KR101082751B1 - Method and apparatus for charging management of mobile communication system - Google Patents

Abstract

The present invention relates to a charging management method and apparatus of a mobile communication system. The charging management method of the mobile communication system of the present invention includes the steps of receiving a payload from the terminal, requesting the terminal state information transmission to the terminal state information management device for charging for the payload, the terminal from the terminal state information management device Receiving the status information and generating a charging session for the terminal by using the terminal status information. According to the present invention, when a request for payload processing is requested from a user terminal, an accurate charging process can be performed based on terminal state information obtained by obtaining state information of a corresponding terminal.

Mobile communication, billing, traffic, payload, application charging server (ACS), terminal status information

Description

Billing management method and apparatus of mobile communication system {METHOD AND APPARATUS FOR CHARGING MANAGEMENT OF MOBILE COMMUNICATION SYSTEM}

The present invention relates to a billing management method and apparatus of a mobile communication system, and more particularly, to a billing management method and apparatus that can prevent billing loss due to billing signal loss.

When a mobile communication user uses a payload such as a voice call, a video call, or a wireless data service through a terminal, the mobile communication system uses the billing equipment to charge the payload using various charge equipment.

1 is a flowchart illustrating a charging process of a conventional mobile communication system. In order to use the payload, the user terminal 10 first goes through a step of activating a Gateway GPRS Support Node (GGSN) 20 and a Packet Data Protocol (PDP) (102). Through this process, the terminal 10 is assigned an IP from the GGSN 20.

Next, the GGSN 20 transmits the presence information to the IP Location Sever (IPLS) 30 (104). The IPLS 30 stores state information of the terminal 10 connected to the mobile communication network. The terminal state information includes terminal identification information such as IP or telephone number of the terminal, location information of the terminal, billing product information, state of the terminal, or other network information. In addition, the presence information includes the above terminal state information.

IPLS 30 transmits this presence information to ACS (Application Charging Server) 40 (106). The presence information transmitted by the IPLS 30 may include a message for notifying the start of charging. The ACS 40 is a billing data processing system, and performs a role of creating a billing session for payload, checking whether a prepaid subscriber is depleted of balance, billing start notification, payload transmission, and the like.

Thereafter, the ACS 40 may perform the inquiry and response processes 108 and 110 on whether the balance is exhausted. In addition, the ACS 40 uses the terminal state information included in the presence information received from the IPLS 30 to generate a charging session required for charging the payload. And charging is initiated by notifying the CRAB (Charging Rate Calculation Equipment) 50 of the charging start 112. (The process up to and beyond is explained in more detail below.)

As described above, in order to charge the payload of the user in the ACS, that is, the billing data processing system, there must be a process of acquiring status information about the terminal transmitting the payload. However, a signal such as the terminal state information or the presence information including the same may be lost in the network or may be missed in the charging device itself. In such a case, in the billing data processing system, a billing session cannot be generated, and if a billing load is processed without a billing session being generated, billing for the billing load is not possible.

Accordingly, an object of the present invention is to provide a method and apparatus for more precise charging processing based on terminal state information obtained by acquiring state information of a corresponding terminal when a request for payload processing is requested from a user terminal. do.

Even if the terminal status information is missing during transmission or lost on the network, another method is to provide a method and apparatus for preventing charging loss and increasing charging reliability by acquiring terminal status information and performing charging using the terminal status information. do.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention, which are not mentioned above, can be understood by the following description, and more clearly by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to an aspect of the present invention, there is provided a charging management method of a mobile communication system, the method comprising: receiving a payload from a terminal, requesting transmission of terminal state information to a terminal state information management device for charging for a payload, And receiving a terminal state information from the terminal state information management device and generating a charging session for the terminal using the terminal state information.

In another aspect, the present invention provides a billing management device of the mobile communication system, the communication unit for receiving a payload from the terminal and requesting the terminal state information transmission to the terminal state information management device for billing for the payload, and from the terminal state information management device Another aspect of the present invention includes a charging session manager that receives the terminal state information and generates a charging session for the terminal using the terminal state information.

According to the present invention as described above, when the payload processing request is received from the user terminal, there is an advantage that more accurate charging processing can be performed based on the terminal state information obtained by obtaining the state information of the corresponding terminal.

In addition, according to the present invention, when the terminal state information is missing during transmission or lost on the network, by obtaining the terminal state information and performing the charging using this, there is an advantage that can prevent the charging loss and increase the reliability of the charging.

The above objects, features, and advantages will be described in detail with reference to the accompanying drawings, and thus, those skilled in the art may easily implement the technical idea of the present invention. In describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

First, the charging process for the payload in the conventional mobile communication system will be described with reference to FIG. 1.

1 is a flowchart illustrating a charging process of a conventional mobile communication system. In order to use the payload, the user terminal 10 first goes through a step of activating the GGSN 20 and the PDP (102). Through this process, the terminal 10 is assigned an IP from the GGSN 20.

PDP stands for Packet Data Protocol and is a network protocol used by an external packet data network for communication with a GPRS network. A representative example of a PDP supported by GPRS is Internet Protocol (IP), which refers to mobile wireless service call or information describing a session (eg, billing ID), and identifies session identification at a mobile station and GSN in a GPRS network. Used for.

GGSN 20 then transmits the presence information to IPLS 30 (104). The IPLS 30 plays a role of storing state information of the terminal 10 connected to the mobile communication network. 'Terminal status information' includes terminal identification information such as IP or telephone number of the terminal, terminal location information, billing product information, terminal status, or other network information. The presence information transmitted by the GGSN 20 includes the above terminal state information.

IPLS 30 transmits this presence information to ACS 40 (106). The presence information transmitted by the IPLS 30 may include a message indicating the start of charging together with the terminal state information mentioned above. Here, the ACS 40 is a billing data processing system, and performs a role of generating a billing session for the payload, checking whether the prepaid subscriber has exhausted the balance, billing start notification, and payload transmission.

Thereafter, the ACS 40 may perform an inquiry and response process 108 and 110 on whether the balance is exhausted with the IM-SCP 60. IM-SCP 60 is a real-time billing deduction equipment performs a check function and check the balance for the real-time billing subscriber. Whether the balance is exhausted means whether there are any prepaid fees remaining for real-time billing subscribers, for example, KTF's non-paying plan subscribers. The ACS 40 queries the IM-SCP 60 whether the balance of the subscriber of the terminal 10, i.e., the prepaid fee, remains (108), and if the balance is exhausted (110), the remaining balance remains. Will continue.

Although not shown in the drawing, the ACS 40 uses the 'terminal state information' included in the presence information received from the IPLS 30 to generate a charging session required for charging the payload. In this case, if the terminal state information on the payload does not exist, even if a charging session is created, it is impossible to charge the corresponding subscriber because product information or other information about the subscriber of the terminal is not known.

ACS 40 now informs CRAB 50 that charging has begun 112. The CRAB 50 stores billing product information for each subscriber as billing rate equipment, and when the billing start is notified from the ACS 40, the CRAB 50 transmits the billing product information for each subscriber to the ACS 40 (114).

The terminal 10 transmits the payload to the ACS 40 for the service processing requested by the user (116). If the load transmitted by the terminal 10 is determined to be a payload corresponding to the IP address of the Mobile Station International ISDN Number (SIMSDN) included in the previously generated billing session, the ACS 40 sends the payload to the service gateway. Forward to 70 (118). The service gateway 70 transmits the payload to the terminal 10 to the ACS 40 (120), and the ACS 40 forwards the payload to the terminal 10 (122).

When the payload transmission and forwarding is completed, the ACS 40 extracts the charging information according to a predetermined charging analysis rule. The charging information is transmitted to the CRAB 50 (124). Depending on the type and amount of payload, steps 116 to 124 may be repeated.

This is the flow of the charging process for payload in the conventional mobile communication system. 1 and 2, which will be described later, for convenience, components of the GGSN 20, the IPLS 30, the ACS 40, the CRAB 50, and the IM-SCP 60 are described as independent devices. This does not have to be the case, and each component may exist as multiple modules belonging to a single device. For example, the ACS 40 and the CRAB 50 may be included as modules each having the functions described above in one device called a billing processing device.

2 is a flowchart illustrating a charging process of a mobile communication system according to an embodiment of the present invention.

Referring to FIG. 2, first, a process of activating a PDP is performed between the terminal 10 and the GGSN 20 (202). The GGSN 20 transmits the presence information on the terminal 10 to the IPLS 30 (204).

However, here, the IPLS 30 may not transmit the presence information to the ACS 40 for some reason. This may be due to a problem of the IPLS 30 itself, or may be lost during transmission due to a problem in the network. For any reason, the ACS 40 not receiving the presence information including the terminal state information receives the payload without obtaining information on the corresponding terminal (206).

Although not shown in the drawing, the ACS 40 receiving the payload may generate a temporary billing session once for billing for the payload. Then, in order to obtain information about the terminal 10 that has transmitted the payload, the IPLS 30 requests the terminal state information transmission (208). The IPLS 30, which has been requested to transmit the terminal status information, transmits the terminal status information included in the presence information received from the GGSN 20 to the ACS 40 (210). As a result, the ACS 40 may acquire state information on the terminal 10 that has sent the payload, and based on this, accurate charging may be performed without losing the charging information.

In an embodiment of the present invention, a case in which the presence information transmission from the IPLS 30 to the ACS 40 fails has been described as an example, but the present invention is not necessarily limited thereto. For example, the present invention can be applied even when the ACS 40 receives a payload from the terminal 10 in a state in which the presence information transmission from the GGSN 20 to the IPLS 30 fails. Also, even if the presence information is transmitted from the GGSN 20 to the IPLS 30, it may be considered that the ACS 30 requests the terminal state information from the GGSN 20 in advance.

The ACS 40 having obtained the terminal state information through steps 208 and 210 may now perform charging processing with more accurate information on the previously created temporary charging session. ACS 40 continues to check whether the balance is exhausted (212, 214), and notifies CRAB 50 of the start of charging (216). The subscriber receives billing product information from the CRAB 50 (218). The ACS 40 then forwards the payload received from the terminal 10 to the service gateway 70 (220). The service gateway 70 transmits the payload to be transmitted to the terminal 10 to the ACS 40 (222), and the ACS 40 forwards the payload to the terminal 10 (224).

When the payload transmission and forwarding is completed, the ACS 40 extracts the charging information according to a predetermined charging analysis rule. The charging information is transmitted to the CRAB 50 (226). As described above, steps 206 and 220 to 226 may be repeated depending on the type and amount of payload.

3 is a flowchart illustrating a charging processing method of a mobile communication system according to an embodiment of the present invention.

First, the payload is received from the terminal (S302). For charging for this payload, status information about the terminal that sent the payload, i.e., terminal identification information such as IP or phone number of the terminal, terminal location information, billing product information, terminal status, or other network 'Terminal state information' including information and the like is required. Therefore, it is determined whether the terminal state information for charging for the payload is present (S304).

If the terminal state information exists, it is possible to create a charging session for the pay load by using the terminal state information (S310). Then start charging for the payload (S312).

If the terminal state information does not exist in step S304, even if a charging session is generated, even if charging is started because there is no accurate information on the terminal, the charging information may eventually be lost or accurate charging may not be performed. Therefore, it is necessary to first acquire state information on the terminal before starting charging. However, this may cause a delay in the overall service processing time if the processing of the payload coming from the terminal is stopped. Therefore, before acquiring the terminal state information, a temporary charging session for the payload is first generated (S306), thereby preventing the delay of the payload processing. Here, step S306 is not a necessary step, and may attempt to acquire the terminal state information without stopping the payload process without generating a temporary charging session (S308).

Then, the terminal state information management device is requested to transmit the terminal state information for accurate charging (S308). If the terminal state information is obtained through step S308, the charging session for the payload may be generated using the obtained terminal state information (S310). Then, charging for the payload starts (S312).

According to the present invention as described above, when the payload processing request is received from the user terminal, there is an advantage that more accurate charging processing can be performed based on the terminal state information obtained by obtaining the state information of the corresponding terminal.

In addition, when the terminal state information is missing during transmission or lost on the network, the terminal state information is obtained and the charging is performed using the terminal state information, thereby preventing the charging loss and increasing the reliability of the charging.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by.

1 is a flowchart illustrating a charging process of a conventional mobile communication system.

2 is a flowchart illustrating a charging process of a mobile communication system according to an embodiment of the present invention.

3 is a flowchart illustrating a charging processing method of a mobile communication system according to an embodiment of the present invention.

Claims (8)

Receiving a payload from a terminal; Directly requesting terminal state information transmission to a terminal state information management device for charging for the payload; Receiving the terminal state information from the terminal state information management device; And Generating a charging session for the terminal using the terminal state information; Billing management method of a mobile communication system comprising. The method of claim 1, Directly requesting transmission of the terminal state information Checking whether the terminal state information exists; and Requesting the terminal state information transmission to the terminal state information management apparatus if the terminal state information does not exist as a result of the checking; Billing management method of a mobile communication system comprising. The method of claim 2, And generating a temporary charging session for the payload if the terminal state information does not exist as a result of the checking. 4. The method according to any one of claims 1 to 3, The paid load Billing management method of a mobile communication system including the identification information of the terminal. 4. The method according to any one of claims 1 to 3, The terminal state information is And at least one of identification information, location information, billing product information, and network information of the terminal. Communication unit receiving the payload from the terminal and Directly requests the terminal state information transmission device to the terminal state information management device for charging the payload, receives the terminal state information from the terminal state information management device, and charges the terminal using the terminal state information. Billing session manager to create a session Charging management device of a mobile communication system comprising. The method of claim 6, The billing session management unit And checking the terminal state information, and if the terminal state information does not exist, requesting the terminal state information management device to transmit the terminal state information. The method of claim 7, wherein The billing session management unit If the terminal state information does not exist as a result of the check, the charging management device of the mobile communication system to create a temporary charging session for the payload.

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