JP2017135472A - Repeating device, network connection method, and computer program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a repeating device capable of facilitating a connection to a network requiring authentication connected via a fixed line.SOLUTION: The repeating device includes: an insertion part into which a storage medium storing a piece of connection information for connecting a network connected via a fixed line can be inserted; and a connection control unit that generates a connection request for requiring a connection to the network using the connection information stored in the inserted storage medium, and requires a connection to the network based on the generated connection request.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a network connection technique.

  In recent years, the use of the Internet has increased. In particular, since it is not necessary to perform connection settings in mobile communication, the Internet can be easily used (for example, see Patent Document 1). On the other hand, various procedures are required to connect to the Internet from a communication device in a company or home via a fixed line. For example, first, the user operates the communication device and logs in to the relay device used for Internet connection. Next, the user inputs information related to the Internet connection provided from ISP (Internet Services Provider) on the setting screen after login. When authentication is performed by the ISP, connection to the Internet becomes possible.

JP 2012-170163 A

However, when connecting to the Internet via a fixed line, there is a problem that it takes time to connect to the Internet even with the above connection method. Such a problem is not limited to Internet connection, but is common to all networks that require authentication connected via a fixed line.
In view of the above circumstances, an object of the present invention is to provide a technique that facilitates connection of a network that requires authentication connected via a fixed line.

  One aspect of the present invention is an insertion unit in which a storage medium storing connection information for connecting to a network connected via a fixed line can be inserted, and the storage unit stored in the inserted storage medium And a connection control unit that generates a connection request for requesting a connection to the network using connection information, and requests a connection to the network based on the generated connection request.

  One aspect of the present invention is a relay device, and the connection control unit performs control for disconnecting the connection with the network when the storage medium is removed.

  One aspect of the present invention is the connection stored in the storage medium inserted in the insertion unit into which a storage medium storing connection information for connecting to a network connected via a fixed line is inserted. A network connection method comprising: a connection control step of generating a connection request for requesting connection to the network using information and requesting connection to the network based on the generated connection request.

  One aspect of the present invention is the connection stored in the storage medium inserted in the insertion unit into which a storage medium storing connection information for connecting to a network connected via a fixed line is inserted. A computer program for causing a computer to execute a connection control step of generating a connection request for requesting connection to the network using information and requesting connection to the network based on the generated connection request is there.

  According to the present invention, it is possible to facilitate connection of a network that requires authentication connected via a fixed line.

It is a block diagram showing the system configuration | structure of the network connection control system 100 in this invention. 3 is a schematic block diagram illustrating a functional configuration of the relay device 10. FIG. 4 is a flowchart showing a flow of network connection processing of the relay device 10. 4 is a flowchart showing a flow of processing when a storage medium 50 is extracted. FIG. 6 is a sequence diagram showing a processing flow of the network connection control system 100. 3 is a sequence diagram showing a flow of operations of the network connection control system 100. FIG.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration diagram showing a system configuration of a network connection control system 100 according to the present invention. The network connection control system 100 includes a relay device 10 and a termination device 20. The relay device 10 and the termination device 20 are connected via the first network 30 in a communicable state. The first network 30 is, for example, NGN (Next Generation Network). In addition, the second network 40 exists above the termination device 20. The second network 40 may be any network as long as it is a network that requires authentication connected via a fixed line. For example, the second network 40 may be configured using the Internet. The second network 40 can be connected when the ISP (Internet Service Provider) is authenticated. The first network 30 and the second network 40 are networks of different communication carriers.

  The relay device 10 is an access point and performs communication with a communication device connected to the own device. The relay device 10 is provided with a mechanism (hereinafter referred to as “insertion unit”) into which the storage medium 50 can be inserted. The relay device 10 acquires information stored in the storage medium 50 inserted in the insertion unit, and transmits the acquired information to the termination device 20. The information stored in the storage medium 50 is information for connecting to the second network 40, for example, an ID and a password for connecting to the second network 40. Hereinafter, information for connecting to the second network 40 is referred to as connection information.

The termination device 20 is provided at the boundary between the first network 30 and the second network 40. The termination device 20 transmits the connection information transmitted from the relay device 10 via the first network 30 to an authentication server (not shown) connected to the second network 40. Thereafter, the terminating device 20 receives a response from the authentication server. Then, the termination device 20 transmits the received response to the relay device 10.
The storage medium 50 stores connection information. The storage medium 50 is, for example, a USB (Universal Serial Bus), an SD card, a SIM card, or the like. The storage medium 50 is provided in a state where connection information is stored by the ISP.

FIG. 2 is a schematic block diagram illustrating a functional configuration of the relay device 10.
The relay device 10 includes a CPU (Central Processing Unit), a memory, an auxiliary storage device, and the like connected by a bus, and executes a network connection control program. By executing the network connection control program, the relay device 10 functions as a device including the first communication unit 101, the second communication unit 102, the reading unit 103, and the connection control unit 104. Note that all or part of the functions of the relay device 10 may be realized using hardware such as an application specific integrated circuit (ASIC), a programmable logic device (PLD), or a field programmable gate array (FPGA). The network connection control program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD-ROM, or a storage device such as a hard disk built in the computer system. The network connection control program may be transmitted / received via a telecommunication line.

The first communication unit 101 communicates with a communication device (not shown) connected to the second network 40. The communication device is configured using an information processing device such as a smartphone, a mobile phone, a tablet terminal, a notebook computer, a personal computer, or a game device.
The second communication unit 102 communicates with the termination device 20 via the first network 30.
The reading unit 103 reads connection information stored in the storage medium 50 inserted into the insertion unit 11. The reading unit 103 outputs the read connection information to the connection control unit 104. Further, when the storage medium 50 is extracted from its own device, the reading unit 103 outputs a notification to the effect that the storage medium 50 has been extracted (hereinafter referred to as “extraction notification”) to the connection control unit 104. To do.
The connection control unit 104 receives the connection information output from the reading unit 103. The connection control unit 104 generates a connection request for connecting to the second network 40 using the input connection information. The connection request includes connection information. The connection control unit 104 requests connection to the second network 40 based on the generated connection request. In addition, the connection control unit 104 inputs the removal notification output from the reading unit 103. The connection control unit 104 disconnects the connection to the second network 40 based on the input removal notification.

FIG. 3 is a flowchart showing the flow of the network connection process of the relay device 10. The network connection process is a process for the relay device 10 to connect to the second network 40.
The reading unit 103 reads the connection information stored in the storage medium 50 inserted in its own device (step S101). The reading unit 103 outputs the read connection information to the connection control unit 104. The connection control unit 104 generates a connection request using the connection information output from the reading unit 103. The connection control unit 104 controls the second communication unit 102 to transmit the generated connection request to the termination device 20. The second communication unit 102 transmits a connection request to the terminating device 20 via the first network 30 according to the control of the connection control unit 104 (step S102). The second communication unit 102 receives the response transmitted from the termination device 20. The second communication unit 102 outputs the received response to the connection control unit 104. The connection control unit 104 inputs the response output from the second communication unit 102. The connection control unit 104 determines whether authentication has been performed based on the input response (step S103). If the response includes information indicating that authentication has been performed, the connection control unit 104 determines that authentication has been performed. On the other hand, if the response includes information indicating that the authentication has not been performed, the connection control unit 104 determines that the authentication has not been performed. If it is determined that authentication has been performed (step S103—YES), the relay device 10 can be connected to the second network 40 (step S104). On the other hand, if it is not determined that authentication has been performed (NO in step S103), the relay device 10 cannot be connected to the second network 40 (step S105).

FIG. 4 is a flowchart showing the flow of processing when the storage medium 50 is extracted.
The connection control unit 104 determines whether or not the storage medium 50 has been removed from its own device (step S201). When it is determined that the storage medium 50 has not been removed from its own device (step S201—NO), the relay device 10 ends the processing in FIG. On the other hand, when it is determined that the storage medium 50 has been removed from its own device (step S201—YES), the connection control unit 104 performs control for disconnecting the connection with the second network 40 (step S202).

FIG. 5 is a sequence diagram illustrating a processing flow of the network connection control system 100.
The storage medium 50 is inserted into the relay device 10 by the user (step S301). When the storage medium 50 is inserted into the relay device 10, the reading unit 103 reads connection information from the inserted storage medium 50 (step S302). The connection control unit 104 generates using the read connection information, and causes the second communication unit 102 to transmit the generated connection request. The second communication unit 102 transmits a connection request including connection information to the terminating device 20 according to the control of the connection control unit 104 (step S303). The terminating device 20 receives the connection request transmitted from the relay device 10. The terminating device 20 authenticates the relay device 10 based on the received connection request (step S304). Specifically, the termination device 20 transmits the ID and password indicated by the connection information included in the connection request to the authentication server via the second network 40. The authentication server determines whether the combination of the ID and password stored in advance matches the combination of the ID and password transmitted from the terminal device 20.

  If the combination of the ID and password stored in advance matches the combination of the ID and password transmitted from the terminal device 20, the authentication server transmits a response indicating that the authentication has been performed to the terminal device 20. On the other hand, if the combination of ID and password stored in advance and the combination of ID and password transmitted from the terminal device 20 do not match, the authentication server transmits a response indicating that the authentication has not been performed to the terminal device 20. . The termination device 20 receives the authentication result from the authentication server. The terminating device 20 transmits the received authentication result to the relay device 10 (step S305). The relay device 10 performs processing according to the authentication result (step S306). Specifically, the relay device 10 establishes a PPPoE session with the termination device 20 when the authentication result includes information indicating that the authentication has been performed. Thereby, the relay device 10 can be connected to the second network 40. Further, the relay device 10 cannot connect to the second network 40 when the authentication result includes information indicating that the authentication is not performed. In such a case, the connection control unit 104 may output that the connection to the second network 40 is not possible. For example, the connection control unit 104 may output a sound indicating that the connection to the second network 40 cannot be made, or may output by other methods.

  Thereafter, it is assumed that the storage medium 50 is removed from the relay device 10 by the user (step S307). In this case, the reading unit 103 outputs a removal notification to the connection control unit 104. When the removal notification is output from the reading unit 103, the connection control unit 104 controls the second communication unit 102 to transmit the output removal notification to the termination device 20. The second communication unit 102 transmits a removal notification to the termination device 20 according to the control of the connection control unit 104 (step S308). The termination device 20 receives the removal notification transmitted from the relay device 10. The terminating device 20 performs processing according to the received removal notification (step S309). Specifically, the termination device 20 blocks communication from the relay device 10 to the second network 40. Thereby, the relay device 10 is disconnected from the second network 40. Thereafter, when the storage medium 50 is inserted into the relay device 10 again, the processing after step S301 is executed.

FIG. 6 is a sequence diagram showing a flow of operation of the network connection control system 100. In FIG. 6, a customer who requests connection to the second network 40, a first communication carrier that manages the first network 30, and an ISP that is the second communication carrier that manages the second network 40 will be described as an example.
First, the customer makes a contract with a communication carrier and ISP (step S401). When the contract is made, the communication carrier sends the relay device 10 to the customer (step S402). Also, the ISP writes connection information to the storage medium 50 (step S403). Thereafter, the ISP sends the storage medium 50 to the contracted customer (step S404). The customer inserts the storage medium 50 sent from the ISP into the relay apparatus 10 sent from the communication carrier (step S405). Thereby, the relay device 10 transmits a connection request to the termination device 20 via the first network 30.

According to the relay device 10 configured as described above, it is possible to facilitate connection of a network that requires authentication connected via a fixed line. This effect will be described in detail.
The relay device 10 reads the connection information from the storage medium 50 in which the connection information is stored in advance, and transmits the read connection information to the termination device 20. Then, once authenticated, connection to the second network 40 becomes possible. Therefore, the work that the user performs to connect to a network that can be connected via a fixed line is only to insert the storage medium 50 into the relay device 10. Therefore, the user does not operate the communication device to access the relay device 10 as in the past, or input predetermined information on the setting screen. Therefore, it is possible to facilitate connection of a network that requires authentication connected via a fixed line.

  Conventionally, information is manually input on the setting screen. For this reason, incorrect information may be input. In such a case, connection to the second network 40 is not possible. On the other hand, in the present invention, information used for connection of the second network 40 is stored in advance. Therefore, there is no need for the user to input. Therefore, a phenomenon that connection to the second network 40 becomes impossible due to erroneous registration can be reduced. It is also possible to suppress traffic suppression due to erroneous registration.

<Modification>
The relay device 10 may be powered off while connected to the second network 40. In such a case, the connection to the second network 40 is disconnected. Therefore, when the relay device 10 is activated again, the relay device 10 may be configured to perform the following processing. When the relay device 10 is activated again, the reading unit 103 determines whether or not the storage medium 50 is inserted into the insertion unit 11. When the storage medium 50 is inserted in the insertion unit 11, the relay device 10 executes the processing after step S <b> 101 in FIG. 3. On the other hand, when the storage medium 50 is not inserted in the insertion unit 11, the relay device 10 executes the process of step S202 in FIG.
With this configuration, it is possible to easily connect to a network that requires authentication and is connected via a fixed line even at the time of restart.
The present invention is applicable to any environment in which the relay device 10 can establish a session with the opposite device based on the connection information. For example, the relay device 10 can be closed such as an in-house LAN (Local Area Network) or a verification network. It can also be applied to networks. That is, the second network 40 may be an in-house LAN or a verification network.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes designs and the like that do not depart from the gist of the present invention.

DESCRIPTION OF SYMBOLS 10 ... Relay device, 20 ... Termination device, 30 ... 1st network, 40 ... 2nd network, 50 ... Storage medium, 101 ... 1st communication part, 102 ... 2nd communication part, 103 ... Reading part, 104 ... Connection control Part

Claims (4)

An insertion unit capable of inserting a storage medium storing connection information for connecting to a network connected via a fixed line;
A connection that generates a connection request for requesting connection to the network using the connection information stored in the inserted storage medium, and that requests connection to the network based on the generated connection request A control unit;
A relay device comprising:   The relay device according to claim 1, wherein the connection control unit performs control for disconnecting the connection with the network when the storage medium is removed. To the network using the connection information stored in the storage medium inserted in the insertion section in which a storage medium storing connection information for connecting to a network connected via a fixed line can be inserted A connection control step for generating a connection request for requesting a connection of and requesting a connection to the network based on the generated connection request;
A network connection method. To the network using the connection information stored in the storage medium inserted in the insertion section in which a storage medium storing connection information for connecting to a network connected via a fixed line can be inserted A connection control step for generating a connection request for requesting a connection of and requesting a connection to the network based on the generated connection request;
A computer program for causing a computer to execute.

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