JP2005039317A - Network relaying system, relaying apparatus, and user terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network relaying system capable of recognizing that a user terminal is directly connected to a network to which the user terminal desires its connection and executing authentication, approval and charging imposition on individual users even when the user terminal is connected to the desired network via another network and to provide a relaying apparatus and the user terminal. <P>SOLUTION: When the user terminal 1 switches its connection from a wireless access network to a relay network, a relay network interface 12 provided to the user terminal 1 transmits terminal unique information and subscriber information to the relaying apparatus 2 via the relay network. The relaying apparatus 2 receiving the information items uses the terminal unique information to connect with a core network via the wireless access network. A terminal authentication server 4 recognizes that the user terminal 1 is connected to the core network on the basis of the terminal unique information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a network relay system, a relay device, and a user terminal that are improved in a connection method when connecting to a connection-desired network via a network different from a network that the user terminal desires to connect in an access network.
[0002]
[Prior art]
In recent years, wireless Internet services have been started. In this method, a user connects to a base station by wireless communication using a mobile phone or the like, and further connects to the Internet via the base station. In a communication service using such a wireless access network (cellular, wireless LAN, etc.), the user terminal is directly connected to an opposite node (base station, access point, etc.) on the wireless access network side. In the case of a mobile phone network or the like, when a user uses a radio access network, a subscriber identifier given to the mobile phone terminal is notified to the core network side beyond the base station prior to communication. This subscriber identifier is used for terminal authentication, billing calculation, base station change (handover) associated with terminal movement, and the like.
[0003]
Regarding connection with an external network (Internet, corporate network, etc.) via a wireless access network such as the cellular system described above, there are generally a provider that provides a wireless access network and a provider that provides external network connection. The user uses a connection service to the radio access network and an external network connection service, and authentication for each service is required. In the authentication of the radio access network section, information unique to the system is used, and these are stored in a terminal such as a mobile phone or a modem having an interface of the radio section.
[0004]
In a radio access network such as a cellular system or a wireless LAN, when the frequency assigned to the system increases, the service area is reduced due to the attenuation of the transmission distance, and the occurrence of dead spots where radio waves do not reach increases. It becomes difficult to provide. In order to solve this, it is conceivable to install the radio access network terminal nodes densely, but in this case, the installation cost increases. On the other hand, a relay device such as a router relays between different networks having a complementary relationship, thereby eliminating dead spots and expanding the service area. If the user terminal is allowed to have interfaces corresponding to a plurality of networks, a dead spot of a certain radio access network can be complemented by another network by relaying between different networks by a router.
[0005]
As an example of a relay device with an access network and a network different from the access network, there is a wireless ADSL router (for example, see Non-Patent Document 1). FIG. 5 is a diagram showing a configuration example of a network using a wireless ADSL router. In the figure, reference numeral 1 denotes a user terminal, which is provided with a wireless LAN interface 13 for connecting to a wireless ADSL router 6. The wireless ADSL router 6 relays the wireless LAN and the ADSL line. Reference numeral 7 denotes an ADSL modem that modulates and demodulates data, and reference numeral 8 denotes a splitter that separates an audio signal and a data signal. The user terminal 1 is connected to the wireless ADSL router 6 using a wireless LAN (IEEE802.11b, IEEE802.11g, etc.). Then, it connects to the Internet (external network) via an access network (ADSL line). Since a wireless LAN is used for connection between the wireless ADSL router 6 and the user terminal 1, the user can freely move the user terminal 1 within the wireless LAN area regardless of the installation location of the wireless ADSL router 6. Yes (elimination of dead spot area). When the wireless ADSL router 6 is used, the global IP address assigned from the external network is assigned to the end of the wireless ADSL router 6 on the external network side, and the user terminal 1 is assigned a private IP address. The wireless ADSL router 6 performs processing for rewriting the source private IP address to the global IP address for the packet transmitted from the user terminal 1, and transmits the processed packet to the external network.
[0006]
Even in the case of connection to an external network via a wireless access network such as the wireless Internet described above, even if the user cannot connect directly to the wireless access network that the user desires to connect to, a relay device such as a router Can be connected to the radio access network via the relay device. For example, the user can connect to the wireless access network via the relay device even in a place where the wireless access network cannot be directly connected (such as a basement) at home.
[0007]
[Non-Patent Document 1]
"Nikkei PC", Nikkei BP, January 21, 2002, No. 401, p125
[0008]
[Problems to be solved by the invention]
However, when a router that relays at the network layer is used as a relay device, the terminal recognized by the access network is a relay router that is the end of the access network, and user terminals connected via the relay router are connected to the wireless access network. Cannot be recognized as a user. Therefore, when the user and the relay device cannot be uniquely identified (for example, when a publicly installed relay device or a relay device owned by another user is used), the user terminal is charged for using the connection service between the wireless access network and the router section. It was difficult to apply.
[0009]
Furthermore, considering the case where the user terminal moves from the area of the radio access network to the area of the relay router, the user terminal IP address is changed to an IP address having the same network address as that of the relay network. Is connected to the access network via the relay router, and the IP connection with the access network before movement is disconnected. At this time, as described above, there is a problem that the user terminal connected via the relay router cannot be recognized as a user of the access network.
[0010]
The present invention has been made in view of the above-described problems, and when the user is directly connected to the connection-desired network even if the user is connected to the desired network via another network. It is an object of the present invention to provide a network relay system, a relay device, and a user terminal that can be recognized and can authenticate, permit, and charge individual users.
[0011]
[Means for Solving the Problems]
The present invention has been made to solve the above-described problems, and the invention according to claim 1 includes a first server and a second server, and a user terminal connected to the first network or the second network. And a relay device connected to the first network and connected to the first and second servers via the second network, wherein the user terminal relates to the terminal Terminal information and user information related to a user are provided to the relay device via the first network, and the relay device transmits the received terminal information and user information to the second device. A second transmission unit configured to transmit to the network, wherein the first server uses the terminal information received via the second network; And the second server identifies the user using the user information received via the second network when the user terminal is identified by the first server. A network relay system characterized by identifying.
[0012]
According to a second aspect of the present invention, in the network relay system according to the first aspect, the user terminal further comprises switching means for switching a line with the first and second networks, and the first transmission And means for transmitting the terminal information and the user information to the relay device via the first network when the line is switched from the second network to the first network by the switching means. Features.
[0013]
According to a third aspect of the present invention, in the network relay system according to the second aspect, the first transmission unit is further configured so that the line with the first network is connected with the second network by the switching unit. When the switch is switched, the disconnection instruction for disconnecting the line is transmitted to the relay apparatus via the first network, and the relay apparatus further includes a line with the user terminal based on the received disconnection instruction and the The line with the second server is disconnected.
[0014]
According to a fourth aspect of the present invention, in the network relay system according to the second or third aspect, the user terminal further receives a signal periodically from the first network or the second network, Detecting means for detecting a value relating to the reception level of the signal, wherein the switching means is connected to the first network and the second network according to the value relating to the reception level detected by the detecting means; It is characterized by switching.
[0015]
According to a fifth aspect of the present invention, there is provided receiving means for receiving terminal information related to a terminal and user information related to a user transmitted from a user terminal via a first network, the terminal information received by the receiving means, and the terminal information A relay apparatus comprising: a transmission unit configured to transmit user information to a second network to which a first server for identifying a terminal and a second server for identifying a user are connected.
[0016]
According to a sixth aspect of the present invention, in the relay device according to the fifth aspect, when the user terminal switches connection from the first network to the second network, the line with the user terminal and the user terminal The line with the second server is disconnected.
[0017]
According to a seventh aspect of the present invention, there is provided storage means for storing terminal information relating to a terminal and user information relating to a user, a first server and a user for identifying the terminal by reading out the terminal information and the user information from the storage means. A user terminal comprising: transmission means for transmitting the terminal information and the user information to a relay device connected to a second server to be identified via a first network.
[0018]
According to an eighth aspect of the present invention, in the user terminal according to the seventh aspect, the switching for switching the line with the second network and the line with the first network to which the first and second servers are connected. And the transmission means is configured to switch the relay device via the first network when the line to the second network is switched to the line to the first network by the switching means. The terminal information and the user information are transmitted to.
[0019]
According to a ninth aspect of the present invention, the user terminal according to the eighth aspect further comprises detection means for periodically receiving a signal from the first or second network and detecting a value related to the reception level of the signal. The switching means switches the lines with the first and second networks according to a value related to the reception level detected by the detection means.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a configuration of a network relay system according to an embodiment of the present invention. In the figure, reference numeral 1 denotes a user terminal, which is provided with a radio access network interface 11 and a relay network interface 12. The user terminal 1 is connected to the wireless access network via the wireless access network interface 11 by wireless communication, and is connected to the relay network via the relay network interface 12 by wireless communication. The user terminal 1 is a mobile phone provided with an interface for connecting to two wireless networks, a PHS (registered trademark), a PDA (Personal Digital Assistance), a PC (Personal Computer), or the like. A relay device 2 relays between the wireless access network and the relay network. Also in the relay device 2, a radio access network interface 21 and a relay network interface 22 corresponding to each network are provided. Reference numeral 3 denotes a radio access network base station. Reference numeral 4 denotes a terminal authentication server owned by a provider that provides a wireless access network, and manages terminal authentication / permission / charge of each user terminal. A user access server 5 performs user authentication using a user name and a password, and establishes a session for user communication such as voice and data.
[0021]
The relay network is a wireless network between the user terminal 1 and the relay device 2. Examples of the relay network include a wireless LAN (such as the aforementioned IEEE802.11b) and Bluetooth (registered trademark). The radio access network is a network that provides a radio section between a user terminal and a radio access base station. The core network is a network between an external network such as the Internet and a radio access network. The radio access network and the core network are managed by the same operator. A radio access network and its core network include a cdma2000 HRPD (High Rate Packet Data) network. The core network is connected to an external network such as the Internet, and the external network is managed by an operator different from the radio access network and the core network.
[0022]
FIG. 2 is a block diagram showing a configuration related to the interface of the user terminal 1. In the figure, reference numeral 10 denotes a storage unit that stores identification information such as terminal-specific information given to the user terminal 1 or subscriber information associated therewith. The storage unit 10 is connected to the radio access network interface 11 and the relay network interface 12. The radio access network interface 11 and the relay network interface 12 read necessary terminal-specific information or subscriber information from the storage unit 10 and transmit it to the networks to which they are connected.
[0023]
The relay device 2 receives terminal-specific information transmitted from the user terminal 1 and uses a unique identifier assigned to the radio access network interface 21 of the relay device 2 when connecting to the radio access network. The terminal-specific information of the received user terminal 1 is used. For example, during a connection establishment operation between the radio access network and the user terminal 1, the user terminal 1 first establishes a connection between the user terminal 1 and the relay device 2 through the relay network interface 12. Subsequently, the user terminal 1 transmits a terminal-specific identifier and subscriber information included in the user terminal 1 to the relay device 2. Next, the relay device 2 transmits the identifier unique to the user terminal transmitted from the user terminal 1 to the radio access network base station 3.
[0024]
The radio access network base station 3 notifies the terminal identifier or the like given to the user terminal 1 to the terminal authentication server 4, and the terminal authentication server 4 performs terminal authentication and performs billing calculation. For example, in the case of an HRPD system, an IMSI (International Mobile Subscriber Identity) uniquely defined for a user terminal is used as a terminal-specific identifier (MSID: Mobile Station ID) used for terminal authentication. Is done.
[0025]
As described above, since the relay device 2 uses the information of the user terminal 1 as the authentication information, it is considered that the user terminal 1 is directly connected from the core network. For this reason, it is possible to set a billing target as a user who owns the user terminal 1. After the terminal authentication by the provider providing the wireless access network and the core network as indicated by the arrow A in FIG. 3 is completed, the user terminal 1 subsequently accesses the user access server 5. The user access server 5 performs user authentication with the Internet service provider (ISP) using the user name and password, and establishes a session for user communication such as voice and data (arrow B in FIG. 3). Here, for example, as shown in FIG. 3, the user terminal 1 further inserts (encapsulates) the radio access network frame in which the data is inserted into the relay network frame, and transmits the frame to the relay device 2. Receiving this, the relay device 2 performs communication by taking out the encapsulated radio access network frame from the relay network frame and transmitting it to the radio access network. Alternatively, the user terminal 1 transmits data to the relay device 2 using the relay network frame, and the relay device 2 extracts the data from the relay network frame, inserts the data into the radio access network frame, and transmits the data to the radio access network. To communicate. Further, when the user terminal 1 receives data from the radio access network, an operation reverse to the above is performed. In the present embodiment, the case where the user terminal 1 and the relay device 2 have one relay network interface has been described. However, the present invention is not limited to this, and a plurality of relay network interfaces may be provided. good.
[0026]
Next, a case where the user terminal 1 switches connection between different networks will be described. FIG. 4 is a diagram showing the configuration of the network relay system in this case. In this figure, the user terminal 1 directly connected to the core network using the radio access network moves into the relay network area of the relay device 2, and the connection to the radio access network passes from the direct connection to the relay device 2. When switching to connection (corresponding to the arrow A in the figure), and the user terminal 1 connected to the radio access network via the relay device 2 moves out of the relay network area, and from the connection via the relay device 2 A case of switching to direct connection to a wireless access network (corresponding to an arrow B in the figure) is shown. Here, it is assumed that the core network and the user terminal 1 have a function of releasing / re-establishing the radio resources of the radio access network while maintaining the connection between the user terminal 1 and the radio access network as in the dormant method, for example.
[0027]
Here, the connection switching condition is a result of determination based on a preset threshold. For example, the user terminal 1 directly connected to the core network using the radio access network acquires the power and SN ratio (signal power and noise power ratio) of the received signal received from the relay network at a certain time interval. When the value of the received signal power or the SN ratio becomes larger than the predetermined value of the received signal power or the SN ratio, the connection is switched via the relay device 2. On the contrary, when the user terminal 1 connected to the radio access network via the relay device 2 has received signal power from the relay network or the value of the SN ratio becomes smaller than a predetermined value, the radio access network Switch to a direct connection to.
[0028]
Next, an example of switching the user terminal 1 directly connected to the wireless access network to connection via the relay device 2 will be described. Here, it is assumed that the connection switching determination is made by determining the reception level using the received signal power of the relay network. When the user terminal 1 directly connected to the radio access network moves into the relay network area of the relay device 2 and the received signal power of the relay network takes a value larger than a predetermined threshold, the user terminal 1 relays Connection with the device 2 is performed. After the connection between the user terminal 1 and the relay device 2 is established, the user terminal 1 sends necessary information such as an identifier unique to the user terminal 1 and an IP address used by the user terminal 1 at the time of direct connection to the relay device 2. Send. Subsequently, at the same time as the user terminal 1 disconnects the directly connected wireless line, the relay device 2 connects to the core network through the wireless access network using the information transmitted from the user terminal 1. Since the relay device 2 uses the information of the user terminal 1 to connect to the core network via the radio access network, it is recognized that the user terminal 1 is directly reconnecting on the core network side. Furthermore, since the session is maintained even when the wireless line is disconnected as in the dormant method, for example, a continuous connection state can be provided for the communication function of the upper layer.
[0029]
Next, an example of switching to direct connection by the user terminal 1 connected to the radio access network via the relay device 2 will be described. Here, the received signal power of the relay network is used to determine connection switching. When the user terminal 1 connected to the radio access network via the relay device 2 moves out of the relay network area and the received signal of the relay network falls below a predetermined threshold, the user terminal 1 Is instructed to disconnect the radio access network line with the core network. At the same time that the relay device 2 disconnects the line with the user access server 5, the user terminal 1 makes a direct connection to the radio access network. After establishing a direct connection with the radio access network, the user terminal 1 releases the connection with the relay device 2. Since the relay device 2 performs terminal authentication to the core network using an identifier unique to the user terminal 1, the core network side recognizes that the user terminal 1 has switched from connection via the relay device 2 to direct connection. do not do.
[0030]
In the above-described embodiment, the connection between the user terminal 1 and the radio access network and the relay network is switched when the user terminal 1 moves, but the user terminal 1 relays when the relay device 2 moves. The configuration may be such that it is outside the network area and the connection is switched from the relay network to the wireless access network. Further, the network relay system in the above-described embodiment includes the terminal authentication server 4 and the user access server 5, respectively. However, the network relay system includes a single server having two functions of terminal authentication and user authentication. May be. Further, the power of the signal received from the relay network and the SN ratio are used for the determination of the switching of the line between the radio access network and the relay network performed by the user terminal 1, but the power of the signal received from the radio access network The line switching may be determined using the S / N ratio.
[0031]
【The invention's effect】
As described above, according to the present invention, since the relay device uses the identification information unique to the user terminal received from the user terminal, the core network is connected to the core network that the user desires to connect to. It is possible to recognize that the terminal is directly connected to the radio access network, and the wireless access network operator can authenticate, permit, and charge for each user terminal.
In addition, users can connect to the wireless access network via a relay device even in places where radio waves from the wireless access network do not reach, and the wireless access network service area can be expanded or the dead spot area can be eliminated. Alternatively, it is possible to easily proceed without newly adding or changing a device or software to the core network.
In addition, in the connection between the user terminal and the core network, even if a handover from the direct connection to the connection via the relay device or vice versa, the core network side recognizes the user terminal by the identification information of the user terminal. The effect that the link is continued is obtained.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a network relay system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration related to an interface of the user terminal 1 according to the embodiment.
FIG. 3 is a diagram for explaining connection of a user terminal 1 to a radio access network via a relay network in the embodiment.
FIG. 4 is a diagram for explaining an operation when the user terminal 1 switches the connection between the radio access network and the relay network in the embodiment.
FIG. 5 is a diagram illustrating a configuration example of a network using a conventional wireless ADSL router.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... User terminal, 2 ... Relay device, 3 ... Wireless access network base station, 4 ... Terminal authentication server, 5 ... User access server, 6 ... Wireless ADSL router, 7 ... ADSL modem, 8 ... splitter, 10 ... storage unit, 11, 21 ... radio access network interface, 12, 22 ... relay network interface, 13 ... wireless LAN interface

Claims (9)

A first terminal and a second server; a user terminal connected to the first network or the second network; and the first and second servers connected to the first network and via the second network. In a network relay system comprising a relay device connected to two servers,
The user terminal includes first transmission means for transmitting terminal information about the terminal and user information about the user to the relay device via the first network,
The relay device includes second transmission means for transmitting the received terminal information and the user information to the second network,
The first server identifies the user terminal using the terminal information received via the second network,
The network wherein the second server identifies the user using the user information received via the second network when the user terminal is identified by the first server. Relay system. The user terminal further comprises switching means for switching a line with the first and second networks,
The first transmission unit transmits the terminal information and the user information to the relay device via the first network when the line is switched from the second network to the first network by the switching unit. The network relay system according to claim 1, further comprising: The first transmission means further provides a disconnection instruction for instructing a line disconnection via the first network when the switching means switches the line with the first network to the line with the second network. To the relay device,
The network relay system according to claim 2, wherein the relay device further disconnects the line with the user terminal and the line with the second server based on the received disconnection instruction. The user terminal further includes detection means for periodically receiving a signal from the first network or the second network and detecting a value related to a reception level of the signal,
4. The switch according to claim 2, wherein the switching unit switches a line between the first network and the second network according to a value related to the reception level detected by the detection unit. Network relay system. Receiving means for receiving terminal information related to the terminal and user information related to the user transmitted from the user terminal via the first network;
Transmitting means for transmitting the terminal information and the user information received by the receiving means to a second network to which a first server for identifying a terminal and a second server for identifying a user are connected;
A relay apparatus comprising: 6. The line with the user terminal and the line with the second server are disconnected when the user terminal switches connection from the first network to the second network. The relay device described. Storage means for storing terminal information about the terminal and user information about the user;
The terminal information and the user information are read from the storage means, and the terminal information and the relay device connected to the first server for identifying the terminal and the second server for identifying the user are connected via the first network. Transmitting means for transmitting the user information;
A user terminal comprising: And further comprising switching means for switching a line with the second network to which the first and second servers are connected and a line with the first network, wherein the transmission means is configured to switch the second network by the switching means. 8. The terminal information and the user information are transmitted to the relay apparatus via the first network when a line with the network is switched to a line with the first network. The user terminal described in 1. Detecting means for periodically receiving a signal from the first or second network and detecting a value related to a reception level of the signal;
9. The user terminal according to claim 8, wherein the switching unit switches a line with the first and second networks according to a value related to the reception level detected by the detection unit.

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