透明水印使用双向成像

Kristin J. Dana, G. Livescu, R. Makonahalli
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引用次数: 4

摘要

我们提出了一种使用自定义双向成像设备的透明水印方法。我们方法的两个创新概念是反射编码和多视图成像。在反射率编码中,信息嵌入在双向反射率分布函数(BRDF)的角空间中,并且该信息在每个表面点上可以变化。为了实现透明水印,利用布鲁斯特角的空间变化实现了反射率编码。这种新颖的多视点成像方法可以测量不同视角和光照角度的反射率,以便即时显示未知的布鲁斯特角。与典型的实验室测量布鲁斯特角或折射率不同,该方法不需要精确的表面法向先验知识,因此在非实验室条件下成像是可行的。此外,同时检查一系列入射角,消除了扫描入射角的需要。由于透明水印是由折射率的空间变化组成的,因此该方法非常适合于观察者无法看到水印的透明水印。水印的透明性和角度编码在防伪方面有很大的作用。在本文中,我们提出了成像装置,并证明了它在探测和测量折射率变化方面的有效性。该装置在透明水印系统中充当解码器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transparent watermarking using bidirectional imaging
We present a method for transparent watermarking using a custom bidirectional imaging device. The two innovative concepts of our approach are reflectance coding and multiview imaging. In reflectance coding, information is embedded in the angular space of the bidirectional reflectance distribution function (BRDF) and this information can vary at each surface point. In order to achieve a transparent watermark, reflectance coding is implemented using a spatial variation of the Brewster angle. The novel multiview imaging method measures the reflectance over a range of viewing and illumination angles in order to instantly reveal the unknown Brewster angle. Unlike typical in-lab measurements of the Brewster angle or the refractive index, this method does not require accurate prior knowledge of the surface normal so that imaging in non-lab conditions is feasible. Furthermore, a range of incident angles are examined simultaneously, eliminating the need for scanning incidence angles. The approach is well-suited for transparent watermarking where the observer cannot see the watermark because it is comprised of spatial variations of refractive index. The transparency and angular coding of the watermark has great utility in deterring counterfeit attempts. In this paper, we present the imaging device and demonstrate it's effectiveness in detecting and measuring changes in refractive index. This device acts as the decoder in a transparent watermark system.
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