KR101385002B1 - System and Method for Routing Control between Switching Center - Google Patents

Abstract

The present invention relates to an exchange period routing control system and method.

The present invention monitors traffic conditions of exchangers belonging to the same group by attaching multiple exchangers to a group in a mobile communication switching network including a plurality of exchanges so that a failure occurs or a traffic congestion occurs among the exchanges of the same group. In this case, the traffic congestion can be quickly resolved by routing the traffic to other exchanges in the same group by routing it, and the traffic loss occurs due to the inability to process traffic to specific exchanges in the same group during traffic bypass processing. In this case, by allocating the incidence of the corresponding traffic loss to the exchanges in the same group, the same kind of route resources of the exchanges in the same group are used as efficiently as possible, thereby minimizing the call connection failure occurring in all the exchanges in the same group.

Exchange, traffic, bypass routing

Description

System and Method for Routing Control between Switching Center}

The present invention relates to routing period routing control, and in particular, in a mobile communication network including a plurality of exchanges, when a failure occurs in the exchange or the traffic is congested at the exchange, the traffic is smoothly routed by bypassing the other exchange. An exchange period routing control system and method are described.

In general, a mobile communication network includes a plurality of mobile communication exchanges and gateway exchanges in order to provide a communication path, and there are many relay routes for subscriber traffic processing in the mobile communication exchange and gateway exchange periods. Traffic occupies about%.

However, if there is a large amount of traffic, such as the day before a holiday, and the traffic greatly increases or a failure occurs in one adjacent exchange, the desired call can be bypassed through another exchange to the call routed to the route that can no longer handle the traffic. Although it must be sent to the exchange side, there is a limit in the margin of the route capacity to the gateway exchange side of the bypassing side, so that some traffic cannot be processed.

In this case, if the traffic cannot be handled, the operator of the exchange network directly enters a command to check the status of the route to adjacent exchanges, and then enters the command again to bypass the traffic. Since it takes a lot of time when traffic is bypassed, it is not possible to provide a good communication service to customers because the setup of many call calls fails due to failure of the gateway exchange or traffic congestion in real time. There is this.

The present invention has been proposed to solve the above problems, and the object of the present invention is to monitor the traffic situation of the exchanges belonging to the same group by assigning a plurality of exchangers to one group in an exchange network including a plurality of exchanges. In the event that a failure or congestion occurs in an exchange in the same group, a routing period routing control system and method are provided so that traffic congestion can be promptly eliminated by routing traffic to other exchanges in the same group. .

Another object of the present invention is to distribute the incidence of the traffic loss to the exchanges in the same group when the traffic loss occurs due to the inability to process traffic to specific exchanges belonging to the same group during the traffic bypass processing. The present invention provides a system and a method for adjusting a routing period routing to minimize call connection failures occurring in all exchanges in the same group by using the same kind of root resources of the exchanges in the same group as efficiently as possible.

Switching period routing control system according to the present invention for achieving the object as described above, Exchange group formed by grouping a plurality of exchanges capable of communication path setting; Registers and holds information on the exchanges belonging to the exchange group, monitors the state of the exchanges by communicating with the exchanges belonging to the exchange group, and causes a failure or a traffic congestion during the exchange. And a routing control server for remotely instructing the switch group to route traffic to other exchanges in the switch group.

According to the present invention, the routing control server, if the traffic loss occurs due to the inability to process the traffic to a specific exchange during the traffic bypass processing in the exchange group, the exchange rate of the corresponding traffic loss occurs in the exchange To other exchanges in the group.

According to the present invention, the routing control server includes a network matching unit for communicating with the exchange group or for communicating with an external communication network; An exchange registration database (Database) for storing information of exchanges belonging to the exchange group; An exchange DB registration unit configured to register and store information of exchanges belonging to the exchange group received from the external communication network through the network matching unit in the exchange registration DB; And a switch routing control unit for remotely detecting a state of the switch group through the network matching unit and transmitting a command to the switch group to remotely control traffic routing.

On the other hand, the exchange period routing adjustment method according to the present invention for achieving the above object, the process of receiving and registering information about the exchanges belonging to the group to the routing adjustment server; Monitoring, by the routing control server, traffic conditions of the exchanges by communicating with the exchanges belonging to the group; The routing control server checks the traffic occupancy rate of another bypass route when a failure or congestion occurs in an exchange belonging to the group to determine whether there is an exchanger whose traffic occupancy rate reaches a certain threshold. and; If the routing control server determines that there is an exchange where the traffic occupancy rate reaches a certain threshold, remotely directing some traffic to the exchange having the lowest bypass route occupancy rate among the remaining exchanges in the group. do.

In addition, according to the present invention, after the routing control server remotely commanded to bypass the traffic, there is another exchange where the bypass route occupancy reaches the specific threshold, and all the bypass routes of the remaining exchanges are also free relayed. Confirming that the trunk resource is less than a predetermined threshold; Remotely examining, by the routing control server, the number of free relay trunks of the detour route held by the remaining exchanges; Remotely instructing, by the routing control server, to bypass the traffic of the exchange having the bypass route occupied a certain threshold in proportion to the number of free relay trunks held by the remaining exchanges remotely inspected, to each of the remaining exchanges; It characterized in that it further comprises.

According to the present invention, in a mobile telecommunication switching network including a plurality of exchanges, a plurality of exchangers belong to a group to monitor the traffic conditions of the exchanges belonging to the same group so that a failure occurs or the traffic congestion occurs in the exchanges of the same group. In the event of a traffic jam, the traffic is routed to other exchanges in the same group to bypass the traffic congestion.

In addition, according to the present invention, when a traffic loss occurs due to a lack of room in the traffic processing to a specific exchange belonging to the same group during the traffic bypass processing, the incidence of the traffic loss is distributed to the exchanges in the same group. Therefore, the same kind of root resource of the exchanges in the same group is used as efficiently as possible to minimize the call connection failure occurring in all of the exchanges in the same group.

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

The present invention monitors traffic conditions of exchangers belonging to the same group by attaching multiple exchangers to a group in a mobile communication switching network including a plurality of exchanges so that a failure occurs or a traffic congestion occurs among the exchanges of the same group. In this case, the traffic congestion is quickly resolved by routing the traffic to other exchanges in the same group by routing it, and the traffic loss occurs due to the inability to process traffic to specific exchanges in the same group during traffic bypass processing. If possible, by allocating the incidence of the corresponding traffic loss to the exchanges in the same group, it is possible to use the same kind of root resources of the exchanges in the same group as efficiently as possible to minimize the call connection failure occurring in all the exchanges in the same group. .

Thus, the exchange period routing adjustment system for implementing the present invention is made as shown in FIG. The plurality of mobile communication exchanges 21a to 21n and the plurality of gateway exchanges 22a and 22b belong to one group 20. The exchanges belonging to the group 20 connect the communication paths to the mobile terminals 11a to 11n, for example, when the call connection request from the mobile terminal 11a to the mobile terminal 12 is generated. The communication exchange 21a receives a call connection request from the mobile terminal 11a, connects a communication path to one of the gateway exchanges 22a and 22b, and moves the called party by one of the corresponding gateway exchanges 22a and 22b. By connecting a communication path to the communication exchange 45 to communicate with the destination mobile terminal 12, the communication path for the mobile terminals is connected. And, the routing control server 30 holds information about the exchanges belonging to the group 20, and by communicating with the exchanges belonging to the group 20 to monitor the traffic situation of the exchanges, When a failure or congestion occurs in the exchange of the group 20, the traffic congestion is promptly resolved by bypassing and routing traffic to another exchange in the same group 20, and in the same group 20 In case of a traffic loss due to the inability to process traffic to a specific exchange belonging to the same group 20 at the time of traffic bypass processing, the rate of occurrence of the corresponding traffic loss is distributed to the exchanges within the same group 20. Calls that occur across all exchanges in the same group, using the same type of root resources of the exchanges in the same group as efficiently as possible. Minimize connection failures.

One group 20 includes a plurality of mobile communication exchanges 21a to 21n and a plurality of gateway exchanges 22a and 22b. The mobile communication exchanges 21a to 21n correspond to the mobile terminals 11a to 11n. The function of connecting the communication path, and the gateway exchange (22a, 22b) is connected to the communication path between the mobile communication exchange (21a ~ 21n) and wired network switch 40, or different from the mobile communication exchange (21a ~ 21n) It performs the function of connecting the communication path between the mobile communication switch (45). The exchangers belonging to one group 20 are registered in the routing control server 30, and the traffic is monitored according to the remote command from the routing control server 30 by monitoring the traffic processing status by the routing control server 30. By root routing, traffic is smoothly handled in the event of a failure or congestion of traffic at the exchange belonging to the group 20. Exchanges belonging to one group 20 have relay trunks that can route traffic to each other, and if there is no available spare trunk trunk from one exchange to another, the traffic destined for another exchange is switched to another. Bypass through to route. For example, when a failure occurs in the gateway exchange 22a, the routing control server 30 does not pass traffic destined for the mobile communication exchange 45 occurring in the mobile exchange 21a without passing through the gateway exchange 22a. To route to the mobile communication switch 45 via the gateway switch 22b, and route traffic through the gateway switch 22b to the mobile switch 45 generated in the mobile switch 21a. In this case, when a situation in which the relay trunk is insufficient for routing to the gateway exchange 22b in the mobile communication exchange 21a occurs, the routing control server 30 sends the corresponding traffic generated in the mobile communication exchange 21a to the mobile communication exchange 21a. Remote command to route to the gateway exchange 22b by bypassing via 21n. In this way, the routing control server 30 causes a failure or congestion of traffic at the exchange belonging to the group 20. In this case, the remote command is transmitted to the exchange of the group 20 so as to smoothly route traffic. In addition, although FIG. 1 shows that the group 20 includes a plurality of mobile communication exchangers 21a to 21n and two gateway exchangers 22a and 22b, this is for convenience of description and is not limited thereto. Group 20 also includes two or more more gateway exchanges.

Meanwhile, as shown in FIG. 2, the routing control server 30 includes a gateway exchange registration database (Data Base) 31, a member exchange registration DB 32, an exchange DB registration unit 33, a network matching unit 34, and an exchanger. The routing control unit 35 includes. The gateway exchange registration DB 31 stores and stores the information of the gateway exchanges belonging to each group 20 for retrieval by group under the control of the exchange DB registration unit 33, and stores the information of the gateway exchanges. It is provided to the routing control unit 35. Then, the member exchange registration DB 32 stores the information of the mobile communication exchanges 21a to 21n belonging to each group 20 under the control of the exchange DB registration unit 33 so as to identify and retrieve the information for each group. It provides the switch routing control unit 35 with information of the mobile communication exchanges belonging to the group. In addition, the exchange DB registrar 33 is responsible for the registration and storage of the exchange information for the gateway exchange registration DB 31 and the member exchange registration DB 32. The network matching unit 34 performs a function of matching to communicate with the external network to be connected. The network matching unit 34 receives the exchange information transmitted from the external computer 50 connected through the Internet to the exchange DB registration unit 33. Under the control of the exchange routing control unit 35, the mobile communication switch 21a and the communication switch 21a to 21n belonging to each group 20 of the mobile communication network and the gateway switch 22a and 22b are connected to each other. 21n) and the traffic processing status information of the gateway exchanges 22a and 22b are collected and transmitted to the exchange routing control unit 35, and the remote command applied from the exchange routing control unit 35 is included in the mobile communication belonging to the group 20. Transmission to the exchanges 21a to 21n and the gateway exchanges 22a and 22b enables remote control of traffic routing. In addition, the exchange routing control unit 35 remotely monitors the traffic situation of the exchanges belonging to each group 20 based on the group affiliated exchange information stored in the gateway exchange registration DB 31 and the member exchange registration DB 32. To remotely command traffic routing of exchanges belonging to each group 20.

As described above, the routing control server 30 holds information on the exchanges belonging to the group 20, and communicates with the exchanges belonging to the group 20 to monitor the traffic state of the exchanges. In the event of a failure or congestion of traffic at one of the groups 20, there is an exchange where the traffic occupancy rate reaches a certain threshold (eg 100%) by checking the traffic occupancy rate of the other bypass route. If there is an exchange where the traffic occupancy rate reaches a certain threshold, remote congestion is directed to bypass some traffic toward the exchange with the lowest bypass route occupancy rate among the remaining exchanges, thereby quickly eliminating traffic congestion in case of an exchange failure. In addition, after the routing control server 30 performs the traffic bypass processing in the same group 20, there is another exchange where the bypass route share reaches 100%, and all the bypass routes of the remaining exchanges are also present. When the free relay trunk resources are less than the threshold (5%), the number of free relay trunks of the bypass route held by the remaining exchanges is remotely investigated, and the bypass is proportional to the number of free relay trunks for each remaining exchange. When a traffic loss occurs due to a lack of room in the traffic processing to a specific exchange belonging to the same group 20 by remote command to redirect the traffic of the exchange having the root share reached 100% to each other exchange. The incidence of the corresponding traffic loss is distributed to other exchanges in the same group 20, so that the same species of exchanges in the same group Use the root of the resource as efficiently as possible and to minimize the East hayeoseo one exchange that occurs throughout a call connection failure of the group.

The switching period routing adjustment system according to the present invention having the function as described above, when adjusting the traffic routing of the switching period belonging to the groups 20 existing in the mobile communication network as shown in FIG. Process.

First, the operator is connected to the routing control server 30 via the Internet using an external computer 50, but communication connection through the network matching unit 34 of the routing control server 30 belongs to the group 20 Register the exchange, the information of the mobile communication exchange (21a ~ 21n) and gateway exchanges (22a, 22b) belonging to the group 20 to the routing control server 30, the routing control server 30 The exchange DB registration unit 33 registers and stores the information of the gateway exchanges 22a and 22b in the gateway exchange registration DB 31 and registers and stores the information of the mobile communication exchanges 21a to 21n in the member exchange registration DB 32. , Belonging to groups 20, register and store the exchangers in the routing control server 30 (step S11). In addition, the routing control server 30 maintains a real-time communication connection remotely to the mobile communication exchange (21a ~ 21n) and gateway exchange (22a, 22b) belonging to the group 20, but the communication connection through the network matching unit 34 Hold (step S12).

In this way, while the routing control server 30 maintains the communication connection to the mobile communication exchangers 21a to 21n and the gateway exchanges 22a and 22b belonging to the group 20, the routing control server 30 periodically belongs to the group 20. By checking the status of the exchanges (step S13), it is determined whether a failure has occurred during the gateway exchanges 22a and 22b belonging to the group 20, and an alarm message generated from the gateway exchange and the corresponding gateway Remote monitoring is performed through a danger alarm message common to the mobile communication switch connected to the switch to determine whether a failure has occurred at the gateway switch (step S14). At this time, when the routing control server 30 determines that a failure has occurred in the gateway exchange 22a belonging to the group 20, the failures in the mobile communication exchanges 21a through 21n belonging to the group 20 may occur. The traffic occupancy ratio of the bypass route to replace the route to the gateway switch 22a that occurred has been checked (step S15), and the traffic occupancy ratio of the bypass route among the mobile communication exchangers 21a to 21n belonging to the group 20 is a threshold value. It is determined by the remote monitoring of the detour route which is automatically bypassed by the automatic routing function in the mobile communication switch, and it is determined whether or not there is a mobile communication switch that has reached (for example, 100%) (step S16).

At this time, when the routing control server 30 is determined that there exists a mobile communication switch in which the traffic occupancy rate of the detour route reaches a threshold (100%) among the mobile communication exchangers 21a to 21n belonging to the group 20. In step S17, it is checked whether the traffic occupancy rate of the detour route reaches the corresponding threshold (100%) (step S17), and the mobile communication in which the traffic occupancy rate of the bypass route reaches the threshold. If there is not more than one exchange, the mobile communication exchange having the lowest bypass route occupancy rate is extracted from the remaining mobile communication exchanges that do not reach the corresponding threshold (step S18), and the traffic occupancy rate of the bypass route is the corresponding threshold (100%). Remote traffic is commanded to divert some traffic of the mobile communication exchange that has reached to the mobile communication exchange having the lowest bypass route occupancy rate (step S19). Thereafter, the routing control server 30 checks whether or not the gateway switch 22a that has failed has been repaired (step S20), and if it is confirmed that the failure of the gateway switch 22a has not been recovered, the above-described step Returning to step S15 to perform a repeating operation, and if it is confirmed that the failure of the gateway switch 22a has been recovered, returns to the above-described step S13 to perform the repeating operation.

In addition, in the above-described step S17, if the traffic occupancy rate of the detour route reaches the threshold (100%) of one or more mobile communication exchanges, the routing control server 30 of the remaining mobile communication exchanges that do not reach the corresponding thresholds. All the bypass routes also check whether the free relay trunk resource is less than the threshold (5%) (step S21), and all the bypass routes of the remaining mobile switching centers also have the free relay trunk resource below the threshold (5%). If there are not many, the operation returns to the above-described step S18 and the operation is performed. When all of the bypass routes of the remaining mobile communication exchangers also have less free trunk trunk resources below the threshold (5%), the bypass routes held by the other mobile communication exchanges are held. Remotely investigate the number of redundant relay trunks in step S22, and detour in proportion to the number of redundant relay trunks for each remaining mobile communication exchange. The material detour setting by remote command pick occupation ratio to the bypass member to move traffic from the communication switch reaches a threshold value (100%) in each of the remaining heat exchanger (step S23).

As such, the routing control server 30 holds information on the exchanges belonging to the group 20, and communicates with the exchanges belonging to the group 20 to monitor the traffic state of the exchanges, When a failure occurs in the gateway switch 22a of the group 20, by performing the operations of steps S15 to S19 described above, a detour route to the other gateway switch 22b for the mobile communication switches 21a to 21n is performed. Check the traffic occupancy rate to determine if there is a mobile switching center where the traffic occupancy rate reaches the threshold (100%). Remote command to bypass some traffic to the mobile switch which has the lowest share rate eliminates traffic congestion quickly in case of gateway switch failure.

Further, after the routing control server 30 performs the traffic bypass processing in the group 20 by performing the operations of the above steps S15 to S19, another movement in which the bypass route occupancy reaches the threshold (100%). If there is a communication exchange and all of the bypass routes of the remaining mobile communication exchanges also have less free relay trunk resources below the threshold (5%), the above-described operations of steps S22 and S23 are performed, so that the remaining mobile communication exchanges Investigate the number of free relay trunks of the bypass route in possession and remotely control the number of free relay trunks for each remaining mobile switch. By remotely instructing each switch to bypass, due to the inability to process traffic to specific exchanges belonging to the same group 20 In the event of a loss of traffic, the incidence of the corresponding traffic loss is distributed to other exchanges in the same group 20 so that the same kind of root resources of the exchanges in the same group can be used as efficiently as possible for all the exchanges in the same group. Minimize call connection failures.

The present invention is not limited to the above description, and those of ordinary skill in the art will be able to implement the present invention in various forms. Such modifications may be applied to the technical scope of the present invention. Will correspond.

The present invention can efficiently route traffic of exchangers when applied to a mobile telecommunication switching network or a wired telephone switching network. The present invention monitors traffic conditions of exchangers belonging to the same group by assigning multiple exchangers to one group in an exchange network including a plurality of exchanges, so that a failure occurs or a traffic congestion occurs among the exchanges of the same group. By congesting and routing traffic to other exchanges in the same group, traffic congestion can be resolved quickly, and traffic loss occurs due to the inability to process traffic to specific exchanges in the same group during traffic bypass processing. If possible, by allocating the incidence of the corresponding traffic loss to the exchanges in the same group, the same kind of route resources of the exchanges in the same group can be used as efficiently as possible to minimize the call connection failure occurring in all the exchanges in the same group.

1 is a view showing the configuration of the exchange period routing adjustment system according to the present invention.

Figure 2 is a diagram showing the configuration of a routing control server according to the present invention.

3 is a flowchart illustrating a routing adjustment process in an exchange period routing adjustment system according to the present invention.

Description of the Related Art [0002]

21a-21n; Mobile switching center

22a, 22b; Gateway exchange

30; Routing control server

Claims (5)

An exchange group formed by grouping a plurality of exchanges capable of establishing a communication path; Registers and holds information on the exchanges belonging to the exchange group, monitors the state of the exchanges by communicating with the exchanges belonging to the exchange group, and causes a failure or a traffic congestion during the exchange. A routing control server for remotely instructing the exchange group to route traffic to other exchanges in the exchange group, The routing control server, When a traffic loss occurs due to the lack of room for traffic to a specific exchange during the traffic bypass processing in the exchange group, the incidence of the corresponding traffic loss is distributed to other exchanges in the exchange group. Exchange period routing adjustment system. delete The method according to claim 1, The routing control server, A network matching unit for communicating with the switch group or for communicating with an external communication network; An exchange registration database (Database) for storing information of exchanges belonging to the exchange group; An exchange DB registration unit configured to register and store information of exchanges belonging to the exchange group received from the external communication network through the network matching unit in the exchange registration DB; And a switch routing controller for remotely sensing a state of the switch group through the network matching unit and transmitting a command to the switch group to remotely control traffic routing. Receiving, registering and storing information on the exchanges belonging to the group by the routing control server; Monitoring, by the routing control server, traffic conditions of the exchanges by communicating with the exchanges belonging to the group; The routing control server checks the traffic occupancy rate of another bypass route when a failure or congestion occurs in an exchange belonging to the group, and determines whether there is an exchanger whose traffic occupancy rate reaches a certain threshold. Process; If the routing control server determines that there is an exchange where the traffic occupancy rate reaches a certain threshold, remotely directing some traffic to the exchange having the lowest bypass route occupancy rate among the remaining exchanges in the group. Exchange period routing adjustment method characterized in that. 5. The method of claim 4, After the routing control server remotely directs the traffic to bypass the traffic, there is another exchange where the bypass route occupancy has reached the specified threshold, and the bypass routes of the remaining exchanges also have free relay trunk resources below a certain threshold. Confirming the smallness; Remotely examining, by the routing control server, the number of free relay trunks of the detour route held by the remaining exchanges; Remotely instructing, by the routing control server, to bypass the traffic of the exchange having the bypass route occupied a certain threshold in proportion to the number of free relay trunks held by the remaining exchanges remotely inspected, to each of the remaining exchanges; Exchange period routing adjustment method characterized in that it further comprises.

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