RU2011117699A

RU2011117699A - SWITCHABLE AUDIO-CODING / DECODING MULTI-RESOLUTION CIRCUIT

Info

Publication number: RU2011117699A
Application number: RU2011117699/08A
Authority: RU
Inventors: Бернард ГРИЛЛ (DE); Бернард ГРИЛЛ; Стефан БАЙЕР (DE); Стефан БАЙЕР; Гильом ФУШ (DE); Гильом ФУШ; Ральф ГЕЙГЕР (DE); Ральф ГЕЙГЕР; Джереми ЛЕКОМТЕ (DE); Джереми ЛЕКОМТЕ; Маркус МУЛЬТРУС (DE); Маркус МУЛЬТРУС; Макс НЮЕНДОРФ (DE); Макс НЮЕНДОРФ; Николаус РЕТТЕЛЬБАХ (DE); Николаус РЕТТЕЛЬБАХ; Филипп ГУРНЕЙ (CA); Филипп ГУРНЕЙ; Рэдван САЛАМИ (CA); Рэдван САЛАМИ
Original assignee: Фраунхофер-Гезелльшафт цур Фердерунг дер ангевандтен (DE); Фраунхофер-Гезелльшафт цур Фердерунг дер ангевандтен; Войсэйдж Корпорэйшн (CA); Войсэйдж Корпорэйшн
Priority date: 2008-10-08
Filing date: 2009-10-07
Publication date: 2012-11-10
Also published as: WO2010040522A2; CA2739736C; CN102177426A; RU2520402C2; TWI520128B; KR101403115B1; BRPI0914056B1; KR20130069833A; MX2011003824A; TW201344679A; CO6362072A2; CA2739736A1; BRPI0914056A2; AU2009301358A1; JP2012505423A; CN102177426B; WO2010040522A3; AU2009301358A8; MY154633A; EP2345030A2

Abstract

1. Аудиокодирующее устройство для того, чтобы закодировать аудиосигнал, включающее ! первый канал кодирования (400) для того, чтобы закодировать аудиосигнал, используя первый кодирующий алгоритм для получения первого кодированного сигнала, при этом первый канал кодирования содержит первый преобразователь (410) для преобразования входного сигнала в спектральную область; ! второй канал кодирования (500) для того, чтобы закодировать аудиосигнал, используя второй кодирующий алгоритм, для получения второго кодированного сигнала, где первый кодирующий алгоритм отличается от второго кодирующего алгоритма, а второй канал кодирования включает преобразователь области для того, чтобы преобразовать входной сигнал из входной области в сигнал выходной области, и второй преобразователь (523) для того, чтобы преобразовать входной сигнал в спектральную область; ! переключатель (200) для переключения между первым каналом кодирования и вторым каналом кодирования так, чтобы для части входного звукового сигнала или первый кодированный сигнал или второй кодированный сигнал были в выходном сигнале кодирующего устройства; ! анализатор сигнала (300, 525) для того, чтобы проанализировать часть аудиосигнала, чтобы определить, представлена ли часть аудиосигнала как первый кодированный сигнал или второй кодированный сигнал в выходном сигнале кодирующего устройства, где анализатор сигнала, кроме того, выполнен с возможностью определить соответствующее непостоянное разрешение времени/частоты первого преобразователя и второго преобразователя, когда сформированы первый кодированный сигнал или второй кодированный сигнал, представляюще� 1. An audio coding device for encoding an audio signal including! a first encoding channel (400) in order to encode an audio signal using a first encoding algorithm to obtain a first encoded signal, wherein the first encoding channel comprises a first converter (410) for converting the input signal into a spectral region; ! a second encoding channel (500) in order to encode the audio signal using the second encoding algorithm to obtain a second encoded signal, where the first encoding algorithm is different from the second encoding algorithm, and the second encoding channel includes a region converter in order to convert the input signal from the input region into the signal of the output region, and the second Converter (523) in order to convert the input signal to the spectral region; ! a switch (200) for switching between the first encoding channel and the second encoding channel so that for a portion of the input audio signal, either the first encoded signal or the second encoded signal is in the output of the encoder; ! a signal analyzer (300, 525) in order to analyze a portion of the audio signal to determine whether a portion of the audio signal is represented as a first encoded signal or a second encoded signal in the output signal of an encoder, where the signal analyzer is further configured to determine a corresponding non-constant resolution time / frequency of the first converter and the second converter when the first encoded signal or the second encoded signal representing

Claims

1. An audio coding device for encoding an audio signal including

a first encoding channel (400) in order to encode an audio signal using a first encoding algorithm to obtain a first encoded signal, wherein the first encoding channel comprises a first converter (410) for converting the input signal into a spectral region;

a second encoding channel (500) in order to encode the audio signal using the second encoding algorithm to obtain a second encoded signal, where the first encoding algorithm is different from the second encoding algorithm, and the second encoding channel includes a region converter in order to convert the input signal from the input region into the signal of the output region, and the second Converter (523) in order to convert the input signal to the spectral region;

a switch (200) for switching between the first encoding channel and the second encoding channel so that for a portion of the input audio signal, either the first encoded signal or the second encoded signal is in the output of the encoder;

a signal analyzer (300, 525) in order to analyze a portion of the audio signal to determine whether a portion of the audio signal is represented as a first encoded signal or a second encoded signal in the output signal of an encoder, where the signal analyzer is further configured to determine a corresponding non-constant resolution the time / frequency of the first converter and the second converter when the first encoded signal or the second encoded signal representing a portion of the audio signal is generated; and

an output interface (800) for generating an encoder output signal including a first encoded signal and a second encoded signal, and information indicative of a first encoded signal and a second encoded signal, and information indicative of a time / frequency resolution applied to encoding the first encoded signal; and for encoding the second encoded signal.

2. The audio coding device according to claim 1, wherein the signal analyzer (300, 525) is configured to classify a portion of the audio signal as a speech-like audio signal or a music-like audio signal, and is configured to detect a transient in the case of a music signal in order to determine a time resolution / frequency of the first transducer (410) or in order to perform analysis analysis through synthesis in order to determine the time / frequency resolution of the second transducer (523).

3. The audio coding device according to claim 1, wherein the first transducer (410) and the second transducer (523) include a variable window function conversion processor including a variable window size window function and a variable length conversion function, and where a signal analyzer (300 / 525) is configured to control based on signal analysis, window size, and / or conversion length.

4. The audio coding device according to claim 1, in which the second coding channel includes a first processing channel (522), configured to process the audio signal in the region defined by the region converter (510), and a second processing channel (523, 524), including the second converter (523), where the signal analyzer is configured to divide a portion of the audio signal into a sequence of sub-parts, and where the signal analyzer is configured to determine the time / frequency resolution of the second converter (523) depending on the position of the sub the part processed in the first processing channel with respect to the sub-part of the part processed in the second processing channel.

5. The audio coding device according to claim 4, in which the first processing channel includes an ACELP encoder (526), in which the second processing channel includes processing units MDCT-TCX (527), in which the signal analyzer (300/525) is configured a high value of the temporal resolution of the second transducer, determined by the length of the sub-part or a relatively low value of the temporal resolution, determined by the length of the sub-part, multiplied by an integer value greater than one.

6. The audio coding device according to claim 1, in which the signal analyzer (300, 525) is arranged to determine the classification of the signal in a constant raster covering a plurality of blocks of audio samples of the same size, and is configured to divide the block into a variable number of blocks depending on the audio signal, where the length of the sub-block determines in the first case the time / frequency resolution or in the second case the frequency resolution.

7. The audio coding device according to claim 1, in which the signal analyzer (300, 525) is configured to determine the time / frequency resolution to select from at least two different lengths from the set of different window lengths from the set of 2304, 2048, 256, 1920, 2160, 240 samples, or choose from different conversion lengths different conversion lengths, including at least two of the set consisting of 1152, 1024, 1080, 960, 128, 120 coefficients of the conversion unit, or in which the signal analyzer ( 300, 525) is configured to determine the temporal go / frequency resolution of the second converter as one of many different window lengths, many different window lengths, which are at least two of 640, 1152, 2304, 512, 1024 or 2048 samples, or as one of many different conversion lengths different lengths transformations, including at least two of the set consisting of 320, 576, 1152, 256, 512, 1024 spectral coefficients of the transform block.

8. The audio coding device according to claim 1, in which the second coding channel includes a first processing channel (522) in order to process the audio signal;

a second processing channel including a second converter; and

further a switch (521) in order to switch between the first processing channel (522) and the second processing channel (523, 524) so that for a part of the input audio signal to the second encoding channel or the first processed signal or second processed signal were in the second encoded signal .

9. A method for audio coding an audio signal, including encoding in a first encoding channel (400) an audio signal using a first encoding algorithm to obtain a first encoded signal, a first encoding channel including a first converter (410) in order to convert the input signal to a spectral region;

encoding an audio signal in a second encoding channel (500) using a second encoding algorithm to obtain a second encoded signal, where the first encoding algorithm is different from the second encoding algorithm, a second encoding channel including a region converter in order to convert the input signal from the input region to the output a region, and a second converter (523) in order to convert the input signal into a spectral region;

switching (200) between the first coding channel and the second coding channel so that for part of the input audio signal in the output signal there are either a first encoded signal or a second encoded signal of an encoder;

analyzing (300, 525) the portion of the audio signal to determine whether the portion of the audio signal is represented as a first encoded signal or a second encoded signal in an output signal of an encoder,

determining a corresponding non-constant time / frequency resolution of the first converter and the second converter when the first encoded signal or the second encoded signal representing a part of the generated audio signal is generated; and

generating (800) an output signal of an encoder including a first encoded signal and a second encoded signal, and information indicative of a first encoded signal and a second encoded signal, and information indicative of a time / frequency resolution used to encode the first encoded signal, and to encode the second encoded signal.

10. An audio decoder for decoding an encoded signal including a first encoded signal, a second encoded signal, a flag indicating a first encoded signal and a second encoded signal, and time / frequency resolution information that will be used to decode the first encoded signal and a second encoded audio signal, the audio decoder includes

the first decoding channel (431, 440) in order to decode the first encoded signal using the first controllable frequency / time converter (440), the first controllable frequency / time converter configured to control using time / frequency resolution information for the first encoded a signal to obtain a first decoded signal;

a second decoding channel in order to decode the second encoded signal using a second controlled frequency / time converter (534), a second controlled frequency / time converter (534) configured to control using time / frequency resolution information for the second encoded signal;

a controller (990) for controlling the first frequency / time converter (440) and the second frequency / time converter (534) using time / frequency resolution information;

a region converter (540) in order to generate a synthesized signal using a second decoded signal; and

combiner (604) in order to combine the first decoded signal and the synthesized signal to obtain a decoded audio signal.

11. The audio decoder of claim 10, in which the controller (990) is configured to control the first frequency / time converter (440) and the second converter the frequency / time converter (534) so that for the first frequency / time converter (440) time resolution / frequencies were selected from a variety of different window lengths, different window lengths being at least two of 2304, 2048, 256, 1920, 2160, 240 samples, or various conversion lengths including at least two of the group consisting of 1152, 1024, 1080, 960, 128, 120 coefficients of the conversion unit, or for the second frequency / time converter (534), the time / frequency resolution was selected as one of many different window lengths, many different window lengths, which are at least two from 640, 1152, 2304, 512, 1024 or 2048 samples, or were selected from a variety of different conversion lengths, various conversion lengths, including at least two from the group consisting of 320, 576, 1152, 256, 512, 1024 spectral conversion block coefficients.

12. The audio decoder of claim 10, wherein the second decoding channel includes a first reverse processing channel (531) for reverse processing the first processed signal, which is further included in the encoded signal to obtain a first back processed signal;

where the second controlled frequency / time converter (534) is located in the second reverse processing channel, configured to invert the processing of the second encoded signal in an area identical to the region of the first back-processed signal to obtain a second, back-processed signal;

a further combiner (532) in order to combine the first back-processed signal and the second back-processed signal to obtain a combined signal; and

where the combined signal goes to combiner (600).

13. The audio decoder of claim 10, where the first frequency / time converter (440) and the second frequency / time converter are time-alignment converters having an overlap / addition unit (440c) in order to cancel the alignment in the time domain, included in the first encoded signal and in the second encoded signal.

14. The audio decoder of claim 10, wherein the encoded signal includes an encoded identification of method information, whether the encoded signal is a first encoded signal or a second encoded signal, and

where the decoder further includes an input interface (900) in order to interpret the encoded method information to determine whether the encoded signal should be supplied to the first decoding channel or to the second decoding channel.

15. The audio decoder according to claim 1, in which the first encoded signal is encoded arithmetically, and where the first encoding channel includes an arithmetic decoder.

16. The audio decoder according to claim 1, in which the first coding channel includes a decanter having a non-uniform de-quantization characteristic in order to cancel the result of the non-uniform quantization used in generating the first encoded signal, where the second coding channel includes a de-quantizer using other de-quantization characteristics or where the second coding channel does not include a decanter.

17. The audio decoder according to claim 1, in which the controller (990) is configured to control the first frequency / time converter and the second frequency / time converter, applying for each converter a discrete frequency / time resolution from among various different discrete frequency / time resolutions, number possible different frequency / time resolutions, which is large for the second converter compared to the number of possible different frequency / time resolutions for the first converter.

18. The audio decoder of claim 10, wherein the region converter is an LPC synthesis processor (544) generating the synthesized signal using LPC filter information, LPC filter information included in the encoded signal.

19. A method for audio decoding an encoded signal including a first encoded signal, a second encoded signal, a flag indicative of a first encoded signal and a second encoded signal, and time / frequency resolution information that will be used to decode the first encoded signal and the second encoded audio signal, including decoding by the first decoding channel (431, 440) of the first encoded signal using the first controlled frequency / time converter (440), the first ravlyaetsya inverter frequency / time, configured to control by using information about resolution time / frequency for the first encoded signal to obtain a first decoded signal;

decoding a second decoding channel of a second encoded signal using a second controllable frequency / time converter (534), a second controllable frequency / time converter (534) configured to control using time / frequency resolution information for the second encoded signal;

controlling (990) a first frequency / time converter (440) and a second frequency / time converter (534) using time / frequency resolution information;

generating (540) a converter of a synthesized signal region using a second decoded signal; and

combining (604) the first decoded signal and the synthesized signal to obtain a decoded audio signal.

20. An encoded audio signal including:

first encoded signal;

a second encoded signal, where a portion of the audio signal is either represented by a first encoded signal or a second encoded signal;

a sign indicating the first encoded signal and the second encoded signal;

first time / frequency resolution information to be used to decode the first encoded signal, and

information about the second time / frequency resolution that will be used to decode the second encoded signal.

21. A computer program for implementation when performing using a processor of the method according to claim 9 or 19.