RU2011141881A

RU2011141881A - ADVANCED STEREOPHONIC ENCODING BASED ON THE COMBINATION OF ADAPTIVELY SELECTED LEFT / RIGHT OR MID / SIDE STEREOPHONIC ENCODING AND PARAMETRIC STEREOPHONY CODE

Info

Publication number: RU2011141881A
Application number: RU2011141881/08A
Authority: RU
Inventors: Хейко ПУРНХАГЕН; Понтус КАРЛЬССОН; Кристофер КЬЁРЛИНГ
Original assignee: Долби Интернешнл Аб
Priority date: 2009-03-17
Filing date: 2010-03-05
Publication date: 2013-05-10

Claims

1. An encoder system configured to encode a stereo signal into a bitstream signal (6), where the encoder system includes

downmix means (8) configured to generate a downmix signal and a residual signal based on a stereo signal;

means (9) for determining parameters configured to determine one or more parameters (5) of parametric stereo coding;

means (2, 3) of perceptual coding in the downstream direction relative to means (8) of downmixing, where means (2, 3) of perceptual coding are configured to select

encoding based on the sum of the downmix signal and the residual signal and based on the difference of the downmix signal and the residual signal, or

encoding based on the downmix signal and based on the residual signal,

frequency dependent or frequency independent way.

2. The encoder system according to claim 1, characterized in that the means (2, 3) of perceptual coding include

conversion means (2) configured to perform the conversion based on the downmix signal and the residual signal, thereby generating a pseudo-right / right stereo signal; and

a perceptual encoder (3, 48) configured to encode a pseudo-field / right stereo signal, where a perceptual encoder (3, 48) is configured to select

perceptual right / left encoding, or

perceptual middle / side coding,

frequency dependent or frequency independent way.

3. The encoder system according to claim 1, characterized in that the means (2, 3) of perceptual coding include

conversion means (2) configured to perform a sum and difference conversion based on the downmix signal and the residual signal to generate a pseudo-right / right stereo signal for one or more, or all used frequency bands.

4. The encoder system according to claim 3, characterized in that

means for perceptual coding (2, 3) include decision tools configured to make a decision about choosing between perceptual L / R coding and perceptual M / S coding in a frequency-dependent or frequency-independent manner;

encoding based on the downmix signal and the residual signal is selected when the decision makers decide on perceptual M / S decoding, and

encoding based on the sum and difference is selected when the decision makers decide on perceptual L / R decoding.

5. The encoder system according to claim 2, characterized in that the perceptual encoder (3) is configured to decide between

left / right encoding, or

medium / side coding,

frequency dependent or frequency independent based on a pseudo stereo signal.

6. The encoder system according to one of the preceding paragraphs, characterized in that the encoder system is configured for selection in a frequency-dependent or frequency-independent manner between

parametric stereo coding of a stereo signal into a signal (6) of a bit stream, or

left / right encoding of a stereo signal into a signal (6) of a bit stream.

7. The encoder system according to one of claims 2 or 5, characterized in that the perceptual encoder (3, 48) is configured to convert the left / right signal (98) to a middle / side signal based on a pseudo-stereo signal.

8. The encoder system according to claim 7, where the parameters (5) of parametric stereo coding include

a frequency-dependent or frequency-independent parameter indicating the difference in intensity between the channels, and

A frequency-dependent or frequency-independent parameter indicating cross-correlation between channels.

9. The encoder system according to claim 7, characterized in that the pseudo-stereo signal is proportional to the stereo signal for a certain frequency band, if for this frequency band the left and right channels of the stereo signal are independent and have the same level.

10. The encoder system according to claim 7, characterized in that

the first channel of the pseudo stereophonic signal is proportional to the sum of the reduced and residual signals; and

the second channel of the pseudo stereophonic signal is proportional to the difference of the downmix and residual signals.

11. The encoder system according to claim 10, characterized in that the means (3) of perceptual coding include a stereo encoder (48) based on AAC.

12. The encoder system according to claim 11, characterized in that the means (3) of perceptual coding include a mechanism of psychoacoustic control, and the mechanism of psychoacoustic control has access

to one or more parameters of parametric stereo coding and / or

to a stereo signal.

13. The encoder system of claim 12, wherein the encoder system is configured to select a frequency dependent or frequency independent manner between

left / right encoding of a stereo signal into a signal (6) of a bit stream,

where the encoder system further includes deactivation means configured to effectively deactivate the parametric stereo coding in a frequency-dependent or frequency-independent manner.

14. The encoder system according to item 13, wherein the deactivation means are configured to receive parametric stereo coding parameter values from the parameter determination means, and the deactivation means are configured to send modified parametric stereo coding parameters to deactivate means to effectively deactivate the parametric stereo encoding to downmix means .

15. The encoder system of claim 14, wherein the modified parameter values of the parametric stereo coding include

an intensity difference between the channels of approximately 0 dB, and

a cross-correlation value between channels of approximately 0.

16. The encoder system of claim 15, wherein the encoder system further includes an SBR encoder (32).

17. The encoder system according to clause 16, wherein the SBR encoder (32) is connected in an upward direction relative to the down-mix means (8).

18. The encoder system according to claim 17, characterized in that the downmix means (8) and the parameter determination means (9) are configured to perform operations in the oversampled frequency domain.

19. The encoder system according to claim 18, characterized in that the perceptual coding in the means (3) of perceptual coding is carried out in the field of critically sampled MDCT.

20. The encoder system according to claim 10, characterized in that the conversion means (2) are configured to perform the conversion in the time domain.

21. The encoder system according to claim 10, characterized in that the conversion means (2) are configured to perform the conversion in the oversampled frequency domain.

22. The encoder system of claim 10, wherein the conversion means (2) are configured to perform the conversion in the critically sampled MDCT region.

23. The encoder system of claim 10, wherein the encoder system includes, in addition to the perceptual encoder (3, 48), a second encoder (71) based on linear prediction analysis, and the encoder system is configured to use perceptual encoder (3, 48), and in the second mode, a second encoder (71) was used for encoding.

24. The encoder system according to claim 23, wherein the encoder system is configured so that the second encoder (71) encodes the signal in the upstream direction relative to the conversion means (2).

25. The encoder system according to claim 24, wherein the encoder system further includes phase adjusting means (80) configured to adjust the phase of the stereo signal in the upstream direction with respect to the downmix means (8).

26. The encoder system according to one of claims 1 to 5 and 8-25, characterized in that

encoding based on the sum of the downmix signal and the residual signal and on the difference of the downmix signal and the residual signal,

or

encoding based on the downmix signal and based on the residual signal is selected in a frequency dependent or frequency independent manner.

27. The encoder system according to clause 16, wherein the encoder system performs operations

in a first configuration, where the SBR encoder (32) is located in a downward direction with respect to the downmix means (8), and

in a second configuration, where the SBR encoder (32) is located in the upstream direction with respect to the downmix means (8).

28. The encoder system according to claim 27, wherein the encoder system is configured to select a first configuration or a second configuration depending on the desired target data bit rate and / or one or more other criteria.

29. The encoder system according to claim 28, wherein the encoder system is further configured to transmit in the signal (6) a bit stream of the signal about one of the two configurations used.

30. The encoder system according to clause 29, wherein the encoder system is configured to provide

specialized bit or field, or

an index indicating a specific entry in a table defining various decoder configurations,

in the header of the bitstream of the signal (6) of the bitstream to transmit a signal about one of the two configurations used.

31. An encoder system configured to encode a stereo signal into a bitstream signal (6), where the encoder system includes

means (9) for determining parameters configured to determine one or more parameters of parametric stereo coding;

a perceptual stereo encoder (3) configured to encode a pseudo-right / right stereo signal, where a perceptual stereo encoder (3) is configured to select

perceptual right / left encoding, or

perceptual middle / side coding,

frequency dependent or frequency independent way.

32. A decoder system configured to decode a bitstream signal including one or more parameters (5) of parametric stereo coding into a stereo signal, where the decoder system includes

perceptual decoding means (11, 12) configured to decode based on a bitstream signal (6), where decoding means (11, 12) are configured to generate by decoding a first signal and a second signal and to output a downmix signal and a residual signal, where means (11, 12) decodings are configured to select a downmix signal and a residual signal

based on the sum of the first signal and the second signal and based on the difference of the first signal and the second signal, or

based on the first signal and based on the second signal,

frequency dependent or frequency independent; and

upmix means (13) configured to generate a stereo signal based on a downmix signal and a residual signal, where the upmix operation by upmix means depends on one or more parameters (5) of parametric stereo coding.

33. The decoder system according to p, characterized in that the means (11, 12) of perceptual stereo decoding include

a perceptual stereo decoder (11) configured to decode based on a bitstream signal (6), where the decoder generates a pseudo stereo signal and the decoder is configured to selectively execute

perceptual left / right decoding, or

perceptual middle / side decoding,

frequency dependent or frequency independent; and

conversion means (12) configured to perform the conversion based on the pseudo stereophonic signal, thereby generating a downmix signal and a residual signal.

34. The decoder system according to claim 33, wherein the perceptual decoding means (11, 12) include

conversion means (12) configured to perform a sum and difference conversion based on the first signal and the second signal for one, or several, or all of the frequency bands used.

35. The decoder system according to clause 34, wherein

perceptual decoding means (11, 12) include a selector configured to choose between perceptual L / R decoding and perceptual M / S decoding in a frequency-dependent or frequency-independent manner;

the downmix signal and the residual signal are selected so that they are based on the sum of the first signal and the second signal and the difference between the first signal and the second signal when the selector opts for perceptual L / R decoding, and

the downmix signal and the residual signal are selected to be based on the first signal and the second signal when the selector opts for perceptual M / S decoding.

36. The decoder system according to clause 35, wherein the decoder system is configured to switch frequency-dependent or frequency-independent way between

parametric stereo decoding of the bitstream signal into a stereo signal, or

left / right decoding of a bitstream signal into a stereo signal.

37. The decoder system according to clause 36, wherein the perceptual decoder is configured to convert (105) the middle / side signal to the left / right signal based on the decoded pseudo-middle / side signal.

38. The decoder system according to clause 37, wherein the parameters (5) of parametric stereo coding include

39. The decoder system according to claim 35, characterized in that the input signal of the conversion means (12) is proportional to the stereo signal for a certain frequency band if the left and right channels of the stereo signal are independent and have the same level for this frequency band.

40. The decoder system according to p. 33, characterized in that

the downmix signal is proportional to the sum of the two channels of the pseudo-stereo signal; and

the residual signal is proportional to the difference of the two channels of the pseudo-stereo signal.

41. The decoder system of claim 40, wherein the perceptual decoding means include an AAC-based decoder.

42. The decoder system according to paragraph 41, characterized in that if, for a certain frequency band, the left channel of the stereo signal and the right channel of the stereo signal are independent and have the same level, then the upmix operation can be described in accordance with the following equation:

where

,

where L is the component of the frequency band of the left channel of the stereo signal, R is the component of the frequency band of the right channel of the stereo signal, DMX is the component of the frequency band of the downmix signal, RES is the component of the frequency band of the residual signal, c is a certain coefficient.

43. The decoder system according to paragraph 42, wherein the decoder system further includes an SBR decoder.

44. The decoder system according to item 43, wherein the SBR decoder is located in a downward direction relative to the means (13) up-mix.

45. The decoder system according to claim 44, wherein the upmix means (13) are configured to perform operations in the oversampled frequency domain.

46. The decoder system of claim 40, wherein the conversion means (12) are configured to perform time-domain conversion.

47. The decoder system according to claim 40, characterized in that the conversion means (12) are configured to convert in the oversampled frequency domain.

48. The decoder system according to item 43, wherein the decoder system performs operations

in the first configuration, where the SBR decoder is located in the upstream direction relative to the upmix means (13), and

in a second configuration, where the SBR decoder is located in a downward direction with respect to upmix means (13).

49. The decoder system of claim 48, wherein the decoder system is configured to select a first configuration or a second configuration based on information in a bitstream signal (6).

50. The decoder system of claim 49, wherein the decoder system is configured to select a first configuration or a second configuration based on a specialized element in the bitstream header of the bitstream signal (6).

51. The decoder system according to p. 50, characterized in that the specialized element is a

specialized bit, or field, or

an index indicating a specific entry in a table defining various decoder configurations.

52. The decoder system according to claim 51, wherein said information in the bitstream signal (6) indicates that the SBR decoder is configured to perform monaural operations or stereo operations.

53. A decoder system configured to decode a bitstream signal (6) including one or more parametric stereo coding parameters into a stereo signal, where the decoder system includes

a perceptual stereo decoder (11) configured to decode based on a bitstream signal (6), where the decoder generates a pseudo stereo signal, and where the decoder is configured to selectively execute

perceptual left / right decoding, or

perceptual middle / side decoding,

frequency dependent or frequency independent; and

means (12) converting the left / right signal to the middle / side signal, configured to convert the left / right signal to the middle / side signal based on the pseudo stereophonic signal, thereby generating a downmix signal and a residual signal; and

54. A method for encoding a stereo signal into a signal (6) of a bit stream, where the method includes

generating a downmix signal and a residual signal based on a stereo signal;

determination of one or more parameters (5) of parametric stereo coding;

downstream perceptual coding with respect to generating a downmix signal and a residual signal, where

encoding based on the downmix signal and based on the residual signal,

selected in a frequency dependent or frequency independent manner.

55. The method according to item 54, wherein the perceptual coding includes stages in which

generating a pseudo left / right stereo signal by performing a conversion based on the downmix signal and the residual signal; and

perform perceptual stereo coding of a pseudo-right / right stereo signal, where

perceptual left / right coding or

perceptual mean / side coding

selected in a frequency dependent or frequency independent manner.

56. The method according to item 55, wherein the perceptual coding includes the stage at which

converting to a sum and a difference based on the downmix signal and the residual signal to generate a pseudo-field / right stereo signal for one, or several, or all used frequency bands.

57. The method according to p. 56, characterized in that the method allows you to make a choice between frequency-dependent or frequency-independent way between

left / right encoding of a stereo signal into a signal (6) of a bit stream.

58. The method according to item 55, wherein the perceptual encoding of the pseudo-field / right stereo signal includes the step of

converting the left / right signal to the middle / side signal based on the pseudo stereophonic signal.

59. The method according to p, characterized in that the pseudo-stereo signal is proportional to the stereo signal for a certain frequency band, if for this frequency band the left and right channels of the stereo signal are independent and have the same level.

60. A method for encoding a stereo signal into a bitstream signal (6), characterized in that the method includes the steps of

generating a downmix signal and a residual signal based on a stereo signal;

determining one or more parameters (5) of parametric stereo coding;

perform perceptual stereo coding of a pseudo-right / right stereo signal, where

perceptual left / right coding or

perceptual mean / side coding

selected in a frequency dependent or frequency independent manner.

61. A method for decoding a signal (6) of a bit stream including parameters (5) of parametric stereo coding into a stereo signal, where the method includes the steps of

perceptual decoding is performed based on the bitstream signal (6), where the first signal and the second signal are generated by decoding, where after the perceptual decoding the downmix signal and the residual signal are output, and where the downmix signal and the residual signal are selectively

based on the sum of the first signal and the second signal and the difference of the first signal and the second signal, or

based on the first signal and based on the second signal

frequency dependent or frequency independent; and

a stereo signal is generated based on the downmix signal and the residual signal through the upmix operation, where the upmix operation depends on one or more parameters (5) of the parametric stereo coding.

62. The method according to p, characterized in that the perceptual decoding based on the signal (6) of the bit stream includes the steps of

perceptual stereo decoding is performed based on the bitstream signal (6) to generate a pseudo stereo signal, where

perceptual left / right decoding, or

perceptual mean / side decoding

selected in a frequency dependent or frequency independent manner; and

generating a downmix signal and a residual signal by performing a conversion based on a pseudo stereophonic signal.

63. The method according to 61, where the perceptual decoding based on the signal (6) of the bit stream includes the step of

converting to a sum and a difference based on the first signal and the second signal for one, or several, or all used frequency bands.

64. The method according to p. 63, characterized in that the method can be switched in a frequency-dependent or frequency-independent manner between

parametric stereo decoding of the signal (6) of the bit stream into a stereo signal or

left / right decoding of the signal (6) of the bitstream into a stereo signal.

65. The method according to item 62, wherein the perceptual decoding based on the bitstream signal (6) to generate a pseudo-stereo signal includes the step of

converting the middle / side signal to the left / right signal based on the decoded pseudo-middle / side signal.

66. A method for decoding a signal (6) of a bit stream including parameters (5) of parametric stereo coding into a stereo signal, where the method includes the steps of

perform perceptual stereo coding based on the signal (6) of the bit stream in order to generate a pseudo stereo signal, where

perceptual left / right decoding or

perceptual mean / side decoding

selected in a frequency dependent or frequency independent manner;

generating a downmix signal and a residual signal by performing a conversion based on a pseudo stereophonic signal; and

a stereo signal is generated based on the downmix signal and the residual signal by the upmix operation, where the upmix operation depends on the parameters (5) of the parametric stereo coding.