KR100589942B1 - System and Method for Correcting Packet Sequence Number of Asynchronous IMT-2000 Network - Google Patents

Abstract

The present invention relates to a system and method for correcting a packet sequence number in an asynchronous IMT-2000 network to correct charging when a sequence error of charging data is processed. The GRS (GPRS Support Node) is a charging data (CDR). ) And transmits the generated billing data (CDR) to the billing gateway with sequence number information attached thereto, wherein the billing gateway is connected to the control unit for operation control and the GSN and receives the billing data. The billing gateway server includes a connection part, a second network connection part for connecting with the billing server for delivering billing data, and a data buffer part for buffering the billing data, wherein the controller is received according to sequence number information of the billing data. Determine the normal order of billing data and transfer billing data to billing server according to the result By or request restarts the charging data to the GSN, even if the GSN and the charging gateway (CG) error of the sequence numbers of the works during charging data package with the generated it is possible to compensate the effect of preventing the loss of the charging data.

Description

System and Method for Correcting Packet Sequence Number of Asynchronous IMT-2000 Network in Asynchronous IMT-2000 Network

1 is a block diagram illustrating a configuration of an asynchronous IMT-2000 network to which a packet sequence number correction system according to the present invention is applied;

2 is a block diagram illustrating a configuration of a charging gateway according to the present invention;

3 is a block diagram illustrating a configuration of a charging gateway server according to the present invention;

4A and 4B are flow charts for explaining the start of a packet sequence of charging data according to the present invention;

5 is a flowchart for explaining a process of transmitting charging data according to the present invention;

6 is a flowchart of an embodiment for explaining a redundant data processing process of billing data according to the present invention;

7 is a flowchart of another embodiment for explaining a process of processing duplicate data of billing data according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: mobile terminal 110: node B

120: RNC 130: SGSN

140: GGSN 150: HLR

160: WAPG 170: CP

200: CG 300: BS

The present invention relates to a packet sequence number correction system and method in an asynchronous IMT-2000 network.

Today, mobile communication networks provide not only voice calls but also data communication and wireless Internet. When a mobile terminal is connected to a mobile communication network, billing is performed according to the contents used by the user.

In particular, the asynchronous IMT-2000 network includes a Serving GPRS Support Node (SGSN) called a data communication service node and a Gateway GPRS Support Node (GGSN) called a data service gateway node, and provides GPRS data services. When the asynchronous IMT-2000 network provides a service to a mobile terminal, the SGSN and the GGSN (hereinafter, referred to as 'GSN (GPRS Support Node)') may generate charging data, respectively. The billing data generated by the GSN is transmitted to the billing system of the mobile communication network through a separate server, and the billing system bills the user.

The GSN is generated in the form of packet data at the time of generation of billing data (CDR), and the generated packet data is numbered according to the generated order and transmitted to the billing system. Accordingly, the billing system receives the CDR packet data and performs billing.

The CDR packet data is transmitted in sequence, that is, according to the sequence, and the charging is performed by combining according to the sequence. Partial sequence packet data of the sequence cannot be normally transmitted to the billing system due to a system failure or a circuit failure. In this case, there was a problem in that charging for the user was not made or data was not processed normally.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide a system and method for correcting a packet sequence number in an asynchronous IMT-2000 network to allow billing data to be processed normally by correcting it when a sequence error occurs. It is.

A packet sequence number correction system in an asynchronous IMT-2000 network according to the present invention for achieving the above object is a wireless station for performing wireless communication with a mobile terminal, a wireless international controller for controlling the wireless station, and connected to the wireless international controller. And a billing gateway configured to exchange GPRS packet calls and a billing gateway connected to the GSN to collect billing data and transmit the billing data to a billing server, wherein the GSN is billing data. And generate the charge data (CDR) and attach the sequence number information to the charge gateway, wherein the charge gateway is connected to a control unit for operation control and the GSN to receive the charge data. A first network connection unit, a second network connection unit for connecting with the charging server to transfer charging data, and the charging And a billing gateway server including a data buffer unit for buffering data, wherein the controller determines a normal order of billing data received according to sequence number information of the billing data and transmits billing data to the billing server according to the result. Or re-request the billing data with the GSN.

In addition, the packet sequence number correction method in the asynchronous IMT-2000 network, a) setting the sequence start number of the billing data to be transmitted and received between the GSN and the billing gateway; b) the charging gateway receiving the charging data generated in the GSN according to the sequence number; And c) the charging gateway determines the normal order of the charging data received according to the sequence number information of the charging data, and transmits the charging data to the charging server or re-requests the corresponding charging data to the GSN according to the result. Characterized in that it comprises a step.

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

1 is a block diagram illustrating a configuration of an asynchronous IMT-2000 network to which a packet sequence number correction system according to the present invention is applied.

Referring to FIG. 1, an asynchronous IMT-2000 network to which a packet sequence number correction system is applied includes a node B 110 that performs wireless communication with a mobile terminal 10, and controls the station 110. A radio international flag (hereinafter referred to as 'RNC') 120 is included. The RNC 120 is connected to an MSC (not shown) for performing circuit call exchange and a Serving GPRS Support Node (SGSN) 130 for exchanging a GPRS packet call, and the Gateway GPRS Support is connected to the SGSN 140. Node 170 is connected.

In addition, the asynchronous IMT-2000 network according to the present invention includes a home location register (hereinafter referred to as a 'HLR') 150 for managing subscriber information and mobility. It is connected with the SGSN 130 and the GGSN 140.

The GGSN 140 is connected to a plurality of content providers (hereinafter referred to as 'CP') 170 and a swap gateway (hereinafter referred to as 'WAPG') 160 which controls delivery of packet data, and the GGSN 140 is connected to the GGSN 140. ) Controls transmission and reception of packet data between the mobile terminal 10 and the CP 170 or the Internet 180 connection of the mobile terminal 10 through the WAPG 160.

On the other hand, a billing gateway (hereinafter referred to as 'CG') 200 is connected to the SGSN 130 and the GGSN 140, and a billing server (hereinafter referred to as 'BS') 300 is connected to the CG 200. It is connected.

In the present embodiment, the SGSN 130 and the GGSN 140 are collectively referred to as a GRS (GPRS Support Node). The mobile terminal 10 generates a charging data (CDR) as the mobile terminal 10 uses a communication network, and generates the charging data. (CDR) is transmitted to the CG 200. The CG 200 transmits the billing data (CDR) transmitted from the GSN to the BS 300 so that the billing is made.

The GSN transmits an Echo Request message to the CG 200 at startup or when receiving a sequence number request message from the CG 200. In this case, the transmitted echo request message includes sequence number information indicating the order of billing data to be transmitted later.

2 is a block diagram illustrating a configuration of a charging gateway according to the present invention, and FIG. 3 is a block diagram illustrating a configuration of a charging gateway server according to the present invention.

The billing gateway 200 according to the present invention includes n (n is a natural number) billing gateway servers CG # 1, CG # 2, ..., CG # n, and a backup server (CGB) for backup. It has a configuration of n + 1.

The charging gateway server includes a control unit 210 for controlling the overall operation, a first network connection unit 221 for connecting with the GSN, a second network connection unit 222 for connecting with the BS 300, and charging And a data buffer unit 230 for buffering the data CDR.

The CG 200 transmits to the GSN a node alive request message indicating the activation state at startup, and when receiving an echo request message from the GSN, transmits a message including information of a request sequence number including corresponding sequence information to the GSN. do.

4A is a flow chart for explaining the start of a packet sequence of charging data according to the present invention. The flowchart shown in FIG. 4A is when the GSN is activated first, and the GSN includes an SGSN 130 and a GGSN 140.

After starting, the GSN transmits an echo request message including the sequence start number of the charging data to the CG 200 (S10). At this time, the CG 200 transmits a node alive request message indicating the completion of startup after startup to the GSN (S21).

After receiving the echo request message in step S10, the CG sets the sequence start number and transmits the response message to the GSN (S22). The GSN receives the node alive message in step S21 and transmits the node alive response message to the CG 200 (S30).

The GSN attaches the sequence number to the charging data (CDR) and transmits it to the CG 200 (S41). Accordingly, the CG 200 receives the charging data and transmits the response to the GSN (S42).

4B is a flow chart for explaining the start of a packet sequence of charging data according to the present invention. The flowchart shown in FIG. 4B is when the CG is activated first, and the GSN includes the SGSN 130 and the GGSN 140.

The CG 200 transmits a node alive request message indicating the completion of startup after startup to the GSN (S101). Accordingly, the GSN confirms the activation of the CG 200 by receiving the node alive message in step S101 and transmits the node alive response message to the CG 200 (S102).

The GSN transmits an echo request message including the sequence start number of the charging data to the CG 200 (S111).

The CG sets the sequence start number after receiving the echo request message in step S111 and transmits the response message to the GSN (S112).

Then, the GSN attaches the sequence number to the charging data (CDR) and transmits it to the CG 200 (S121). Accordingly, the CG 200 receives the charging data and transmits the response to the GSN (S122).

As described above with reference to FIGS. 4A and 4B, the sequence start number is set according to the activation of the GSN and the CG 200, and the transmission of the charging data (CDR) is started. The process is as follows.

5 is a flowchart for explaining a process of transmitting charging data according to the present invention.

Referring to FIG. 5, the GSN attaches the sequence number to the charging data and transmits it to the CG 200 (S210). Accordingly, the CG 200 receives data from the GSN and checks whether the attached sequence information is sequential with respect to the previous information (S220).

If it is determined in step S220 that the sequence information is not normal, the CG 200 includes the sequence request information in the response message and transmits it to the GSN (S231). The GSN receives the response message from the CG 200 in step S231 and determines whether there is information of the sequence, that is, charging data of the sequence (S240), and transmits the data to the CG 200 if the data exists. (S241).

However, if it is determined in step S240 that the data does not exist, the GSN forcibly corrects the sequence number (S250) and transmits an echo request message including the corrected sequence information to the CG 200 (S261). The CG 200 receives the echo request message from the GSN, sets the sequence of the current billing data according to the included sequence information, and transmits the response message to the GSN (S262).

Accordingly, sequence information for determining the order of billing data transmitted and received between the GSN and the CG 200 may be matched.

Hereinafter, a method of processing data when a response message is not received from the CG 200 after the GSN transmits the charging data will be described.

6 is a flowchart illustrating a process of processing duplicate data of billing data according to the present invention.

Referring to FIG. 6, the GSN transmits billing data including sequence number information to the billing gateway server CG # 1 (S311). The charging gateway server CG # 1 receives and stores the charging data (S312), transmits the charging data to the BS 300, which is the charging server, and receives the response (S313).

At this time, if the GSN does not transmit a response message from the charging gateway server CG # 1 (actually, the charging data has been normally transmitted to the BS 300), the GSN knows whether the charging data transmitted in step S311 is normally transmitted. Since the billing data transmitted to the billing gateway server CG # 1 in step S311 is not stored (S320), the billing gateway server CG # 2 other than the billing gateway server CG # 1 is stored. The charging data in step S311 is duplicated and transmitted (S331). At this time, the duplicated billing data includes address information (for example, IP and PORT information) of the original billing gateway server CG # 1 and sequence information of billing data.

The charging gateway server CG # 2 stores the data received in step S331 and transmits the response message to the GSN (S333). The GSN determines the completion of transmission of the corresponding data by receiving the response message in step S333, and deletes the data stored in step S320 (S340).

During the above process, if the charging gateway server CG # 1 restarts and transmits the node alive request message to the GSN (S351), the GSN transmits the node alive request response message to the charging gateway server CG # 1. (S352).

In operation S361, the GSN transmits a data transmission request message including duplicate data information to the charging gateway server CG # 1. In this case, since the charging gateway server CG # 1 normally receives the charging data in step S311 and transmits the charging data to the BS 300, the charging gateway server CG # 1 transmits a response message including the existence information of the corresponding charging data to the GSN (S362).

Accordingly, after receiving the response message in step S362, the GSN transmits a message to the charging gateway server CG # 2 requesting that the duplicate data transmitted in step S331 be canceled (S371). Accordingly, the charging gateway server CG # 2 deletes the corresponding data (S372), and transmits a duplicate data cancellation request response message to the GSN (S373).

7 is a flowchart illustrating a redundant data processing process of billing data according to the present invention.

Referring to FIG. 7, the GSN transmits billing data including sequence number information to the billing gateway server CG # 1 (S411). The GSN receives the response after transmitting the charging data.

At this time, if the response message is not transmitted from the charging gateway server (CG # 1), the GSN does not know whether the charging data transmitted in the step S411 is transmitted normally, so that the transmission to the charging gateway server (CG # 1) in step S411. The charging data is stored (S420), and the charging data in the step S411 is repeatedly transmitted to the auxiliary or adjacent charging gateway server CG # 2 other than the charging gateway server CG # 1 (S431). At this time, the duplicated billing data includes address information (for example, IP and PORT information) of the original billing gateway server CG # 1 and sequence information of billing data.

The charging gateway server CG # 2 stores the data received in step S431 (S432), and transmits the response message to the GSN (S433). The GSN receives the response message in step S433 to determine the completion of transmission of the corresponding data, and deletes the data stored in step S420 (S440).

During the above process, if the charging gateway server CG # 1 restarts and transmits the node alive request message to the GSN (S451), the GSN transmits the node alive request response message to the charging gateway server CG # 1. (S452).

The GSN transmits a data transmission request message including duplicate data information to the charging gateway server CG # 1 (S461). At this time, since the charging gateway server CG # 1 did not normally receive the charging data in step S411, the charging gateway server CG # 1 transmits a response message including the non-existent information of the charging data to the GSN (S462).

Accordingly, after receiving the response message in step S462, the GSN transmits a message requesting to release the duplicate data transmitted in step S431 to the charging gateway server CG # 2. Accordingly, the charging gateway server CG # 2 transmits the corresponding charging data CDR to the BS 300 according to the release request (S472), and transmits a data release request response message to the GSN (S473).

As described above in detail, according to the packet sequence number correction system and method in the asynchronous IMT-2000 network according to the present invention, when the SGSN and GGSN interoperate with the billing gateway (CG), an error in the sequence number of the billing data package is detected. If it occurs, it can be corrected to prevent the loss of billing data.

Claims (17)

A wireless station performing wireless communication with a mobile terminal, a wireless international controller controlling the wireless station, a GPRS support node (GSN) connected to the wireless international controller to exchange GPRS packet calls, and connected to the GSN to collect billing data. A packet sequence number correction system in an asynchronous IMT-2000 network including a charging gateway for transmitting to a charging server, The GSN generates the charging data (CDR), transmits the generated charging data (CDR) to the charging gateway by attaching sequence number information, The charging gateway includes a control unit for operation control, a first network connection unit for connecting the GSN and receiving the charging data, a second network connection unit for connecting with the charging server and transferring the charging data, and the charging data. And a billing gateway server including a data buffer unit for buffering, wherein the controller determines a normal order of received billing data according to sequence number information of the billing data and transmits billing data to a billing server according to the result. A packet sequence number correction system in an asynchronous IMT-2000 network, wherein the charging data is re-requested with the GSN. The method of claim 1, The GSN transmits an echo request message including sequence number information indicating the sequence number of charging data to the charging gateway at startup or when receiving a sequence number request message from the charging gateway. Packet Sequence Number Correction System in 2000 Networks. The method of claim 1, The GSN transmits a response to the charging gateway upon receiving the node alive request message indicating the activation from the charging gateway, and transmits an echo request message including sequence start number information for transmitting the charging data to the charging gateway. , The charging gateway receives the echo request message and sets the sequence number of the charging data to be received according to the included sequence start number information and transmits the response to the GSN, the packet sequence in the asynchronous IMT-2000 network. Number correction system. The method of claim 1, The billing gateway transmits a node alive request message indicating a startup state to the GSN upon restart, and sends a request message including sequence number information of billing data to be received according to sequence number information of billing data currently received. The packet sequence number correction system in the asynchronous IMT-2000 network, characterized in that for requesting the charging data transmission by transmitting to. The method of claim 4, wherein The GSN receives a message for requesting the charging data transmission from the charging gateway, and transmits the charging data corresponding to the sequence number to the charging gateway, packet sequence number correction system in the asynchronous IMT-2000 network. The method of claim 4, wherein The GSN receives a message for requesting billing data transmission from the billing gateway, and if there is no billing data corresponding to the sequence number, forcibly sets the sequence number and sends an echo request message including the set sequence number information to the billing gateway. And the charging gateway transmits the charging data of the sequence number when the charging gateway responds to the echo request message. The method of claim 1, The charging gateway is composed of a plurality of charging gateway server, The GSN generates the charging data (CDR) and transmits the generated charging data (CDR) to the corresponding main charging gateway server among the plurality of charging gateway servers by attaching sequence number information. Packet Sequence Number Correction System in Network. The method of claim 7, wherein If there is no response from the charging gateway server that has transmitted the charging data, the GSN transmits the same charging data as redundant charging data to the secondary charging gateway server adjacent to the main charging gateway server. In the asynchronous IMT-2000 network, if the main charging gateway server restarts and transmits a predetermined message, the redundant charging data processing command is transmitted to the auxiliary charging gateway according to whether charging data of the corresponding sequence number is received. Packet sequence number correction system. A wireless station performing wireless communication with a mobile terminal, a wireless international controller controlling the wireless station, a GSN connected to the wireless international controller to exchange GPRS packet calls, and connected to the GSN to collect and transmit charging data to a charging server. A packet sequence number correction method in an asynchronous IMT-2000 network including a charging gateway, a) setting a sequence start number of charging data to be transmitted and received between the GSN and the charging gateway; b) the charging gateway receiving the charging data generated in the GSN according to the sequence number; And c) determining, by the charging gateway, the normal sequence of the charging data received according to the sequence number information of the charging data, and transmitting the charging data to the charging server or re-requesting the corresponding charging data to the GSN according to the result. Packet sequence number correction method in an asynchronous IMT-2000 network comprising a. The method of claim 9, Step a) is a-1) transmitting, to the charging gateway, an echo request message including sequence start number information indicating a starting sequence number of charging data to be transmitted according to activation by the GSN; And a-2) transmitting, by the charging gateway, receiving the echo request message, to the GSN, a response message including the sequence start number information to the GSN; Way. The method of claim 9, Step a) is a-1) transmitting, by the charging gateway, a node alive request message informing the activation to the GSN; a-2) transmitting, by the GSN receiving the node alive request message, an echo request message including a response message and sequence start number information for starting transmission of the charging data to the charging gateway; And a-3) the charging gateway receiving the echo request message and setting a sequence number of charging data to be received according to the included sequence start number information and transmitting a response to the GSN. Packet sequence number correction method in IMT-2000 network. The method of claim 9, d) sending a node alive request message indicating the activation state to the GSN when the charging gateway is restarted; e) the charging gateway transmitting a request message to the GSN, the request message including sequence number information of the charging data to be received later according to the sequence number information of the currently received charging data; And f) transmitting, by the GSN, the charging data corresponding to the sequence number information included in the request message to the charging gateway, the packet sequence number correction method in the asynchronous IMT-2000 network. The method of claim 12, g) if there is no charging data corresponding to the sequence number information included in the request message, the GSN resets sequence number information and transmits an echo request message including the information to the charging gateway; And h) retransmitting, by the GSN, charging data corresponding to the reset sequence number information to the charging gateway according to a response from the charging gateway, the packet sequence number in the asynchronous IMT-2000 network. Calibration method. The method of claim 9, The charging gateway includes a plurality of charging gateway server, the packet sequence number correction method in the asynchronous IMT-2000 network, d) if the GSN does not receive a response message from the main billing gateway server that has transmitted the billing data according to the billing data transmission of the sequence number, generates billing data corresponding to the sequence number as duplicate data and generates the billing data. And transmitting the duplicated data to an auxiliary charging gateway server that can be accessed among the plurality of charging gateway servers. The method of claim 14, And the duplicated data includes sequence number information and address information of a corresponding billing gateway server that initially transmitted the billing data. The method of claim 14, e) When the main billing gateway server transmits a message indicating restart, the GSN receives the message and transmits the sequence number information corresponding to the duplicate data to the main billing gateway server restarted by the GSN and the corresponding billing data. Requesting receipt of, and f) in response to a response from the main charging gateway server, the GSN sending a processing instruction for the redundant charging data to the secondary charging gateway. Calibration method. The method of claim 16, When the main charging gateway server receives the charging data corresponding to the sequence number information corresponding to the duplicate data, the GSN transmits a processing instruction to delete the duplicate data to the secondary charging gateway server. If the main charging gateway server fails to receive the charging data corresponding to the sequence number information corresponding to the duplicate data, the GSN transmits a processing instruction to the secondary charging gateway server to transmit the duplicate data to the charging server. Packet sequence number correction method, characterized in that the asynchronous IMT-2000 network.

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