KR20020091586A - Method for managementing database in intelligent network system - Google Patents

Abstract

PURPOSE: A method for managing a database in an intelligent network system is provided to enhance of a performance of total system and manage great capacity of data effectively by reducing a load of a system and increasing a utilizing rate of resources. CONSTITUTION: A service managing system receives a Tel-Coin processing request command through a Tel-Coin G/W(gateway) from a Tel-Coin system(S10). The service managing system judges whether the Tel-Coin processing request command received through the Tel-Coin G/W is a Tel-Coin accumulation command or not(S20). If the Tel-Coin processing request command is a Tel-Coin accumulation command, the service managing system receives a Tel-Coin and a sequence number through the Tel-Coin G/W and stores the Tel-Coin and the sequence number in a window database(S30). The service managing system judges whether a time for storing the sequence number which is a key of the Tel-Coin as a file is reached(S40). If the time is reached, the service managing system stores the sequence number stored in the window database as a file, compresses the file, and stores the file in the database(S50).

Description

TECHNICAL FOR MANAGEMENTING DATABASE IN INTELLIGENT NETWORK SYSTEM}

The present invention relates to a method for managing a database in an intelligent network system, and more particularly, an index value that is sequentially and cyclically managed in a range of an unsigned integer type as a key. When managing the database to manage the database number in the intelligent network system that can manage the sequence number of less than a certain number in the Windows database, and if the number of the sequence number is accumulated more than a certain number, it can be stored in a file and managed as a database It is about a method.

The database management method in a conventional intelligent network system is distributed as a tel-coin (mileage concept provided to users on the Internet or off-line, or a promotional item of a company, which is earned by a tel-coin gateway of a service provider. It is a point of a card issued by a specific company, which means a unit capable of making a currency.) A sequence number that is sequentially and cyclically managed in a range of unsigned integer types to manage the database. A method of storing and managing a sequence number, which is stored through a Tel-Coin gateway, by a service management system when storing a Tuple used as a key) through a Windows database.

However, when managing the database using the conventional method as described above, the sequence number is an unsigned integer type (4 bytes; 0 to 4,294,967,296), and the data amount of tuples for one sequence number is at least 4 bytes (unverified). Assuming the integer type (4 bytes) + tel-coin value (2 bytes), the minimum total storage is about 17 Giga bytes (4,294,967,296 * 4 bytes), which takes up too much capacity when used with many other services. In addition, there is a problem that a very large overhead occurs even in a single query for such data, thereby reducing the performance of the system and the utilization of resources in processing a large amount of accumulated requests There was a problem of deterioration.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to reduce the load on the system and increase the utilization of resources to improve the performance of the entire system and to efficiently manage a large amount of data. To provide a database management method in an intelligent network system to make it possible.

In order to achieve the above object, a database management method of an intelligent network system of the present invention is a database management method of an intelligent network system having a tel-coin system, a tel-coin G / W, a service management system, and a database. To

A tenth step in which the service management system receives a tel-coin processing request command from the tel-coin system through tel-coin G / W;

A twenty step of the service management system determining whether a tel-coin processing request command received through the tel-coin G / W is a tel-coin earning command;

If the tel-coin processing request instruction is a tel-coin earning instruction in step 20, the service management system receives tel-coin and sequence number through the tel-coin G / W and at the same time the tel-coin and sequence A thirtieth step of storing the number in a window database;

A step 40 for determining whether the service management system reaches a time when the sequence number, which is a key of the telcoin, is stored as a file; And

If the time is not to store the sequence number as a file in step 40, the process proceeds to the thirtieth step, and if the time is to store the sequence number as a file, the service management system stores the sequence number stored in the window database as a file and After compressing the file, characterized in that the 50th step of storing in the database.

1 is a functional block diagram showing the configuration of a database management apparatus in an intelligent network system according to an embodiment of the present invention;

2 is an operation flowchart showing a database management method in an intelligent network system according to an embodiment of the present invention;

3 is an operation flowchart showing in more detail the operation of step 50 (S50) of the database management method in the intelligent network system according to FIG.

FIG. 4 is a flowchart illustrating an operation process of step 60 of the database management method in the intelligent network system according to FIG. 2 in more detail.

<Explanation of symbols for the main parts of the drawings>

100: Tel-coin system 200: Tel-coin G / W

300: service management system 400: database

Hereinafter, a method of managing a database in an intelligent network system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of a database management device in an intelligent network system according to an embodiment of the present invention, the database management device in an intelligent network system according to an embodiment of the present invention is Tel-Coin (Tel-Coin) System 100, Tel-Coin G / W (Gate Way; hereinafter referred to as G / W) 200, Service Management System (Service Management System) 300, and Database (400) It is.

The tel-coin system 100 outputs tel-coin and the corresponding sequence number generated as a system provided by a service provider to the tel-coin G / W 200, and sends a tel-coin processing request command. It outputs to the service management system 300 through the Tel-coin G / W (200).

Also, the telcoin G / W 200 receives telcoin, sequence number, and telcoin processing request command from the telcoin system 100, and simultaneously telcoin, sequence number, and It serves to output a Tel-coin processing request command to the service management system 300.

The service management system 300 receives a tel-coin, a sequence number, and a tel-coin processing request command from the tel-coin G / W 200, and the tel-coin processing request command accumulates tel-coin. Command, the sequence number is stored in a Windows database, and when it is time to save it as a file, the sequence number is stored as a file, and if the tel-coin processing request command is a tel-coin search command, the corresponding file is recalled. After reading from the database 400, it plays a role of outputting the tel-coin stored in the file to the operator.

In addition, the database 400 receives and stores a file in which the sequence number is stored from the service management system 300, and outputs the stored file to the service management system 300 when searching.

Next, a method of managing a database in an intelligent network system according to an embodiment of the present invention using a database management apparatus in an intelligent network system having the above configuration will be described.

2 is an operation flowchart showing a database management method in an intelligent network system according to an embodiment of the present invention.

First, the service management system 300 receives a tel-coin processing request command from the tel-coin system 100 through the tel-coin G / W (200) (S10).

Thereafter, the service management system 300 determines whether the telcoin processing request command received through the telcoin G / W 200 is a telcoin earning instruction (S20).

In this case, if the tel-coin processing request command is a tel-coin earning command in the twentieth step (S20), the service management system 300 uses the tel-coin G / W 200 and the sequence number. At the same time, the tel-coin and the sequence number are stored in the window database (S30).

Subsequently, the service management system 300 determines whether it is time to store a sequence number, which is a key of tel-coin, as a file (S40).

Here, the time to save the sequence number as a file means when the date is changed or when the storage of the sequence number reaches a threshold value in the range of the window database, and the condition at the time of saving to the file according to the operating conditions to the operator. This may be changed.

At this time, if it is not the time to store the sequence number as a file in the 40th step (S40), the process proceeds to the thirtieth step (S30), and if the time is to save the sequence number as a file, the service management system 300 is a window database. The sequence number stored in the file is stored in the database 400 at the same time as the file is compressed (S50).

Here, the operation of the 50 th step S50 will be described in more detail with reference to FIG. 3.

First, the service management system 300 determines whether there is a file to store the first sequence number among the sequence numbers stored in the window database (S51).

At this time, if there is a file to store the first sequence number in the 51 st step (S51), the service management system 300 reads the file to store the first sequence number from the database 400 (S52).

Subsequently, the service management system 300 decompresses the read file and simultaneously opens the file (S53).

Thereafter, the service management system 300 moves the offset position of the file to a position where the first sequence number can be stored (S54).

Subsequently, the service management system 300 reads the sequence number stored in the Windows database as much as the remaining storage capacity of the opened file and overwrites the opened file (S55).

Thereafter, the service management system 300 compresses the file in which the sequence number is stored and simultaneously stores the compressed file in the database 400 (S56).

Subsequently, the service management system 300 determines whether a sequence number to be stored in the window database remains (S57).

In this case, if there is no sequence number to be stored in the 57 th step S57, the process proceeds to the thirtieth step S30. If the sequence number to be stored remains, the service management system 300 performs the 51 st step S51. Proceeds to sequentially performing the above-described operation process (S58).

On the other hand, if there is no file to store the first sequence number in the 51st step (S51), the service management system 300 creates a new file and then reads and stores the sequence number stored in the window database and simultaneously stores the sequence number. After the new file is stored, the number is stored and stored in the database 400 (S59).

In addition, if the tel-coin processing request command is a tel-coin search command instead of a tel-coin earning command in step 20, the service management system 300 searches for tel-coin from the database 400. After reading the corresponding file corresponding to the command, the corresponding file is searched and the corresponding result value is output (S60).

In this case, the operation process of the 60th step S60 will be described in more detail with reference to FIG. 4 as follows.

First, the service management system 300 determines whether a corresponding file corresponding to a tel-coin search command exists in the database 400 (S61).

In this case, if there is a corresponding file corresponding to the tel-coin search command in the 61st step (S61), the service management system 300 reads the corresponding file from the database 400 and decompresses the file. Open the file (S62).

Thereafter, the service management system 300 searches for the sequence number of the corresponding open file and outputs the corresponding result value through the window (S63).

Subsequently, the service management system 300 compresses the corresponding file used for the search and stores it in the database 400 (S64).

At this time, if there is no corresponding file corresponding to the tel-coin search command in the 61st step (S61), the service management system 300 generates an error signal (S65).

As described above, according to the method for managing a database in an intelligent network system according to the present invention, an index value that is sequentially and cyclically managed in a range of an unsigned integer type is used as a key. When managing the database to manage the sequence number of less than a certain number in the Windows database, if the number of the sequence number is accumulated more than a certain number is stored in a file, it is possible to save and compress the data after storing a large amount of data files Not only can be compressed and managed efficiently, but it can also increase the efficient management of large amounts of data, thereby reducing the load on the system and increasing the utilization of resources. have.

In addition, the retrieval of data limited to the data of the window database can be extended even when retrieving the data for the sequence number.

Claims (6)

A database management method in an intelligent network system having a tel-coin system, a tel-coin G / W, a service management system, and a database, A tenth step in which the service management system receives a tel-coin processing request command from the tel-coin system through tel-coin G / W; A twenty step of the service management system determining whether a tel-coin processing request command received through the tel-coin G / W is a tel-coin earning command; If the tel-coin processing request instruction is a tel-coin earning instruction in step 20, the service management system receives tel-coin and sequence number through the tel-coin G / W and at the same time the tel-coin and sequence A thirtieth step of storing the number in a window database; A step 40 for determining whether the service management system reaches a time when the sequence number, which is a key of the telcoin, is stored as a file; And If the time is not to store the sequence number as a file in step 40, the process proceeds to the thirtieth step, and if the time is to store the sequence number as a file, the service management system stores the sequence number stored in the window database as a file and And a fifty-stage step of compressing a file and storing it in the database. The method of claim 1, If the tel-coin processing request command is a tel-coin search command instead of a tel-coin earning command in step 20, the service management system reads the corresponding file corresponding to the tel-coin search command from the database, and then And a sixty step of searching for the file and outputting a corresponding result value. The method of claim 1, The fifty-seventh step may include: determining, by the service management system, whether there is a file for storing a first sequence number among sequence numbers stored in a window database; If there is a file to store the first sequence number in the 51 st step, the service management system reading a file from the database to store the first sequence number; A fifty-third step of decompressing a file read by the service management system and opening the file; A 54th step of the service management system moving the offset position of the file to a position where the first sequence number can be stored; A 55th step in which the service management system reads the sequence number stored in the window database as much as the remaining storage capacity of the opened file and overwrites the opened file; A 56th step in which the service management system compresses a file storing a sequence number and stores the compressed file in the database; A 57 step of the service management system determining whether a sequence number to be stored in a window database remains; And If there is no sequence number to be stored in step 57, the process proceeds to the thirtieth step. If the sequence number to be stored remains, the service management system proceeds to step 51 and performs the above-described operation process. Database management method in the intelligent network system, characterized in that made. The method of claim 3, wherein If there is no file to store the first sequence number in step 51, the service management system creates a new file, reads and stores the sequence number stored in the window database, and simultaneously compresses a new file in which the sequence number is stored. And a twenty-ninth step of storing the data in the database. The method of claim 2, In step 60, the service management system determines whether or not a corresponding file corresponding to a tel-coin search command exists in the database; Step 62, if the corresponding file corresponding to the tel-coin search command is found in step 61, the service management system reads the file from the database, decompresses the file, and opens the file; Step 63, by the service management system searching for a sequence number of the corresponding file opened and outputting a corresponding result value through a window; And And a sixty-sixth step in which the service management system compresses the corresponding file used for the search and stores it in the database. The method of claim 5, And if there is no corresponding file corresponding to the tel-coin search command in the 61st step, the service management system further includes a 65th step of generating an error signal.