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    • 4. 发明申请
    • Method and apparatus for determining whether or not a reference pattern is present in a received and possibly watermarked signal
    • 用于确定参考图案是否存在于接收和可能加水印的信号中的方法和装置
    • US20090187765A1
    • 2009-07-23
    • US12321071
    • 2009-01-15
    • Peter Georg BaumMichael ArnoldUlrich GriesWalter Voessing
    • Peter Georg BaumMichael ArnoldUlrich GriesWalter Voessing
    • H04L9/00
    • G10L19/018G06T1/0078G06T2201/0065H04N1/32154
    • Many watermarking systems make use of correlation for calculating a detection metric, which means that several reference patterns are generated at encoder side and one or more of them are embedded inside the content signal, dependent on the message to be embedded. To decode the embedded message, it is necessary to discover which reference pattern was embedded at encoder side. This is determined by correlating the known reference patterns with the content signal. A watermark detector decides, depending on the size of the correlation result values, whether or not a given pseudo-random sequence was embedded. However, this does not provide correct decisions if watermarked audio is emitted by a loudspeaker and then captured with a microphone. According to the invention, it is taken advantage of the received signal echoes instead of treating them as noise. The watermark detection result is improved by integrating the correlation values resulting from echoes into the main correlation peak, thereby using correlation result amplitude values located within a predetermined neighborhood of a correlation result peak amplitude value and exceeding a predetermined threshold.
    • 许多水印系统利用相关性来计算检测度量,这意味着在编码器侧产生几个参考图案,并且其中一个或多个嵌入在内容信号内,这取决于待嵌入的消息。 要解码嵌入的消息,有必要发现在编码器侧嵌入了哪个参考模式。 这通过将已知的参考图案与内容信号相关联来确定。 水印检测器根据相关结果值的大小来决定是否嵌入给定的伪随机序列。 然而,如果由扬声器发出水印音频,然后用麦克风捕获,则这不能提供正确的决定。 根据本发明,利用接收的信号回波而不是将它们视为噪声。 通过将由回波产生的相关值积分到主相关峰中来提高水印检测结果,从而使用位于相关结果峰值振幅值的预定邻域内并超过预定阈值的相关结果幅度值。
    • 7. 发明授权
    • Method and apparatus for detecting which one of symbols of watermark data is embedded in a received signal
    • 用于检测水印数据的符号中的哪一个嵌入在接收信号中的方法和装置
    • US09147402B2
    • 2015-09-29
    • US13697089
    • 2011-04-27
    • Xiaoming ChenPeter Georg BaumMichael ArnoldUlrich Gries
    • Xiaoming ChenPeter Georg BaumMichael ArnoldUlrich Gries
    • G10L19/00G10L19/018H04L9/00
    • G10L19/018
    • Watermark symbol detection requires a detection metric for deciding at decoder side which candidate symbol is embedded inside the audio or video signal content. The invention provides an improved detection metric processing that achieves a reliable detection of watermarks in the presence of additional noise and echoes, and that is adaptive to signal reception conditions and requires a decreased computational power. This is performed by taking into account the information contained in the echoes of the received audio signal in the decision metric and comparing it with the corresponding metric obtained from decoding a non-marked audio signal, based on recursive calculation of false positive detection rates of peaks in correlation result values. The watermark symbol corresponding to the reference sequence having the lowest false positive error is selected as the embedded one.
    • 水印符号检测需要用于在解码器侧确定哪个候选符号被嵌入在音频或视频信号内容内的检测度量。 本发明提供了一种改进的检测度量处理,其在附加噪声和回波的存在下实现水印的可靠检测,并且其适应于信号接收条件并且需要降低的计算能力。 这是通过考虑包含在决定度量中的接收到的音频信号的回波中的信息来进行的,并且将其与从非标记音频信号解码获得的对应度量进行比较,基于递归计算峰值的假阳性检测率 相关结果值。 选择与具有最低假正误差的参考序列相对应的水印符号作为嵌入的。
    • 8. 发明授权
    • Method and apparatus for frequency domain watermark processing a multi-channel audio signal in real-time
    • 实时频域水印处理多声道音频信号的方法和装置
    • US09165559B2
    • 2015-10-20
    • US13562849
    • 2012-07-31
    • Peter Georg BaumUlrich GriesMichael ArnoldXiaoming Chen
    • Peter Georg BaumUlrich GriesMichael ArnoldXiaoming Chen
    • G10L19/018G10L19/008
    • G10L19/018G10L19/008
    • Digital audio signal watermarking in real-time is difficult in an environment that has limited processing power. According to the invention, the channels in a data block-based audio multi-channel signal are prioritized with respect to watermarking importance, whereby the channel priority can change for different input signal data blocks. For a current input signal block, the most important channel is watermarked and the required processing time is determined. If this required processing time is shorter than a predefined application-dependent threshold, the next most important channel is marked and the additionally required processing time is determined, and so on. Due to the block-based nature of the audio watermarking including block overlap/add and due to the sensitivity of the resulting audio quality against blocking artifacts, several problems are solved in order to lead to acceptable performance and quality.
    • 在具有有限处理能力的环境中,实时数字音频信号水印是困难的。 根据本发明,基于数据块的音频多信道信号中的信道关于水印重要性被优先化,由此对于不同的输入信号数据块,信道优先级可以改变。 对于当前输入信号块,最重要的信道被加水印,并且确定所需的处理时间。 如果这需要的处理时间比预定的应用程序相关的阈值短,则下一个最重要的通道被标记,另外需要处理时间被确定,等等。 由于音频水印的基于块的性质包括块重叠/添加,并且由于所产生的音频质量对于块伪影的敏感性,所以解决了几个问题以便导致可接受的性能和质量。
    • 9. 发明申请
    • METHOD AND APPARATUS FOR DETECTING WHICH ONE OF SYMBOLS OF WATERMARK DATA IS EMBEDDED IN A RECEIVED SIGNAL
    • 用于检测水印数据符号的接收信号中嵌入的方法和装置
    • US20130073065A1
    • 2013-03-21
    • US13697089
    • 2011-04-27
    • Xiaoming ChenPeter Georg BaumMichael ArnoldUlrich Gries
    • Xiaoming ChenPeter Georg BaumMichael ArnoldUlrich Gries
    • G10L19/018
    • G10L19/018
    • Watermark symbol detection requires a detection metric for deciding at decoder side which candidate symbol is embedded inside the audio or video signal content. The invention provides an improved detection metric processing that achieves a reliable detection of watermarks in the presence of additional noise and echoes, and that is adaptive to signal reception conditions and requires a decreased computational power. This is performed by taking into account the information contained in the echoes of the received audio signal in the decision metric and comparing it with the corresponding metric obtained from decoding a non-marked audio signal, based on recursive calculation of false positive detection rates of Correlations for all REFP Reference Pattern peaks in correlation result values. The watermark symbol corresponding to the reference sequence having the lowest false positive error is selected as the embedded one.
    • 水印符号检测需要用于在解码器侧确定哪个候选符号被嵌入在音频或视频信号内容内的检测度量。 本发明提供了一种改进的检测度量处理,其在附加噪声和回波的存在下实现水印的可靠检测,并且其适应于信号接收条件并且需要降低的计算能力。 这是通过考虑包含在决定度量中的接收到的音频信号的回波中的信息并且将其与从解码未标记的音频信号获得的相应度量相比较,基于相关性的假阳性检测率的递归计算来执行 对于相关结果值中的所有REFP参考模式峰。 选择与具有最低假正误差的参考序列相对应的水印符号作为嵌入的。
    • 10. 发明申请
    • METHOD AND APPARATUS FOR FREQUENCY DOMAIN WATERMARK PROCESSING A MULTI-CHANNEL AUDIO SIGNAL IN REAL-TIME
    • 频域水印实时处理多通道音频信号的方法与装置
    • US20130051564A1
    • 2013-02-28
    • US13562849
    • 2012-07-31
    • Peter Georg BaumUlrich GriesMichael ArnoldXiaoming Chen
    • Peter Georg BaumUlrich GriesMichael ArnoldXiaoming Chen
    • H04R5/00
    • G10L19/018G10L19/008
    • Digital audio signal watermarking in real-time is difficult in an environment that has limited processing power. According to the invention, the channels in a data block-based audio multi-channel signal are prioritized with respect to watermarking importance, whereby the channel priority can change for different input signal data blocks. For a current input signal block, the most important channel is watermarked and the required processing time is determined. If this required processing time is shorter than a predefined application-dependent threshold, the next most important channel is marked and the additionally required processing time is determined, and so on. Due to the block-based nature of the audio watermarking including block overlap/add and due to the sensitivity of the resulting audio quality against blocking artifacts, several problems are solved in order to lead to acceptable performance and quality.
    • 在具有有限处理能力的环境中,实时数字音频信号水印是困难的。 根据本发明,基于数据块的音频多信道信号中的信道关于水印重要性被优先化,由此对于不同的输入信号数据块,信道优先级可以改变。 对于当前输入信号块,最重要的信道被加水印,并且确定所需的处理时间。 如果这需要的处理时间比预定的应用程序相关的阈值短,则下一个最重要的通道被标记,另外需要处理时间被确定,等等。 由于音频水印的基于块的性质包括块重叠/添加,并且由于所产生的音频质量对于块伪影的敏感性,所以解决了几个问题以便导致可接受的性能和质量。