基于音频特征的抗去同步攻击数字水印算法

抗去同步攻击的强鲁棒数字音频水印方法研究是一项富有挑战性的工作.本文结合数字音频自身特征,提出了一种基于音频内容的抗去同步攻击数字水印算法.该算法首先根据数字音频的局部能量特征,从原始载体中提取出稳定的特征点;然后以音频特征点为标识,确定用于水印嵌入的候选音频段;最后采纳量化调制策略,将数字水印嵌入到音频载体内.进行数字水印检测时,系统通过分析音频内容提取特征点,再以特征点为标识提取水印信息,水印检测无需原始音频信号参与.仿真实验结果表明,本文算法不仅具有较好的不可感知性,而且对常规信号处理(MP3压缩、低通滤波、添加噪声等)和去同步攻击(随机剪切、幅度缩放、时间延展、抖动等)均具有较好的鲁棒性.     

基于音频统计特性的数字水印嵌入算法

结合数字音频时频域统计特性及同步码技术, 提出了一种可有效抵抗去同步攻击的混合域数字音频水印嵌入算法. 该算法首先结合数字水印与同步码(大小), 对原始音频载体进行分段处理, 并将每个音频数据段分割成两部分用于嵌入同步码与水印信息; 然后利用时间域音频样本统计特性, 将同步码信息嵌入到音频样本的统计均值上; 最后根据频率域小波系数统计特性, 将数字水印嵌入到低频小波系数的平均值内.     

新的特征点强鲁棒音频水印技术

以均值量化索引调制（MQIM）、特征点为理论基础,提出一种新颖的强鲁棒性数字音频水印技术。该算法选取数字音频的局部能量峰值点作为特征,提取稳定的特征点;以特征点为标记,对特征点后的区域进行分段,利用均值量化索引调制将水印嵌入到原始音频的小波域中。水印提取时无需原始图像。仿真实验表明,提出的算法对常规信号处理（MP3压缩、叠加噪声、重新采样、重新量化等）和去同步攻击（随机剪切、幅度缩放、变调、抖动等）均具有较好的鲁棒性。     

基于重心的抗同步攻击的音频水印算法

抗同步攻击是音频水印领域公开的难题. 相对重心是音频的一个稳定的全局特征量, 对 TSM (Time scale modification)等同步攻击不敏感. 本文提出一种基于相对重心的抗同步攻击的音频水印算法,提出的算法通过量化音频的相对重心生成水印, 生成的水印由混沌序列加密后以量化的方法嵌入载体音频三级小波近似分量均值中. 为了降低同步攻击后同步位置的连续偏移, 水印嵌入提取过程采用了均匀分帧的方法. 实验结果表明提出的算法能抵抗常规信号处理操作, 同时 能抵抗20%的TSM操作(包含音调不变TSM和重采样操作)和 1/10的抖动操作, 有很好的鲁棒性.     

自适应小波域数字音频水印嵌入算法研究

以整型提升小波变换、人类听觉掩蔽特性、数字音频局部邻域特性为基础，提出了一种自适应小波域数字音频水印嵌入算法，该算法具有以下特点：（1）结合人类听觉系统的掩蔽特性，实现了水印嵌入位置的自适应确定；（2）引入了高效的整型提升小波变换；（3）利用数字音频的局部邻域特性，实现了数字水印嵌入深度的智能调节；（4）数字水印信息的提取不需要原始音频信号．对比实验表明：该自适应数字音频水印算法不仅具有较好的透明性，而且对诸如叠加噪声、有损压缩、低通滤波、重新采样、重新量化等攻击均具有较好的鲁棒性（特别是叠加噪声与低通滤波）。     

基于小波域的均值量化数字音频水印算法

提出了一种均值量化的小波域数字音频水印算法。均值量化可以减少攻击对水印的影响,算法选择合适的小波基对音频信号进行小波分解,对其中的中、低频系数进行均值量化,嵌入水印,水印提取过程不需要原始音频信号。实验结果表明,与一般水印量化算法相比,该算法对MP3、重量化、重采样、低通滤波和噪声干扰等信息处理型攻击具有更好的鲁棒性。     

抗幅度缩放的小波域自适应数字音频水印算法

数字音频水印的鲁棒性是数字水印领域的研究热点之一。为进一步提高音频水印算法针对幅度缩放等攻击的鲁棒性,借用数字图像归一化的思想,提出了一种基于归一化的抗幅度缩放攻击的数字音频水印算法。该算法首先对音频数据进行自适应分段,然后在空域部分均值化音频数据,最后在三级小波变换的低频系数上以抖动调制的方式实现水印信息的嵌入。实验结果表明所提出的算法对缩放攻击具有很好的鲁棒性,并能够抵抗加噪、低通滤波、重采样、重量化等常见攻击。     

局部特征点的3维模型变换域水印算法

目的 为进一步提高变换域水印的鲁棒性,解决多分辨率小波变换对三角形网格形状的限制,提出一种基于局部特征点的变换域水印算法。方法 首先根据经度角和纬度角对模型分区,并求出局部特征点;其次由局部特征点的模长与非局部特征点模长的均值构成的比值组成2维矩阵,对2维矩阵进行离散小波变换,并修改小波系数中的各分辨率层的中高频系数来嵌入水印;最后通过逆向离散小波变换得到空域信号,修改3维模型局部特征点的模长以得到含水印的3维网格模型。结果 本文方法能够不受平移、旋转、均匀缩放和顶点重排序的影响,并能有效抵抗噪声、简化、剪切、细分、量化和联合攻击等一系列的常见攻击。结论 实验结果表明,该算法具有很好的鲁棒性和不可见性,对模型的网格形状无严格要求。     

一种基于倒谱变换的自同步音频水印算法

本文提出了一种基于倒谱变换的自同步数字音频水印算法。算法对音频载体分段后,将同步码嵌入到时域上,将水印信息嵌入到变换域上。水印的提取不需要原始音频信号,是一种盲水印算法。实验结果表明,嵌入后的水印不仅具有很好的不可感知性,而且对添加噪声、重新采样、低通滤波、重新量化和剪切攻击也具有很好的稳健性。     

抗随机几何失真攻击的音频水印方案

随机几何失真攻击是指在数字音频中恶意地插入跳跃,或通过重采样等手段使相位等特性发生随机抖动,从而对音频数字水印构成严重威胁的行为。为防止这种攻击提出了一种利用音频信号采样点之间的相关性,同时根据信号局部特征生成水印信号并进行自同步嵌入的新方案。实验表明,该方案不仅对一般信号处理具有稳健性,也能够很好地抵御随机几何失真攻击。     

A robust content based audio watermarking using UDWT and invariant histogram

Desynchronization attack is known as one of the most difficult attacks to resist, for it can desynchronize the location of the watermark and hence causes incorrect watermark detection. It is a challenging work to design a robust audio watermarking scheme against desynchronization attacks. Based on undecimated discrete wavelet transform (UDWT) and invariant histogram, we propose a new content based audio watermarking algorithm with good audible quality and reasonable resistance toward desynchronization attacks in this paper. Firstly, the undecimated discrete wavelet transform (UDWT) is performed on original host audio. Secondly, the invariant histogram is extracted from a selected wavelet coefficients range in the low frequency subband. Then, the bin of histogram is divided into many groups, each group including four consecutive bins. For each group, one watermark bit is embedded by reassigning the number of wavelet coefficients in this group of four bins. Finally, the digital watermark is embedded into the original audio signal in UDWT domain by modifying a small set of wavelet coefficients. Simulation results show that the proposed watermarking scheme is not only inaudible and robust against common signal processing operations such as MP3 compression, noise addition, and low-pass filtering etc, but also robust against the desynchronization attacks such as random cropping, time-scale modification, pitch shifting, and jittering etc.     

A new adaptive digital audio watermarking based on support vector machine

It is a challenging work to design a robust digital audio watermarking scheme against desynchronization attacks. On the basis of support vector machines (SVMs), a new robust digital audio watermarking algorithm against desynchronization attacks is proposed in this paper, and in this the audio statistics characteristics and synchronization code are utilized. Firstly, the optimal embedding positions are located adaptively by using the SVM theory. Secondly, the 16-bit Barker code is chosen as synchronization mark and embedded into the digital audio by modifying the statistics average value of several samples. Finally, the digital watermark are embedded into the statistics average value of low-frequency components in wavelet domain by making full use of auditory masking. Experimental results show that the proposed scheme is inaudible and robust against common signal processing such as MP3 compression, low-pass filtering, noise addition, equalization, etc., and is robust against desynchronization attacks such as random cropping, amplitude variation, pitch shifting, time-scale modification, jittering, etc.     

A pseudo-Zernike moment based audio watermarking scheme robust against desynchronization attacks

Desynchronization attack is known as one of the most difficult attacks to resist, for it can desynchronize the location of the watermark and hence causes incorrect watermark detection. It is a challenging work to design a robust audio watermarking scheme against desynchronization attacks. Based on pseudo-Zernike moment and synchronization code, we propose a new digital audio watermarking algorithm with good auditory quality and reasonable resistance toward desynchronization attacks in this paper. Firstly, the origin digital audio is segmented and then each segment is cut into two parts. Secondly, with the spatial watermarking technique, synchronization code is embedded into the statistics average value of audio samples in the first part. And then, map 1D digital audio signal in the second part into 2D form, and calculate its pseudo-Zernike moments. Finally, the watermark bit is embedded into the average value of modulus of the low-order pseudo-Zernike moments. Meanwhile combining the two adjacent synchronization code searching technology, the algorithm can extract the watermark without the help from the origin digital audio signal. Simulation results show that the proposed watermarking scheme is not only inaudible and robust against common signals processing such as MP3 compression, noise addition, resampling, re-quantization, etc., but also robust against the desynchronization attacks such as random cropping, amplitude variation, pitch shifting, jittering, etc.     

A New Digital Image Watermarking Algorithm Resilient to Desynchronization Attacks

Synchronization is crucial to design a robust image watermarking scheme. In this paper, a novel feature-based image watermarking scheme against desynchronization attacks is proposed. The robust feature points, which can survive various signal-processing and affine transformation, are extracted by using the Harris-Laplace detector. A local characteristic region (LCR) construction method based on the scale-space representation of an image is considered for watermarking. At each LCR, the digital watermark is repeatedly embedded by modulating the magnitudes of discrete Fourier transform coefficients. In watermark detection, the digital watermark can be recovered by maximum membership criterion. Simulation results show that the proposed scheme is invisible and robust against common signal processing, such as median filtering, sharpening, noise adding, JPEG compression, etc., and desynchronization attacks, such as rotation, scaling, translation, row or column removal, cropping, and random bend attack, etc.     

Adjustable audio watermarking algorithm based on DWPT and psychoacoustic modeling

This paper presents a novel adjustable audio watermarking method with high auditory quality by exploiting the discrete wavelet packet transform (DWPT), psychoacoustic modeling and distortion compensated-dither modulation (DC-DM) quantization. While the DWPT is used to divide the audio frames into several frequency sub-bands, the psychoacoustic model is intergraded to determine the appropriate sub-bands for watermarking and to control the number of embedded bits in each one. Then, the DC-DM technique is used to embed the watermark bits into the appropriate DWPT coefficients. The synchronization code technique is adopted in the proposed method to withstand desynchronization attacks. In order to achieve an adjustable watermarking scheme, two regulator parameters are provided to manage the capacity-robustness trade-off. The performance of the watermarking scheme is evaluated by examining different host audio signals under various watermarking attacks. The results show excellent imperceptibility of watermarked signals with an average ODG of ? 0.3. In addition, the proposed scheme provides strong robustness against the attacks with low capacity. However, high capacity (about 2500 bps) can be achieved while maintaining a reasonable robustness. A comparison with some state-of-the-art audio watermarking schemes reveals that the proposed method provides competitive results.     

A robust color image watermarking using local invariant significant bitplane histogram

Desynchronization attacks that cause displacement between embedding and detection are usually difficult for watermark to survive. It is a challenging work to design a robust image watermarking scheme against desynchronization attacks, especially for color images. In this paper, we propose a robust color image watermarking approach based on local invariant significant bitplane histogram. The novelty of the proposed approach includes: 1) A fast and effective color image feature points detector is constructed, in which probability density and color invariance model are used; 2) The fully affine invariant local feature regions are built based on probability density Hessian matrix; and 3) The invariant significant bitplane histograms are introduced to embed digital watermark. The extensive experimental works are carried out on a color image set collected from Internet, and the preliminary results show that the proposed watermarking approach can survive numerous kinds of distortions, including common image processing operations and desynchronization attacks.     

A robust digital audio watermarking based on statistics characteristics

In digital audio watermarking, the watermark's vulnerability to desynchronization attacks has long been a difficult problem. According to the audio statistics characteristics and synchronization code technique, a new robust audio watermarking scheme against desynchronization attacks is proposed in this paper. Firstly, the original digital audio is segmented and then each audio segment is cut into two parts. Secondly, with the spatial watermarking technique, the synchronization code is embedded into the statistics average value of audio samples in the first part. Finally, the second part of audio segment is cut into audio sections, the DWT is performed on the audio sections, and the watermark bit is embedded into the statistics average value of low frequency components. Experimental results show that the proposed scheme is inaudible and robust against common signals processing, including MP3 compression, low-pass filtering, noise addition, and equalization, etc. Moreover, it also survives several desynchronization attacks, such as random cropping, amplitude variation, pitch shifting, time-scale modification, and jittering, etc.     

A multipurpose audio watermarking algorithm with synchronization and encryption

We propose a new multipurpose audio watermarking scheme in which two complementary watermarks are used.For audio copyright protection,the watermark data with copyright information or signature are first encrypted by Arnold transformation.Then the watermark data are inserted in the low frequency largest significant discrete cosine transform(DCT) coefficients to obtain robustness performance.For audio authentication,a chaotic signal is inserted in the high frequency insignificant DCT coefficients to detect tampered regions.Furthermore,the synchronization code is embedded in the audio statistical characteristics to resist desynchronization attacks.Experimental results show that our proposed method can not only obtain satisfactory detection and tampered location,but also achieve imperceptibility and robustness to common signal processing attacks,such as cropping,shifting,and time scale modification(TSM).Comparison results show that our method outperforms some existing methods.     

基于图像特征的数字水印算法研究

为了使数字水印具有更鲁棒的抗攻击能力，提出了一种基于图像特征的数字水印新算法。该算法首先利用Harris—Laplace算子提取载体图像特征点；然后结合特征尺度白适应确定局部特征区域；最后，采纳DFT中频幅值比较策略将数字水印信息重复嵌入到多个不相交的局部特征区域中。检测时，根据模糊模式识别的最大隶属度原则检测水印信息。仿真实验结果表明，该新算法不仅具有较好的透明性，而且对常规信号处理（中值滤波、边缘锐化、叠加噪声和JPEG压缩等）和去同步攻击（旋转、平移、缩放、行列去除、剪切和局部随机弯曲等）均具有较好的鲁棒性。