KR100509870B1 - Method for Interfacing between the Media Gateway and the Media Gateway Controller - Google Patents

Abstract

The present invention transmits a Restart in Progress (RSIP) message, which is a Media Gateway Control Protocol (MGCP) message, in both MG and MGC in interworking between a Media Gateway (MG) and a Media Gateway Controller (MGC). It relates to an interworking method between the MG and MGC made possible. According to the present invention, during a call processing service between a media gateway and a first media gateway controller, the first media gateway controller detects a corresponding failure when a failure occurs and performs handoff processing to another new second media gateway controller. Sending an off message to the media gateway; After the media gateway receives the handoff message from the first media gateway controller to confirm the related information of the second media gateway controller, the media gateway responds to the first media gateway controller and generates a restart message at the same time to generate the second message. Transmitting to the media gateway controller; And receiving, by the second media gateway controller, a restart message from the media gateway, registering the media gateway, establishing a call, and responding to the media gateway.

Description

Interworking method between media gateway and media gateway controller {Method for Interfacing between the Media Gateway and the Media Gateway Controller}

The present invention relates to a method for interworking between MG and MGC, and more particularly, to an interworking method between MG and MGC which enables transmission of a MGCP message RSIP (Restart in Progress) message in both MG and MGC. .

In general, for interworking between MG and MGC, MGCP is used between MG and MGC, and the MGCP-related standards comply with the 'RFC2705' standard. In addition, one MG generally performs interworking with one MGC, and a schematic interworking structure is the same as the block diagram shown in FIG. 1.

As shown in FIG. 2, the MGCP message includes End Point Configuration (EPCF), Create Connection (CRCX), Modify Connection (MDCX), Delete Connection (DLCX), Notification Request (RQNT), Notify (NTFY), and AUEP ( It consists of Audit End Point), AUCX (Audit Connection) and RSIP.

Then, a schematic interworking procedure between the conventional MG and MGC will be described with reference to the flowchart of FIG. 3.

First, in order to interwork between the MG 10 and the MGC 20, the MGCP proposed in the 'RFC2705' standard must be accommodated, and the MG 10 uses an RSIP message among the MGCP messages during initial operation. Here, the restart method (RM) included in the RSIP message includes Graceful, Forced, Restart, Disconnected, and Cancel-graceful. )

That is, the MG 10 generates a restart message (RSIP (RM: Restart)) at the initial operation and transmits it to the MGC 20 to register itself with the MGC 20.

Accordingly, the MGC 20 receives a restart message (RSIP (RM: Restart)) from the MG 10 to register the MG 10, and uses the MG 10 registered from that point in time. After setting up the call, a response message (Response) to the corresponding restart message RSIP (RM: Restart) is transmitted to the MG 10.

If a failure occurs in the MG 10, the MG 10 uses an RSIP message, which is an MGCP message, and generates a disconnection message (RMIP (RM: Disconnected)) to notify the MGC 20. give.

Then, the MGC 20 receives a disconnection message (RSIP (Disconnected)) received from the MG 10 and recovers a call that has been set up, and then, for the corresponding disconnection message (RSIP (Disconnected)). The response message (Response) is transmitted to the MG (10).

Then, when the failure occurred in the MG 10 is recovered, the MG 10 generates the restart message RSIP (RM: Restart) again and retransmits it to the MGC 20. The MGC 20 registers the MG 10 and sets up a call, and then transmits a response message to the MG 10.

In addition, even when a state change for any trunk resource in the MG 10 occurs, the trunk resource state change is notified to the MGC 20 using an RSIP message, which is the MGCP message as described above. In this regard, the MGC 20 ensures that the trunk resource is no longer occupied for the new call setup.

As described above, the RSIP message, which is the MGCP message, can be transmitted only from the MG 10 to the MGC 20, which specifies that the RSIP message is not transmitted from the MGC 20 in the 'RFC2705' standard. Because. That is, the 'RFC2705' standard stipulates that the RSIP message can be transmitted from the MG 10 only to the MGC 20.

In this way, in the conventional interworking between MG and MGC, RSIP messages, which are MGCP messages, are transmitted only in the MG, so that disk full, IPC (Inter Processor Communication) and timers fail, resources are insufficient, and memory is insufficient. In case of failure of the MGC itself, such as the operator's request, the MG could not be notified to the MG, and it was also impossible to handle the hand-off function to another MGC. There was a problem causing service instability.

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides an interworking method between MG and MGC to enable transmission of both MG and MGC RSIP messages, which are MGCP messages, in interworking between MG and MGC. .

Another object of the present invention is to provide an interworking method between MG and MGC for processing a handoff function of the MGC using an RSIP message, which is an MGCP message, in interworking between the MG and the MGC.

In addition, the present invention can transmit the RSIP message, which is an MGCP message in both MG and MGC in the interworking between MG and MGC, and handles the handoff function of the MGC by using the RSIP message, thereby matching the state and the call between the MG and the MGC. The purpose of this is to provide a smooth processing service.

In the interworking method between the MG and the MGC according to an embodiment of the present invention for achieving the above object, when the first media gateway controller has its own failure during the call processing service between the media gateway and the first media gateway controller Detecting a corresponding failure and performing a handoff process to another new second media gateway controller and simultaneously transmitting a handoff message to the media gateway; After the media gateway receives the handoff message from the first media gateway controller to confirm the related information of the second media gateway controller, the media gateway responds to the first media gateway controller and generates a restart message at the same time to generate the second message. Transmitting to the media gateway controller; And receiving, by the second media gateway controller, a restart message from the media gateway, registering the media gateway, establishing a call, and responding to the media gateway.

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Also preferably, the handoff message may include in the notification entity parameter value an IP address for the new second media gateway controller to be handed off. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4, the configuration for interworking between the MG and the MGC according to an embodiment of the present invention includes an MG 30 and a plurality of MGCs 40 and 50 interworking with the corresponding MG 30. Each MGC 40, 50 includes an upper control section 41, 51 and an MGCP processing section 42, 52.

Herein, the present invention adds content definition and processing procedures that are not presented in the existing standard, that is, the MG and the MGC can transmit both the RSIP message, and a gray pearl in the restart scheme included in the RSIP message. In addition to faults, restarts, disconnects, and cancel-grace, a handoff for handling the MGC's handoff function is added, and an entity informs about the new MGC to be handed off (ie, the MGC IP address). ) To be included in the Parameter Value.

The upper control unit 41 detects such a failure in the event of a failure of the MGC 40 itself such as a failure of a disk pool, an IPC and a timer, a resource shortage, a memory shortage, an operator request, and the like, to another new MGC 50. At the same time as performing the handoff process, the MGCP processing unit 42 provided in the MGC 40 is requested to transmit a handoff message (RSIP (RM: Handoff)) among RSIP messages.

The MGCP processor 42 receives a request for transmission of a handoff message (RSIP (RM) Handoff) from the upper control unit 41 provided in the MGC 40, encodes an MGCP message, and encodes the MG ( 30). That is, a handoff message (RSIP (RM: Handoff)) is generated and transmitted to the MG 30.

The MG 30 receives the handoff message RSIP (RM: Handoff) from the MGC 40, generates a response message, transmits the response message to the MGC 40, and simultaneously performs a handoff. Checking the new MGC (50) generates a restart message (RSIP (RM: Restart)) of the RSIP message and transmits to the new MGC (50) to register itself with the new MGC (50).

The new MGC 50 receives a restart message (RSIP (RM: Restart)) from the MG 30, registers the MG 30, and uses the registered MG 30 from that point in time. After the call is set up, the response message (Response) to the restart message (RSIP (RM: Restart)) is transmitted to the MG 30, thereby making a call between the new MGC 50 and the MG 30. Enable processing services.

The interworking method between MG and MGC according to an embodiment of the present invention will be described with reference to the flowchart of FIG. 5.

First, the MG 30 uses an RSIP message among MGCP messages during initial operation. The MG 30 generates a restart message (RSIP (RM: Restart)) among the corresponding RSIP messages and transmits it to the first MGC 40 to transmit itself. 1MGC (40) to register.

Accordingly, the first MGC 40 receives a restart message (RSIP (RM: Restart)) from the MG 30, registers the MG 30, and uses the registered MG 30 from that point in time. After the call is established, the response message (Response) to the corresponding restart message RSIP (RM: Restart) is transmitted to the MG 30, thereby making a call between the MG 30 and the first MGC 40. Enable processing services.

However, during a call processing service between the MG 30 and the first MGC 40, if the MGC internal failure occurs such as a failure of a disk pool, an IPC and a timer, a lack of resources, a memory shortage, an operator request, etc. in the first MGC 40. In this case, the upper control unit 41 provided in the first MGC 40 detects the corresponding MGC internal failure, performs handoff processing with another new second MGC 50, and simultaneously performs a handoff message among RSIP messages. (RSIP (RM: Handoff)) transmission is requested to the MGCP processing section 42 provided in the first MCC 40.

Then, the MGCP processing unit 42 receives a request for transmission of a handoff message (RSIP (RM: Handoff)) from the upper control unit 41, encodes an MGCP message and transmits it to the MG 30, that is, RSIP. A handoff message (RSIP (RM: Handoff)) is generated among the messages and transmitted to the MG 30.

At this time, the MGCP processing unit 42 has information about the new second MGC 50 to be handed off (ie, the MGC IP address) corresponding to the notification entity parameter value included in the corresponding handoff message (RSIP (RM: Handoff)). ).

Accordingly, the MG 30 receives a handoff message RSIP (RM: Handoff) from the first MGC 40, generates a response message corresponding thereto, and transmits the response message to the first MGC 40. At the same time, after checking information (i.e., MGC IP address) for the new second MGC 50 to be handed off from the notification entity parameter value of the corresponding handoff message RSIP (RM: Handoff), restart in the RSIP message. A message (RSIP (RM: Restart)) is generated and transmitted to the new second MMG 50 to register itself with the new second MMG 50.

Accordingly, the new second MGC 50 receives the restart message RSIP (RM: Restart) from the MG 30 to register the MG 30 and registers the MG 30 registered from the corresponding time point. After the call is set up, the response message (Response) to the corresponding restart message RSIP (RM: Restart) is transmitted to the MG 30, whereby the new second MGC 50 and the MG 30 It enables call processing service between users.

As described above, according to the present invention, in the interworking between the MG and the MGC, the RSIP message, which is an MGCP message, can be transmitted in both the MG and the MGC, and the handoff function of the MGC is processed by using the RSIP message, thereby providing a state between the MG and the MGC. Matching and call processing services can be seamlessly provided.

1 is a block diagram illustrating a schematic interworking structure between a general media gateway and a media gateway controller.

FIG. 2 is a diagram showing the configuration of a MGCP message in FIG. 1; FIG.

3 is a flowchart illustrating a schematic interworking procedure between a general media gateway and a media gateway controller.

4 is a block diagram schematically showing a configuration for interworking between MG and MGC according to an embodiment of the present invention.

5 is a flowchart illustrating an interworking method between a media gateway and a media gateway controller according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

30: Media Gateway (MG)

40, 50: Media Gateway Controller (MGC)

41, 51: upper control unit 42, 52: MGCP processing unit

Claims (3)

In the interworking method between the Media Gateway and the Media Gateway Controller, During the call processing service between the media gateway and the first media gateway controller, the first media gateway controller detects the failure and performs a handoff message with another new second media gateway controller. Transmitting to the media gateway; After the media gateway receives the handoff message from the first media gateway controller to confirm the related information of the second media gateway controller, the media gateway responds to the first media gateway controller and generates a restart message at the same time to generate the second message. Transmitting to the media gateway controller; And responding to the media gateway after the second media gateway controller receives a restart message from the media gateway, registers the media gateway, sets up a call, and responds to the media gateway. Interlocking method. delete The method of claim 1, And wherein the handoff message includes an IP address for the new second media gateway controller to be handed off in a notification entity parameter value.