KR101949918B1 - Methods, apparatus and system for wireless internet security connection using visible light communication - Google Patents

Abstract

The present invention relates to a wireless Internet access authentication method, apparatus, and system using visible light communication, in which a request for and a request for security access information with a user terminal is performed using visible light full duplex communication, And forms a wireless communication network with the wireless Internet router after connection authentication by visible light communication. According to the present invention, since the user terminal is provided with the visible light full duplex communication means and is only in the area where the visible light reaches, the connection authentication is performed. Therefore, the security is enhanced and there is no inconvenience of connection to the unwanted wireless Internet, It is possible to access the wireless Internet without inputting a separate security key. In addition, when a user requests a connection, a router uses a single key scheme for encrypting access information using a user's encryption key, and allows encrypted access information to be authenticated by visible light communication, or access authentication And the connection authentication apparatus does not perform the management of the connection information, thereby making it possible to simplify the wireless Internet connection with enhanced security.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless Internet security access authentication method, apparatus, and system using a visible light communication,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless Internet security access authentication method, apparatus and system using visible light communication, and more particularly, An Internet access authentication method, an apparatus and a system.

As the wireless Internet becomes popular, many users are automatically connected to a specific wireless Internet even if they do not want it in a public place or in India, and the user feels inconvenience because of a delay in switching to the wireless Internet and the mobile network. Also, there is a possibility that an attacker might hack by installing a router that has the same configuration as a wireless Internet router that is intentionally provided in a public place.

Existing wireless Internet generally uses a SSID (Service Set Identifier) and a security key (or a password) to establish a secure connection. However, there is a disadvantage that it is difficult to modify the security key once it is leaked. In order to solve this problem, there are various methods for enhancing security. For example, in some cases, security is enhanced by MAC (Message Authentication Code) authentication. However, there is a problem that this method can be bypassed through a method called MAC replication .

Visible light communication refers to a communication technology that transmits information using visible light. Generally, in visible light communication, data is transmitted by a method of modulating or blinking a frequency by using a visible light emitted from a device including a light emitting diode (LED) such as a lighting device or a display device. Such visible light communication does not require frequency allocation, and high-speed transmission of a large amount of data is possible by using high-speed blinking.

Visible light communication, which transmits information using visible visible light, is safe and widely used. It is not restricted and can be used freely. Besides, since it can see the place where the light reaches or the direction in which the light travels, Can be known accurately. That is, the visible area is the security area, and the visible light communication is impossible in the area where the visible light does not reach, so the security is very intuitive and excellent. By using these characteristics, it is possible to enhance security by performing access authentication by using visible light communication to a wireless Internet router in a specific space where visible light reaches. Especially, it is easy to use and high security can be realized by using a camera and a cell phone equipped with an LED.

According to Korean Patent Laid-Open No. 10-2017-0045693, as a prior art related to connection authentication for enhancing security, a security key management apparatus for generating and distributing an arbitrary security key to a user terminal is known. However, the technology improves the security of the security key by the security key management device by directly creating, changing and managing the security key and distributing it to the user terminal and the router (or access point). On the other hand, There is a problem that another hacking risk may arise because it is necessary to receive information and commands generated by the device.

A 10-2017-0045693 A.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art as described above, and it is an object of the present invention to provide a wireless Internet router capable of continuously changing access information and performing secure connection authentication using a full-duplex (full- And to form a wireless communication network after performing the authentication process.

According to an aspect of the present invention, there is provided a display apparatus including: a visible light communication unit for full-duplex communication with a user terminal; A wireless communication unit for communicating with the user terminal through a wireless network; And a control unit, wherein the control unit generates an SSID and a secret key, performs connection authentication of the user terminal through the visible light communication unit, and performs authentication of the user terminal through the wireless communication unit, And a wireless network are formed in the wireless network.

The control unit may perform connection authentication of the user terminal by transmitting the created SSID and the secret key to the user terminal through the visible light communication unit after receiving the connection information request from the user terminal through the visible light communication unit have.

The control unit may receive the encryption key together with the connection information request, encrypt the generated SSID and the security key with the encryption key, and transmit the encryption key.

The control unit may form a wireless network with the SSID and the security key with the user terminal through the wireless communication unit.

The control unit may generate or change the SSID and the security key periodically or non-periodically.

The visible light communication may be a full duplex communication using a Polarization Duplex Modulation (PDM) method using polarized light and dividing the total amount of light.

According to another aspect of the present invention, there is provided an access authentication method using visible light communication of a wireless Internet router, comprising: generating an SSID and a secret key; Receiving an access information request from a user terminal via visible light communication; Transmitting the created SSID and the secret key to the user terminal through visible light communication after receiving the connection information request; And forming a wireless network with the user terminal that has received the SSID and the secret key. The wireless Internet access authentication method using the visible light communication of the wireless Internet router is provided.

The wireless Internet access authentication method using visible light communication of the wireless Internet router includes: receiving an encryption key from the user terminal; And encrypting the generated SSID and the secret key using the encryption key.

According to another aspect of the present invention, there is provided a connection authentication apparatus for performing full duplex communication with a user terminal and visible light; And a wireless Internet router communicating with the user terminal through a wireless network, wherein the router generates an SSID and a secret key, and when receiving the connection information request from the connection authentication apparatus, And the connection authentication apparatus receives the connection information request from the user terminal and then receives the SSID and the secret key from the router and transmits the SSID and the secret key to the user terminal, The wireless Internet access authentication system using the visible light communication is provided.

The router receives an encryption key together with the connection information request, encrypts the generated SSID and the security key with the encryption key, and transmits the encryption key.

The router may generate or change the SSID and the security key periodically or aperiodically.

According to another aspect of the present invention, there is provided a connection authentication apparatus for performing full duplex communication with a user terminal and visible light; And a wireless Internet router communicating with the user terminal via a wireless network, the method comprising: receiving a connection information request from the user terminal; Requesting information; The router generating an SSID and a secret key; After the router receives the connection information request from the connection authentication apparatus, transmitting the generated SSID and the security key to the connection authentication apparatus; Transmitting the received SSID and the secret key to the user terminal; And accessing the router with the SSID and the security key received by the user terminal. A wireless Internet access authentication method using visible light communication is provided.

The wireless Internet access authentication method using visible light communication may further include encrypting the generated SSID and the secret key using an encryption key, wherein the encryption key is transmitted by the user terminal and may be transmitted together with the access information request have.

The SSID and the secret key may be generated or changed periodically or aperiodically.

According to another aspect of the present invention, there is provided a connection authentication apparatus for performing full-duplex communication with a user terminal and visible light and performing connection authentication to a router of the user terminal, The access authentication apparatus using visible light communication performs authentication of access to the router of the user terminal by receiving the SSID and the secret key from the router and transmitting the SSID and the secret key to the user terminal after receiving the access information request / RTI >

And may request the access information to the router only when the received connection information request is legitimate.

The received SSID and the secret key may be generated or modified by the router periodically or aperiodically.

As described above, according to the present invention, a wireless Internet access method includes a wireless Internet access authentication method for continuously changing access information, forming a wireless communication network by performing security access authentication using a visible light full duplex communication with a user terminal, The apparatus and the system are provided so that the security is enhanced and the connection to the undesired wireless Internet is not inconvenient because the user terminal is provided with the visible light full duplex communication means and is in the area where the visible light reaches, , The user can access the wireless Internet without inputting a separate security key.

In addition, when a user requests a connection, the router uses a single key scheme for encrypting access information using a user's encryption key, and the access authentication apparatus does not manage access information separately, So that a simpler and more secure wireless Internet access is possible.

1 is a block diagram illustrating a configuration of a wireless Internet access authentication system using visible light communication according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of a wireless Internet router according to an embodiment of the present invention.
3 is a flowchart showing a concrete example of connection authentication and a wireless network forming method using visible light communication of a wireless Internet router according to an embodiment of the present invention.
4 is a block diagram illustrating a configuration of a wireless Internet access authentication system using visible light communication according to another embodiment of the present invention.
5 is a block diagram illustrating a configuration of a wireless Internet access authentication device and a wireless Internet router using visible light communication according to another embodiment of the present invention.
6 is a flowchart showing a concrete example of connection authentication and a wireless network forming method in a wireless Internet access authentication system using visible light communication according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the following description, only parts necessary for understanding the operation according to the embodiment of the present invention are shown and described, and the other parts of the drawings and descriptions are omitted so as not to obscure the gist of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In addition, terms and words used in the following description and claims should not be construed to be limited to ordinary or dictionary meanings, but are to be construed in a manner consistent with the technical idea of the present invention As well as the concept.

Throughout the specification, when a part is referred to as being "connected" to another part, it is not limited to the case where it is "directly connected," but is "electrically connected" Or wirelessly or wirelessly over a wired / wireless network. Also, when a part is referred to as "including " an element, it does not exclude other elements unless specifically stated otherwise.

For simplicity of explanation, one or more methods are shown and described herein as a series of steps, for example in the form of a flowchart or a flowchart, but the present invention is not limited by the order of the steps, As it can be done in a different order than that shown and described herein or concurrently with other steps. Furthermore, not all illustrated steps may have to be implemented in accordance with the present invention.

1 is a block diagram illustrating a configuration of a wireless Internet access authentication system using visible light communication according to an embodiment of the present invention.

Referring to FIG. 1, a wireless Internet access authentication system using visible light communication according to an exemplary embodiment of the present invention may include a user terminal 30 and a wireless Internet router 10. The user terminal 30 and the wireless Internet router 10 can communicate with each other through the visible light communication 50 and also with the wireless network 60. [ That is, both the user terminal 30 and the wireless Internet router 10 are provided with both visible light communication means and wireless Internet communication means. In the visible light communication, .

The user terminal 30 may be a mobile phone, a smart phone, a computer, a tablet, a PC, or the like, and may be a variety of devices capable of using the wireless Internet. However, the present invention is not limited thereto. The user terminal 30 may connect to the wireless Internet router 10 with an SSID and a security key to form a wireless network.

Meanwhile, the user terminal 30 may include means for performing visible light communication for authentication of a wireless Internet connection using visible light communication according to the present invention. For example, the user terminal 30 may include a light emitting means such as an LED, A receiving unit such as a camera for receiving visible light, a decoding unit for decoding the encoded signal, and a plurality of polarizers for full-duplex communication.

The wireless Internet router 10 may be connected to the user terminal 30 through an SSID and a security key to form a wireless network. In addition, as with the user terminal 30 described above, it is possible to provide means for performing visible light communication for wireless Internet access authentication using visible light full duplex communication.

The router 10 may use a plurality of light emitting units (LEDs, etc.) connected to the outside, and a space through which the visible light emitted from the plurality of light emitting units reaches can be a security zone.

The router 10 may generate or change the SSID and security key periodically or non-periodically for security enhancement. After receiving the connection information request from the user terminal 30 via the visible light communication, the router 10 transmits the generated or changed SSID and the security key to the user terminal 30 through the visible light communication if the received request is legitimate Thereby performing connection authentication.

The user terminal 30 that has succeeded in connection authentication by receiving the SSID and the security key through the visible light communication can connect to the router 10 with the received SSID and security key to form a wireless network. At this time, the user terminal 30 can access the wireless Internet without inputting a separate security key. The router 10 may form a network with a plurality of user terminals 30 with the same SSID and security key or may form a network with a plurality of user terminals 30 with a plurality of SSIDs and security keys.

On the other hand, when the router 10 transmits the SSID and the secret key, it is preferable not to send the SSID and the secret key but to encipher it with an encryption algorithm such as AES (Advanced Encryption Standard) and transmit it. The required encryption key may be time information such as OTP, or the terminal may transmit the encryption key together with the connection request, but the present invention is not limited thereto.

2 is a block diagram illustrating a configuration of a wireless Internet router 10 according to an embodiment of the present invention.

Referring to FIG. 2, the router 10 may include a visible light communication unit 12, a wireless communication unit 16, and a control unit 14. The router 10 may further include other functional blocks required as a wireless Internet router, including an antenna, but it is omitted for the sake of illustrating only the parts necessary for understanding the operation according to the embodiment of the present invention.

The visible light communication unit 12 performs full duplex communication with the user terminal 30 and visible light, receives the connection information request from the user terminal 30, and transmits the SSID and the security key to the user terminal 30. [ The visible light communication unit 12 may include means such as an LED, a camera, and a polarizer necessary for transmission and reception of visible light.

The visible light communication unit 12 can perform full-duplex communication using a Polarization Duplex Modulation (PDM) method by using polarized light and dividing the total amount of light. Visible light communication is often performed in a unidirectional manner. In the present invention, full duplex (bidirectional) communication is performed. Polarization can be used for full-duplex communication. Polarization is a phenomenon in which an electric field or a magnetic field constituting a wave vibrates in a specific direction when electromagnetic waves of light proceed. When polarization directions of light are different by 90 degrees from each other, they are orthogonal to each other. In other words, unlike Wavelet Division, which is a widely known method of separating the wavelength of light and performing different communication, the total amount of light can be divided and communication is possible. Therefore, the polarizers, which are orthogonal to each other, of the visible light communication unit 12 are provided at the transmitting end and the receiving end, respectively, so that full-duplex communication can be performed.

The visible light communication unit 12 receives the connection information request from the user terminal 30, decodes the visible light signal, and transmits the visible light signal to the control unit 14. [ When the visible light communication unit 12 receives the connection information request from the user terminal 30, it may receive the encryption key together with the encryption key, and may transmit the received encryption key to the control unit 14. [ In addition, the visible light communication unit 12 may receive the SSID and the secret key from the control unit 14, encode the SSID and the secret key into visible light, and transmit the encoded SSID and the secret key to the user terminal 30.

The wireless communication unit 16 may form a wireless network with the user terminal 30. [ The user terminal 30 may attempt to connect to the wireless communication unit using the SSID and the security key received from the visible light communication unit 12. [ The wireless communication unit 16 may include means such as an antenna necessary for wireless network communication.

The control unit 14 generates an SSID and a secret key and performs connection authentication of the user terminal 30 through the visible light communication unit 12. After performing the connection authentication, the control unit 14 wirelessly communicates with the user terminal 30 via the wireless communication unit 16. [ A network can be formed.

After receiving the connection information request from the user terminal 30 through the visible light communication unit 12, the control unit 14 can confirm whether or not the connection information request is legitimate. If the access information request is legitimate, the access authentication of the user terminal can be performed by transmitting the SSID and the security key to the user terminal 30 through the visible light communication unit 12. [

In this case, the control unit 14 encrypts the SSID and the secret key using an encryption algorithm such as AES, and transmits the encryption key to the visible light communication unit 12 .

There are various methods for determining whether the request of the connection information of the user terminal 30 is valid by the control unit 14. For example, when providing the wireless Internet free of charge, the user terminal 30 transmits the visible light communication means It can be judged to be legitimate when it can be installed and communicated, or it can be judged whether the user is a registered user by allowing the user to register in advance, but the present invention is not limited thereto.

The control unit 14 preferably generates or changes the SSID and the security key periodically or non-periodically for security or efficient user (visitor) management. Upon receiving the connection information request, the control unit 14 may transmit the SSID and the security key that have already been generated or changed, or may generate and transmit a new SSID and a security key according to the connection information request.

The control unit 14 may form a wireless network with the user terminal 30 through the wireless communication unit 16. When the user terminal 30 attempts connection using the SSID and the security key received by the user terminal 30, Can be formed.

As described above, the router 10 allows the user terminal 30 to request and authenticate the connection information through the visible light communication, so that the user terminal 30 can communicate with the user terminal 30 in the area where the visible light reaches, (30), it is possible to securely access the wireless Internet.

In addition, when a user requests a connection, the router 10 uses a single key scheme for encrypting access information by using a user's encryption key, and makes the access authentication through visible light communication simpler and more secure The wireless Internet access is possible.

3 is a flowchart (S100) illustrating a concrete example of connection authentication and wireless network forming method using visible light communication of the wireless Internet router 10 according to an embodiment of the present invention.

Referring to FIG. 3, in step S102, the router 10 may receive a connection information request from the user terminal 30 through visible light communication. At this time, the encryption key can also be received from the user terminal 30. [

The router 10 can confirm whether the received connection information request is legitimate (S104). There are various methods for determining whether the connection information request is legitimate. In the case of providing the wireless Internet free of charge, the user terminal 30 may determine that the user terminal 30 is legitimate when it can communicate with the visible light communication means, It is possible to determine whether the user is a registered user by allowing the user to register in advance, but the present invention is not limited thereto.

The router 10 may generate secure access information, i.e., an SSID and a secret key (S106). It is desirable to generate or change the SSID and the security key periodically or non-periodically for security or efficient user (visitor) management. After receiving the connection information request, if the SSID and the security key that have already been generated or changed are used, this step may be performed before step S102. Alternatively, after receiving the connection information request, a new SSID and a secret key may be generated and transmitted. In addition, the router 10 may be used for a plurality of users with the same SSID and security key, or may be used for a plurality of users with a plurality of SSIDs and a security key.

When the encryption key is received from the user terminal 30, the router 10 can encrypt the SSID and the secret key using the encryption key (S108).

The router 10 may transmit the connection information (SSID and security key) or the encrypted connection information to the user terminal 30 through the visible light communication (S110).

When the user terminal 30 receives the access information (SSID and security key), the access authentication is successful. Therefore, the user terminal 30 can attempt to access the wireless network with the SSID and the security key. At this time, the user terminal 30 can access the wireless Internet without inputting a separate security key.

The router 10 receives the network connection attempt of the user terminal 30 (S112) and can confirm whether the network connection information (SSID and security key) is correct (S114). On the other hand, if the access information received by the user terminal 30 is encrypted with the encryption key, the access information can be obtained by decrypting.

When the network access information is confirmed, the router 10 can form a wireless network with the user terminal (S116).

As described above, the router 10 allows the user terminal 30 to request and authenticate the connection information through the visible light communication, so that the user terminal 30 can communicate with the user terminal 30 in the area where the visible light reaches, (30), it is possible to securely access the wireless Internet.

4 is a block diagram illustrating a configuration of a wireless Internet access authentication system using visible light communication according to another embodiment of the present invention.

Referring to FIG. 4, the wireless Internet access authentication system of the present embodiment may include a connection authentication apparatus 20 and a wireless Internet router 40. 1, the wireless Internet router 10 of FIG. 1 is divided into a connection authentication apparatus 20 and a wireless Internet router 40 in FIG. The connection authentication apparatus 20 may relay connection information request and connection information between the user terminal 30 and the router 40. [

The user terminal 30 communicates with the connection authentication apparatus 20 via the visible light communication 50 and the wireless Internet router 40 with the wireless network 60. [ That is, the user terminal 30 includes both the visible light communication means and the wireless Internet communication means, the connection authentication apparatus 20 has the visible light communication means, and the router 40 has the wireless Internet communication means.

The connection authentication apparatus 20 can be connected to the router 40 by various methods of wired and wireless, and it is preferable that the connection authentication apparatus 20 is connected by a wire 70 to prevent a danger such as hacking.

The connection authentication apparatus 20 receives a connection information request from the user terminal 30 via visible light communication, and then transmits the received request to the router 40. [ At this time, it is determined whether the received request is legitimate, and the received request can be transmitted to the router 40 only when it is determined that the request is legitimate. Alternatively, the router 40 may determine whether the received request is legitimate.

The connection authentication apparatus 20 can receive the SSID and the secret key from the router 40 and transmit the SSID and the secret key to the user terminal 30 through the visible light communication to complete the connection authentication.

The connection authentication apparatus 20 may receive the encryption key together with the connection information request from the user terminal 30. In this case, the connection authentication apparatus 20 transmits the encryption key together with the encryption key to the router 40, And transmit the encrypted SSID and security key to the user terminal 30.

A plurality of connection authentication apparatuses 20 may be connected to the router 40. In this case, all the spaces through which the visible light emitted from the plurality of connection authentication apparatuses 20 reach can be a security zone.

The router 40 may generate or change the SSID and security key periodically or non-periodically for security enhancement. After receiving the connection information request from the connection authentication apparatus 20, the router 40 can perform connection authentication by sending the SSID and the security key to the connection authentication apparatus 20 if the received request is legitimate. Further, it may be determined whether the received request is legitimate by the connection authentication apparatus 20 without performing the determination in the router 40. [

When the SSID and the secret key are transmitted, the router 40 preferably transmits the encrypted SSID and encryption key using an encryption algorithm such as AES without transmitting the SSID and the secret key to the plaintext. The required encryption key may be time information such as OTP, or the terminal may transmit the encryption key together with the connection request, but the present invention is not limited thereto.

The user terminal 30 that has succeeded in connection authentication by receiving the SSID and the security key through visible light communication can connect to the router 40 with the received SSID and security key to form a wireless network.

The router 40 may form a network with a plurality of user terminals 30 with the same SSID and security key or may form a network with a plurality of user terminals 30 with a plurality of SSIDs and a security key.

As described above, according to the present embodiment, the router 40 uses a single key scheme for encrypting access information using a user's encryption key when a user requests access, and the access authentication apparatus 20 uses a separate access information management It is possible to simplify the wireless Internet connection with enhanced security by making the connection authentication via the encrypted connection information without performing the authentication.

5 is a block diagram illustrating the configuration of a wireless Internet access authentication device 20 and a wireless Internet router 40 using visible light communication according to another embodiment of the present invention.

5 (a), the connection authentication apparatus 20 can be configured to include a visible light communication unit 22 and a connection authentication control unit 24. [

The visible light communication unit 22 performs full duplex communication with the user terminal 30 and visible light in the same manner as the visible light communication unit 12 in Fig. 2, receives a connection information request from the user terminal 30, The SSID, and the secret key. The visible light communication unit 22 may include means such as an LED, a camera, and a polarizer necessary for transmission and reception of visible light.

The visible light communication unit 22 may receive the connection information request from the user terminal 30, decrypt the visible light signal, and transmit the decrypted visible light signal to the connection authentication control unit 24. [ When the visible light communication unit 22 receives the connection information request from the user terminal 30, it may receive the encryption key together with the encryption key, and transfers the received encryption key to the connection authentication control unit 24. [ Also, the visible light communication unit 22 can receive the SSID and the secret key from the connection authentication control unit 24, encode it into visible light, and transmit it to the user terminal 30.

The connection authentication control unit 24 can receive the connection information request and / or the encryption key from the visible light communication unit 22 and transmit it to the router 40. In addition, the connection authentication control unit 24 may include a function of determining whether the received connection information request is legitimate. In this case, the access information request and encryption key can be transmitted to the router 40 only when the received connection information request is legitimate.

The connection authentication control unit 24 can receive the SSID and the secret key from the router 40 and transmit it to the visible light communication unit 22. [ The received SSID and security key may be encrypted.

Referring to FIG. 5B, the wireless Internet router 40 may include a wireless communication unit 46 and a control unit 44. The router 40 may further include other functional blocks required as a wireless Internet router including the antenna, but is omitted for illustrating only the portion necessary for understanding the operation according to the embodiment of the present invention.

The wireless communication unit 46 may form a wireless network with the user terminal 30. The user terminal 30 can attempt to connect to the wireless communication unit with the SSID and the security key received from the connection authentication apparatus 20. [ The wireless communication unit 46 may include means such as an antenna necessary for wireless network communication.

The control unit 44 generates an SSID and a secret key, and after receiving the connection information request from the user terminal 30 through the connection authentication apparatus 20, the control unit 44 can confirm whether or not the connection information request is legitimate. If the access information request is legitimate, the access authentication of the user terminal can be performed by transmitting the SSID and the security key to the user terminal 30 through the visible light communication unit 22. [ The function of judging whether or not the connection information request is legitimate may be implemented in the connection authenticating apparatus 20.

There are various methods for judging whether the request of the connection information of the user terminal 30 is legitimate in the control unit 44 or the connection authentication control unit 24. In the case of providing the wireless Internet free of charge, It may be judged to be legitimate when the communication means can be mounted, or the user may be allowed to perform user registration in advance to determine whether or not the user is a registered user. However, the present invention is not limited thereto.

In this case, the control unit 44 may encrypt the SSID and the secret key using an encryption algorithm such as AES and transmit the encryption key to the connection authentication apparatus 20 have.

The control unit 44 preferably generates or changes the SSID and the security key periodically or non-periodically for security or efficient user (visitor) management. Upon receiving the connection information request, the control unit 44 may transmit the SSID and the security key that have been already generated or changed, or may generate and transmit a new SSID and a security key after receiving the connection information request.

The control unit 44 may form a wireless network with the user terminal 30 through the wireless communication unit 46. When the user terminal 30 attempts connection using the received SSID and security key, the user terminal 30 can confirm the network information and form a wireless network.

As described above, the router 40 continuously changes the SSID and the secret key, and requests and authenticates the connection information with the user terminal 30 to perform the visible light communication via the connection authentication device 20, Since only the user terminal 30 having the visible light full duplex communication means can receive the access authentication within the area where the visible light 30 reaches the visible light, more secure connection and wireless Internet connection are possible.

FIG. 6 is a flowchart (S200) illustrating a concrete example of a connection authentication and a wireless network forming method of a wireless Internet access authentication system using visible light communication according to another embodiment of the present invention.

Referring to FIG. 6, in step S202, the connection authentication apparatus 20 can receive a connection information request from the user terminal 30 through visible light communication. At this time, the encryption key of the user terminal 30 can also be received.

The connection authentication apparatus S204 can confirm whether the received connection information request is legitimate (S104). There are various methods for determining whether the connection information request is legitimate. In the case of providing the wireless Internet free of charge, the user terminal 30 may determine that the user terminal 30 is legitimate when it can communicate with the visible light communication means, It is possible to determine whether the user is a registered user by allowing the user to register in advance, but the present invention is not limited thereto.

It is also possible for the router 40 to determine whether the connection information request is legitimate, in which case this step may be performed in the router 40 after step S206.

In step S206, the router 40 may receive a connection information request.

The router 40 receiving the access information request can generate the SSID and the secret key (S208). It is desirable to generate or change the SSID and the security key periodically or non-periodically for security or efficient user (visitor) management. After receiving the access information request, if the SSID and the security key that have already been generated or changed are used, this step may be performed before step S206. Alternatively, after receiving the connection information request, a new SSID and a secret key may be generated and transmitted. In addition, the router 40 may be configured to use the same SSID and security key for a plurality of users, or may be used for a plurality of users with a plurality of SSIDs and security keys.

When the encryption key is received from the user terminal 30, the router 40 can encrypt the SSID and the secret key using the encryption key (S210).

In step S212, the connection authentication apparatus 20 can receive the SSID and the security key transmitted by the router 40. [

The connection authentication apparatus 20 receiving the SSID and the security key can transmit the SSID and the security key or the encrypted connection information to the user terminal 30 through the visible light communication (S214).

When the user terminal 30 receives the connection information (SSID and security key), the connection authentication is successful. Therefore, the user terminal 30 can now attempt to access the wireless network with the SSID and the security key. At this time, the user terminal 30 can access the wireless Internet without inputting a separate security key.

If the SSID and the secret key received by the user terminal 30 are encrypted, the SSID and the secret key may be decrypted using the encryption key (S216)

The router 40 receives the network connection attempt of the user terminal 30 (S218) and can confirm whether the network connection information (SSID and security key) is correct (S220).

When the network access information is confirmed, the router 40 can form a wireless network with the user terminal (S222).

As described above, the router 40 continuously changes the SSID and the secret key, and requests and authenticates the connection information with the user terminal 30 to perform the visible light communication via the connection authentication device 20, Since only the user terminal 30 having the visible light full duplex communication means can receive the access authentication within the area where the visible light 30 reaches the visible light, more secure connection and wireless Internet connection are possible.

As described above, according to the embodiments described above, the wireless Internet access authentication method, apparatus, and system for forming the wireless communication network by performing the secure connection authentication using the visible light full duplex communication with the user terminal 30 , Since the connection authentication is performed only when the user terminal 30 has the visible light full duplex communication means and is located in an area where the visible light reaches, the security is enhanced and there is no inconvenience that the user terminal 30 is connected to the unwanted wireless Internet, It is possible to access the wireless Internet without inputting a separate security key.

In addition, when a user requests a connection, the routers 10 and 40 use a single key scheme for encrypting access information by using a user's encryption key, and allow encrypted access information to be accessed by visible light communication, 20, and the connection authentication apparatus 20 does not perform separate connection information management, thereby making it possible to simplify a wireless Internet connection with enhanced security.

In addition, embodiments of the wireless Internet access authentication method using visible light communication as described above can be implemented in the form of computer program instructions that can be executed through various computer components. Furthermore, the computer program embodied may be recorded on a computer-readable recording medium. The recording medium mentioned above may be, but is not necessarily, a ROM, a magnetic disk or a compact disk, an optical disk, or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, . Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10, 40: Wireless Internet Router
12, 22: Visible light communication part
14, 44:
16, 46:
20: connection authentication device
24: connection authentication control section
30: User terminal
50: visible light full duplex communication
60: Wireless network communication

Claims (17)

A visible light communication unit for full-duplex communication with a user terminal;
A wireless communication unit for communicating with the user terminal through a wireless network; And
A control unit;
A wireless Internet router comprising:
In the visible light communication, full-duplex communication is performed using a Polarization Duplex Modulation (PDM) method by using polarized light and dividing the total amount of light,
Wherein,
Generates an SSID and a secret key,
Performing connection authentication of the user terminal through the visible light communication unit,
And forms a wireless network with the user terminal through the wireless communication unit after performing the connection authentication.
The method according to claim 1,
Wherein,
Wherein the access authentication unit performs connection authentication of the user terminal by transmitting the generated SSID and the secret key to the user terminal through the visible light communication unit after receiving the connection information request from the user terminal through the visible light communication unit. Wireless Internet Router.
3. The method of claim 2,
Wherein,
Receives the encryption key together with the connection information request, encrypts the generated SSID and the security key with the encryption key, and transmits the encryption key.
The method according to claim 1,
Wherein,
And forms a wireless network using the SSID and the security key with the user terminal through the wireless communication unit.
The method according to claim 1,
Wherein,
Wherein the SSID and the security key are generated or changed periodically or non-periodically.
delete A connection authentication method using visible light communication of a wireless Internet router,
Generating an SSID and a security key;
Receiving an access information request from a user terminal via visible light communication;
Transmitting the created SSID and the secret key to the user terminal through visible light communication after receiving the connection information request; And
Forming a wireless network with the user terminal that has received the SSID and the secret key;
Lt; / RTI >
Wherein the visible light communication is full-duplex communication in a PDM manner by using polarized light and dividing the total amount of light, the wireless Internet access method using visible light communication of a wireless Internet router.
8. The method of claim 7,
Receiving an encryption key from the user terminal; And
Encrypting the generated SSID and the security key using the encryption key;
Wherein the wireless Internet access method further comprises the steps of:
A connection authentication device for performing full duplex communication with a user terminal and visible light; And
A wireless Internet router communicating with the user terminal via a wireless network;
A system comprising:
The visible light communication uses full-duplex communication in a PDM scheme by using polarized light and dividing the total amount of light,
The router generates an SSID and a secret key, and when receiving the connection information request from the connection authentication apparatus, transmits the SSID and the secret key to the connection authentication apparatus,
Wherein the connection authentication apparatus receives the connection information request from the user terminal, receives the SSID and the security key from the router, transmits the SSID and the security key to the user terminal,
Wherein the user terminal accesses the router with the SSID and the security key received from the connection authentication device.
10. The method of claim 9,
The router includes:
Receiving the encryption key together with the access information request, encrypting the generated SSID and the security key with the encryption key, and transmitting the enciphered encryption key.
10. The method of claim 9,
The router includes:
Wherein the SSID and the security key are generated or changed periodically or non-periodically.
A connection authentication device for performing full duplex communication with a user terminal and visible light; And
A wireless Internet router communicating with the user terminal via a wireless network;
A method for authenticating a wireless Internet access using visible light communication of a system,
Requesting the access authentication device from the user terminal for the access information to the router after receiving the access information request;
The router generating an SSID and a secret key;
After the router receives the connection information request from the connection authentication apparatus, transmitting the generated SSID and the security key to the connection authentication apparatus;
Transmitting the received SSID and the secret key to the user terminal; And
Connecting the user terminal to the router with the received SSID and security key;
Lt; / RTI >
Wherein the visible light communication is full-duplex communication using a PDM method by using polarized light and dividing the total amount of light, the wireless Internet access authentication method using visible light communication.
13. The method of claim 12,
Encrypting the generated SSID and the secret key using an encryption key;
Further comprising:
Wherein the encryption key is transmitted by the user terminal and is transmitted together with the connection information request.
13. The method of claim 12,
Wherein the SSID and the security key are generated or changed periodically or non-periodically.
A connection authentication device communicating in full duplex with a user terminal and visible light and performing connection authentication to a router of the user terminal,
Receiving a connection information request from the user terminal, receiving an SSID and a secret key from the router, and transmitting the SSID and the secret key to the user terminal, thereby performing connection authentication to the router of the user terminal,
Wherein the visible light communication uses full-duplex communication in a PDM manner using polarized light and dividing the total amount of light.
16. The method of claim 15,
And requests the access information to the router only when the received connection information request is valid.
16. The method of claim 15,
Wherein the SSID and the security key are generated or changed periodically or non-periodically by the router and transmitted.

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