共查询到18条相似文献,搜索用时 125 毫秒
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基于混沌置乱的分块自嵌入水印算法 总被引:18,自引:0,他引:18
针对分块自嵌入水印算法的安全性和不能有效判断图像篡改块的问题,提出一种基于混沌置乱的分块自嵌入算法.该算法将由图像块生成的水印按空间位置生成二值水印图像,利用混沌序列对其置乱加密后嵌入到图像的最低位,认证时根据设定的阈值能有效定位图像内容被篡改的图像块.实验仿真和理论分析表明,该算法在保持原算法篡改恢复效果的基础上,无论是否有水印被改变,均能有效判断图像内容被篡改的图像块,且具有更高的安全性. 相似文献
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针对目前脆弱水印算法大多无法区分水印被篡改还是内容被篡改的问题,本文基于多重水印技术提出了一种能区分水印或内容篡改的脆弱水印算法.该算法由子块的主要DCT系数生成恢复水印,将其嵌入到偏移子块的次低位;待恢复水印嵌入后,将恢复水印作为子块内容的一部分生成认证水印,将其嵌入到子块的最低位.理论分析和实验结果表明:本文算法在抵抗量化攻击的同时,不仅能准确定位图像内容被篡改的位置,而且能区分是水印被篡改还是图像内容被篡改,并且在一定条件下可以对内容被篡改的区域进行恢复. 相似文献
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针对现有音频内容取证算法采用二值图像作为辨识水印所带来的安全隐患,以及基于音频内容或特征生成的辨识水印稳定性不高,易被常规信号处理操作淹没的问题,提出了一种新的基于时域统计特征的音频内容取证算法。通过对音频信号时域统计平均值进行非均匀量化生成辨识水印。理论和实验结果表明通过该方法生成的辨识水印能够抵抗常规信号处理操作,稳定性高。生成的辨识水印存储于认证中心,组建辨识水印库。对音频内容进行取证时,将由该音频生成的辨识水印与从水印库中提取的对应辨识水印进行比对,即可对待取证音频的真实性、完整性进行鉴定。该取证方法操作简便,对不同类型音频均能实现篡改定位,对常规音频信号处理操作的鲁棒性高,有效扩大了基于内容音频取证算法的应用范围。 相似文献
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用于图像认证的小波域半易损水印算法 总被引:6,自引:0,他引:6
提出了一种新颖的用于图像认证的半易损水印算法,该算法提取图像在小波低频域的特征信息生成两个水印,一个水印主要用于篡改定位,另一个水印主要用于区分图像所经历的偶然修改和恶意篡改,从而提供了一种有效的图像选择认证机制.此外,该算法的水印生成和嵌入都在图像本身中进行,图像认证时不需要原始图像和任何有关水印的附加信息,从而提高了水印的安全性和保密性.实验结果表明,此算法能很好地将对图像内容的恶意篡改和偶然修改区分开来,并可以给出内容篡改的位置. 相似文献
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提出了一种新的脆弱盲水印生成算法用于图像完整性证明和内容篡改证明。首先将原始图像分块,对各分块进行一次整数小波变换;计算4个子带(LL,HL,LH,HH)小波系数绝对值的均值,分别映射为混沌初值,经过迭代、量化生成二值水印信息;最后将水印信息随机嵌入到4个子带中。实验结果表明,所提出的算法提高了篡改检测率,对图像的篡改具有高度敏感性和准确的篡改定位能力。水印提取为盲提取,篡改检测只用到了篡改后的水印图像。 相似文献
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针对现有脆弱型水印方案不能区分是图像内容还是水印被篡改的问题,提出一种能区分图像或水印篡改的脆弱水印方案.该方案用原始图像高7位的小波低频系数非均匀量化后生成的低频压缩图像作为水印,并用混沌系统对水印进行置乱加密,将安全性得到增强的水印直接嵌入到图像的LSB位;认证时通过差值图像定位图像内容被篡改的位置并指出图像中的水印是否被篡改.理论分析和仿真实验表明:该算法不但能精确定位图像内容被篡改的位置,而且能区分是图像内容被篡改、水印被篡改还是两者同时被篡改. 相似文献
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用于图像篡改定位和恢复的分层半脆弱数字水印算法 总被引:1,自引:0,他引:1
设计并实现了一种基于分层的半脆弱数字水印算法,用于图像内容完整性认证,篡改定位和恢复。在嵌入方,将水印信息嵌入到原始图像所有像素的2bit最低有效比特,其中认证水印由奇偶校验码和块与子块之间灰度平均值的比较组成;恢复水印为环面自同构映射块的平均灰度值。在检测方,采用分层思想,分3层对水印进行篡改定位和恢复。实验结果表明,该算法对局部发生的篡改可以有效地检测,精确定位并进行内容恢复,同时能够有效的抵抗矢量量化攻击。 相似文献
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《Journal of Visual Communication and Image Representation》2014,25(5):1064-1081
In this work, a semi-fragile watermarking scheme, for grayscale image authentication and tamper detection, is proposed. The proposed watermarking scheme is based on implementing a modified DWT quantization-based algorithm by embedding a random watermark bit sequence into the DWT domain using an expanded-bit multiscale quantization-based technique with adjusted watermarked location. Here, the watermark bit is expanded into three similar bits and embedded in a multiscale fashion into the DWT low-frequency subbands of the 2nd DWT levels (LL2, LLHL1 and LLLH1). An adjustment of the quantized coefficients is provided based on modifying their values to fall in more secure locations within the quantization interval. Several designed criteria were used to judge the received image by classifying it into: authenticated, incidentally or maliciously attacked with high accuracy in detecting and classifying attacks. Experimental results have shown the suitability of the proposed approach for tamper detection and accurate authentication. 相似文献
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In this paper a new invisible watermarking algorithm using vector quantization (VQ) approach for image content authentication application is proposed. At the first stage, a robust verification watermark is embedded using properties of indices of vector quantized image using key based approach. At the second stage, the semi-fragile watermark is embedded by using modified index key based (MIKB) method. Robust watermark andVQenhance the security of the system by providing its double protection. The semi-fragile watermark is utilized for the authentication of the received image. Blind extraction of the watermark is performed independently in two successive steps i.e. in the order of embedding. Further, in oder to classify quantitatively an incidental or intentional attack, which at present is not being followed, a quantitative threshold approach using pixel neighborhood clustering is suggested. The existing methods employ the qualitative approach of identifying incidental or intentional attacks. Imperceptibility of watermarked image is 41 dB on the average, and it is also possible to detect and locate tamper with very high sensitivity. The present scheme is compared with the existing algorithms. The performance of proposed algorithm has been tested on various practical images. It outperforms in distinguishing malicious tampering from content preserving changes and the tampered regions are accurately localized. 相似文献
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《Signal Processing: Image Communication》2007,22(5):515-528
This paper presents a semi-fragile watermarking method for the automatic authentication and restoration of the content of digital images. Semi-fragile watermarks are embedded into the original image, which reflect local malicious tampering on the image. When tampered blocks are detected, the restoration problem is formulated as an irregular sampling problem. These blocks are then reconstructed, making use of the information embedded in the same watermarked image, through iterative projections onto convex sets. In contrast to previous methods, the restoration process is robust to common image processing operations such as lossy transcoding and image filtering. Simulation results showed that the scheme keeps the probability of false alarm to a minimum while maintaining the data integrity of the restored images. 相似文献
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