GUIDE DISPLAY CONTROL APPARATUS, GUIDE DISPLAY CONTROL METHOD, AND ROUTE GUIDING SYSTEM

A guide display control apparatus includes: a detection signal obtaining unit to obtain a detection signal including identification information of a facility user who has entered a monitoring area from an approach detector that detects entry of the facility user into the monitoring area; a schedule obtaining unit to obtain a schedule indicating a visit order to a plurality of destinations, the schedule being associated with the identification information included in the detection signal obtained; a next destination specifying unit to specify a next destination in the visit order among destinations that the facility user has not visited yet in the plurality of destinations on the basis of the schedule obtained; and a display data generating unit to search for a route from the monitoring area to the next destination specified by the next destination specifying unit and generate display data for displaying a guide diagram of the route.

TECHNICAL FIELD

The present disclosure relates to a guide display control apparatus, a guide display control method, and a route guiding system.

BACKGROUND ART

As a technology for guiding a facility user who holds a mobile terminal until the facility user reaches a destination in the facility, there is a guide apparatus disclosed in Patent Literature 1. As guidance about a route to a destination, the guide apparatus projects an arrow indicating a direction in which the facility user should proceed on a floor surface of the facility at a branch point in the middle of the route to the destination.

CITATION LIST

Patent Literatures

Patent Literature 1: JP 2007-147300 A

SUMMARY OF INVENTION

Technical Problem

In the guide apparatus disclosed in Patent Literature 1, when there is a plurality of destinations to be visited by one facility user in a certain facility (hereinafter, such destinations are simply referred to as “a plurality of destinations”) and a visit order to the plurality of destinations is determined, routes to the destinations are not shown in the visit order. Therefore, in the guide apparatus, there is a problem that when there is a plurality of destinations whose visit order is determined, one facility user who should visit the destinations may not be able to visit the destinations in the visit order.

The present disclosure has been made to solve the above problem, and an object thereof is to provide a guide display control apparatus and a guide display control method capable of showing a route to each of a plurality of destinations in a visit order.

Solution to Problem

A guide display control apparatus according to the present disclosure includes: detection signal obtaining circuitry to obtain a detection signal including identification information of a facility user who has entered one of monitoring areas in each of which a corresponding one of approach detectors is installed, from one of the approach detectors each of which is to detect entry of the facility user into a corresponding one of the monitoring areas, the approach detectors having respective device numbers different from each other, the detection signal further including one of the device numbers, the one of the approach detectors which has detected entry of the facility user having the one of the device numbers; schedule obtaining circuitry to obtain a schedule indicating a visit order to destinations, the schedule being associated with the identification information included in the detection signal obtained by the detection signal obtaining circuitry; next destination specifying circuitry to specify a next destination in the visit order among at least one of the destinations that has not been visited by the facility user yet on a basis of the schedule obtained by the schedule obtaining circuitry, progress status of the schedule stored in an internal memory, and the one of the device numbers which is included in the detection signal obtained by the detection signal obtaining circuitry, and to update the progress status in such a way as to indicate that a destination before the specified destination in the visit order has been visited; and display data generating circuitry to search for a route from the one of the monitoring areas to the next destination specified by the next destination specifying circuitry and generate display data for displaying a guide diagram of the route, the one of the monitoring areas being a detection target of the one of the approach detectors which has the one of the device numbers which is included in the detection signal obtained by the detection signal obtaining circuitry.

Advantageous Effects of Invention

According to the present disclosure, it is possible to show routes to a plurality of destinations in a visit order.

DESCRIPTION OF EMBODIMENTS

Hereinafter, in order to describe the present disclosure in more detail, modes for carrying out the present disclosure will be described with reference to the accompanying drawings.

First Embodiment

FIG.1is a configuration diagram illustrating a route guiding system according to a first embodiment.

The route guiding system illustrated inFIG.1includes a guide apparatus1and a guide display control apparatus2.

The guide apparatus1includes an approach detector11and a display device12.

The guide apparatus1performs entry detection processing of detecting entry of a facility user into a monitoring area. The monitoring area is an area where the guide apparatus1monitors the entrance of the facility user, and is, for example, an area including a branch point in the facility. Specifically, it is an area including an intersection where passages in the facility intersect. The facility here is not limited to a facility in one building, and includes a composite facility in which a plurality of buildings is present in the same site.

The guide apparatus1receives a radio wave or the like including identification information of the facility user from a possessed object of the facility user who has entered the monitoring area, and outputs a detection signal including the identification information to the guide display control apparatus2.

The guide apparatus1displays a guide diagram of a route in accordance with display data output from the guide display control apparatus2.

The possessed object of the facility user includes a radio frequency identification (RFID) tag or a mobile terminal.

The approach detector11is implemented by, for example, a receiver and a transmitter.

When the possessed object of the facility user is, for example, an RFID tag, the approach detector11receives a radio wave transmitted from the RFID tag when the facility user enters the monitoring area and it becomes possible to receive the radio wave. The radio wave includes the identification information of the facility user.

When the possessed object of the facility user is, for example, a mobile terminal, the approach detector11receives a radio wave of a near field communication system transmitted from the mobile terminal when the facility user enters the monitoring area and it becomes possible to receive the radio wave. The radio wave includes the identification information of the facility user.

When the approach detector11can receive the radio wave transmitted from the possessed object of the facility user, the approach detector11determines that the facility user has entered the monitoring area, and outputs a detection signal including the identification information of the facility user to the guide display control apparatus2.

Since a plurality of guide apparatuses1is installed in the facility, the detection signal output from the approach detector11includes a device number indicating the guide apparatus1to which the approach detector11belongs in addition to the identification information of the facility user.

In the route guiding system illustrated inFIG.1, the approach detector11receives a radio wave including the identification information of the facility user from the possessed object of the facility user, and outputs a detection signal including the identification information included in the radio wave to the guide display control apparatus2. However, this is merely an example, and the approach detector11includes a camera that captures an image of the face of the facility user, and specifies the facility user by performing face authentication processing of the facility user on the basis of the image captured by the camera. Then, the approach detector11may output a detection signal including the identification information of the specified facility user to the guide display control apparatus2.

The display device12displays the guide diagram in accordance with the display data output from the guide display control apparatus2.

That is, the display device12includes a projection device12a, and the projection device12aprojects the guide diagram on a floor surface or the like of the monitoring area in accordance with the display data output from the guide display control apparatus2.

FIG.2is a configuration diagram illustrating the guide display control apparatus2according to the first embodiment.

FIG.3is a hardware configuration diagram illustrating hardware of the guide display control apparatus2according to the first embodiment.

The guide display control apparatus2illustrated inFIG.2includes a database unit21, a detection signal obtaining unit22, a schedule obtaining unit23, a next destination specifying unit24, and a display data generating unit25.

The database unit21is implemented by, for example, a storage circuit31illustrated inFIG.3.

The database unit21includes a user information storage unit21a, a facility information storage unit21b, and an icon storage unit21c.

Pieces of identification information of a plurality of facility users are registered in the user information storage unit21a.

The user information storage unit21astores schedules associated with the respective pieces of identification information. The schedule is information indicating the visit order to a plurality of destinations.

In a case where the facility is, for example, a hospital, the facility information storage unit21bstores map data indicating each of the positions of a plurality of visiting departments of the hospital and passages in the hospital.

If the facility is, for example, a shopping mall, the facility information storage unit21bstores map data indicating each of the positions of a plurality of stores of the shopping mall and passages in the shopping mall.

In a case where the facility is, for example, an airport, the facility information storage unit21bstores map data indicating each of the positions of check-in counters, baggage inspection areas, boarding gates, stores, banks, and the like of the airport, and passages in the airport.

The icon storage unit21cstores an arrow icon or the like to be used for generating a guide diagram.

The detection signal obtaining unit22is implemented by, for example, a detection signal obtaining circuit32illustrated inFIG.3.

The detection signal obtaining unit22obtains a detection signal output from the approach detector11of the guide apparatus1.

The detection signal obtaining unit22outputs the identification information included in the detection signal to the schedule obtaining unit23, and outputs the device number included in the detection signal to the display data generating unit25.

The schedule obtaining unit23is implemented by, for example, a schedule obtaining circuit33illustrated inFIG.3.

The schedule obtaining unit23obtains identification information from the detection signal obtaining unit22.

The schedule obtaining unit23obtains a schedule associated with the identification information from the user information storage unit21a.

The schedule obtaining unit23outputs the schedule to the next destination specifying unit24.

The next destination specifying unit24is implemented by, for example, a next destination specifying circuit34shown inFIG.3.

The next destination specifying unit24obtains a schedule from the schedule obtaining unit23.

On the basis of the schedule, the next destination specifying unit24specifies the next destination in the visit order among destinations that the facility user has not visited yet in a plurality of destinations.

The next destination specifying unit24outputs destination information indicating the specified next destination to the display data generating unit25.

The display data generating unit25is implemented by, for example, a display data generating circuit35illustrated inFIG.3.

The display data generating unit25obtains destination information from the next destination specifying unit24, and obtains a device number from the detection signal obtaining unit22.

By referring to the map data stored in the facility information storage unit21b, the display data generating unit25searches for a route from the monitoring area of the guide apparatus1indicated by the device number to the next destination indicated by the destination information. An internal memory of the display data generating unit25stores the position of the monitoring area indicated by the device number.

On the basis of the route search result, the display data generating unit25generates display data for displaying a guide diagram of a route to the next destination using an icon stored in the icon storage unit21c.

InFIG.2, it is assumed that each of the database unit21, the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, and the display data generating unit25, which are components of the guide display control apparatus2, is implemented by dedicated hardware as illustrated inFIG.3. That is, it is assumed that the guide display control apparatus2is implemented by the storage circuit31, the detection signal obtaining circuit32, the schedule obtaining circuit33, the next destination specifying circuit34, and the display data generating circuit35.

Here, the storage circuit31corresponds to, for example, a nonvolatile or volatile semiconductor memory such as a random access memory (RAM), a read only memory (ROM), a flash memory, an erasable programmable read only memory (EPROM), or an electrically erasable programmable read only memory (EEPROM), a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, or a digital versatile disc (DVD).

Further, each of the detection signal obtaining circuit32, the schedule obtaining circuit33, the next destination specifying circuit34, and the display data generating circuit35corresponds to, for example, a single circuit, a composite circuit, a programmed processor, a parallel-programmed processor, an application specific integrated circuit (ASIC), a field-programmable gate array (FPGA), or a combination thereof.

The components of the guide display control apparatus2are not limited to those implemented by dedicated hardware, and the guide display control apparatus2may be implemented by software, firmware, or a combination of software and firmware.

The software or firmware is stored in a memory of a computer as a program. The computer means hardware that executes a program, and corresponds to, for example, a central processing unit (CPU), a central processing device, a processing device, an arithmetic device, a microprocessor, a microcomputer, a processor, or a digital signal processor (DSP).

FIG.4is a hardware configuration diagram of a computer in a case where the guide display control apparatus2is implemented by software, firmware, or the like.

When the guide display control apparatus2is implemented by software, firmware, or the like, the database unit21is formed on a memory41of the computer. A program for causing the computer to execute each processing procedure performed in the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, and the display data generating unit25is stored in the memory41. Then, a processor42of the computer executes the program stored in the memory41.

Further,FIG.3illustrates an example in which each of the components of the guide display control apparatus2is implemented by dedicated hardware, andFIG.4illustrates an example in which the guide display control apparatus2is implemented by software, firmware, or the like. However, this is merely an example, and some components in the guide display control apparatus2may be implemented by dedicated hardware, and the remaining components may be implemented by software, firmware, or the like.

Next, the operation of the route guiding system illustrated inFIG.1will be described.

FIG.5is a flowchart illustrating a guide display control method which is a processing procedure performed in the guide display control apparatus2.

In the route guiding system illustrated inFIG.1, an example will be described in which a user of a facility is, for example, a facility user U1, identification information of the facility user U1 is U1-12345, and a facility which the facility user U1 uses is an airport.

In the route guiding system illustrated inFIG.1, an example will be described in which a schedule indicating that the visit order in the airport of the facility user U1 is the order of a check-in counter, a bank, a baggage inspection area, and a boarding gate is stored in the user information storage unit21a.

The guide apparatus1is installed, for example, in the vicinity of an entrance of an airport terminal building. Further, the guide apparatus1is installed at a branch point of a passage to each destination, in the vicinity of an entrance or exit of each destination, or the like.

For example, the approach detector11of the guide apparatus1whose monitoring area is the vicinity of the entrance of the airport terminal building receives a radio wave transmitted from an RFID tag or the like owned by the facility user U1 when the facility user U1 enters the monitoring area.

Upon receiving the radio wave transmitted from the RFID tag or the like, the approach detector11determines that the facility user U1 has entered the monitoring area, and obtains the identification information “U1-12345” of the facility user U1 included in the received radio wave.

The approach detector11outputs a detection signal including the identification information “U1-12345” of the facility user U1 and the device number indicating the guide apparatus1to which the approach detector belongs to the guide display control apparatus2.

For example, the approach detector11belonging to the guide apparatus1whose monitoring area is the vicinity of an entrance of the airport terminal building outputs a detection signal including a device number “A001” to the guide display control apparatus2.

For example, the approach detector11belonging to the guide apparatus1whose monitoring area is the vicinity of a check-in counter outputs a detection signal including a device number “A002” to the guide display control apparatus2.

For example, the approach detector11belonging to the guide apparatus1whose monitoring area is the vicinity of a bank outputs a detection signal including a device number “A003” to the guide display control apparatus2.

For example, the approach detector11belonging to the guide apparatus1whose monitoring area is the vicinity of a baggage inspection area outputs a detection signal including a device number “A004” to the guide display control apparatus2.

For example, the approach detector11belonging to the guide apparatus1whose monitoring area is the vicinity of a boarding gate outputs a detection signal including a device number “A005” to the guide display control apparatus2.

The approach detector11belonging to the guide apparatus1whose monitoring area is a branch point of the passage to each destination outputs a detection signal including a device number different from the above “A001” to “A005” to the guide display control apparatus2.

The detection signal obtaining unit22of the guide display control apparatus2obtains a detection signal from the approach detector11of the guide apparatus1(step ST1inFIG.5).

The detection signal obtaining unit22outputs the identification information “U1-12345” included in the detection signal to the schedule obtaining unit23, and outputs the device number included in the detection signal to each of the schedule obtaining unit23and the display data generating unit25.

The schedule obtaining unit23obtains each of the identification information “U1-12345” and the device number from the detection signal obtaining unit22.

The schedule obtaining unit23obtains a schedule associated with the identification information “U1-12345” from the user information storage unit21a(step ST2inFIG.5).

The schedule obtaining unit23outputs each of the schedule and the device number to the next destination specifying unit24.

The next destination specifying unit24obtains each of the schedule and the device number from the schedule obtaining unit23.

On the basis of the schedule, the next destination specifying unit24specifies the next destination in the visit order among destinations that the facility user U1 has not visited yet in the plurality of destinations (step ST3inFIG.5).

In an internal memory of the next destination specifying unit24, the progress status of the schedule associated with the identification information “U1-12345” is stored. Under a situation where the device number is “A001” and the facility user U1 has not visited any destination yet, a progress status indicating that the facility user U1 has not visited any destination is stored in the internal memory. When the progress status stored in the internal memory indicates that the user has not visited any destination, the next destination specifying unit24specifies a check-in counter as the next destination, the check-in counter being the first destination in the visit order.

When the device number is “A002”, the facility user U1 has already visited the check-in counter. Thus, the next destination specifying unit24updates the progress status stored in the internal memory in such a way as to indicate that the check-in counter has been visited. In this case, the next destination specifying unit24specifies, as the next destination, a bank which is the second destination in the visit order.

When the device number is “A003”, the facility user U1 has already visited the bank. Thus, the next destination specifying unit24updates the progress status stored in the internal memory in such a way as to indicate that each of the check-in counter and the bank has been visited. In this case, the next destination specifying unit24specifies, as the next destination, a baggage inspection area which is the third destination in the visit order.

When the device number is “A004”, the facility user U1 has already visited the baggage inspection area. Thus, the next destination specifying unit24updates the progress status stored in the internal memory in such a way as to indicate that each of the check-in counter, the bank, and the baggage inspection area has been visited. In this case, the next destination specifying unit24specifies, as the next destination, a boarding gate which is the fourth destination in the visit order.

The next destination specifying unit24outputs destination information indicating the specified next destination to the display data generating unit25.

The display data generating unit25obtains destination information from the next destination specifying unit24, and obtains a device number from the detection signal obtaining unit22.

By referring to the map data stored in the facility information storage unit21b, the display data generating unit25searches for a route from the monitoring area of the guide apparatus1indicated by the device number to the next destination indicated by the destination information (step ST4inFIG.5).

For example, when the device number is “A001” and the next destination is the check-in counter, the display data generating unit25searches for a route from the vicinity of the entrance of the airport terminal building to the check-in counter.

For example, when the device number is “A002” and the next destination is a bank, the display data generating unit25searches for a route from the check-in counter to the bank.

For example, when the device number is “A003” and the next destination is the baggage inspection area, the display data generating unit25searches for a route from the bank to the baggage inspection area.

For example, when the device number is “A004” and the next destination is the boarding gate, the display data generating unit25searches for a route from the baggage inspection area to the boarding gate.

FIG.6is an explanatory diagram illustrating an example of icons stored in the icon storage unit21c.

The icon illustrated inFIG.6is an arrow icon indicating a route to the destination.

On the basis of the route search result, the display data generating unit25generates display data for displaying a guide diagram of a route to the next destination using the icon stored in the icon storage unit21c(step ST5inFIG.5).

For example, when the device number is “A001” and the direction of the route from the vicinity of the entrance of the airport terminal building to the check-in counter is, for example, a straight ahead direction, the display data generating unit25selects an arrow icon whose arrow direction indicates the straight ahead direction (hereinafter referred to as a “straight arrow icon”) from among a plurality of arrow icons stored in the icon storage unit21c. The display data generating unit25generates display data for displaying a guide diagram of the route using the straight arrow icon.

For example, when the device number is “A002” and the direction of the route from the check-in counter to the bank is, for example, a right turn direction, the display data generating unit25selects an arrow icon whose arrow direction indicates the right turn direction (hereinafter referred to as a “right turn arrow icon”) from among the plurality of arrow icons stored in the icon storage unit21c. The display data generating unit25generates display data for displaying a guide diagram of the route using the right turn arrow icon.

For example, when the device number is “A003” and the direction of the route from the bank to the baggage inspection area is, for example, a left turn direction, the display data generating unit25selects an arrow icon whose arrow direction indicates the left turn direction (hereinafter referred to as a “left turn arrow icon”) from among the plurality of arrow icons stored in the icon storage unit21c. The display data generating unit25generates display data for displaying a guide diagram of the route using the left turn arrow icon.

For example, when the device number is “A004” and the direction of the route from the baggage inspection area to the boarding gate is, for example, a straight ahead direction, the display data generating unit25selects the straight arrow icon from among the plurality of arrow icons stored in the icon storage unit21c. The display data generating unit25generates display data for displaying a guide diagram of the route using the straight arrow icon.

FIG.7is an explanatory diagram illustrating an example of a guide diagram.

In the example ofFIG.7, the monitoring area is the check-in counter, and a guide diagram of a route from the check-in counter to the bank is illustrated.

The projection device12aobtains display data from the display data generating unit25.

As illustrated inFIG.7, the projection device12aprojects the guide diagram onto a floor surface or the like of the monitoring area in accordance with the display data.

The facility user U1 can see the route to the next destination by looking at the guide diagram projected on the floor surface or the like of the monitoring area.

In the first embodiment described above, the guide display control apparatus2includes: the detection signal obtaining unit22to obtain a detection signal including identification information of a facility user who has entered one of the monitoring areas from one of the approach detectors11that detects entry of the facility user into the one of the monitoring areas; the schedule obtaining unit23to obtain a schedule indicating a visit order to destinations, the schedule being associated with the identification information included in the detection signal obtained by the detection signal obtaining unit22; the next destination specifying unit24to specify a next destination in the visit order among at least one of the destinations that has not been visited by the facility user yet on the basis of the schedule obtained by the schedule obtaining unit23; and the display data generating unit25to search for a route from the one of the monitoring areas to the next destination specified by the next destination specifying unit24and generate display data for displaying a guide diagram of the route. Therefore, the guide display control apparatus2can show the route to each of the plurality of destinations in the visit order.

Second Embodiment

In a second embodiment, a guide display control apparatus2in which a display data generating unit26generates display data for displaying a guide diagram including an icon representing a facility user will be described.

The configuration of a route guiding system according to the second embodiment is similar to the configuration of the route guiding system according to the first embodiment, and a configuration diagram illustrating the route guiding system according to the second embodiment isFIG.1.

FIG.8is a configuration diagram illustrating the guide display control apparatus2according to the second embodiment.

FIG.9is a hardware configuration diagram illustrating hardware of the guide display control apparatus2according to the second embodiment.

The guide display control apparatus2illustrated inFIG.8includes the database unit21, the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, and the display data generating unit26.

The database unit21includes a user information storage unit21d, the facility information storage unit21b, and the icon storage unit21c.

As in the user information storage unit21aillustrated inFIG.2, pieces of identification information of a plurality of facility users are registered in the user information storage unit21d.

The user information storage unit21dstores not only schedules associated with the respective pieces of identification information but also icons which represent the facility users and which are associated with the respective pieces of identification information.

The icon representing the facility user includes a number representing the facility user, a nickname of the facility user, a character image representing the facility user, or a moving image representing the facility user.

FIG.10is an explanatory diagram illustrating an example of the icon representing the facility user.

FIG.10illustrates an example of icons associated with the identification information “U1-12345”, “U2-34567”, and “U3-78903”.

An icon (1) is an icon of a number representing the facility user, and an icon (2) is an icon of a nickname of the facility user. An icon (3) is an icon of a character image representing the facility user, and an icon (4) is an icon of a moving image representing the facility user. Although a specific example of the icon of the moving image is not illustrated, any moving image may be used as long as the moving image is different for each facility user.

The display data generating unit26is implemented by, for example, a display data generating circuit36illustrated inFIG.9.

The display data generating unit26obtains destination information from the next destination specifying unit24, and obtains a detection signal from the detection signal obtaining unit22.

By referring to the map data stored in the facility information storage unit21b, the display data generating unit26searches for a route from the monitoring area of the guide apparatus1indicated by the device number included in the detection signal to the next destination indicated by the destination information. An internal memory of the display data generating unit26stores the position of the monitoring area indicated by the device number.

On the basis of the route search result, the display data generating unit26generates display data for displaying a guide diagram of a route to the next destination using the icon stored in the icon storage unit21c, as does the display data generating unit25illustrated inFIG.2.

InFIG.8, it is assumed that each of the database unit21, the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, and the display data generating unit26, which are components of the guide display control apparatus2, is implemented by dedicated hardware as illustrated inFIG.9. That is, it is assumed that the guide display control apparatus2is implemented by the storage circuit31, the detection signal obtaining circuit32, the schedule obtaining circuit33, the next destination specifying circuit34, and the display data generating circuit36.

Each of the detection signal obtaining circuit32, the schedule obtaining circuit33, the next destination specifying circuit34, and the display data generating circuit36corresponds to, for example, a single circuit, a composite circuit, a programmed processor, a parallel-programmed processor, an ASIC, an FPGA, or a combination thereof.

The components of the guide display control apparatus2are not limited to those implemented by dedicated hardware, and the guide display control apparatus2may be implemented by software, firmware, or a combination of software and firmware.

When the guide display control apparatus2is implemented by software, firmware, or the like, the database unit21is formed on the memory41of the computer. A program for causing the computer to execute each processing procedure performed in the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, and the display data generating unit26is stored in the memory41illustrated inFIG.4. Then, the processor42illustrated inFIG.4executes the program stored in the memory41.

Further,FIG.9illustrates an example in which each of the components of the guide display control apparatus2is implemented by dedicated hardware, andFIG.4illustrates an example in which the guide display control apparatus2is implemented by software, firmware, or the like. However, this is merely an example, and some components in the guide display control apparatus2may be implemented by dedicated hardware, and the remaining components may be implemented by software, firmware, or the like.

Next, the operation of the guide display control apparatus2illustrated inFIG.8will be described. It is substantially similar to that of the guide display control apparatus2illustrated inFIG.2except for the display data generating unit26, and thus the operation of the display data generating unit26will be mainly described here.

In the guide display control apparatus2illustrated inFIG.8, what is output from the detection signal obtaining unit22to the display data generating unit26is not the device number but the detection signal including both the identification information and the device number.

The display data generating unit26obtains destination information from the next destination specifying unit24, and obtains the detection signal from the detection signal obtaining unit22.

By referring to the map data stored in the facility information storage unit21b, the display data generating unit26searches for a route from the monitoring area of the guide apparatus1indicated by the device number included in the detection signal to the next destination indicated by the destination information.

On the basis of the route search result, the display data generating unit26generates display data for displaying a guide diagram of a route to the next destination using the icon stored in the icon storage unit21c, as does the display data generating unit25illustrated inFIG.2.

However, unlike the display data generating unit25illustrated inFIG.2, the display data generating unit26generates display data for displaying a guide diagram including an icon representing the facility user.

For example, when the device number is “A002” and the direction of a route from a check-in counter to a bank is, for example, a right turn direction, the display data generating unit26selects the right turn arrow icon from the plurality of arrow icons stored in the icon storage unit21c. Further, when the identification information is “U1-12345”, one or more icons associated with the identification information “U1-12345” are selected from the icons (1) to (4) stored in the user information storage unit21d.

The display data generating unit26generates display data for displaying a guide diagram as illustrated inFIG.11using the right turn arrow icon and the one or more icons associated with the identification information “U1-12345”.

FIG.11is an explanatory diagram illustrating an example of a guide diagram.

In the example ofFIG.11, the identification information is “U1-12345”, the monitoring area is the check-in counter, and a guide diagram of the route from the check-in counter to the bank is illustrated.

The guide diagram illustrated inFIG.11illustrates an example in which each of the icon (2) and the icon (3) is used.

For example, when the device number is “A004” and the direction of a route from a baggage inspection area to a boarding gate is, for example, a straight ahead direction, the display data generating unit26selects the straight arrow icon from the plurality of arrow icons stored in the icon storage unit21c. Further, when the identification information is “U2-34567”, one or more icons associated with the identification information “U2-34567” are selected from the icons (1) to (4) stored in the user information storage unit21d.

The display data generating unit26generates display data for displaying a guide diagram as illustrated inFIG.12using the straight arrow icon and the one or more icons associated with the identification information “U2-34567”.

FIG.12is an explanatory diagram illustrating an example of a guide diagram.

In the example ofFIG.12, the identification information is “U2-34567”, the monitoring area is the baggage inspection area, and a guide diagram of the route from the baggage inspection area to the boarding gate is illustrated.

The guide diagram illustrated inFIG.12illustrates an example in which each of the icon (2) and the icon (3) is used.

The projection device12aobtains display data from the display data generating unit26.

As illustrated inFIG.11or12, the projection device12aprojects the guide diagram onto a floor surface or the like of the monitoring area in accordance with the display data.

The facility user can see the route to the next destination by looking at the guide diagram projected on the floor surface or the like of the monitoring area.

In the second embodiment described above, the guide display control apparatus2illustrated inFIG.8is configured in such a way that the display data generating unit26obtains the icon representing the facility user who has entered the monitoring area, and generates the display data for displaying the guide diagram including the icon, the icon being associated with the identification information included in the detection signal obtained by the detection signal obtaining unit22. Therefore, as is the guide display control apparatus2illustrated inFIG.2, the guide display control apparatus2illustrated inFIG.8is capable of showing the route to each of the plurality of destinations in the visit order, and enables the facility user to recognize to whom the guide diagram being displayed is addressed without displaying the personal information of the facility user.

Third Embodiment

In a third embodiment, a guide display control apparatus2including an associating unit27that obtains identification information of a facility user and a schedule indicating a visit order to a plurality of destinations, and associates the obtained identification information with the obtained schedule will be described.

FIG.13is a configuration diagram illustrating a route guiding system according to the third embodiment.

The route guiding system illustrated inFIG.13includes the guide apparatus1and the guide display control apparatus2.

The guide apparatus1includes the approach detector11, the display device12, and a man-machine interface unit13.

The man-machine interface unit13is implemented by a keyboard, a mouse, a touch panel, or the like.

The man-machine interface unit13receives a setting operation of a schedule indicating a visit order to a plurality of destinations by the facility user, and outputs schedule information indicating the schedule to the approach detector11.

When the schedule information is output from the man-machine interface unit13, the approach detector11outputs a detection signal including the identification information of the facility user and the schedule information to the guide display control apparatus2. The detection signal obtaining unit22of the guide display control apparatus2obtains the detection signal output from the approach detector11. When the detection signal includes each of the identification information and the schedule information, the detection signal obtaining unit22outputs each of the identification information and the schedule information to the associating unit27.

FIG.14is a configuration diagram illustrating the guide display control apparatus2according to the third embodiment.

FIG.15is a hardware configuration diagram illustrating hardware of the guide display control apparatus2according to the third embodiment.

InFIGS.14and15, the same reference numerals as those inFIGS.2and3denote the same or corresponding components, and thus description thereof is omitted.

The guide display control apparatus2illustrated inFIG.14includes the database unit21, the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, the display data generating unit25, and the associating unit27.

The associating unit27obtains each of the identification information and the schedule information from the detection signal obtaining unit22.

The associating unit27stores each of the identification information and the schedule information in the user information storage unit21a.

In the guide display control apparatus2illustrated inFIG.14, the associating unit27is applied to the guide display control apparatus2illustrated inFIG.2. However, this is merely an example, and the associating unit27may be applied to the guide display control apparatus2illustrated inFIG.8.

InFIG.14, it is assumed that each of the database unit21, the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, the display data generating unit25, and the associating unit27, which are components of the guide display control apparatus2, is implemented by dedicated hardware as illustrated inFIG.15. That is, it is assumed that the guide display control apparatus2is implemented by the storage circuit31, the detection signal obtaining circuit32, the schedule obtaining circuit33, the next destination specifying circuit34, the display data generating circuit35, and the associating circuit37.

Each of the detection signal obtaining circuit32, the schedule obtaining circuit33, the next destination specifying circuit34, the display data generating circuit35, and the associating circuit37corresponds to, for example, a single circuit, a composite circuit, a programmed processor, a parallel-programmed processor, an ASIC, an FPGA, or a combination thereof.

The components of the guide display control apparatus2are not limited to those implemented by dedicated hardware, and the guide display control apparatus2may be implemented by software, firmware, or a combination of software and firmware.

When the guide display control apparatus2is implemented by software, firmware, or the like, the database unit21is formed on the memory41of the computer. A program for causing the computer to execute each processing procedure in the detection signal obtaining unit22, the schedule obtaining unit23, the next destination specifying unit24, the display data generating unit25, and the associating unit27is stored in the memory41illustrated inFIG.4. Then, the processor42illustrated inFIG.4executes the program stored in the memory41.

Further,FIG.15illustrates an example in which each of the components of the guide display control apparatus2is implemented by dedicated hardware, andFIG.4illustrates an example in which the guide display control apparatus2is implemented by software, firmware, or the like. However, this is merely an example, and some components in the guide display control apparatus2may be implemented by dedicated hardware, and the remaining components may be implemented by software, firmware, or the like.

Next, the operation of the route guiding system illustrated inFIG.13will be described. It is similar to that of the route guiding system illustrated inFIG.1except for the man-machine interface unit13and the associating unit27, and thus the operation of the man-machine interface unit13and the associating unit27will be mainly described here.

In the route guiding system illustrated inFIG.13, the facility user U1 can freely set the schedule.

For example, the facility user U1 who has entered the monitoring area can set the schedule by operating the man-machine interface unit13.

The man-machine interface unit13receives a setting operation of the schedule by the facility user U1 and outputs schedule information indicating the schedule to the approach detector11.

When the approach detector11can receive the radio wave transmitted from the possessed object of the facility user, the approach detector11determines that the facility user has entered the monitoring area, and outputs a detection signal including identification information “U1-12345” of the facility user and the device number to the guide display control apparatus2.

Further, upon receiving the schedule information from the man-machine interface unit13, the approach detector11outputs a detection signal including the identification information “U1-12345” of the facility user U1 and the schedule information to the guide display control apparatus2.

The detection signal obtaining unit22obtains the detection signal output from approach detector11.

When the detection signal includes each of the identification information “U1-12345” and the device number, the detection signal obtaining unit22outputs each of the identification information “U1-12345” and the device number to the schedule obtaining unit23, and outputs the device number to the display data generating unit25.

When the detection signal includes each of the identification information “U1-12345” and the schedule information, the detection signal obtaining unit22outputs each of the identification information “U1-12345” and the schedule information to the associating unit27.

The associating unit27obtains each of the identification information and the schedule information from the detection signal obtaining unit22.

The associating unit27stores each of the identification information and the schedule information in the user information storage unit21a.

The operation thereafter is similar to that of the route guiding system illustrated inFIG.1, and thus detailed description thereof will be omitted.

In the above-described third embodiment, the guide display control apparatus2illustrated inFIG.14is configured to include the associating unit27that obtains the identification information of the facility user and the schedule indicating the visit order to the plurality of destinations, and associates the obtained identification information with the obtained schedule. Therefore, as is the guide display control apparatus2illustrated inFIG.2, the guide display control apparatus2illustrated inFIG.14is capable of showing the route to each of the plurality of destinations in the visit order, and allows the facility user to set the schedule.

In the route guiding system illustrated inFIG.13, the man-machine interface unit13receives a setting operation of the schedule and outputs schedule information indicating the schedule to the approach detector11, and the approach detector11outputs a detection signal including the schedule information to the associating unit27. However, this is merely an example. When the possessed object of the facility user is, for example, a mobile terminal and the associating unit27has a wireless communication function, the mobile terminal may transmit each of the identification information and the schedule information to the associating unit27.

In the route guiding systems according to the first to third embodiments, the display device12includes the projection device12a, and the projection device12aprojects the guide diagram on the floor surface or the like of the monitoring area in accordance with the display data. However, this is merely an example. The display device12may include, for example, an indicator having a display instead of the projection device12a, and the indicator may display the guide diagram on the display in accordance with the display data.

In the guide display control apparatuses2according to the first to third embodiments, the display data generating unit25or the display data generating unit26generates display data for displaying the guide diagram. However, this is merely an example. The display data generating unit25or the display data generating unit26may generate voice data for outputting route guidance or the like by voice, and output the voice data to a voice output device, which is not illustrated, of the guide apparatus1.

Note that, in the present disclosure, free combinations of the embodiments, modifications of any components of the embodiments, or omissions of any components in the embodiments are possible.

INDUSTRIAL APPLICABILITY

The present disclosure is suitable for a guide display control apparatus, a guide display control method, and a route guiding system.

REFERENCE SIGNS LIST

1: guide apparatus,2: guide display control apparatus,11: approach detector,12: display device,12a: projection device,13: man-machine interface unit,21: database unit,21a,21d: user information storage unit,21b: facility information storage unit,21c: icon storage unit,22: detection signal obtaining unit,23: schedule obtaining unit,24: next destination specifying unit,25,26: display data generating unit,27: associating unit,31: storage circuit,32: detection signal obtaining circuit,33: schedule obtaining circuit,34: next destination specifying circuit,35,36: display data generating circuit,37: associating circuit,41: memory,42: processor