JP2758189B2 - Stereo audio transmission system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention relates to an encoding device, a decoding device, and a stereo signal transmission system.

(Prior Art) A conventional stereo sound transmission system is disclosed in Japanese Patent Application Laid-Open No. 61-82840 proposed by the present inventors.

In the stereo audio transmission system, in the transmission of stereo audio, the audio of a plurality of channels is converted into a main audio corresponding to one of the channels, and the audio of a remaining channel obtained by removing a correlation between channels of the main audio and a sub audio. Transmission at a transmission rate lower than that of the main audio, the receiving side estimates the inter-channel correlation characteristics from the sub audio and the main audio, and reproduces the audio of channels other than the main audio from the sub audio that is the residual signal. .

According to this stereo audio transmission system, a single utterance is transmitted as a high-quality stereo audio at a lower transmission rate than when conventional monaural audio coding is applied to each channel, and a sub audio is also output when multiple utterances are used. Although the quantization noise temporarily increases, there is an advantage that good communication without disturbing the sound image can be performed.

However, since such a stereo sound transmission system is premised on processing of a single band, there is a problem that the stereo sound transmission system cannot be directly applied to the wideband sound coding method recommended as CCITT recommendation G722. there were.

(Problems to be Solved by the Invention) As described above, the conventional stereo audio transmission system has a problem that it cannot be applied as it is when processing wideband audio.

The present invention has been made in view of such a problem, and an object of the present invention is to provide an encoding device, a decoding device, and a stereo signal transmission system applicable to wideband speech.

[Structure of the Invention] (Means for Solving the Problems) In order to achieve the above object, a first invention is to provide a stereo signal of a plurality of channels including a main audio channel and a sub audio channel by a plurality of channels for each channel. Means for dividing into bands, and estimating a correlation component between the partial band stereo signal relating to the main audio channel and the partial band stereo signal relating to the sub audio channel for at least one of the plurality of divided bands. Means for removing a correlation component between the estimated channels from the sub-band stereo signal related to the sub-audio channel to generate a residual component; and Means for encoding the partial band stereo signal.

Further, in the second invention, the main audio channel is divided among a plurality of signals obtained by dividing stereo audio composed of a plurality of channels including a main audio channel and a sub audio channel into a plurality of bands for each channel. The correlation component between the signal of the main audio channel and the signal of the sub audio channel is removed from the signal of the low frequency band among the first signal which is the signal related to the divided partial band and the plurality of divided bands of the sub audio channel. Means for receiving a second signal, which is a residual signal; means for decoding, from the first signal, a signal relating to a main sound comprising the plurality of bands; and means for decoding the divided plurality of first signals. Means for estimating, from each partial band signal of the band and the second signal, a correlation component between a signal relating to the main audio channel and a signal relating to the sub audio channel, the correlation component and the first signal From the signal, characterized by comprising a means for decoding and predicting a signal of the sub-audio comprising the multiband.

A third aspect of the present invention provides a method for dividing the main audio channel into signals obtained by dividing stereo audio composed of a plurality of channels including a main audio channel and a sub audio channel into a plurality of bands for each channel. The correlation component between the signal of the main audio channel and the signal of the sub audio channel is removed from the signal of the low frequency band among the first signal which is the signal related to the divided partial band and the plurality of divided bands of the sub audio channel. Means for receiving a second signal, which is a residual signal; means for decoding, from the first signal, a signal relating to a main sound comprising the plurality of bands; and means for decoding the divided plurality of first signals. Estimating a correlation between a signal relating to the main audio channel and a signal relating to the sub audio channel from each partial band signal of a band, and calculating the correlation between the main audio channel and the second signal based on the correlation and the second signal. Means for estimating a correlation component between the signal according to the sub-channel and the signal relating to the sub-audio channel, and predicting and decoding a signal relating to the sub-audio comprising the plurality of bands from the correlation component and the first signal. Means.

A fourth aspect of the present invention relates to a transmitting side including an encoding device that inputs a stereo signal of a plurality of channels including a main audio channel and a sub audio channel, and divides and encodes the signal of each channel into a plurality of bands. And a stereo signal transmission system including a reception side including a decoding device that decodes stereo signals of a plurality of channels that are divided and encoded in the plurality of bands, wherein the transmission side includes the divided Means for estimating a correlation component between a partial band stereo signal relating to the main audio channel and a partial band stereo signal relating to the sub audio channel for at least one of a plurality of bands, and a correlation between the estimated channels Means for removing a component from the sub-band stereo signal associated with the sub-audio channel to generate a residual component; Means for encoding a sub-band stereo signal related to a voice channel, and wherein the receiving side comprises a plurality of channels including a main audio channel and a sub audio channel. Among signals obtained by dividing stereo sound into a plurality of bands for each channel, a first signal which is a signal related to a divided partial band of the main sound channel and a plurality of divided bands of the sub sound channel A means for receiving a second signal related to a low frequency band, a means for decoding a signal related to a main sound composed of the plurality of bands from the first signal, and the divided signal of the first signal. Means for estimating a correlation component between a signal relating to the main audio channel and a signal relating to the sub audio channel from each of the partial band signals of the plurality of bands and the second signal; From said first signal, characterized in that it comprises a decoding device, characterized by comprising means for decoding and predicting a signal of the sub-audio comprising the multiband.

A fifth aspect of the present invention is directed to a transmitting side including an encoding device that inputs a stereo signal of a plurality of channels including a main audio channel and a sub audio channel, and divides and encodes the signal of each channel into a plurality of bands. And a stereo signal transmission system including a reception side including a decoding device that decodes stereo signals of a plurality of channels that are divided and encoded in the plurality of bands, wherein the transmission side includes the divided Means for estimating a correlation component between a partial band stereo signal relating to the main audio channel and a partial band stereo signal relating to the sub audio channel for at least one of a plurality of bands, and a correlation between the estimated channels Means for removing a component from the sub-band stereo signal associated with the sub-audio channel to generate a residual component; Means for encoding a sub-band stereo signal related to a voice channel, and wherein the receiving side comprises a plurality of channels including a main audio channel and a sub audio channel. Among signals obtained by dividing stereo sound into a plurality of bands for each channel, a first signal which is a signal related to a divided partial band of the main sound channel and a plurality of divided bands of the sub sound channel Means for receiving a second signal that is a residual signal obtained by removing a correlation component of the signals of the main audio channel and the sub audio channel from a signal related to a low band, and from the plurality of bands from the first signal. Means for decoding a signal related to the main audio channel, and a signal relating to the main audio channel and the sub audio channel from the partial band signals of each of the divided plural bands of the first signal. Estimating a correlation between the signal according to Le, the correlation and the second
Means for estimating a correlation component between the signal related to the main audio channel and the signal related to the sub audio channel by the signal of the above, and from the correlation component and the first signal, And a means for predicting and decoding a signal.

(Operation) In the present invention, an input signal is divided into a plurality of channels, one of which is used as a main channel signal, and the main channel signal is divided into a plurality of M partial bands and sent to the receiving side. Further, a signal of a partial band corresponding to a certain partial band of the main channel is extracted as a sub-channel partial band signal, and a sub-channel partial band residual signal is obtained by using a correlation between the sub-channel partial band signal and the main channel partial band signal. Is generated and sent to the receiving side.

The receiving side estimates a plurality of sub-channel sub-band signals from the received main-channel sub-band signals and sub-channel sub-band residual signals.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

 FIG. 1 is a block diagram showing the principle of the present invention.

On the transmitting side, N microphones 1-1,.
N are arranged. Microphone 1 for main channel signal
The audio signal input to 1 is divided into two and input to a low-pass filter (LPF) 3 and a high-pass filter (HPF) 5. The low-pass filter 3 and the high-pass filter 5 divide the main channel signal input from the microphone 1-1 into two high-band and low-band partial band signals.

Output signals of the low-pass filter 3 and the high-pass filter 5 are sent to the receiving side via transmission lines 7 and 9, respectively.

The signal transmitted through the transmission path 7 is a low-pass filter 11
Is sent to the adder 15 via the transmission path 9 and the signal sent via the transmission path 9 is sent to the adder 15 via the high-pass filter 13. The adder 15 combines the partial band signals sent from the low-pass filter 11 and the high-pass filter 13 and
Send to The speaker 17 converts the synthesized signal into a voice.

The microphones 1-2,... 1-N collect the sub-channel signal, and the collected signal is a low-pass filter.
19-1 ... 19- (N-1).

The low-pass filters 19-1,..., 19- (N-1) pass signals in the same band as the low-pass filter 3, and each of the sub-band signals is a partial band of the main channel signal that has passed through the low-pass filter 3. Is to extract signals in the same band as.

The adaptive filters 20-1,..., 20- (N-1) are low-pass filters 19-1,.
-Estimating a sub-band partial band estimation signal using the correlation with the partial band signal extracted by (N-1).

The subtracters 21-1,..., 21- (N-2) respectively convert the sub-channel partial band signals extracted by the low-pass filters 19-1,.
Subtracting the sub-channel sub-band estimation signal estimated by (N-1) to generate a sub-channel sub-band residual signal.

The transmission paths 23-1,..., 23- (N-1) send the sub-channel partial band residual signal to the receiving side.

.. 25- (N-1) on the receiving side transmit the transmission paths 23-1,... 23- (N-1) to the main channel partial band signals received via the transmission path 7. The sub-band partial band signal of the sub-channel is estimated based on the sub-channel sub-band residual signal transmitted via the sub-channel.

Similarly, the filters 27-1,..., 27- (N-1) estimate partial band signals in the high band of the sub-channel.

The output signal of the filter 27-1 is a high-pass filter 29-1.
Is sent to the adder 33-1 via the. The output signal of the filter 25-1 is passed through a low-pass filter 31-1 to an adder 33-1.
Sent to

The adder 33-1 includes a low-pass filter and a partial band signal in the high band of the sub-channel sent from the high-pass filter 29-1.
The sub-band signal in the lower band of the sub-channel sent from 31-1 is synthesized and sent to the speaker 35-1.

Adaptive filter 25- (N-1), filter 27- (N-
1), high-pass filter 29- (N-1), low-pass filter 31- (N-1), adder 33- (N-1), speaker
35- (N-1) is an adaptive filter 25-1, a filter 27-1
Works the same as etc.

In the figure, reference numeral 91 denotes a main channel partial band generation unit that generates a main channel partial band signal, reference numeral 97 denotes a first combining unit that combines the main channel partial band signals, and reference numeral 99 denotes a sub-channel partial band signal. An extraction unit, reference numeral 101 denotes a correlation removal unit including an adaptive filter 20 as a first estimating unit for estimating a sub-channel sub-band signal and a subtractor 21 as a sub-channel sub-band residual signal generation unit. Reference numeral 107 denotes a sub-channel. A second estimator 109 for estimating the sub-band signal is a second synthesizer for synthesizing the sub-channel sub-band signal.

In this embodiment, the transmission path for the received main channel partial band signal in the high band and the main channel partial band signal in the low band is received.
The sub-band sub-band partial signal in the high band and the sub-band in the low band of the sub-channel are estimated using the sub-band sub-band residual signal in the low band transmitted via 23-1. A subchannel signal is obtained by combining the signals.

For this reason, stereo sound transmission is possible even for wide band sound.

FIG. 2 shows a more detailed configuration of the present embodiment.

The figure shows a case where there is one sub-channel. This stereo sound transmission system includes microphones 1-1, 1-
2. Speakers 17, 35-1, main channel partial band generator 9.
1. Main channel encoder 93, main channel decoder 95, main channel synthesizer 97 as a first synthesizer, extractor 99, correlation remover 101, sub-channel encoder 103, sub-channel decoder 105, a correlation adding section 107 as an estimating section, and a sub-channel combining section 109 as a second combining section.

The main channel partial band generator 91 includes an A / D converter 37 and band division filters 3 and 5.

The A / D converter 37 outputs the output signal X of the microphone 1-1.
(W) is the sampling frequency fs of ADPCM processing (for example, 8
KHz) is sampled at twice f2s (for example, 16 KHz) and converted into a digital signal to generate a digital signal X (z ').

(However, z ′ = EXP (−2πf / f2s), and f is a frequency.) The band division filter 3 passes only the low band and generates the main channel partial band signal of the low band. The band division filter 5 passes only the high band part and generates a main channel partial band signal of the high band part.

The extraction unit 99 includes an A / D converter 65 and a low-frequency band division filter 19-1.

The A / D converter 65 outputs the output signal Y of the microphone 1-2.
(W) is sampled at f2s and the digital signal Y
(Z ') is generated. The band division filter 19-1 extracts only the low-frequency component of the digital signal Y (z ').

The resampling units 39, 41, and 67 each perform sampling again at 8 KHz, and the main channel partial band signal X _{L in the} low band.
(z), a main band partial band signal X _H (z) in the high band, and a sub-channel partial band signal Y _L ′ (z) in the low band.

The main channel coding unit 93 includes the coder 43, 47, the decoder 45,
Consists of 49.

The coder 43, 47 performs the encoding of the low-frequency part and the high-frequency part at, for example, the low-frequency side 32 kbps and the high-frequency side 16 kbps, for example, by the ADPCM encoding method.

The decoders 45 and 49 generate the local decode signals _XL '(z) and _XH ' (z) to which the quantization noise of the ADPCM system is added.

The sub-channel encoder 103 includes a coder 71 and a decoder 73.

The coder 71 encodes the signal E _L (z) from which the inter-channel correlation has been removed by the correlation remover 101 described later. The decoder 73 decodes the output signal of the coder 71 to generate a local decoded signal.
Generate E _L ′ (z).

The correlation removing unit 101 includes an adaptive filter 20-1, a delay circuit 69,
It comprises a subtractor 22-1.

Output signal X _L of the adaptive filter 20-1 decoder 45 '
(Z) and the output signal E _L '(z) of the sub-channel encoder 103.
To obtain the predicted signal _L (z) of the sub-channel. Delay circuit
69 delays the sub-channel partial band signal Y _L ′ (z) for a fixed time.

The adder 22-1 outputs the signal transmitted through the delay circuit 69.
Sub-channel partial band residual signal E _L (z) is generated by subtracting prediction signal _L (z) from Y _L ′ (z), and sub-channel encoding section 1
Send to 03.

Learning of the adaptive filter 20-1 is based on the output signal of the decoder 73.
According to E _L ′ (z), the inter-channel transfer function is determined using a learning algorithm such as a learning identification method to minimize the power.
Estimate _L (z).

The main channel decoding unit 95 includes the decoders 51 and 55 and the delay circuit 5
Consists of 3, 57.

Decoders 51 and 55 decode the main channel partial band signals to generate main channel composite signals X _L ′ (z) and X _H ′ (z).

The delay circuits 53 and 57 delay these signals for a fixed time. The delay circuits 53 and 57 provide the same delay to the main channel side in order to guarantee the causality in the correlation removing unit 101 and prevent the sound image from moving to the main channel side due to the applied delay.

The resampling units 59 and 61 perform resampling processing at 16 KHz.

The main channel synthesizing section 97 includes band division filters 11 and 13, an adder 15, and a D / A converter 63.

The signals resampled by the resampling units 59 and 61 are sent to the adder 15 via the band division filters 11 and 13. The adder 15 combines these signals to generate a main channel wideband signal. D / A converter 63 converts this signal into an analog signal.

The speaker 17 converts the analog signal into audio.

The sub-channel decoding 105 comprises a decoder 75 and generates a residual signal E _L '(z) of the sub-channel.

Correlation adding section 107 as an estimating section includes adaptive filter 25-
1, a filter 27-1, a level detector 77, a low-pass filter 79, a switch 81, and an adder 83.

The adaptive filter 25-1 is a low-frequency main channel decoded signal.
A sub-channel predicted signal _L (z) is generated by estimating an estimated inter-channel transfer function _L (z) from X _L ′ (z) and the decoded residual signal E _L ′ (z).

On the high frequency side, the estimated inter-channel transfer function on the high frequency side
Instead using _H (z), using a low-frequency side of the estimated channel between the transfer function _H (z), to obtain a sub-channel prediction signal _H (z).
In other words, the filter 27-1 uses the estimated inter-channel transfer function _L (z) on the lower band side, and decodes the main channel decoded signal on the higher band side.
By passing through X _H ′ (z), a high-frequency side sub-channel prediction signal _H (z) is generated.

Level detector 77, low-pass filter 79, switch 81,
The adder 83 prevents deterioration of the quality of the decoded signal when two or more people speak at the same time.

When the level detector 77 exceeds the signal E _L '(z) and the sub-channel prediction signal _L (z), the level detector 77 determines that two or more persons are simultaneously speaking, and depresses the switch 81. The low-pass filter 79 limits the band of the signal E _L '(z) within a range where the influence of the folding of the band division filter does not occur.

The adder 83 outputs the output signal E _L ″ of the low-pass filter 79 sent to the sub-channel prediction signal _L (z) via the switch 81.
Add (z).

The resampling units 85 and 87 perform resampling processing at 16 kHz.

The sub-channel synthesizing unit 109 includes the band division filters 29-1 and 31.
-1, an adder 33-1, and a D / A converter 89. A high-frequency band dividing filter 29-1 and a low-frequency band dividing filter 31
The signal passing through -1 is sent to the adder 33-1. The adder 33-1 combines these signals. The D / A converter 89 converts the combined sub-channel signal of the broadband device into an analog signal.

The speaker 35-1 converts the output signal of the D / A converter 89 into sound.

As described above, in the present embodiment, in the correlation adding unit 107, the filter 27-1 converts the estimated inter-channel transfer function _L (z) on the low band side.
Is used to obtain a high-frequency side sub-channel prediction signal _H (z).

Thus, according to the present embodiment, wideband stereo sound transmission can be realized.

Note that, in FIG.
Although an example of division has been described, the present invention can also be applied to stereo sound transmission of two or more channels or division of two or more bands. Further, the correlation adding section 107 obtains the sub-channel predicted signal _H (z) from the low band side to the high band side, but the reverse is also possible.

[Effects of the Invention] As described above in detail, according to the present invention, it is possible to provide a stereo signal encoding device, a decoding device, and a stereo signal transmission system capable of transmitting wideband stereo sound.

[Brief description of the drawings]

FIG. 1 is a principle diagram of a configuration of a stereo audio transmission system according to an embodiment of the present invention, and FIG. 2 is a block diagram showing a specific configuration of the stereo audio transmission system. 91: main channel partial band generating section 97: first combining section 99: extracting section 101: correlation removing section 107: correlation providing section 109: sub-channel combining section

Continuation of the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) H04S 1/00-7/00 H04B 14/00 H04B 14/04

Claims (5)

(57) [Claims] 1. A means for dividing a stereo signal of a plurality of channels including a main audio channel and a sub audio channel into a plurality of bands for each channel, and the main audio for at least one of the plurality of divided bands. Means for estimating a correlation component between a sub-band stereo signal relating to a channel and a sub-band stereo signal relating to the sub-audio channel; and a sub-band stereo signal relating to the sub-audio channel using the estimated correlation component between channels. And a means for encoding the generated residual component and a partial-band stereo signal related to the main audio channel. . 2. A divided portion of the main audio channel in a signal obtained by dividing stereo audio composed of a plurality of channels including a main audio channel and a sub audio channel into a plurality of bands for each channel. A first signal that is a signal related to a band and a residual signal obtained by removing a correlation component between signals of the main sound channel and the sub sound channel from a signal related to a low band among a plurality of divided bands of the sub sound channel. Means for receiving a second signal which is: a means for decoding a signal relating to the main sound comprising the plurality of bands from the first signal; and each of the plurality of divided bands of the first signal. Means for estimating a correlation component between a signal related to the main audio channel and a signal related to the sub audio channel from the partial band signal and the second signal, and the correlation component and the first signal. Al, the decoding apparatus characterized by comprising a means for decoding and predicting a signal of the sub-audio comprising the multiband. 3. A divided portion of the main audio channel in a signal obtained by dividing stereo audio composed of a plurality of channels including a main audio channel and a sub audio channel into a plurality of bands for each channel. A first signal that is a signal related to a band and a residual signal obtained by removing a correlation component between signals of the main sound channel and the sub sound channel from a signal related to a low band among a plurality of divided bands of the sub sound channel. Means for receiving a second signal which is: a means for decoding a signal relating to the main sound comprising the plurality of bands from the first signal; and each of the plurality of divided bands of the first signal. And estimating a correlation between the signal relating to the main audio channel and the signal relating to the sub audio channel from the partial band signal of the subband, and relating the main audio channel to the signal based on the correlation and the second signal. Means for estimating a correlation component between a signal and a signal relating to the sub-audio channel; means for predicting and decoding a signal relating to the sub-audio comprising the plurality of bands from the correlation component and the first signal; A decoding device comprising: 4. A transmitting side comprising a coding device for inputting a stereo signal of a plurality of channels including a main sound channel and a sub sound channel, dividing the signal of each channel into a plurality of bands, and coding the divided signals. In a stereo signal transmission system including a receiving side including a decoding device that decodes a stereo signal of a plurality of channels that are divided and encoded in a plurality of bands, the transmitting side includes: Means for estimating a correlation component between a partial band stereo signal relating to the main audio channel and a partial band stereo signal relating to the sub audio channel for at least one band; and Means for generating a residual component by removing from the sub-band stereo signal relating to the sub-audio channel; Means for encoding a sub-band stereo signal pertaining to a channel, comprising: a stereo apparatus comprising a plurality of channels including a main audio channel and a sub audio channel. Among signals obtained by dividing voice into a plurality of bands for each channel, a first signal which is a signal related to a divided partial band of the main voice channel and a plurality of bands obtained by dividing the sub-audio channel. A means for receiving a second signal related to a low frequency band, a means for decoding a signal related to a main sound composed of the plurality of bands from the first signal, and the divided plurality of the first signals. Means for estimating, from each partial band signal of the band and the second signal, a correlation component between the signal relating to the main audio channel and the signal relating to the sub audio channel; Serial stereo signal transmission system, comprising the first signal, the decoding apparatus characterized by comprising means for decoding and predicting a signal of the sub-audio comprising the multiband. 5. A transmitting side comprising a coding device for inputting a stereo signal of a plurality of channels including a main sound channel and a sub sound channel, dividing the signal of each channel into a plurality of bands, and coding the signals. In a stereo signal transmission system including a receiving side including a decoding device that decodes a stereo signal of a plurality of channels that are divided and encoded in a plurality of bands, the transmitting side includes: Means for estimating a correlation component between a partial band stereo signal relating to the main audio channel and a partial band stereo signal relating to the sub audio channel for at least one band; and Means for generating a residual component by removing from the sub-band stereo signal relating to the sub-audio channel; Means for encoding a sub-band stereo signal pertaining to a channel, comprising: a stereo apparatus comprising a plurality of channels including a main audio channel and a sub audio channel. Among signals obtained by dividing voice into a plurality of bands for each channel, a first signal which is a signal related to a divided partial band of the main voice channel and a plurality of bands obtained by dividing the sub-audio channel. Means for receiving a second signal, which is a residual signal obtained by removing a correlation component of the signal of the main audio channel and the signal of the sub audio channel from a signal relating to a low frequency band, and comprising the plurality of bands from the first signal. Means for decoding a signal relating to a main audio signal, and a signal relating to the main audio channel and the sub audio channel from a partial band signal of each of the divided plural bands of the first signal. Means for estimating a correlation between the signal according to the second signal and a correlation component between the signal relating to the main audio channel and the signal relating to the sub audio channel by the correlation and the second signal; Means for predicting and decoding a signal relating to the sub-speech comprising the plurality of bands from the correlation component and the first signal, and a decoding device comprising: system.