JP6462471B2 - Wireless LAN access point sharing system and wireless LAN access point sharing method - Google Patents

Description

  The present invention relates to a wireless LAN access point sharing system and a wireless LAN access point sharing method.

  FON (registered trademark) is known as a service for sharing a wireless LAN router owned by a service contractor as an access point. The members of the FON (registered trademark) community are classified into three types: Linus, Bill, and Alien.

  Members classified as Linus provide a dedicated wireless LAN router installed at home as an access point to other members of the FON (registered trademark) community. Instead, FON (registered trademark) access points around the world called FON (registered trademark) spots can be used free of charge. This is a motivation for providing a wireless LAN router as an access point.

  When a member classified as Bill opens an access point, 50% of the access point usage fee is paid by FON as a reward. This is a motivation for providing a wireless LAN router as an access point. Instead, it is necessary to pay a usage fee when using other access points.

  Members classified as Alien do not need to open an access point themselves. However, it is necessary to pay a usage fee when using the access point.

  Note that a charging method in a wireless network is standardized by 3GPP (Third Generation Partnership Project) (see Non-Patent Document 1).

3GPP TS 23.203 V8.6.0, “Policy and charging control architecture”, June 2009

  By the way, a general communication carrier provides services such as Internet connection to a line subscriber who has a line with this communication carrier by a wireless LAN router called a home gateway. Each line contractor pays a line usage fee to the carrier for the service. Advantages and issues associated with this service provider providing a service for sharing access points between members like FON (registered trademark) will be described below.

  Due to the increase in data traffic of mobile terminals in recent years, it is often the case that the communication speed is lowered and connection is difficult in densely populated areas. In order to solve this problem, a communication carrier installs an access point at a station or a store in an urban area, and guides data traffic of the mobile terminal to another communication means such as a fixed line. Communication carriers are actively promoting the distribution of data traffic, so-called data offload. However, taking into account the widespread use of mobile terminals in the future and the increase in data traffic, it is difficult to eliminate the reduction in communication speed and difficulty in connection with only the access points installed by the communication carriers themselves.

  In order to solve this problem, it is conceivable that a telecommunications carrier provides a service similar to FON (registered trademark) by using each subscriber's home gateway as an access point. As a result, the telecommunications carrier can provide a home gateway owned by the line contractor as an access point in addition to the access point installed by itself.

  In providing such a service with a pay-as-you-go fee structure, it is necessary to first distinguish the traffic volume of the home gateway into the traffic volume used by the subscriber and the traffic volume used as an access point. is there. However, current home gateways and communication networks of communication carriers do not have a function for distinguishing these traffics.

  Furthermore, in order to provide such a service, it is necessary to give some motivation to each line contractor. If the wireless LAN router of the line contractor is provided to the communication carrier as an access point, it is assumed that the network bandwidth that can be used by the line contractor itself becomes tight and disadvantageous. As a result, the line contractor may refuse to provide the wireless LAN router as an access point, or the line contractor may avoid the contract with this communication carrier. Therefore, it is necessary to minimize the disadvantage when providing the wireless LAN router as an access point to the line contractor, and it is preferable to give a profit that counteracts this disadvantage.

  Furthermore, it is conceivable that a communication carrier charges a fee corresponding to the amount of communication to a wireless LAN access service contractor who uses the wireless LAN router of the line contractor as an access point. For this purpose, it is necessary to measure the amount of communication using the wireless LAN router of the line contractor as an access point for each wireless LAN access service contractor. However, current home gateways and carrier communication networks do not have a function for distinguishing these traffics.

  The present invention has been made in view of the above, and an object of the present invention is to provide a telecommunications carrier with a home gateway owned by a telecommunications carrier who has a contract with a telecommunications carrier as an access point. To do.

  In order to solve the above-described problems and achieve the object, the present invention is a wireless LAN access point sharing system in which one or more terminals, a home gateway, and an edge node are communicably connected, The home gateway includes a wireless LAN relay unit that relays communication traffic of a wireless LAN (Local Area Network), and a wired LAN relay unit that relays communication traffic of a wired LAN, and the wireless LAN relay unit and the wired LAN relay The unit relays communication traffic to the edge node using a MAC address (Media Access Control address) that identifies the terminal by a layer 2 function, and the edge node communicates with each terminal connected to the home gateway. A traffic volume measuring unit for measuring traffic volume using the MAC address; To.

  According to the present invention, a home gateway owned by a line contractor who has a line contract with a communication carrier can be provided to the communication carrier as an access point.

FIG. 1 is a diagram showing a schematic configuration of a wireless LAN access point sharing system in the present embodiment. FIG. 2 is a diagram showing a schematic configuration of the home gateway in the present embodiment. FIG. 3 is a diagram showing a schematic configuration of the edge node in the present embodiment. FIG. 4 is a flowchart showing communication processing of the home gateway in the present embodiment. FIG. 5 is a flowchart showing terminal authentication processing of the edge node in the present embodiment. FIG. 6 is a flowchart showing the relay processing of the edge node in the present embodiment. FIG. 7 is a flowchart showing the processing of the control server in this embodiment. FIG. 8 is a diagram exemplifying information on the amount of communication of each terminal that is transferred to the charging system by the control server in the present embodiment. FIG. 9 is a flowchart showing processing of the billing system in the present embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate. In addition, this invention is not limited by this embodiment. Moreover, in description of drawing, the same code | symbol is attached | subjected and shown to the same part.

[Configuration of Wireless LAN Access Point Sharing System]
FIG. 1 is a diagram showing a schematic configuration of a wireless LAN access point sharing system 1 in the present embodiment. As shown in FIG. 1, the wireless LAN access point sharing system 1 includes a home gateway 2, an edge node 5 of a telecommunications carrier network 93, a control server 6, an authentication server 7, and a charging system 8. Is done. Among these, the edge node 5, the control server 6, the authentication server 7, and the charging system 8 can communicate with each other via the communication carrier network 93. Note that the edge node 5 can accommodate one or a plurality of home gateways 2, but only one home gateway 2 is shown here as a representative.

  The wireless LAN access point sharing system 1 provides a line to a line contractor who has a line contract with a communication carrier. The wireless LAN access point sharing system 1 further allows a subscriber of a wireless LAN access service provided by a communication carrier to share the home gateway 2 as an access point.

  The home gateway 2 is accommodated in the edge node 5 and relays communication traffic between the communication carrier network 93 and the Internet 94, thereby providing services such as Internet connection to the line subscriber wireless terminal 3a and the line subscriber wired. This is provided to the terminal 3b and the wireless LAN access service contractor terminal 4. The home gateway 2 is a wireless LAN router owned by a line contractor. The home gateway 2 is connected to the line subscriber wired terminal 3b by wire, and is connected to the line subscriber wireless terminal 3a and the wireless LAN access service contractor terminal 4 wirelessly. Although the home gateway 2 can connect a plurality of wireless LAN access service contractor terminals 4, only one wireless LAN access service contractor terminal 4 is shown here as a representative.

  The line contractor wireless terminal 3a and the line contractor wired terminal 3b are terminals owned by the line contractor. The circuit subscriber wireless terminal 3a has a wireless LAN communication function. The line contractor wired terminal 3b has a wired LAN communication function. The wireless LAN access service contractor terminal 4 is a terminal owned by a contractor who has contracted for a wireless LAN access service. The wireless LAN access service contractor terminal 4 has a wireless LAN communication function. As will be described later, each terminal is authenticated by the authentication server 7 based on the service contract information.

  The edge node 5 issues a local IP address to all terminals connected to the home gateway 2 authenticated by the authentication server 7. Edge node 5 stores the global IP address assigned to the line contracted by the line contractor, performs NAT processing for converting the global IP address and the local IP address assigned to the terminal, and provides an Internet connection service To do.

  The edge node 5 receives the local IP address issued to the terminal authenticated by the authentication server 7, the MAC address of the terminal, and the service contract information of the line contractor and wireless LAN access service contractor acquired from the authentication server 7. Combine and memorize. The terminal MAC address and service contract information are set in the authentication server 7 at the time of service contract.

  The edge node 5 notifies the control server 6 of the MAC address information of the terminal authenticated by the authentication server 7. The control server 6 instructs the edge node 5 to start measurement of communication traffic control information and traffic of the terminal. Note that when the line usage fee is a flat-rate line, it is not necessary to measure the communication traffic volume of the line subscriber wireless terminal 3a and the line subscriber wired terminal 3b, so the control server 6 starts measuring the traffic volume. Do not instruct.

  The edge node 5 can distinguish the communication traffic for every terminal connected to the home gateway 2 by using the MAC address and measure the traffic. Further, the edge node 5 accommodates one or a plurality of home gateways 2.

  The edge node 5 can measure the communication traffic of the wireless LAN access service contractor terminal 4 by distinguishing the communication traffic of the wireless LAN access service contractor terminal 4 from other communication traffic. The wireless LAN access service contractor terminal 4 is owned by a contractor who has contracted the wireless LAN access service. Furthermore, even when a plurality of wireless LAN access service contractor terminals 4 are connected to the home gateway 2, the edge node 5 transmits communication traffic for each wireless LAN access service contractor terminal 4 and communication with other terminals. The amount of communication can be measured in distinction.

  The edge node 5 can measure the communication traffic of the line subscriber wireless terminal 3a by distinguishing the communication traffic of the line subscriber wireless terminal 3a from other communication traffic. Further, the edge node 5 can measure the traffic of the line contractor wired terminal 3b by distinguishing the communication traffic of the line contractor wired terminal 3b from the other communication traffic. The line contractor wireless terminal 3a and the line contractor wired terminal 3b are owned by the line contractor.

  Thereby, even if the line usage fee is a pay-as-you-go line, the wireless LAN router owned by the line contractor who has contracted the line with the communication carrier can be provided to the communication carrier as an access point. Furthermore, the communication carrier can charge the wireless LAN access service contractor according to the communication amount.

  When the line usage fee is a flat-rate line, it is not necessary to measure the communication traffic of the line subscriber wireless terminal 3a and the line subscriber wired terminal 3b. In this case, the function of measuring the traffic volume of the line subscriber wireless terminal 3a and the traffic volume of the line subscriber wired terminal 3b by the edge node 5 is not an essential function.

  The control server 6 performs each process of the wireless LAN access point sharing system 1. The operation of the control server 6 will be described later with reference to FIG. The authentication server 7 stores service contract information including terminal information of a wireless LAN access service contractor who has contracted for a wireless LAN access service. The authentication server 7 provides a wireless LAN access service by authenticating the wireless LAN access service contractor terminal 4. Further, the authentication server 7 stores service contract information including terminal information of the line contractor. The authentication server 7 provides an Internet connection service by authenticating the line subscriber wireless terminal 3a and the line subscriber wired terminal 3b.

  The charging system 8 is a system that charges the subscriber for a line usage fee or a wireless LAN access service usage fee based on the amount of communication used by the line subscriber or the wireless LAN access service subscriber. The operation of the charging system 8 will be described later with reference to FIG.

[Home gateway configuration]
FIG. 2 is a diagram showing a schematic configuration of the home gateway 2 in the present embodiment. As shown in FIG. 2, the home gateway 2 includes a wireless LAN relay unit 21, a wired LAN relay unit 22, an authentication entrusting unit 24, and a storage unit 25.

  The storage unit 25 is, for example, a RAM (Random Access Memory) or a flash memory, and includes a line contractor SSID 251, a wireless LAN access service SSID 252, a line contractor wireless terminal MAC address 253, and a line contractor wired terminal MAC address. 254 and wireless LAN access service contractor terminal MAC address 256 are stored. When there are a plurality of terminals connected to the home gateway 2, MAC addresses corresponding to the plurality of terminals are stored.

  The line contractor SSID 251 is an SSID used to connect the line contractor wireless terminal 3a to the wireless LAN. It is desirable that this line subscriber SSID 251 be kept secret from a third party. Therefore, the home gateway 2 preferably performs a stealth operation by stopping the beacon signal when communicating with the line subscriber wireless terminal 3a. Thereby, the SSID 251 for the line contractor can be kept secret.

  The wireless LAN access service SSID 252 is an SSID used to connect the wireless LAN access service contractor terminal 4 to the wireless LAN. This SSID is disclosed to the owner of the wireless LAN access service contractor terminal 4 or the like. Therefore, the home gateway 2 preferably notifies the beacon signal when communicating with the wireless LAN access service contractor terminal 4. Thereby, the SSID 252 for the wireless LAN access service can be easily disclosed.

  The circuit subscriber wireless terminal MAC address 253 is the MAC address of the circuit subscriber wireless terminal 3a, and is stored in the storage unit 25 of the home gateway 2 when the circuit subscriber wireless terminal 3a is authenticated to connect to the home gateway 2. Remembered. When there are a plurality of line subscriber wireless terminals 3a, the line subscriber wireless terminal MAC address 253 is stored for each terminal.

  The line contractor wired terminal MAC address 254 is the MAC address of the line contractor wired terminal 3 b, and is stored in the storage unit 25 of the home gateway 2 when the line contractor wired terminal 3 b is authenticated to connect to the home gateway 2. Remembered. When there are a plurality of line contractor wired terminals 3b, the line contractor wired terminal MAC address 254 is stored for each terminal.

  The wireless LAN access service contractor terminal MAC address 256 is the MAC address of the wireless LAN access service contractor terminal 4, and when the wireless LAN access service contractor terminal 4 is authenticated to connect to the home gateway 2, the home gateway 2 storage unit 25. When there are a plurality of wireless LAN access service contractor terminals 4, the wireless LAN access service contractor terminal MAC address 256 is stored for each terminal.

  The wireless LAN relay unit 21, the wired LAN relay unit 22, and the authentication entrusting unit 24 are realized using a CPU (Central Processing Unit) that executes a processing program.

  The wireless LAN relay unit 21 includes a wireless network interface controller. When receiving the wireless LAN communication traffic related to the SSID (Service Set Identifier) 251 for the line contractor, the wireless LAN relay unit 21 relays to the edge node 5 using the MAC address by the layer 2 function. Further, when receiving the wireless LAN communication traffic related to the SSID 254 for the wireless LAN access service, the wireless LAN relay unit 21 relays to the edge node 5 using the MAC address by the layer 2 function.

  The wired LAN relay unit 22 includes a wired network interface controller, and relays to the edge node 5 by a layer 2 function when receiving wired LAN communication traffic. The authentication delegation unit 24 entrusts the edge node 5 with an authentication request for each terminal or an IP address payout request.

  The home gateway 2 configured as described above relays communication traffic and provides an Internet connection service to each terminal. Further, the home gateway 2 is connected between the wireless LAN access service contractor terminals 4, between the wireless LAN access service contractor terminal 4 and the line contractor wireless terminal 3a, and between the wireless LAN access service contractor terminal 4 and the line contract. The communication traffic between the user wired terminals 3b is blocked. This makes it possible to ensure the security of each terminal.

[Configuration of edge node]
FIG. 3 is a diagram showing a schematic configuration of the edge node 5 in the present embodiment. As shown in FIG. 3, the edge node 5 includes a traffic volume measuring unit 51, a communication control unit 52, a NAT function unit 53, an authentication function unit 54, a DHCP function unit 55, and a storage unit 56. Composed. Here, the edge node 5 accommodates a plurality of home gateways 2, for example, home gateways 2-1 to 2-3.

  The storage unit 56 includes home information including terminal information 563 including combinations of local IP addresses 564 and MAC addresses 565 of all terminals connected to the edge node 5, and a global IP address 562 assigned to the line. Gateway information 561 is stored.

  For example, the storage unit 56 stores home gateway information 561-1 to 561-3. The home gateway information 561-1 to 561-3 is information related to the home gateways 2-1 to 2-3 accommodated by the edge node 5. Hereinafter, when the home gateway information 561-1 to 561-3 are not particularly distinguished, they are simply referred to as home gateway information 561.

  The home gateway information 561 includes a global IP address 562 assigned to the line and terminal information 563. The terminal information 563 includes a local IP address 564, a MAC address 565, service contract information 566, and a communication amount 567.

  The global IP address 562 is a global IP address assigned to the home gateway 2 line. The terminal information 563 is terminal information of a terminal connected to the home gateway 2. When a plurality of terminals are connected to the home gateway 2, terminal information is stored for each terminal. The local IP address 564 is a local IP address assigned to the terminal by the DHCP function unit 54. The MAC address 565 is the MAC address of the terminal.

  The service contract information 566 is service contract information provided to terminals such as a wireless LAN access service, a pay-per-use Internet connection service, and a flat-rate Internet connection service. The service contract information 566 is acquired from the authentication server 7 when the terminal is authenticated. The communication amount 567 is the communication amount used by the terminal. The traffic volume 567 is measured by the traffic volume measuring unit 51.

  The communication amount measurement unit 51, the communication control unit 52, the NAT function unit 53, the authentication function unit 54, and the DHCP function unit 55 are realized using a CPU or the like that executes a processing program.

  The communication amount measuring unit 51 measures the communication traffic amount of all the terminals connected to the home gateway 2 using the MAC address 565. That is, the traffic measuring unit 51 uses the MAC address 565 of the terminal information 563 to identify the communication traffic for each terminal and measure the traffic. The communication amount measuring unit 51 periodically notifies the control server 6 of each measured communication amount.

  Specifically, the communication amount measuring unit 51 measures the communication amount of the wireless LAN access service contractor terminal 4. When a plurality of wireless LAN access service contractor terminals 4 are connected, the communication traffic is measured for each wireless LAN access service contractor terminal 4 by distinguishing communication traffic. Further, the communication amount measuring unit 51 measures the communication amount of the line subscriber wireless terminal 3a. Further, the communication amount measuring unit 51 measures the communication amount of the line contractor wired terminal 3b. As a result, the communication amount of the wireless LAN access service contractor terminal 4 can be measured separately from the other communication amounts, so that the home gateway 2 owned by the line contractor is provided to the communication carrier as an access point. Is possible.

  The communication control unit 52 inquires of the control server 6 about a communication traffic processing method, and performs communication traffic processing based on an instruction from the control server 6. Here, the communication traffic processing method means, for example, the necessity of measuring the traffic, the allocated bandwidth, the transfer destination, and the like, and is determined by the control server 6 with reference to the service contract information.

  Specifically, the communication control unit 52 controls the line subscriber wireless terminal 3a or the line subscriber wireless terminal 3a so that the communication of the wireless LAN access service contractor terminal 4 does not impose communication on the line subscriber wireless terminal 3a or the line subscriber wired terminal 3b. Control is performed so that the communication of the line contractor wired terminal 3b is prioritized. Thereby, the disadvantage of the line contractor due to the provision of the home gateway 2 can be reduced.

  The NAT function unit 53 executes a NAT function for converting the global IP address 562 assigned to the line and the local IP address 564 assigned to each terminal connected to the line, and relays communication traffic. To do. The authentication function unit 54 relays authentication of the terminal entrusted by the home gateway 2 to the authentication server 7. In addition, the authentication function unit 54 acquires service contract information 566 of each terminal from the authentication server 7. The DHCP function unit 55 issues a local IP address 564 to each terminal connected to the line.

[Wireless LAN access point sharing process]
Wireless LAN access point sharing processing by the wireless LAN access point sharing system 1 of this embodiment includes communication processing of the home gateway 2, relay processing of the edge node 5, and terminal authentication processing of the edge node 5. Further, the wireless LAN access point sharing process of the present embodiment includes a process of the control server 6 and a process of the charging system 8. Hereinafter, each process will be described.

[Communication processing]
FIG. 4 is a flowchart showing communication processing of the home gateway 2 in the present embodiment. When the home gateway 2 receives communication traffic from any of the terminals, the home gateway 2 starts the communication process shown in FIG.

  In step S10, the home gateway 2 determines whether the received communication traffic is wired or wireless. If the home gateway 2 determines that the communication traffic is wired, the home gateway 2 performs the process of step S11. If the home gateway 2 determines that the communication traffic is wireless, the home gateway 2 performs the process of step S13. In this way, it is possible to determine that the communication traffic of the wired LAN is used by this line contractor.

  In step S11, the home gateway 2 determines the destination of the received communication traffic. If the destination is the wireless LAN access service contractor terminal 4 using the wireless LAN access service SSID 252 of the same home gateway 2 (Yes), the process of step S18 is performed. On the other hand, if the destination is not the wireless LAN access service contractor terminal 4 using the wireless LAN access service SSID 252 of the same home gateway 2 (No), the process of step S12 is performed.

  In the processing of step S12, the wireless LAN relay unit 21 and the wired LAN relay unit 22 of the home gateway 2 relay the communication traffic by using the layer 2 function. When the process of step S12 ends, a series of communication processes ends.

  In step S18, the home gateway 2 disallows communication with this terminal and blocks communication traffic. When the process of step S18 ends, a series of communication processes ends. Thereby, it is possible to block communication traffic between the wireless LAN access service contractor terminal 4 and the line contractor wired terminal 3b and between the wireless LAN access service contractor terminal 4 and the line contractor wireless terminal 3a. Security can be ensured.

  In the process of step S13, the wireless LAN relay unit 21 of the home gateway 2 determines the SSID related to this communication traffic. The home gateway 2 performs the process of step S11 if the SSID related to the communication traffic matches the SSID 251 for the line contractor, and if the SSID related to the communication traffic matches the SSID 252 for the wireless LAN access service, the step The process of S14 is performed.

  In step S14, the authentication entrusting unit 24 of the home gateway 2 determines whether or not this terminal has been authenticated. The home gateway 2 performs the process of step S17 if this terminal has been authenticated (Yes), and performs the process of step S15 if this terminal has not been authenticated (No).

  In step S15, the authentication entrusting unit 24 of the home gateway 2 causes the authentication server 7 to authenticate the terminal. Thereby, the use of the home gateway 2 by the SSID 252 for the wireless LAN access service can be limited to the wireless LAN access service contractor terminal 4.

  In the process of step S16, the authentication entrusting unit 24 of the home gateway 2 determines whether or not this terminal has been successfully authenticated. The home gateway 2 performs the process of step S17 if the authentication of the terminal is successful (Yes), and performs the process of step S18 if the authentication of the terminal fails (No).

  In step S17, the home gateway 2 determines the destination of the received communication traffic. If the destination is the route on the edge node 5 side (Yes), the process of step S12 is performed. If the destination is other than the route on the edge node 5 side (No), the process of step S18 is performed. . Thereby, between the wireless LAN access service contractor terminals 4, between the wireless LAN access service contractor terminal 4 and the line contractor wired terminal 3b, and between the wireless LAN access service contractor terminal 4 and the line contractor wireless terminal 3a. Communication traffic can be blocked, and security of each terminal can be ensured.

[Terminal authentication processing]
FIG. 5 is a flowchart showing terminal authentication processing of the edge node 5 in the present embodiment. When the edge node 5 receives the authentication request from the terminal connected to the home gateway 2, the edge node 5 starts the process of step S20.

  In the process of step S20, the authentication function unit 54 of the edge node 5 entrusts authentication of the terminal to the authentication server 7. If the authentication is OK, the edge node 5 stores the MAC address of the terminal in the MAC address 565 of the home gateway information 561.

  In the process of step S 21, the authentication function unit 54 of the edge node 5 acquires the service contract information of the terminal from the authentication server 7 and stores it in the service contract information 566 of the home gateway information 561.

  In the process of step S22, the communication control unit 52 of the edge node 5 inquires the control server 6 about the communication traffic processing method of the terminal, and determines the necessity of measuring the traffic, the bandwidth allocation, the transfer destination, and the like. Get processing method.

  In the process of step S23, the DHCP function unit 55 of the edge node 5 issues a local IP address to the terminal and stores it in the local IP address 564 of the home gateway information 561. As a result, a series of terminal authentication processing is completed.

[Relay processing]
FIG. 6 is a flowchart showing the relay processing of the edge node 5 in this embodiment. When the edge node 5 receives the communication packet, the edge node 5 starts the process of step S30. This communication packet constitutes communication traffic.

  In the processing of step S30, the edge node 5 identifies the terminal from the MAC address of the communication packet by the traffic volume measurement unit 51, and determines whether it is related to the line contractor or the wireless LAN access service contractor. to decide. If the edge node 5 determines that the packet is a communication packet related to the line contractor (for the line contractor), the edge node 5 performs the process of step S31, and is a communication packet related to the wireless LAN access service contractor (wireless LAN access service). If it is determined, the process of step S33 is performed. As a result, the telecommunications carrier can measure the amount of communication for each terminal, and even if it is a pay-per-use line, it is not affected by the communication of the wireless LAN access service, and measures the amount of communication used by the line contractor. Can be charged.

  In the process of step S31, the edge node 5 relays this communication packet preferentially. Thereby, the line contractor can enjoy the Internet connection preferentially without being affected by the congestion of the communication of the wireless LAN access service.

  In the process of step S33, the edge node 5 relays the communication packet with a lower priority than the communication packet constituting the communication traffic of the line contractor.

  In step S32, the edge node 5 updates the communication amount 567 of each terminal connected to the home gateway 2 specified by the MAC address, and ends the series of relay processing. As a result, the telecommunications carrier measures the communication amount of the wireless LAN access service, and gives a profit corresponding to the measured communication amount to each line contractor provided to the telecommunications carrier with the wireless LAN router as an access point. be able to.

[Control server processing]
FIG. 7 is a flowchart showing the processing of the control server 6 in this embodiment. When the terminal authentication process of the terminal connected to the home gateway 2 by the edge node 5 is completed, the control server 6 starts the process of step S40.

  In the process of step S <b> 40, the control server 6 receives from the edge node 5 an inquiry about a method for processing communication traffic of a terminal connected to the home gateway 2. The inquiry includes the MAC address of the terminal.

  In the process of step S41, the control server 6 searches for customer information from the received MAC address, and acquires service contract information with which the terminal has contracted. It is assumed that the MAC address of the terminal and the service contract information are set in the control server 6 at the time of service contract. By doing in this way, the control server 6 can manage the terminal information concerning this terminal together with the customer information of each line contractor and each wireless LAN access service contractor.

  In the process of step S42, the control server 6 determines whether or not it is necessary to measure the traffic used by the terminal based on the service contract information, and instructs this edge node 5.

  In the process of step S43, the control server 6 waits for the start of the process of the subsequent step S44 for a predetermined period.

  In the process of step S44, the control server 6 receives the global IP address 562, the MAC address 565 of each terminal, and the communication amount 567 used by each terminal from the edge node 5.

  In the process of step S45, the control server 6 uses the received communication amount 567 for each global IP address 562, the communication amount used by the line subscriber wired terminal 3b, the communication amount used by the line subscriber wireless terminal 3a, The communication amount used by the wireless LAN access service contractor terminal 4 is stored separately for each terminal. Accumulating for each global IP address 562 is equivalent to accumulating for each home gateway 2. Thereby, the processing load of the accounting system 8 to be described later can be reduced.

  In the process of step S46, the control server 6 transfers the accumulated information of each traffic (see FIG. 8) to the charging system 8, and returns to the process of step S43.

  FIG. 8 is a diagram illustrating information on the traffic of each terminal that is transferred to the charging system 8 by the control server 6 according to the present embodiment. When there are a plurality of terminals, information on the amount of communication is set for each terminal. As illustrated in FIG. 8, the information on the communication amount of each terminal includes service contract information including line contractor identification information or wireless LAN access service contractor identification information, a MAC address, and a communication amount. Here, the line contractor identification information and the wireless LAN access service contractor identification information are information for identifying the line contractor and the wireless LAN access service contractor, respectively. Line contractor identification information and wireless LAN access service contractor identification information are associated with service contract information at the time of service contract etc. in order to manage service contract information corresponding to each line contractor and each wireless LAN access service contractor Are set in the control server 6.

[Billing system processing]
FIG. 9 is a flowchart showing processing of the billing system 8 in the present embodiment. In the process of step S50, the billing system 8 determines the service contract information, the global IP address, the traffic information regarding the line subscriber wired terminal 3b, the traffic volume information regarding the line contractor wireless terminal 3a, and the wireless Information on the amount of traffic related to the LAN access service contractor terminal 4 is received.

  In the process of step S51, the billing system 8 identifies the home gateway 2 and the line contractor who owns it based on the line contractor identification information included in the service contract information of each terminal.

  In the processing of step S52, the billing system 8 calculates a line usage fee based on the communication volume of the line contractor.

  In the process of step S53, the charging system 8 discounts the calculated line usage fee based on the communication amount of the wireless LAN access service.

  In the process of step S54, the charging system 8 charges the discounted line usage fee to the line contractor.

  In the process of step S55, the charging system 8 calculates a wireless LAN access service usage fee based on the communication amount of the wireless LAN access service contractor.

  In the process of step S56, the billing system 8 charges the calculated wireless LAN access service usage fee to the wireless LAN access service contractor, and ends the series of processes shown in FIG.

  As described above, in the wireless LAN access point sharing system 1 of the present embodiment, the home gateway 2 uses the layer 2 function to identify the MAC address for identifying the terminal when relaying communication traffic of the wireless LAN and the wired LAN. The communication traffic is relayed to the edge node 5, and the edge node 5 measures the communication traffic volume of each terminal connected to the home gateway 2 using the MAC address.

  As a result, regardless of the line subscriber wire terminal 3b, the line subscriber wireless terminal 3a, or the wireless LAN access service subscriber terminal 4, the communication traffic can be measured by distinguishing the communication traffic for each terminal. Therefore, even if it is a pay-as-you-go system, the home gateway 2 that is a wireless LAN router owned by the line contractor who has a line contract with the communication provider can be provided to the communication provider as an access point. .

  Therefore, the communication carrier can effectively use the free bandwidth of the line of the line contractor, and can increase the number of access points without installing the access point by the communication carrier. Further, a wireless LAN access service contractor can enjoy a wireless LAN access service with improved convenience by increasing the number of access points.

  Further, the edge node 5 of the present embodiment includes a storage unit 56 that stores a combination of a MAC address and service contract information for each terminal, and includes a line contractor terminal (line contractor wireless terminal 3a and line contractor wired terminal 3b). ) And the traffic volume of the communication traffic of the wireless LAN access service contractor terminal 4 are measured separately using the MAC address.

  As a result, the wireless LAN access point sharing system 1 can define the communication traffic of the line subscriber terminals 3a and 3b using the MAC address, and more clearly the communication traffic of the line subscriber terminals 3a and 3b and the wireless The communication traffic of the LAN access service contractor terminal 4 can be distinguished and measured.

  Further, the edge node 5 of the present embodiment issues a local IP address to all terminals connected to the home gateway 2, converts the local IP address and a global IP address assigned to the contracted line, and transmits communication traffic. When relaying, the communication traffic of the line contractor terminals 3a and 3b is relayed in preference to the communication traffic of the wireless LAN access service contractor terminal 4.

  Thereby, the line contractor can enjoy the Internet connection preferentially without being influenced by the communication traffic of the wireless LAN access service.

  Further, the wireless LAN access point sharing system 1 of the present embodiment includes an authentication server 7 that authenticates the wireless LAN access service terminal 4.

  Thereby, the wireless LAN access point can be provided only to the subscriber of the wireless LAN access service.

  The wireless LAN access point sharing system 1 according to the present embodiment includes a charging system 8 that charges by discounting a line usage fee according to the communication amount of the wireless LAN access service contractor terminal 4 measured by the edge node 5.

  As a result, it is possible to provide the line contractor with a benefit that negates the disadvantage when the home gateway 2 that is a wireless LAN router is provided as an access point. Therefore, it is possible to motivate the line contractor to provide the telecommunications carrier with the home gateway 2 owned by itself as an access point. That is, according to the wireless LAN access point sharing system 1 of the present embodiment, a communication carrier uses a wireless LAN router owned by a line contractor who has a line with this communication carrier as an access point. It is possible to provide a service that discounts and charges a line usage fee according to the amount of communication used by a wireless LAN access service contractor.

  In addition, the wireless LAN access point sharing system 1 of this embodiment includes a charging system 8 that charges a wireless LAN access service usage fee according to the communication amount of the wireless LAN access service contractor terminal 4 measured by the edge node 5.

  Thereby, the communication carrier can charge the wireless LAN access service contractor using the access point provided by the line contractor according to the used communication amount.

  In addition, the wireless LAN access point sharing system 1 of the present embodiment receives and accumulates the communication amount for each MAC address measured by the edge node 5 and periodically notifies the charging system 8 of the accumulated communication amount. 6 is provided.

  Thereby, the processing load of the accounting system 8 can be reduced.

  The present invention is not limited to the above-described embodiment, and the embodiment can be changed without departing from the spirit of the present invention. For example, the embodiment can be changed as follows.

(A) The benefit provided to each line contractor by the telecommunications carrier is not limited to the discount on the line usage fee according to the traffic used by the wireless LAN access service contractor. For example, in a service where the line usage fee up to a predetermined amount of communication is a flat rate system and the portion of the line usage fee exceeding the predetermined amount is a pay-as-you-go service, the communication carrier uses the communication amount used by the wireless LAN access service subscriber Accordingly, the predetermined communication amount that is a flat rate system may be increased.

(B) For example, the telecommunications carrier uses a flat-rate line usage fee, measures only the communication amount of the wireless LAN access service contractor, and determines the line according to the communication amount used by the wireless LAN access service contractor. You may discount the usage fee. Thereby, the communication carrier can provide a profit to each line contractor.

(C) The wireless LAN access point sharing system 1 of the present invention may allow the subscriber of the wireless LAN access service to access the SSID as “ANY” or blank.

(D) The wireless LAN access point sharing system 1 of the present invention may allow a line contractor to communicate only with a wired LAN. At this time, the line contractor communicates using only a wired terminal, or communicates wirelessly by connecting another wireless LAN router to the wired LAN.

(E) The wireless LAN access point sharing system 1 of the present invention may allow a line contractor to communicate only with a wireless LAN.

(F) The home gateway 2 of the present invention may relay the communication packet constituting the communication traffic of the line subscriber in preference to the communication packet of the subscriber of the wireless LAN access service. Thereby, the disadvantage of the line contractor due to the provision of the home gateway 2 can be reduced.

DESCRIPTION OF SYMBOLS 1 Wireless LAN access point sharing system 2 Home gateway 21 Wireless LAN relay part 22 Wired LAN relay part 24 Authentication entrusting part 25 Memory | storage part 251 SSID for circuit subscribers
252 SSID for wireless LAN access service
253 Line subscriber wireless terminal MAC address 254 Line subscriber wired terminal MAC address 256 Wireless LAN access service subscriber terminal MAC address 3a Line subscriber wireless terminal 3b Line subscriber wired terminal 4 Wireless LAN access service subscriber terminal 5 Edge node 51 Traffic measurement unit 52 Communication control unit 53 NAT function unit 54 Authentication function unit 55 DHCP function unit 56 Storage unit 561 Home gateway information 562 Global IP address 563 Terminal information 564 Local IP address 565 MAC address 566 Service contract information 567 Communication amount 6 Control Server 7 Authentication server 8 Billing system 93 Telecommunications carrier network 94 Internet

Claims (7)

A wireless LAN access point sharing system in which one or more terminals, a home gateway, an edge node, and a charging system are communicably connected,
The home gateway includes a wireless LAN relay unit that relays communication traffic of a wireless LAN (Local Area Network), and a wired LAN relay unit that relays communication traffic of a wired LAN, and the wireless LAN relay unit and the wired LAN relay Unit relays communication traffic to the edge node using a MAC address (Media Access Control address) that identifies the terminal by a layer 2 function,
The edge node is connected to the home gateway among the terminals connected to the home gateway based on the service contract information and a storage unit that stores a combination of a MAC address and service contract information for each terminal. Communication traffic of the line subscriber wired terminal that is the wired terminal of the line contractor who has contracted the contracted line, and the communication traffic of the line subscriber wireless terminal that is the wireless terminal of the line contractor And a traffic measurement of the traffic traffic of a wireless LAN access service contractor terminal, which is a terminal of a wireless LAN access service contractor who subscribes to the wireless LAN access service , using the MAC address to distinguish with a part,
The billing system receives the communication volume for each terminal measured by the edge node, and responds to the line subscriber wired terminal, the line subscriber wireless terminal, and the wireless LAN access service subscriber terminal according to the communication volume. A wireless LAN access point sharing system characterized by charging . The edge node converts a DHCP function unit that issues a local IP address to all terminals connected to the home gateway, and a communication traffic by converting the local IP address and a global IP address assigned to the contracted line. A NAT function unit for relaying,
Wireless LAN access point sharing system according to claim 1, wherein the communication traffic of the line subscriber terminal, and relays the wireless LAN access service contractor than terminal communication traffic preferentially. The wireless LAN access service wireless LAN access point sharing system according to claim 1 or 2, characterized in that it comprises an authentication server for authenticating the subscriber terminal. The billing system receives traffic of the wireless LAN access service contractor terminal which the edge node is determined, and wherein the benzalkonium be charged by discounting line usage fee of the contracted line in accordance with the traffic The wireless LAN access point sharing system according to any one of claims 1 to 3 . The charging system according to claim wherein said edge node receives a communication of the wireless LAN access service contractor terminal measured, characterized and Turkey be charged a wireless LAN access service fee in accordance with the traffic The wireless LAN access point sharing system according to any one of 1 to 4 . Claims 1 to 5, further comprising a control server, wherein the edge node receiving and accumulating traffic for each of the terminals was measured, and notifies the regularly the charging system accumulated the traffic The wireless LAN access point sharing system according to any one of the above. A wireless LAN access point sharing method executed by a wireless LAN access point sharing system in which one or more terminals, a home gateway, an edge node, and a billing system are communicably connected,
The home gateway includes a wireless LAN relay process for relaying wireless LAN communication traffic and a wired LAN relay process for relaying wired LAN communication traffic. In the wireless LAN relay process and the wired LAN relay process, layer 2 Relaying communication traffic to the edge node using a MAC address identifying the terminal by the function of
The edge node includes a storage unit that stores a combination of a MAC address and service contract information for each terminal , and the home gateway is connected among the terminals connected to the home gateway based on the service contract information. Communication traffic of the line subscriber wired terminal that is the wired terminal of the line contractor who has subscribed to the contracted line, and communication traffic of the line subscriber wireless terminal that is the wireless terminal of the line contractor The amount of communication and the amount of communication traffic of the wireless LAN access service contractor terminal, which is the terminal of the wireless LAN access service contractor that has subscribed to the wireless LAN access service, is measured by using the MAC address to distinguish the measurement process only contains,
The billing system receives the communication volume for each terminal measured by the edge node, and responds to the line subscriber wired terminal, the line subscriber wireless terminal, and the wireless LAN access service subscriber terminal according to the communication volume. A wireless LAN access point sharing method characterized by charging .

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