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    • 1. 发明申请
    • DETERMINING THE INTER-CHANNEL TIME DIFFERENCE OF A MULTI-CHANNEL AUDIO SIGNAL
    • 确定多通道音频信号的通道时间差
    • US20130301835A1
    • 2013-11-14
    • US13980427
    • 2011-04-07
    • Manuel BriandTomas Jansson Toftgård
    • Manuel BriandTomas Jansson Toftgård
    • G10L19/008
    • G10L19/008G10L19/20H04R2499/11H04S3/008H04S7/00H04S2420/01H04S2420/03
    • There is provided a method and device for determining an inter-channel time difference of a multi-channel audio signal having at least two channels. A determination is made, at a number of consecutive time instances, of inter-channel correlation based on a cross-correlation function involving at least two different channels of the multi-channel audio signal. Each value of the inter-channel correlation is associated with a corresponding value of the inter-channel time difference. An adaptive inter-channel correlation threshold is adaptively determined based on adaptive smoothing of the inter-channel correlation in time. A current value of the inter-channel correlation is then evaluated in relation to the adaptive inter-channel correlation threshold to determine whether the corresponding current value of the inter-channel time difference is relevant. Based on the result of this evaluation, an updated value of the inter-channel time difference is determined.
    • 提供了一种用于确定具有至少两个信道的多声道音频信号的信道间时间差的方法和装置。 在多个连续时间实例中,基于涉及多声道音频信号的至少两个不同信道的互相关函数,确定信道间相关。 信道间相关的每个值与信道间时间差的对应值相关联。 基于时间上的信道间相关的自适应平滑自适应地确定自适应信道间相关阈值。 然后,关于自适应信道间相关阈值来评估信道间相关的当前值,以确定信道间时间差的对应当前值是否相关。 根据该评价结果,确定通道间时差的更新值。
    • 2. 发明授权
    • Determining the inter-channel time difference of a multi-channel audio signal
    • US10002614B2
    • 2018-06-19
    • US13981035
    • 2011-04-07
    • Manuel BriandTomas Jansson
    • Manuel BriandTomas Jansson
    • G10L19/008G10L25/06
    • G10L19/008G10L25/06
    • There is provided a method and device for determining an inter-channel time difference of a multi-channel audio signal having at least two channels. A set of local maxima of a cross-correlation function involving at least two different channels of the multi-channel audio signal is determined (S1) for positive and negative time-lags, where each local maximum is associated with a corresponding time-lag. From the set of local maxima, a local maximum for positive time-lags is selected as a so-called positive time-lag inter-channel correlation candidate and a local maximum for negative time-lags is selected as a so-called negative time-lag inter-channel correlation candidate (S2). When the absolute value of a difference in amplitude between the inter-channel correlation candidates is smaller than a first threshold, it is evaluated whether there is an energy-dominant channel (S3). When there is an energy-dominant-channel, the sign of the inter-channel time difference is identified and a current value of the inter-channel time difference is extracted based on either the time-lag corresponding to the positive time-lag inter-channel con-elation candidate or the time-lag corresponding to the negative time-lag inter-channel correlation candidate (S4).
    • 3. 发明授权
    • Determining the inter-channel time difference of a multi-channel audio signal
    • 确定多声道音频信号的通道间时差
    • US09424852B2
    • 2016-08-23
    • US13980427
    • 2011-04-07
    • Manuel BriandTomas Jansson Toftgård
    • Manuel BriandTomas Jansson Toftgård
    • G10L19/008H04S7/00
    • G10L19/008G10L19/20H04R2499/11H04S3/008H04S7/00H04S2420/01H04S2420/03
    • There is provided a method and device for determining an inter-channel time difference of a multi-channel audio signal having at least two channels. A determination is made, at a number of consecutive time instances, of inter-channel correlation based on a cross-correlation function involving at least two different channels of the multi-channel audio signal. Each value of the inter-channel correlation is associated with a corresponding value of the inter-channel time difference. An adaptive inter-channel correlation threshold is adaptively determined based on adaptive smoothing of the inter-channel correlation in time. A current value of the inter-channel correlation is then evaluated in relation to the adaptive inter-channel correlation threshold to determine whether the corresponding current value of the inter-channel time difference is relevant. Based on the result of this evaluation, an updated value of the inter-channel time difference is determined.
    • 提供了一种用于确定具有至少两个信道的多声道音频信号的信道间时间差的方法和装置。 在多个连续时间实例中,基于涉及多声道音频信号的至少两个不同信道的互相关函数,确定信道间相关。 信道间相关的每个值与信道间时间差的对应值相关联。 基于时间上的信道间相关的自适应平滑自适应地确定自适应信道间相关阈值。 然后,关于自适应信道间相关阈值评估信道间相关的当前值,以确定信道间时间差的相应当前值是否相关。 根据该评价结果,确定通道间时差的更新值。
    • 4. 发明申请
    • Determining the Inter-Channel Time Difference of a Multi-Channel Audio Signal
    • 确定多通道音频信号的通道间差
    • US20130304481A1
    • 2013-11-14
    • US13981035
    • 2011-04-07
    • Manuel BriandTomas Jansson
    • Manuel BriandTomas Jansson
    • G10L19/008
    • G10L19/008G10L25/06
    • There is provided a method and device for determining an inter-channel time difference of a multi-channel audio signal having at least two channels. A set of local maxima of a cross-correlation function involving at least two different channels of the multi-channel audio signal is determined (S1) for positive and negative time-lags, where each local maximum is associated with a corresponding time-lag. From the set of local maxima, a local maximum for positive time-lags is selected as a so-called positive time-lag inter-channel correlation candidate and a local maximum for negative time-lags is selected as a so-called negative time-lag inter-channel correlation candidate (S2). When the absolute value of a difference in amplitude between the inter-channel correlation candidates is smaller than a first threshold, it is evaluated whether there is an energy-dominant channel (S3). When there is an energy-dominant-channel, the sign of the inter-channel time difference is identified and a current value of the inter-channel time difference is extracted based on either the time-lag corresponding to the positive time-lag inter-channel con-elation candidate or the time-lag corresponding to the negative time-lag inter-channel correlation candidate (S4).
    • 提供了一种用于确定具有至少两个信道的多声道音频信号的信道间时间差的方法和装置。 确定涉及多通道音频信号的至少两个不同通道的互相关函数的一组局部最大值,用于正和负时间滞后,其中每个局部最大值与相应的时间滞后相关联。 从本地最大值集合中,选择正时滞的局部最大值作为所谓的正时滞信道间相关候选,并且选择负时间滞后的局部最大值作为所谓的负时间 - 滞后信道间相关候选(S2)。 当信道间相关候选之间的幅度差的绝对值小于第一阈值时,评估是否存在能量占优通道(S3)。 当存在能量占优通道时,识别通道间时差的符号,并且基于对应于正时滞时间差的时间延迟来提取通道间时间差的当前值, 信道相关候选或对应于负时间延迟信道间相关候选的时间延迟(S4)。
    • 6. 发明授权
    • Method and device for noise filling
    • 噪声填充的方法和装置
    • US08370133B2
    • 2013-02-05
    • US12675290
    • 2008-08-26
    • Anisse TalebManuel BriandGustaf Ullberg
    • Anisse TalebManuel BriandGustaf Ullberg
    • G10L19/00
    • G10L19/028G10L19/035G10L21/0364
    • A method for perceptual spectral decoding comprises decoding of spectral coefficients recovered from a binary flux into decoded spectral coefficients of an initial set of spectral coefficients. The initial set of spectral coefficients are spectrum filled. The spectrum filling comprises noise filling of spectral holes by setting spectral coefficients in the initial set of spectral coefficients not being decoded from the binary flux equal to elements derived from the decoded spectral coefficients. The set of reconstructed spectral coefficients of a frequency domain formed by the spectrum filling is converted into an audio signal of a time domain. A perceptual spectral decoder comprises a noise filler, operating according to the method for perceptual spectral decoding.
    • 用于感知频谱解码的方法包括将从二进制通量恢复的频谱系数解码为初始频谱系数集合的解码频谱系数。 频谱系数的初始集合是频谱填充的。 频谱填充包括通过将频谱系数的初始集合中的频谱系数设置为不等于从解码频谱系数导出的元素的二进制通量来解码频谱孔的噪声填充。 通过频谱填充形成的频域的重构频谱系数的集合被转换成时域的音频信号。 感知频谱解码器包括根据用于感知频谱解码的方法操作的噪声填充器。
    • 8. 发明申请
    • Device and Method for Encoding by Principal Component Analysis a Multichannel Audio Signal
    • 通过主成分分析来编码多通道音频信号的装置和方法
    • US20090083044A1
    • 2009-03-26
    • US12293041
    • 2007-03-08
    • Manuel BriandDavid Virette
    • Manuel BriandDavid Virette
    • G10L19/00
    • G10L19/008
    • A system and a method for coding by principal component analysis (PCA) of a multi-channel audio signal comprising the following steps: decomposing at least two channels (L, R) of said audio signal into a plurality of frequency sub-bands (1(b1), . . . , 1(bN), r(b1), . . . , r(bN)), calculating at least one transformation parameter (θ(b1), . . . , θ(bN)) as a function of at least some of said plurality of frequency sub-bands, transforming at least some of said plurality of frequency sub-bands into a plurality of frequency sub-components as a function of said at least one transformation parameter (θ(b1), . . . , θ(bN)), said plurality of frequency sub-components comprising principal frequency sub-components (CP(b1), . . . , CP(bN)), combining at least some of said principal frequency sub-components (CP(b1), . . . , CP(bN)) in order to form a principal component (CP), and defining a coded audio signal (SC) representing said multi-channel audio signal (C1, . . . ,CM), said coded audio signal (SC) comprising said principal component (CP) and said at least one transformation parameter (θ(b1), . . . , θ(bN)).
    • 一种用于通过多声道音频信号的主成分分析(PCA)进行编码的系统和方法,包括以下步骤:将所述音频信号的至少两个声道(L,R)分解成多个频率子带(1 (b1),...,1(bN),r(b1),...,r(bN)),计算至少一个变换参数(theta(b1),...,theta(bN) 所述多个频率子带中的至少一些的功能是将所述多个频率子带中的至少一些变换为多个频率子分量作为所述至少一个变换参数(θ(b1))的函数, ,...,theta(bN)),所述多个频率子分量包括主频分量分量(CP(b1),...,CP(bN)),将至少一些所述主频分量 组件(CP(b1),...,CP(bN)),以形成主要组件(CP),并且定义表示所述多声道音频信号(C1,..., CM)说 包括所述主成分(CP)和所述至少一个变换参数(theta(b1))的编码音频信号(SC)。 。 。 ,theta(bN))。
    • 10. 发明授权
    • Device and method for encoding by principal component analysis a multichannel audio signal
    • 通过主成分分析来编码多通道音频信号的装置和方法
    • US08370134B2
    • 2013-02-05
    • US12293041
    • 2007-03-08
    • Manuel BriandDavid Virette
    • Manuel BriandDavid Virette
    • G10L19/14
    • G10L19/008
    • A system and a method for coding by principal component analysis (PCA) of a multi-channel audio signal comprising the following steps: decomposing at least two channels (L, R) of said audio signal into a plurality of frequency sub-bands (I(b1), . . . , I(bN), r(b1), . . . , r(bN)), calculating at least one transformation parameter (θ(b1), . . . , θ(bN)) as a function of at least some of said plurality of frequency sub-bands, transforming at least some of said plurality of frequency sub-bands into a plurality of frequency sub-components as a function of said at least one transformation parameter (θ(b1), . . . , θ(bN)), said plurality of frequency sub-components comprising principal frequency sub-components (CP(b1), . . . , CP(bN)), combining at least some of said principal frequency sub-components (CP(b1), . . . , CP(bN)) in order to form a principal component (CP), and defining a coded audio signal (SC) representing said multi-channel audio signal (C1, . . . , CM), said coded audio signal (SC) comprising said principal component (CP) and said at least one transformation parameter (θ(b1), . . . , θ(bN)).
    • 一种用于通过主要分量分析(PCA)编码多声道音频信号的系统和方法,包括以下步骤:将所述音频信号的至少两个声道(L,R)分解成多个频率子带(I (b1),...,I(bN),r(b1),...,r(bN)),计算至少一个变换参数(&Thetas;(b1),...,&thetas;(bN) )作为所述多个频率子带中的至少一些的函数,将所述多个频率子带中的至少一些频率子带变换为多个频率子分量,作为所述至少一个变换参数的函数(“ (b1),...,...,...(bN)),所述多个频率子分量包括主频分量分量(CP(b1),...,CP(bN)), 主要频率子分量(CP(b1),...,CP(bN)),以形成主分量(CP),并且定义表示所述多声道音频信号(C1, ... ,CM),所述编码音频信号(SC)包括所述主分量(CP)和所述至少一个变换参数(“The”;(b1),...,&thetas;(bN))。