JP2015012537A - Visible light communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify work to register luminaire positional information to a server.SOLUTION: A piece of positional information of a luminaire 1 measured by positioning means (GPS positioning section 13) is transmitted together with a piece of identification information (ID information) to a server 3 by transmission means (communication section 15), and the identification information and the positional information are registered in the server 3. Therefore, compared to a conventional art in which the registration work is manually made, the visible light communication system simplifies the work to register the positional information of the luminaire 1 to the server 3.

Description

  The present invention relates to a visible light communication system using visible light as a communication medium.

  In recent years, visible light (illumination light) emitted from a luminaire (transmitter) is modulated to transmit ID information unique to the luminaire, and the receiver that receives the visible light demodulates the ID information. A visible light communication system (visible light ID system) is put into practical use (see, for example, Patent Document 1).

  In the conventional visible light communication system, the ID information acquired from the lighting fixture is transmitted from the receiver to the server, and the server receives the position information corresponding to the ID information (information indicating the position where the lighting fixture is installed). There was a case to reply to the machine. In this case, it is necessary to register ID information and position information of all lighting fixtures on the server. Conventionally, a person operates a computer system (terminal) to register ID information and position information in a server.

JP 2009-60181 A

  However, when a person operates a computer system to register ID information and position information in a server, there is a problem that registration work takes a lot of time and human errors are likely to occur. Furthermore, when the arrangement location of the luminaire is changed after registration, it is necessary to register the changed position information in the server again, and there is a problem that it takes time for registration work.

  The present invention has been made in view of the above problems, and an object of the present invention is to simplify the work of registering the position information of a lighting fixture on a server.

  The visible light communication system of the present invention includes one or more lighting fixtures that transmit unique identification information by visible light communication, positioning means for positioning a location where the lighting fixture is installed, the identification information, and the identification information A server for storing and managing the position information of the lighting fixture; a transmission means for transmitting the position information to the server; and the identification information received from the lighting fixture by the visible light communication and corresponding to the received identification information. A receiving device that acquires the position information from the server, and the server stores the position information measured by the positioning means and transmitted to the transmission means in association with the identification information. It is characterized by being configured.

  In this visible light communication system, the positioning unit and the transmission unit are configured to measure the installation location of the lighting fixture when a predetermined trigger input is received, and to transmit the measured position information to the server. It is preferred that

  In this visible light communication system, it is preferable that the positioning means is configured to perform positioning using GPS (Global Positioning System).

  In the visible light communication system of the present invention, the position information of the luminaire measured by the positioning means is transmitted to the server together with the identification information by the transmission means, and the identification information and the position information are registered in the server. Compared with the conventional example which has performed, there exists an effect that the operation | work which registers the positional information on a lighting fixture with respect to a server can be simplified.

1 is a system configuration diagram showing an embodiment of a visible light communication system according to the present invention. It is explanatory drawing explaining the database of the server in the same as the above.

  An embodiment of a visible light communication system according to the present invention will be described in detail with reference to the drawings.

  The visible light communication system of this embodiment is comprised with the lighting fixture 1, the receiver 2, and the server 3 as shown in FIG. However, although only one lighting fixture 1 is illustrated in FIG. 1, a plurality of lighting fixtures 1 may be provided.

  The luminaire 1 includes a light source 10, a lighting circuit unit 11, a visible light communication control unit 12, a GPS positioning unit 13, a control unit 14, a communication unit 15, and the like, and is disposed on, for example, a ceiling or a wall of a building.

  The light source 10 includes a light emitting element such as a light emitting diode or an organic electroluminescence element, an incandescent lamp, a fluorescent lamp, or the like. In the present embodiment, it is assumed that the light source 10 is composed of a light emitting diode.

  The lighting circuit unit 11 converts AC voltage / AC current supplied from a commercial power source into DC voltage / DC current and supplies the light source 10 with power.

  The visible light communication control unit 12 modulates the direct current voltage or direct current supplied to the light source 10 from the lighting circuit unit 11 to transmit the ID information superimposed on the visible light (illumination light). The ID information is unique identification information assigned to the lighting fixture 1 (see FIG. 2). However, since such a visible light communication control unit 12 is well known in the art, the detailed illustration and description thereof are omitted.

  The GPS positioning unit 13 measures the current location using a global positioning system and passes the positioning result (position information) to the control unit 14.

  The control unit 14 performs various processes, which will be described later, by using a microcomputer as a main component and executing a program stored in a memory by the microcomputer. The communication unit 15 is configured to perform data communication via a wired LAN or a wireless LAN.

  The receiving device 2 includes a light receiving element 20, a visible light receiving unit 21, a control unit 22, a wireless communication unit 23, and the like.

  The light receiving element 20 includes a photoelectric conversion element (such as a photodiode or a phototransistor) that receives visible light and converts it into an electrical signal.

  The visible light receiving unit 21 demodulates the ID information from the electrical signal output from the light receiving element 20, and passes the demodulated ID information to the control unit 22.

  The wireless communication unit 23 performs data communication with the server 3 by wireless communication using radio waves as a medium. Note that the communication system for wireless communication is preferably a communication system for data communication (W-CDMA, CDMA2000, etc.) provided by a wireless LAN or a mobile phone carrier.

  Since the visible light receiving unit 21 and the wireless communication unit 23 described above are both well known in the art, detailed illustration and description thereof will be omitted.

  The control unit 22 performs a variety of processes to be described later by using a microcomputer as a main component and executing a program stored in a memory by the microcomputer.

  The server 3 includes a general-purpose computer system and server software, and includes a communication unit 30, a management unit 31, a database 32, and the like.

  The communication unit 30 is configured to perform data communication via a wired LAN or a wireless LAN. For example, when the communication unit 30 performs data communication by wireless LAN, direct data communication with the receiving device 2 is also possible. Alternatively, when the communication unit 30 performs data communication using a wired LAN, the communication unit 30 can perform data communication with the receiving device 2 via a wireless LAN base station.

  The database 32 is composed of an external storage device such as a hard disk drive, for example. As shown in FIG. 2, the ID information of each luminaire 1 and the position information corresponding to each ID information (position of the installation location of the luminaire 1) Information). However, although only latitude and longitude are described as position information in FIG. 2, altitude may be included in the position information.

  The management unit 31 manages the database 32 and performs a providing process for providing location information to the receiving device 2 as described later, a registration process for registering ID information and location information in the database 32, and the like.

  Next, the basic operation of this embodiment will be described.

  First, when receiving the ID information from the visible light receiving unit 21, the control unit 22 of the receiving device 2 generates a transmission frame that includes the received ID information and requests the server 3 to provide position information, and performs wireless communication. Output to unit 23. The wireless communication unit 23 transmits a wireless signal obtained by modulating the transmission frame received from the control unit 22 to the server 3.

  When receiving the ID information received by the communication unit 30, the management unit 31 of the server 3 reads position information corresponding to the received ID information from the database 32 and causes the communication unit 30 to return it to the receiving device 2.

  The control unit 22 of the receiving device 2 receives the location information from the wireless communication unit 23 that has received the reply from the server 3, executes application software based on the received location information, and provides services to the user carrying the receiving device 2. (Presenting your current location, etc.)

  Next, a procedure for registering ID information and position information in the server 3 which is a feature of the present invention will be described.

  The control unit 14 of the lighting fixture 1 shifts to the registration mode when the power is first turned on after the lighting fixture 1 is installed, for example. However, it is assumed that the control unit 14 has already been assigned ID information and stored in the memory.

  In the registration mode, the control unit 14 causes the GPS positioning unit 13 to position the current location information. Further, the control unit 14 generates a transmission frame that includes the position information measured by the GPS positioning unit 13 and the ID information stored in the memory, and requests the server 3 to register the position information, thereby generating a communication unit 15. Output to. The communication unit 15 transmits a wireless signal obtained by modulating the transmission frame received from the control unit 14 to the server 3.

  When the management unit 31 of the server 3 receives the ID information and position information received by the communication unit 30, the management unit 31 stores (registers) the received ID information and position information in the database 32. Then, the management unit 31 returns a frame including a message indicating that the registration is completed from the communication unit 30 to the luminaire 1.

  When the communication unit 15 receives the reply from the server 3 and receives a registration completion message, the control unit 14 of the lighting device 1 ends the registration mode and shifts to the normal mode. Note that the control unit 14 that has shifted to the normal mode causes the visible light communication control unit 12 to start transmitting ID information.

  As described above, the visible light communication system according to the present embodiment includes one or more lighting fixtures 1 that transmit unique identification information by visible light communication, and positioning means that measures the position of a place where the lighting fixture 1 is installed ( GPS positioning unit 13). In addition, the visible light communication system of the present embodiment includes a server 3 that stores and manages identification information and position information of the luminaire 1, and a transmission unit (communication unit 15) that transmits the position information to the server 3. Furthermore, the visible light communication system of the present embodiment includes a receiving device 2 that receives identification information from the lighting fixture 1 by visible light communication and acquires position information corresponding to the received identification information from the server 3. The server 3 is configured to store the position information measured by the positioning means and transmitted to the transmission means in association with the identification information.

  Therefore, the position information of the luminaire 1 measured by the positioning means (GPS positioning section 13) is transmitted to the server 3 by the transmission means (communication section 15) together with the identification information (ID information). Is registered. For this reason, compared with the conventional example in which a person is performing registration work, the visible light communication system according to the present embodiment simplifies the work of registering the position information of the luminaire 1 with respect to the server 3. be able to.

  Further, in the visible light communication system according to the present embodiment, the positioning unit (GPS positioning unit 13) and the transmission unit (communication unit 15) determine the installation location of the luminaire 1 when receiving a predetermined trigger input (power-on). It is preferable that the position information is measured and the position information thus measured is transmitted to the server 3.

  Furthermore, it is preferable that the visible light communication system of the present embodiment is configured such that the positioning means performs positioning using GPS (global positioning system). However, the positioning means is not limited to the GPS positioning unit 13 using the global positioning system. For example, when the receiving device 2 has a mobile phone function, the positioning unit may be configured to use the location information of the base station acquired using the mobile phone function as the location information. Alternatively, when the receiving device 2 has a function of performing wireless communication with a wireless LAN access point, the positioning unit is configured to use the position information of the access point acquired using the wireless communication function as the position information. May be. From the viewpoint of positioning accuracy, the positioning means is preferably the GPS positioning unit 13.

  Further, in this embodiment, the GPS positioning unit 13 that is a positioning means is built in the lighting fixture 1, but when the lighting fixture 1 is installed in a place where GPS radio waves are difficult to reach (for example, an underground shopping street) The GPS positioning unit 13 is preferably configured separately from the luminaire 1. The GPS positioning unit 13 is preferably installed in a place where GPS radio waves can easily reach (for example, outdoors). In this case, the position error (relative position information) including the altitude between the GPS positioning unit 13 and the installation location of the lighting device 1 is managed by the control unit 14 of the lighting device 1, and the position information measured by the GPS positioning unit 13 is relative. What is necessary is just to register with the server 3 after correcting with position information. However, the relative position information is managed not by the lighting fixture 1 but by the management unit 31 of the server 3, and the management unit 31 receiving the positional information received from the lighting fixture 1 corrects the relative position information and registers it in the database 32. May be.

  Here, the GPS positioning unit 13 which is a positioning means is not mounted on the moving body, but is basically fixed at the same place, so that it is relatively compared with the case where it is mounted on the moving body. Positioning can be performed with high accuracy. In particular, if a GPS receiver capable of positioning with higher accuracy than a GPS receiver mounted on a mobile phone or the like is used as the GPS positioning unit 13, the positioning accuracy can be further improved.

  By the way, in this embodiment, the case where the position information measured by the GPS positioning unit 13 is directly transmitted from the communication unit 15 of the lighting fixture 1 to the server 3 is illustrated, but the position information is transmitted to the server 3 via a terminal dedicated for registration. Information may be transmitted. The registration-dedicated terminal transfers the ID information and position information transmitted from the communication unit 15 of the lighting fixture 1 to the server 3. Then, the management unit 31 of the server 3 may register the ID information and the position information transferred from the dedicated registration terminal in the database 32. However, if visible light communication is used for transmission of ID information and position information from the lighting device 1 to the registration-dedicated terminal, registration to the server 3 can be performed using the receiving device 2.

DESCRIPTION OF SYMBOLS 1 Lighting fixture 2 Receiver 3 Server
13 GPS positioning unit (positioning means)
15 Communication section (transmission means)

Claims (3)

Storing one or more lighting fixtures that transmit unique identification information by visible light communication, positioning means for positioning the location of the lighting fixtures, storing the identification information and the location information of the lighting fixtures; A server to be managed; transmission means for transmitting the position information to the server; and the identification information is received from the lighting apparatus by the visible light communication, and the position information corresponding to the received identification information is acquired from the server. And a receiving device to
The visible light communication system, wherein the server is configured to store the position information measured by the positioning means and transmitted to the transmission means in association with the identification information.   The positioning means and the transmission means are configured to measure the installation location of the luminaire when a predetermined trigger input is received, and to transmit the measured position information to the server. The visible light communication system according to claim 1.   The visible light communication system according to claim 1, wherein the positioning unit is configured to perform positioning using GPS (global positioning system).

Images