JP2001144695A - Audio processor and audio processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a listening sense of incongruity by decreasing the effect of a loss of an ATM cell in the case that the ATM cell used to transmit a PCM signal is lost. SOLUTION: An ATM signal reception section 101 receives an ATM signal having a PCM signal, extracts the PCM signal and outputs it, an ATM reception signal monitor section 102 monitors missing in the ATM signal, an audio coding section 103 converts the PCM signal having been extracted before into a high efficiency audio signal, and when the ATM reception signal monitor section 102 cannot detect missing, an error control coding section 104 provides an error control code to detect an error on the way of transmission to the high efficiency audio signal from the audio coding section 103, and when the ATM reception signal monitor section 102 detects missing, the section 104 sets error information discriminated to be information including an error by a destination device to the error control code and a high efficiency audio signal transmission section 105 transmits the high efficiency audio signal with the error control code added thereto.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a .mu.-law PC generally used in ISDN in Japan and the United States.
M signal or A-law PCM signal used in ISDN in Europe.
Code called a “se Code Modulation” signal, and a speech encoding / decoding means for mutually converting these PCM signals into a highly efficient speech signal whose redundancy is reduced by further compressing the PCM signal and whose transmission speed is lower than that of the PCM signal. AAL1 (ATM Adaptation Layer Type)
According to 1), the PCM signal is converted to ATM (Asynchronous Transf
The present invention relates to a voice processing device and a voice processing method suitable for use in a base station device or the like in a mobile communication system that converts the data into an er Mode) signal and transmits the converted signal.

[0002]

2. Description of the Related Art Conventionally, as an audio processing apparatus and an audio processing method of this kind, there is one disclosed in Japanese Patent Application Laid-Open No. 6-61950.

FIG. 2 is a block diagram showing a configuration of a conventional audio processing device.

The conventional audio processing apparatus 200 shown in FIG.
Is a PCM signal receiving unit 201 and a voice encoding unit 202
, An error control encoding unit 203, a high-efficiency audio signal transmitting unit 204, a high-efficiency audio signal receiving unit 205, an error control decoding unit 206, an audio decoding unit 207, and a PCM signal transmitting unit 208. It is provided with. Here, it is assumed that the voice processing device 200 is used for a base station device in a mobile communication system.

In such a configuration, first, an operation in a signal processing direction for converting a PCM signal into a high-efficiency audio signal will be described.

[0006] When a PCM signal transmitted through a PCM signal transmission line connected to a switching center (not shown) is received by a PCM signal receiving section 201, the PCM signal is input to a voice encoding section 202. Then, it is converted into a high-efficiency audio signal.

[0007] The high-efficiency speech signal is input to an error control coding section 203, where it is converted into a high-efficiency speech signal having an error control code, which will be described later. Efficient audio signal transmission path (in this case,
The data is transmitted to a mobile station device such as a mobile phone (not shown) via a wireless transmission path.

[0008] The error control code is for storing transmission error information when an error occurs in a voice signal transmitted to the mobile station apparatus due to an unstable radio transmission path.

Next, the operation in the signal processing direction for converting a high-efficiency audio signal into a PCM signal will be described.

A high-efficiency audio signal having an error control code transmitted via a high-efficiency audio signal transmission path is received by a high-efficiency audio signal receiving section 205, and then input to an error control decoding section 206. Here, by detecting a transmission error from the error control code, it is separated into a high-efficiency audio signal and transmission error information, each of which is output to the audio decoding unit 207.

When the transmission is normal, the speech decoding section 207 converts the high-efficiency speech signal into a PCM signal,
The signal is transmitted from the signal transmission unit 208 to the exchange via the PCM signal transmission path.

On the other hand, when a transmission error occurs in the high-efficiency audio signal, the error is detected by the error control decoding unit 206, and the detected transmission error information is transmitted to the audio decoding unit 2.
07, where the high-efficiency audio signal from the error control decoding unit 206 is interpolated with the audio signal predicted from the past audio signal in the audio decoding process, so that the audibility abnormality is reduced. It is reduced.

In general, a high-efficiency audio signal is transmitted in an environment worse than a PCM signal transmission line, such as a wireless transmission line, in many cases. It has been done.

That is, in the speech processing apparatus 200 having the conventional speech encoding / decoding means, no countermeasures are taken against the loss of the PCM signal as a countermeasure against a signal transmission error. In the case where is missing, measures have been taken to perform the interpolation processing.

[0015]

However, in the conventional voice processing apparatus, even if a transmission error (loss) of the PCM signal occurs, no countermeasure is taken against the error of the PCM signal. In particular, when an ATM transmission / reception function is incorporated in a voice processing apparatus and a PCM signal stored in an ATM signal (ATM cell) is transmitted according to AAL1, the effect of a transmission error cannot be eliminated. However, there is a problem that a sense of incongruity is generated in the sense of hearing.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and in the case where an ATM cell for transmitting a PCM signal is lost, the effect of the loss is reduced, and the audio processing apparatus and the audio processing apparatus capable of reducing the discomfort in the sense of hearing. The aim is to provide a method.

[0017]

A voice processing apparatus according to the present invention receives an ATM signal storing a PCM signal, extracts and outputs the PCM signal, and monitors a lack of the ATM signal. Monitoring means for converting the PCM signal from the first receiving means into a high-efficiency audio signal; and a high-efficiency audio signal from the audio encoding means if the loss is not detected by the monitoring means. At the signal
Error control coding means for adding an error control code for detecting an error during transmission, and when the loss is detected, storing error information in the error control code, which can be determined to be erroneous information in the destination device. And a first transmitting means for transmitting a high-efficiency audio signal to which the error control code has been added.

According to this configuration, when the ATM signal for transmitting the PCM signal is lost, the destination device can determine that the supplemented signal is an erroneous signal. Can be corrected, thereby reducing the sense of incongruity in hearing.

The speech processing apparatus of the present invention, in the above configuration, separates the high-efficiency speech signal and the error control code from second receiving means for receiving a high-efficiency speech signal provided with an error control code, An error control decoding means for detecting a transmission error from the separated error control code, and converting the separated high-efficiency audio signal into a PCM signal, and detecting the transmission error with a signal predicted from a past signal when detecting the transmission error. The present invention employs a configuration including a voice decoding unit that interpolates the high-efficiency voice signal, and a second transmission unit that stores the PCM signal from the voice decoding unit in an ATM signal and transmits the ATM signal.

According to this configuration, even if the above-described configuration has a function of converting a received high-efficiency voice signal into a PCM signal and then transmitting the converted signal to an ATM signal, the same operation and effect as described above can be obtained. Can be.

The base station apparatus according to the present invention employs a configuration including the voice processing device having any one of the above configurations.

According to this configuration, in the base station apparatus,
The same operation and effect as those of any of the above configurations can be obtained.

The mobile communication system of the present invention employs a configuration including the base station apparatus having the above configuration.

According to this configuration, in the mobile communication system, the same operation and effect as any of the above configurations can be obtained.

The voice processing method according to the present invention detects a loss of a received ATM signal in which a PCM signal is stored, and detects, in the high-efficiency voice signal generated at the time of this detection, an error which can be determined as erroneous information by a destination device. Added information and sent.

According to this method, when the ATM signal for transmitting the PCM signal is lost, the missing signal is compensated, and the destination device can determine that the compensated signal is an erroneous signal. Therefore, at the time of the determination, the previously supplemented signal can be corrected, thereby reducing the sense of incongruity in audibility.

[0027]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram showing a configuration of an audio processing device according to one embodiment of the present invention.

The audio processing apparatus 100 shown in FIG.
TM signal receiving unit 101 and ATM received signal monitoring unit 102
, A voice coding unit 103 and an error control coding unit 104
, A high-efficiency audio signal transmitting unit 105, a high-efficiency audio signal receiving unit 106, an error control decoding unit 107, an audio decoding unit 108, and an ATM signal transmitting unit 109. Here, it is assumed that the voice processing device 100 is used for a base station device in a mobile communication system.

In such a configuration, the operation in the signal processing direction from the PCM signal transmission path to the high-efficiency audio signal transmission path (in this case, the radio transmission path) will be described first.

A PCM signal is stored in an ATM signal according to AAL1 via a PCM signal transmission line connected to an exchange (not shown), and is output to the ATM signal receiving unit 101.

In the ATM signal receiving section 101, the ATM
The signal is received, and the PCM signal stored in the ATM signal is extracted and output to the voice coding unit 103.
The reception state of the TM signal is output to ATM reception signal monitoring section 102.

In the ATM reception signal monitoring unit 102, the ATM
The state of the signal is monitored, and when a missing ATM cell is detected, the detected missing information is output to the voice coding unit 103 and the error control coding unit 104.

If there is no missing information, voice coding section 103 performs coding processing for converting the PCM signal to a high-efficiency voice signal. If there is missing information, normal coding processing is not performed. Error processing is performed at the time of loss for generating a high-efficiency audio signal using a PCM signal predicted from a past PCM signal.

If there is no missing information, error control coding section 104 adds an error control code to the high-efficiency audio signal,
The signal is output to the high-efficiency audio signal transmission unit 105 and transmitted from the high-efficiency audio signal transmission unit 105 to a mobile station device such as a mobile phone (not shown) via a high-efficiency audio signal transmission path.

On the other hand, if there is missing information, error information that can be determined to be erroneous information by the mobile station apparatus on the receiving side is stored in the error control code, and this error control code is added to the high-efficiency speech signal and The signal is output to voice signal transmitting section 105 and transmitted to the mobile station apparatus.

Next, the operation in the signal processing direction from the high-efficiency audio signal transmission line to the PCM signal transmission line will be described.

The high-efficiency audio signal having the error control code transmitted through the high-efficiency audio signal transmission path is received by the high-efficiency audio signal receiving unit 106, and then input to the error control decoding unit 107. Here, by detecting a transmission error from the error control code, it is separated into a high-efficiency audio signal and transmission error information, each of which is output to the audio decoding unit 108.

In the audio decoding section 108, when the transmission is normal, the high-efficiency audio signal is converted into a PCM signal.
The TM signal is stored in the ATM signal according to the AAL1 in the TM signal transmitting unit 109 and transmitted to the exchange via the PCM signal transmission path.

On the other hand, if a transmission error occurs in the high-efficiency audio signal, the error is detected by the error control decoding unit 107, and the detected transmission error information is transmitted to the audio decoding unit 1.
08, where the high-efficiency audio signal from the error control decoding unit 107 is interpolated with the audio signal predicted from the past audio signal in the audio decoding process, so that the audibility abnormality is reduced. It is reduced.

As described above, according to the speech processing apparatus 100 of the present embodiment, the ATM signal receiving unit 101 receives the ATM signal storing the PCM signal, extracts the PCM signal, and outputs the extracted PCM signal. In the monitoring unit 102, A
The lack of the TM signal is monitored, and the speech encoder 103 converts the previously extracted PCM signal into a high-efficiency speech signal.
When the missing is detected by the TM reception signal monitoring unit 102,
The error control coding unit 104 adds an error control code in which an error during transmission is stored to the high-efficiency voice signal from the voice coding unit 103, and when a loss is detected, Error information that can be determined as erroneous information by the destination device is stored, and the high-efficiency audio signal transmission unit 105 transmits a high-efficiency audio signal to which an error control code is added.

Accordingly, the AT transmitting the PCM signal
When the M signal is lost, the missing signal is compensated and the destination device can determine that the compensated signal is an erroneous signal. Can be performed, thereby reducing the sense of incongruity in hearing.

[0043]

As described above, according to the present invention,
When an ATM cell transmitting a PCM signal is lost, the effect can be reduced, and a sense of discomfort can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an audio processing device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a conventional audio processing device.

[Explanation of symbols]

 REFERENCE SIGNS LIST 100 voice processing device 101 ATM signal receiving unit 102 ATM received signal monitoring unit 103 voice coding unit 104 error control coding unit 105 high efficiency voice signal transmitting unit 106 high efficiency voice signal receiving unit 107 error control decoding unit 108 voice decoding Unit 109 ATM signal transmission unit

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 7/24 H04Q 7/04 A 7/26 7/30 F term (Reference) 5D045 DA20 5K014 AA01 FA06 5K030 GA12 GA16 HB12 HC09 JA10 KA19 LA01 LE16 MB01 5K041 AA03 BB01 CC01 DD02 FF11 GG02 GG13 HH23 HH45 5K067 DD04 EE10 GG01 GG11 HH25

Claims (5)

[Claims] A first receiving means for receiving an ATM signal in which a PCM signal is stored, extracting and outputting the PCM signal, a monitoring means for monitoring for a lack of the ATM signal; Voice encoding means for converting a PCM signal into a high-efficiency audio signal; and error control for detecting an error during transmission in the high-efficiency audio signal from the audio encoding means when the loss is not detected by the monitoring means. An error control encoding unit that stores error information that can be determined as erroneous information in the transmission destination device, and the error control code is added to the error control code when the loss is detected. First transmitting means for transmitting a highly efficient audio signal;
An audio processing device comprising: 2. A second receiving means for receiving a high-efficiency audio signal to which an error control code is added, separating the high-efficiency audio signal from the error control code, and determining a transmission error from the separated error control code. An error control decoding means for detecting the transmission error, converting the separated high-efficiency audio signal into a PCM signal, and interpolating the high-efficiency audio signal with a signal predicted from a past signal when the transmission error is detected. 2. The audio processing apparatus according to claim 1, further comprising: a decoding unit; and a second transmission unit that stores the PCM signal from the audio decoding unit in an ATM signal and transmits the ATM signal. 3. A base station apparatus comprising the voice processing apparatus according to claim 1. 4. A mobile communication system comprising the base station device according to claim 3. 5. A method for detecting loss of a received ATM signal in which a PCM signal is stored, and adding error information to the high-efficiency audio signal generated at the time of the detection, the error information being able to be determined as erroneous information by a transmission destination device, and transmitted. A voice processing method.