KR102063311B1 - Billing System on Wireless Network - Google Patents

Abstract

A billing system on a wireless network is disclosed.
Wireless network that inserts a new data field into the data field of the content billing information (CDR) in the packet gateway (PGW) so that charging is made without passing through a separate billing system (eg, a Unified Data Billing System (UDBS)). Provides a billing system on the web.

Description

Billing System on Wireless Network

This embodiment relates to a charging system on a wireless network.

It should be noted that the contents described below merely provide background information related to the present embodiment and do not constitute a prior art.

Recently, with the increase of Long Term Evolution (LTE) subscribers, packet data network gateways (PGWs) on LTE networks are being expanded, and billing devices in billing systems are continuously increasing in response to the increased packet gateways (PGWs). have. In accordance with this trend, there is a need for improving the structure of whether a packet gateway (PGW) can replace a billing device (eg, a Unified Data Billing System (UDBS)).

The packet gateway (PGW) is basically capable of flow based charging (FBC). The Gateway GPRS Support Node (GGSN) of a conventional Wideband Code Division Multiple Access (WCDMA) network initially contains no content based on IUX (Internet Usage Extraction) / IMS (IP Mediation System) because there was no flow-based charging (FBC) function. Differential charging was performed using the classification function. Therefore, the LTE network can use the flow-based billing (FBC) function of the packet gateway (PGW), it requires a billing system to simplify the structure of the billing system using the self-billing.

In the present embodiment, charging is performed without additional billing system (eg, UDBS (Unified Data Billing System)) by additionally inserting a new data field into the data field of the content billing information (CDR) in the packet gateway (PGW). The main purpose is to provide a billing system on a wireless network.

According to an aspect of the present embodiment, the collecting unit for collecting the content billing information (CDR: Contents Detail Record) from the Serving Gateway (SGW); A field insertion unit for additionally inserting a new data field for not passing through a separate billing system to a data field of the content charging information (CDR); And a transmitter for transmitting the content charging information (CDR) to a charging gateway.

As described above, according to the present embodiment, the packet gateway PGW inserts a new data field into the data field of the content charging information (CDR), thereby charging without passing through a separate billing system (eg, UDBS). It has the effect of making it happen.

Further, according to this embodiment, since only numbers can be written in the service identifier field of the data field of the content charging information CDR, the URL information cannot be delivered. For this reason, there is a disadvantage in that the packet gateway (PGW) and the charging device have to have the same table (eg, store URL information corresponding to the service identifier in a separate table). Therefore, the URL information updated by the packet gateway (PGW) is added as a new data field of the content charging information (CDR) so that every time the service-specific URL information is updated (changed), a table of all the packet gateways (PGW) and the charging equipment is displayed. It has the effect of not having to modify it.

In addition, according to the present embodiment, since only numbers can be written in the service identification field among the data fields of the content charging information (CDR), IP information or port information cannot be transmitted. As a result, there is a disadvantage in that the same table must exist between the packet gateway (PGW) and the charging equipment. Therefore, every packet gateway (PGW) is added every time the service-specific IP information or port information is updated (changed) by adding the updated IP information or port information in the packet gateway (PGW) as a new data field of the content charging information (CDR). And there is no need to modify the table of the billing equipment.

1 is a block diagram schematically illustrating a charging system in a wireless network according to the present embodiment.
2 is a block diagram schematically showing a packet gateway (PGW) according to the present embodiment.
3 is a diagram illustrating a case where a URL field is additionally inserted into a data field of content charging data (CDR) according to the present embodiment.
4 is a diagram illustrating a case in which IP information and port information are additionally inserted into a data field of content charging data (CDR) according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a charging system in a wireless network according to the present embodiment.

The charging system in the wireless network according to the present embodiment includes a user equipment (UE) 110, an evolved node B (eNB) 120, a serving gateway (SGW) 130, and mobility management. Mobility Management Entity (MME) 132, Home Subscriber Server (HSS) 134, Packet Data Network Gateway (PGW) 140, Policy and Charging Rule (PCRF) A function 150, a packet data network 160, a charging gateway 170, and a billing device 180. Components included in the charging system on the wireless network according to the present embodiment are not necessarily limited thereto.

The terminal 110 refers to a terminal capable of transmitting and receiving various data via a network according to a user's key operation, and includes a tablet PC, a laptop, a personal computer, and a smartphone. (Smart Phone), a personal digital assistant (PDA) and a mobile communication terminal (Mobile Communication Terminal).

In other words, the terminal 110 is a terminal that performs voice or data communication using a network, a memory for storing a program or protocol for communicating with the packet data network 160, and executing and controlling the corresponding program. Means a device having a microprocessor for the purpose. The terminal 110 may be any terminal as long as the packet data network 160 and server-client communication are possible. The terminal 110 may include all communication computing devices such as a notebook computer, a mobile communication terminal, and a PDA. The terminal 110 may access the wireless base station 120 using the 'LTE-Uu' air interface.

The wireless base station 120 is a device supporting LTE, and performs functions such as RF transmission, transmission, reception, signal strength, quality measurement, baseband signal processing, and channel card (channel card resource management). Device. In addition, the wireless base station 120 and the Evolved Packet Core (EPC) (ie, the mobility management entity 132, the serving gateway 130, and the packet gateway 140) may be collectively referred to as an EPS (Evolved Packet System). That is, the radio base station 120 refers to a transmitter in the LTE network, and performs various functions required for radio call processing such as location registration, radio channel assignment, and handoff in the network. In addition, the wireless base station 120 is a device for receiving a call request signal from the terminal 110 using a traffic channel of the signal channel in the LTE network, and performs baseband signal processing, wired and wireless conversion, transmission and reception of wireless signals, etc. .

In addition, the radio base station 120 provides a radio interface to the terminal 110, and performs radio bearer control, radio admission control, dynamic radio resource allocation, load balancing and inter-cell interference control (ICIC). It provides the same radio resource management (RRM) function. Here, the wireless base station 120 may be extended to the Evolved UMTS Terrestrial Radio Access Network (E-UTRAN).

The serving gateway 130 performs a traffic processing function for call traffic. In addition, the serving gateway 130 interoperates with the wireless base station 120 as a session control and user plane node that processes payload traffic according to a set session, and interworks. Over is supported. The serving gateway 130 establishes a packet data protocol (PDP) context with the packet gateway 140 and delivers a packet data unit (PDU) using tunneling. In addition, through separate implementations of the serving gateway 130 and the mobility management entity 132, it is possible to expand as traffic increases or control signal increases.

Meanwhile, the mobility management entity 132, the serving gateway 130, and the packet gateway 140 may be referred to as a packet core. This, packet core, refers to EPC.

The mobility management entity 132 basically performs mobility management for the terminal 110. The mobility management entity 132 is responsible for call control such as location registration, paging, and authentication, and performs data call control for call traffic. In addition, the mobility management entity 132 is a node that manages subscriber information and mobility of the terminal 110, and is responsible for session management, idle subscriber management, paging, and subscriber authentication functions.

In addition, the mobility management entity 132 communicates with the home subscriber server 134 as an E-UTRAN control entity for user authentication and user profile download, and EPS to the terminal 110 using non-access stratum (NAS) signaling. Provides mobility management (EMM) and EPS session management (ESM). That is, the mobility management entity 132 performs NAS signaling (EMM, ESM, security), and provides user authentication and roaming functions through the 'S6a' interface with the home subscriber server 134, ECM and EMM state management, EPS bearer Carry out management, etc.

The home subscriber server 134 is a central database with user profiles and provides the mobility management entity 132 with user authentication information and user profiles.

The packet gateway 140 manages mobility for a Non-3GPP network as a gateway to an IMS (IP Multimedia Subsystem), the Internet, the packet data network 160, and the like. The packet gateway 140 performs charging according to the policy information received from the policy providing device 150 and is responsible for blocking harmful packets. In addition, the packet gateway 140 is a session control and user plane that allocates an IP of the terminal 110 and interworks with an external Internet network and a Non-3GPP network, and routes it with the serving gateway 130 and the external network for packet service. Maintain information and have tunneling and IP routing functions. In addition, the packet gateway 140 delivers the PDU to the serving gateway 130 and the external network. In addition, the packet gateway 140 connects the terminal 110 with the packet data network 160 and provides packet filtering.

In addition, the packet gateway 140 may generate data including a UDR (Usage Data Record) according to the policy information received from the policy providing device 150 in the network, and is responsible for blocking harmful packets. The packet gateway 140 may transmit charging data to the charging gateway 170 using a remote authentication dial-in user services (RADIUS) scheme.

Hereinafter, the operation of the packet gateway 140 according to the present embodiment will be described. The packet gateway 140 collects content charging information (CDR) from the serving gateway 130. Here, the information that the packet gateway 140 collects from the serving gateway 130 includes not only contents charging information (CDR) but also passing charging information (CDR). The packet gateway 140 further inserts a new data field in the data field of the content billing information (CDR) so as not to pass through a separate billing system (eg, UDBS). The packet gateway 140 transmits the content charging information (CDR) in which the new data field is inserted, to the charging gateway 170.

The packet gateway 140 includes update information for each content not related to the service identification field, in the new data field of the data field of the content charging data (CDR). As a result, the packet gateway 140 causes the billing gateway 170 (or billing device 180) to generate billing data based on the new data field inserted in addition to the data field of the content billing data (CDR). .

Hereinafter, the process of the packet gateway 140 further inserting the URL field of the data field of the content charging data (CDR) will be described. The packet gateway 140 adds a URL field including Uniform Resource Locator (URL) information for each service to the data gateway of the content charging information (CDR) as a new data field and transmits it to the charging gateway 170. The packet gateway 140 causes the charging gateway 170 to cause the charging gateway 170 to add the URL field as a new data field, regardless of the service identifier field of the content charging information CDR. Recognize URL information. The packet gateway 140 includes URL information updated regardless of the service identification field in the URL field inserted in addition to the content charging information (CDR). In other words, the packet gateway 140 registers URL information additionally inserted in the data field of the content charging data (CDR), for example, 'Na ***. Com' and 'Da **. Net' are changed (updated). In this case, only URL information is updated without having to modify the tables of the packet gateway 140 and the charging gateway 170 in order to correct this.

Hereinafter, the process of the packet gateway 140 further inserting the IP field and the port field of the data field of the content charging data (CDR) will be described. The packet gateway 140 adds an IP field including service-specific IP information and a port field including service-specific port information to a data field of the content charging information (CDR) as a new data field. To send. The packet gateway 140 causes the charging gateway 170 to cause the charging gateway 170 to add the IP field and the port field as a new data field, thereby causing the charging gateway 170 to be independent of the service identification field of the content charging information (CDR). Recognize the port information in the information and port fields. Here, the IP field includes a destination IP field and a source IP field (Src IP). The port field includes a destination port field (Dest Port) and a source IP field (Src Port). The packet gateway 140 includes IP information updated in the IP field regardless of the service identification field or port information updated in the port field regardless of the service identification field. In other words, when the IP information registered in the data field of the content charging data (CDR) registered, for example, '211.115.15.34' and '211.115.15.35' are changed (updated), the packet gateway 140 corrects it. In order to update the IP information without having to modify the tables of the packet gateway 140 and the charging gateway 170 in order to. In addition, the packet gateway 140 may change the packet gateway (eg, '5060', '7011', which is additionally inserted into the data field of the content charging data (CDR), to correct the packet gateway ( 140 and only the port information is updated without having to modify the tables of the charging gateway 170.

The policy providing apparatus 150 may detect a packet included in the service data by using a predetermined rule and apply an authorized quality of service (QoS). In addition, the policy providing apparatus 150 operates based on the determined policy information and a charging control function by a charging gateway (not shown). That is, the policy providing device 150 may detect service data of the charging gateway 170 and perform network control such as QoS. In addition, the policy providing apparatus 150 provides a policy information control and a charging control function as a policy information and charging control entity. The policy providing device 150 transmits the generated policy information to the packet gateway 140.

The billing gateway 170 receives billing data from the packet gateway 140 and generates billing information for billing. For example, the charging gateway 170 may be an offline charging system (OFCS), but is not limited thereto. The charging gateway 170 is a RADIUS generated not only by the packet gateway 140 but also by a packet data serving node (PDSN) of a code division multiple access (CDMA) network and a gateway GPRS support node (GGSN) of a wideband code division multiple access network. Receive packet charging information (subscriber number, start time, end time, total packet usage).

The charging gateway 170 according to the present embodiment receives the content charging data (CDR) from the packet gateway 140 using the GPRS Tunneling Protocol Prime (GTPP) protocol according to the 3rd Generation Partnership Project (3GPP) standard. In addition, the charging gateway 170 refers to a device separate from the UDBS. In other words, the charging system in the wireless network according to the present embodiment is a system capable of performing charging without UDBS. Here, the UDBS is a device having a 1: 1 structure with the packet gateway 140. The UDBS receives the content charging information (CDR) by mirroring the RADIUS charging information. The UDBS is a device for generating content charging data (CDR) by mirroring a packet actually used by a subscriber and then analyzing the service in detail for each service type. In addition, the UDBS may generate the final billing data by merging the UDR and the content billing data (CDR) based on the IP. If the IP of the packet mirroring information is IMS, the UDBS does not generate a CDR and drops the UDR so that the packet is not charged.

Therefore, in the billing system according to the present embodiment, the packet gateway 140 is increasing as the number of LTE subscribers increases, and the UDBS should also be added to correspond to the packet gateway 140 to be expanded. The packet gateway 140 additionally inserts information necessary for charging in the content charging data (CDR) into a new data field so that the charging is performed without a charge, and transmits the information directly to the charging gateway 170.

Hereinafter, the operation of the charging gateway 170 according to the present embodiment will be described. The charging gateway 170 receives the content charging information (CDR) in which the URL field is additionally inserted from the packet gateway 140. The charging gateway 170 recognizes the URL information in the additionally inserted URL field regardless of the service identifier field of the content charging information using the content charging information CDR received from the packet gateway 140. do. In other words, the charging gateway 170 directly receives the contents charging data (CDR) that OFCS mirrored from the packet gateway 140. In this case, a URL field is additionally inserted into the data field of the content charging data (CDR).

In addition, the charging gateway 170 receives the content charging information (CDR) in which the IP field and the pod field are additionally inserted from the packet gateway 140. Thereafter, the charging gateway 170 uses the IP and the pod fields received from the packet gateway 140 to add the inserted content charging information (CDR), regardless of the service identification field of the content charging information (CDR). Recognize IP information in the field and port information in the additionally inserted port field. In other words, the charging gateway 170 directly receives the contents charging data (CDR) that OFCS mirrored from the packet gateway 140. In this case, an IP field and a port field are additionally inserted into the data field of the content charging data (CDR).

The billing device 180 includes an IP Mediation System (IPS). The billing device 180 generates customer billing data in a customer bill format by tying all voice billing, packet billing, information usage fee, etc. based on the billing information received from the billing gateway 170.

2 is a block diagram schematically showing a packet gateway (PGW) according to the present embodiment.

The packet gateway 140 according to the present embodiment includes a collector 210, a field inserter 220, and a transmitter 230. Components included in the packet gateway 140 are not necessarily limited thereto.

The collector 210 collects content charging information (CDR) from the serving gateway 130.

The field inserting unit 220 additionally inserts a new data field for allowing the billing system (eg, UDBS) to not pass through the data field of the content charging information (CDR). The field inserting unit 220 includes update information for each content not related to the service identification field in the new data field which is additionally inserted into the data field of the content charging information CDR. As a result, the field inserter 220 causes the billing gateway 170 (or billing device 180) to generate billing data based on the new data field.

Hereinafter, the process of inserting the URL field into the data field of the content charging information CDR by the field inserting unit 220 will be described. The field inserter 220 adds a URL field including service-specific URL information to a data field of the content charging information (CDR) as a new data field and transmits it to the charging gateway 170. Accordingly, the field inserting unit 220 causes the charging gateway 170 to recognize the URL information in the URL field regardless of the service identification field of the content charging information (CDR). The field inserting unit 220 includes URL information updated irrespective of the service identification field in the URL field additionally inserted into the data field of the content charging information (CDR). In other words, the field insertion unit 220 registers URL information additionally inserted in the data field of the content charging data (CDR), for example, 'Na ***. Com' and 'Da **. Net' are changed (updated). ), Only the URL information is updated without the need to modify the tables of the packet gateway 140 and the charging gateway 170 to correct this.

Hereinafter, the process of the field inserting unit 220 further inserting the IP field and the port field into the data field of the content charging information (CDR) will be described. The field insertion unit 220 adds an IP field including service-specific IP information and a port field including service-specific port information to a data field of the content charging information (CDR) as a new data field. ) send. The field inserting unit 220 causes the charging gateway 170 to recognize IP information in the additionally inserted IP field and port information in the additionally inserted port field regardless of the service identification field of the content charging information (CDR). Here, the IP field includes a destination IP field and a source IP field (Src IP). In addition, the port field includes a destination port field (Dest Port) and a source IP field (Src Port). The field inserter 220 includes IP information updated regardless of the service identification field in the IP field or port information updated regardless of the service identification field in the port field. In other words, the field inserting unit 220 registers IP information additionally inserted in the data field of the content charging data (CDR), for example, when '211.115.15.34' and '211.115.15.35' are changed (updated). In order to correct, only the IP information is updated without the need to modify the tables of the packet gateway 140 and the charging gateway 170. In addition, the packet gateway 140 may change the packet gateway (eg, '5060', '7011', which is additionally inserted into the data field of the content charging data (CDR), to correct the packet gateway ( 140 and only the port information is updated without having to modify the tables of the charging gateway 170.

The transmitter 230 transmits the content charging information CDR to the charging gateway 170.

3 is a diagram illustrating a case where a URL field is additionally inserted into a data field of content charging data (CDR) according to the present embodiment.

Based on the Evolved Packet Core (EPC) standard, there is a Service Identifier (Service Identifier) that enables the service group to distinguish by the charging stage among the fields of the content charging data (CDR) generated by the packet data network 160. . Since the service identification field can only be filled in with numbers, it cannot carry URL information. As shown in FIG. 3, there is a disadvantage in that the same table must be provided between the packet gateway 140 and the charging gateway 170. For example, when the URL information corresponding to 'Service ID 1' is 'Na ***. Com' and the URL information corresponding to 'Service ID 2' is 'Da **. Net', charging is performed with the packet gateway 140. Gateway 170 must store the same table.

In other words, since only a number can be written in the service identification field of the data field of the content charging information (CDR), the URL information could not be transmitted, and the same table (for example, the service identifier) between the packet gateway (PGW) and the charging device was not included. Store corresponding URL information in a separate table). Therefore, the URL information updated by the packet gateway (PGW) is added to the content charging information (CDR) as a new data field that does not exist in the standard, so that every packet gateway (PGW) and each time service-specific URL information is updated (changed). There is no need to modify the table of the billing equipment.

4 is a diagram illustrating a case in which IP information and port information are additionally inserted into a data field of content charging data (CDR) according to the present embodiment.

When based on the EPC standard, there is a service identification field that enables the classification of services in the charging stage among the fields of the content charging data (CDR) generated by the packet data network 160. Since the service identification field can only be filled in with numbers, it cannot carry IP information and port information. As shown in FIG. 4, there is a disadvantage in that the same table must be provided between the packet gateway 140 and the charging gateway 170. For example, the IP information corresponding to 'Service ID 1' is' 211.115.15.34 ', the IP information corresponding to' Service ID 2 'is' 211.115.15.35', and the port information corresponding to 'Service ID 1' is' 5060 'and the port information corresponding to' Service ID 2 'is' 7011', the packet gateway 140 and the charging gateway 170 must store the same table.

In other words, since only a number can be written in the service identification field of the data field of the content billing information (CDR), IP information or port information could not be transmitted, and the same table between the packet gateway (PGW) and the billing device was used. (Eg, storing IP information corresponding to the service identifier in a separate table or storing port information corresponding to the service identifier in a separate table). Therefore, IP information or port information updated by the packet gateway (PGW) is added to the content charging information (CDR) as a new data field that does not exist in the standard, so that every time the service-specific IP information or port information is updated (changed) There is no need to modify the tables of the packet gateway (PGW) and the billing equipment.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which the present embodiment belongs may make various modifications and changes without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the present invention, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

As described above, this embodiment is a useful invention that is applied to the field of billing on a wireless network to generate an effect of billing without adding a separate billing system (eg, UDBS).

110: terminal 120: wireless base station
130: serving gateway 132: mobility management entity
140: packet gateway 150: policy provider
160: packet data network 170: billing gateway
180: billing device

Claims (8)

A collector configured to collect contents charging information (CDR) related to subscriber use content from a serving gateway (SGW);
A field insertion unit for inserting a new data field into a data field of the content charging information (CDR); And
Transmission unit for transmitting the content charging information (CDR) to the charging gateway
Including,
The new data field is inserted regardless of the service identification field included in the data field,
Insert a URL field including the URL as the new data field when a Uniform Resource Locator (URL) associated with the subscriber use content is to be transmitted to the charging gateway;
And when an IP address associated with the subscriber use content is to be transmitted to the charging gateway, inserting an IP field including the IP address as the new data field. delete delete The method of claim 1,
The new data field is
The packet gateway further comprises a Port field including port information for each service. The method of claim 1,
The IP field includes a destination IP field (Dest IP) and a source (Source) IP field (Src IP). delete delete The method of claim 1,
The field insertion unit,
And cause the billing gateway to generate billing data based on the new data field.

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