RU95106457A

RU95106457A - SIGNAL CODING DEVICE, SIGNAL DECODING DEVICE, RECORDING MEDIA AND METHOD FOR CODING AND DECODING

Info

Publication number: RU95106457A
Application number: RU95106457/12A
Authority: RU
Inventors: Тсутсуи Киоя; Сонохара Мито
Original assignee: Сони Корпорейшн
Priority date: 1993-06-30
Filing date: 1994-06-29
Publication date: 1998-02-20

Claims

1. A signal encoding device for encoding an input signal, characterized in that it comprises conversion means for converting the input signal into frequency components, a separation means for dividing the output signal of the conversion means into a first signal consisting of tone characteristic components, and a second signal consisting of other components, the first encoding means for encoding the first signal, and the second encoding means for encoding the second signal, the first medium The encoding tool comprises means for encoding with variable length codes for encoding with variable length codes for the respective components of the first signal.

2. The signal encoding device according to claim 1, characterized in that the first encoding means, when encoding the first signal, provides normalization of the amplitude information of the corresponding components of the tonal characteristics of the first signal using normalization factors for its subsequent encoding with variable-length codes.

3. The signal encoding device according to claim 1 or 2, characterized in that the means for encoding with variable length codes is intended for encoding with variable length codes the corresponding frequency components of the tonal characteristic using a plurality of transformation rules.

4. The signal encoding device according to claim 3, characterized in that the conversion rule used in the encoding is determined by the ratio of the relative positions in frequency of the maximum frequency component and the corresponding frequency components of the tonal characteristic.

5. The signal encoding device according to claim 3, characterized in that the conversion rule applied to the maximum frequency component, from the set of conversion rules, is intended for processing by conversion to shorter codes for frequency components carrying information about large amplitude values.

6. The signal encoding device according to claim 3, characterized in that the conversion rule applied to other frequency components related to the maximum frequency component, from the set of conversion rules, is intended for processing by conversion to shorter codes for frequency components that carry information about smaller amplitude values.

7. The signal encoding device according to claim 1, characterized in that the input signal is an acoustic signal.

8. A signal encoding device for encoding an input signal, comprising conversion means for converting the input signal into frequency components, separation means for separating an output signal of the converting means into a first signal consisting of tone characteristic components, and a second signal consisting of other components, first coding means for normalizing the amplitude information of the corresponding tonal characteristic components of the first signal by using oeffitsientov normalizing and quantizing the normalized amplitude information to form the encoded signal and a second encoding means for encoding the second signal, the first coding means designed to form an encoded signal relating to frequency components except for a maximum frequency component of the respective tone characteristic components.

9. The signal encoding device according to claim 8, characterized in that the separation means is for repeatedly extracting frequency components that overlap with each other in frequency with the formation of the first signal as a result.

10. The signal encoding device according to claim 8, characterized in that the values of the normalization coefficients are set so that with a decrease in these values, the accuracy increases.

11. The signal encoding device according to claim 8, characterized in that the input signal is an acoustic signal.

12. A recording medium for recording encoded signals, characterized in that the first signal, consisting of tone characteristic components, encoded with variable length codes, and the second signal, consisting of other components, are recorded separately from one another.

13. The recording medium according to claim 12, characterized in that the first signal is a signal obtained by normalizing the amplitude information of the corresponding components of the tonal characteristics using normalization coefficients for encoding the normalized amplitude information.

14. The recording medium according to p. 12 or 13, characterized in that the first signal is encoded using a variety of conversion rules.

15. The recording medium according to claim 14, characterized in that the conversion rule used in coding is performed according to the ratios of relative positions in frequency between the maximum frequency component and the corresponding frequency components from the tonal characteristics components.

16. The recording medium according to claim 14, characterized in that the conversion rule applied to the maximum frequency component from the plurality of conversion rules is intended to convert to shorter codes for frequency components that carry information about large amplitude values.

17. The recording medium according to claim 14, wherein the conversion rule applied to other corresponding frequency components of the maximum frequency component, from the set of conversion rules, is intended to convert to shorter codes for frequency components that carry information about lower amplitude values.

18. The recording medium according to p. 12, characterized in that the signal intended for recording is an acoustic signal.

19. The recording medium according to claim 12, characterized in that the first signal contains information obtained by normalizing and quantizing the amplitude information of the tonal characteristic components, with the exception of information obtained by normalizing and quantizing the amplitude information of the maximum frequency component, for their encoding and normalization coefficients.

20. The recording medium according to p. 19, characterized in that the first signal contains many components of the tonal characteristics, overlapping with each other in frequency.

21. The recording medium according to claim 19, characterized in that the normalization coefficients are set so that with a decrease in these values, the accuracy increases.

22. The recording medium according to claim 19, wherein the recording medium is an acoustic signal.

23. A signal decoding apparatus for decoding an encoded signal, characterized in that it comprises first decoding means for decoding a first signal consisting of tone characteristic components encoded with variable length codes, second decoding means for decoding a second signal consisting of other components, and synthesizing inverse transform means for synthesizing the corresponding signals for their inverse transform or for thorough conversion of the corresponding signals for their synthesis.

24. The signal decoding device according to claim 23, characterized in that the amplitude information of the corresponding components of the tonal characteristic of the first signal is used for normalization by means of normalization and coding coefficients.

25. The signal decoding device according to claim 23 or 24, characterized in that the first decoding means is for decoding the first signal using a plurality of conversion rules.

26. The signal decoding device according to claim 25, characterized in that the conversion rule used in the encoding is determined by the ratio of the relative positions of their frequency to the maximum frequency component and the corresponding frequency components of the tonal characteristic.

27. The signal decoding device according to claim 25, wherein the conversion rule applied to the maximum frequency component, from the set of conversion rules, is designed to convert to shorter codes for frequency components carrying information about large amplitude values.

28. The signal decoding apparatus according to claim 25, wherein the conversion rule applied to components except for the maximum frequency component, from the set of conversion rules, is designed to convert to shorter codes for frequency components that carry information about lower amplitude values.

29. The signal decoding apparatus according to claim 23, wherein the synthesizing inverse transform means is for generating an acoustic signal.

30. A signal decoding device for encoding an encoded signal, characterized in that it comprises first decoding means for decoding a normalized and encoded signal consisting of tone characteristic components, second decoding means for decoding a second signal consisting of other components, and synthesizing inverse means transformations for synthesizing the corresponding signals for their inverse transform, or for the inverse transform, respectively signals for their synthesis, and the first decoding means is designed to reproduce the maximum frequency component of the tonal characteristics using the transmitted normalization coefficient.

31. The signal decoding device according to claim 30, characterized in that the components of the tonal characteristics of the first signal are encoded with frequency overlapping with each other.

32. The signal decoding device according to claim 30, characterized in that the normalization coefficients are set, which, when these values are reduced, the accuracy increases.

33. The signal decoding device according to claim 30, characterized in that the synthesizing inverse transform means is for generating an acoustic signal.

34. A method of encoding a signal for encoding an input signal, characterized in that it includes converting the input signal to frequency components, dividing the frequency components into a signal consisting of components of the tonal characteristic, and a second signal consisting of other components, performing encoding with variable length codes for the first signal, and encoding the second signal.

35. The method of encoding a signal according to claim 34, characterized in that the amplitude information of the first signal is normalized by normalization coefficients, and then subjected to encoding with variable length codes.

36. The method of encoding a signal according to claim 34 or 35, characterized in that the first signal is encoded with variable-length codes using a variety of different conversion rules.

37. The method of encoding a signal according to claim 36, characterized in that any of the many different conversion rules is selected based on the ratio of the relative positions in frequency of the maximum frequency component of the first signal and other frequency components.

38. The method of encoding a signal according to claim 36, wherein the conversion rule applicable to the maximum frequency component, from the set of conversion rules, is intended to be converted to shorter codes with respect to information about large amplitude values.

39. The signal encoding method according to claim 36, wherein the conversion rule applicable to the respective frequency components, with the exception of the maximum frequency component, from the plurality of conversion rules is intended to isolate shorter codes with respect to information about lower amplitude values.

40. A method of encoding a signal for encoding an input signal, characterized in that it includes converting the input signal into frequency components, dividing the frequency components of the converted input signal into a signal consisting of tone characteristic components, and a second signal consisting of other components, normalizing the amplitude information of the corresponding components of the tonal characteristics of the first signal by using normalization coefficients, quantization of normalized amplitude information for e coding and encoding the second signal, the first encoding signal includes issuing a coded signal associated with the frequency components except for a maximum frequency component of the respective tone characteristic components.

41. The method of encoding a signal according to claim 40, characterized in that the separation of the frequency components of the converted input signal includes the multiple selection of frequency components that overlap with each other in frequency.

42. The method of encoding a signal according to claim 40, characterized in that the normalization coefficients are set in such a way that when their values are reduced, the accuracy increases.

43. The method of decoding a signal for decoding an encoded signal, characterized in that it includes decoding the normalized and encoded first signal, consisting of components of the tone characteristics, decoding the second signal, consisting of other components, and synthesizing the corresponding signals for their inverse transformation or reverse conversion of the corresponding signals for their synthesis with the reproduction of the original signal, and the decoding of the first signal including t playback maximum frequency component of the tone characteristic components on the basis of transmitted normalization coefficients.

44. The method of decoding a signal according to claim 43, wherein the first signal comprises a plurality of tonal response components that overlap with each other in frequency.

45. The method of decoding a signal according to claim 43, characterized in that the normalization coefficients are set in such a way that when their values are reduced, the accuracy increases.