KR20050093056A - Handoff system of next generation network and method thereof - Google Patents

Abstract

The present invention relates to a handoff system and a method of a next generation network, and more particularly, when an overload or a failure is detected, a media gateway controller of a soft switch; It is a technology that improves the service quality by providing subscribers or services of the Media Gateway (MG), which are accommodated by the MGC, to other media gateway controllers and providing services without interruption.

The present invention for this purpose is provided with a heterogeneous manganese, a plurality of media gateways for performing protocol matching for communication between the heterogeneous networks, and a plurality of media gateway controllers respectively connected to the plurality of media gateways, the media And a soft switch that detects an abnormal state of the gateway controllers and connects the media gateway connected to the media gateway controller detected as an abnormal state to a normal media gateway controller.

Description

Handoff system of next generation communication network and method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a handoff system and a method for a next generation network, and more particularly, to detect an overload or a failure, and thus, a media gateway controller (MGC) of a soft switch. It is a technology that improves the quality of service by moving subscribers or services of the Media Gateway (MG) housed in the MG) to other media gateway controllers and providing services without interruption.

In general, Next Generation Network (NGN) is a network that allows traffic such as voice, video, fax, and data to be transmitted through the same link, and is a public switched telephone network (PSTN) network, a cable network, and a wireless network. A separate network such as a network, an IP (internet protocol) network, and an integrated services digital network (ISDN) network are integrated. The structure and network elements of next generation networks are defined for the purpose of integration and classification of functional layers.

This next generation communication network includes a soft switch for controlling the media gateway and the media gateway controller.

In this case, the media gateway converts the data of the other side into a protocol that can be understood by each device at the end of the network using different protocols, and connects the PSTN network and the IP network, or connects the ISDN network and the IP network. Provides the ability to connect.

The soft switch controls the media gateway by using a control protocol during call processing such as number translation for call connection, and has a media gateway controller for this purpose.

At this time, the soft switch stores and manages connection information of the media gateway and the media gateway controller, that is, the allocation information of the media gateways allocated to each of the plurality of media gateway controllers through a network address translation (NAT). .

Therefore, the soft switch of the conventional next-generation communication network stores the allocation information in which the media gateway controller and the media gateway are fixed in a 1: 1 correspondence structure in the NAT. There is a problem in that the service of the media gateway accommodated by the gateway controller must be stopped, thereby degrading the quality of service.

An object of the present invention for solving the above problems, by detecting the abnormal state of the media gateway controller of the soft switch of the next-generation communication network, by moving the call processing related information to the other media gateway controller to continue the service, To prevent degradation.

The present invention for achieving the above object is provided in a heterogeneous manganese, a plurality of media gateways for performing protocol matching for the communication between the heterogeneous networks and a plurality of media gateway controllers connected to the plurality of media gateways, respectively; And a soft switch that detects an abnormal state of the media gateway controllers and connects the media gateway connected to the media gateway controller detected as an abnormal state to a media gateway controller in a normal state.

In addition, the handoff method of the present invention comprises the steps of performing the call processing requested by the media gateway controller in the connected media gateway, backing up the call processing related information of the media gateway controller, and the abnormal state of the media gateway controller Detecting, if the abnormal state is detected, moving backed up call processing related information of the media gateway controller having the abnormal state to another gateway controller, and continuing the call processing with the other media gateway controller. It is characterized by including.

The above and other objects and features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

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

1 is a block diagram of a handoff system of a next-generation communication network according to an embodiment of the present invention.

The handoff system of the next generation communication network is composed of a media gateway (MG) 100 for converting a protocol for communication between heterogeneous networks and a call agent or soft switch 200 for defining service logic of the traffic. . At this time, the MG 100 and the soft switch 200 are interworked using the Megaco protocol.

The MG 100 converts the data of the other side from the end of the network into a protocol that can be interpreted by each device in order to interwork a network using different protocols. The MG 100 and the public switched telephone network (PSTN) network It provides a function of connecting an IP (internet protocol) network or an ISDN (integrated services digital network) network and an IP network.

The soft switch 200 controls the MG 100 using a control protocol during call processing such as number translation for a call connection, and an overload or failure of the media gateway controller MGC 203. When an abnormal state is detected by detecting an abnormal state, the call processing related information, which was in service of the MGC 203 in which the abnormal state is detected, is moved to a new MGC 204 to continue the service such as call processing.

To this end, the soft switch 200 is a network address translation (NAT) 201, operation management unit 202, MGC (203, 204), subscriber / trunk line control processor 205, and backup It has a processor 206.

The NAT 201 stores the connection information between the MG 100 and the MGC 203 in the form of an index and stores them in an index form. The connection information is updated so that the MG 100 accommodated in the failed MGC 203 is connected to the new MGC 204.

At this time, the new MGC 204 is already storing the allocation information associated with the other MG in the NAT, if the abnormal state is detected in the MGC 203 MG (100) accommodated in the MGC 203 in the new MGC 204 ) Is additionally allocated.

The operation management unit 202 functions as a NAT 201, MGCs 203 and 204, management of configuration data, and control of operation of the system, and detects an abnormal state such as overload or failure of the MGC 203 in service. When the abnormal state is detected, the MG 100 connected to the MGC 203 is instructed to update the allocation information of the NAT 201 to be connected to the other MGC 204.

At this time, the operation management unit 202 checks the CPU of the MGC 203, and if the utilization rate of the CPU is more than a certain utilization rate, determines that it is an overload, and checks the process state of the MGC 203 so that the processor does not operate normally or the message transmission and reception signal If there is no response for more than a certain time, it is regarded as a failure.

The MGCs 203 and 204 control the MG 100 using the Megaco Megaco protocol and perform call control between the MGs. Subscriber / relay line control processor 205 controls subscribers, trunk lines, and other media.

The backup processor 206 frequently backs up the call processing related information and the processor ID and the event of the call processing control message to the MGC 203 in service, and when the abnormal state occurs in the corresponding MGC 203, the control of the operation management unit 202. The call processing related information backed up to the new MGC 204 is transmitted. Here, the call processing related information is information such as MG information accommodated by the corresponding MGC, call status, subscriber number in use, and usage time.

2 is a flowchart illustrating a handoff method of a next-generation communication network according to an exemplary embodiment of the present invention.

First, when a call service is requested by the subscriber station to the soft switch 200 through the specific MG 100 (S100), the specific MG 100 is determined according to the allocation information stored in the NAT 201 of the soft switch 200. It connects to the MGC 203 and provides a call service (S101). During service provision, the backup processor 206 periodically backs up call processing related information of the MGC 203 (S102).

On the other hand, the operation management unit 202 periodically checks whether an abnormal state such as overload or failure of the corresponding MGC 203 in service (S103), and if an abnormal state is detected, the MG 100 stored in the NAT 201. The connection information of the MGC 203 is modified so that the MG 100 and another MGC 204 are connected, and the new MGC 204 is connected to the MG 100 accommodated in the MGC 203 having an abnormal state (S104). ).

Call processing related information of the MGC 203 backed up in step S102 is moved to a new MGC 204 (S105), and the new MGC 204 continues the call processing service using the backed up call processing related information. (S106).

As described above, the present invention detects an overload or a failure in a specific MGC during the service of the next generation communication network, and allows the service to continue through the new MGC 204 under the control of the operation management unit 202.

As described above, when the abnormal state of the media gateway controller of the soft switch of the next generation communication network is detected, the service is continued by using the new media gateway controller, thereby improving service reliability.

In addition, the preferred embodiment of the present invention for the purpose of illustration, those skilled in the art will be able to various modifications, changes, replacements and additions through the spirit and scope of the appended claims, such modifications and changes are the following claims Should be seen as belonging to.

1 is a block diagram of a handoff system of a next-generation communication network according to an embodiment of the present invention.

2 is a flowchart illustrating a handoff method of a next-generation communication network according to an embodiment of the present invention.

Claims (10)

A plurality of media gateways installed in heterogeneous networks and performing protocol matching for communication between the heterogeneous networks; And A plurality of media gateway controllers connected to the plurality of media gateways, respectively, and detecting an abnormal state of the media gateway controllers and connecting the media gateway connected to the media gateway controller detected as an abnormal state to a normal media gateway controller. Soft switch; Handoff system of the next generation communication network, characterized in that comprising a. The method of claim 1, wherein the soft switch The plurality of media gateway controllers for performing call processing with a connected media gateway; A network address translation unit that stores connection information between the media gateway and the media gateway controller; A backup processor periodically backing up call processing related information of the media gateway controller; And The abnormal state of the media gateway controller is detected, and when the abnormal state is detected, the backup information is moved to another media gateway controller of the normal state, and the abnormal state is detected by the other media gateway controller of the normal state. An operation manager to continue the call processing service that was performed by the media gateway controller; Handoff system of the next generation communication network, characterized in that it comprises a. The handoff system of claim 2, wherein the network address translation unit stores the connection information in an index form and makes a table. The handoff system of claim 1, wherein the soft switch detects an abnormal state by targeting at least one of an overload and a failure. The handoff system of claim 4, wherein the soft switch detects an overload when the utilization rate of the CPU of the media gateway controller is greater than or equal to a predetermined value. 5. The handoff system of claim 4, wherein the soft switch detects packet transmission and reception by the media gateway controller and detects a failure if there is no response to the packet for a predetermined time. Performing, at the media gateway controller, call processing requested at the connected media gateway; Backing up call processing related information of the media gateway controller; Detecting an abnormal state of the media gateway controller; If the abnormal state is detected, moving backed up call processing related information of the media gateway controller in which the abnormal state has occurred, to another gateway controller; And Continuing call processing with the other media gateway controller Handoff method of the next-generation communication network comprising a. 8. The method of claim 7, wherein the detection of the abnormal condition is performed at least one of an overload and a failure. The next generation communication network of claim 8, wherein when the abnormal state is detected for the overload, the utilization rate of the CPU of the media gateway controller is checked to determine the overload when the utilization rate of the CPU is greater than or equal to a predetermined value. Handoff method. The next generation communication network of claim 8, wherein when detecting an abnormal state for the failure, the media gateway controller checks the packet transmission and reception and determines that there is no response of the packet for a predetermined time as the overload. Handoff method.