KR20050099240A - A softswitch of next generation network for fail over and a method thereof - Google Patents

Abstract

The present invention discloses a soft switch for overcoming a failure in a next generation network. The soft switch according to the present invention comprises: a plurality of MGCs (Media Gateway Controllers) for controlling signals assigned to MGWs to transfer signals between heterogeneous networks and to perform call processing; NAT (Network Address Translation) for storing the allocation information between the MGW and MGC, receiving the megaco message from the MGW and forwarding to the assigned MGC; And an operation management unit for controlling the MGC and the NAT, and the operation management unit monitors the operation state of the MGC and reassigns any one MGC which normally operates when it is determined that a failure occurs, and the reassigned MGC registers the MGW. Start control of MGW. This configuration ensures continuous service even if a soft switch fails.

Description

A softswitch of next generation network for fail over and a method

The present invention relates to a soft switch and a method for overcoming a failure in a next generation network, and more particularly, a soft switch and a media gateway using a MEGACO protocol. In case of a failure in the Media Gateway Controller that provides services to the media gateway, the software for overcoming the failure in the next-generation network that can overcome the failure through the network address translation (NAT) function. A switch and a method thereof are provided.

The next-generation network, which is emerging as a hot topic in the wired network field, has been proposed to solve the excessive traffic caused by the increase in the number of high-definition multimedia media and Internet users and to realize various services. Network, PSTN), Internet, Asynchronous Transfer Mode (ATM), and wireless networks by simplifying and configuring them into one common network to provide various multimedia services integrating voice and data. .

This next generation network includes a media gateway including an access gateway and a trunking gateway, and a soft switch for controlling the media gateway. Media gateway is a data conversion device for data transfer between heterogeneous networks that follow different standards, and softswitch is a device that performs interworking function between packet network and existing wired / wireless network, and transmits signals and handles calls between heterogeneous networks. Perform.

At this time, the media gateway and the soft switch communicate using the MEGACO (Media Gateway Control) protocol. The megaco protocol is a communication protocol recommended by the IETF and ITU-T H.248, an international standardization organization. It is a protocol for controlling soft-switched media gateways. Megaco protocol is a master / slave protocol. Megaco master is located in the soft switch and performs bearer connection / disconnection, media conversion, and auditing between media gateways through the megaco slave located in the media gateway.

On the other hand, the distributed processor type soft switch with NAT of the next generation network has a plurality of media gateways (MGWs), and the plurality of external MGWs has a single media gateway controller (MGC). Assigned. NAT has MGC allocation information of MGW, and forwards MGW's message to MGC based on this.

In the distributed processor type soft switch, when one MGC is unavailable, the MGW is fixedly connected to one MGC. Therefore, when a specific MGC fails, traffic transmitted to the MGW during the recovery of the failure is not normally processed. I can't. In this case, there is a problem that the service is not normally provided to the subscriber accommodated in the MGW.

In order to solve the above problems, the present invention, by detecting a failure occurring in the MGC controlling the MGW and assigns another MGC that operates normally in the MGW to allow the MGW to continue to receive services in the next-generation network An object of the present invention is to provide a soft switch and a method for overcoming a failure.

In order to achieve the above object, a soft switch for overcoming a failure in a next-generation network according to an embodiment of the present invention may control a plurality of MGWs (Media Gateways) to transmit signals between heterogeneous networks and perform call processing. Gateway Controller); A network address translation (NAT) for storing allocation information between the MGW and the MGC and receiving a megaco message from the MGW and forwarding the allocated MGC to the allocated MGC; And an operation management unit for controlling the MGC and the NAT, wherein the operation management unit monitors an operation state of the MGC to reallocate any one MGC which is normally operating, and reassigns the MGC. Starts control of the MGW by registering the MGW.

Preferably, the operation management unit controls the NAT so that the allocation information is updated in response to the MGC reassignment, and controls the MGW to be added to the reassigned MGC.

Preferably, the reassigned MGC receives a service change command received from the MGW from the NAT in response to the failure, and performs the registration of the added MGW.

Meanwhile, a method for overcoming a failure in a soft switch of a next generation network according to the present invention includes a plurality of MGCs (Media Gateway Controllers) for controlling signals assigned to MGWs to transfer signals between heterogeneous networks and performing call processing; And a NAT (Network Address Translation) which stores allocation information between the MGW and the MGC and forwards the megaco message from the MGW to the allocated MGC. The operation state of the MGC is monitored. Doing; Reallocating any one of the MGCs operating normally when it is determined that a failure occurs in the monitoring step; And registering control of the MGW with the reallocated MGC, thereby starting the control of the MGW through the reallocated MGC.

And preferably, the MGC reallocation step, updating the allocation information in response to the MGC reallocation; And adding the MGW to the reallocated MGC.

And preferably, starting the control of the MGW, the service change command received from the MGW in response to the occurrence of the failure in the reallocated MGC forwarded through the NAT; And the reassigned MGC performs the registration for the MGW previously added in response to the service change command forwarding.

On the other hand, a method for overcoming a failure in a soft switch of a next-generation network according to the present invention includes: a plurality of MGCs (Media Gateway Controllers) for controlling signals assigned to MGWs to transfer signals between heterogeneous networks and performing call processing; And a network address translation (NAT) for storing allocation information between the MGW and the MGC and receiving a megaco message from the MGW and forwarding the allocated MGC to the allocated MGC. Monitoring an operation state to determine whether a failure occurs; If it is determined that a failure has occurred, reassigning the MGC corresponding to the MGW of the allocation information to any one of the MGCs operating normally to update the allocation information; And adding the MGW as a control object to the reallocated MGC.

And preferably, when a service bond command is received from the MGW in response to the failure, transferring the service change command to the reassigned MGC to newly register the MGW. And starting to control the MGW through the reallocated MGC.

And preferably, the MGC communicates with the MGW via a megaco protocol.

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

1 is a block diagram provided to explain a soft switch for overcoming a failure in a next-generation network according to the present invention. 1, the soft switch 200 and the soft switch according to the present invention, including the MGC-1 (210-1), MGC-n (210-n), NAT 230 and operation management unit 250 200 and MGW 100 that performs communication according to the megaco protocol and performs data conversion for transfer of data between heterogeneous networks that follow different standards.

A plurality of MGC 210 is provided in the soft switch 200, performs a call processing of the assigned MGW 100, and transfers signals between heterogeneous networks.

The NAT 230 stores the allocation information table between the MGW 100 and the MGC 210 and stores the megaco message received from the external MGW 100 in the MGW 100 based on the stored allocation information table. Forward to the corresponding MGC 210.

The operation management unit 250 is a block that performs configuration data management and system operation control of the NAT 230 and the plurality of MGCs 210, and monitors whether or not a failure occurs in the MGC 210. The NAT 230 and the MGC 210 are controlled to control the MGC 210 to be allocated to the MGW 100.

That is, if the MGC 210 currently assigned to the MGW 100 is the MGC-1 210-1, and a failure is detected in the MGC-1 210-1, any MGC that is normally operated by the MGW 100. Re-allocate the 210-n and update the allocation information table of the NAT 230 to correspond to the MGC-n 210-n reassigned to the MGW 100. The MGW add command including the operation information of the MGW 100 is transmitted to the reassigned MGC-n 210-n. The MGC-n 210-n stores megaco-related essential information such as IP address, port information, layer information, capacity, number of subscribers, and various protocol timers of the MGW 100 in response to the MGW addition command.

Meanwhile, when the MGW 100 does not receive a response to the megaco message transmitted to the soft switch 200, the MGW 100 performs the request timeout procedure and the retransmission procedure. If there is no response despite performing this procedure, the MGW 100 transmits a ServiceChange (FailOver method) command to the NAT 230.

In response, the NAT 230 forwards a service change command (ServiceChange) to the MGC-n 210-n corresponding to the updated allocation information table. The MGC-n 210-n reads database information of the MGW 100 according to a service change command (ServiceChange), thereby performing a procedure of newly registering the MGW 100. Thereafter, the MGW 100 receives continuous service through the newly allocated MGC-n 210-n.

2 is a flowchart provided to explain the operation of a soft switch for failover in a next generation network according to the present invention. 1 and 2, first, the MGW 100 transmits a daily megaco request signal Xxx Req according to the megaco protocol to the NAT 230 of the soft switch 200 (S300).

The NAT 230 reads the MGC-1 210-1 corresponding to the MGW 100 from the allocation information table based on the source address of the megaco message received from the MGW 100, and requests the megaco request signal Xxx. Req) is forwarded to MGC-1 210-1 (S310). If it is detected that a failure has occurred in the MGW-1 210-1 in the operation management unit 250 continuously monitoring whether the operation state of the MGC 210 is normal (S320), if it is determined that a failure has occurred in step S320, After determining the MGC-n 210-n to be reassigned, the MGW change recognition command MGWChange notifying the NAT 230 that the MGC 210 corresponding to the MGW 100 has been changed to the MGC-n 210-n. (S330). NAT 230 receives the MGW change command (MGWChange) from the operation management unit 250, and updates the allocation information table for the MGC. In addition, the operation management unit 250 transmits an MGW add command (MGW ADD) to add the MGW to the reallocated MGC (S340).

On the other hand, the MGW 100 does not receive a response to the megaco request signal in step S300 because a failure occurs in the MGC-1 210-1, thereby request time out procedure and retransmission procedure. Perform (S350). Since there is no response even after performing step S350, a service recognition command (ServiceChangne) is transmitted (S360).

The NAT 230 receives a service change command (ServiceChange) of the MGW 100, and transmits a megaco message to the MGC-n 210-n according to the updated allocation information table (S370). The MGC-n 210-n receives a service change command (ServiceChange) and performs a new MGW 100 registration procedure according to the database information of the MGW 100 (S380). Then, if registration is completed normally, the service bond response (ServiceChange rep) is transmitted to the NAT (230) (S390). NAT 230 forwards the received service change response (ServiceChange rep) to the MGW 100 (S395), the service change of the MGW 100 is completed normally.

By the above method, even when a failure occurs in the MGC, the MGW can receive continuous service.

Therefore, according to the present invention, by automatically allocating the MGW allocated to the failed MGC in the next-generation soft switch to another MGC, it is possible to stably provide a service required from the MGW.

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

1 is a block diagram provided in the description of the soft switch for overcoming the failure in the next-generation network in accordance with the present invention.

Figure 2 is a flow chart provided for explaining the operation of the soft switch for failover in the next-generation network in accordance with the present invention.

Claims (6)

A plurality of MGCs (Media Gateway Controllers) for controlling signals assigned to MGWs to transfer signals between heterogeneous networks and perform call processing; A network address translation (NAT) for storing allocation information between the MGW and the MGC and receiving a megaco message from the MGW and forwarding the allocated MGC to the allocated MGC; And Includes; operation management unit for controlling the MGC and the NAT, The operation management unit monitors the operation state of the MGC, if it is determined that a failure has occurred, reallocates any one MGC that is normally operating, and the reassigned MGC registers the MGW to start controlling the MGW. Soft switch for failover in next generation networks. The method of claim 1, The operation manager, in response to the MGC reallocation, controls the NAT so that the allocation information is updated, and controls the MGW to be added to the reallocated MGC. switch. The method of claim 1, The reallocated MGC receives the service recognition command received from the MGW from the NAT in response to the failure, and performs the registration of the added MGW. Soft switch for A plurality of MGCs (Media Gateway Controllers) for controlling signals assigned to MGWs to transfer signals between heterogeneous networks and perform call processing; And storing allocation information between the MGW and the MGC, and receiving a megaco message from the MGW and forwarding the allocated MGC to the allocated MGC. To A first step of monitoring an operating state of the MGC; A second step of reallocating any one of the MGCs operating normally when it is determined that a failure occurs in the monitoring step; And And registering the MGW with the reallocated MGC, thereby starting the control of the MGW through the reallocated MGC. The method of claim 4, wherein the second step, Updating the allocation information corresponding to the MGC reallocation; And And adding the MGW to the reallocated MGC. The method of claim 4, wherein the third step, Forwarding, via NAT, a service bond recognition command received from the MGW in response to the failure to the reallocated MGC; And And reassigning the MGC to perform the registration of the pre-added MGW in response to the service recognition command forwarding.