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    • 1. 发明授权
    • Frequency-domain scalable coding without upsampling filters
    • 无上采样滤波器的频域可伸缩编码
    • US06370507B1
    • 2002-04-09
    • US09319066
    • 1999-05-28
    • Bernhard GrillBernd EdlerKarlheinz Brandenburg
    • Bernhard GrillBernd EdlerKarlheinz Brandenburg
    • G10L1902
    • G10L19/24G10L19/0204
    • In a method of coding discrete time signals (X1) sampled with a first sampling rate, second time signals (x2) are generated using the first time signals having a bandwidth corresponding to a second sampling rate, with the second sampling rate being lower than the first sampling rate. The second time signals are coded in accordance with a first coding algorithm. The coded second signals (X2c) are decoded again in order to obtain coded/decoded second time signals (X2cd) having a bandwidth corresponding to the second sampling frequency. The first time signals, by frequency domain transformation, become first spectral values (X1). Second spectral values (X2cd) are generated from the coded/decoded second time signals, the second spectral values being a representation of the coded/decoded time signals in the frequency domain. To obtain weighted spectral values, the first spectral values are weighted by means of the second spectral values, with the first and second spectral values having the same frequency and time resolution. The weighted spectral values (Xb) are coded in accordance with a second coding algorithm in consideration of a psychoacoustic model and written into a bit stream. Weighting the first spectral values and the second spectral values comprises the subtraction of the second spectral values from the first spectral values in to obtain differential spectral values.
    • 在对以第一采样率采样的离散时间信号(X1)进行编码的方法中,使用具有对应于第二采样率的带宽的第一时间信号来生成第二时间信号(x2),其中第二采样率低于 第一次采样率。 第二时间信号根据第一编码算法进行编码。 再次对编码的第二信号(X2c)进行解码,以获得具有对应于第二采样频率的带宽的编码/解码的第二时间信号(X2cd)。 第一次通过频域变换的信号变为第一个光谱值(X1)。 从编码/解码的第二时间信号产生第二频谱值(X2cd),第二频谱值是频域中编码/解码的时间信号的表示。 为了获得加权光谱值,通过第二光谱值对第一光谱值进行加权,其中第一和第二光谱值具有相同的频率和时间分辨率。 考虑到心理声学模型并将其写入比特流,加权频谱值(Xb)根据第二编码算法进行编码。 加权第一光谱值和第二光谱值包括从第一光谱值减去第二光谱值以获得差分光谱值。
    • 7. 发明申请
    • METHOD AND APPARATUS FOR ENHANCED VIDEO CODING
    • 用于增强视频编码的方法和装置
    • US20090022220A1
    • 2009-01-22
    • US11911505
    • 2006-04-13
    • Yuri VatisBernd EdlerIngolf WassermannDieu Thanh NguyenJoern Ostermann
    • Yuri VatisBernd EdlerIngolf WassermannDieu Thanh NguyenJoern Ostermann
    • H04N7/12
    • H04N19/59H04N19/117H04N19/136H04N19/174H04N19/176H04N19/182H04N19/187H04N19/196H04N19/31H04N19/33H04N19/46H04N19/463H04N19/51H04N19/523H04N19/593H04N19/61
    • Standard video compression techniques apply motion-compensated prediction combined with transform coding of the prediction error. In the context of prediction with fractional-pel motion vector resolution it was shown, that aliasing components contained in an image signal are limiting the prediction efficiency obtained by motion compensation. In order to consider aliasing, quantization and motion estimation errors, camera noise, etc., we analytically developed a two dimensional (2D) non-separable interpolation filter, which is independently calculated for each frame by minimizing the prediction error energy. For every fractional-pel position to be interpolated, an individual set of 2D filter coefficients is determined. Since transmitting filter coefficients as side information results in an additional bit rate, which is almost constant for different image resolutions and total bit rates, the loss in coding gain increases when total bit rates sink. Therefore, we developed an algorithm, which regards the non-separable two-dimensional filter as a polyphase filter. For each frame, predicting the interpolation filter impulse response through evaluation of the polyphase filter, we only have to encode the prediction error of the filter coefficients.
    • 标准视频压缩技术应用运动补偿预测与预测误差的变换编码相结合。 在分数像素运动矢量分辨率的预测的上下文中,显示了包含在图像信号中的混叠分量限制了通过运动补偿获得的预测效率。 为了考虑混叠,量化和运动估计误差,相机噪声等,我们分析开发了一种二维(2D)不可分离内插滤波器,它通过最小化预测误差能量对每帧进行独立计算。 对于要插值的每个小数像素位置,确定一组二维滤波器系数。 由于发送滤波器系数作为侧信息导致附加比特率,对于不同的图像分辨率和总比特率几乎是一定的,所以当总比特率下降时,编码增益的损失增加。 因此,我们开发了一种将不可分离的二维滤波器作为多相滤波器的算法。 对于每个帧,通过评估多相滤波器来预测内插滤波器脉冲响应,我们只需要对滤波器系数的预测误差进行编码。
    • 9. 发明授权
    • Device and method for processing a real subband signal for reducing aliasing effects
    • 用于处理实际子带信号以减少混叠效应的装置和方法
    • US08411731B2
    • 2013-04-02
    • US12375728
    • 2007-06-26
    • Bernd EdlerHarald Popp
    • Bernd EdlerHarald Popp
    • H03K5/159
    • H03G3/00G10L19/0204H03H17/0266H03H2218/04
    • In order to process a subband signal of a plurality of real subband signals which are a representation of a real discrete-time signal generated by an analysis filter bank, a weighter for weighting a subband signal by a weighting factor determined for the subband signal is provided to obtain a weighted subband signal. In addition, a correction term is calculated by a correction term determiner, the correction term determiner being implemented to calculate the correction term using at least one other subband signal and using another weighting factor provided for the other subband signal, the two weighting factors differing. The correction term is then combined with the weighted subband signal to obtain a corrected subband signal, resulting in reduced aliasing, even if subband signals are weighted to a different extent.
    • 为了处理作为由分析滤波器组产生的实际离散时间信号的表示的多个实际子带信号的子带信号,提供了对子带信号进行加权以对于子带信号确定的加权因子的加权器 以获得加权子带信号。 此外,校正项由校正项确定器计算,校正项确定器被实现为使用至少一个其他子带信号来计算校正项,并且使用为另一子带信号提供的另一加权因子,两个加权因子不同。 然后将校正项与加权子带信号组合以获得校正的子带信号,导致减少的混叠,即使子带信号被加权到不同程度。