JPH0477150A - Voice compression ratio switching system - Google Patents

Abstract

PURPOSE:To shorten voice data communication with fine tone quality when traffic is low and to shorten packet transmission delay when the traffic is high by monitoring the traffic state of a junction line in a packet exchange network and varying the compression ratio in compressing the voice data from terminal equipment. CONSTITUTION:A junction line traffic monitoring part 17 monitors the traffic state of the junction line at all times, and outputs the traffic monitoring information to a voice compression ratio switching part 16. The voice compression ratio switching part 16 compares the traffic of the junction line with the set value of the traffic set in advance, and the compression ratio control information is transmitted a voice data compression part 10 and a packet header generation part 18. The voice data compression part 10 compresses the voice data according to the compression ratio control information to output to a packet exchange part 21. Thus, the compression ratio of the voice data is lowered when the amount of the traffic of the junction line is small, to shorten the voice data transmission with fine tone quality and the voice compression ratio is lowered when the amount of the traffic is large, to shorten the packet transmission delay.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for encoding and compressing audio data in a packet switching network, and more particularly to a method for switching audio compression ratios for audio packets.

[Conventional technology]

Conventionally, the voice compression ratio switching method in this type of packet switching network has been used to effectively utilize trunk lines in the packet network.
Audio data from a terminal device is compressed when it is sent to a trunk line, and the system is operated with the compression ratio fixedly set to a predetermined ratio.

[Problem to be solved by the invention]

Although the voice compression ratio switching method in the conventional packet switching network described above allows for effective use of trunk lines in proportion to the set voice compression ratio, it inevitably deteriorates the sound quality due to the compression of voice data. Therefore, in actual operational situations, the audio compression ratio is set within a range where packet switching network users do not notice any deterioration in audio quality.

Note that data compression on trunk lines using voice compression becomes effective when trunk line traffic increases, and is not very effective when trunk line traffic is small.Therefore, regardless of the size of trunk line traffic, the voice compression ratio is The conventional method of setting a specific value has the disadvantage that compression is not significant depending on the state of the trunk line. Furthermore, there is a drawback that it cannot be used when users of the bucket-to-switch network place more emphasis on packet transmission delay than on deterioration of sound quality when trunk line traffic increases.

The purpose of the present invention is to monitor the traffic status of trunk lines in a packet switching network, lower the compression ratio of voice data when the traffic volume of trunk lines is low, and enable voice data communication with high quality. An object of the present invention is to provide an audio compression ratio switching method in a packet switching network that increases the audio compression ratio and reduces packet transmission delay.

[Means to solve the problem]

The audio compression ratio switching method of the present invention is as follows:1. In a packet switching network, a trunk line traffic monitoring unit that constantly monitors the traffic status of the trunk line, an audio compression ratio switching unit that switches the audio compression ratio based on information from the trunk line traffic monitoring unit, and a voice compression ratio switching unit that switches the audio compression ratio from the audio compression ratio switching unit. an audio data compression unit that compresses and encodes audio data from a terminal device using compression ratio information; and inserts compression ratio information into a packet header of packet data sent to the trunk line based on information from the audio compression ratio switching unit. a packet header generation unit that monitors the packet header of the compressed packet data received from the trunk line and detects the compression ratio information thereof; 1. An audio compression ratio switching method in a packet switching network, comprising an audio data reproducing unit for reproducing compressed packet data and sending it to the terminal device, and determining an audio data encoding compression ratio based on trunk line traffic.

2. The plurality of audio data compression units having different predetermined compression ratios for audio data of a terminal device input via a terminal line and the audio compression ratio switching unit operate in response to compression ratio information outputted, 1 above, characterized in that any one of the plurality of audio data compression units is selected and output.
Audio compression ratio switching method.

3. The plurality of audio data reproducing units having different predetermined reproduction ratios for compressed received audio data and the packet header monitoring unit operate in response to compression ratio information outputted,
1. The audio compression ratio switching method according to item 1 above, wherein the received audio data is selectively output to any one of the plurality of audio data reproducing units.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram of a packet switch that shows an embodiment of the present invention, FIG. 2 is a block diagram of an audio data compression section that shows an embodiment of the present invention, and FIG. 3 shows an embodiment of the present invention. FIG. 3 is a block diagram of an audio data reproducing section.

FIG. 1 shows an audio data compression unit 10°11.12 that compresses audio data from a terminal device to a predetermined compression ratio, an audio data reproducing unit 13 that reproduces received audio packet data compressed to a predetermined ratio, 14,15. A packet switching unit 21, a trunk line traffic monitoring unit 17 that constantly monitors trunk line traffic, an audio compression ratio switching unit 16 that receives monitoring information from the trunk line traffic monitoring unit and generates compression ratio control information for switching the compression ratio, a packet header generation unit 18 that adds information indicating the compression ratio to the transmitted packet data; a packet header monitoring unit 20 that monitors the header indicating the compression ratio added to the received audio packet data;
Trunk line interface section 19, audio compression information signal line 30
, an audio reproduction information signal line 31, and an audio data signal line 32, a packet switch 1, terminal devices 2, 3.4, terminal lines 5, 6.7, and a trunk line 8.

Here, the connection between the terminal device 2 and the packet switching network will be explained as an example.

The terminal device 2 sends audio data to the audio data compression section 10 via the terminal line 5. The audio data compression unit 10 that receives audio data from the terminal device 2 compresses the audio data at a predetermined compression ratio, and the packet switching unit 21.
Packet header generation unit 17. Trunk line interface section 1
9 to the trunk line 8. The trunk line traffic monitoring unit 17 constantly monitors the traffic status of the trunk line, and outputs the traffic monitoring information to the audio compression ratio switching unit 16. The audio compression ratio switching section 16 that receives the traffic monitoring information compares the traffic on the trunk line with a predetermined traffic setting value, and sends the compression ratio control information to the audio data compression section 10 and the packet header generation section 18. do. The audio data compression section 10 compresses the audio data according to the compression ratio control information and outputs it to the packet switching section 21 .

At the same time, the packet header generation section 18 also outputs the audio compression ratio switching section 1.
According to the compression ratio control information from 6, compression ratio information indicating the compression ratio is inserted into the packet header of the packet data from the packet switching unit 21, and the data is sent to the trunk line 8 via the trunk line interface unit 19.

Packet data received from the trunk line 8 via the trunk line interface section 19 is input to the packet switching section 21 and the packet header monitoring section 20 . Packet exchange section 2
The received packet data input to the audio data reproducing section 13 is exchanged and input to the audio data reproducing section 13 via the audio data line 32. On the other hand, the packet data monitoring unit 20 detects compression ratio information added to the header of the received packet data and outputs it to the audio data compression unit 13. The audio data compression section 13 reproduces the audio data from the packet switching section 21 according to this compression ratio information, and outputs it to the terminal device 2 via the terminal line 5.

Next, the audio data compression section 10 will be explained.

The audio data compression section 10 in FIG. 2 is composed of a terminal line interface section 50 that interfaces with the terminal line 5, an audio data compression section 51, 52, and a compressed data selection section 53. Here, it is assumed that the audio data compression unit 51 is 64K.
It is assumed that the audio data compression unit 52 is preset to compress bps data to 16 Kbps, and compress 64 Kbps data to 8 Kbps.

64Kbps voice data from terminal device 5 is transferred to terminal line 5.
When input to the terminal line interface unit 50 via the audio data compressor 51 and compressed to 8 Kbps by the audio data compressor 52, the data is input to the compressed data selector 53. The compressed data selection section 53 includes
The compression ratio reproduction information generated by the audio compression ratio switching unit 16 is input via the compression ratio information control line 30, and when the traffic on the trunk line 8 is low, for example, the compression ratio reproduction information generated by the audio compression ratio switching unit 16
3 selects a 16 Kbp, s audio data signal from the audio data compression section 51 and outputs it to the packet switching section 21 via the audio data signal line 32. When the traffic on the trunk line 8 is large, the compressed data selection section 53 selects the 8 Kbps audio data signal from the audio data compression section 52 and outputs it to the packet switching section 21 via the audio data signal line 32.

The audio data reproducing unit 13 in FIG.
The audio data reproduction selection section 60 receives a received audio data signal via the audio data reproduction section 2, audio data reproduction sections 61 and 62, and a terminal line interface section 63 that interfaces with the terminal line 5. Here, it is assumed that the audio data reproducing unit 61 receives 64Kb of audio data compressed to 16Kbps.
It is assumed that the audio data reproducing unit 62 is set in advance to reproduce audio data compressed to 8 Kbps to 64 Kbps.

When audio data compressed to 16 Kbps is input from the packet switching unit 21 to the audio data reproduction selection unit 60 via the audio data signal line 32, the audio data reproduction selection unit 60
selects the input signal and outputs it to the audio data reproducing section 61. In the audio data reproducing section 61, the input 16Kb
The audio data signal of ps is reproduced at 64 Kbps and output to the terminal line 5 via the terminal line interface section 63. Further, when audio data compressed to 8 Kbps is input from the packet switching unit 21 to the audio data reproduction selection unit 60 via the audio data signal line 32, the audio data reproduction selection unit 60 selects the input signal and outputs the audio data. It is output to the playback section 62. In the audio data reproducing unit 62, the input 8K
The audio data signal compressed to bps is reproduced to 64 Kbps and output to the terminal line 5 via the terminal line interface section 63.

The compression ratio reproduction information generated by the packet header monitoring unit 20 is input to the audio data reproduction selection unit 60 via the compression ratio information control line 31, and the received audio data signal is, for example, the header of the received packet data. If the compression ratio information indicates 16 Kbps, the audio data reproducing unit 61
If the compression ratio information in the header of the received packet data indicates 8 Kbps, the audio data reproducing unit 6
The output is switched to 2.

〔Effect of the invention〕

As explained above, the present invention monitors the traffic status of trunk lines in a packet switching network and varies the compression ratio when compressing audio data from terminal equipment, so that when traffic on trunk lines is low, voice This has the effect of lowering the compression ratio to perform voice data communication with better sound quality, and when the traffic is heavy, increasing the voice compression ratio to shorten packet transmission delays.

Selection unit, 61.62... audio data playback unit.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a packet switch that shows an embodiment of the present invention, FIG. 2 is a block diagram of an audio data compression section that shows an embodiment of the present invention, and FIG. 3 shows an embodiment of the present invention. FIG. 3 is a block diagram of an audio data reproducing section.

Claims (1)

[Scope of Claims] 1. In a packet switching network, a trunk line traffic monitoring unit that constantly monitors the traffic status of trunk lines, and an audio compression ratio switching unit that switches the audio compression ratio based on information from the trunk line traffic monitoring unit. , an audio data compression unit that compresses and encodes audio data from a terminal device using compression ratio information from the audio compression ratio switching unit; and an audio data compression unit that compresses and encodes audio data from a terminal device using compression ratio information from the audio compression ratio switching unit; a packet header generation unit that inserts compression ratio information into a packet header; a packet header monitoring unit that monitors a packet header of compressed packet data received from the trunk line and detects compression ratio information; and the packet header monitoring unit. A packet switching network comprising: an audio data reproducing unit that reproduces the compressed packet data based on audio compression ratio information from the terminal device and sends the compressed packet data to the terminal device, and determines an audio data encoding compression ratio based on trunk line traffic. Audio compression ratio switching method. 2. The plurality of audio data compression units having different predetermined compression ratios for audio data of a terminal device input via a terminal line and the audio compression ratio switching unit operate in response to compression ratio information outputted, 2. The audio compression ratio switching system according to claim 1, wherein any one of the plurality of audio data compression units is selected and output. 3. The plurality of audio data reproducing units having different predetermined reproduction ratios for compressed received audio data and the packet header monitoring unit operate in response to compression ratio information outputted,
Claim 1, wherein the received audio data is selectively output to any one of the plurality of audio data reproducing units.
Audio compression ratio switching method described.