集可能会破坏所考虑的任务。在这个特殊的场景中,我们在这里考虑葡萄酒识别问题,以支持对其标签的增强读取。事实上,酒瓶标签的图像可能无法获得,因为酿酒厂会定期更改其设计,产品信息法规可能会有所不同,特定的瓶子可能会很罕见,这使得标签识别过程变得困难甚至不可能。在这项工作中,我们提出了增强葡萄酒识别,这是一种增强现实系统,它利用光学字符识别范式来解释和利用葡萄酒标签中的文本,而不需要任何参考图像。我们的实验表明,这样的框架可以克服基于图像检索的系统所带来的限制,同时表现出相当的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Making paper labels smart for augmented wine recognition

Making paper labels smart for augmented wine recognition
Abstract An invisible layer of knowledge is progressively growing with the emergence of situated visualizations and reality-based information retrieval systems. In essence, digital content will overlap with real-world entities, eventually providing insights into the surrounding environment and useful information for the user. The implementation of such a vision may appear close, but many subtle details separate us from its fulfillment. This kind of implementation, as the overlap between rendered virtual annotations and the camera’s real-world view, requires different computer vision paradigms for object recognition and tracking which often require high computing power and large-scale datasets of images. Nevertheless, these resources are not always available, and in some specific domains, the lack of an appropriate reference dataset could be disruptive for a considered task. In this particular scenario, we here consider the problem of wine recognition to support an augmented reading of their labels. In fact, images of wine bottle labels may not be available as wineries periodically change their designs, product information regulations may vary, and specific bottles may be rare, making the label recognition process hard or even impossible. In this work, we present augmented wine recognition, an augmented reality system that exploits optical character recognition paradigms to interpret and exploit the text within a wine label, without requiring any reference image. Our experiments show that such a framework can overcome the limitations posed by image retrieval-based systems while exhibiting a comparable performance.
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