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    • 2. 发明申请
    • WATERMARK PAYLOAD ENCRYPTION METHODS AND SYSTEMS
    • WATERMARK PAYLOAD加密方法和系统
    • WO2005091547A2
    • 2005-09-29
    • PCT/US2005/009072
    • 2005-03-18
    • DIGIMARC CORPORATIONSHARMA, Ravi, K.RAMOS, Daniel, O.RODRIGUEZ, Tony, F.LEVY, Kenneth, L.
    • SHARMA, Ravi, K.RAMOS, Daniel, O.RODRIGUEZ, Tony, F.LEVY, Kenneth, L.
    • H04L9/00
    • G06T1/0071G10L19/018H04L9/3236H04L9/3247H04L2209/34H04L2209/608H04N1/32144H04N1/32149H04N2201/3236H04N2201/3281H04N2201/3284
    • The present invention provides a method of securing messages steganographically embedded in media (e.g., printed or electronic objects, audio and video). In one implementation, a message includes a first portion and a second portion. The first portion includes a first message and a first checksum, which are encrypted with a private key. The encrypted first portion is combined with the second portion. The second portion includes a second message and as second checksum. The combined encrypted first portion and the second portion form a signature. The signature is encrypted with a common or universal key, perhaps after error correction coding. The private key is uniquely associated with an entity such as a document issuing jurisdiction. In another implementation, a method appends information to a watermark message received from a remote device. In yet another implementation, a method provides standardized watermark payloads from various input data, regardless of the size of the input data. In another implementation, we encrypt one of two different cooperating watermark payloads, but the encryption and payload data structure help to authenticate both payloads. Another implementation provides a three encryption key pair system for managing messages and watermark embedding. Still another aspect of the invention is a watermark embedding process that uses encryption to whiten, randomize or spread message, instead of convention spread-spectrum modulation.
    • 本发明提供了一种保护隐藏在媒体(例如,印刷或电子对象,音频和视频)中的信息的方法。 在一个实现中,消息包括第一部分和第二部分。 第一部分包括用私钥加密的第一消息和第一校验和。 加密的第一项与第二部分组合。 第二部分包括第二消息和第二校验和。 组合加密的第一部分和第二部分形成签名。 签名在公共密钥或通用密钥之间进行加密,也许在纠错编码之后。 私钥与诸如发布管辖区的文档等实体唯一相关联。
    • 3. 发明申请
    • QUANTIZATION-BASED DATA HIDING EMPLOYING CALIBRATION AND LOCALLY ADAPTIVE QUANTIZATION
    • 基于量化的数据隐藏采用校准和局部自适应量化
    • WO2002078234A1
    • 2002-10-03
    • PCT/US2002/008844
    • 2002-03-22
    • DIGIMARC CORPORATIONSTACH, JohnBRUNK, Hugh, L.SHARMA, Ravi, K.
    • STACH, JohnBRUNK, Hugh, L.SHARMA, Ravi, K.
    • H04K1/00
    • G10L21/00G06T1/0064G06T2201/0052G10L19/018H04N1/32144H04N1/32154H04N1/32352
    • Certain forms of distortion make it difficult to recover hidden data embedded in an audio or image signal by quanitzation techniques. To compensate for this distortion, an embedded data reader analyzes a statistical distribution (e.g., a histogram) of feature samples (124) in an audio or image signal suspected of having hidden auxiliary data to derive an estimate of quantizers used to encode a reference signal (126). The estimated quantizers then recover the reference signal (126), and the reader uses the reference signal(126) to determine and compensate for geometric or temporal distortion, like spatial scaling and rotation of image data, and time scale and speed changes of audio data. After compensating for such distortion, the reader can then more accurately recover hidden message data using quantization techniques to extract the message. The reference signal (126) is preferably repeated in blocks of the image or audio data to enable synchronization at many points in an image or audio data stream. An adaptive embedding and reading technique is used to adaptively define the quantization bins for regions of a host media signal based on signal statistics for each of the regions.
    • 某些形式的失真使得难以通过Quanitzation技术来恢复嵌入到音频或图像信号中的隐藏数据。 为了补偿这种失真,嵌入式数据读取器分析疑似具有隐藏辅助数据的音频或图像信号中的特征样本(124)的统计分布(例如,直方图),以导出用于对参考信号进行编码的量化器的估计 (126)。 估计的量化器然后恢复参考信号(126),并且读取器使用参考信号(126)来确定和补偿几何或时间失真,如图像数据的空间缩放和旋转以及音频数据的时间尺度和速度变化 。 在补偿这种失真之后,读者可以使用量化技术更准确地恢复隐藏的消息数据以提取消息。 参考信号(126)优选地以图像或音频数据的块重复,以实现图像或音频数据流中的许多点的同步。 基于每个区域的信号统计,使用自适应嵌入和读取技术来自适应地定义主媒体信号区域的量化仓。
    • 7. 发明申请
    • SIGNAL PROCESSORS AND METHODS FOR ESTIMATING TRANSFORMATIONS BETWEEN SIGNALS
    • 信号处理器和用于估计信号之间变换的方法
    • WO2012031152A1
    • 2012-03-08
    • PCT/US2011/050250
    • 2011-09-01
    • DIGIMARC CORPORATIONSHARMA, Ravi, K.LORD, John, DouglasLYONS, Robert, G.
    • SHARMA, Ravi, K.LORD, John, DouglasLYONS, Robert, G.
    • H03M7/00
    • G06T1/0064G06F1/02G06K9/6206G06T1/0021G06T3/0006G06T3/0056
    • Signal processing devices and methods estimate transforms between signals using a least squares technique. A direct least squares method applies a seed transform candidate to a reference signal and then measures correlation between the transformed reference signal and a suspect signal. For each candidate, update coordinates of reference signal features are identified in the suspect signal and provided as input to a least squares method to compute an update to the transform candidate. At the end of the process, the method identifies a transform or set of top transforms based on a further analysis of correlation. A phase estimation method estimates the phase of reference signal components in a suspect signal using a point spread function. A phase deviation method determines translation between a reference and suspect signal by analyzing a phase deviation surface created by computing a deviation metric for phase shift estimates.
    • 信号处理装置和方法使用最小二乘法估计信号之间的变换。 直接最小二乘法将种子变换候选应用于参考信号,然后测量变换的参考信号与可疑信号之间的相关性。 对于每个候选者,参考信号特征的更新坐标在可疑信号中被识别,并作为输入提供给最小二乘法以计算变换候选的更新。 在该过程结束时,该方法基于进一步的相关分析来识别变换或顶点变换集合。 相位估计方法使用点扩散函数来估计可疑信号中的参考信号分量的相位。 相位偏差法通过分析通过计算相移估计的偏差度量而产生的相位偏差表面来确定参考信号和可疑信号之间的转换。