JP2017199637A - System having plural light emitting terminals - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system drawing a picture by light using a plurality of light emitting terminals.SOLUTION: There is provided a system 1 having a plurality of light emitting terminals 50 arranged by distribution. Each of the plurality of light emitting terminals 50 includes: a light emitting element; and a first receiving unit receiving first control information 71 including a command to instruct the lighting of the light emitting element via a directional communication medium 15. In the drawing system 1, a region 16 with a limited area in a region 7 where the plurality of light emitting terminals 50 are arranged by distribution is irradiated with the directional communication medium 15 that transmits the first control information 71, and the limited region 16 is moved to illuminate the light emitting terminals 50, so that a picture can be drawn.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a system having a plurality of light emitting terminals.

  In Patent Literature 1, it is possible to accurately acquire terminal effect control data for controlling the effect mode and to make the user participate in the event without making a complicated operation by the user during the event, and as a result, the user Is intended to provide a terminal device or the like that can enhance the sense of unity in the event through the effect of participating. In Patent Literature 1, the penlight is capable of executing a plurality of effect modes, and acquires terminal effect control data in which a combination of the plurality of effect modes is defined from the control device and is acquired. The terminal effect control data is stored. And a penlight reads the terminal presentation control data memorize | stored according to the progress time of an event, and controls execution of the presentation aspect of the said presentation means based on the read said terminal presentation control data.

JP 2013-4323 A

  In an event or the like, a scene where a large number of spectators turn on a large number of handy lights can be seen. There is a demand for flashing personal lights such as these handy lights more effectively.

  One embodiment of the present invention is a system including a plurality of light-emitting terminals arranged in a distributed manner. Each of the plurality of light emitting terminals includes a light emitting element and a first receiving unit that receives first control information including a command instructing lighting of the light emitting element via a directional communication medium. This system irradiates a directional communication medium that transmits first control information to an area having a limited area in an area in which a plurality of light emitting terminals are dispersedly arranged, and moves the limited area. Having a first transmission unit; Irradiating a limited area with first control information including a command to turn on using a highly directional communication medium such as visible light communication, and lighting only the light emitting terminals included in the limited area it can. Furthermore, by moving in a limited area to which the first control information is supplied, an image or other information can be drawn by the light emitted by a large number of light emitting terminals arranged in a distributed manner. The first transmission unit may include a unit that changes the area of the limited region, and can change the width of drawing an image, for example, the width of a line or the area of a spot.

  Each of the plurality of light emitting terminals may include a second receiving unit that receives second control information including a command for instructing to turn off the light emitting element via an omnidirectional communication medium. The system may further include a second transmission unit that transmits the second control information via an omnidirectional communication medium. By broadcasting the second control information, it is possible to turn off a large number of distributed light emitting terminals all at once, and to draw a picture with the first control information or to erase a picture. Can be handled like a canvas. The second control information may include a command for changing the light emission mode of the light emitting terminal. The light emission mode can include, for example, a function of changing the light emission color according to the first control signal, fading in, or fading out.

  An example of a directional communication medium is optical communication with high straightness, and may be visible light communication or infrared communication. Moreover, near field communication (NFC) with a limited reach may be used.

  A light emitting terminal is a personal light for an event that many spectators may carry or wear. The personal light may be a pen-type or disk-type handy light, or may be a wearable light worn by the user, such as a wristband type or a headband type.

  Another aspect of the present invention is a light emitting terminal used in the above system. The light emitting terminal includes a light emitting element and a first receiving unit that receives first control information including a command to turn on the light emitting element via a directional communication medium. The light emitting terminal may further include a second receiving unit that receives second control information including a command to turn off the light emitting element via an omnidirectional communication medium. The light emitting terminal may further have a first function of fading out when a predetermined time elapses after the light emitting element is turned on according to the first control information. The first receiving unit includes a unit that receives first control information including a command that indicates a light emission color of the light emitting element, and a light emitting terminal controls a light emission color of the light emitting element according to the first control information. It may have a function.

  The light emitting terminal further includes a switch for manually operating lighting of the light emitting element, and a switch for switching between an active mode for manually operating lighting of the light emitting element and a passive mode operated by the first control information. Also good.

The figure which shows the outline | summary of a drawing system. The figure which shows schematic structure of a handy light. The figure which shows the process in which it draws using the handy light of a spectator seat by a drawing system.

  FIG. 1 shows a drawing system capable of drawing content such as a picture on a spectator seat 7 by emitting handy lights 50 held by a large number of spectators at an event venue 6. The drawing system 1 includes a plurality of light emitting terminals distributed in a spectator seat 7 or the like, in this example, a handy light 50 and a region in which a plurality of handy lights 50 are arranged in a distributed manner, in this example a spectator seat 7. The first control information 71 is irradiated to the area (spot) 16 having a limited area in the directional communication medium, in this example, the light 15 for visible light communication, and the spot 16 is moved. 1 transmission unit 10 and the second transmission unit 20 that transmits (broadcasts) the second control information 72 to the entire audience seat 7 via the non-directional communication medium, in this example, the radio wave 25.

  Each handy light 50 of the spectator seat 7 is passively turned on (lit) when receiving an on command included in the first control information 71 through the visible light communication 15. Accordingly, by forming spots (spotlights, limited areas) 16 on the spectator seat 7 by the searchlight 11 that is the irradiation portion of the visible light 15 for communication of the first transmission unit 10, a large number of spectator seats 7 are formed. In the handy light 50, the handy light 50 irradiated by the spotlight 16 can be turned on. Further, by moving the search light 11 and moving the spotlight 16, the area of the lit handy light 52 is increased, and the handy light 52 that is turned on in the handy light 51 that is turned off by the lit handy light 52. The light 17 can be raised and a picture 17 can be drawn on the auditorium 7 by the light.

  The first transmission unit 10 includes a light 11 for visible light communication, and a control unit 12 that controls the position, angle, and the like of the light 11. The control unit 12 receives a data (drawing data) 75 to be drawn from the control desk 5 and a trajectory control function (trajectory control unit) that moves the light 11 along the drawing data 75 and changes the position of the spot 16. 12b, a spot diameter control function (spot diameter control unit) 12c for changing the focus of the light 11 to change the diameter of the spot 16, and a light emission color control unit for controlling the light emission color of the handy light 50 by changing the color of the light 11 Color control function) 12d.

  The first control information 71 transmitted to the handy light 50 by the visible light communication 15 which is a highly directional communication medium is mainly used for lighting the handy light 50. The first control information 71 can include information (command) instructing a color for turning on the handy light 50. For example, by forming the spot 16 with red light, the handy light 50 illuminated with the spot 16 is colored with red, and when the spot 16 is formed with blue light, the handy light illuminated with the spot 16 is formed. The light 50 can be colored in blue.

  The second control information 72 transmitted (broadcast) to the handy light 50 by the radio wave 25 which is a communication medium having weak or no directivity is mainly used to turn off the handy light 50. For example, before the drawing, by broadcasting the second control information 72 including the turn-off command to the entire audience seat 7, all the handy lights 50 of the audience seat 7 can be turned off (turn off). Then, drawing can be started using the handy light 50 of the auditorium 7 by the visible light communication 15. The second control information 72 can include information (command) indicating the color that the handy light 50 is turned on. For example, by broadcasting the second control information 72 including a command to light in red at a certain time t1, the handy light 50 illuminated by the spot 16 can be colored in red thereafter. By broadcasting the second control information 72 including a command that lights in green at a subsequent time t2, the handy light 50 illuminated by the spot 16 can be colored in green thereafter.

  The information included in the first control information 71 and the second control information 72 is data that is operated using a computer resource such as a personal computer prepared in the console 5 or recorded in advance on a recording medium such as a disk. (Information) can be output from the first transmission unit 10 and the second transmission unit 20 as the first control information 71 and the second control information 72, respectively.

  FIG. 2 shows a schematic configuration of each handy light 50. The handy light 50 includes an upper light emitting portion 53 and a lower grip 54. The light emitting unit 53 includes an LED 55 that is a light emitting element, a light receiving element 56 that receives light of the visible light communication 15, and an antenna 57 that receives the radio wave 25. The grip 54 has a manual switch 58, first control information 71 acquired by the visible light communication 15, second control information 72 received by the radio wave 25, and third control information 73 input by the manual switch 58. A control unit 60 for controlling the light emission of the LED 55 based on the above and a battery 59 are arranged.

  The manual switch 58 includes an operation switch 58a for manually controlling the light emission color and on / off of the LED 55, a mode (active mode) in which the light emission (lighting) of the LED 55 is actively operated by the operation switch 58a, and a passive first switch. And a changeover switch 58b for switching to a mode (passive mode) operated by one control information 71.

  The control unit 60 has a function (unit) 61 for manually operating the LED 55 by the third control information 73 from the manual switch 58, a function 62 for switching modes, and a mode selection signal included in the second control information 72. A function 63 for setting the light emission mode, a function 64 for turning off the LED 55 by a turn-off command included in the second control information 72, a function 65 for turning on the LED 55 by a turn-on command included in the first control information 71, And a function 66 for changing the lighting color of the LED 55 by a color command included in the first control information 71.

  One of the light emission modes set by the function 63 for setting the light emission mode is a function for fading out. When the fade-out is set, after the LED 55 is turned on by the first control information 71, the luminance of the LED 55 gradually decreases and turns off when a predetermined time elapses.

  FIG. 3 shows a state where a picture is drawn using the handy light 50 of the spectator seat 7. A message is sent to the audience to set the handy light 50 to the passive mode. Alternatively, when the predetermined music or program (program) is reached, the audience is requested to set the passive mode, or the handy light 50 is provided with a timer or a microphone so that the passive mode is automatically set according to the conditions. You may program it.

  First, as an initial setting, the second transmission unit 20 broadcasts the second control information 72 including a turn-off command, and sets all the handy lights 50 in the spectator seat 7 to the off state 51. At the same time, a function for fading out to the control unit 60 of the handy light 50 is set in the second control information 72 including a command for setting the light emission mode to fade out.

  As shown in FIG. 3A, a spot (spotlight) 16 for visible light communication is formed on the audience seat 7 by the first transmission unit 10, and the spot 16 is moved and the diameter of the spot 16 is changed. Among the handy lights 50 of the spectator seat 7, the handy light 52 illuminated by the spot 16 is turned on by the lighting command included in the first control information 71 transmitted by the visible light communication 15, and the locus of the movement of the spot 16. It is drawn on the spectator seat 7 by the light of the handy light 52 lit.

  As shown in FIG. 3B, when the spot 16 is further moved, the locus is continuously drawn by the light of the handy light 52 that is lit. As shown in FIG. 3C, when the spot 16 is further moved and time is spent for drawing, the handy light 52 that is first turned on fades out and turns off, and the first drawn portion 18 disappears. Therefore, even if the handy light 50 of the spectator seat 7 is not forcibly turned off by the second control signal 72, it is possible to draw images one after another by continuing to move the spot 16.

  In addition, the brightness of the handy light 50 can be returned to the initial state by applying the spot 16 to the handy light 50 having the brightness in the middle of fading out, and a shaded picture can be drawn on the audience seat 7. It becomes.

  As described above, in the drawing system 1, the first transmission unit 10 transmits the spot 16, which is a limited area in the area such as the auditorium 7 where the plurality of light emitting terminals 50 are distributed, from the first transmission unit 10. It is possible to illuminate only a light-emitting terminal 50 included in the spot 16 having a limited area by irradiating a directional communication medium that transmits one control information 71, for example, the light 15 of visible light communication. By moving the spot 16, images and other information can be drawn with light using a large area such as the spectator seat 7 as a canvas by light emitted from a large number of light emitting terminals arranged in a distributed manner. By changing the area of the spot 16, the width of the line can be changed. The spot 16 may move continuously or intermittently. By changing the shape of the spot 16 or changing the area, the spot 16 can be moved to a desired location on the audience seat 7. Shape figures can be drawn intermittently or continuously.

  A suitable example of the directional communication medium that supplies the first control information 71 is the visible light communication 15 with high straightness. The directional communication medium may be infrared communication. Moreover, near field communication (NFC) with a limited reach may be used. A preferred example of a non-directional communication medium that supplies the second control information 72 is wireless communication using a wireless LAN or other radio waves.

  In the above description, the pen-type handy light 50 has been described as an example of the light-emitting terminal. However, the light-emitting terminal may be a disk-type or ring-type handy light that is easy to hold by hand, and may be a wristband type or headband type user. It may be a wearable light that can be worn. In the above, a personal light used for an event or the like has been described as an example of a light emitting terminal. However, a plurality of light emitting elements arranged in a grid or matrix at predetermined intervals on a stage or on a wall surface of a building. It may be a terminal, or a system in which a user draws a picture with light by moving a light that emits light for visible light communication by hand on a huge campus.

1 drawing system, 50 handy light

Claims (10)

A system having a plurality of light emitting terminals arranged in a distributed manner,
Each of the plurality of light emitting terminals includes a light emitting element,
A first receiving unit for receiving first control information including a command for instructing lighting of the light emitting element via a directional communication medium;
The system
A region having a limited area among regions in which the plurality of light emitting terminals are distributed is irradiated with the directional communication medium that transmits the first control information, and the region that moves in the limited region A system having one transmission unit. In claim 1,
The first transmission unit includes a unit that changes an area of the limited region. In claim 1 or 2,
Each of the plurality of light emitting terminals includes a second receiving unit that receives second control information including a command to turn off the light emitting element via a non-directional communication medium,
The system further includes a second transmission unit that transmits the second control information via the omnidirectional communication medium. In any of claims 1 to 3,
The system, wherein the directional communication medium is light. In any of claims 1 to 4,
The light emitting terminal is a system that is a personal light for an event. A light emitting terminal used in the system according to claim 1 or 2,
A light emitting element;
A light emitting terminal comprising: a first receiving unit that receives first control information including a command to turn on the light emitting element via a directional communication medium. A light emitting terminal used in the system according to claim 3,
A light emitting element;
A first receiving unit for receiving first control information including a command for instructing lighting of the light emitting element via a directional communication medium;
A light emitting terminal, comprising: a second receiving unit that receives second control information including a command to turn off the light emitting element via a non-directional communication medium. In claim 6 or 7,
A light emitting terminal having a first function of fading out when a predetermined time elapses after the light emitting element is turned on according to the first control information. In any of claims 6 to 8,
The first receiving unit includes a unit for receiving the first control information including a command for instructing an emission color of the light emitting element,
A light emitting terminal having a second function of controlling a light emission color of the light emitting element according to the first control information. In any of claims 6 to 9,
A switch for manually operating lighting of the light emitting element;
A light emitting terminal, comprising: a switch for switching between lighting of the light emitting element between manual operation and the first control information.