KR20090076472A - Method and apparatus for minimizing call failure in call processing module - Google Patents

Abstract

A method for reducing call failure in a call processing module and a device therefor are provided to designate a target board for version exchange of a packet as a standby board, to minimize re-driving of an active board, thereby preventing data loss. A package is copied to boards existing in a call processing(303). The boards are divided into a standby board that does not perform a service and an active board which performs a service(305). A priority of package loading is assigned to the standby board. A package of the standby board is loaded(317). After the package of the standby board is loaded, a package of the active board is loaded. When the package of the active board is loaded, a service of the active board is converted into a service of the standby board.

Description

METHOD AND APPARATUS FOR MINIMIZING CALL FAILURE IN CALL PROCESSING MODULE}

The present invention is directed to a method and apparatus that can minimize call failures that may occur when replacing a package version in a call processing module. Since the call processing module first determines a board that loads a package when a package version is changed, when the board loading the package is a board that is in service, there is a problem in that data is lost during the restart of the call processing module.

In addition, the board in charge of the call processing service is required to install a new package directly on the target board without any special preparation, which causes failure of some outstanding calls received from the call distribution board. Even when starting a service with a new package, the new call is received and interworked with network resources without interworking with external network resources such as subscriber server and external network resources such as subscriber server without considering the start order for call service applications. Call failure occurs until The present invention relates to a method and apparatus for minimizing call processing failure in the call processing module to solve such a problem.

With the recent rapid development of communication technology, communication equipment to which mobile communication is applied can be easily seen anywhere. Among them, in the communication equipment, users such as subscribing telephone / subscribing telegraph occupy the communication facility for the purpose of communication, and communication of terminal through base station, control station and switching station so that subscriber can communicate through mobile communication network. There is a call processing module that controls the operation related to the call processing for realizing this.

The call processing module is an important factor in determining the call quality of the mobile communication service, and a method of minimizing the failure of call processing, which is a problem of the prior art, is required.

1 is a diagram showing the contents of the prior art of the package version replacement of the call processing module. In the following description, the call processing module is meant to include devices capable of call processing, such as an automatic teller machine (ATM) exchange, a base station, an internet exchange, and the like. The following description will be described with the general configuration of the above examples.

According to FIG. 1, the call processing module proceeds to step 101, and a package dump is performed from the outside. The dump of the package in the above process means that the module receives the package. The call processing module then proceeds to step 103 to copy the package to all boards. After that, the call processing module proceeds to step 105 to classify the even-numbered boards among the boards to which the package is copied. The call processing module then moves to step 107 to designate the even-numbered board as a target board. In the above process, the target board refers to a board for preferentially loading a package, and a board designated as a target has priority in loading a new package. The call processing module then moves to step 109 to load a new package onto the target board. In the above process, the package copy means that the board holds the package, and the package load refers to applying the retained package to the board to perform version replacement. The call processing module then moves to step 111 to switch service to the target board on which the new package is loaded. The call processing module then moves to step 113 to load a package onto the remaining board on which the new package is not loaded.

In such a case, the call processing module designates an even board as a target board regardless of whether the service is performed, loads a new package on the target board, and then switches the service to the target board. This is likely to cause loss of data if the board loading the new package is in service, and there is a problem in that call processing fails if an unprocessed call is received at the target board. In addition, if the target board is operated while not interworking with an external device, the call processing will fail until interworking with the external device. Accordingly, what is needed is a method and apparatus for minimizing the failure of call processing in the call processing module.

The present invention was derived to solve the above problems, and an object of the present invention is to provide a method and apparatus for preventing data loss due to restart of an active board when the redundant board is replaced in a call processing module. .

Another object of the present invention as described above is to provide a method and apparatus for preventing call distribution from failing when installing a new package on a call processing board in a call processing module.

Another object of the present invention is to provide an apparatus, method, and apparatus for preventing a call failure due to the start of operation prior to external interworking when initiating operation in the call processing module.

According to a first aspect of the present invention for achieving the above objects, a method for reducing call failure in a call processing module includes the steps of copying a package to a board present in the call processing module, performing a service among the boards, Classifying a standby board that is not in standby, an active board that performs a service, and assigning a priority to package loading to the standby board, and then loading a package of the standby board.

According to a second aspect of the present invention for achieving the above objects, an apparatus for reducing call failure in a call processing module copies a package to a board existing in the call processing module and does not perform a service among the boards. And a system management board which classifies a standby board which is not in a standby state and an active board which performs a service, gives priority to package loading to the standby board, and instructs loading of a package of the standby board. do.

As described above, the present invention can designate a target board for a version replacement of a package in a call processing module as a standby board, thereby minimizing restart of the active board, thereby preventing data loss. In addition, the call processing target board in which the new package is to be installed is added to prohibit call distribution in advance so that there is no call failure caused by the external equipment unprocessed call, and the application that is in charge of interworking with the surrounding equipment when switching to a new package. This adds an order to start the service first so that call failures due to non-interworking external devices are minimized.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, a method and apparatus for minimizing call failure when replacing a package version in a call processing module will be described.

The board defined in the following text refers to a board group, which refers to a board having a quantity of two or more sheets, a standby board refers to a standby board which is not currently being serviced, and an active board refers to a board currently being serviced. .

2 is a diagram illustrating the structure of an apparatus for minimizing call failure when replacing a package version of a call processing module. According to FIG. 2, the system management board 200 controls the overall operation of the call processing module. For example, processing and control related to call control are performed, and according to the present invention, a standby board in service standby state is classified among boards in which a package has been copied, and a process of first loading a package of the standby board is performed. In addition, the system management board 200 switches the service of the active board performing the service to the standby board and loads the package of the active board. Therefore, in the following description, the description about the process and control of the said system management board 200 which is normal is abbreviate | omitted.

The external communication board 201 interworks with the call processing module with an external device to receive data from the outside and to transmit the internal data to the external device.

The call processing board 202 serves to process a call by receiving a call from the call distribution board 203.

The call distribution board 203 serves to distribute the incoming call received by the system management board 200 to the call processing board 202 evenly.

The billing data board 204 plays a role in managing the usage fee of the resource or reviewing an appropriate usage method based on the use status of the file resource in which the resource used in the individual task is stored.

The role of the call distribution board 203 may be performed by the system management board 200 of the call processing module. However, in the present invention, the configuration of the call distribution board 203 is merely an exemplary configuration for convenience of description and never disclosed herein. It is not intended to limit the scope of the skilled person will appreciate that various modifications are possible within the scope of the present invention. For example, all of them may be configured to be processed by the system management board 200.

3 illustrates a method for minimizing call failure when replacing a package version of a call processing module. According to FIG. 3, the system management board 200 proceeds to step 301 and package dumping is performed from the outside. Dumping a package in the above process means receiving a package from a module. Thereafter, the system management board 200 proceeds to step 303 to copy the package to each board and proceeds to step 305 to classify the standby board currently waiting for service. In step 307, the system management board 200 designates the classified standby board as a target board, and in the process, the target board refers to a board for preferentially loading a package, and a board designated as a target is a new board. Take priority over package loading. The reason for classifying the standby board in this process is to select a board that does not perform service and to prevent the call processing from failing because the board being used is restarted.

In step 309, the system management board 200 causes the call distribution board to prohibit call distribution to the target board. The reason for prohibiting call distribution to the target board in the process is that if the package is loaded on the board, the loading is terminated and restarted. If a call is allocated to the target board, call processing fails. This is to prevent this.

Thereafter, the system management board 200 proceeds to step 311 to load a new package on the target board. In the above process, copying a package refers to holding a package, and loading a package refers to applying the retained package. Thereafter, the system management board 200 proceeds to step 313 to check whether the external communication board 201 is in service.

If the external communication board 201 is not in service, step 313 is repeated until the external communication board 201 starts service. On the other hand, if the external communication board 201 is in service, the system management board 200 proceeds to step 315 to switch the service to the target board. In operation 317, the system management board 200 loads the package on the remaining board.

4 is a diagram illustrating a process of preferentially loading a standby board in a method for minimizing call failure when replacing a package version of a call processing module.

4 (a) shows a board of a call processing module.

Referring to FIG. 4A, the call processing module may include a plurality of boards such as A, B, C, D, E, and F. The boards are generally system management boards and call processing. Commonly applicable to boards, call distribution boards, external communication boards, and billing data boards. The shaded B and D boards of FIG. 4 (a) represent standby boards, and the remaining unprocessed boards of A, C, E, and F are classified as remaining boards.

Fig. 4B shows a call processing module classified by the system management module.

Referring to FIG. 4 (b), since the boards of B and D are standby boards, they are separately classified and designated as target boards, and the target boards have priority in loading a new package. On the other hand, since A, C, E, and F boards are not standby boards, they are classified as remaining boards and are not given priority, and are designated as next ranks. After that, the board designated as the target board and given priority is loaded with the new package first. When loading is complete and the service is started on the target board, the new package is loaded on the remaining remaining boards.

1 is a flow diagram illustrating the prior art contents of package version replacement of a call processing module.

2 is a device diagram illustrating a structure of a device for minimizing call failure when replacing a package version of a call processing module.

3 is a flow diagram illustrating a method for minimizing call failure when replacing a package version of a call processing module.

Claims (10)

In a method for reducing call failure in a call processing module, Copying the package to a board present in the call processing module; Classifying a standby standby board not performing a service among the boards and an active board performing a service; And assigning a priority of package loading to the standby board, and then loading a package of the standby board. The method of claim 1, To reduce call failures in the call processing module, After loading the package of the standby board, loading the package of the active board. The method of claim 2, Loading the package of the active board, And performing service after switching the service of the active board to the service of the standby board. The method of claim 1, Method for reducing call failure in the call processing module, And disabling call distribution to the standby board before loading the classified standby boards. The method of claim 3, wherein The process of switching the service of the active board to the service of the standby board, A method for performing an operation after an external communication board in charge of interworking with an external device starts a service. An apparatus for reducing call failure in a call processing module, Copy the package to a board existing in the call processing module, classify standby boards not in service and active boards in service among the boards, and prioritize the loading of packages to the standby boards. And a system management board instructing to load the package of the standby board. The method of claim 6, System management board, And after loading the package of the standby board, processing to load the package of the active board. The method of claim 7, wherein System management board, And loading a package of the active board after switching a service of the active board to a service of the standby board. The method of claim 6, System management board, The apparatus for reducing call failure in the call processing module, characterized in that the process of not performing a call distribution to the standby board before the package loading of the classified standby board. The method of claim 8, System management board, And converting a service of the active board into a service of the standby board after the external communication board in charge of interworking with an external device starts service.

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