JP2006050528A - Visible light transmission display system and visible light transmission lighting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a visible light transmission display system and a visible light transmission lighting system, which can readily change the content of information of the transmitting visible light, in a short time, and reduce the cost required for the change. <P>SOLUTION: Visible light transmission display system 1 is comprised of a display device 2 to display figures with visible light emitted from a light source, and transmit information by visible light transmission, receiving device 3 to receive and output information transmitted from the display device 2, and a sending device 4 to send the predetermined identification and the visible light information for transmitting with the visible light transmission to the display device 2. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a visible light communication display system and a visible light communication illumination system capable of easily changing the contents of visible light information to be transmitted in a short time and reducing the cost required for the change.

  Simple, uniform and highly visible signs (such as graphics, characters, symbols, etc.) for guiding various people are used in airports, stations, large facilities, etc. It is becoming popular. As signs currently displayed in various places, for example, there are signs defined by standard guideline symbols for guidance provided by the Traffic Ecology and Mobility Foundation (see, for example, Non-Patent Document 1).

  Furthermore, not only simple and unified information conveyed by the signature but also adding other information to the signature to send detailed information related to the signature to people is being considered. As a method of adding other information to the sign, for example, there is a method of posting a poster with detailed information in the vicinity of the sign display board or broadcasting detailed information by voice. However, when a poster is posted near the sign display board, there is a risk of losing the visibility, simplicity, and uniformity of the sign, and it is necessary to repeat it many times when broadcasting in audio. There was a risk of becoming noisy.

  On the other hand, as a system for displaying signs, visible light communication that uses visible light, which is visible to the human eye, is used to maintain the good visibility, simplicity, and unity of signs. There is a system for adding other information (for example, information including a lot of characters (for example, timetable) and voice information for visually impaired persons) to the signature (see, for example, Non-Patent Document 2 (particularly, FIG. 4)). Specifically, visible light information to be transmitted by visible light communication is stored in advance in a display device that displays a sign, so that the display device displays the sign by visible light and transmits pre-stored visible light information. A system for receiving and outputting visible light information by a dedicated receiving device is provided. As a result, it was possible to solve the possibility of impairing the good visibility, simplicity, and unification of the sign and making it noisy.

  Further, as related techniques using visible light communication, there are, for example, Patent Document 1, Patent Document 2, and Patent Document 3. Patent Document 1 relates to an optical space communication device that performs communication between points separated by propagating an optical signal. Patent Document 2 relates to an identification confirmation system that reads information from a card by irradiating a card to be read with visible light and invisible light and detecting reflected light reflected on the surface of the card. Patent Document 3 relates to a remote data communication system or the like that performs remote operation by transmitting data with visible light to one of a plurality of receiving devices using one transmitting device.

Public Information Symbols Guideline homepage "http://www.ecomo.or.jp/symbols_english/symbol_index2.html" Masao Nakagawa, Special Feature LED and Featured Applications Visible Light Communication, OPTRONICS, 2003, No. 9, p. 120-125 Japanese Patent Application Laid-Open No. 07-221710 JP 2002-056439 A JP 2003-163633 A

  However, in the conventional technology, since visible light information is stored in the display device in advance, when changing the content of the visible light information transmitted by the display device, the content of the visible light information individually at the installation location of the display device Therefore, there is a problem that the cost increases due to manpower and time. In particular, in an airport, a station, a large-scale facility, etc. where a plurality of display devices are installed, there is a problem that the cost for resetting becomes enormous.

  The present invention has been made in view of the above problems, and the visible light communication display system and the visible light that can easily change the contents of visible light information to be transmitted in a short time and can reduce the cost required for the change. An object is to provide an optical communication lighting system.

  To achieve the above object, a visible light communication display system according to claim 1 according to the present invention displays a figure with visible light emitted from a light source and transmits information through visible light communication, and the display. In a visible light communication display system having a receiving device that receives and outputs the information transmitted by a device, a transmitting device that transmits predetermined identification information and visible light information to be transmitted by visible light communication to the display device The display device further includes: a receiving unit that receives the predetermined identification information and the visible light information transmitted by the transmission device; and the predetermined identification information received by the receiving unit and the predetermined display A determination unit that determines whether or not the identification information of the device matches; and a modulation unit that modulates the light source and emits the visible light information when the determination result of the determination unit is the same. Characterized by comprising a.

  In the system having such characteristics, the transmission device transmits predetermined identification information and visible light information to be transmitted by visible light communication to the display device, and the display device transmits the predetermined identification transmitted by the transmission device. Information and visible light information are received, and it is determined whether or not the received predetermined identification information matches the predetermined identification information of the display device. If the determination result is the same, the light source is modulated to be visible Transmit optical information. Therefore, it is possible to easily change the content of visible light information transmitted from the display device in a short time, and to reduce the cost required for the change. In particular, in an airport, a station, a large-scale facility, or the like where a plurality of display devices are installed, the cost for resetting can be effectively reduced.

  The visible light communication display system according to claim 2 according to the present invention is the visible light communication display system according to claim 1, wherein the transmission device further transmits graphic information about a graphic displayed on the display device. The receiving means further receives the graphic information, and the display device further comprises a switching means for switching to a graphic corresponding to the graphic information when the determination result of the determining means is the same. It is characterized by.

  In this system having such characteristics, the transmission device further transmits graphic information related to the graphic to be displayed on the display device, the receiving means further receives graphic information related to the graphic to be displayed, and the display device receives the determination result. If they match, the graphic is switched to the graphic corresponding to the graphic information, so that the graphic to be displayed can be changed at the same time when the visible light information transmitted by the display device is changed. Thereby, the figure corresponding to the visible light information to transmit can be reliably displayed on a display apparatus.

  A visible light communication display system according to a third aspect of the present invention is the visible light communication display system according to the first or second aspect, wherein the receiving device is portable.

  In this system having such characteristics, since the receiving device is portable, visible light information transmitted from display devices installed in various places can be received and output by one receiving device.

  A visible light communication display system according to a fourth aspect of the present invention is the visible light communication display system according to any one of the first to third aspects, wherein the reception device receives the received information as text, sound. , And having a function of reproducing at least one of the images.

  In this system having such characteristics, the receiving device plays back the received information as at least one of characters, sounds, and images (including still images and moving images). The user can view the explanation of the displayed graphic (including still images and moving images).

  Further, the present invention relates to a visible light communication illumination system, and the visible light communication illumination system according to claim 5 according to the present invention illuminates with visible light emitted from a light source and transmits information through visible light communication. A visible light communication illumination system having an illumination device and a reception device that receives and outputs the information transmitted by the illumination device, wherein the visible light information is transmitted by predetermined identification information and visible light communication. The apparatus further includes a transmitting device that transmits to the lighting device, the lighting device receiving the predetermined identification information and the visible light information transmitted by the transmitting device, and the predetermined device received by the receiving device. When the determination information for determining whether or not the identification information matches the predetermined identification information of the lighting device and the determination result of the determination means are the same, the light source is modulated and the visible light is modulated. Modulating means for transmitting information, characterized by comprising a.

  In this system having such characteristics, the transmission device transmits predetermined identification information and visible light information to be transmitted by visible light communication to the lighting device, and the lighting device transmits the predetermined identification transmitted by the transmission device. Information and visible light information are received, and it is determined whether or not the received predetermined identification information matches the predetermined identification information of the lighting device. If the determination result is the same, the light source is modulated to be visible Transmit optical information. Therefore, it is possible to easily change the content of visible light information transmitted from the lighting device in a short time, and to reduce the cost required for the change. In particular, in an airport, a station, a large-scale facility, etc. where a plurality of lighting devices are installed, the cost for resetting can be effectively reduced.

  The visible light communication illumination system according to claim 6 according to the present invention is the visible light communication illumination system according to claim 5, wherein the illumination device has the light source having a predetermined correlated color temperature or color temperature. It is characterized by.

  In the present system having such characteristics, the lighting device includes a light source having a predetermined correlated color temperature or color temperature, so that the user can visually recognize the communication range of visible light communication.

  The visible light communication illumination system according to claim 7 of the present invention is the visible light communication illumination system according to claim 5 or 6, wherein the receiving device is portable.

  In this system having such a feature, since the receiving device is portable, visible light information transmitted from lighting devices installed in various places can be received and output by one receiving device.

  Moreover, the visible light communication illumination system according to claim 8 according to the present invention is the visible light communication illumination system according to any one of claims 5 to 7, wherein the receiving device receives the received information as text, sound. , And having a function of reproducing at least one of the images.

  In this system having such characteristics, the receiving device plays back the received information as at least one of characters, sounds, and images (including still images and moving images). The user can view the contents of the visible light information through (including still images and moving images).

  According to the present invention, the transmission device transmits predetermined identification information and visible light information to be transmitted by visible light communication to the display device, and the display device transmits the predetermined identification information and visible light transmitted by the transmission device. Information is received, and it is determined whether or not the received predetermined identification information matches the predetermined identification information of the display device. If the determination result is the same, the light source is modulated and visible light information is transmitted. To do. Therefore, it is possible to easily change the content of visible light information transmitted from the display device in a short time, and to reduce the cost required for the change. In particular, in an airport, a station, a large-scale facility, or the like where a plurality of display devices are installed, the cost for resetting can be effectively reduced.

  According to the present invention, the transmitting device further transmits graphic information relating to the graphic displayed on the display device, the receiving means further receives graphic information relating to the graphic to be displayed, and the display device agrees with the determination result. In some cases, the graphic is switched to a graphic corresponding to the graphic information. Therefore, when the visible light information transmitted from the display device is changed, the graphic to be displayed can be changed at the same time. Thereby, the figure corresponding to the visible light information to transmit can be reliably displayed on a display apparatus.

  Further, according to the present invention, the transmission device transmits predetermined identification information and visible light information to be transmitted by visible light communication to the illumination device, and the illumination device includes the predetermined identification information transmitted by the transmission device and Visible light information is received, and it is determined whether or not the received predetermined identification information matches the predetermined identification information of the lighting device. If the determination result is the same, the light source is modulated to make visible light information To send. Therefore, it is possible to easily change the content of visible light information transmitted from the lighting device in a short time, and to reduce the cost required for the change. In particular, in an airport, a station, a large-scale facility, etc. where a plurality of lighting devices are installed, the cost for resetting can be effectively reduced.

  Further, according to the present invention, since the lighting device has a light source having a predetermined correlated color temperature or color temperature, the communication range of visible light communication can be visually recognized by the user.

  Further, according to the present invention, since the receiving device is portable, visible light information transmitted from display devices installed in various places can be received and output by one receiving device.

  In addition, according to the present invention, the receiving apparatus reproduces the received information as at least one of characters, sounds, and images. The user can view the explanation of the displayed graphic.

  Below, Example 1 and Example 2 of the visible light communication display system according to the present invention and Example 3 of the visible light communication illumination system will be described in detail based on the drawings. The present invention is not limited to the first embodiment, the second embodiment, and the third embodiment.

  First, the configuration of the visible light communication display system 1 according to the first embodiment will be described with reference to FIG.

  FIG. 1 is a diagram illustrating a configuration of a visible light communication display system 1 according to the first embodiment. The visible light communication display system 1 according to the first embodiment displays a figure with visible light emitted from a light source and transmits information by visible light communication, and receives and outputs information transmitted by the display device 2. The receiving device 3 includes a predetermined identification information and a transmitting device 4 that transmits visible light information to be transmitted by visible light communication to the display device 2. The visible light communication display system 1 according to the first embodiment is an example in which the display device 1 includes four display devices, three reception devices, and one transmission device, but is not limited thereto. Instead, specifically, it is sufficient that each of the display devices, the reception devices, and the transmission devices is provided. In addition, FIG. 1 shows an example in which the display device and the transmission device are connected so as to be communicable by wire, but the present invention is not limited to this, and the display device and the transmission device can be communicated wirelessly. You may connect.

  In addition, the display device 2 receives the predetermined identification information (ID of the display device of the transmission partner) and the visible light information (information transmitted from the display device of the transmission partner) transmitted by the transmission device 4, A determination unit 2b that determines whether or not the predetermined identification information received by the reception unit 2a matches the predetermined identification information of the display device 2 (ID unique to the display device), and the determination result of the determination unit 2b Are matched, the modulation unit 2c that modulates a plurality of LEDs that are light sources to emit visible light information, and a figure, color, or flashing dimming pattern (hereinafter simply a figure) composed of characters, symbols, or a combination thereof. Graphic display area 2d composed of a plurality of LEDs, visible light information and identification information, and graphic information about the graphic to be displayed (related to the graphic to be displayed, color, and flashing dimming pattern). That information) storage unit that stores a (not shown), in constructed. In the figure display area 2d, as shown in FIG. 2, a plurality of LEDs are arranged in a grid pattern as shown. In FIG. 2, the alphabet “A” is displayed based on the graphic information stored in advance in the storage unit of the display device 2, but the graphic displayed in the graphic display area 2 d can be changed. For example, the display device 2 can store a plurality of pieces of graphic information in the storage unit in advance, extract the graphic information from them in a predetermined order and timing, and display the graphic information in the graphic display area 2d. Further, the display device 2 receives the identification information and the visible light information from the transmission device 4 by the reception unit 2a, and stores the received visible light information in the storage unit when the determination result of the determination unit 2b is the same. Good. The display device 2 may transmit visible light information stored in the storage unit based on a preset transmission program (transmission program for transmitting visible light information at a certain timing). Specifically, the display device 2 controls the modulation unit 2c based on a transmission program that controls the modulation unit 2c so as to transmit visible light information at a predetermined time interval or a predetermined time. And visible light information stored in the storage unit may be transmitted.

  Returning to FIG. 1, the receiving device 3 receives the visible light information transmitted from the display device 2, and reproduces the received visible light information in characters, sounds, images (including still images and moving images), and the like. A character display area 3a for displaying characters reproduced by the reproduction function and / or headphones 3b for listening to the sound reproduced by the reproduction function, and a light receiving unit 3c for receiving visible light. In the character display area 3a, not only characters and images (including still images and moving images) but also figures can be displayed. As a result, the user can view the characters, graphics, and images displayed in the character display area 3 a of the receiving device 3 and the audio reproduced via the headphones 3 b of the receiving device 3.

  The transmission device 4 also transmits predetermined identification information (ID of the display device of the transmission partner) and visible light information (information transmitted by the display device of the transmission partner) to the display device 2. Specifically, as illustrated in FIG. 3, the transmission device 4 transmits a file in which the identification information MA-1 and the visible light information MA-2 are associated with each other and stored to the display device 2. Information for identifying the display device can be used as the identification information. Specifically, the ID of the display device, the name of the display device, the name of the place where the display device is installed, and the like can be used. In addition, for visible light information, information for transmitting characters, figures, images (including still images and moving images), and voice can be used. Specifically, if the figure to be displayed is a display device that represents a taxi stand, the arrival of the taxi is delayed due to traffic congestion. Please use another platform. A guide map or the like can be used. The transmission device 4 can transmit a plurality of visible light information. Specifically, a file storing a set of identification information and visible light information by the number of visible light information can be transmitted. Thereby, the display device 2 can simultaneously transmit text, graphics, images (including still images and moving images), and visible light information of sound. Specifically, in the case of the taxi stand mentioned above, the visible light information that is output with the voice “The arrival of the taxi is delayed due to traffic congestion now. Please use another stop.” If the visible light information output in the form of a guide map for guiding another platform is transmitted at the same time, it can be transmitted simultaneously on the display device 2.

  In the above configuration, processing performed by the display device 2 according to the first embodiment will be described with reference to FIG. FIG. 4 is a flowchart illustrating processing of the display device 2 according to the first embodiment.

  When the transmission device 4 transmits predetermined identification information and visible light information to the display device 2, the display device 2 performs the following processing.

  First, the reception unit 2a receives predetermined identification information and visible light information transmitted by the transmission device 4 (step SA-1). Next, the determination unit 2b determines whether or not the predetermined identification information received in step SA-1 matches the identification information of the display device stored in the storage unit in advance (step SA-2). If the determination result in step SA-2 is the same (step SA-3: Yes), the modulation unit 2c modulates the plurality of LEDs in the graphic display area 2d and receives the visible light information received in step SA-1. Is transmitted (step SA-4). If the determination result in step SA-2 is the same (step SA-3: Yes), the visible light information received in step SA-1 is stored in a predetermined storage area of the storage unit, and the modulation unit 2c The visible light information stored in the storage unit may be transmitted by modulating a plurality of LEDs in the graphic display area 2d. Thus, the transmission device 4 only needs to transmit visible light information to the display device 2 only when the content of visible light information transmitted by the display device 2 is changed. Therefore, the transmission frequency of visible light information from the transmission device 4 It can be made not to increase. In other words, the display device 2 can transmit the visible light information stored in the storage unit after receiving the visible light information from the transmission device 4 and storing it in the storage unit. The transmission frequency of visible light information from the transmission device 4 can be minimized.

  The receiving device 3 receives the visible light information transmitted in step SA-4 via the light receiving unit 3c, and displays the visible light information in the character display area 3a as characters or images (including still images and moving images). Or the like and reproduced by sound through the headphones 3b. A user carrying the receiving device 3 visually recognizes the graphic displayed in the graphic display area 2d, and also displays characters and images (including still images and moving images) displayed in the character display area 3a, and the headphones 3b. Watch the audio.

  As described above, in the visible light communication display system 1 of the first embodiment, the transmission device 4 transmits the predetermined identification information and visible light information to be transmitted by visible light communication to the display device 2, and the display device 2 receives the predetermined identification information and visible light information transmitted from the transmission device 4 by the receiving unit 2a, and determines whether or not the received predetermined identification information matches the predetermined identification information of the display device. If it is determined by the determination unit 2b and the determination result of the determination unit 2b is the same, the light source is modulated by the modulation unit 2c and visible light information is transmitted. Specifically, the visible light communication display system 1 according to the first embodiment further includes the transmission device 4 so that the identification information and the visible light information regarding the display device 2 of the transmission partner are associated with each other in FIG. The described file is transmitted to the display device 2, and the display device 2 determines whether or not the identification information included in the received file matches the identification information of the display device, and is determined to match. The visible light information associated with the identification information is acquired from the file, and the acquired visible light information is modulated by a plurality of LEDs and transmitted.

  Therefore, when changing the content of visible light information transmitted by the display device 2, the content of visible light information transmitted by the display device 2 can be changed simply by rewriting the visible light information of the file to be transmitted. The contents of visible light information transmitted by the display device 2 can be easily changed in a short time, and the cost required for the change can be reduced. In particular, in an airport, a station, a large-scale facility, etc. where a plurality of display devices 2 are installed, the visible light information of the plurality of display devices 2 can be changed at a time using the transmission device 4, so that the visible light information can be changed. The cost for resetting can be effectively reduced. Further, the display device 2 acquires and transmits visible light information addressed to the display device after the determination unit 2b determines whether the received identification information is the identification information of the display device. Information can be reliably acquired and transmitted by the appropriate display device 2.

  In addition, as shown in FIG. 5, the transmission device 4 is installed in a central monitoring room that comprehensively monitors each facility of the building, and a plurality of display devices (the display device 2-1 is a taxi stand, the display device 2-2 is installed). Is an up escalator, a display device 2-3 is a public telephone, and a display device 2-4 is a toilet. A file storing the optical information (see FIG. 3) is transmitted to each display device, and each display device receives the file transmitted from the transmission device 4 by the receiving unit 2a, and the identification information included in the received file When the determination unit 2b determines whether or not the identification information of the display device coincides with each other, and the determination result of the determination unit 2b is identical, the visible light associated with the identification information that is coincident with the modulation unit 2c Get information from a file, By modulating the source to transmit it. The display device 2-1 sends additional information such as “Taxis run every 10 minutes” or “Taxis are arriving late due to traffic congestion”. The display device 2-2 is, for example, "This is an up escalator." Or "If you are going to the facility information center, please use this escalator." Send additional information. In addition, the display device 2-3 transmits additional information such as “already out of order” or a layout of other public telephones in the building. In addition, the display device 2-4 transmits additional information such as, for example, “Women's toilet is currently being cleaned. Please use the women's toilet on the second floor.” And the layout of other toilets in the building. .

  Thus, even when a plurality of display devices are installed, desired visible light information can be reliably transmitted by an appropriate display device. In other words, each display device can reliably receive and transmit visible light information addressed to the display device from the transmission device 4. Further, even when the visible light information transmitted from each display device is changed, the visible light information of all the display devices can be changed at the same time, so that the time and cost required for the setting change can be effectively reduced. .

  Further, in the visible light communication display system 1 of the first embodiment, the receiving device 3 is portable, so that visible light information transmitted from a plurality of display devices installed in various places is received by one receiving device. Can be received and output. In addition, since the receiving device 3 has a function of reproducing the received information as at least one of characters, sounds, and images, it can be used through characters, sounds, images (including still images and moving images) to be reproduced. The person can watch the explanation of the displayed figure. In addition, if the user designates a format of information that can be easily understood by the receiving device 3, the user can view the visible light information in the designated format. That is, the visible light communication display system 1 according to the first embodiment can provide detailed information to people with various attributes at any time (for example, visually impaired persons, hearing impaired persons, people of various language areas, etc.). .

  Next, the configuration of the visible light communication display system 1 according to the second embodiment will be described with reference to FIG. In addition, in the description regarding the visible light communication display system 1 according to the second embodiment, the description of the components that overlap the visible light communication display system 1 according to the first embodiment described above will be omitted.

  FIG. 6 is a diagram illustrating a configuration of the visible light communication display system 1 according to the second embodiment. In the visible light communication display system 1 according to the second embodiment, the transmission device 4 transmits predetermined identification information, visible light information, and graphic information to the display device 2. Specifically, as illustrated in FIG. 7, the transmission device 4 transmits a file in which the identification information MA-1, the visible light information MA-2, and the graphic information MA-3 are stored in association with each other to the display device 2. To do. Note that the graphic information is information for displaying a graphic (character “E” in FIG. 6) displayed in the graphic display area 2 d as shown in FIG. 6.

  Further, the display device 2 receives predetermined identification information, visible light information, and graphic information transmitted from the transmission device 4 by the receiving unit 2a. The display device 2 further includes a switching unit 2e that switches the graphic displayed in the graphic display area 2d to a graphic corresponding to the received graphic information when the determination result of the determination unit 2b is the same. In addition, the graphic determination which determines whether the acquisition part which acquires the graphic information of the figure currently displayed on the graphic display area 2d, and the graphic information acquired by the acquisition part, and the graphic information received by the receiving part 2a correspond. And a section. Here, in the visible light communication display system 1 of the second embodiment, the transmission device 4 decomposes the graphic information to be transmitted to the display device 2 into an RGB gradation pattern signal, an image signal, a moving image signal, and the like. A signal may be transmitted to the display device 2. Further, for example, “A”, which is a graphic to be displayed, may be transmitted from the transmission device 4 to the display device 2 and decomposed into signals for displaying “A” on the display device 2. That is, the process of decomposing graphic information into signals may be performed by the transmission device 4 or the display device 2.

  In the above configuration, processing performed by the display device 2 according to the second embodiment will be described with reference to FIG. FIG. 8 is a flowchart illustrating processing of the display device 2 according to the second embodiment.

  When the transmission device 4 transmits predetermined identification information, visible light information, and graphic information to the display device 2, the display device 2 performs the following processing.

  First, the reception unit 2a receives predetermined identification information, visible light information, and graphic information transmitted by the transmission device 4 (step SB-1). Next, the determination unit 2b determines whether or not the predetermined identification information received in step SB-1 matches the identification information of the display device stored in advance in the storage unit (step SB-2). Here, the acquisition unit acquires the graphic information of the graphic currently displayed in the graphic display area 2d, and the graphic determination unit acquires whether the acquired graphic information matches the graphic information received in step SB-1. It may be further determined whether or not. If the determination result in step SB-2 is the same (step SB-3: Yes), the modulation unit 2c modulates the plurality of LEDs in the graphic display area 2d and receives the visible light information received in step SB-1. (Step SB-4), and the switching unit 2e switches the graphic displayed in the graphic display area 2d to a graphic corresponding to the graphic information received in step SB-1 (step SB-5). If the determination result of step SB-2 is the same and the determination result of the graphic determination unit is not the same, the modulation unit 2c modulates the plurality of LEDs in the graphic display area 2d, and then in step SB-1. While transmitting the received visible light information, the switching unit 2e may switch the graphic displayed in the graphic display area 2d to a graphic corresponding to the graphic information received in step SB-1.

  The receiving device 3 receives the visible light information transmitted in step SB-4 via the light receiving unit 3c, and displays the visible light information in the character display area 3a as characters or images (including still images and moving images). And reproduced by voice through the headphones 3b. A user carrying the receiving device 3 visually recognizes the switched graphic displayed in the graphic display area 2d, and also displays characters and images (including still images and moving images) displayed in the character display area 3a. Watch the sound from the headphones 3b.

  As described above, in the visible light communication display system 1 of the second embodiment, the transmission device 4 further transmits graphic information related to the graphic displayed on the display device 2, and the display device 2 uses the reception unit 2a to display graphic information. When the determination result of the determination unit 2b matches, the switching unit 2e switches the graphic displayed in the graphic display area 2d to a graphic corresponding to the received graphic information. Specifically, in the visible light communication display system 1 of the second embodiment, the transmitting device 4 is described in FIG. 7 described above in which identification information, visible light information, and graphic information regarding the display device 2 of the transmission partner are associated with each other. Is transmitted to the display device 2, and the display device 2 determines whether the identification information included in the received file matches the identification information of the display device. Visible light information and graphic information associated with the identification information are acquired from the file, and the acquired visible light information is transmitted by modulating a plurality of LEDs, and a graphic corresponding to the acquired graphic information is displayed in the graphic display area 2d. indicate.

  Therefore, not only can the content of visible light information transmitted by the display device 2 be changed, but also the graphic to be displayed can be changed. Thereby, the time and cost required for changing the figure to be displayed can be reduced. In particular, in an airport, a station, a large-scale facility, or the like where a plurality of display devices 2 are installed, the transmission device 4 can be used to change the visible light information and graphic information of the plurality of display devices 2 at a time. The cost for resetting visible light information and graphics to be displayed can be effectively reduced. In addition, the receiving device 2 determines whether the received identification information is the identification information of the display device by the determination unit 2b, acquires visible light information and graphic information addressed to the display device, and uses them. Since the information is transmitted and displayed, the appropriate display device 2 can reliably acquire and transmit visible light information, and the appropriate display device 2 can reliably acquire and display the graphic information. Thereby, the figure corresponding to the transmitted visible light information can be reliably displayed on the display device 2. That is, the visible light information to be transmitted and the graphic to be displayed can be matched with each other with certainty.

  Next, the configuration of the visible light communication illumination system 5 according to the third embodiment will be described with reference to FIG. In addition, in the description regarding the visible light communication illumination system 5 according to the third embodiment, the description overlapping the visible light communication display system 1 according to the first embodiment and the second embodiment described above may be omitted.

  FIG. 9 is a diagram illustrating a configuration of the visible light communication illumination system 5 according to the third embodiment. The visible light communication illumination system 5 according to the third embodiment performs illumination with visible light emitted from the light source 6d and transmits information by visible light communication, and receives and outputs information transmitted by the illumination device 6. The receiving device 7 and a transmitting device 8 that transmits predetermined identification information and visible light information to be transmitted by visible light communication to the lighting device 6.

  In addition, the lighting device 6 receives the predetermined identification information (ID of the transmission partner illumination device) and visible light information (information transmitted by the transmission partner lighting device) transmitted by the transmission device 8, and A determination unit 6b that determines whether or not the predetermined identification information received by the reception unit 6a matches the predetermined identification information of the lighting device 6 (ID unique to the lighting device), and the determination result of the determination unit 6b Are matched, the modulation unit 6c that modulates the light source 6d and transmits visible light information, and a storage unit (not shown) that stores visible light information, identification information, and the like. The light source 6d has a predetermined correlated color temperature or color temperature. Thereby, as shown in the figure, the user can visually recognize the communication range of the visible light communication.

  In the above configuration, processing performed by the lighting device 6 according to the third embodiment will be described with reference to FIG. FIG. 10 is a flowchart illustrating the process of the lighting device 6 according to the third embodiment. The lighting device 6 includes a light source 6d having a predetermined correlated color temperature or color temperature in advance. Specifically, the light source 6d is selected so that the correlated color temperature of the information transmission area is different from the correlated color temperature of other areas. Moreover, the illuminating device 6 provided with the said light source 6d is arrange | positioned in the desired position.

  When the transmitting device 8 transmits predetermined identification information and visible light information to the lighting device 6, the lighting device 6 performs the following processing.

  First, the reception unit 6a receives predetermined identification information and visible light information transmitted by the transmission device 8 (step SC-1). Next, the determination unit 6b determines whether or not the predetermined identification information received in step SC-1 matches the identification information of the lighting device stored in the storage unit in advance (step SC-2). If the determination result at step SC-2 is the same (step SC-3: Yes), the modulation unit 6c modulates the light source 6d and transmits the visible light information received at step SC-1 (step SC). -4).

  As described above, in the visible light communication illumination system 5 of the third embodiment, the transmission device 8 transmits the predetermined identification information and visible light information to be transmitted by visible light communication to the illumination device 6, and the illumination device 6 receives the predetermined identification information and visible light information transmitted from the transmission device 8 by the receiving unit 6a, and determines whether or not the received predetermined identification information matches the predetermined identification information of the lighting device. When the determination is made by the determination unit 6b and the determination result of the determination unit 6b is the same, the light source 6d is modulated by the modulation unit 6c and visible light information is transmitted. Specifically, the transmission device 8 transmits the file shown in FIG. 3 described above in which the identification information and the visible light information relating to the lighting device 6 of the transmission partner are associated with each other to the lighting device 6, and the lighting device 6 Determining whether the identification information included in the received file matches the identification information of the lighting device, obtaining visible light information associated with the identification information determined to be coincident from the file, The obtained visible light information is transmitted by modulating the light source 6d.

  Therefore, when changing the content of the visible light information transmitted by the lighting device 6, the content of the visible light information transmitted by the lighting device 6 can be changed by simply rewriting the visible light information of the file to be transmitted. The content of visible light information transmitted by the lighting device 6 can be easily changed in a short time, and the cost required for the change can be reduced. In particular, in an airport, a station, a large-scale facility, etc. where a plurality of lighting devices 6 are installed, the visible light information of the plurality of lighting devices 6 can be changed at a time using the transmission device 8, so that the visible light information can be changed. The cost for resetting can be effectively reduced. Moreover, since the illuminating device 6 acquires and transmits visible light information addressed to the illuminating device after the determination unit 6b determines whether or not the received identification information is identification information of the illuminating device, visible light is transmitted. Information can be reliably acquired and transmitted by the appropriate lighting device 6.

  Moreover, since the illuminating device 6 has the light source 6d of predetermined correlation color temperature or color temperature, it can make a user visually recognize the communication range of visible light communication. As a result, in a building where the lighting device 6 and a general lighting device coexist, by installing the lighting device 6 having a color temperature different from the color temperature of the general lighting device, a visible light communication range (visible light communication area) Can be identified by the user. Specifically, as shown in FIGS. 11 and 12, for example, a general lighting device having a color temperature of 3000 [K] and a lighting device with a visible light communication function having a color temperature of 5000 [K] (corresponding to the lighting device 6). Is installed in the same room in the same building, the visible light communication area and the general lighting area can be distinguished from each other so that the visible light communication area can be easily and reliably notified to the user. . Note that the visible light communication area is not limited to one place in one space.

  Here, the correlated color temperature and the color temperature are scales representing the light color of the light source (for example, “blueish”, “redish”, etc.). The color temperature is a scale applied when the chromaticity of the sample light source is equal to the chromaticity of the black body (complete radiator) serving as a reference, and is displayed as the absolute temperature of the black body (K (Kelvin)). The correlated color temperature is a scale applied when the chromaticity of the sample light source is not on the black body locus (complete radiator locus). In general illumination light sources such as fluorescent lamps, the chromaticity often deviates from the black body locus, and therefore the light color scale of these lamps is expressed not in color temperature but in correlated color temperature.

  Conventionally, in public large-scale building spaces, signboards and posters have been installed to convey various kinds of guidance information to users. In international cities, the language used varies from user to user, and the information that they want to receive varies. Therefore, for example, an information transmission device called a sign post (for example, “info sign (product name)” developed by NEC Corporation (company name)) is provided for each necessary location, and information tailored to the user is transmitted. It is considered. However, since the information transmission device cannot notify the user where the information can be obtained, for example, it is necessary to provide a conspicuous signboard. However, although a signboard is suitable for showing one point, it is difficult to show a communication area having a certain spread. For example, a circular line may be drawn on the floor to show the communication area, but this is not desirable in terms of architectural design. From the above, the information transmission device in the public space is inconspicuous, but needs to be able to inform the communication area to anyone intuitively and surely.

  Therefore, if this system is used, for example, a place where a display device that displays a sign such as a figure or a character is not desirable from the viewpoint of design, it will be visible to the user due to the difference in color temperature. Information source and visible light communication area can be notified. In other words, if this system is used, the visible light communication area of a certain area can be accurately identified by the user without disturbing the architectural design. Moreover, if this system is utilized, even if it installs an illuminating device in an inconspicuous place, a visible light communication area can be notified to a user intuitively and reliably. In other words, the present system is inconspicuous and can intuitively and reliably notify the communication area to anyone.

  In addition, a white light source used for illumination in a general space includes light having a low color temperature (from 2000 to 3000 [K], yellowish light like an incandescent lamp) to light having a high color temperature (4000 to 6000). There is a range from [K] to pale white light like blue sky light). For this reason, it can be unified with “white light” which has no particular meaning as an architectural space, and only the atmosphere of the space can be changed slightly. In addition, light with a relatively high color temperature (light with a high color temperature compared to the surroundings) has a tension effect and arousal effect compared with light with a low color temperature, and light with a relatively low color temperature ( It has been confirmed by psychological and physiological experiments that light having a low color temperature compared to the surroundings has a relaxing effect and a hypnotic effect compared to light having a high color temperature. Therefore, if this system is used, for example, when it is desired to inform the user of the source of visible light information and the visible light communication area, it is easy to install a lighting device equipped with a light source having a relatively high color temperature. Can reach the goal. In addition, if this system is used, for example, if you want to provide music or images (including still images or moving images) to the receiving devices owned by each user at the refresh corner or relaxation corner, By installing a lighting device equipped with a light source having a low color temperature, the purpose can be easily achieved.

  In addition, since commercially available lamps with various lighting methods and color temperatures can be used as the light source, the transmitter 8 can be used even when new visible light communication is performed using, for example, a lighting fixture in an existing building. The system can be easily realized simply by providing the above-described receiving unit 6a, determination unit 6b, and modulating unit 6c in an existing lighting fixture and replacing the lamp of the lighting fixture with a commercially available lamp. Further, according to the present system, since the lighting device 6 itself does not have a sign property, it is not necessary to recreate the signboard in accordance with the design of the building each time as in the existing signboard in the building. As a result, mass production of the present system can be easily realized, thereby facilitating industrialization. In the present system, the visible light communication area may be notified to the user by changing the luminance (brightness) of the visible light emitted from the light source. In the present system, the visible light communication area may be notified to the user by a shadow caused by the visible light emitted from the light source.

  As described above, the visible light communication display system and the visible light communication illumination system according to the present invention can be suitably implemented in facilities and facilities that need to frequently change the visible light information to be transmitted and the graphic to be displayed. Can be very useful. Specifically, it can be suitably implemented in airports, stations, large-scale facilities, etc. where a plurality of display devices and lighting devices are installed, and is extremely useful.

1 is a diagram illustrating a configuration of a visible light communication display system 1 according to a first embodiment. It is a figure which shows the structure of the figure display area 2d in the present Example 1. FIG. It is a figure which shows the information transmitted with the transmitter 4 in the present Example 1. FIG. 6 is a flowchart illustrating an example of processing of the display device 2 according to the first embodiment. It is a figure which shows an example of the embodiment of the visible light communication display system 1 of the present Example 1. FIG. It is a figure which shows the structure of the visible light communication display system 1 of the present Example 2. FIG. It is a figure which shows the information transmitted with the transmitter 4 in the present Example 2. FIG. 12 is a flowchart illustrating an example of processing of the display device 2 according to the second embodiment. It is a figure which shows the structure of the visible light communication illumination system 5 of the present Example 3. FIG. It is a flowchart which shows an example of a process of the illuminating device 6 in the present Example 3. It is a figure which shows an example of the embodiment of the visible light communication illumination system 5 of the present Example 3. FIG. It is a figure which shows an example of the embodiment of the visible light communication illumination system 5 of the present Example 3. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Visible light communication display system 2 Display apparatus 2a Reception part 2b Determination part 2c Modulation part 2d Graphic display area 2e Switching part 3 Reception apparatus 4 Transmission apparatus 5 Visible light communication illumination system 6 Illumination apparatus 6a Reception part 6b Determination part 6c Modulation part 7 Receiver 8 Transmitter

Claims (8)

In a visible light communication display system having a display device that displays a figure with visible light emitted from a light source and transmits information by visible light communication, and a receiving device that receives and outputs the information transmitted by the display device,
Further comprising: a transmitter that transmits the predetermined identification information and visible light information to be transmitted by visible light communication to the display device;
The display device
Receiving means for receiving the predetermined identification information and the visible light information transmitted by the transmitting device;
Determination means for determining whether or not the predetermined identification information received by the reception means matches the predetermined identification information of the display device;
If the determination result of the determination means is coincident, the modulation means for modulating the light source and transmitting the visible light information;
A visible light communication display system comprising: The transmission device further transmits graphic information about a graphic displayed on the display device,
The receiving means further receives the graphic information;
Features
The display device
Switching means for switching to a graphic corresponding to the graphic information when the determination result of the determination means is the same;
The visible light communication display system according to claim 1, further comprising: The receiving device is portable;
The visible light communication display system according to claim 1 or 2. The receiving device has a function of reproducing the received information in at least one of characters, sounds, and images;
The visible light communication display system according to any one of claims 1 to 3. A visible light communication illumination system comprising: an illumination device that illuminates with visible light emitted from a light source and transmits information by visible light communication; and a reception device that receives and outputs the information transmitted by the illumination device. ,
Further comprising: a transmitter that transmits the predetermined identification information and visible light information to be transmitted by visible light communication to the illumination device;
The lighting device includes:
Receiving means for receiving the predetermined identification information and the visible light information transmitted by the transmitting device;
Determination means for determining whether or not the predetermined identification information received by the reception means matches the predetermined identification information of the lighting device;
If the determination result of the determination means is coincident, the modulation means for modulating the light source and transmitting the visible light information;
A visible light communication illumination system comprising: The lighting device includes the light source having a predetermined correlated color temperature or color temperature;
The visible light communication illumination system according to claim 5. The receiving device is portable;
The visible light communication illumination system according to claim 5 or 6. The receiving device has a function of reproducing the received information in at least one of characters, sounds, and images;
The visible light communication illumination system according to any one of claims 5 to 7.

Images