会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Device and method for analysing a decoded time signal
    • 用于分析解码时间信号的装置和方法
    • US20050175252A1
    • 2005-08-11
    • US10220651
    • 2001-02-16
    • Juergen HerreMartin DietzThomas SporerMichael SchugWolfgang Schildbach
    • Juergen HerreMartin DietzThomas SporerMichael SchugWolfgang Schildbach
    • H04N19/00H04N19/126H04N19/40H04N19/60G06K9/36
    • H04N19/00H04N19/126H04N19/40H04N19/60
    • An apparatus for analyzing an analysis time signal that has been generated from encoding and decoding an original time signal according to an encoding algorithm first, wherein first the encoding block raster underlying the analysis time signal used by the encoding algorithm is determined. Thereupon, the analysis time signal will be converted from its timely representation comprising a plurality of analysis spectral coefficients, to a spectral representation by using the established encoding block raster. Then, at least two analysis spectral coefficients or at least two spectral coefficients derived from the analysis spectral coefficients by multiplication of an encoding amplification factor or by multiplication with a compression function are grouped. Then, the greatest common divisor of the analysis spectral coefficients or the spectral coefficients derived from the analysis spectral coefficients will be calculated, corresponding to the quantization step width used when quantizing the encoding algorithm or an integer multiple of it. Then, in the case of an audio signal, the scale factor can easily be established for this group of spectral coefficients, i.e. for a scale factor band, from the quantization step width. Thus, all parameters used for the quantization of the original time signal are known, so that for quantizing the analysis time signal no longer full iteration loops have to be performed, which are, on the one hand, very computing time intensive and, on the other hand, introduce tandem encoding distortions.
    • 一种用于分析根据编码算法首先对原始时间信号进行编码和解码而产生的分析时间信号的装置,其中首先确定编码算法使用的分析时间信号下面的编码块光栅。 因此,分析时间信号将通过使用所建立的编码块光栅从包括多个分析频谱系数的及时表示转换成频谱表示。 然后,将通过编码放大因子的乘法或通过与压缩函数相乘而从分析频谱系数导出的至少两个分析频谱系数或至少两个频谱系数分组。 然后,对应于当量化编码算法或其整数倍时使用的量化步长,将计算分析频谱系数的最大公约数或从分析频谱系数导出的频谱系数。 然后,在音频信号的情况下,从量化步长可以容易地为该组频谱系数建立比例因子,即缩放因子频带。 因此,用于原始时间信号的量化的所有参数是已知的,使得对于分析时间信号的量化不再必须执行完整的迭代循环,这一方面一方面非常计算时间密集,并且在 另一方面,引入串联编码失真。
    • 2. 发明授权
    • Time signal analysis and derivation of scale factors
    • 时间信号分析和推理的比例因子
    • US07181079B2
    • 2007-02-20
    • US10220651
    • 2001-02-16
    • Juergen HerreMartin DietzThomas SporerMichael SchugWolfgang Schildbach
    • Juergen HerreMartin DietzThomas SporerMichael SchugWolfgang Schildbach
    • G06K9/36H04B1/66H04N7/12H04N11/02H04N11/04G10L19/00G10L21/00
    • H04N19/00H04N19/126H04N19/40H04N19/60
    • Analyzing an analysis time signal that has been generated from encoding and decoding and original time signal according to an encoding algorithm. The encoding block raster underlying the analysis time signal used by the encoding algorithm is determined. The analysis time signal is converted from its timely representation of analysis spectral coefficients to a spectral representation by using the established encoding block raster. At least two analysis spectral coefficients are grouped. The greatest common divisor of the analysis spectral coefficients are calculated, corresponding to the quantization step width used when quantizing the encoding algorithm or an integer multiple of it. In the case of an audio signal, the scale factor can easily be established for this group of spectral coefficients, i.e., for a scale factor band, from the quantization step width. All parameters used for the quantization of the original time signal are known; full iteration loops need not be performed.
    • 根据编码算法分析从编码和解码产生的分析时间信号和原始时间信号。 确定由编码算法使用的分析时间信号的编码块光栅。 分析时间信号通过使用建立的编码块光栅从分析频谱系数的及时表示转换为频谱表示。 至少两个分析光谱系数被分组。 计算分析频谱系数的最大公约数,对应于量化编码算法时使用的量化步长或其整数倍。 在音频信号的情况下,从量化步长可以容易地为该组频谱系数(即,比例因子频带)建立比例因子。 用于量化原始时间信号的所有参数是已知的; 不需要执行完整的迭代循环。
    • 3. 发明授权
    • Device and method for determining a coding block raster of a decoded signal
    • 用于确定解码信号的编码块光栅的装置和方法
    • US06750789B2
    • 2004-06-15
    • US10168456
    • 2002-10-25
    • Juergen HerreKarlheinz BrandenburgThomas SporerMichael SchugWolfgang Schildbach
    • Juergen HerreKarlheinz BrandenburgThomas SporerMichael SchugWolfgang Schildbach
    • H03M700
    • G10L19/02
    • In determining a coding block raster on which a decoded signal is based, a segment of the decoded signal is picked out first, said segment beginning at a certain output sampling value of the decoded signal. Said segment is then converted into a spectral representation, whereupon said spectral representation is then evaluated in relation to a predetermined criterion in order to obtain an evaluation result for the segment. This procedure is repeated for a plurality of different segments beginning at different output sampling values each, in order to obtain a plurality of evaluation results. Finally, the plurality of the evaluation results is searched in order to establish the evaluation result that has an extreme value as compared to the other evaluation results, in such a way that it can be assumed that the segment to which this evaluation result is allocated matches the coding block raster on which the decoded signal is based. This method can be used to determine the coding block raster for any decoded signal that has no explicit information about its coding block raster.
    • 在确定解码信号所基于的编码块光栅时,首先选择解码信号的片段,所述片段以解码信号的特定输出采样值开始。 然后将所述段转换为频谱表示,然后根据预定标准对所述频谱表示进行评估,以获得该段的评估结果。 对于从不同的输出采样值开始的多个不同的段重复该过程,以获得多个评估结果。 最后,搜索多个评估结果以便建立与其他评估结果相比具有极值的评估结果,使得可以假定分配了该评估结果的分段匹配 解码信号所基于的编码块光栅。 该方法可以用于确定任何没有关于其编码块光栅的显式信息的解码信号的编码块栅格。
    • 5. 发明申请
    • PSYCHOACOUSTIC FILTER DESIGN FOR RATIONAL RESAMPLERS
    • PSYCHOACOUSTIC过滤器设计用于RATIONAL RESAMPLERS
    • US20130253917A1
    • 2013-09-26
    • US13992344
    • 2011-12-09
    • Wolfgang Schildbach
    • Wolfgang Schildbach
    • G10L21/0232G06T5/00
    • G10L21/0232G06T5/00G10L19/032G10L19/173G10L19/26H03H17/0685
    • The present document relates to the design of anti-aliasing and/or anti-imaging filters for resamplers using rational resampling factors. In particular, the present document relates to a method for designing such filters having a reduced number of filter coefficients or an increased perceptual performance, as well as to the filters designed using such method. A method for designing a filter (102) configured to reduce imaging and/or aliasing of an output audio signal (113) at an output sampling rate (fsout) is described. The output audio signal (113) is a resampled version of an input audio signal (110) at an input sampling rate (fsin). The ratio of the output sampling rate (fsout) and the input sampling rate (fsin) is a rational number N/M. The filter (102) operates at an upsampled sampling rate which equals N times the input sampling rate (fsin). The method comprises the steps of selecting an allowed deviation of the frequency response (531, 532) of the filter (102) within a stop band of the filter (102) based on a perceptual frequency response indicative of an auditory spectral sensitivity; wherein the allowed deviation indicates a deviation of the frequency response (531, 532) of the filter (102) from a predetermined attenuation within the stop band; and of determining coefficients of the filter (102) such that the frequency response (531, 532) of the filter (102) is fitted to the allowed deviation of the frequency response (531, 532).
    • 本文件涉及使用合理的重采样因子的重采样器的抗混叠和/或抗成像滤波器的设计。 特别地,本文件涉及一种用于设计具有减少的滤波器系数数量或增加的感知性能的滤波器的方法,以及使用这种方法设计的滤波器。 描述了一种用于设计滤波器(102)的方法,其被配置为以输出采样率(fsout)来减少输出音频信号(113)的成像和/或混叠。 输出音频信号(113)是输入采样率(fsin)的输入音频信号(110)的再采样版本。 输出采样率(fsout)和输入采样率(fsin)的比值是有理数N / M。 滤波器(102)以等于输入采样率(fsin)的N倍的上采样率进行操作。 该方法包括以下步骤:基于指示听觉光谱灵敏度的感知频率响应,在滤波器(102)的阻带内选择滤波器(102)的频率响应(531,532)的允许偏差; 其中所述允许偏差指示所述滤波器(102)的频率响应(531,532)与所述阻带内的预定衰减的偏差; 以及确定所述滤波器(102)的系数,使得所述滤波器(102)的频率响应(531,532)适应于所述频率响应(531,532)的允许偏差。