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    • 1. 发明申请
    • METHODS AND DEVICES FOR JOINT MULTICHANNEL CODING
    • 用于联合多通道编码的方法和设备
    • WO2015036351A1
    • 2015-03-19
    • PCT/EP2014/069043
    • 2014-09-08
    • DOLBY INTERNATIONAL AB
    • KJOERLING, KristoferMUNDT, HaraldPURNHAGEN, Heiko
    • G10L19/008
    • G10L19/008
    • Encoding and decoding devices for encoding the channels of an audio system having at least four channels are disclosed. The decoding device has a first stereo decoding component which subjects a first pair of input channels to a first stereo decoding, and a second stereo decoding component which subjects a second pair of input channels to a second stereo decoding. The results of the first and second stereo decoding components are crosswise coupled to a third and a fourth stereo decoding component which each performs stereo decoding on one channel resulting from the first stereo decoding component, and one channel resulting from the second stereo decoding component.
    • 公开了用于编码具有至少四个信道的音频系统的信道的编码和解码装置。 解码装置具有使第一对输入通道进行第一立体声解码的第一立体声解码部件和使第二对输入通道进行第二立体声解码的第二立体声解码部件。 第一和第二立体声解码部件的结果被交叉耦合到第三和第四立体声解码部件,每个立体声解码部件在由第一立体声解码部件产生的一个通道上执行立体声解码,以及由第二立体声解码部件产生的一个通道。
    • 3. 发明申请
    • AUDIO PROCESSING
    • 音频处理
    • WO2013124446A1
    • 2013-08-29
    • PCT/EP2013/053610
    • 2013-02-22
    • DOLBY INTERNATIONAL AB
    • KJOERLING, KristoferPURNHAGEN, HeikoROEDEN, Karl JonasSEHLSTROM, LeifVILLEMOES, Lars
    • G10L19/008
    • G10L19/008H04S2420/03
    • An audio processing system (100) for spatial synthesis comprises an upmix stage (110) receiving a decoded m-channel downmix signal (X) and outputting, based thereon, an n-channel upmix signal (Y), wherein 2 ≤ m 1 , d 2 ) obtained by cross mixing and non-linear processing of the downmix signal, and further comprises a first mixing matrix (130) receiving the downmix signal and the modified downmix signal, forming an n-channel linear combination of the downmix signal channels and modified downmix signal channels only and outputting this as the n-channel upmix signal. In an embodiment, the first mixing matrix accepts one or more mixing parameters (g, α 1 ,...) controlling at least one gain in the linear combination performed by the first mixing matrix. The gains are polynomials of degree ≤2.
    • 用于空间合成的音频处理系统(100)包括接收解码的m信道下混合信号(X)的上混级(110)并基于此输出n沟道上混合信号(Y),其中2 <= m < ñ。 上混级包括下混修改处理器(120),其接收m声道下混信号并输出​​通过下混信号的交叉混合和非线性处理获得的修改的下混合信号(d1,d2),并且还包括第一 接收下混合信号和修正的下混合信号的混合矩阵(130),仅形成降混信号通道和修正的下混信号通道的n通道线性组合,并将其输出为n通道上混信号。 在一个实施例中,第一混合矩阵接受控制由第一混合矩阵执行的线性组合中的至少一个增益的一个或多个混合参数(g,α1,...)。 增益是度<= 2的多项式。
    • 5. 发明申请
    • SMOOTH CONFIGURATION SWITCHING FOR MULTICHANNEL AUDIO RENDERING BASED ON A VARIABLE NUMBER OF RECEIVED CHANNELS
    • 基于可变数量的接收频道进行多通道音频渲染的最佳配置切换
    • WO2013186344A2
    • 2013-12-19
    • PCT/EP2013/062340
    • 2013-06-14
    • DOLBY INTERNATIONAL AB
    • PURNHAGEN, HeikoSEHLSTROM, LeifROEDEN, Karl, JonasKJOERLING, KristoferVILLEMOES, Lars
    • G10L19/18
    • G10L19/008G10L19/0017G10L19/18H04S3/008H04S2400/03H04S2420/03
    • A decoding system reconstructs an n-channel audio signal on the basis of an input signal representing the audio signal, in different time frames, either by parametric coding or as n discretely coded channels. Parametric decoding uses a core signal and mixing parameters controlling a spatial synthesis stage, to which a downmix signal is supplied from a downmix stage. The downmix stage realizes a projection on the downmix signal based on an n- channel input signal, either a discretely coded signal or a core signal padded with neutral-valued channels. The padding may take place either on the decoding side (reduced parametric coding) or the encoding side. In an embodiment, an audio decoder (110) in the decoding system pads the core signal during an initial portion of each reduced parametrically coded time frame directly succeeding a discretely coded time frame and during a final portion of each reduced parametrically coded time frame directly preceding a discretely coded time frame.
    • 解码系统通过参数编码或作为n个离散编码的信道,在不同的时间帧中,基于表示音频信号的输入信号来重构n信道音频信号。 参数解码使用核心信号和控制空间合成阶段的混合参数,下混合信号从下混合级提供给它。 下混合阶段基于n-沟道输入信号,即离散编码信号或填充有中性信道的核心信号实现对下混信号的投影。 填充可以在解码侧(缩减参数编码)或编码侧进行。 在一个实施例中,解码系统中的音频解码器(110)在直接在离散编码的时间帧之后的每个缩减的参数编码时间帧的初始部分期间以及在直接前进的每个缩减的参数编码时间帧的最后部分期间, 离散编码的时间帧。
    • 7. 发明申请
    • PROCESSING OF AUDIO SIGNALS DURING HIGH FREQUENCY RECONSTRUCTION
    • 音频信号在高频重建期间的处理
    • WO2012010494A1
    • 2012-01-26
    • PCT/EP2011/062068
    • 2011-07-14
    • DOLBY INTERNATIONAL ABKJOERLING, Kristofer
    • KJOERLING, Kristofer
    • G10L21/02
    • G10L19/0017G10L19/0204G10L21/038
    • The application relates to HFR (High Frequency Reconstruction/Regeneration) of audio signals. In particular, the application relates to a method and system for performing HFR of audio signals having large variations in energy level across the low frequency range which is used to reconstruct the high frequencies of the audio signal. A system configured to generate a plurality of high frequency subband signals covering a high frequency interval from a plurality of low frequency subband signals is described. The system comprises means for receiving the plurality of low frequency subband signals; means for receiving a set of target energies, each target energy covering a different target interval within the high frequency interval and being indicative of the desired energy of one or more high frequency subband signals lying within the target interval; means for generating the plurality of high frequency subband signals from the plurality of low frequency subband signals and from a plurality of spectral gain coefficients associated with the plurality of low frequency subband signals, respectively; and means for adjusting the energy of the plurality of high frequency subband signals using the set of target energies.
    • 该应用涉及音频信号的HFR(高频重建/再生)。 特别地,本申请涉及用于执行用于重构音频信号的高频的低频范围内的能级大变化的音频信号的HFR的方法和系统。 描述了被配置为从多个低频子带信号生成覆盖高频间隔的多个高频子带信号的系统。 该系统包括用于接收多个低频子带信号的装置; 用于接收一组目标能量的装置,每个目标能量覆盖高频间隔内的不同目标间隔,并且指示位于目标间隔内的一个或多个高频子带信号的期望能量; 用于分别从多个低频子带信号和与多个低频子带信号相关联的多个频谱增益系数产生多个高频子带信号的装置; 以及用于使用所述目标能量集来调整所述多个高频子带信号的能量的装置。
    • 8. 发明申请
    • SBR BITSTREAM PARAMETER DOWNMIX
    • WO2011073201A2
    • 2011-06-23
    • PCT/EP2010/069651
    • 2010-12-14
    • DOLBY INTERNATIONAL ABKJOERLING, KristoferTHESING, Robin
    • KJOERLING, KristoferTHESING, Robin
    • G10L19/00
    • G10L19/008G10L21/038
    • The present document relates to audio decoding and/or audio transcoding. In particular, the present document relates to a scheme for efficiently decoding a number M of audio channels from a bitstream comprising a higher number N of audio channels. In this context a method and system for merging a first and a second source set of spectral band replication (SBR) parameters to a target set of SBR parameters is described. The first and second source set comprise a first and second frequency band partitioning, respectively, which are different from one another. The first source set comprises a first set of energy related values associated with frequency bands of the first frequency band partitioning. The second source set comprises a second set of energy related values associated with frequency bands of the second frequency band partitioning. The target set comprises a target energy related value associated with an elementary frequency band. The method comprises the steps of breaking up the first and the second frequency band partitioning into a joint grid comprising the elementary frequency band; assigning a first value of the first set of energy related values to the elementary frequency band; assigning a second value of the second set of energy related values to the elementary frequency band; and combining the first and second value to yield the target energy related value for the elementary frequency band.
    • 本文件涉及音频解码和/或音频转码。 特别地,本文件涉及一种用于从包括较高数量N个音频信道的比特流有效地解码数量M的音频信道的方案。 在本文中,描述了将频谱带复制(SBR)参数的第一和第二源集合合并到SBR参数的目标集合的方法和系统。 第一和第二源组包括分别彼此不同的第一和第二频带划分。 第一源组包括与第一频带划分的频带相关联的第一组能量相关值。 第二源组包括与第二频带划分的频带相关联的第二组能量相关值。 目标集合包括与基本频带相关联的目标能量相关值。 该方法包括将第一和第二频带划分为包括基本频带的联合网格的步骤; 将第一组能量相关值的第一值分配给基本频带; 将第二组能量相关值的第二值分配给基本频带; 并且组合第一和第二值以产生基本频带的目标能量相关值。