KR20070103846A - Method and apparatus for recognizing mobile node in mobile telecommunication network based on ipv6 - Google Patents

Abstract

A method and an apparatus for recognizing a subscriber mobile terminal in an IPv6-based mobile communication network are provided to enable an HA(Home Agent) to recognize a subscriber simply and to manage subscriber-associated information efficiently by transmitting phone number information together when a mobile terminal transmits a binding update message. If a mobile terminal requests a packet data service to a BSC/PCF(Base Station Controller/Packet Control Function), the BSC/PCF determines a PDSN(Packet Data Serving Node) to transmit packet data(S401). Between the BSC/PCF and the PDSN, an RP link is established to transport PPP link data between the mobile terminal and the PDSN(S402). If the packet data service is activated, a PPP(Point to Point Protocol) link is established between the mobile terminal and the PDSN. In this case, the RP link is continuously maintained(S403). The PDSN recognizes the mobile terminal by exchanging an RS(Router Solicitation) message and an RA(Router Advertisement) message with the mobile terminal(S404). Afterwards, the mobile terminal transmits a binding update message to an HA(S405), and the HA transmits a binding Ack message to the mobile terminal(S406).

Description

METHOD AND APPARATUS FOR RECOGNIZING MOBILE NODE IN MOBILE TELECOMMUNICATION NETWORK BASED ON IPv6}

1 is a flowchart illustrating a method for registering MIPv4 in an IPv4-based mobile communication network according to the prior art.

2 is a flowchart illustrating a method for registering MIPv6 in an IPv6-based mobile communication network according to the prior art.

3 is a block diagram showing a subscriber mobile terminal recognition system in a mobile communication network according to an embodiment of the present invention.

4 is a flowchart illustrating a subscriber mobile terminal recognition method in a mobile communication network according to an embodiment of the present invention.

5 illustrates a mobile node identifier parameter in accordance with an embodiment of the present invention.

* Explanation of symbols on the main parts of the drawing *

100: mobile terminal

200: BSC / PCF (Base Station Controller / Packet Control Function)

300: Packet Data Serving Node (PDSN)

400: home agent (HA)

The present invention relates to a mobile communication system, and more particularly, to a method and apparatus for recognizing a subscriber mobile terminal in an IPv6-based mobile communication network.

Supporting the new Internet address system, Internet Protocol version 6 (IPv6) technology provides improved performance, security, and mobility compared to traditional Internet Protocol version 4 (IPv4). In particular, the mobility aspect provides more efficient features and performance over existing IPv4.

However, the mobile IPv6 (Mobile Internet Protocol version 6, MIPv6) provided in the mobile communication network is difficult due to the lack of accurate use and specification, and there are not many examples.

For example, in the existing mobile communication network, such mobility management is performed in a home agent (HA), and such HA can perform billing or call session management only when the mobile terminal information is known correctly.

However, the mobile phone number (particularly, the mobile phone number may exist in various forms, but the International Mobile Station Identify (IMSI) number is representative) serves as a unique identifier of the subscriber. Therefore, the HA operating in the mobile communication network had to inform the billing equipment (for example, AAA) or a plurality of service providing equipments to be connected to the back end of the mobile phone number of the mobile terminal. Accordingly, the conventional MIPv4 recognizes the phone number of the mobile terminal in the following manner.

1 is a flowchart illustrating a method for registering MIPv4 in an IPv4-based mobile communication network according to the prior art.

As shown in FIG. 1, in a conventional IPv4-based mobile communication network (eg, CDMA network), a method for registering MIPv4 when a mobile terminal accesses a call includes: 1) a mobile terminal 100 and a BSC / PCF 200. Performing a wireless network connection between the mobile station, 2) performing an RP connection between the BSC / PCF 200 and the PDSN 300, and 3) allowing the mobile terminal 100 and the PDSN 300 to establish a PPP connection. 4) receiving, by the HA 400, the MIP registration request message from the mobile terminal 100, and 5) sending, by the HA 400, the MIP registration response message to the mobile terminal 100. Include.

Conventionally, when the mobile terminal 100 updates the binding information to the HA 400 after setting up a call to the HA 400 or moving to another area, the mobile terminal 100 updates the " NAI extension " parameter of the MIP registration request message. NAI (Network Access Identifier) information (for example, IMSI@ktf.com, etc.) was added and transmitted. Through this, the HA 400 continues through mapping between the general IP address assigned to the mobile terminal 100 at call setup and the COA assigned by an external agent (not shown) when the mobile terminal 100 moves to another region. The mobility of the mobile terminal 100 was managed. In addition, the HA 400 obtains the IMSI of the mobile terminal 100 based on the NAI information, and provides the service providing equipment (eg, AAA (Authentication Authorization Accounting) equipment, MMS equipment, etc.) connected to the rear end of the HA 400. Provided.

2 is a flowchart illustrating a method for registering MIPv6 in an IPv6-based mobile communication network according to the prior art.

As shown in FIG. 2, a method of registering MIPv6 in a conventional IPv6-based mobile communication network includes: 1) performing a wireless network connection between a mobile terminal 100A and a BSC / PCF 200A; and 2) Performing an RP connection between the BSC / PCF 200A and the PDSN 300A, 3) performing a Point to Point Protocol (PPP) connection between the mobile terminal 100A and the PDSN 300A, and 4) The mobile terminal 100A and the PDSN 300A performing a Router Advertisement / Router Solocitation (RA / RS) process; and 5) the HA 400A receives a Binding Update message from the mobile terminal 100A. And 6) the HA 400A transmitting a Binding Ack message to the mobile terminal 100A.

In the step of receiving a Binding Update message, when the mobile terminal 100A updates its binding information to the HA 400A after establishing a call to a mobile communication network or moving to another region, the mobile terminal 100A updates the binding information. It is standardized to include the IP address and the COA in the connectivity update message (RFC 3775 Mobility Support in IPv6).

According to this standard, two IP addresses are allocated for the mobile terminal 100A in order to maintain connection of the transport layer and correct routing of the IP layer, and one of the IP addresses is a home address and a general IP address. Similarly, it was fixed and used for the purpose of distinguishing TCP (Transmission Control Protocol) connections, and the other address was changed to a new connection point with a care of address (COA) to reflect the actual location of the mobile terminal 100A. It was used for the purpose of

However, in the current IPv6-based mobile communication network, as in the IPv4-based mobile communication network, there is a problem that a method or means for registering NAI information or mobile terminal 100A telephone number as HA 400A is not determined. .

Disclosure of Invention The present invention has been made in view of the above-described problems, and an object thereof is to provide a method and apparatus for recognizing a subscriber mobile terminal in an IPv6-based mobile communication network capable of recognizing subscriber related information in an IPv6-based mobile communication network. .

In order to achieve the above object, a method for recognizing a mobile terminal wirelessly connected to an Internet Protocol version 6 (IPv6) based mobile communication network according to an embodiment of the present invention, comprising: (a) updating connectivity from a mobile terminal; update) message; (b) extracting and storing telephone number information included in the connectivity update message; And (c) transmitting a connectivity response message to the mobile terminal.

Here, step b) is characterized in that the telephone number information is extracted from the Mobile Node Identifier parameter included in the connectivity update message.

In addition, the telephone number information is characterized in that the network access identifier (NAI) format or IMSI (International Mobile Station Identifier).

In addition, the connectivity update message may include a fixed IP address, a care of address (COA), and telephone number information of the mobile terminal.

Meanwhile, a mobility management device for recognizing a mobile terminal wirelessly connected in an IPv6 (Internet Protocol version 6) -based mobile communication network according to an embodiment of the present invention, comprising: binding information from the mobile terminal-where connectivity information Receives and includes the Internet Protocol (IP) address information, care of address (COA) information and phone number information-of the mobile terminal, characterized in that to recognize the subscriber of the mobile terminal by updating (update).

In addition, a mobile terminal wirelessly connected to an IPv6 (Internet Protocol version 6) based mobile communication network according to an embodiment of the present invention, IP (Internet Protocol) address information, COA of a mobile terminal in a binding update message (Care Of Address) information and telephone number information, characterized in that for transmitting to the mobility management device of the mobile communication network.

The telephone number information may be included in a mobile node identifier parameter of a message for updating connectivity.

In addition, the telephone number information is characterized in that the network access identifier (NAI) format or IMSI (International Mobile Station Identifier).

Hereinafter, specific embodiments will be described with reference to the accompanying drawings. Like reference numerals refer to like or similar elements throughout the drawings.

3 is a block diagram illustrating a subscriber mobile terminal recognition system in a mobile communication network according to an embodiment of the present invention.

As shown in Fig. 3, this system includes a BSC / PCF 200B, a PDSN 300B, and an HA 400B. Here, reference numeral 100 denotes a mobile terminal. In addition, the BSC / PCF 200B and the PDSN 300B are similar in structure and operation to the prior art. Although not shown in FIG. 3, various service providing equipments such as AAA equipment or MMS equipment are connected to the HA 400B at the rear end of the HA 400B. In particular, the BSC / PCF 200B and the PDSN 300B are well known to those skilled in the art, and even if the IPv6-based mobile communication network, the function is an IPv4-based mobile communication network (eg, CDMA network). Since not so different from the description of the detailed configuration and function will be omitted.

When the mobile terminal 100B updates the call setup and connectivity for the present embodiment, the mobile terminal 100B uses the Mobile Node Identifier parameter to transmit phone number information (eg, IMSI) of the mobile terminal 100B to the HA 400B. To send. At this time, the mobile terminal 100B also transmits a fixed IP address and a COA. The phone number information included in the mobile node identifier parameter is irrelevant whether in NAI format or IMSI itself. This mobile node identifier is shown in FIG. 5, the details of which will be described later.

The HA 400B, also referred to as a mobility management device, receives a connectivity update message received from the mobile terminal 100B (here, in a IPv6-based mobile communication network, a call setup request message is transmitted in the form of a connectivity update message), thereby receiving a mobile node. Obtain phone number information from the identifier parameter. Accordingly, the HA 400B may inform the service providing equipments such as the AAA equipment or the MMS equipment at the rear end of the phone number information of the mobile terminal 100B.

The operation of the subscriber mobile terminal identification system in the mobile communication network configured as described above will be described with reference to FIGS. 4 and 5.

First, when the mobile terminal 100B requests the packet data service from the BSC / PCF 200B to receive the packet data service, the BSC / PCF 200B determines the PDSN 300B to transmit the packet data. In this case, a radio traffic channel and a radio link protocol (RLC) link are established between the mobile terminal 100B and the BSC / PCF 200B in the wireless section (in detail, the BSC and the PCF are different from each other). Component, but is shown as one component for convenience of description, and in this process, an A8 traffic link for establishing PPP link data between the mobile terminal 100B and the PDSN 300B is established between the BSC and the PCF. S401).

Subsequently, an RP link for transferring PPP link data between the mobile terminal 100B and the PDSN 300B is established between the BSC / PCF 200B and the PDSN 300B (S402).

When the packet data service is activated, a PPP link is established between the mobile terminal 100B and the PDSN 300B, and the RP link between the BSC / PCF 200B and the PDSN 300B continues to be maintained (S403). ).

In addition, the mobile terminal 100B and the PDSN 300B exchange a Router Solicitation (RS) message and a Router Advertisement (RA) message to recognize the mobile terminal 100B to the PDSN 300B ( S404).

Thereafter, the mobile terminal 100B transmits a connectivity update message to the HA 400B, and the HA 400B transmits a connectivity response message to the mobile terminal 100B (S405-S406). At this time, the mobile terminal 100B transmits the phone number information (e.g., IMSI) of the mobile terminal to the HA 400B using the mobile node identifier parameter along with the fixed IP address and the COA. The phone number information included in the mobile node identifier parameter is irrelevant whether in NAI format or IMSI itself.

The HA 400B then receives this connectivity update message from the mobile terminal 100B and interprets the mobile node identifier parameter to obtain phone number information. Accordingly, the HA 400B may inform the service providing equipments such as the AAA equipment at the rear end of the phone number information of the mobile terminal 100B. Accordingly, since the HA 400B can easily recognize the mobile terminal 100B, it is possible to efficiently manage session information by storing the phone number, IP address, and COA of the mobile terminal 100B. Therefore, the HA 400B can continuously manage a specific mobile terminal separately from the fixed IP address that changes every time the call (including the data call and the voice call) and the COA that changes every time the foreign agent (FA) is connected. . This result is particularly advantageous for incoming service providing equipment or charging equipment. Thereafter, the HA 400B transmits a connectivity response message to the mobile terminal 100B.

5 illustrates a mobile node identifier parameter according to an embodiment of the present invention.

As shown in Fig. 5, the mobile node identifier parameter includes an option format, an option size, a subtype, and an identifier. In the present embodiment, the telephone number information (e.g., IMSI) of the mobile terminal is included in this identifier option. In this case, the phone number information may be described in NAI format (IMSI@ktf.com) or IMSI alone.

Although the present invention has been described in detail with reference to the embodiments, those skilled in the art will recognize that various modifications or changes can be made without departing from the spirit and scope of the invention.

For example, although the embodiment has been described based on the CDMA network, it can be easily understood that the present invention can be applied to a WCDMA network or a GSM network. In other words, the BSC / PCF 200B is replaced with the RAN / SGSN and the PDSN 300B is replaced with the GGSN, and the above-mentioned phone number is used for call setup of the mobile terminal 100B, which is the same / similar to the present invention, or when the connectivity information is updated. It will be readily understood by those skilled in the art that the information can be applied to the WCDMA network or the GSM network by including the information.

In addition, although the present embodiment has been described using an IPv6-based mobile communication network as an example, those skilled in the art will appreciate that the present invention can be easily modified in a web telephone of an IPv6-based wired communication network. That is, since the PDSN 300B of the present embodiment can be replaced as a local router or a default router in a wired communication network, the present invention can be applied to a wired communication network by including the above-mentioned telephone number information at the time of registering a web phone or updating connectivity information. One skilled in the art can readily understand that this may be the case.

According to the present invention, by transmitting the phone number information when transmitting the connectivity update message of the mobile terminal in the IPv6-based mobile communication network, the HA can easily recognize the subscriber, and the subscriber-related information (eg, mobile terminal information, IP). Address, location information) can be efficiently managed.

In addition, according to the present invention, since it is possible to efficiently manage subscriber-related information in an IPv6-based mobile communication network, it is possible to efficiently manage data billing or Internet resources in a wireless Internet network linked to the mobile communication network. have.

In addition, according to the present invention, in the IPv6-based mobile communication network, HA continuously manages a mobile terminal of a specific subscriber, separately from a fixed IP address that changes every time a call is connected and a COA that changes every time an external agent (FA) is connected. There is an effect that can be performed.

Claims (8)

A method for recognizing a mobile terminal wirelessly connected to an IPv6 (Internet Protocol version 6) based mobile communication network, (a) receiving a binding update message from the mobile terminal; (b) extracting and storing telephone number information included in the connectivity update message; And and (c) transmitting a connectivity response message to the mobile terminal. In claim 1, B), extracting telephone number information from a Mobile Node Identifier parameter included in the connectivity update message. The method of claim 1 or 2, The telephone number information is a mobile terminal identification method in an IPv6-based mobile communication network, characterized in that the NAI (Network Access Identifier) format or IMSI (International Mobile Station Identifier). The method of claim 1 or 2, The connectivity update message includes a fixed IP address, a care of address (COA), and phone number information of the mobile terminal. A mobility management device that recognizes a mobile terminal connected wirelessly in an IPv6 (Internet Protocol version 6) -based mobile communication network, Receives and updates binding information from the mobile terminal, wherein the connectivity information includes Internet Protocol (IP) address information, care of address (COA) information, and telephone number information of the mobile terminal. and updating the subscriber station of the mobile terminal to update the mobility management device of an IPv6-based mobile communication network. In claim 5, And the telephone number information is included in a Mobile Node Identifier parameter of the message for updating the connectivity. In claim 5 or 6, The phone number information, the mobility management device for a mobile communication network, characterized in that the NAI (Network Access Identifier) format or IMSI (International Mobile Station Identifier). A mobile terminal wirelessly connected to an IPv6 (Internet Protocol version 6) based mobile communication network, IPv6, characterized in that a connectivity update message is transmitted to the mobility management device of the mobile communication network including IP (Internet Protocol) address information, care of address (COA) information, and telephone number information of the mobile terminal. A mobile terminal wirelessly connected to an based mobile communication network.

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