KR20070080626A - Duplicated system and operating method thereof - Google Patents

Abstract

A dual system and an operating method thereof are provided to reduce the load of the system by not requiring a synchronization process between an active node and a standby node. A dual system includes an active node(301), a standby node(302), and a resource management server(303). The active node(301) gives a normal service, and provides data required for dualization switching to the resource management server in case of a predetermined event. The standby node(302) transits to the active node(301) if the active node(301) malfunctions and provides a seamless service. The resource management server(303) manages resource information for a current serviced call such as routing information, trunk information, CIC(Circuit Identification Code) information, session information, and provides the standby node(302) with data for the corresponding call when receiving a data request from the standby node(302) according to dualization switching.

Description

Redundant device and its operation method {DUPLICATED SYSTEM AND OPERATING METHOD THEREOF}

1 is a view showing the configuration of a redundant system according to the prior art.

2 is a diagram illustrating a procedure for performing redundant switching in a redundant system according to the prior art.

3 is a diagram illustrating a configuration of a redundant communication system according to an embodiment of the present invention.

4 is a diagram illustrating a procedure for performing redundant switching in a redundant communication system according to an embodiment of the present invention.

5 is a diagram illustrating an operation procedure of a signaling processing node transitioned to an active node in a redundant communication system according to an embodiment of the present invention.

The present invention relates to a redundant communication system, and more particularly, to an apparatus and method for managing data required for redundant switching in a separate server.

In general, each component of the communication system supports redundancy to stabilize calls and billing, and supports board unit redundancy for each component. In other words, it should be replaced by normal circuit board as soon as error is detected and replaced.

1 shows a configuration of a redundant system according to the prior art.

Referring to FIG. 1, a redundant system according to the related art includes a memory for storing data currently in operation of a corresponding system under control of a controller, an active node 101 currently operating in an activated state, and control of a controller. And a memory for storing a part of data currently in operation of the system, and including a standby node 102 currently operating in a standby state.

Such a redundant system provides the standby node 102 with information (backup data) on the event when a significant event of the active board 101 occurs in preparation for the failure of the active node 101. . That is, according to the prior art, a complex algorithm executed at every event must be implemented between the active node 101 and the standby node 102, and above all, the standby node 102 always has a certain amount of system resources (e.g., CPU load, memory, etc.)

2 shows a procedure for performing redundancy switching in a redundant system according to the prior art.

Referring to FIG. 2, when event-1 occurs in the active node 101 (step 201), the active node 101 notifies the standby node 102 of the event-1 in step 203. Then, the standby node 102 performs processing on the event-1 in step 205. Thereafter, when event-2 occurs in the active node 101 (step 207), the active node 101 notifies the standby node 102 of the event-2 in step 209. Then, the standby node 102 performs processing on the event-2 in step 211.

During the process, if a failure event occurs in the active node 101 (step 213), the active node 101 notifies the standby node 102 of the failure event in step 215. In operation 217, the standby node 102 performs the transition to the active node.

As described above, the conventional redundancy concept is to periodically synchronize the two nodes in a device consisting of a primary node / backup node or an active node / standby node. Represents a matching operation. When an event occurs on the active node, the standby node is immediately notified so that the standby node generates the same information.

However, this redundancy concept has a large load due to the synchronization work because the synchronization work between the active node and the standby node is performed in real time. In addition, if full synchronization is not performed between the active node and the standby node, resources prior to the redundancy changeover may be lost, resulting in waste of resources. That is, serious problems may occur if resources are not recovered from network equipment that uses limited resources (trunk resources, CIC (Circuit Identification Code) resources, call sessions, etc.).

Accordingly, an object of the present invention is to provide an apparatus and method for minimizing the load caused by redundancy in a communication system.

Another object of the present invention is to provide an apparatus and method for managing data required for redundant switching in a separate server in a communication system.

According to one aspect of the present invention for achieving the above object, in a duplexing device of a communication system, an active node for providing a normal service, paired with the active node, and waiting for an abnormal state of the active node And a resource management server that manages a standby node and data required for redundancy switching, and provides data for the redundancy switching to the standby node when a data request is received from the standby node due to a failure of the active node. It features.

According to another aspect of the present invention, in a redundant node switching method of a standby node in a communication system including a resource management server that manages data required for redundant transfer, performing an active transition processing upon receiving an active transition request; When the processing message is received, checking whether there is routing information for the received message; if the routing information does not exist, accessing the resource management server to obtain the routing information; and receiving the received message. Processing to route to the corresponding node according to the obtained routing information.

Hereinafter, the operating principle of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted if it is determined that the detailed description of the present invention may unnecessarily obscure the subject matter of the present invention. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

Hereinafter, the present invention will look at a method for managing data required for redundant switching in a separate server in a communication system. When the call processing can no longer proceed due to the failure of the active node, the standby node inquires of a separate resource management server for data (eg, routing information) required for the call processing, and the information obtained from the resource management server Perform the call for the call.

3 shows a configuration of a redundant communication system according to an embodiment of the present invention.

As shown, the redundant communication system according to the present invention includes an active node 301, a standby node 302, and a resource management server 303. As such, two nodes are paired for redundancy, and according to the present invention, a resource management server for managing data required for redundancy switching is provided.

Referring to FIG. 3, first, the active node 301 provides a normal service, and provides the resource management server 303 with data for redundant switching when a specified event occurs. For example, information about a node to which a call is to be routed may be provided to the resource management server 303. The standby node 302 transitions to an active node when the active node 301 fails to provide normal service due to a failure or the like. The standby node 302 transitioning to the active node requests the resource management server 303 for resource information on a call processed by the active node 301 and obtains the information from the resource management server 303. Provides seamless service for ongoing calls using.

The resource management server 303 manages resource information (eg, routing information, trunk information, CIC information, session information, etc.) for a call currently being serviced, and receives a data request from the standby node 302 according to redundancy switching. If so, the data for the call is provided to the standby node 302. Here, the resource management server 303 may use a server that is basically used for call processing resource management as it is, and may be a separate server for redundancy switching. On the other hand, the active node 301, the standby node 302 and the resource management server 303 may communicate using, for example, Ethernet (Ethernet).

Hereinafter, a specific operation according to the present invention will be described.

In the actual switching center (MSC: Mobile Switching Center), there are a plurality of call processing nodes, and a plurality of signaling processing nodes (eg, No7 processing nodes) that receive signaling messages from large stations (eg, MSC, PSTN, etc.). The signaling processing nodes process signaling messages exchanged between a power station and the call processing node. At this time, one call processing node must process the same call. Hereinafter, a case in which the signaling processing nodes are duplicated will be described.

4 illustrates a procedure for performing redundant switching in a redundant communication system according to an embodiment of the present invention. In the following description, it is assumed that the first signaling processing node 42 is an active node, and the second signaling processing node 43 is a standby node.

Referring to FIG. 4, first, a first signaling processing node 42 processes a signaling message received from a power station 41 to process a call processing node 44-of a plurality of call processing nodes 44-1 through 44 -N. 1) (step 401). As such, when the call processing node 44-1 is determined for the call, other call processing messages (or signaling messages) for the same call must also be processed by the call processing node 44-1. Therefore, the first signaling processing node 42 must then continue to forward messages for the same call to the call processing node 44-1. Meanwhile, the first signaling processing node 42 transmits a call processing result message (eg, a response message) from the call processing node 44-1 to the large station 41 (step 403).

 If a failure occurs in the first signaling processing node 42 during the call processing, the second signaling processing node 43 transitions to an active node (step 405). Thereafter, the second signaling processing node 43 receives and processes a signaling message received from the power station 41 (step 407). In this case, since the second signaling processing node 43 does not know in which call processing node to process the received call processing message, the second signaling processing node 43 requests routing information for the call from the resource management server 45 (step 409). . Then, the resource management server 45 provides the routing information for the call to the second signaling processing node 43 in response to the request (step 411).

Thereafter, the second signaling processing node 43 processes the call processing message received from the power station 41 using the routing information obtained from the resource management server 45 to process the call processing node 44-1. In step 413. The second signaling processing node 43 transmits a call processing result message from the call processing node 44-1 to the large station 41 (step 415).

5 is a flowchart illustrating an operation of a signaling processing node transitioned to an active node in a redundant communication system according to an embodiment of the present invention.

Referring to FIG. 5, the signaling processing node 43 operating in the standby mode first checks whether an active transition request generated by a separate redundancy control function is received in step 501. When the active transition request is detected, the signaling processing node 43 proceeds to step 503 to perform a predetermined active transition processing to complete preparations to operate as an active node.

In step 505, the signaling processing node 43 checks whether a call processing message is received. When the call processing message is received from the power station 41, the signaling processing node 43 analyzes the received call processing message in step 507. In step 509, the signaling processing node 43 searches for an internal database and checks whether there is routing information for the received call processing message.

If the routing information exists, the signaling processing node 43 proceeds to step 515 to process the received call processing message and transmit it to the call processing node. If the routing information does not exist, the signaling processing node 43 proceeds to step 511 and requests resource management server 45 to call processing node information for routing the received call processing message.

In step 513, the signaling processing node 43 checks whether routing information is received from the resource management server 45. In this case, when the routing information is received, the signaling processing node 43 proceeds to step 515 and processes the received call processing message and transmits it to the corresponding call processing node.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

As described above, the present invention has the advantage that the system load can be reduced because the synchronization operation between the active node and the standby node is not necessary in a redundant communication system. In addition, since the present invention does not require the exchange of information between the active node and the standby node, the system is simple and there is no problem of resource recovery that may occur during synchronization.

Claims (4)

In the redundant device of the communication system, An active node providing normal service, A standby node paired with the active node and waiting for an abnormal state of the active node; And a resource management server that manages data required for redundancy switching and provides data for the redundancy switching to the standby node when a data request is received from the standby node due to a failure of the active node. . The method of claim 1, And the active node and the standby node are No7 processing nodes for processing a signaling message. The method of claim 1, Further comprising a plurality of call processing nodes for processing a call, The resource management server is characterized in that for managing the number of call processing node to be routed for each call. In the redundant switching method of the standby node in a communication system including a resource management server for managing data required for the redundant switching, When the active transition request is received, performing active transition processing; When receiving a call processing message, checking whether there is routing information for the received message; If the routing information does not exist, accessing the resource management server to obtain the routing information; Processing the received message and routing to the corresponding node according to the obtained routing information.

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