面向消费类电子设备集成的快速三维立体图像水印框架的硬件实现

Subhadeep Koley
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引用次数: 1

摘要

由于互联网和便携式消费成像设备的空前发展,数字图像的版权保护已成为一个热门话题。提出了一种基于张量奇异值分解(svd)的快速红青色浮雕三维图像水印算法,该算法具有较高的不可感知性和鲁棒性。为了将人类视觉系统建模整合到我们的框架中,我们引入了整数提升小波变换。然后,将水印注入到由张量-奇异值分解生成的第一个对角矩阵中。由于该方法完全基于插入,因此不存在误报问题。此外,所提出的方法也在低功耗单板计算机中实现,用于个人和工业消费成像设备的无缝集成。此外,采用基于Arnold Cat Map的加密算法对水印进行加密,进一步提高了水印的安全性。与各种最先进的方法进行定性和定量比较,证明了该算法在大多数形式的信号处理和几何损伤下的优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hardware Implementation of a Fast 3D Anaglyph Image Watermarking Framework for Integration in Consumer Electronics Devices
Due to the unprecedented growth of the internet and portable consumer imaging devices, copyright protection of digital images has become a topical affair. In this paper, a fast Tensor-SVD based red-cyan anaglyph 3D image watermarking has been presented which provides high imperceptibility, and robustness. To integrate the Human Visual System modelling into our framework, integer lifting wavelet transform has been incorporated. After that, the watermark has been infused within the first diagonal matrix generated by Tensor-SVD. The proposed method is free from false positive issues due to its total insertion-based approach. Furthermore, the proposed method is also implemented in a low-power Single Board Computer for seamless integration in personal and industrial consumer imaging devices. Moreover, the watermark’s security has been further increased by encrypting it with Arnold’s Cat Map based cryptic algorithm. Qualitative and quantitative comparison with various state-of-the-art methods justifies the superiority of the suggested algorithm under most form of signal processing, and geometric impairments.
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