利用DWT、DCT、LSB和水印集成实现数字图像完整性的安全机制

Mohammed abd, Osamah Waleed, Allawi
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引用次数: 0

摘要

“水印”是一种将数字信息隐藏在载波信号中的方法;隐藏信息应与载波信号相关。有许多不同类型的数字水印,包括使用可见媒体(如快照、图像或视频)的传统水印,并且一个信号可能携带许多水印。任何可以容忍噪声的信号,如音频、视频或图像数据,都可以在其中植入数字水印。为了保护媒体文件中的版权信息,数字水印必须能够承受对载波信号所做的更改。数字水印的目标是确保数据的完整性,而隐写术的重点是使信息无法被人类发现。与公钥加密不同,水印不会改变原始数字图像,而是创建一个具有嵌入式安全方面的新图像,以实现完整性。加密对解密的文档没有残留影响。这项工作的重点是用于版权保护目的的强数字图像水印算法。讨论了各种类型和用途的水印,并对当前的水印技术和攻击进行了综述。该项目展示了如何在频域使用DCT和DWT水印图像,以及在空间域使用LSB方法。当涉及到噪声和压缩时,频域方法远比LSB更具弹性。所有这些情况都需要使用原始图片来去除水印。在这三种方法中,DWT方法提供了最好的结果。通过在这些地方嵌入水印,我们可以提高水印的弹性,同时对图像质量几乎没有额外的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Secured Mechanism Towards Integrity of Digital Images Using DWT, DCT, LSB and Watermarking Integrations
"Watermarking" is one method in which digital information is buried in a carrier signal; the hidden information should be related to the carrier signal. There are many different types of digital watermarking, including traditional watermarking that uses visible media (such as snaps, images, or video), and a signal may be carrying many watermarks. Any signal that can tolerate noise, such as audio, video, or picture data, can have a digital watermark implanted in it. A digital watermark must be able to withstand changes that can be made to the carrier signal in order to protect copyright information in media files. The goal of digital watermarking is to ensure the integrity of data, whereas steganography focuses on making information undetectable to humans. Watermarking doesn't alter the original digital image, unlike public-key encryption, but rather creates a new one with embedded secured aspects for integrity. There are no residual effects of encryption on decrypted documents. This work focuses on strong digital image watermarking algorithms for copyright protection purposes. Watermarks of various sorts and uses were discussed, as well as a review of current watermarking techniques and assaults. The project shows how to watermark an image in the frequency domain using DCT and DWT, as well as in the spatial domain using the LSB approach. When it comes to noise and compression, frequency-domain approaches are far more resilient than LSB. All of these scenarios necessitate the use of the original picture to remove the watermark. Out of the three, the DWT approach has provided the best results. We can improve the resilience of our watermark while having little to no extra influence on image quality by embedding watermarks in these places. 
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