基于FPGA的小波变换不可见图像水印编码器的设计与实现

2013 International Conference on Current Trends in Engineering and Technology (ICCTET) Pub Date : 2013-07-03 DOI:10.1109/ICCTET.2013.6675976

S. Kiran, K. V. Nadhini Sri, J. Jaya

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引用次数: 10

摘要

水印系统可以通过软件或硬件两种方式实现。文献中有许多基于软件的水印方案。目前使用的水印技术在图像采集和传输之间存在一定的差距。一旦图像被获取，水印被离线地插入其中，然后图像就可用了。本文的目标是实现基于硬件的不可见水印方案，以弥补这一空白，从而在捕获图像的同时实时进行水印。本文提出了一种基于Haar[1]小波变换实现不可见水印方案的VLSI架构。该技术使用二维DWT将图像分解为不同的频率通道。将一幅缩放后的图像作为水印插入到中频小波通道中。对变换后的小波分解进行二维IDWT，得到水印嵌入图像。为了降低设计的复杂性，本文采用了DWT和IDWT的线性代数视图。

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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Design and implementation of FPGA based invisible image watermarking encoder using wavelet transformation

A watermarking system can be implemented with either in software or hardware. There are numerous software based watermarking schemes available in literature. There is a gap between image capture and transmission in the way watermarking is used presently. Once the images are acquired watermarks are inserted in them offline and then images are made available. The objective of this work is to implement hardware based invisible watermarking scheme so as to bridge that gap, so that watermarking is done in real time while capturing the image. In this paper, VLSI architecture for implementing invisible watermarking scheme based upon Haar [1]wavelet transformation is proposed. This technique uses a 2D DWT to decompose an image into various frequency channels. A scaled image is used as the watermark and inserted into mid frequency wavelet channel. Taking 2D IDWT of the altered wavelet decomposition produces the watermark embedded image. In order to reduce the complexities of the design, linear algebra view of DWT and IDWT has been use in this paper.

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2013 International Conference on Current Trends in Engineering and Technology (ICCTET)

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