JP2019178990A - Position confirmation system - Google Patents

Abstract

To provide a position confirmation system allowing a user to easily confirm a position of an object, which he/she wants to know, in real scenery.SOLUTION: An operation device 100 allows a user to select objects B whose position confirmation is desired. A notification device 200 suggests a position of each of the objects B through a real area A to the user. The positions of the objects B selected with the operation device 100 are suggested through the area A by the notification device 200.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a position confirmation system for assisting position confirmation of an object existing in a predetermined area that can be seen from a certain place such as an observation deck.

  Conventionally, even if you look down on a city from a place with a panoramic view of the city, such as an observatory at a sightseeing spot, you may not know the location of facilities such as sights unless you have a sense of land. For this reason, a tourist information board displaying facilities such as main sights in a viewable area is often installed on an observation deck with a good view in a sightseeing spot.

  In general, a tourist information board has icons and sightseeing information (characters) indicating facilities such as main sights on a map that shows the surrounding area. In addition, an LED is incorporated in an icon on the map, and there is a type with an electric light indicator that turns on the corresponding icon when a facility is selected from a list of facilities and a button is pressed.

  By the way, in facilities such as sights in sightseeing spots, various light-ups are carried out to improve customer attraction at night. The night view that is lit up is attracting attention as a tourism resource. As such a light-up means, for example, a system that expresses live motion information such as fluctuations in natural phenomena and human motion as light motion in real time is known (for example, see Patent Document 1).

JP 2005-209555 A

  The display of the tourist information board on the observatory described above is different from the actual scenery that can be actually seen, and the map is often deformed so that it is easy to see. Therefore, even if a tourist uses a tourist information board, it is difficult to confirm the location of a facility or the like that he / she wants to know in the actual scenery.

  The use of the above-mentioned light-up is also conceivable as a means for indexing facilities in the actual scenery. However, it is difficult to distinguish between the facilities unless the lighting is unique to each facility. Even if the light-up is different, it is difficult to identify the facility that one wants to know if the light-up characteristics of each facility are not known in advance.

  The present invention has been made paying attention to the problems of the prior art as described above, and the user can easily confirm the position of the object such as the facility he / she wants to know in the actual scenery. It aims to provide a position confirmation system that can do.

The gist of the present invention for achieving the object described above resides in the inventions of the following items.
[1] A position confirmation system (10) for assisting position confirmation of an object (B) existing in a predetermined area (A) from a certain place,
An operating device (100) that allows the user to select an object (B) for which position confirmation is desired;
A notification device (200) that suggests a position for each object (B) through the area (A) to the user,
The position confirmation system (10) characterized in that the position of the object (B) selected by the operation device (100) is suggested through the area (A) by the notification device (200).

[2] The operating device (100) includes a display unit (110) that displays one of predetermined objects (B) so as to be selectable, and an object selected by the display unit (110) ( B) transmission means (120) for transmitting information relating to B, and operation control means (130) for controlling display by the display means (110) and transmission by the transmission means (120),
The notification device (200) outputs a reception medium (220) that receives information from the transmission means (120), and a notification medium that suggests the position of each object (B) to the user through the area (A). Output means (210) for performing the above-mentioned, and notification control means (230) for controlling the output of the notification medium by the output means (210) based on the information received by the receiving means (220). The position confirmation system (10) according to [1].

[3] The operation device (100) includes, as the display means (110), an operation panel (110) prepared at a place where the ground and / or the sky of the area (A) can be seen,
The operation panel (110) displays a list of objects (B) in the area (A), and the object (B) can be selected from the list [2] The position confirmation system described in (10).

  [4] When the notification device (200) suggests the position of the object (B) on the operation panel (110), a mark indicating the direction of the object (B) is displayed. The position confirmation system (10) according to [3].

  [5] The above [3] or [3], wherein when the operation panel (110) does not display a list of objects (B) in the area (A), various other information can be displayed. The position confirmation system (10) according to [4].

[6] The operating device (100) includes a display screen (151) and a camera, and includes a portable terminal (150) capable of using augmented reality technology.
The display screen (151) becomes the display means (110),
On the display screen (151), a list of objects (B) to be reflected in the real image is displayed using the augmented reality technique so as to be superimposed on the real image captured by the camera. The position confirmation system (10) according to [2], wherein the object (B) can be selected from the above.

  [7] The output form of the notification medium by the output means (210) can be adjusted according to the type of the object (B) or the situation around the object (B) [2] , [3], [4], [5] or [6].

  [8] The output means (210) is provided for each object (B), and emits light visible to the user as the notification medium from each object (B). The position confirmation system (10) according to [2], [3], [4], [5] or [6].

[9] The output means (210) directly irradiates light from each object (B) toward the user,
The position confirmation system (10) according to [8], wherein the position confirmation system (10) includes an LED as a light source that emits light having high directivity.

Next, the operation based on the above solution will be described.
According to the position confirmation system (10) described in [1], the user performs an operation of selecting the object (B) for which the user wants to confirm the position by the operation device (100). The user can arbitrarily select an object whose position is to be confirmed from a list in a scenery (predetermined area (A)) that can be viewed from a certain place such as an outdoor observation deck. Here, the object is not limited to an artificial facility, and may be a natural object.

  The notification device (200) suggests the position of each object (B) to the user through the area (A). Then, when the user selects the object (B) with the operating device (100), the position of the selected object (B) is suggested by the notification device (200). Therefore, the user can easily confirm the position of the desired object (B) through the area (A) which is a real space.

  According to the position confirmation system (10) described in [2] above, the operating device (100) displays any one of the predetermined objects (B) in a selectable manner by the display means (110). . And the information regarding the target object (B) selected by the said display means (110) is transmitted by a transmission means (120). The display by the display means (110) and the transmission by the transmission means (120) are controlled by the operation control means (130).

  On the other hand, the notification device (200) receives information from the transmission means (120) by the reception means (220). Next, the output means (210) outputs a notification medium that suggests the position of each object (B) to the user through the area (A). The notification control means (230) controls the output of the notification medium by the output means (210) based on the information received by the receiving means (220).

  According to the position confirmation system (10) described in [3] above, the operation device (100) is an operation panel prepared as a display means (110) at a place where the ground and / or the sky of the area (A) can be seen. (110). The place where the operation panel (110) is prepared is not limited to a high place where the entire area (A) such as a hill can be seen, and may be a place where the sky above the nearby area (A) can be seen on a flat ground.

  In the operation device (100), the user can easily operate the operation panel (110). That is, a list of objects (B) in the area (A) is displayed on the operation panel (110), and the object (B) whose position is to be confirmed can be arbitrarily selected from the list. Here, if the operation panel (110) is, for example, a touch panel, it serves not only as a display but also as an operation means, and can be handled more easily.

  According to the position confirmation system (10) described in [4], when the position of the object (B) is suggested by the notification device (200), the operation panel (110) is used to assist this suggestion. ) Displays a mark indicating the direction of the object (B). Here, the mark may be, for example, a mark such as an arrow or a simple character or symbol, and can guide the user's line of sight in the area (A), thereby making it easier to confirm the position of the object (B).

  According to the position confirmation system (10) described in [5] above, when a list of objects (B) in the area (A) is not displayed on the operation panel (110), various other information is displayed. Can be displayed. For example, if tourist information, event information, or the like is displayed as various information, the convenience of the user is achieved and the operation panel (110) can be used for multiple purposes.

  According to the position confirmation system (10) described in [6], the mobile terminal (150) such as the user's smartphone is used as the operation device. Here, the portable terminal (150) includes a display screen (151) and a camera, and can use the augmented reality technology. The display screen (151) of the portable terminal (150) serves as a display means for displaying the object (B) in the area (A) as it is.

  On the display screen (151), a list of objects (B) reflected in the real image is displayed using the augmented reality technique, superimposed on the real image taken by the camera. The user can select the object (B) from the list displayed on the display screen (151). The position of the object (B) selected by the mobile terminal (150) is suggested by the notification device (200) in the area (A) which is a real space. Therefore, the user can easily confirm the position of the desired object (B) through the area (A) which is a real space by a simple operation using the mobile terminal (150).

  According to the position confirmation system (10) described in [7], the output form of the notification medium by the output means (210) depends on the type of the object (B) or the situation around the object (B). Can be adjusted. For example, in the case where the notification medium is light, as its output (light emission) form, the luminance, chromaticity, lighting or blinking, etc. may be appropriately changed.

  Thus, by changing the output form of the notification medium, not only the position of the object (B) can be confirmed more easily, but also the position confirmation of other objects (B) can be distinguished. . Furthermore, the entertainment property which can be enjoyed by seeing the user can be enhanced by the change in the output form of the notification medium.

  According to the position confirmation system (10) described in [8], the output means (210) is provided for each object (B) and can be visually recognized from each object (B) as a notification medium. Irradiate light. Thereby, even if the object (B) is located relatively far from the user in the area (A), the user can easily visually position the object (B) by the light reaching far away. Can be confirmed.

  According to the position confirmation system (10) described in [9], the output unit (210) directly irradiates light from each object (B) toward the user. According to such output means (210), the output means (210) itself visually recognized by the user indicates the position of the object (B), and the user directly indicates the position of the object (B). Can be confirmed. The output means (210) can be easily realized by an LED, which is a light source that emits light in a narrow range with high directivity.

  According to the position confirmation system according to the present invention, the user can easily confirm the position of the object he / she wants to know in the actual scenery.

1 is an overall view schematically showing a position confirmation system according to an embodiment of the present invention. It is a block diagram which shows the component of the position confirmation system which concerns on embodiment of this invention. It is explanatory drawing which shows the flow of operation by the position confirmation system which concerns on embodiment of this invention. It is a perspective view which shows typically the illuminator which is an example of the alerting | reporting apparatus of the position confirmation system which concerns on embodiment of this invention. It is a top view which shows an example of the location of an operating device and each target object in the area to which the position confirmation system which concerns on embodiment of this invention is applied. It is explanatory drawing which shows the state which alert | reports a target object by the alerting | reporting apparatus of the position confirmation system which concerns on embodiment of this invention. It is explanatory drawing which shows the display which assists alerting | reporting of a target object in the operating device of the position confirmation system which concerns on embodiment of this invention. It is explanatory drawing which shows the state using the portable terminal as an operating device of the position confirmation system which concerns on embodiment of this invention.

<Outline of the position confirmation system 10>
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments representing the present invention will be described below with reference to the drawings.
The position confirmation system 10 according to the present embodiment assists in confirming the position of the object B existing in a predetermined area A from a certain place. Here, “a certain place” corresponds to, for example, an outdoor observatory with a good view in a sightseeing spot, an observation floor on the upper floor of a high-rise building in an urban area, or the like.

  Further, the “predetermined area A” is a real space that is located at a distance from which the user can see with the naked eye. However, a “certain place” does not necessarily have to be a high place. For example, as a certain point in a site such as an amusement park or a zoo on a flat ground, at least a certain sky can be seen over the area A within a predetermined distance from there. It may be a place like this. Further, the “object B” is not limited to an artificial facility or building, a historic site, a park, or the like, but may be a natural object such as a river, a pond, a forest, or a forest.

  As shown in FIG. 1, the position confirmation system 10 includes an operation device 100 that allows a user to select an object B for which position confirmation is desired, and a notification device that suggests a position for each object B through an area A to the user. 200. The position confirmation system 10 is configured to suggest the position of the object B selected by the operation device 100 by the notification device 200. Hereinafter, an example will be described in which the position confirmation system 10 is applied to a purpose of sightseeing guidance on an observation floor with a good view of a sightseeing spot.

<About the operation device 100>
As shown in FIG. 2, the operation device 100 includes an operation panel 110 that is a display unit, a transmitter 120 that is a transmission unit, and an operation control unit 130 that controls display by the operation panel 110 and transmission by the transmitter 120. And. Hereinafter, each component of the operating device 100 will be described in order.

  The operation panel 110 displays any of the objects B in the area A so that the user (tourist) can arbitrarily select it. The operation panel 110 is prepared in a place where the ground and / or the sky of the surrounding area A can be seen at a certain place. Hereinafter, the display means of the operation device 100 will be described as the operation panel 110 unless otherwise generically named.

  As shown in FIG. 1, the operation panel 110 includes a touch panel type liquid crystal display screen 111 that can be used by a user. The operation panel 110 in the present embodiment is installed on an observation floor with a good view of a sightseeing spot. Here, the operation panel 110 is not necessarily fixed at the installation location, and may be carried by the user by lending it to the user. Furthermore, it is conceivable to use a mobile terminal such as a smartphone as the display means, which will be described later.

  The liquid crystal display screen 111 displays a list of a plurality of predetermined objects B among various objects in the area A. The liquid crystal display screen 111 is a touch panel type, and the user can arbitrarily select the object B whose position is to be confirmed from the displayed list by a touch operation. When any object B is selected on the liquid crystal display screen 111, this operation signal is set to be output to the transmitter 120 described below.

  The operation panel 110 also serves as an operation means for performing an operation to be selected by the user through a touch panel type liquid crystal display screen 111. However, the object B can be selected by an input device such as a button switch or a remote controller that is separate from the operation panel 110. You may comprise so that it may select. Since the configuration of the touch panel itself is common, detailed description thereof is omitted. In addition, when the list of the objects B in the area A is not displayed on the operation panel 110, various other information can be displayed. Various information displayed on the operation panel 110 will be described later.

  Next, the transmitter 120 transmits information related to the object B selected by the operation panel 110. Transmitter 120 in the present embodiment is installed in radio base station 101 near the place where operation panel 110 is prepared. As described above, the transmitter 120 is provided separately from the operation panel 110, but may be configured to be installed inside the operation panel 110. Hereinafter, the transmission means of the controller device 100 will be described as the transmitter 120 unless otherwise generically named.

  The transmitter 120 inputs an operation signal from the operation panel 110 and transmits object specifying information related to the object B selected by the operation panel 110 to the notification device 200. Here, the object specifying information may be a signal that can identify the object B. Transmission / reception of information between the transmitter 120 and a receiver 220, which will be described later, is performed using a wireless communication standard of LPWA (Low Power Wide Area). LPWA is a wireless communication system that realizes long-distance communication with reduced power consumption, and is broadly divided into an unlicensed system that does not require a radio station license and a license system that requires a radio station license.

  In this embodiment, use of LoRa, which is one of unlicensed systems, is suitable. LoRa is characterized by being capable of long-distance communication with low power consumption, although the communication speed is not fast. LoRa is a standard originally developed for IoT, but the amount of information transmitted by the position confirmation system 10 is small (the degree of identification of the object B), and the area is centered on the radio base station 101 (viewing floor). Since the radius distance of A is about several kilometers visible with the naked eye, it is suitable for use in the position confirmation system 10. LoRa uses a 920 MHz band called a sub-giga band that can be operated with an unlicensed license.

  The communication distance of LoRa is 10 to 20 km according to the standard, but at the maximum wireless output (20 mW) that can be used in Japan at present, it is about 5 km in actual measurement when the communication environment is good. In addition, since LoRa does not require a radio station license, a base station can be installed on its own. In addition, the specification of LoRa is low power consumption (about 20 to several tens of mA) and low data rate (the amount of data per communication is about several tens of bytes). The transmission of information from the transmitter 120 is not limited to wireless communication, and may be configured to transmit via a wired cable such as an optical fiber, for example.

  The operation control means 130 shown in FIG. 2 controls display on the liquid crystal display screen 111 of the operation panel 110 and controls transmission of information in the transmitter 120. The operation control means 130 in the present embodiment is attached not to the operation panel 110 side but to the transmitter 120 side in the radio base station 101. The operation control means 130 stores a CPU that performs a central function of various controls, a ROM that stores programs executed by the CPU and various fixed data, and data that is temporarily required to execute the programs. Therefore, the main part is composed of a microcomputer having a RAM as a main part.

  The operation control means 130 is programmed to execute the following control. That is, the operation control unit 130 first displays a list of the objects B in the area A on the liquid crystal display screen 111. When the user selects an object B whose position is to be confirmed on the liquid crystal display screen 111, this operation signal is output to the transmitter 120 in the radio base station 101. Then, the transmitter 120 causes the notification device 200 to transmit the object specifying information related to the object B selected by the user.

  Further, as will be described later, as shown in FIG. 7, the operation control means 130 assists this suggestion when the user is instructing the user of the position of the object B through the area A by the notification device 200 described later. In addition, control for displaying an “arrow” as a mark indicating the direction of the selected object B on the operation panel 110 is also performed. In this case, it is premised that the area A where the selected object B is located can be seen behind the operation panel 110.

  Furthermore, the operation control means 130 also performs control to display other various information when the list of the object B is not displayed on the operation panel 110. Here, the various information corresponds to, for example, sightseeing guidance, event guidance, surrounding maps, and the like. This information is displayed in order on the LCD display screen 111, and the use of the location confirmation system 10 can be performed by giving guidance such as "Please touch the screen. You can confirm the location of city facilities". Can be urged. Various information may be acquired from the outside by data communication, or fixed guide information or the like may be stored in advance in the ROM of the operation control means 130 and used.

<Regarding Notification Device 200>
The notification device 200 includes an output means for suggesting the position of each of the plurality of objects B, a receiver 220 that is a receiving means for receiving information from the transmitter 120 of the operating device 100, and the receiver And a notification control means 230 (see FIG. 2) for controlling the output means 210 based on the information received at 220. Hereinafter, each component of the notification device 200 will be described in order.

  The output unit 210 outputs a notification medium that suggests the position of each object B to the user through the area A. Here, the “notification medium” may be any medium that directly or indirectly informs the user of the position of the object B, for example, a light that can be visually recognized by the naked eye or a three-dimensional image by holography technology. Smoke such as water vapor or smoke used for stage effects, or sound that can be confirmed by hearing, such as guidance sounds for guiding the position, sound effects or electronic sounds for simply indicating the output position of the sound may be used .

  Specifically, the output unit 210 in the present embodiment includes an illuminator 210 that is provided for each object B and that emits light that can be visually recognized by the user as a notification medium from each object B. Hereinafter, the output unit 210 of the notification device 200 will be described as the illuminator 210 when not specifically named. Various types of the illuminator 210 can be considered, but if there is nothing to block between the user and the object B in the area A, the illuminator 210 directly irradiates the user with light. Can be configured.

  As shown in FIG. 4, the illuminator 210 according to the present embodiment is configured to irradiate light directly from the object B toward the user so that the user can visually recognize the irradiated light with the naked eye. The illuminator 210 includes an LED as a light source 211 that emits light in a narrow range with high directivity. Here, since the configuration of the LED itself is general, a detailed description thereof will be omitted. Note that the emission color of the LED is a design matter that can be selected as appropriate, and not only one color but also a plurality of colors, or a color LED that can be adjusted to any number of colors with one LED may be used.

  The LED as the light source 211 has a light emission angle narrower than that of other light sources (for example, a mercury lamp, a halogen lamp, etc.). It is configured to irradiate light at a very narrow super-narrow angle along the optical axis direction of the LED. However, it is not necessary for the illuminator 210 to irradiate with strong beam light unlike a projector, and it is sufficient if light emission can be confirmed with the naked eye from a place away from the illuminator 210. Further, a light shielding tube 212 is provided in front of the light source 211 on the irradiation side. The light shielding cylinder 212 prevents extra light leakage to the surroundings other than the object B, and prevents people in the vicinity of the object B from feeling the light emission of the light source 211.

  The installation method of the illuminator 210 with respect to the object B is not particularly limited, and the irradiation direction (attachment angle) of the light source 211 can be fixed in advance toward the viewing place where the user is present. For example, the illuminator 210 may be installed in a vacant space on the side of the object B via the support column 213, directly attached to the exterior of the building that is the object B, or attached via the support column 213 or the like. good. In any installation method, the illuminator 210 is provided for each object B, so that the installation location of the illuminator 210 itself indicates the position of the object B as it is.

  As shown in FIG. 4, the illuminator 210 includes a light source 211, a light shielding tube 212, and a column 214, and a housing 214 attached to the column 213. In addition to the receiver 220 and the notification control unit 230, a power source that supplies power to the light source 211 and the like are stored in the housing 214. In addition, an antenna 215 of the receiver 220 is attached outside the housing 214. Note that the receiver 220 and the notification control unit 230 may be provided separately from the output unit 210.

  Next, the receiver 220 receives the object specifying information transmitted from the transmitter 120 of the operating device 100. Receiver 220 in this embodiment is stored in housing 214 of illuminator 210. As described above, the receiver 220 transmits / receives information to / from the transmitter 120 using LPRa (Low Power Wide Area), in particular, LoRa. Therefore, the receiver 220 is configured to comply with LoRa.

  Further, the receiver 220 may be installed in another place such as a municipal office to which the area A belongs or a tourism section of the government office, in addition to the illuminator 210 installed in the object B. Or you may make it install the receiver 220 only in another place, without installing in the target object B (illuminator 210). In this case, the information from the transmitter 120 can be centrally managed by the management server C provided together with the receiver 220 at another location, and output to the illuminator 210 of each object B. Thus, the place where the receiver 220 is installed does not have to be gathered in one place as the entire apparatus, and the same applies to the components of the notification control means 230 and the operation apparatus 100 described below.

  The notification control means 230 shown in FIG. 2 controls the output of the notification medium by the output means 210 based on the object specifying information received by the receiver 220. In the present embodiment, the notification control means 230 is stored in the housing 214 of the illuminator 210. As with the operation control unit 130, the notification control unit 230 is a CPU that performs a central function of various controls, a ROM that stores programs executed by the CPU and various fixed data, and a temporary program that executes programs. It is composed of a microcomputer whose main part is a RAM or the like for storing necessary data.

  The notification control means 230 is programmed to execute the following control. That is, the notification control means 230 first determines whether or not the object specifying information received by the receiver 220 specifies the object B in which the receiver 220 and the notification control means 230 are located. When the object specifying information specifies the object B, the illuminator 210 as output means is driven based on this information to control the output of light (informing medium).

  The control of the illuminator 210 by the notification control means 230 can be considered not only to cause the LED, which is the light source 211, to emit light but also to various light output modes. For example, it is easier to confirm the light emission of the LED than the distant place by blinking rather than continuously lighting it for a predetermined time. Here, the light amount when the LED is lit is a light amount that can be visually recognized even on a day in fine weather. In addition, it is preferable to adjust the light source 211 at night so that there is no glare.

  Thus, the notification control means 230 is set so that the output form of the notification medium (light) by the output means 210 can be adjusted according to the type of the object B or the situation around the object B. For example, the notification control unit 230 detects the brightness (illuminance) around the object B, and if the brightness is equal to or higher than a predetermined value, the light emission intensity of the light source 211 is increased and the daylight is bright. On the other hand, if the brightness is less than a predetermined value, it is preferable to perform control so that the luminance of light emitted from the light source 211 is lowered.

<Operation of the position confirmation system 10>
Next, the operation of the position confirmation system 10 according to the present embodiment will be described.
As shown in FIG. 1, in the position confirmation system 10, an operation panel 110 that is a display unit of the operation device 100 is installed in a place with a good view such as an observation floor in a high-rise building of a sightseeing spot. In addition, an illuminator 210 that is an output unit of the notification device 200 is installed on a main object existing in a predetermined area A that can be seen from the installation location of the operation panel 110. As described above, the present system 10 is composed of the devices installed in the area A in a distributed manner.

  The operation panel 110 includes a touch panel type liquid crystal display screen 111. On this screen 111, as shown in FIG. 3, a list of a plurality of objects B in the area A is displayed as a name list. From the list displayed on the screen 111, the user touches and selects the name list of the object B that he / she wants to confirm. In this way, the operation panel 110 not only displays a list but also serves as an operation means using a touch panel, so that the user can easily and intuitively perform the operation.

  When one of the objects B is selected by the user, the operation signal is output from the operation panel 110 to the transmitter 120. Then, the transmitter 120 transmits the object specifying information related to the selected object B to the notification device 200 for each object B in the area A based on the operation signal from the operation panel 110. . Transmission of information from the transmitter 120 and display on the liquid crystal display screen 111 are controlled by the operation control means 130.

  Transmission / reception of information between the transmitter 120 and the receiver 220 installed for each object B is performed using LoRa which is one of LPWA that is wireless communication. According to LoRa, long-distance communication covering area A can be performed with low power consumption. Further, according to LoRa, since a radio station license is not required and a base station can be installed on its own, running costs such as communication costs can be reduced.

  The information received by the receiver 220 is determined by the notification control means 230 as to whether or not the information is object specifying information for specifying the object B on which the receiver 220 and the notification control means 230 are installed. Here, when the target object specifying information specifies the target object B, based on this information, the notification control means 230 drives the illuminator 210 to control the output of light (notification medium).

  That is, as shown in FIG. 6, the LED that is the light source 211 of the illuminator 210 is blinked, for example, for a few seconds toward the user who operated the operating device 100 to indicate the position of the selected object B. To do. The user can easily confirm the position of the desired object B by visually confirming the blinking of the LED through the area A which is a real space. Thus, when there is nothing to block between the user and the object B in the area A, the illuminator 210 can be directly irradiated with light toward the user. Therefore, the user can directly confirm the position of the object B by visually recognizing the irradiation light from the illuminator 210 at the position of the object B.

  Here, by controlling the light distribution of the LED to an ultra-narrow angle, the light of the LED cannot be seen as much as possible from the position on the user side where the operation panel 110 is located except in the vicinity thereof. In addition, by providing the light blocking cylinder 212 in front of the LED, it is possible to prevent extra light leakage to the surroundings other than the object B, and to prevent the person in the vicinity of the object B from feeling light emission of the LED. Note that the characteristics of the LED are low power consumption and long life, and it is possible to keep labor and power costs and facility costs for replacement, etc. at low cost.

  The light emission form of the LED can be adjusted by the notification control means 230 according to the type of the object B or the situation around the object B. Thus, by changing the light emission (output) form of light (informing medium), not only the position confirmation of the object B can be made easier, but also the position confirmation of other objects B can be distinguished. It becomes. Furthermore, the entertainment property which can be enjoyed by looking at the user can be enhanced. When the notification medium is light, the output (light emission) form may be changed as appropriate, such as brightness, chromaticity, or lighting or blinking.

  Specifically, for example, as described above, the notification control unit 230 detects the brightness (illuminance) around the object B, and if the brightness is equal to or greater than a predetermined value, the brightness of the LED emission is increased. The light emission can be discerned by the naked eye from a distant place even in a bright daytime. On the other hand, if the brightness is less than a predetermined value, such as on a rainy day or at night, the light emission brightness of the LED may be adjusted low.

  Regarding the blinking of the LED, a plurality of blinking patterns may be prepared in advance, and control may be performed so that the blinking pattern is selected according to the type of the object B or the situation around the object B. For example, if the brightness (illuminance) around the object B is greater than or equal to a predetermined value, a blinking pattern that repeats lighting and blinking at short intervals is used. If the brightness is less than a predetermined value, lighting and blinking are repeated at long intervals. A blinking pattern can be considered.

  In the case of a color LED that can be toned, it is preferable to perform control so that the emission color is selected according to the type of the object B or the situation around the object B. For example, when the object B is a World Heritage site, it is lit in red, and when it is a building other than that, it is lit in blue. Note that the type of the object B corresponds to, for example, a distinction between an artificial product, a natural product, a commercial facility, a world heritage, and the like. Further, the situation around the object B corresponds to, for example, ambient brightness, weather, season, time zone, and the like.

  Further, the selection of the light emission form of the LED may be selected by the user's own intention without leaving it only to the control of the notification control means 230. For example, when the user selects the object B on the operation panel 110, a blinking pattern, a light emission color, and the like can be arbitrarily selected. And lighting of LED is controlled by the light emission form chosen arbitrarily. As a result, even if the position of another object B is confirmed by another user at the same time in the same area A, the position confirmation of the object B selected by the user is performed in the output (light emission) form of the notification medium (light). It becomes possible to distinguish clearly based on the difference.

  Furthermore, the irradiation of light by the illuminator 210 may be applied to the object B itself rather than to the user, thereby making the object B stand out. For example, in addition to normal light-up, it is applicable to irradiate the object B itself with projection mapping. In particular, by irradiation with movement such as projection mapping, the visibility of the object B is further increased, and the position of the object B can be visually confirmed through the area A even more easily.

  If there is an obstacle between the user and the object B in the area A, the illuminator 210 may irradiate beam light or laser light from the object B toward the sky. As a result, if the desired object B can be seen from a place where the operation panel 110 is hidden behind other buildings or the like, the object B can be viewed at least over the vicinity of the object B. The position of the object B on the ground can be indirectly confirmed by relying on the beam light or laser beam extending above the sky.

  Note that the illuminator 210 is not provided for each object B. For example, in a place where there is no problem even if the influence of light is not taken into consideration, only one illuminator 210 is provided on the operation device 100 side. It is also conceivable that the position is suggested for each object B around by the vessel 210. For example, it is possible to irradiate the selected object B each time with a light beam or a laser beam from the illuminator 210 provided on the hill.

  In addition, when the position of the object B is suggested by the illuminator 210, it may be possible to assist the suggestion with the operation panel 110. That is, as shown in FIG. 7, an arrow is displayed as a mark indicating the direction of the selected object B on the operation panel 110. Here, the display of the arrow is controlled to indicate a certain direction of the object B with reference to a direction orthogonal to the screen when the area A is looked over from the position on the front surface of the liquid crystal display screen 111. An arrow in FIG. 7 indicates a direction in which the object B is surrounded by a dotted line in the area A.

  When the direction of the object B selected by the user is not known at all, it may be difficult to notice even if the LED 211 of the illuminator 210 flashes in one place with a wide field of view in the area A. Therefore, by displaying an arrow indicating the direction of the selected object B on the operation panel 110, the user's line of sight is guided in the direction of the arrow. Thus, the user can more easily confirm the position of the object B through the area A.

  The arrow may be displayed large on the liquid crystal display screen 111 alone. Alternatively, for example, a map may be displayed on the liquid crystal display screen 111 and an arrow indicating the object B may be displayed on the map. good. In addition, the mark indicating the direction of the object B by the operation panel 110 is not limited to the arrow, and other simple characters and symbols such as “center”, “left side”, and “right side” may be used. Etc.

  As another means for assisting the suggestion of the position of the object B, it is also conceivable to output voice guidance from a speaker attached to the operation panel 110 for guidance. As the voice here, for example, in addition to the suggestion of “near” or “far”, a simple message suggesting a direction direction such as “center”, “left side”, “right side”, or the like can be considered. Such display of arrows or the like on the operation panel 110 and output of voice guidance or the like can be realized by the control of the operation control means 130.

  Further, when the list of the objects B in the area A is not displayed on the operation panel 110, various other information can be displayed under the control of the operation control unit 130. Here, the various information corresponds to, for example, sightseeing guidance or event guidance. These information are displayed in order on the operation panel 110, and by displaying a message such as “Please touch the screen. You can confirm the location of the city facility”, etc., the user is encouraged to use the location confirmation system 10. be able to. In addition, the display of various types of information on the operation panel 110 not only facilitates the user, but also allows the operation panel 110 to be used more effectively as a tourist information board.

  The transmitter 120 of the operation device 100 is configured to transmit information not only to the receiver 220 of the notification device 200 but also to, for example, a management server C installed in a city hall, a tourism association, a travel agency, or the like. You may do it. Thereby, in the management server C, it becomes possible to store and manage the history and frequency of request for position confirmation for each object B by the user, and use it by making it a database. For example, it can be used for sightseeing guidance on the operation panel 110, such as increasing advertisements and promotions for the object B whose frequency of position confirmation is high.

<Use of smartphone>
As the operation device 100 of the position confirmation system 10, as described above, a mobile terminal such as a smartphone owned by the user may be used instead of the operation panel 110 prepared in advance on the observation floor or the like. An extension that adds a virtual image called an air tag related to the current location of a mobile terminal acquired from a server via a communication line to an image (real image) taken by a camera equipped with a recent mobile terminal Augmented Reality (AR) is being used.

  Therefore, by using dedicated application software (hereinafter referred to as “dedicated application”) using augmented reality technology, the mobile terminal 150 can be used as the operating device of the position confirmation system 10 as shown in FIG. Here, it is assumed that the mobile terminal 150 includes a display screen 151 and a camera and can use augmented reality technology. The display screen 151 serves as a display unit instead of the operation panel 110 described above. Of course, the operation panel 110 and the portable terminal 150 may be used together.

  The portable terminal 150 and a server (not shown) are connected via a communication line such as the Internet, and a dedicated application is installed in the portable terminal 150 in order to realize the position confirmation system 10. Here, it is preferable that the user can perform the installation at any time on the observation floor or the like. Alternatively, apart from the mobile terminal 150 owned by the user, a mobile terminal in which a dedicated application is installed in advance on the observation floor side may be prepared and lent to the user.

  As a basic hardware configuration, the portable terminal 150 includes a display screen 151 and a camera, a CPU that performs a central function of various controls, a ROM that stores programs executed by the CPU and various fixed data, and a program. RAM is provided for storing data temporarily required for executing the above. Furthermore, the mobile terminal 150 includes a communication unit for accessing a communication line such as the Internet, a GPS receiving unit, an electronic compass, and the like.

  When the user activates the dedicated application on the mobile terminal 150, the current position of the mobile terminal 150 is acquired by the GPS receiving unit, and the shooting direction in which the camera of the mobile terminal 150 faces is acquired by the electronic compass. The acquired current position and shooting direction are transmitted from the communication unit to the server via the communication line, and a list of objects B that can be seen from the area A corresponding to the current position and shooting direction is transmitted from the server to the portable terminal 150. .

  Then, on the display screen 151 of the portable terminal 150, as shown in FIG. 8, a list of the objects B that appear in the real image superimposed on the real image captured by the camera uses the augmented reality technology. Displayed. Here, the list is referred to as an air tag. For example, characters or figures (in FIG. 8) representing each object B are placed on the part of each object B that appears in the real image on the display screen 151. Then, the balloon characters) are additionally displayed in the list.

  The user can arbitrarily select the target object B by selecting and touching the air tag indicating the target object B whose position is to be confirmed from the list (air tag) displayed on the display screen 151. it can. When the object B is thus selected, the selected information is transmitted from the communication unit to the receiver 220 of the notification device 200 described above via a communication line or a server.

  In the position confirmation system 10 including the mobile terminal 150 and the server, the display screen 151 corresponds to display means for displaying any one of the predetermined objects B so as to be selectable. In addition, the communication unit corresponds to a transmission unit that transmits information regarding the object B selected on the display screen 151. Furthermore, the CPU and server of the mobile terminal 150 that executes the dedicated application correspond to operation control means for controlling display on the display screen 151 and transmission by the transmission unit.

  The user can use the mobile terminal 150 as an operation device of the position confirmation system 10 by downloading a dedicated application to his / her mobile terminal 150. The position of the object B selected by the portable terminal 150 is suggested in the area A that is a real space by the notification device 200, as in the case of the operation using the operation panel 110 described above. Therefore, the user can easily confirm the position of the desired object B through the area A that is a real space by a simple operation using the mobile terminal 150.

  The user can specify the position of the object B to some extent on the display screen 151 of the portable terminal 150 by displaying the air tag using augmented reality technology. However, the display screen 151 is not only difficult to understand if it is a small and fine image, but an error in the sense of distance with respect to the object B tends to occur. Therefore, the display on the display screen 151 is an auxiliary role for position confirmation, and it is important that the actual position of the object B is suggested through the area A by the notification device 200.

  Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to the above-described embodiments, and there are changes and additions within the scope not departing from the gist of the present invention. Are also included in the present invention. For example, the suggestion of the position of the object B by the output means is not limited to the irradiation light from the illuminator 210, but for example, a light that can be visually recognized by the naked eye, a three-dimensional image by a holographic technique, water vapor, and a stage Smoke or the like used for the effect, or sound that can be confirmed by hearing, may be sound such as guidance for guiding the position, or a sound effect or electronic sound for simply indicating the output position of the sound.

  Further, transmission / reception of information between the transmitter 120 and the receiver 220 is not limited to LPWA LoRa, and various other wireless communication methods may be employed. Furthermore, the present invention is not limited to wireless communication, and may be configured to transmit via a wired cable such as an optical fiber.

  The position confirmation system according to the present invention is widely used not only for confirming the location of tourist-guided facilities, etc. at an observation deck of a tourist spot, but also for confirming the location of attractions such as amusement parks and zoos. can do.

A ... Area B ... Object C ... Management server 10 ... Position confirmation system 100 ... Operation device 110 ... Operation panel 111 ... Liquid crystal display screen 120 ... Transmitter 130 ... Operation control means 150 ... Mobile terminal (smart phone)
151 ... Display screen 200 ... Notification device 210 ... Illuminator 211 ... Light source (LED)
212 ... Shading cylinder 213 ... Post 214 ... Housing 220 ... Receiver 230 ... Notification control means

Claims (9)

A position confirmation system for assisting position confirmation of an object existing in a predetermined area from a certain place,
An operation device that allows a user to select an object whose position is desired;
A notification device that suggests the position of each object through the area to the user,
The position confirmation system characterized in that a position of an object selected by the operation device is suggested through an area by the notification device. The operating device includes: a display unit that displays one of predetermined objects in a selectable manner; a transmission unit that transmits information about the object selected by the display unit; the display by the display unit; Operation control means for controlling transmission by the transmission means,
The notification device includes: a reception unit that receives information from the transmission unit; an output unit that outputs a notification medium that suggests the position of each object to a user through an area; and the information received by the reception unit. The position confirmation system according to claim 1, further comprising notification control means for controlling output of the notification medium by the output means. The operation device comprises an operation panel prepared as a place for overlooking the ground and / or the sky of the area as the display means,
The position confirmation system according to claim 2, wherein a list of objects in the area is displayed on the operation panel, and the objects can be selected from the list.   The position confirmation system according to claim 3, wherein when the position of the object is suggested by the notification device on the operation panel, a mark indicating the direction of the object is displayed.   5. The position confirmation system according to claim 3, wherein when the list of objects in the area is not displayed on the operation panel, other various types of information can be displayed. The operating device has a display screen and a camera, and includes a mobile terminal capable of using augmented reality technology,
The display screen becomes the display means,
On the display screen, a list of objects to be reflected in the real image is displayed using the augmented reality technology on the real image captured by the camera, and the object can be selected from the list The position confirmation system according to claim 2, wherein:   The position confirmation according to claim 2, 3, 4, 5 or 6, wherein the output form of the notification medium by the output means can be adjusted according to the type of the object or the situation around the object. system.   The said output means is provided for every target object, and irradiates the light which a user can visually recognize as said alerting | reporting medium from each target object, The Claim 2, 3, 4, 5 or 6 characterized by the above-mentioned. The location confirmation system described. The output means irradiates light directly from each object toward the user,
The position confirmation system according to claim 8, further comprising an LED as a light source that emits light having high directivity.