KR20090059798A - Communication system and its method for the codec auto assigning according to the network bandwidth - Google Patents

Abstract

A communications system and a codec allocation method for including terminal equipped with a call function are provided to improve the service quality and increase the number of concurrent users by assigning the codec automatically corresponding to the available bandwidth of network. A call control unit(211) is connected to a terminal(100) including a call function using an IP(Internet Protocol) network. The call control unit processes the call according to the call connection request of the terminal. A bandwidth managing unit(214) corresponds to the call connection request and measures the bandwidth usage of the terminal. A codec allocating unit corresponds to the measurement result and assigns the voice or the video codec to the terminal.

Description

Communication system and its method for the codec auto assigning according to the network bandwidth}

The present invention provides a communication system and a method for allocating codecs for varying the codecs of data transmitted according to network conditions by automatically allocating codecs of data transmitted corresponding to the available bandwidth of the network when communicating using an IP network. It is about.

The present invention is derived from a study performed as a part of the leading technology test support of the Ministry of Information and Communication and the Institute of Information and Telecommunications Research and Development.

In general, VoIP (Voice over Internet Protocol) is a data communication packet network that is used for communication over the Internet, and a communication service technology that enables communication with a general telephone network by transmitting voice data into Internet protocol data packets. to be.

This VoIP service is available when a computer, IP phone, or dedicated router is available, so it is convenient to use, and it can be used simultaneously by multiple people through the cable. have.

When the VoIP service communicates through the Internet using a terminal such as an IP telephone or a computer, the voice and video codecs of the subscriber terminal are always fixed and the communication is performed. As a result, low quality voice and video codecs can be used to provide low quality even when the subscriber organization has a large amount of available network bandwidth, or high bandwidth audio and video codecs can be used even when the available network bandwidth of the affiliated agency is not sufficient. Therefore, there was a problem that IP network cannot provide the quality of VoIP flow.

In addition, the VoIP telephone service using the Internet network uses the BE (Best Effort) communication method, so that a plurality of subscribers share the entire bandwidth, so that a large number of simultaneous subscribers may cause a decrease in transmission speed to all subscribers. There is a problem coming.

Currently, domestic communication network is very developed, but the subscriber network bandwidth is inferior to the backbone network, and it is possible to increase the number of concurrent users while satisfying the service quality of VoIP subscribers by allocating voice and video codecs corresponding to the limited subscriber network network bandwidth. There is a need for a solution.

SUMMARY OF THE INVENTION An object of the present invention is a communication system for automatically increasing the number of concurrent users and improving the quality of service by automatically allocating a codec of data corresponding to an available bandwidth of a network when transmitting data including voice or video in communication using an IP network. And a codec allocation method.

Codec allocation method of a communication system according to the present invention for solving the above problems is a step of requesting a call connection from the first terminal of a plurality of connected terminals, measuring the bandwidth usage of the network connected to the first terminal, measurement Automatically allocating a codec for voice or video data of the first terminal in response to the used bandwidth, and allowing the first terminal to transmit voice and video data according to the allocated codec to perform a call Steps.

In addition, the communication system according to the present invention is connected to a plurality of terminals including a call function using an IP network, a communication control unit for processing a call according to any one of the plurality of terminals call connection request, the call connection request In response to the bandwidth management unit for measuring the bandwidth usage of the network connected to the terminal requesting a call connection, and during the call processing of the communication control unit, in response to the measurement result of the bandwidth management unit, the voice codec to the terminal requesting a call connection Or a codec assignment unit for allocating an image codec.

According to the present invention, the communication system and its codec allocation method automatically allocate codecs corresponding to the available bandwidth of the network, thereby enabling efficient transmission of data, dynamic codec setting, and low bandwidth usage. Provides subscribers with high quality voice and video, and when there are a large number of simultaneous users, and uses a lot of bandwidth, the codec changes to accommodate the users while maintaining a certain level of quality. There is an effect of improving the efficiency of management.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view referred to for the description of the configuration of a communication system using an IP network according to an embodiment of the present invention.

Referring to FIG. 1, in the communication system according to the present invention, a plurality of terminals 111 to 116 having a call function through an IP network and a plurality of terminals are connected to allocate call settings and codecs for the plurality of terminals. Communication servers 210 and 220, and gateways 310 and 320 for connecting a plurality of terminals to the IP network 400.

In addition, the communication system further includes a codec conversion device 410 for converting the codec of the data transmitted in response to the request of the communication server (210, 220). In this case, the codec converter 410 may be provided in the IP network 400 or may be configured to be connected to the IP network 400.

The communication system configured as described above converts voice and video signals into compressed data packets and transmits them through the Internet based on the IP network to communicate with the Internet and the PSTN network, which is an existing general telephone network. .

In this case, the terminal may be an IP phone dedicated to communication VoIP service through IP protocol, a computer (PC) for providing voice service between communication communities having a communication ID or IP address through the Internet, and a general phone equipped with a dedicated router. In addition, IP-based PDAs and mobile phones can also be used. The terminal may include a voice input means and an image input means, and may include data processing means for processing the input voice or video according to a codec assigned by the communication server, and packet communication means for transmitting and receiving packets.

When the communication is performed through the Internet, the terminal may be in the form of an IP telephone-to-IP telephone, a PC-to-PC type of voice service between the communication communities having a communication ID or an IP address, and the Internet and a PSTN network. IP phone-to-plain phone that provides voice service between incoming and outgoing or regular wired and wireless telephones, intercommunicating with IP protocols, and landline-to-landline telephones where ordinary telephones of the PSTN network connect to ordinary telephones of other PSTN networks via the Internet. The communication may be performed in any one of the forms.

The present invention can be applied to communication through interworking of a general telephone network, but will be described with an example of an IP telephone-to-IP telephone, a PC-to-PC or an IP telephone-to-PC. Hereinafter, the description of the connection with the general telephone network will be omitted.

The communication servers 210 and 220 are connected to a plurality of terminals, so as to enable communication between the terminals using the IP network 400, the call is set up and controlled according to the request of the terminal. At this time, the first communication server 210 controls the communication to be performed at the request of the connected first to third terminals 111 to 113, and the second communication server 220 to the fourth to sixth terminals 114 to 116 control communication.

 In addition, the communication server 210, 220 manages the available bandwidth of the institution subscriber section, that is, the subscriber terminal connected network, and measures the bandwidth usage of the network in real time. At this time, the communication server 210, 220 generates a bandwidth management table for the bandwidth usage.

The communication server 210 or 220 refers to the stored bandwidth management table and allocates a codec to the terminal according to the measured bandwidth usage. Here, the bandwidth management table divides bandwidth usage into predetermined steps and allows different codecs to be allocated to the terminal according to each step. Accordingly, each terminal transmits audio or video data according to the codec allocated from the communication servers 210 and 220 to communicate with the other party.

In addition, when a call is received from another terminal, the communication server 210.220 requests a codec conversion device 410 to compare the codec for the received call with the codec assigned to the terminal.

For example, when a call is received from the fourth terminal 114 connected to the second communication server 420 to the second terminal 112 connected to the first communication server 410, the first communication server 410 The codec is allocated to the second terminal 112 according to the bandwidth usage, and the codec information of the data for the call reception of the fourth terminal 114 is compared with the codec allocated to the second terminal 112. The codec conversion device 410 of the network 400 requests a codec conversion.

At this time, the codec conversion device 410 converts the codec by re-coding the codec of the audio or video data transmitted according to the request from the communication server (210, 220) to the codec requested by the communication server (210, 220).

That is, the codec converter 410 re-encodes and converts the codec of the data from the fourth terminal 114 into the codec assigned to the second terminal 112 according to a request of the first communication server 210, The converted data is transmitted to the first communication server 210.

2 is a block diagram referred to for the description of the configuration of a communication server of a communication system according to an embodiment of the present invention.

Referring to FIG. 2, the communication server 200 includes a call control unit 211, a bandwidth management unit 214, a codec assignment unit 212, a data unit 213, and a communication unit 215.

The call controller 211 sets up a VoIP call to the connected terminal according to a request from the terminal, and establishes a call path with the corresponding terminal when receiving a call from another terminal to enable mutual communication. The data unit 213 stores a bandwidth management table generated by the bandwidth management unit 214 according to the bandwidth usage, and the communication unit 215 transmits and receives data with a plurality of connected terminals and communicates with an IP network through a gateway to control the data. Allow signals to be sent and received.

The bandwidth manager 214 measures the bandwidth usage of the network in real time and manages the bandwidth. In addition, the bandwidth management unit 214 generates a bandwidth management table according to the measured bandwidth usage.

The bandwidth management table generated by the bandwidth management unit 214 is shown in Table 1 below.

At this time, the bandwidth management table is a table that divides the bandwidth usage into predetermined stages and arranges the codecs to be used step by step according to the available bandwidth. It is supposed to use.

Bandwidth Voice codec Video codec 30% less than G.711, G.726 H.264, H.263 30% ~ 40% G.726, G.728 H.264, H.263 40%-50% G.729 H.261 More than 50% G.723 -

As shown in Table 1, the bandwidth management table divides the bandwidth usage into 4 levels: 30% or less, 30% or more and 40% or less, 40% or more and 50% or less, and 50% or more. Codecs are specified so that audio codecs of .728, G.729, and G.723 and video codecs of H.264, H.263, and H.261 are assigned according to their quality.

In this case, when the data link is Ethernet, the bandwidth of the voice codec is 87.2 Kbps for G.711, 55.2 Kbps to 27.6 Kbps for G.726, and 27.6 Kbps to 39.2 Kbps for G.728, and G.729. Is 19.6 Kbps to 31.2 Kbps, and G.723 is 12.9 Kbps to 21.5 Kbps.

The bandwidth management table as described above may be classified according to the bandwidth usage according to the bandwidth usage of the institution subscriber and the type of codec allocated. In addition to the specified codec, the table can be specified by adding the codec according to the administrator's policy and technology development. In some cases, the table may be composed of only the voice codec except the video codec.

The codec assignment unit 212 allocates a codec to a terminal that has requested a call setup in response to the bandwidth usage measured by the bandwidth management unit 214.

The codec allocation unit 212 allocates the highest quality voice codec and video codec to the terminal if the bandwidth usage of the network is 30% or less according to the codec management table as described above, and if the bandwidth usage is more than 30% and less than 40%, Allocate a quality voice codec and video codec to the terminal, and allocate the lowest quality voice codec and video codec when the bandwidth usage exceeds 40% and 50% or less. In addition, when the bandwidth usage exceeds 50%, the codec allocator 212 allocates the lowest quality audio codec to the terminal except for the video codec, and prevents the video codec from operating.

For example, if the bandwidth usage is 30% or less, the codec allocation unit 212 allocates the highest quality voice codec G.711 and video codec H.264 to the terminal, and the terminal initiates communication with the designated codec.

In addition, even when a call is received by any one of a plurality of connected terminals, the codec allocator 212 allocates a codec to a target terminal of the received call in response to the bandwidth usage measured by the bandwidth management unit 214.

At this time, the codec assignment unit 212 compares the codec information of the data for the incoming call and the codec assigned to the target terminal, and requests a codec conversion to the codec conversion device 410 of the IP network 400 when the codecs are different. do.

Looking at the operation according to an embodiment of the present invention configured as described above are as follows.

3 is a flowchart of an operation description of a codec allocation method according to data transmission in a communication system according to an embodiment of the present invention.

Referring to FIG. 3, when a communication connection request is received from the connected terminal 100 (S510), the communication server 200 measures the current network bandwidth usage (S520).

The communication server 200 sets up a call of VoIP for the terminal requesting a call connection, and allocates a codec corresponding to the bandwidth usage to the terminal by referring to the bandwidth management table in which the voice and video codecs are designated according to the bandwidth usage.

In this case, the communication server 200 allocates a corresponding voice codec or video codec by comparing the bandwidth usage with a plurality of reference values according to the bandwidth usage stage set in the bandwidth management table, and the bandwidth usage is smaller, that is, the available bandwidth. The more, the higher quality codec is allocated to the terminal.

When the bandwidth usage is less than or equal to the first reference value (S530), the communication server 200 allocates the first audio codec and the first video codec of high quality correspondingly because the available bandwidth is large (S540).

When the bandwidth usage is greater than or equal to the first reference value and less than or equal to the second reference value (S550), the second audio codec and the third video codec are allocated to the terminal (S560). S570) The third audio codec and the third video codec are allocated to the terminal (S580).

On the other hand, when the bandwidth usage exceeds the third reference value (S590), only the fourth audio codec is allocated to the terminal without allocating the video codec (S610). At this time, if the bandwidth usage is not included in any step, it is determined that an error has occurred (S600).

For example, as shown in Table 1, when the bandwidth usage is 30% or less, the voice codec of G.711 or G.726 and the video codec of H.264 or H.263 are allocated to the terminal, and the bandwidth usage is 30. If more than 40% or less, the G.726 or G.728 audio codec and the video codec of H.264 or H.263 are allocated to the terminal. If the bandwidth usage exceeds 40% and below 50%, the low quality G.729 voice codec and the H.261 video codec are allocated. If the bandwidth usage exceeds 50%, the voice codec of G.723 is transferred to the terminal. Allocate only data packets of voice.

As described above, when the voice codec or the video codec is allocated to the terminal by the communication server 200 and a call is connected, the terminal 100 transmits the voice or video data according to the assigned codec to start communication (S620).

4 is a flowchart of an operation description of a method of allocating and changing a codec according to data reception in a communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 4, when a call is received by any one terminal of a plurality of connected terminals (S710), the communication server 200 receives and confirms codec information on the received call with the call connection request (S720). .

In other words. When a call is received from the fourth terminal 114 connected to the second communication server 220 to the first terminal 111 connected to the first communication server 210 via the IP network, the first communication server 210 is connected to the first communication server 210. The codec information of the data of the fourth terminal 114 is checked according to the call connection request from the fourth terminal 114.

The first communication server 210 checks the available bandwidth by measuring the bandwidth usage of the network to which the first terminal 111 is connected (S730), and allocates a voice codec or video codec to the first terminal 111 according to the bandwidth usage. (S740 to S800).

In this case, as shown in FIG. 3, the codec allocation divides the bandwidth usage into predetermined steps so that a predetermined voice codec or video codec is allocated to the first terminal 111 according to a result of comparison with the reference value for each step. . When the bandwidth usage exceeds the third reference value, that is, when the bandwidth usage exceeds 50%, only the fourth voice codec is allocated to the first terminal 111 as described above (S800).

As described above, the first communication server 210 compares the codec allocated to the first terminal 111 with the codec information on the received call of the fourth terminal 114 (S810). A codec conversion is requested at 410 (S820).

At this time, the codec converter 410 transmits the codec of the audio or video data transmitted from the fourth terminal 114 to the first terminal 111 in response to a request of the first communication server 210 to the first terminal 111. By changing the assigned audio codec or video codec, the codec converted audio or video data is transmitted to the first communication server 210.

The first communication server 210 establishes a call path according to the call connection request of the fourth terminal 114 to connect the call to the first terminal 111 and initiate a mutual call (S830).

Therefore, by varying the codec for voice or video data according to the bandwidth usage, it is possible to use the highest quality codec when there is a lot of available bandwidth to prevent the degradation of service quality, and even when there is a large number of simultaneous connections and the available bandwidth is low Codec changes can accommodate users.

As described above, the communication system and the codec allocation method thereof according to the present invention have been described with reference to the illustrated drawings. However, the present invention is not limited thereto by the embodiments and drawings disclosed herein. It can be applied by those who have knowledge of.

1 is a reference to the description of the configuration of a communication system using an IP network according to an embodiment of the present invention;

2 is a block diagram referred to for description of the configuration of a communication server of a communication system according to an embodiment of the present invention;

3 is a flowchart referred to an operation description of a codec allocation method according to data transmission in a communication system according to an embodiment of the present invention;

4 is a flowchart of an operation description of a method of allocating and changing a codec according to data reception in a communication system according to an exemplary embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

100, 111 to 116: terminal 200, 210, 220: communication server

300, 310, 320: gateway 400: IP network

410: codec converter

Claims (12)

Requesting a call connection from a first terminal of a plurality of connected terminals; Measuring bandwidth usage of a network to which the first terminal is connected; Automatically allocating a codec for voice or video data of the first terminal in response to the measured bandwidth usage; And, And the first terminal transmits voice and video data according to the assigned codec to perform a call. The method of claim 1, When a call is received from the second terminal among the plurality of terminals to the first terminal, Automatically allocating a codec according to bandwidth usage of a network to which the first terminal is connected; Comparing codec information of data of the second terminal with a codec assigned to the first terminal; And, And requesting codec conversion when the codec information of the data of the second terminal and the codec allocated to the second terminal are different. The method according to claim 1 or 2, The codec allocation step divides the bandwidth usage into predetermined steps, and refers to a voice codec or video codec corresponding to the bandwidth usage of the network by referring to a bandwidth management table in which a quality codec or video codec having a different quality is designated for each step. Codec allocation method of a communication system, characterized in that the allocation to one terminal. The method of claim 3, wherein The codec allocation step divides the bandwidth usage into a predetermined step, and allocates a high quality audio and video codec step by step when the bandwidth usage is low, and stepwise allocates a low quality voice codec or when the bandwidth usage is large. A codec assignment method for a communication system, characterized by allocating an image codec. The method according to claim 1 or 2, The codec assignment step of the codec allocation method of the communication system, characterized in that further comprising the step of assigning only the voice codec, except the image codec, when the bandwidth usage is more than a predetermined reference value. The method of claim 2, And converting a codec of data of the second terminal into a codec of the first terminal and transmitting the converted codec to the first terminal. A communication control unit connected to a plurality of terminals including a call function using an IP network, and configured to process a call according to a call connection request of any one of the terminals; A bandwidth manager configured to measure bandwidth usage of a network to which the terminal requesting the call connection is connected in response to the call connection request; And, And a codec allocator for allocating a voice codec or a video codec to the terminal that has requested a call connection in response to the measurement result of the bandwidth management unit. The method of claim 7, wherein And the codec allocator automatically allocates a voice codec or a video codec to the terminal according to the bandwidth usage input from the bandwidth manager by referring to a previously stored bandwidth management table. The method of claim 8, And the codec allocator allocates only a voice codec to the terminal except for an image codec when the bandwidth usage is equal to or greater than a predetermined reference value. The method of claim 7, wherein The codec assignment unit allocates a codec to a terminal to be received when receiving a call from any one of the plurality of terminals. When the codec information of the received call and the codec assigned to the terminal of the receiving target is different, the codec conversion device is requested to the codec conversion device so that the data of the received call is converted to the codec assigned to the terminal of the receiving target. Communication system. The method of claim 10, The codec conversion device is connected to the IP network, the communication system, characterized in that for retransmitting the data transmitted or received to the terminal by the requested codec at the request of the codec assignment unit. The method of claim 8, The bandwidth management unit divides the bandwidth usage into predetermined steps, and sets the codec of different quality in each step to generate the bandwidth management table.

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