KR100735350B1 - METHOD FOR FIXING A CODEC WITH RESPECT TO LINK STATE ON VoIP SERVICE IN AN ACCESS NETWORK - Google Patents

Abstract

The present invention relates to a method for setting a codec according to a link state in a VoIP service in an IAD of an access network, the method comprising: checking a link speed of voice data received through the access network; Selecting a codec suitable for speed, decompressing the voice data in the selected codec format, and converting the decompressed voice data into an analog voice signal and outputting the same. do.

Access network, IAD, VoIP, line link speed, codec

Description

Codec setting according to link status in access network supporting voice data service {METHOD FOR FIXING A CODEC WITH RESPECT TO LINK STATE ON VoIP SERVICE IN AN ACCESS NETWORK}

1 is a block diagram of an IAD block of a conventional access network;

2 is an IAD block diagram of an access network according to an embodiment of the present invention;

3 is a flowchart illustrating a codec setting process according to a link state in an IAD according to an embodiment of the present invention.

The present invention relates to an integrated access device (IAD) that provides a voice over IP (VoIP) service through an access network, and more particularly, to a method of setting a codec according to a link state in a VoIP service in an IAD.

Recently, due to the development of computer and communication technology, various applications using multimedia information processing and multimedia have emerged. In addition, the popularization of the Internet, which connects every corner of the world, is rapidly occurring, and its range of use is being expanded recently by long distance calls through the Internet.

The telephone call through the Internet network refers to a service that allows a telephone call to be made through an internet network without using an existing telephone network. In FIG. 1, a block configuration of a conventional IAD device for enabling the Internet telephone call is possible. Is shown.

When the IAD device uses a web browser of the device itself, the IAD device can connect to the Internet through a local area network (LAN) for desired data communication as well as voice communication using a conventional public telephone network (PSTN). : It is a device that can make calls using internet network without using Public Switching Telephone Network.

Referring to FIG. 1, the conventional IAD apparatus 101 includes a handset 100 including a microphone for receiving a user voice and a speaker for listening to the other party's voice for data communication and voice call using the Internet network, and a handset. A user interface circuit 102 for processing status detection and user input of the display device 100, a display device 104 for showing a user the result of the current device status and user input, and DTMF tone generator 106 that converts it to the corresponding Dual Tone Multi Frequency (DTMF) tone when the digit key is input, and converts the user's voice input to digital to perform basic compression or compressed audio output. Subscriber Line Audio-Processing Circuit (SLAC) 108, which converts to analog form, and converts the user's voice input into the appropriate codec format. The DSP (Digital Signal Processor) 110 converts the voice data of a specific format input through the work into a basic voice output form, the memory 112 where the program of the entire apparatus is executed and the data is stored, It consists of an Ethernet driver 114 for converting to transmit / receive via a LAN.

Looking at the voice call operation using the Internet network using the conventional IAD,

First, the IAD 101 detects when the handset 100 is hooked off, generates a dial tone to the handset speaker, and activates a channel of the DSP 110. Thereafter, if there is a digit input from the user, the setup message is transmitted to the gate keeper according to the Q.931 format, and the ring back tone is output to the handset 100 speaker when the ALERTING response is received. At this time, if there is no response or a TCP / IP error occurs, an error tone is generated in the speaker of the handset 100 to notify the user. Otherwise, if there is no error and the ALERTING response is received, the CONNECT response is received again. Subsequently, the IAD 101 starts with H.245 and starts Master / Slave Determination, Capability Exchange. When successfully assigning the logical channel, the voice call is removed by removing the ring back tone generated in the speaker of the handset 100. In this case, the voice call is converted into basic PCM (Pulse Code Modulation) after analog-to-digital conversion (ADC) is input through the SLAC 108 through the user's voice input through the microphone of the handset 100. The PCM-converted voice signal is recompressed by the DSP 110 in the codec format defined in H.245, packetized by RTP (Real-time Transport Protocol), and transmitted to the other party through the Internet. Then, the other side removes the RTP packet from the data received through the Internet, decompresses the DSP 110 in the codec format defined in H.245, and then converts the digital-to-analog conversion (DAC: Digital-) through the SLAC 108. to-analog conversion) to output to the handset 100 speaker.

However, ITU-T H.323 (Line Transmission of Non-), which describes terminals, equipment, and services that are capable of multimedia communication through a LAN as a standard for Internet phones or VoIP during the Internet voice call using the conventional IAD. telephone signals are standard. The standard defines one or more codecs for voice and video, with voice specifying G.711, G.728, G.729, and G.723, and picture defining H.261, H.262, and H.263. Doing.

However, unlike data communication, voice communication has a huge effect on voice calls when real-time transmission is required and it cannot be guaranteed. However, the H.323 standard does not guarantee quality in a LAN having a QoS (Quality of Service). There is a problem in that voice communication is inherently impossible to realize call quality as in a PSTN network having a guaranteed QoS of 64 kbps. In addition, since the conventional IAD attempts to make calls only with a specific codec determined according to the characteristics of the terminal without considering the current line link rate, the call quality depends on the line link speed, and the line of the preset specific codec If the link speed is bad, there was a problem that can not cope with the degradation of voice call quality.

Accordingly, an object of the present invention is to provide a method for selectively changing and setting a codec according to a link speed during VoIP service in an IAD of an access network, thereby preventing a degradation of voice call quality due to a decrease in line link speed.

According to an aspect of the present invention, there is provided a method for setting a codec according to a link state during VoIP service in an IAD of an access network, the method comprising: checking a link speed of voice data received through the access network; Selecting a codec suitable for the link speed among the codecs allocated to the codec; decompressing the voice data in the selected codec format; and converting the decompressed voice data into an analog voice signal and outputting the same. It is characterized by including the configuration.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the reference numerals to the components of the accompanying drawings, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. Also in the following description and in the accompanying drawings, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.                     

2 is a block diagram of an IAD according to an embodiment of the present invention.

Referring to FIG. 2, the IAD 200 according to the present invention uses an Ethernet driver 204, which is a network interface for connecting to a data communication device such as a PC 200, and an external interface. Set up the ATM SAR 206 to transmit / receive voice and data to or from the IAD 200 in the form of an ATM cell according to the ATM-based model, the ATU-C equipment of the DSLAM 222, and the ADSL link. DMT chip 208, Subscriber Line Interface Circuit (SLIC) 210 for the interface of ordinary telephones 220, and converts the user's voice input to digital to perform basic compression or basically compressed voice output SLAC 212 for converting the form, DSP 214 for converting the user's voice input to the appropriate codec format and converting the voice data of the specific format input through the network to the basic voice output form, It consists of a memory 216 in which a program is executed and data is stored.

Hereinafter, a voice call operation using the Internet network using the IAD according to an embodiment of the present invention will be described with reference to FIG. 2.

First, the IAD 200 detects when the handset 220 is hooked off, generates a dial tone to the handset speaker, and activates a channel of the DSP 214. Then, if there is a digit input from the user, it sends a setup message to the gate keeper according to Q.931 format, and outputs a ring backtone to the handset speaker when receiving an ALERTING response. If a response is not received or a TCP / IP error occurs, an error tone is generated in the speaker of the handset 220 to inform the user that an error has occurred. In contrast, if there is no error and an alerting response is received, the connection response is reconnected. Receive Subsequently, the IAD 200 removes the ringback tone generated by the handset speaker to enable voice call when H.245 starts successfully assigning Master / Slave Determination, Capability Exchange, and Logical Channel.

At this time, the voice call is converted into a basic PCM after the user voice input through the handset microphone is converted through the SLAC 212, and the PCM converted voice signal is recompressed by the DSP 214 in a codec format defined in H.245. After packet conversion by RTP (Real-time Transport Protocol), it transmits to other party through internet network.

3 is a flowchart illustrating a processing flow of voice data transmitted from the counterpart using a codec determined according to a line link speed of an access network 224 according to an exemplary embodiment of the present invention. Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

That is, when voice data is received from the other party while the voice call with the other party is established through the access network 224 as described above, the CPU 218 of the IAD 200 responds with the response at step 300. In step 302, the RTP packet is removed from the voice data received through the Internet. The CPU 218 of the IAD 200 then proceeds to step 304 and checks the line link speed of the current access network 224, and in step 306 an optimum according to the line link speed of the access network 224. The codec will be determined. At this time, the link speed of the access network 224 is assigned a uniform QoS according to the contract with the service provider, but if the assigned QoS is changed according to the link state, the codec is also set accordingly. That is, if the type of codec provided by the IAD 200, the payload size and the frame duration for each codec are as shown in [Table 1] and [Table 2] below

Type of codec Link speed (R) G.711 (64 Kbps) Allocated QoS * 1.1≤R G.722 (48-64 Kbps) Assigned QoS <R <Assigned QoS * 1.1 G.726 (32 Kbps) Assigned QoS = R G.728 (16 Kbps) Assigned QoS * 0.9≤R <Assigned QoS G.729A (8 Kbps) Allocated QoS * 0.8 ≤ R <Allocated QoS * 0.9 G.723.1 (5.3, 6.3 Kbps) R <assigned QoS * 0.8

Type of codec Payload length Frame spacing G.711 (64 Kbps) 40 5 G.726 (32 Kbps) 20 5 G.728 (16 Kbps) 10 5 G.729A (8 Kbps) 10 10 G.723.1 (6.3 Kbps) 24 30 G.723.1 (5.3 Kbps) 20 30

For example, when the current link speed is considerably lower than the assigned QoS, when setting the codec of G.711 preset in the terminal without considering the characteristics of the QoS, the above [Table 1] and [Table 2] As shown in Figure 6, the network load is 8kbytes per second, whereas if G.723.1 (5.3kbps) is selected, the network load is about 0.66kbps, which prevents the congestion of the network. Will be.                     

The CPU 218 of the IAD 200 then proceeds to step 308 to control the DSP 214 in step 306 to decompress the voice data in the determined codec format and restore the original data. In step 310, the CPU 218 of the IAD 200 converts the voice data into an analog voice signal by DAC conversion, and proceeds to step 312 to convert the analog restored voice signal into a speaker of the handset 220. To the user via. That is, the present invention checks the link speed of the access network during voice calls, and selects a codec that does not add a load to the network when the link speed is lower than the QoS provided by the network operator. By choosing a codec that does not load CPU performance even under load, you get the best call quality.

Accordingly, the IAD according to the embodiment of the present invention can improve call quality by setting an optimal codec suitable for the link state according to the link state of the network.

As described above, the present invention can improve the call quality by decoding the voice data by setting the optimal codec suitable for the link state according to the link state of the network when implementing a voice call through the Internet in the IAD. There is an advantage that can prevent the congestion of.

Claims (3)

A method of setting a codec according to a link state in an access network supporting voice data service, Checking the line link speed of the access network; Comparing the checked line link speed with a preset quality of service (QoS) to select a codec having a frame and payload having a different length than the codec corresponding to the quality of service (QoS); Decompressing the voice data in the format of the selected codec; And converting the decompressed voice data into an analog voice signal and outputting the converted voice data. The method of claim 1, wherein the selecting of the codec comprises: When the link speed of the access network is lower than the preset quality of service (QoS), selecting a codec having a longer frame interval and a shorter payload than a codec corresponding to the quality of service (QoS); If the link speed of the access network is higher than the preset quality of service (QoS), selecting a codec in consideration of a load state of a CPU. delete

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