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    • 1. 发明授权
    • Audio signal encoding or decoding
    • 音频信号编码或解码
    • US08260607B2
    • 2012-09-04
    • US13076335
    • 2011-03-30
    • Lars Falck VillemoesPer EkstrandHeiko PurnhagenErik Gosuinus Petrus SchuijersFransiscus Marinus Jozephus De Bont
    • Lars Falck VillemoesPer EkstrandHeiko PurnhagenErik Gosuinus Petrus SchuijersFransiscus Marinus Jozephus De Bont
    • G10L21/00G10L19/14G10L19/12G10L19/00
    • G10L19/008G10L21/038
    • Encoding an audio signal is provided wherein the audio signal includes a first audio channel and a second audio channel, the encoding comprising subband filtering each of the first audio channel and the second audio channel in a complex modulated filterbank to provide a first plurality of subband signals for the first audio channel and a second plurality of subband signals for the second audio channel, downsampling each of the subband signals to provide a first plurality of downsampled subband signals and a second plurality of downsampled subband signals, further subband filtering at least one of the downsampled subband signals in a further filterbank in order to provide a plurality of sub-subband signals, deriving spatial parameters from the sub-subband signals and from those downsampled subband signals that are not further subband filtered, and deriving a single channel audio signal comprising derived subband signals derived from the first plurality of downsampled subband signals and the second plurality of downsampled subband signals. Further, decoding is provided wherein an encoded audio signal comprising an encoded single channel audio signal and a set of spatial parameters is decoded by decoding the encoded single channel audio channel to obtain a plurality of downsampled subband signals, further subband filtering at least one of the downsampled subband signals in a further filterbank in order to provide a plurality of sub-subband signals, and deriving two audio channels from the spatial parameters, the sub-subband signals and those downsampled subband signals that are not further subband filtered.
    • 提供对音频信号进行编码,其中音频信号包括第一音频通道和第二音频通道,该编码包括在复调制滤波器组中对第一音频通道和第二音频通道中的每一个进行子带滤波,以提供第一多个子带信号 对于第一音频通道和用于第二音频通道的第二多个子带信号,对每个子带信号进行下采样,以提供第一多个下采样子带信号和第二多个下采样子带信号,进一步的子带滤波至少一个 在另一个滤波器组中进行下采样的子带信号,以便提供多个子子带信号,从子子带信号和未被进一步子带滤波的那些下采样子带信号导出空间参数,以及导出包括导出的 从第一多个下采样子带信号导出的子带信号和 第二多个下采样子带信号。 此外,提供了解码,其中包括编码的单声道音频信号和一组空间参数的编码音频信号通过对编码的单声道音频声道进行解码以获得多个下采样的子带信号而被解码,进一步的子带滤波至少一个 在另一滤波器组中进行下采样的子带信号,以便提供多个子子带信号,以及从空间参数,子子带信号和未进一步子带滤波的那些下采样子带信号导出两个音频信道。
    • 2. 发明授权
    • Audio signal encoding or decoding
    • 音频信号编码或解码
    • US07519538B2
    • 2009-04-14
    • US10577106
    • 2004-10-28
    • Lars Falck VillemoesPer EkstrandHeiko PurnhagenErik Gosuinus Petrus SchuijersFransiscus Marinus Jozephus de Bont
    • Lars Falck VillemoesPer EkstrandHeiko PurnhagenErik Gosuinus Petrus SchuijersFransiscus Marinus Jozephus de Bont
    • G10L19/00G10L19/14
    • G10L19/008G10L21/038
    • Encoding an audio signal is provided wherein the audio signal includes a first audio channel and a second audio channel, the encoding comprising subband filtering each of the first audio channel and the second audio channel in a complex modulated filterbank to provide a first plurality of subband signals for the first audio channel and a second plurality of subband signals for the second audio channel, downsampling each of the subband signals to provide a first plurality of downsampled subband signals and a second plurality of downsampled subband signals, further subband filtering at least one of the downsampled subband signals in a further filterbank in order to provide a plurality of sub-subband signals, deriving spatial parameters from the sub-subband signals and from those downsampled subband signals that are not further subband filtered, and deriving a single channel audio signal comprising derived subband signals derived from the first plurality of downsampled subband signals and the second plurality of downsampled subband signals. Further, decoding is provided wherein an encoded audio signal comprising an encoded single channel audio signal and a set of spatial parameters is decoded by decoding the encoded single channel audio channel to obtain a plurality of downsampled subband signals, further subband filtering at least one of the downsampled subband signals in a further filterbank in order to provide a plurality of sub-subband signals, and deriving two audio channels from the spatial parameters, the sub-subband signals and those downsampled subband signals that are not further subband filtered.
    • 提供对音频信号进行编码,其中音频信号包括第一音频通道和第二音频通道,该编码包括在复调制滤波器组中对第一音频通道和第二音频通道中的每一个进行子带滤波,以提供第一多个子带信号 对于第一音频通道和用于第二音频通道的第二多个子带信号,对每个子带信号进行下采样以提供第一多个下采样子带信号和第二多个下采样子带信号,进一步子带滤波至少一个 在另一个滤波器组中进行下采样的子带信号,以便提供多个子子带信号,从子子带信号和未进一步子带滤波的那些下采样子带信号导出空间参数,以及导出包括导出的 从第一多个下采样子带信号导出的子带信号和 第二多个下采样子带信号。 此外,提供了解码,其中包括编码的单声道音频信号和一组空间参数的编码音频信号通过对编码的单声道音频声道进行解码以获得多个下采样的子带信号而被解码,进一步的子带滤波至少一个 在另一滤波器组中进行下采样的子带信号,以便提供多个子子带信号,以及从空间参数,子子带信号和未进一步子带滤波的那些下采样子带信号导出两个音频信道。
    • 3. 发明授权
    • Audio signal encoding or decoding
    • 音频信号编码或解码
    • US08073685B2
    • 2011-12-06
    • US12397518
    • 2009-03-04
    • Lars Falck VillemoesPer ElstrandHeiko PurnhagenErik Gosuinus Petrus SchuijersFransiscus Marinus Jozephus Bont
    • Lars Falck VillemoesPer ElstrandHeiko PurnhagenErik Gosuinus Petrus SchuijersFransiscus Marinus Jozephus Bont
    • G10L21/00G10L19/14G10L19/12G10L19/00
    • G10L19/008G10L21/038
    • Encoding an audio signal is provided wherein the audio signal includes a first audio channel and a second audio channel, the encoding comprising subband filtering each of the first audio channel and the second audio channel in a complex modulated filterbank to provide a first plurality of subband signals for the first audio channel and a second plurality of subband signals for the second audio channel, downsampling each of the subband signals to provide a first plurality of downsampled subband signals and a second plurality of downsampled subband signals, further subband filtering at least one of the downsampled subband signals in a further filterbank in order to provide a plurality of sub-subband signals, deriving spatial parameters from the sub-subband signals and from those downsampled subband signals that are not further subband filtered, and deriving a single channel audio signal comprising derived subband signals derived from the first plurality of downsampled subband signals and the second plurality of downsampled subband signals.Further, decoding is provided wherein an encoded audio signal comprising an encoded single channel audio signal and a set of spatial parameters is decoded by decoding the encoded single channel audio channel to obtain a plurality of downsampled subband signals, further subband filtering at least one of the downsampled subband signals in a further filterbank in order to provide a plurality of sub-subband signals, and deriving two audio channels from the spatial parameters, the sub-subband signals and those downsampled subband signals that are not further subband filtered.
    • 提供对音频信号进行编码,其中音频信号包括第一音频通道和第二音频通道,该编码包括在复调制滤波器组中对第一音频通道和第二音频通道中的每一个进行子带滤波,以提供第一多个子带信号 对于第一音频通道和用于第二音频通道的第二多个子带信号,对每个子带信号进行下采样,以提供第一多个下采样子带信号和第二多个下采样子带信号,进一步的子带滤波至少一个 在另一个滤波器组中进行下采样的子带信号,以便提供多个子子带信号,从子子带信号和未进一步子带滤波的那些下采样子带信号导出空间参数,以及导出包括导出的 从第一多个下采样子带信号导出的子带信号和 第二多个下采样子带信号。 此外,提供了解码,其中包括编码的单声道音频信号和一组空间参数的编码音频信号通过对编码的单声道音频声道进行解码以获得多个下采样的子带信号而被解码,进一步的子带滤波至少一个 在另一滤波器组中进行下采样的子带信号,以便提供多个子子带信号,以及从空间参数,子子带信号和未进一步子带滤波的那些下采样子带信号导出两个音频信道。
    • 4. 发明授权
    • Multi-channel audio coding
    • 多声道音频编码
    • US08346564B2
    • 2013-01-01
    • US11909730
    • 2006-03-16
    • Gerard Herman HothoDirk Jeroen BreebaartErik Gosuinus Petrus SchuijersAlbertus Cornelis Den BrinkerLars Falck VillemoesHeiko PurnhagenKarl Jonas Roden
    • Gerard Herman HothoDirk Jeroen BreebaartErik Gosuinus Petrus SchuijersAlbertus Cornelis Den BrinkerLars Falck VillemoesHeiko PurnhagenKarl Jonas Roden
    • G10L19/00G10L21/04
    • G10L19/008H04R2420/07H04S3/008
    • A multi-channel audio encoder (10) for encoding a multi-channel audio signal (101), e.g. a 5.1 channel audio signal, into a spatial down-mix (102), e.g. a stereo signal, and associated parameters (104, 105). The encoder (10) comprises first and second units (110, 120). The first unit (110) encodes the multi-channel audio signal (101) into the spatial down-mix (102) and parameters (104). These parameters (104) enable a multi-channel decoder (20) to reconstruct the multi-channel audio signal (203) from the spatial down-mix (102). The second unit (120) generates, from the spatial down-mix (102), parameters (105) that enable the decoder to reconstruct the spatial down-mix (202) from an alternative down-mix (103), e.g. a so-called artistic down-mix that has been manually mixed in a sound studio. In this way, the decoder (20) can efficiently deal with a situation in which an alternative down-mix (103) is received instead of the regular spatial, down-mix (102). In the decoder (20), first the spatial down-mix (202) is reconstructed from the alternative down-mix (103) and the parameters (105). Next, the spatial down-mix (202) is decoded into the multi-channel audio signal (203).
    • 一种用于对多声道音频信号(101)进行编码的多声道音频编码器(10)。 5.1声道音频信号转换成空间缩混(102)。 立体声信号和相关参数(104,105)。 编码器(10)包括第一和第二单元(110,120)。 第一单元(110)将多声道音频信号(101)编码成空间缩混(102)和参数(104)。 这些参数(104)使得多声道解码器(20)能够从空间缩混(102)重建多声道音频信号(203)。 第二单元(120)从空间缩混(102)生成参数(105),使参数(105)能够使解码器从替代的下混合(103)重构空间缩混(202)。 所谓的艺术混合,已经在一个健全的工作室手工混合。 以这种方式,解码器(20)可以有效地处理接收替代的下混合(103)而不是常规的空间,混合(102)的情况。 在解码器(20)中,首先,从替代的下混合(103)和参数(105)重构空间缩混(202)。 接下来,空间缩混(202)被解码为多声道音频信号(203)。
    • 5. 发明申请
    • ENCODING AND DECODING OF AUDIO SIGNALS USING COMPLEX-VALUED FILTER BANKS
    • 使用复合过滤器银行编码和解码音频信号
    • US20090063140A1
    • 2009-03-05
    • US11718238
    • 2005-10-31
    • Lars Falck VillemoesErik Gosuinus Petrus Schuijers
    • Lars Falck VillemoesErik Gosuinus Petrus Schuijers
    • G10L19/00G10L21/04
    • G10L19/0204
    • An encoder (109) comprises a receiver (201) which receives a time domain audio signal. A filter bank (203) generates a first subband signal from the time domain audio signal where the first subband signal corresponds to a non-critically sampled complex subband domain representation of the time domain signal. A conversion processor (205) generates a second subband signal from the first subband signal by subband processing. The second subband signal corresponds to a critically sampled complex subband domain representation of the time domain audio signals. An encode processor (207) then generates a waveform encoded data stream by encoding data values of the second subband signal. The conversion processor (205) generates the second subband signal by direct subband conversion without converting back to the time domain. The invention allows an oversampled subband signal typically generated in parametric encoding to be waveform encoded with reduced complexity. A decoder performs the inverse operation.
    • 编码器(109)包括接收时域音频信号的接收机(201)。 滤波器组(203)从时域音频信号产生第一子带信号,其中第一子带信号对应于时域信号的非临时采样的复子带域表示。 转换处理器(205)通过子带处理从第一子带信号产生第二子带信号。 第二子带信号对应于时域音频信号的批次采样的复数子带域表示。 然后,编码处理器(207)通过对第二子带信号的数据值进行编码来生成波形编码数据流。 转换处理器(205)通过直接子带转换产生第二子带信号而不转换回时域。 本发明允许通常在参数编码中产生的过采样子带信号以降低的复杂度进行波形编码。 解码器执行逆运算。
    • 6. 发明授权
    • Encoding and decoding of audio signals using complex-valued filter banks
    • 使用复值滤波器组编码和解码音频信号
    • US08255231B2
    • 2012-08-28
    • US11718238
    • 2005-10-31
    • Lars Falck VillemoesErik Gosuinus Petrus Schuijers
    • Lars Falck VillemoesErik Gosuinus Petrus Schuijers
    • G10L19/00G10L19/14
    • G10L19/0204
    • An encoder (109) comprises a receiver (201) which receives a time domain audio signal. A filter bank (203) generates a first subband signal from the time domain audio signal where the first subband signal corresponds to a non-critically sampled complex subband domain representation of the time domain signal. A conversion processor (205) generates a second subband signal from the first subband signal by subband processing. The second subband signal corresponds to a critically sampled complex subband domain representation of the time domain audio signals. An encode processor (207) then generates a waveform encoded data stream by encoding data values of the second subband signal. The conversion processor (205) generates the second subband signal by direct subband conversion without converting back to the time domain. The invention allows an oversampled subband signal typically generated in parametric encoding to be waveform encoded with reduced complexity. A decoder performs the inverse operation.
    • 编码器(109)包括接收时域音频信号的接收机(201)。 滤波器组(203)从时域音频信号产生第一子带信号,其中第一子带信号对应于时域信号的非临时采样的复子带域表示。 转换处理器(205)通过子带处理从第一子带信号产生第二子带信号。 第二子带信号对应于时域音频信号的批次采样的复数子带域表示。 然后,编码处理器(207)通过对第二子带信号的数据值进行编码来生成波形编码数据流。 转换处理器(205)通过直接子带转换产生第二子带信号而不转换回时域。 本发明允许通常在参数编码中产生的过采样子带信号以降低的复杂度进行波形编码。 解码器执行逆运算。
    • 7. 发明授权
    • Generation of multi-channel audio signals
    • 生成多声道音频信号
    • US08160888B2
    • 2012-04-17
    • US11995700
    • 2006-07-12
    • Dirk Jeroen BreebaartLars Falck VillemoesHeiko PurnhagenChristof Faller
    • Dirk Jeroen BreebaartLars Falck VillemoesHeiko PurnhagenChristof Faller
    • G10L19/00
    • H04S3/008G10L19/008
    • A decoder (115) generates a multi channel audio signal, such as a surround sound signal, from a received first signal. The multi-channel signal comprises a second set of audio channels and the first signal comprises a first set of audio channels. The decoder (115) comprises a receiver (401) which receives the first signal. The receiver (401) is coupled to an estimate processor (405) which generates estimated parametric data for the second set of audio channels in response to characteristics of the first set of audio channels. The estimated parametric data relates characteristics of the second set of audio channels to characteristics of the first set of audio channels. The decoder (115) furthermore comprises a spatial audio decoder (403) which decodes the first signal in response to the estimated parametric data to generate the multi-channel signal comprising the second set of channels. The invention allows use of spatial audio decoding with signals that are not encoded by a spatial audio encoder.
    • 解码器(115)从接收的第一信号生成诸如环绕声信号的多声道音频信号。 多声道信号包括第二组音频通道,第一信号包括第一组音频通道。 解码器(115)包括接收第一信号的接收机(401)。 接收器(401)耦合到估计处理器(405),该估计处理器响应于第一组音频通道的特性而产生第二组音频通道的估计参数数据。 估计的参数数据将第二组音频通道的特性与第一组音频通道的特性相关联。 解码器(115)还包括空间音频解码器(403),其响应于所估计的参数数据对第一信号进行解码,以产生包括第二组信道的多信道信号。 本发明允许对空间音频编码器未编码的信号使用空间音频解码。
    • 8. 发明申请
    • MULTI-CHANNEL AUDIO CODING
    • 多声道音频编码
    • US20100153097A1
    • 2010-06-17
    • US11909730
    • 2006-03-16
    • Gerard Herman HothoDirk Jeroen BreebartErik Gosuinus PetrusAlbertus Cornelis Den BrinkerLars Falck VillemoesHeiko PurnhagenKarl Jonas Roden
    • Gerard Herman HothoDirk Jeroen BreebartErik Gosuinus PetrusAlbertus Cornelis Den BrinkerLars Falck VillemoesHeiko PurnhagenKarl Jonas Roden
    • G10L19/00
    • G10L19/008H04R2420/07H04S3/008
    • A multi-channel audio encoder (10) for encoding a multi-channel audio signal (101), e.g. a 5.1 channel audio signal, into a spatial down-mix (102), e.g. a stereo signal, and associated parameters (104, 105). The encoder (10) comprises first and second units (110, 120). The first unit (110) encodes the multi-channel audio signal (101) into the spatial down-mix (102) and parameters (104). These parameters (104) enable a multi-channel decoder (20) to reconstruct the multi-channel audio signal (203) from the spatial down-mix (102). The second unit (120) generates, from the spatial down-mix (102), parameters (105) that enable the decoder to reconstruct the spatial down-mix (202) from an alternative down-mix (103), e.g. a so-called artistic down-mix that has been manually mixed in a sound studio. In this way, the decoder (20) can efficiently deal with a situation in which an alternative down-mix (103) is received instead of the regular spatial, down-mix (102). In the decoder (20), first the spatial down-mix (202) is reconstructed from the alternative down-mix (103) and the parameters (105). Next, the spatial down-mix (202) is decoded into the multi-channel audio signal (203).
    • 一种用于对多声道音频信号(101)进行编码的多声道音频编码器(10)。 5.1声道音频信号转换成空间缩混(102)。 立体声信号和相关参数(104,105)。 编码器(10)包括第一和第二单元(110,120)。 第一单元(110)将多声道音频信号(101)编码成空间缩混(102)和参数(104)。 这些参数(104)使得多声道解码器(20)能够从空间缩混(102)重建多声道音频信号(203)。 第二单元(120)从空间缩混(102)生成参数(105),使参数(105)能够使解码器从替代的下混合(103)重构空间缩混(202)。 所谓的艺术混合,已经在一个健全的工作室手工混合。 以这种方式,解码器(20)可以有效地处理接收替代的下混合(103)而不是常规的空间,混合(102)的情况。 在解码器(20)中,首先,从替代的下混合(103)和参数(105)重构空间缩混(202)。 接下来,空间缩混(202)被解码为多声道音频信号(203)。
    • 9. 发明申请
    • Generation of Multi-Channel Audio Signals
    • 多声道音频信号的产生
    • US20080201153A1
    • 2008-08-21
    • US11995700
    • 2006-07-12
    • Dirk Jeroen BreebaartLars Falck VillemoesHeiko PurnhagenChristof Faller
    • Dirk Jeroen BreebaartLars Falck VillemoesHeiko PurnhagenChristof Faller
    • G10L19/00
    • H04S3/008G10L19/008
    • A decoder (115) generates a multi channel audio signal, such as a surround sound signal, from a received first signal. The multi-channel signal comprises a second set of audio channels and the first signal comprises a first set of audio channels. The decoder (115) comprises a receiver (401) which receives the first signal. The receiver (401) is coupled to an estimate processor (405) which generates estimated parametric data for the second set of audio channels in response to characteristics of the first set of audio channels. The estimated parametric data relates characteristics of the second set of audio channels to characteristics of the first set of audio channels. The decoder (115) furthermore comprises a spatial audio decoder (403) which decodes the first signal in response to the estimated parametric data to generate the multi-channel signal comprising the second set of channels. The invention allows use of spatial audio decoding with signals that are not encoded by a spatial audio encoder.
    • 解码器(115)从接收的第一信号生成诸如环绕声信号的多声道音频信号。 多声道信号包括第二组音频通道,第一信号包括第一组音频通道。 解码器(115)包括接收第一信号的接收机(401)。 接收器(401)耦合到估计处理器(405),该估计处理器响应于第一组音频通道的特性而产生第二组音频通道的估计参数数据。 估计的参数数据将第二组音频通道的特性与第一组音频通道的特性相关联。 解码器(115)还包括空间音频解码器(403),其响应于所估计的参数数据对第一信号进行解码,以产生包括第二组信道的多信道信号。 本发明允许对空间音频编码器未编码的信号使用空间音频解码。
    • 10. 发明授权
    • Method and apparatus for generating a binaural audio signal
    • 用于产生双耳音频信号的方法和装置
    • US08265284B2
    • 2012-09-11
    • US12681124
    • 2008-09-30
    • Lars Falck VillemoesDirk Jeroen Breebaart
    • Lars Falck VillemoesDirk Jeroen Breebaart
    • H04R5/00
    • H04S3/02G10L19/008H04S2400/01H04S2420/01H04S2420/03
    • An apparatus for generating a binaural audio signal includes a de-multiplexer and decoder which receives audio data comprising an audio M-channel audio signal which is a downmix of an N-channel audio signal and spatial parameter data for upmixing the M-channel audio signal to the N-channel audio signal. A conversion processor converts spatial parameters of the spatial parameter data into first binaural parameters in response to at least one binaural perceptual transfer function. A matrix processor converts the M-channel audio signal into a first stereo signal in response to the first binaural parameters. A stereo filter generates the binaural audio signal by filtering the first stereo signal. The filter coefficients for the stereo filter are determined in response to the at least one binaural perceptual transfer function by a coefficient processor. The combination of parameter conversion/processing and filtering allows a high quality binaural signal to be generated with low complexity.
    • 一种用于产生双耳音频信号的装置包括解复用器和解码器,其接收音频数据,音频数据包括作为N声道音频信号的下混的音频M声道音频信号和用于上混M声道音频信号的空间参数数据 到N声道音频信号。 转换处理器响应于至少一个双耳感知传递函数将空间参数数据的空间参数转换成第一双耳参数。 矩阵处理器响应于第一双耳参数将M声道音频信号转换成第一立体声信号。 立体声滤波器通过对第一立体声信号进行滤波来产生双耳音频信号。 响应于系数处理器的至少一个双耳感知传递函数来确定用于立体声滤波器的滤波器系数。 参数转换/处理和滤波的组合允许以低复杂度产生高质量的双耳信号。