JP5390451B2 - Wimax roaming communication system - Google Patents

Description

  The present invention is a WiMAX including a CSN having a PF server for managing communication resources for a terminal and an AAA server for authenticating the terminal, and an ASN having a base station to which the terminal is wirelessly connected and connected to the CSN. The present invention relates to a Wimax roaming communication system including a plurality of communication systems.

  As a next-generation high-speed mobile communication system, WiMAX (Worldwide Interoperability for Microwave Access) has attracted international attention, and the introduction of this system has started.

  As shown in FIG. 8, the Wimax communication system 100 includes ASNs (Access Service Networks) 102a and 102b and a CSN (Connectivity Service Network) 104, and is a terminal (MS) such as a computer or a mobile phone having a communication function. ) 12a to 12d can communicate with each other by connecting to the ASNs 102a and 02b (see Non-Patent Documents 1 and 2).

  The ASN 102a includes base stations 14a and 14b that are wirelessly connected to the terminals 12a and 12b, and an ASNGW (Access Service Network-Gateway) 106a that performs QoS (Quality of Service) management, and the ASN 102b is similar to the ASN 102a. , 14d and ASNGW 106b. The CSN 104 includes a PF (Policy Function) server, an AAA (Authentication Authorization Accounting) server, and a DHCP (Dynamic Host Configuration Protocol) server.

  The Wimax communication system 100 supports service flows having different QoS characteristics between the terminal 12a and the base station 14a, between the terminal 12b and the base station 14b, between the terminal 12c and the base station 14c, and between the terminal 12d and the base station 14d. A service flow (SF: Service Flow) is generated. A service flow identifier (SFID) that is an identifier of the service flow is assigned by the ASNGWs 106a and 106b, and the service flow identifier is assigned to the terminals 12a and 12b or the terminals 12c and 12d subordinate to the ASNGWs 106a and 106b. Different service flows are generated. Therefore, even when the terminal moves and performs a handover to change the base station that is the wireless connection destination, the service flow identifiers do not overlap within the same ASN, so the handover is performed without any problem.

WiMAX Forum Network Architecture (Stage2: Architecture Tenets, Reference Model and Reference Points) [Part2] IMPLEMENTATION DRAFT May 8, 2008 p.148-149 WiMAX Forum Network Architecture (Stage3: Detailed Protocols and Procedures) IMPLEMENTATION DRAFT May 8, 2008, p.41-43

  However, in a Wimax communication system owned by a different network service provider, when communication by so-called roaming service is performed, if a service flow identifier that should be originally allocated has already been allocated at the roaming destination, the Wimax of the roaming destination A network entry cannot be made to the roaming communication system, and as a result, handover is not established.

  The present invention has been made in consideration of the above problems, and provides a Wimax roaming communication system capable of preventing service flows having the same service flow identifier from being generated in communication in a roaming service. The purpose is to do.

  The Wimax roaming communication system according to the present invention wirelessly connects a CSN (Connectivity Service Network) having a PF server that manages communication resources for a terminal and an AAA (Authentication Authorization Accounting) server that authenticates the terminal to the terminal. A plurality of WiMAX communication systems having a base station and an ASN (Access Service Network) connected to the CSN, wherein one WiMAX communication system and another WiMAX communication system are owned by different network service providers; A service flow identifier in which at least one of the PF servers of one WiMAX communication system or the other WiMAX communication system is an identifier of a service flow generated between the terminal identification code and the base station The table that defines the correspondence with The AAA server in the other WiMAX communication system authenticates the terminal when the terminal that has a contract with the one WiMAX communication system makes a network entry in the other WiMAX communication system When the AAA server in the one WiMAX communication system is specified and the AAA server in the one WiMAX communication system authenticates the terminal, the service flow identifier is assigned by the PF server having the table. It is characterized by.

  In the Wimax roaming communication system, the other WiMAX communication system is characterized in that a PF server in the other WiMAX communication system includes the table.

  In the Wimax roaming communication system, the other WiMAX communication system is characterized in that a PF server in the one WiMAX communication system includes the table.

  According to the Wimax roaming communication system of the present invention, the PF server includes a table, and by assigning a service flow identifier for each authentication user account with reference to the table, the same service flow identifier is used in communication in the roaming service. A service flow can be prevented from being generated.

It is explanatory drawing of the Wimax communication system which concerns on 1st Embodiment of this invention. It is explanatory drawing of the table with which a PF server is provided. It is explanatory drawing about the allocation procedure of a service flow identifier. It is explanatory drawing of the Wimax roaming communication system which concerns on 2nd Embodiment of this invention. It is explanatory drawing about the allocation procedure of the service flow identifier in 2nd Embodiment of this invention. It is explanatory drawing of the Wimax roaming communication system which concerns on 3rd Embodiment of this invention. It is explanatory drawing about the allocation procedure of the service flow identifier in 3rd Embodiment of this invention. It is explanatory drawing of the conventional general Wimax communication system.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram of a Wimax communication system according to the first embodiment of the present invention, FIG. 2 is an explanatory diagram of a table T provided in the PF server 22, and FIG. 3 is a service flow identifier assignment procedure. It is explanatory drawing of. The same components as those of the Wimax communication system 100 shown in FIG. 8 are denoted by the same reference numerals, and detailed description thereof is omitted.

  The Wimax communication system 10 includes ASNs 16a and 16b and a CSN 18.

  The ASN 16a includes a base station 14a that is wirelessly connected to the terminal 12a, a base station 14b that is wirelessly connected to the terminal 12b, and an ASNGW 20a that performs QoS management and the like. Moreover, ASN16b is the structure similar to ASN16a, Comprising: Base station 14c, 14d and ASNGW20b are provided.

  The CSN 18 includes a PF server 22 that manages communication resources for a terminal, an AAA server 24 that collects and manages terminal authentication and billing information, and a DHCP server 26 that assigns and manages an IP address to the terminal. The PF server 22 is a terminal identification code shown in FIG. 2, and defines the relationship between an authentication user account comprising a user name and a password and a service flow identifier (SFID) assigned to the authentication user account. A table T is provided.

  Next, assignment of a service flow identifier to the terminal 12b will be described. The service flow identifiers are similarly assigned to the terminals 12a, 12c, and 12d.

  The service flow identifier is assigned to the terminal 12b in the process of network entry under the control of the base station 14b. In order for the terminal 12b to be authenticated by the AAA server 24, a message “Radius Access Request” including the “Calling Station Id” (MAC address) and the authenticated user account is transmitted from the ASNGW 20a to the AAA server 24 via the base station 14b. (Step S1).

  The AAA server 24 determines whether or not the terminal 12b can be authenticated based on at least one of “Calling Station Id” in the received message “Radius Access Request” and the authentication user account. When the AAA server 24 authenticates the terminal 12b, the AAA server 24 transmits a message “Request” for requesting provision of the QoS profile together with the authentication user account to the PF server 22 (step S2).

  The PF server 22 compares the received authenticated user account with the table T, determines a service flow identifier, and transmits the determined QoS profile together with the determined service flow identifier to the AAA server 24 (step S3). For example, when the authentication user account of the terminal 12b is “X1”, “SFID1” is assigned as the service flow identifier and is transmitted to the AAA server 24 together with the QoS profile.

  The AAA server 24 transmits “Radius Access Accept” which is a Radius authentication packet together with the received service flow identifier and QoS profile to the ASNGW 20a, and the ASNGW 20a extracts the message “EAP” and transmits it to the base station 14b (step S4). ).

  The base station 14b generates a service flow with the terminal 12b based on the received message “EAP”. Even when the terminal 12b is handed over from the base station 14b to the base station 14c, the service flow identifier assigned to the terminal 12b is not assigned to another terminal, so that the handover can be established.

  In the Wimax communication system 10, the PF server 22 includes the table T, and by referring to the table T and assigning different service flow identifiers for each authentication user account, service flows having the same service flow identifier are generated. Can be prevented. As a result, the terminal 12b can establish a handover over different ASNs from the ASN 16a to the ASN 16b without degrading the overall performance of the Wimax communication system 10.

  Further, by defining the relationship between the authenticated user account and the service flow identifier in the table T, the service flow can be managed in a unified manner even when the user has a plurality of terminals.

<SFID allocation in roaming service (1)>
Next, a second embodiment of the present invention will be described with reference to the drawings. FIG. 4 is an explanatory diagram of the Wimax roaming communication system 30 according to the second embodiment of the present invention, and FIG. 5 is an explanatory diagram of a service flow identifier assignment procedure. In addition, the same code | symbol is attached | subjected to the component same as the Wimax communication systems 10 and 100 shown in FIG. 1, FIG. 8, and the detailed description is abbreviate | omitted.

  The Wimax roaming communication system 30 includes ASNs 16 a and 16 b, CSNs 32 and 34, and a wide area communication network 36.

  The CSN 32 includes a Visited PF server 38, a Visited AAA server 40, and a Visited DHCP server 42. The CSN 34 includes a Home PF server 44, a Home AAA server 46, and a Home DHCP server 48.

  The Visited PF server 38 includes a table T similar to that of the PF server 22, and in addition to the specified contents of the table T of the PF server 22, a service flow identifier to be assigned to each terminal that requests communication by the roaming service is also specified. Yes.

  The Visited AAA server 40 is a server that performs terminal authentication and billing information collection / management, and determines a network service provider with which the terminal contracts based on an authentication realm (realm) in a “Radius Access Request” described later. It has a function. In addition, when it is determined that the terminal contracts with a network service provider other than the network service provider system configured by the Visited AAA server 40, the terminal has a function of notifying the Visited PF server 38 to that effect, and also authenticates the terminal. The previous AAA server list is provided.

  The Visited DHCP server 42 and the Home DHCP server 48 have the same configuration as the DHCP server 26. The Home PF server 44 is a server that manages communication resources for terminals, but unlike the PF server 22, it does not include a table T. The home AAA server 46 has the same configuration as the AAA server 24.

  The Wimax roaming communication system 30 includes a Visited Wimax communication system V1 (another WiMAX communication system) composed of an ASN 16a and a CSN 32, and a Home Wimax communication system H1 (a single WiMAX communication system) composed of an ASN 16b and a CSN 34. Is done. The Visited Wimax communication system V1 and the Home Wimax communication system H1 are owned by different network service providers. The CSN 32 and the CSN 34 are connected via a wide area communication network 36 constituted by the Internet or the like.

  Next, the terminal 12c in the case where the terminal 12c contracted with the network service provider of the HomeWimax communication system H1 communicates by using the visited Wimax communication system V1 of the network service provider not contracted, so-called roaming service. The assignment of service flow identifiers to will be described. The service flow identifier is assigned in the same manner when the terminal 12d performs communication using the roaming service.

  The service flow identifier is assigned to the terminal 12c in the process of network entry under the control of the base station 14b. In order for the terminal 12c to be authenticated by the Home AAA server 46, a message “Radius Access Request” including “Calling Station Id” and the authenticated user account is transmitted from the ASNGW 20a to the Visited AAA server 40 via the base station 14b (step S40). S11).

  The Visited AAA server 40 identifies the contracted network service provider from the authentication realm in the message “Radius Access Request”, and the message “Request” indicates that the terminal 12c is contracted with the network service provider of the HomeWimax communication system H1. It transmits to the Visited PF server 38 (step S12). The Visited AAA server 40 identifies the Home AAA server 46 that is the authentication destination of the terminal 12c from the authentication realm, and transfers the message “Radius Access Request” to the Home AAA server 46 (step S13).

  The Visited PF server 38 compares the received message “Request” with the table T to determine a service flow identifier, and transmits the determined QoS profile together with the determined service flow identifier to the Visited AAA server 40 (step S14).

  The home AAA server 46 determines whether or not the terminal 12c can be authenticated based on at least one of “Calling Station Id” in the received message “Radius Access Request” and the authentication user account. When the home AAA server 46 authenticates the terminal 12c, the Home AAA server 46 transmits a Radius authentication packet “Radius Access Accept” to the Visited AAA server 40 (step S15).

  When the Visited AAA server 40 receives the “Radius Access Accept” from the Home AAA server 46, the Visited AAA server 40 transmits the service flow identifier and QoS profile received from the Visited PF server 38 to the ASNGW 20 a together with the “Radius Access Accept”, and the ASNGW 20 a The message “EAP” is extracted and transmitted to the base station 14b (step S16).

  The base station 14b generates a service flow with the terminal 12c based on the received message “EAP”.

  The Visited AAA server 40 discards the service flow identifier and QoS profile received from the Visited PF server 38 when the message “Radius Access Reject” is received from the Home AAA server 46.

  In the Wimax roaming communication system 30, the Visited PF server 38 includes a table T, and by referring to the table T, a service flow identifier is assigned to each authentication user account, whereby a service having the same service flow identifier is used in communication in the roaming service. A flow can be prevented from being generated.

<SFID allocation in roaming service (2)>
Next, a third embodiment of the present invention will be described with reference to the drawings. FIG. 6 is an explanatory diagram of a Wimax roaming communication system 50 according to the third embodiment of the present invention, and FIG. 7 is an explanatory diagram of a service flow identifier assignment procedure. In addition, the same code | symbol is attached | subjected to the component same as the Wimax communication systems 10, 30, and 100 shown in FIG.1, FIG.4, FIG.8, and the detailed description is abbreviate | omitted.

  The Wimax roaming communication system 50 includes ASNs 16a and 16b, a CSN 52, a CSN 54, and a wide area communication network 36.

  The CSN 52 includes a Visited PF server 58, a Visited AAA server 60, and a Visited DHCP server 62. The CSN 54 includes a Home PF server 64, a Home AAA server 66, and a Home DHCP server 68.

  The Visited PF server 58 is a server that manages communication resources for terminals, but unlike the PF server 22, it does not have a table T.

  The Visited AAA server 60 is a server similar to the Visited AAA server 40. However, if the Visited AAA server 60 determines that the terminal has a contract with a network service provider other than the network service provider system configured by the Visited AAA server 40, the Visited AAA server 60 However, the function of transmitting the message “Request” may not be provided.

  The Visited DHCP server 62 and the Home DHCP server 68 have the same configuration as the DHCP server 26. The Home PF server 64 includes a table T similar to that of the PF server 22, and in addition to the specified contents of the table T of the PF server 22, a service flow identifier to be assigned to each terminal that seeks communication by the roaming service is also specified. Yes. The table T is defined so as not to overlap with the service flow identifier assigned by the ASNGW 20a of the ASN 16a. The home AAA server 66 is a server having the same configuration as the visited AAA server 40.

  Further, in the Wimax roaming communication system 50, a Visited Wimax communication system V2 (another WiMAX communication system) composed of an ASN 16a and a CSN 52, and a Home Wimax communication system H2 (a single WiMAX communication system) composed of an ASN 16b and a CSN 54, Consists of The Visited Wimax communication system V2 and the Home Wimax communication system H2 are owned by different network service providers. The CSN 52 and the CSN 54 are connected via the wide area communication network 36.

  Next, assignment of a service flow identifier to the terminal 12c when the terminal 12c contracted with the network service provider of the HomeWimax communication system H2 communicates using the visited Wimax communication system V2 of the network service provider not contracted will be described. To do. The service flow identifier is assigned in the same manner when the terminal 12d performs communication using the roaming service.

  The service flow identifier is assigned to the terminal 12c in the process of network entry under the control of the base station 14b. In order for the terminal 12 c to be authenticated at the Home AAA server 46, a message “Radius Access Request” including “Calling Station Id” and an authenticated user account is transmitted from the ASNGW 20 a to the Visited AAA server 60 via the base station 14 b. (Step S21).

  The Visited AAA server 60 identifies the network service provider that is the contract destination from the authentication realm in the message “Radius Access Request”, identifies the Home AAA server 66 that is the authentication destination of the terminal 12c, and sends the message “Radius Access Request to the Home AAA server 66. "Is transferred (step S22).

  The home AAA server 66 determines whether or not the terminal 12c can be authenticated based on at least one of “Calling Station Id” in the received message “Radius Access Request” and the authentication user account. When the home AAA server 66 authenticates the terminal 12c, the home AAA server 66 transmits a message “Request” to the HomePF server 64 (step S23).

  The HomePF server 64 compares the received message “Request” with the table T to determine a service flow identifier, and transmits the determined QoS profile together with the determined service flow identifier to the Home AAA server 66 (step S24).

  The Home AAA server 66 transmits a Radius authentication packet “Radius Access Accept” together with the received service flow identifier and QoS profile to the Visited AAA server 60 (step S25).

  The Visited AAA server 60 transmits the received service flow identifier, QoS profile, and “Radius Access Accept” to the ASNGW 20a, and the ASNGW 20a extracts the message “EAP” and transmits it to the base station 14b (step S26).

  The base station 14b generates a service flow with the terminal 12b based on the received message “EAP”.

  In the Wimax roaming communication system 50, the HomePF server 64 includes a table T, and by referring to the table T, a service flow identifier is assigned to each authentication user account, so that a service having the same service flow identifier can be used in communication in the roaming service. A flow can be prevented from being generated.

  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.

  For example, the table T defines the relationship between an authenticated user account and a service flow identifier assigned to the authenticated user account. However, the table T is not limited to this as long as it is an identification code that can identify a terminal. Alternatively, the MAC address of the terminal may be used.

DESCRIPTION OF SYMBOLS 10, 100 ... Wimax communication system 12a-12d ... Terminal 14a-14d ... Base station 16a, 16b ... ASN
18, 32, 34, 52, 54 ... CSN
20a, 20b ... ASNGW
22 ... PF server 24 ... AAA server 26 ... DHCP server 30, 50 ... Wimax roaming communication system 36 ... Wide area communication network 38, 58 ... Visited PF server 40, 60 ... Visited AAA server 42, 62 ... Visited DHCP server 44, 64 ... Home PF server 46 , 66 ... Home AAA server 48, 68 ... Home DHCP server T ... Tables H1, H2 ... Home Wimax communication system V1, V2 ... Visited Wimax communication system

Claims (3)

A CSN (Connectivity Service Network) having a PF server that manages communication resources for the terminal and an AAA (Authentication Authorization Accounting) server that authenticates the terminal;
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 service flow in which at least one of the PF servers of the one WiMAX communication system or the other WiMAX communication system is an identification code of the terminal and a service flow identifier generated between the terminal and the base station It has a table that defines the correspondence with identifiers,
When the terminal contracted with the one WiMAX communication system makes a network entry in the other WiMAX communication system, the AAA server in the other WiMAX communication system authenticates the terminal. Identify AAA servers in the communication system;
The Wimax roaming communication system, wherein the service flow identifier is assigned by a PF server having the table when an AAA server in the one WiMAX communication system authenticates the terminal. The Wimax roaming communication system according to claim 1,
The Wimax roaming communication system characterized in that in the other WiMAX communication system, a PF server in the other WiMAX communication system includes the table. The Wimax roaming communication system according to claim 1,
In another WiMAX communication system, a PF server in the one WiMAX communication system includes the table.

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