WO2019103395A1 - Method and apparatus for providing content by using visible light communication - Google Patents

Abstract

Disclosed are a method and an apparatus for providing a content by using visible light communication. One aspect of the present embodiment provides techniques that allow a mobile device, which receives a visible light signal distributed to unspecified entities through visible light communication, to process the visible light signal so as to filter out a visible light signal including data irrelevant to a service, to which a user is subscribing, or a visible light signal received from a visible light communication apparatus installed by a malicious third party.

Description

Method and apparatus for providing contents using visible light communication

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a visible light communication (VLC), and more particularly, to processing of a visible light signal distributed unidirectionally to an unspecified number of persons.

Communication devices using radio waves including infrared rays are widely used in addition to the spread of portable wireless devices and the like. However, these communication devices are limited due to the depletion of radio wave resources and the influence on the human body and medical instruments such as eyes.

Visible light communication is a communication method that transmits data to light by using indoor / outdoor lighting, billboard, traffic light, street light, etc. made of LED. It can be used in hospitals and airplanes with limited use of radio waves, Has attracted attention in short-range wireless communication, especially unidirectional information providing system.

The present invention provides techniques for filtering VLC signals received from a visible light communication device installed by a third party of a VLC signal or malicious unrelated to a service to which the user subscribes in this unidirectional information providing system, .

According to another aspect of the present invention, there is provided a method for enhancing the security of information distributed to an unspecified number of users in a unidirectional information providing system and supporting techniques for a fee-based service.

According to an aspect of the present invention, there is provided a method performed by a mobile device supporting visible light communication. The method comprises: receiving a service identifier for identifying a service subscribed by a user from a service server and storing the received service identifier; Receiving a VLC signal from the illumination device and extracting header information from the received VLC signal; Determining whether a service identifier included in the header information matches the stored service identifier; And discarding the received VLC signal if the service identifier included in the header information does not match the stored service identifier.

Requesting a management server for an illumination identifier included in the header information if the service identifier included in the header information matches the stored service identifier; And discarding the received VLC signal upon receiving a response from the management server indicating that authentication of the illumination identifier has failed.

The method comprising the steps of: requesting, by the service server, a decryption key corresponding to a sequence number included in the header information, upon receiving a response from the management server indicating that authentication of the illumination identifier is successful; And decoding the data included in the payload of the received VLC signal using the decryption key received from the service server.

According to another aspect of the present invention, there is provided a mobile device supporting visible light communication. The mobile device comprising: at least one processor; And a memory coupled to the at least one processor, the processor comprising: receiving from the service server a service identifier identifying a service subscribed by the user and storing the received service identifier; Receiving a VLC signal from the illumination device and extracting header information from the received VLC signal; Determining whether a service identifier included in the header information matches the stored service identifier; And discarding the received VLC signal if the service identifier included in the header information does not match the stored service identifier.

According to another aspect of the present invention, there is provided a mobile device supporting visible light communication, comprising: means for receiving a service identifier that identifies a service subscribed by a user from a service server; Means for receiving a VLC signal from a lighting device; Means for extracting header information from the received VLC signal and determining whether a service identifier included in the header information matches the stored service identifier; And means for discarding the received VLC signal if the service identifier included in the header information does not match the stored service identifier.

According to another aspect of the present invention, there is provided a method performed by a mobile device supporting visible light communication, the method comprising: receiving a VLC signal including advertisement data in a default physical layer operation mode; Providing the advertisement data to a user; Requesting a service server for paid data associated with advertisement data in response to a user command instructing to receive paid data associated with the advertisement data; Receiving information on a physical layer operation mode for receiving payload data from the service server; Receiving a VLC signal including payload data in a physical layer operation mode for receiving the pay data; And providing the charged data to a user.

1 is a diagram illustrating a visible light communication system according to an embodiment of the present invention.

2 is a diagram illustrating a format of a VLC data packet according to an embodiment of the present invention.

3 is a flowchart illustrating an operation of a visible light communication system according to an exemplary embodiment of the present invention.

4 is a flowchart illustrating an operation of a visible light communication system according to another embodiment of the present invention.

5 is a diagram illustrating an exemplary configuration of a mobile device according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. Throughout the specification, when an element is referred to as being "comprising" or "comprising", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise . In addition, '... The term "module" refers to a unit that processes at least one function or operation, which may be implemented in hardware, software, or a combination of hardware and software.

1 is a diagram illustrating a visible light communication system according to an embodiment of the present invention.

As shown in Fig. 1, the visible light communication system is composed of a visible light communication device 10, a user terminal 20, a service server 30, and a management server 50. The visible light communication device 10 includes an illumination device or a digital signage and transmits a VLC signal including a VLC data packet by modulating visible light (illumination light) emitted from a light source (for example, a light emitting diode). In addition, although only one visible light communication device 10 is shown in FIG. 1, a plurality of visible light communication devices 10 are actually installed along a walkway, a road, a passage, and the like.

The user terminal 20 is composed of a mobile wireless communication device having a visible light communication function and a wireless communication function using radio waves as a medium. The user terminal 2 may be implemented as a smart device such as a smart phone or a tablet PC, a notebook computer, a PDA, or the like.

The service server 30 is composed of a general-purpose computer system, an operating system for a server (server OS), and software for a server. The service server 30 also includes unique terminal identification information (terminal identifier) assigned to the user terminal 20 and a unique identifier (illumination identifier) of the visible light communication device 10 managed by the management server 50, The address is stored in the database and managed. The service server 30 also has a function of performing data communication with the user terminal 20 and the management server 50. [ Like the service server 30, the management server 50 is composed of a general-purpose computer system, an operating system for a server, and software for a server. In addition, the management server 50 manages the unique identifier (illumination identifier) of the visible light communication devices 10 managed by itself and the address on the network. The management server 50 also has a function of data communication with the user terminal 20 and the service server 30. It is also possible to divide one computer system into a plurality of virtual computer systems and implement the service server 30 and the management server 50 in respective virtual computer systems by the conventional server virtualization technology.

The service server 30 acquires an identifier and an address for identifying the visible light communication device 10 managed by the management server 50 by subscribing / registering with the management server 30 in advance. The service server 30 delivers the encrypted data (content) and the distribution schedule of each content to the visible light communication device 10 via the network. The service provided by the service server 30 to the terminal may provide a plurality of contents different from each other. The service server 30 may provide different contents over time.

The visible light communication device 10 acquires the encrypted data (content) and the distribution schedule from the service server 30 via the network and stores it in the memory. The visible light communication device 10 converts each content into a format conforming to a visible light communication protocol according to a content distribution schedule. The visible light communication device 10 transmits, for example, a VLC signal including the VLC data packet illustrated in FIG. The data included in the payload of each data packet may be encrypted with different encryption keys.

The user terminal 20 needs to first subscribe to the service provided by the service server 30 via the network in order to receive the content distributed in the visible light from the visible light communication device 10. [ A unique terminal identifier (e.g., a mobile phone number or a MAC address) of the user terminal 20 can be used when joining the service. When the service subscription is successful, the user terminal 20 receives a service identifier for identifying the subscribed service from the service server 30, and stores the received service identifier in the memory.

When the VLC signal is received from the visible light communication device 10, the user terminal 20 transmits a VLC signal or a malicious third party, which is not related to the service to which the user subscribes, Lt; RTI ID = 0.0 > VLC < / RTI > The user terminal 20 decrypts the encrypted data (or the encrypted content) included in the payload of the VLC data packet illustrated in FIG. 2, for example, by using the decryption key obtained from the service server 30 via the network can do. The user terminal 20 stores the decrypted data in a memory, and the user of the user terminal 20 selects and displays the content related information stored in the memory.

2 is a diagram illustrating a format of a VLC data packet according to an embodiment of the present invention. The packet format illustrated in FIG. 2 may be used when the visible light communication device (illuminator) transmits data to the user terminal 20 using visible light communication.

2, the header includes a data type 211, a flag 212, a lighting ID 213, a device ID 214, a service ID (Service ID) 214, , 215, and a sequence number (216) field.

The data type field 211 is a field indicating the type of data to be transmitted. It is determined whether the type of data to be transmitted is control data for controlling the user terminal 20 or content data for transmitting information to the user terminal 20 by using the data type field 211. For example, if the data type field 211 has a value of 0, it indicates that the data type is content data, and if the data type field 211 has a value of 1, it indicates that the data type is control data.

The flag field 212 is a field for confirming sub-classification of (control / contents) data to be transmitted. That is, the flag field 212 indicates a subclass of the type of data pointed to by the data type field 212. In other words, when the data type field 212 represents control data, the flag field 212 may represent a subclass of control data. In addition, when the data type field 212 indicates content data, the flag field 212 may indicate a subclassification of the content data. For example, if the flag field 212 has a value of 0, it may be control data that causes the setting of the user terminal 20 to be changed. If the flag field 212 has a value of 1, the control that controls the user terminal 20 to perform a specific operation Lt; / RTI > If the flag field 212 has a value of 0, the content data may be advertisement data to be distributed to unspecified terminals, and if the flag field 212 has a value of 1, May be paid data distributed to the user.

The illumination device identifier field 213 is a field for confirming the illumination device that transmits the data. The illuminator identifier field 213 contains an identifier of the illuminator that transmits the data to the user terminal 20. [

The terminal identifier field 214 is a field for identifying a terminal to receive the data. The terminal identifier field 520 includes an identifier of a terminal to receive the corresponding data. The terminal identifier field 520 may have a predetermined value (for example, "111 ... 11") when the data is data distributed to an unspecified number of terminals.

The service identifier field 215 is a field for confirming the service to which the data concerned is related. The service identifier field 215 contains the service identifier of the service associated with the data.

The sequence number field 216 is a field for allowing the service server 30 to identify data (or contents) to be transmitted through the data packet among a series of data (or contents) transmitted. As described above, the service provided by the service server 30 to the user terminal 20 may be to provide a plurality of contents different from each other. The sequence number field 216 may include a sequence number (or a content identifier) for identifying the corresponding data.

Further, the data included in the payload may be encrypted according to the subtype of the content data, or may not be encrypted. For example, if the content data is advertisement data distributed to an unspecified terminal, the payload may include unencrypted content data. On the other hand, when the content data is paid data distributed for specific terminals that have subscribed to the service in advance, the payload may include encrypted content data. The data included in the payload of each data packet may be encrypted with different encryption keys.

Next, the operation of the visible light communication system according to the embodiment of the present invention will be described with reference to FIG. 3 is a flowchart illustrating an operation of a visible light communication system according to an exemplary embodiment of the present invention.

First, the user performs at least one service subscription among a plurality of services using the user terminal 20 (S310). The user terminal 20 receives a service identifier for identifying a service subscribed by the user from the service server 30, and stores the received service identifier in the user terminal 20 (S311 to S312). The service server 30 stores the subscription information in the database (S313). The subscription information may include a terminal identifier of the user terminal 20 used for service subscription and / or a user identifier and a subscribed service identifier. The mobile station number or the MAC address assigned to the user terminal 20 may be used as the terminal identifier.

Subsequently, the user terminal 20 receives the VLC signal from the illumination device (S320). The user terminal 20 extracts header information from the VLC signal (S321).

The user terminal 20 confirms whether the service identifier included in the header information matches the previously stored service identifier (i.e., the service identifier for identifying the service to which the user subscribes) (S323). If the two service identifiers do not match (NO in S323), the user terminal 20 discards the received VLC signal and returns to the standby state to receive a new VLC signal. If the two service identifiers match (YES in S323), the user terminal 20 requests the management server 50 for the illumination identifier included in the header information via the wireless communication (S324) .

If the illumination identifier received from the user terminal 20 matches the illumination identifier registered in the database, the management server 50 determines that the authentication is successful. Otherwise, the management server 50 determines that the authentication is unsuccessful (S325). The management server 50 returns the authentication result (authentication success or authentication failure) to the user terminal 20 via wireless communication (S326).

If the received authentication result is an authentication failure (NO in S327), the user terminal 20 discards the received VLC signal and returns to the standby state to receive a new VLC signal. If the received authentication result is an authentication success (Yes in S327), the user terminal 20 transmits the terminal identifier used at the time of service subscription and the sequence contained in the header information to the decryption key for decrypting the encrypted data And transmits the number to the service server 30.

The service server 30 inquires the subscription information stored in the database and confirms whether the terminal identifier received from the user terminal 20 is a registered user. When it is determined that the user is a registered user, the service server 30 returns the decryption key corresponding to the sequence number received from the user terminal 20 to the user terminal 20 (S331). If it is determined that the user is not a registered user, the service server 30 returns an error message to the user terminal 20. In some embodiments, the service server 30 may provide a decryption key, and then update a billing record corresponding to the user terminal 20. [

The user terminal 20 uses the decryption key obtained from the service server 30 to decrypt the encrypted data included in the payload (S332).

In this manner, the user terminal 20 ignores the corresponding VLC signal when a VLC signal irrelevant to the service to which the user has previously subscribed is received, based on the service identifier included in the header information extracted from the received VLC signal And may only provide data to the user relating to the services to which they have subscribed (which may be of interest to the user).

In addition, since the user terminal 20 ignores the VLC signal received from the illumination device not registered by the management server 50, for example, the VLC signal received from the illumination device (VLC transmitter) installed by a malicious third party The risk of providing the user with malicious or dangerous information to execute malicious code that may be contained in the malicious code can be avoided. Note that a VLC infrastructure network may consist of numerous VLC transmitters to provide adequate coverage and capacity, and in such circumstances, the installation of a fake VLC transmitter by a malicious third party may not be readily detected.

In addition, by encrypting contents distributed to unspecified number of user terminals through unidirectional visible light communication, it is possible to secure security of transmitted data, and furthermore, to provide decryption keys for decrypting encrypted contents only to user terminals subscribed to a paid service Thereby making it possible to charge the fee-based information distribution service.

4 is a flowchart illustrating an operation of a visible light communication system according to another embodiment of the present invention.

The user terminal 20 receives the VLC signal including the advertisement data in the default physical layer operation mode (S410).

The user terminal 20 displays the received advertisement data on the display device to provide the advertisement data to the user (S420).

When the user terminal 20 receives a command for instructing the user to receive pay data related to the advertisement data, the user terminal requests the service server for pay data related to the advertisement data (S430).

The service server 30 determines whether the user terminal 20 is a charged user or updates the charging table and then transmits information on the physical layer operation mode to be used for receiving the charged data to the user terminal 20 S450). The physical layer operation mode to be used for receiving the paid data may be different from the default physical layer operation mode in at least one of the modulation scheme, optical clock rate, and visible light wavelength (i.e., color) of the physical layer. The modulation scheme may be selected from, for example, on-off keying (OOK), pulse-position modulation (PPM), frequency shift keying (FSK), phase shift keying (PSK) The clock rate may be selected, for example, from 200 kHz, 400 kHz, 3.75 MHz, 7.5 MHz, 15 MHz, 30 MHz, 60 MHz, 120 MHz. The wavelength of the visible light used may be, for example, 610 nm to 700 nm in red, 590 nm to 610 nm in yellow, 500 nm to 570 nm in green, 450 nm to 500 nm in blue, and 400 nm to 450 nm in purple.

The visible light communication device 10 receives the pay data and information on the physical layer operation mode from the service server 30 and transmits the VLC signal including the received pay data according to the received physical layer operation mode.

The user terminal 20 changes the physical layer operation mode in response to the information transmitted from the service server 30 and receives the VLC signal including the pay data (S460). The user terminal 20 displays the received paid data on the display device for providing to the user (S470).

5 is a diagram illustrating an exemplary configuration of a mobile device according to an embodiment of the present invention. The mobile device 500 may be used as the user terminal 20 shown in FIG. The mobile device 500 may be implemented to implement the method according to the flowchart of FIG. 3 or FIG.

The mobile device 500 includes a processor 510 and a memory 520 interconnected via a bus 540 and may exchange data and information via the bus 540. [ The memory 520 stores application software and data / information. The mobile device 500 further includes a VLC receiving module 540 and at least one wireless communication module 560, 470. The VLC receiving module 540 and the wireless communication modules 560 and 470 are connected to the processor 510 via the bus 530.

The VLC receiving module 540 is configured to receive visible light communication signals (VLC signals) and process their signals to demodulate the information and / or data transmitted from the received VLC signals. For example, the optical receiver module 540 receives a VLC signal including the VLC data packet illustrated in FIG. The VLC receiving module 330 demodulates the visible light communication frame from the electric signal output from the light receiving element (for example, a photo-diode or a photo-transistor) and the light receiving element and transmits the demodulated visible light communication frame to the processor 510 And a demodulation circuit configured. In some embodiments, the mobile device 500 may be a cellular phone that includes a camera 550 and does not include an optical receiver module 606. In such an embodiment, the VLC signal may be received via the camera 550 included in the mobile device 500. The demodulated information / data is communicated to the processor 510. The processor 580 may generate control signals and transmit the generated control signals to the optical receiver module 540 and the wireless communication modules 560 and 470 to control their operation. The first wireless communication module 560 is a wireless module configured to receive and transmit wireless signals (such as CDMA, LTE signals, etc.) via, for example, a mobile communication base station. The second wireless communication module 570 is, for example, a WiFi wireless module configured to receive and transmit WiFi signals through a wireless access point.

The mobile device 500 may further include a display module 580 composed of a driver circuit and a display device (e.g., liquid crystal display, organic EL display, etc.). The driver circuit is configured to display characters, images, images, and the like on the display device in accordance with the control command given by the processor 510. [ The mobile device 500 may further include a user interface. The user interface may include an operation input interface (e.g., a keypad, touch panel, etc.) and an operation input interface configured to convert the operational state of the operation input device into operational input data and deliver it to the processor 510.

In some embodiments, the processor 510 is configured to receive a service identifier that identifies a service the user subscribed to from the service server, and store the received service identifier. The processor 510 is also configured to receive the VLC signal from the illumination device, extract the header information from the received VLC signal, and determine whether the service identifier contained in the header information matches the stored service identifier. In addition, the processor 510 is configured to discard the received VLC signal if the service identifier included in the header information does not match the stored service identifier.

In some embodiments, the processor 510 may request the management server to authenticate the illumination identifier included in the header information if the service identifier included in the header information matches the stored service identifier, And to discard the received VLC signal upon receiving a response indicating that authentication of the illumination identifier has failed.

In some embodiments, the processor 510 is configured to provide a payload of the received VLC signal to a user upon receiving a response from the management server indicating successful authentication of the light identifier.

In some embodiments, upon receiving a response from the management server indicating successful authentication of the illumination identifier, the processor 510 requests the decryption key corresponding to the sequence number contained in the header information to the service server, And decodes the data included in the payload of the received VLC signal using the decryption key.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

CROSS-REFERENCE TO RELATED APPLICATION

This patent application claims priority to Korean Patent Application No. 10-2017-0157081, filed on November 23, 2017, which is hereby incorporated by reference in its entirety.

Claims (12)

1. A method performed by a mobile device supporting visible light communication,

   Receiving a service identifier for identifying a service subscribed by a user from a service server, and storing the received service identifier;

   Receiving a VLC signal from the illumination device and extracting header information from the received VLC signal;

   Determining whether a service identifier included in the header information matches the stored service identifier; And

   And discarding the received VLC signal if the service identifier included in the header information does not match the stored service identifier

   ≪ / RTI >
2. The method according to claim 1,

   Requesting a management server for an illumination identifier included in the header information if the service identifier included in the header information coincides with the stored service identifier; And

   Upon receipt of a response from the management server indicating that authentication of the illumination identifier has failed, discarding the received VLC signal

   ≪ / RTI >
3. 3. The method of claim 2,

   And a step of providing a payload of the received VLC signal to the user when receiving a response from the management server indicating that authentication of the illumination identifier is successful

   ≪ / RTI >
4. 3. The method of claim 2,

   Requesting a decoding key corresponding to a sequence number included in the header information to the service server upon receiving a response from the management server indicating that authentication of the illumination identifier is successful; And

   And decoding the data included in the payload of the received VLC signal using a decoding key received from the service server

   ≪ / RTI >
5. As a mobile device supporting visible light communication,

   At least one processor; And

   A memory coupled to the at least one processor,

   The processor comprising:

   Receiving a service identifier for identifying a service subscribed by a user from a service server, and storing the received service identifier;

   Receiving a VLC signal from the illumination device and extracting header information from the received VLC signal;

   Determining whether a service identifier included in the header information matches the stored service identifier; And

   And discarding the received VLC signal if the service identifier included in the header information does not match the stored service identifier

   The mobile device comprising:
6. 6. The method of claim 5,

   The processor comprising:

   Requesting a management server for an illumination identifier included in the header information if the service identifier included in the header information coincides with the stored service identifier; And

   Upon receipt of a response from the management server indicating that authentication of the illumination identifier has failed, discarding the received VLC signal

   The mobile device further comprising:
7. The method according to claim 6,

   The processor comprising:

   And a step of providing a payload of the received VLC signal to the user when receiving a response from the management server indicating that authentication of the illumination identifier is successful

   The mobile device further comprising:
8. The method according to claim 6,

   The processor comprising:

   Requesting a decoding key corresponding to a sequence number included in the header information to the service server upon receiving a response from the management server indicating that authentication of the illumination identifier is successful; And

   And decoding the data included in the payload of the received VLC signal using a decoding key received from the service server

   The mobile device further comprising:
9. As a mobile device supporting visible light communication,

   Means for receiving a service identifier from a service server identifying a service subscribed by the user;

   Means for receiving a VLC signal from a lighting device;

   Means for extracting header information from the received VLC signal and determining whether a service identifier included in the header information matches the stored service identifier; And

   And means for discarding the received VLC signal if the service identifier included in the header information does not match the stored service identifier

   And a mobile device.
10. 10. The method of claim 9,

    Means for requesting a management server to authenticate an illumination identifier included in the header information if the service identifier included in the header information coincides with the stored service identifier; And

    And means for discarding the received VLC signal upon receiving a response from the management server indicating that authentication of the illumination identifier has failed

    Further comprising:
11. A method performed by a mobile device supporting visible light communication,

    Receiving a VLC signal including advertisement data in a default physical layer operation mode;

    Providing the advertisement data to a user;

    Requesting a service server for paid data associated with advertisement data in response to a user command instructing to receive paid data associated with the advertisement data;

    Receiving information on a physical layer operation mode for receiving payload data from the service server;

    Receiving a VLC signal including payload data in a physical layer operation mode for receiving the pay data; And

    Providing the charged data to a user;

    ≪ / RTI >
12. 12. The method of claim 11,

    Wherein the physical layer operation mode for receiving the pay data comprises:

    Wherein at least one of a modulation scheme, an optical clock rate, and a visible light wavelength of the physical layer is different from the default physical layer operation mode.

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