JP2012085195A - Wimax roaming communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a WiMAX roaming communication system capable of allocating an SFID (Service Flow Identifier) properly in roaming communication service.SOLUTION: In a WiMAX roaming communication system 10, a VisitedPF server 32 has a table T1 defining a correspondence between an identification code of a terminal and a service flow identifier that is an identifier of a service flow generated between a terminal and the base station. In the table T1, an area for generating a service flow for a roaming communication terminal subscribing to a Home WiMAX communication system 38 is ensured. When a HomeAAA server 28 authorizes a terminal 12b, the VisitedPF server 32 allocates the service flow identifier to the terminal 12b based on the area ensured in the table T1.

Description

  The present invention relates to a WiMAX roaming communication system that provides a roaming communication service using a WiMAX communication system.

  As a next-generation high-speed mobile communication system, WiMAX (Worldwide Interoperability for Microwave Access) has attracted international attention, and a plurality of network service providers provide services using this WiMAX communication system.

  When a user has a contract with a network service provider that uses a WiMAX communication system, there is roaming communication as a communication service provided in a network service provider that uses a WiMAX communication system different from the network service provider.

FIG. 7 is an explanatory diagram of the WiMAX roaming communication system 100 that provides this roaming communication. The WiMAX roaming communication system 100 includes a HomeWiMAX communication system 118 having an ASN (Access Service Network) 104a and a CSN (Connectivity Service Network) 106, and a Visited WiMAX communication system 120 having an ASN 104b and a CSN 108. The HomeWiMAX communication system 118 The Visited WiMAX communication system 120 is connected by a wide area communication network 24 constituted by the Internet or the like. Here, the HomeWiMAX communication system 118 and the VisitedWiMAX communication system 120 are owned by different network service providers.

  Terminals (MS) 12a and 12b, such as computers and mobile phones having a communication function, can communicate with the ASN 104a, and the terminals 12c and 12d can communicate with the ASN 104b.

  The ASN 104a includes base stations 102a and 102b that are wirelessly connected to the terminals 12a and 12b, and an L3 switch 16a that transfers packets. The ASN 104b also includes base stations 102c and 102d, and an L3 switch 16b, similar to the ASN 104a.

  The CSN 106 includes a Home PF server 110 that is a PF (Policy Function) server that manages communication resources for the terminal, a Home AAA server 112 that is an AAA (Authentication Authorization Accounting) server that performs terminal authentication and billing information collection and management, and a terminal And a Home DHCP server 30 which is a DHCP (Dynamic Host Configuration Protocol) server for allocating and managing IP addresses. Similarly to the CSN 106, the CSN 108 includes a Visited PF server 114 that is a PF server, a Visited AAA server 116 that is an AAA server, and a Visited DHCP server 36 that is a DHCP server.

In the HomeWiMAX communication system 118, a service flow (SF: Service Flow) that is a connection corresponding to a service flow having different QoS characteristics is generated between the terminal 12a and the base station 102a and between the terminal 12b and the base station 102b. . Service flow identifier is an identifier of the service flow (SFID: Service Flow Identifier) is assigned by the base station 102a, 102 b. In the Visited WiMAX communication system 120, as in the Home WiMAX communication system 118, the base stations 102c and 102d assign service flow identifiers to the terminals 12c and 12d.

  Further, in order for the terminal 12b of the HomeWiMAX communication system 118 to move and wirelessly connect to the wirelessly connectable area of the base station 102c of the VisitedWiMAX communication system 120, it is necessary to make a network entry to the VisitedWiMAX communication system 120. It is necessary to prepare an SFID for assignment to the terminal 12b.

WiMAX Forum Network Architecture (Stage3: Detailed Protocols and Procedures) IMPLEMENTATIONDRAFT May 8, 2008

  However, since the information of the terminal 12b, which is a roaming communication terminal, is not registered in the table, the SFID cannot be assigned at the time of network entry, and the network entry of the terminal 12b for the Visited WiMAX communication system 120 is interrupted. End up.

  The present invention has been made in consideration of the above problems, and an object of the present invention is to provide a WiMAX roaming communication system capable of appropriately assigning an SFID in a roaming communication service.

The WiMAX roaming communication system according to the present invention includes a CSN (Connectivity) having an AAA (Authentication Authorization Accounting) server for authenticating a terminal.
A plurality of WiMAX communication systems having a service network and a base station to which the terminal wirelessly connects and an ASN (Access Service Network) connected to the CSN, and one WiMAX communication system and another WiMAX communication system Are owned by different network service providers, and the PF server of the other WiMAX communication system includes a service flow identifier that is an identifier of the terminal and a service flow identifier generated between the terminal and the base station. A table for defining a correspondence relationship between the first and second WiMAX communication systems, and an area for generating a service flow for a roaming communication terminal contracted with the first WiMAX communication system. When the AAA server authenticates the roaming terminal, the other WiM The PF server of the AX communication system assigns the service flow identifier to the roaming terminal based on an area secured in the table.

  According to the WiMAX roaming communication system of the present invention, a PF server of another WiMAX communication system includes a terminal identification code and a service flow identifier that is a service flow identifier generated between the terminal and the base station. A table for defining a correspondence relationship, and an SFID can be appropriately assigned to the table by securing an area for generating a service flow for a roaming communication terminal contracted with one WiMAX communication system. it can.

It is explanatory drawing of the WiMAX roaming communication system which concerns on embodiment of this invention. It is explanatory drawing of the table T1 with which the VisitedPF server before a network entry is carried out. It is explanatory drawing of table T2 with which a Visited AAA server is provided. It is explanatory drawing about the allocation procedure of a service flow identifier. It is explanatory drawing of the table T2 with which the VisitedAAA server at the time of a terminal making a network entry is provided. It is explanatory drawing about the cutting procedure of a roaming communication terminal. It is explanatory drawing of the conventional common WiMAX roaming communication system.

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram of the WiMAX roaming communication system according to the present invention, FIG. 2 is an explanatory diagram of a table T1 provided in the Visited PF server 32 before the terminal enters the network, and FIG. 3 is provided in the Visited AAA server 34. 4 is an explanatory diagram of a table T2, FIG. 4 is an explanatory diagram of a service flow identifier allocation procedure, and FIG. The same components as those of the WiMAX roaming communication system 100 shown in FIG. 7 are denoted by the same reference numerals, and detailed description thereof is omitted.

  The WiMAX roaming communication system 10 includes a Home WiMAX communication system 38 (one WiMAX roaming communication system) having an ASN 18a and a CSN 20, and a Visited WiMAX communication system 40 (another WiMAX roaming communication system) having an ASN 18b and a CSN 22.

  The HomeWiMAX communication system 38 and the Visited WiMAX communication system 40 are connected by the wide area communication network 24, and the HomeWiMAX communication system 38 and the Visited WiMAX communication system 40 are owned by different network service providers.

  The ASN 18a includes base stations 14a and 14b that are wirelessly connected to the terminals 12a and 12b, and an L3 switch 16a. The ASN 18b also includes base stations 14c and 14d and an L3 switch 16b, similar to the ASN 18a. The base stations 14a to 14d also have an ASNGW (Access Service Network-Gateway) function for managing QoS and the like.

  The CSN 20 includes a Home PF server 26 that is a PF server, a Home AAA server 28 that is an AAA server, and a Home DHCP server 30 that is a DHCP server. The CSN 22 includes a Visited PF server 32 that is a PF server, and a Visited AAA server that is a DHCP server. 34 and a Visited DHCP server 36 which is a DHCP server.

  The Visited PF server 32 includes a table T1 that defines a relationship between a terminal identification code and a service flow identifier (SFID) assigned to the terminal identification code shown in FIG.

  In the table T1, “SFID” 1 to 4 are areas for creating a service flow for a terminal contracting with the Visited WiMAX communication system 40, and “SFID” 5 to 12 are contracts with the Visited WiMAX communication system 40. An area for creating a service flow for a roaming communication terminal that has not been reserved is secured.

Here, table T1 is “SFID”, “UtID” indicates the terminal identification code, “SfFlag” indicates the type of data, general data is “0”, and control system data is “1”. “UlDl” indicates the uplink is “0”, the downlink is “1”, “SfStatus” indicates the home area reserved for the terminal contracted with the Visited WiMAX communication system 40, and “Visited WiMAX communication”. When the system 40 is used in a visited area reserved for a terminal contracted with another network service provider like the HomeWiMAX communication system 38, “1” is indicated, and “QosID” is “101” for each QoS quality. ˜104, 201-204 ”.
In the table T1, for “SFID” 1 to 4, a service flow identifier, a QoS profile, and the like are set for the terminal having the MAC address “H1”. In addition, in 5 to 12 of “SFID”, a service flow identifier, a QoS profile, and the like are set in advance for the roaming communication terminal. “UtID” in the table T1 before the network entry of the roaming communication terminal is not set.

  The Visited AAA server 34 includes a table T2 that defines the correspondence between the terminal identification code (MSID) shown in FIG. 3 and the identification code (BSID) of the base station of the wireless connection destination of the terminal. The terminal identification code and the base station identification code are not particularly limited as long as they can be specified. For example, the terminal identification code is a MAC address, and the base station identification code is an IP address. Can do.

  The Visited AAA server 34 has a function of determining a network service provider with which the terminal contracts based on an authentication realm (realm) in a “Radius Access Request” described later.

<Assignment of service flow identifier>
Next, the terminal 12b (roaming communication terminal) that has contracted with the network service provider that owns the HomeWiMAX communication system 38 performs so-called roaming communication in which communication is performed using the Visited WiMAX communication system 40 of the network service provider that has not contracted. The assignment of the service flow identifier to the terminal 12b when doing so will be described with reference to FIG. Note that the assignment of service flow identifiers when the terminal 12a performs roaming communication is performed in the same manner.

  The service flow identifier is assigned to the terminal 12b in the process of network entry under the control of the base station 14c. In order for the terminal 12b to be authenticated in the HomeWiMAX communication system 38, a message “Radius Access Request” including “Calling Station Id” and an authenticated user account is sent to the Visited AAA server 34 via the base station 14c and the L3 switch 16b. Transmit (step S1).

  In this network entry process, the terminal 12b is registered in the table T2 of the Visited AAA server 34 (step S2). In the table T2, the MAC address “V1” of the terminal 12b is registered as “MSID”, and the IP address “P1” of the base station 14b is registered as “BSID” (see FIG. 3).

  The Visited AAA server 34 specifies the Home AAA server 28 that is the authentication destination of the terminal 12b from the authentication realm, and transfers the message “Radius Access Request” to the Home AAA server 28 (step S3).

The Home AAA server 28 receives the message “Radius
The terminal 12b is authenticated based on at least one of “Calling Station Id” in the “Access Request” and the authenticated user account. When the home AAA server 28 authenticates the terminal 12b, the Home AAA server 28 transmits a Radius authentication packet “Radius Access Accept” to the Visited AAA server 34 (step S4). Note that the Home AAA server 28 transmits a message “Radius Access Reject” to the Visited AAA server 34 when the terminal 12b is not authenticated.

The Visited AAA server 34 receives the “Radius”
"Access Accept" is transferred to the base station 14c (step S5).

  Receiving the “Radius Access Accept”, the base station 14c transmits a message “Request” to the Visited PF server 32 to request generation of a service flow for the terminal 12b to the Visited PF server 32 (step S6).

  The Visited PF server 32 compares the received message “Request” with the table T1, determines the service flow identifier, and transmits the determined QoS profile and the like together with the determined service flow identifier to the base station 14c (step S7). .

  Here, the service flow identifier is determined in the following procedure. First, the Visited PF server 32 collates the received message “Request” with the table T1, and confirms that the MAC address of the terminal 12b is not registered in the table T1, and “SFID” is an area for the roaming communication terminal. "Any one of the areas 5-12 is reserved."

  Here, it is assumed that “SFID” 6, 8, 10, and 12 are secured. The Visited PF server 32 changes “SfStatus” of “SFID” 6, 8, 10, 12 from “0” to “1”, and sets a service flow identifier, a QoS profile, and the like for the identification code of the terminal 12b.

  The base station 14c generates a service flow with the terminal based on the received service flow identifier, QoS profile, and the like (step S8).

  Further, the terminal 12b transmits “Radius Accounting Request”, which is a message related to the accounting information, to the Visited AAA server 34 (step S9).

<Disconnecting roaming communication terminal>
Next, a procedure for disconnecting the roaming communication terminal from the WiMAX communication system owned by the network service provider with which the roaming communication terminal has a contract will be described. FIG. 6 is an explanatory diagram of the disconnection procedure of the roaming communication terminal.

  In the Visited WiMAX communication system 40 in which the terminal 12b, which is a roaming communication terminal, has a network entry, when the roaming communication terminal has a network entry, the base stations 14c and 14d connect the L3 switch 16b, the CSN 22, and the wide area communication network 24. The packet corresponding to the communication status is periodically transmitted to the Home AAA server 28 through the network. The contents of the packet include an identification code of a terminal wirelessly connected to the base stations 14c and 14d, a communication amount, and the like.

  If the Home AAA server 28 determines that the terminal 12b should be disconnected based on the packet corresponding to the communication status periodically transmitted, the Home AAA server 28 transmits a message “RADIUS Disconnect Request” to the Visited AAA server 34 (step S31). S11).

  Here, as a case where it is determined that the terminal should be disconnected, for example, it is determined that the communication volume of the terminal exceeds a certain communication volume defined in the contract contents from the communication status transmitted from the base station. Is the case. Further, when another terminal frequently asks for a network entry with the same authentication user account as the terminal that has already entered the network, it is determined that unauthorized access has been performed.

Visited AAA server 34 sends the message “RADIUS
The disconnect request ”is checked against the table T2, the base station to which the terminal 12b is wirelessly connected is specified, and the message is transferred to the base station 14c that is the specified base station (step S12).

  The base station 14c that has received the message disconnects from the wirelessly connected terminal 12b and forcibly leaves the terminal 12b (step S13).

  As described above, the WiMAX roaming communication system 10 includes the Home WiMAX communication system 38 and the Visited WiMAX communication system 40. The WiMAX communication system 38 and the WiMAX communication system 40 are owned by different network service providers, and the Visited PF server 32. Includes a table T1 that defines a correspondence relationship between a terminal identification code and a service flow identifier that is an identifier of a service flow generated between the terminal and the base station, and the table T1 includes a HomeWiMAX communication system. When the home AAA server 28 authenticates the terminal 12b when the area for generating the service flow for the roaming communication terminal subscribed to the terminal 38 is authenticated, the Visited PF server 32 stores the area reserved in the table T1. Terminal 12 Assigning the service flow identifier.

  According to the WiMAX roaming communication system 10, the Visited AAA server 34 creates a table T1 that defines a correspondence relationship between a terminal identification code and a service flow identifier that is a service flow identifier generated between the terminal and the base station. The table T1 can appropriately generate an SFID by securing an area for generating a service flow for a roaming communication terminal contracted with the HomeWiMAX communication system 38.

  It should be noted that the present invention is not limited to the above-described embodiment, and various configurations can be adopted without departing from the gist of the present invention.

10, 100 ... WiMAX roaming communication system 12a to 12d ... terminal (MS)
14a-14d, 102a-102d ... Base station (BS)
16a, 16b ... L3 switches 18a, 18b, 104a, 104b ... ASN
20, 22, 106, 108 ... CSN
24 ... Wide area communication network 26, 110 ... Home PF server 28, 112 ... Home AAA server 30 ... Home DHCP server 32, 114 ... Visited PF server 34, 116 ... Visited AAA server 36 ... Visited DHCP server 38, 118 ... Home WiMAX communication system 40, 120 ... Visited WiMAX communication System T1, T2 ... Table

Claims (1)

CSN (Connectivity) with an AAA (Authentication Authorization Accounting) server that authenticates the terminal
Service Network)
An ASN (Access Service Network) connected to the CSN having a base station to which the terminal is wirelessly connected;
A plurality of WiMAX communication systems having
One WiMAX communication system and the other WiMAX communication system are owned by different network service providers,
A PF server of the other WiMAX communication system has a table that defines a correspondence relationship between an identification code of the terminal and a service flow identifier that is an identifier of a service flow generated between the terminal and the base station;
In the table, an area for generating a service flow for a roaming communication terminal contracted with the one WiMAX communication system is secured,
When the AAA server of the one WiMAX communication system authenticates the roaming terminal, the PF server of the other WiMAX communication system sends the service flow identifier to the roaming terminal based on the area reserved in the table. A WiMAX roaming communication system, characterized in that