JP6447646B2 - Search system - Google Patents

Description

  The present invention relates to a search system.

  Conventionally, when a child is kidnapped or the like, a system capable of searching for a child's whereabouts has been disclosed (for example, Patent Document 1).

JP 2007-150904 A

  There are many needs to search not only for children but also for various types and uses.

  An object of the present invention is to provide a search system capable of searching various search objects.

The present invention solves the above problems by the following means.
A first invention includes a radio wave transmitter that transmits a radio wave provided in a search object, a portable information terminal that receives radio waves from the radio wave transmitter, and a management device that is communicably connected to the portable information terminal The radio wave transmitter transmits a radio wave including device identification information for identifying the radio wave transmitter, and the portable information terminal receives the device identification information from the radio wave transmitter. Radio wave receiving means for receiving radio waves including, and information transmitting means for transmitting radio wave detection information including the device identification information to the management device in response to the radio wave receiving means receiving radio waves, The management device includes a search start condition storage unit that stores the device identification information and a search start condition for starting a search in association with each other, and an information reception unit that receives the radio wave detection information from the portable information terminal. ,Previous Whether the reception condition of the radio wave by the portable information terminal included in the radio wave detection information matches the search start condition corresponding to the device identification information included in the radio wave, the search start condition storage unit A search system comprising: a condition determination unit that makes a reference determination; and a notification unit configured to notify the search object when the reception condition matches the search start condition by the condition determination unit. It is.
According to a second aspect of the present invention, in the search system of the first aspect, the search start condition includes information on a search target time zone, and the reception condition is information related to a reception time when a radio wave is received from the radio wave transmitter. And the condition determination means determines that the reception condition is matched with the search start condition when the reception condition is included in the search target time zone.
A third invention is the search system according to the first or second invention, wherein the search start condition has information relating to an area not to be searched, and the portable information terminal acquires position information. An acquisition unit, wherein the information transmission unit transmits the radio wave detection information further including the location information acquired by the location information acquisition unit, and the reception condition is the location information of the portable information terminal that has received the radio wave. And the condition determination means determines that the reception condition is matched with a search start condition when the reception condition is included in a search target area.
4th invention is the search system of 1st invention or 2nd invention, The said management apparatus is connected with respect to several said portable information terminal so that communication is possible, The said information transmission means is said portable The radio wave detection information further including terminal identification information for identifying an information terminal is transmitted, and the search start condition includes tolerance range information regarding the number of receiving terminals per unit time, and the reception condition is reception per unit time. In the search system, the condition determining means determines that the search start condition is met when the number of receiving terminals per unit time is out of an allowable range. is there.
5th invention is the search system of 2nd invention, The said management apparatus is connected so that communication is possible with respect to the said several portable information terminal, The said portable information terminal is position information which acquires positional information. An acquisition unit, and the information transmission unit transmits the radio wave detection information further including terminal identification information for identifying the portable information terminal and the position information acquired by the position information acquisition unit, and the search start condition is , Having information related to an allowable range of distance difference, wherein the reception condition is position information of the plurality of portable information terminals received at different times, and the condition determining means includes the plurality of portable information received at different times A search system characterized in that, when a distance difference calculated from terminal position information is outside an allowable range, it is determined that the search start condition is met.
According to a sixth aspect of the present invention, in the search system according to any one of the first to third aspects, is the condition determining unit continuously receiving the radio wave including the same device identification information by the radio wave receiving unit. In the search system, the notification unit notifies the search object when the condition determination unit stops receiving the radio wave.
According to a seventh invention, in the search system according to any one of the second invention, the third invention, and the sixth invention, the search object is a living thing, and the radio wave transmitter uses the biological information of the search object. A living body information detecting unit for detecting, the information transmitting unit transmits the radio wave detection information further including the living body information detected by the living body information detecting unit, and has an allowable range of living body information as the search start condition. The reception condition is the biological information included in the radio wave, and the condition determination means determines that the search start condition is met when the reception condition exceeds an allowable range of the biological information. This is a search system characterized by that.
According to an eighth aspect of the present invention, in the search system of the first aspect, the radio wave transmitter includes a movement state detection unit, and the information transmission unit further includes movement information detected by the movement state detection unit. The information is transmitted, and the search start condition includes information on presence / absence of movement information, the reception condition is the movement information that can be included in the radio wave, and the condition determination unit is configured to receive the radio wave received by the reception condition. In the search system, it is determined that the search start condition is met when the movement information detected by the movement state detection unit is included.
According to a ninth aspect of the present invention, in the search system according to any one of the first to eighth aspects of the present invention, the management device is configured such that when the reception condition matches the search start condition by the condition determination unit, the portable device It is a search system characterized by including a privilege grant means for granting a privilege to an information terminal.
According to a tenth aspect of the present invention, in the search system according to the ninth aspect, the portable information terminal includes an input screen output means for outputting an input screen capable of inputting information related to a position where the radio wave receiving means has received the radio wave, and the input Input information transmitting means for transmitting the input information input on the screen to the management device, and the privilege granting means grants the privilege when receiving the input information from the portable information terminal , A search system characterized by
In an eleventh aspect of the present invention, in any one of the search systems from the first aspect to the tenth aspect, the search start condition storage unit associates a search flag indicating whether or not the search has been started with the device identification information. The management device is a flag that enables the search flag corresponding to the device identification information in the search start condition storage unit when the reception condition matches the search start condition by the condition determination unit. When the valid means and the information receiving means receive the radio wave detection information, the flag acquisition for obtaining the search flag corresponding to the device identification information included in the radio wave with reference to the search start condition storage unit Means for granting a privilege to the portable information terminal when the search flag is valid by the flag acquisition unit, and the condition determination unit , It is carried out when the search flag acquired by the flag obtaining unit is not valid, a search system according to claim.
According to a twelfth aspect of the invention, in the search system of the eleventh aspect, the management device includes a privilege storage unit that associates and stores the privilege and the device identification information, and the privilege granting unit is configured to perform the condition determination. According to the number of terminals of the portable information terminal received within a predetermined time from when it is determined that the condition is satisfied by the means, the privilege stored in the privilege storage unit is distributed and given. It is a search system.
A thirteenth invention is characterized in that, in the search system of the eleventh invention, the privilege granting means is performed according to the order of the portable information terminals received after the condition judging means judges that the condition is satisfied. It is a search system.
A fourteenth aspect of the invention is the search system according to the thirteenth aspect of the invention, wherein the privilege granting means provides the privilege amount in a gradient distribution according to the order of the portable information terminals. is there.
According to a fifteenth aspect, in the search system according to any one of the ninth to eleventh aspects, the privilege granting unit is included in the radio wave received from when the condition determination unit determines that the condition is satisfied. The search system is characterized by being performed according to the number of pieces of device identification information.
According to a sixteenth aspect of the present invention, in the search system according to any one of the first to fifteenth aspects, the radio wave transmitter transmits a radio wave at a predetermined time interval. A search system characterized by determining whether or not the reception condition matches the search start condition when the number of reception times of the radio wave detection information received by the information receiving means is a certain number or more It is.
According to a seventeenth aspect of the present invention, in the search system according to any one of the first to sixteenth aspects, the radio wave detection information includes information related to a radio wave intensity of the radio wave, and the condition determination unit is configured to receive the information reception A search system characterized by determining whether or not the search start condition is met when the radio wave intensity included in the radio wave detection information received by the means is equal to or higher than a predetermined intensity.
An eighteenth aspect of the invention is the search system according to the seventeenth aspect of the invention, wherein the radio wave transmitter transmits a plurality of radio waves having different radio field intensities at predetermined intervals.
A nineteenth invention is a search system according to any one of the first invention to the third invention and the sixth invention to the eighth invention, wherein the management device and the portable information terminal are: The search system is characterized by being an integrated device.

  According to a twentieth aspect of the present invention, there is provided a search condition storage unit that stores device identification information that is provided in a search object and identifies a radio wave transmitter that transmits radio waves, and a search start condition for starting a search in association with each other, and the radio wave Radio wave receiving means for receiving a radio wave including the device identification information from a transmitter, and radio wave reception conditions by the radio wave receiving means match a search start condition corresponding to the device identification information included in the radio wave. Condition determining means for determining whether or not there is a reference, and notification means for notifying the search object when the reception condition matches the search start condition by the condition determining means. And a search device comprising:

  ADVANTAGE OF THE INVENTION According to this invention, the search system which can search various search objects can be provided.

1 is an overall configuration diagram of a search system according to a first embodiment. It is a functional block diagram of each device of the search system concerning a 1st embodiment. It is a flowchart which shows the process in the portable information terminal which concerns on 1st Embodiment. It is a figure which shows the example of a display of the portable information terminal which concerns on 1st Embodiment. It is a flowchart which shows the search process in the management server which concerns on 1st Embodiment. It is a figure which shows the example of each table memorize | stored in the memory | storage part of the management server which concerns on 1st Embodiment. It is a flowchart which shows the search condition judgment process in the management server which concerns on 1st Embodiment. It is a figure which shows the example of the condition content table memorize | stored in the memory | storage part of the management server which concerns on 1st Embodiment. It is a flowchart which shows the coupon provision process by the information provision in the management server which concerns on 1st Embodiment. It is a functional block diagram with the whole block diagram of a search system which concerns on 2nd Embodiment, and a portable information terminal and a management server. It is a flowchart which shows the process in the portable information terminal which concerns on 2nd Embodiment. It is a flowchart which shows the search process in the management server which concerns on 2nd Embodiment. It is a flowchart which shows the search condition judgment process in the management server which concerns on 2nd Embodiment. It is a functional block diagram with the whole configuration diagram of a search system concerning a 3rd embodiment, and a management server and a beacon terminal. It is a flowchart which shows the search process in the management server which concerns on 3rd Embodiment. It is a whole schematic diagram of the search system concerning a 4th embodiment. It is a figure which shows the example of the digital stamp table memorize | stored in the functional block diagram and management part of the management server which concerns on 4th Embodiment. It is a flowchart which shows the process in the portable information terminal which concerns on 4th Embodiment. It is a flowchart which shows the search process in the management server which concerns on 4th Embodiment. It is a whole block diagram of a search system concerning a 5th embodiment, and a functional block diagram of a management server. It is a flowchart which shows the search condition judgment process in the management server which concerns on 5th Embodiment. It is a functional block diagram of the search system concerning a 6th embodiment. It is a flowchart which shows the process in the portable information terminal which concerns on 6th Embodiment. It is a figure which shows the example of a display of the portable information terminal which concerns on 6th Embodiment. It is a flowchart which shows the search process in the management server which concerns on 6th Embodiment. It is a flowchart which shows the order | rank determination process in the management server which concerns on 6th Embodiment.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. This is merely an example, and the technical scope of the present invention is not limited to this.
(First embodiment)
<Overall Configuration of Search System 100>
FIG. 1 is an overall schematic diagram of a search system 100 according to the first embodiment.
FIG. 2 is a functional block diagram of each device of the search system 100 according to the first embodiment.
A search system 100 shown in FIG. 1 includes a portable information terminal 1, a portable information terminal 3, a management server 4 (management device), and a beacon terminal 8 (radio wave transmitter).

In the search system 100, the client X first attaches the beacon terminal 8 to a thing that cannot be lost (that is, a search object). In the case of this embodiment (FIG. 1), the beacon terminal 8 is attached (provided) to the collar of a dog 9 (search object) that is a pet of the client X. The portable information terminal 1 is possessed by each user, and exists at various positions like an encircling network. Then, the portable information terminal 1A of the user A that is accidentally located around the dog 9 (hereinafter referred to as the portable information terminal 1A when specifying the portable information terminal 1 of the user A) is attached to the dog 9. The radio wave transmitted by the beacon terminal 8 (hereinafter, the radio wave transmitted by the beacon terminal 8 is also referred to as a beacon radio wave) is transmitted to the management server 4. The user and the client X may or may not be acquaintances.
In the search system 100, the management server 4 determines whether or not the dog 9 attached with the beacon terminal 8 matches the search start condition according to the reception condition of the radio wave detection information received from the portable information terminal 1A. To do. For example, when the client 9 runs away from the client X who is the owner, and the client X matches the search start condition registered in advance so that the client 9 wants to search for the dog 9, the management server 4 Is notified.
Thereafter, the plurality of portable information terminals 1 can search for the dog 9. The client X can receive a notification regarding the escaped dog 9 without operating the portable information terminal 3 possessed by the client X by the notification from the management server 4.

Next, the configuration of each device will be described.
<Portable information terminal 1>
The mobile information terminal 1 is, for example, a mobile phone or the like having a computer function represented by a smartphone. The portable information terminal 1 may be a tablet terminal.
The portable information terminal 1 can perform short-range wireless communication with the beacon terminal 8 using, for example, Bluetooth (registered trademark). The portable information terminal 1 can communicate with the management server 4 via the base station B for wireless communication and the communication network N.
Note that the base station B performs relay for communication between the portable information terminal 1 and the management server 4. The base station B is, for example, a wireless LAN (Local Area Network) base station or a base station for a mobile terminal communication network of a communication carrier.
The communication network N is a network between the management server 4 and the base station B, and is an Internet line, a mobile terminal communication network, or the like.

As shown in FIG. 2, the portable information terminal 1 includes a control unit 10, a storage unit 20, a camera unit 23, a touch panel display 26, a Bluetooth antenna 27, a GPS (Global Positioning System) antenna 28, and a communication I. / F (interface) unit 29.
The control unit 10 is a central processing unit (CPU) that controls the entire portable information terminal 1. The controller 10 executes various functions in cooperation with the hardware described above by appropriately reading and executing an operating system (OS) and application programs stored in the storage unit 20.
The control unit 10 includes a radio wave reception unit 11 (radio wave reception unit), a position information acquisition unit 12 (position information acquisition unit), an information transmission unit 13 (information transmission unit), and an input screen output unit 14 (input screen output unit). ) And an input information transmitting unit 15 (input information transmitting means).

The radio wave receiver 11 receives the radio wave transmitted from the beacon terminal 8 via the Bluetooth antenna 27.
The location information acquisition unit 12 acquires the location information of the portable information terminal 1 when the radio wave reception unit 11 receives a beacon radio wave via the GPS antenna 28. This position information is latitude / longitude data obtained by positioning calculation using the GPS function.
The information transmission unit 13 transmits radio wave detection information (described later) to the management server 4.
The input screen output unit 14 outputs an information input screen. The information input screen is a screen for the user to input information related to the position where the beacon radio wave is received.
The input information transmission unit 15 transmits information input on the information input screen to the management server 4.

The storage unit 20 is a storage area such as a semiconductor memory element for storing programs, data, and the like necessary for the control unit 10 to execute various processes.
The storage unit 20 includes a search program 20a.
The search program 20a is a program for executing various functions executed by the control unit 10 of the portable information terminal 1. The search program 20a is downloaded from a website on the Internet and installed in the portable information terminal 1 in advance.

The camera unit 23 is a photographing device. The camera unit 23 acquires image data of still images and moving images.
The touch panel display 26 has a function as a display unit composed of a liquid crystal panel and the like, and a function as an input unit that detects a touch input from a user's finger or the like.
The Bluetooth antenna 27 can perform short-range wireless communication with the beacon terminal 8 based on the Bluetooth standard. The Bluetooth antenna 27 sends the received beacon radio wave to the radio wave receiving unit 11.
The GPS antenna 28 is an antenna that receives a GPS signal transmitted by a GPS satellite (not shown). The GPS antenna 28 sends the received GPS signal to the position information acquisition unit 12.
The communication I / F unit 29 is an interface unit for performing communication with the management server 4 via the communication network N.

<Portable information terminal 3>
The portable information terminal 3 is the same device as the portable information terminal 1. In the present embodiment, the portable information terminal 3 is described as a portable terminal, but it may be a PC (personal computer) or the like that is not assumed to be portable.
The portable information terminal 3 can communicate with the management server 4 via the wireless communication base station B and the communication network N.
The portable information terminal 3 includes a control unit 30, a storage unit 35, a touch panel display 36, and a communication I / F unit 39.

The control unit 30 is a CPU that controls the entire portable information terminal 3. The control unit 30 executes various functions in cooperation with the hardware described above by appropriately reading and executing an OS and an application program such as an e-mail program stored in the storage unit 35.
The storage unit 35 is a storage area such as a semiconductor memory element for storing programs, data, and the like necessary for the control unit 30 to execute various processes.
The storage unit 35 stores, for example, a registration program 35a (described later).
The touch panel display 36 has a function as a display unit configured by a liquid crystal panel and the like, and a function as an input unit that detects a touch input from a user's finger or the like.
The communication I / F unit 39 is an interface unit for performing communication with the management server 4 via the communication network N.

<Management server 4>
The management server 4 determines whether the reception condition matches the search start condition based on the radio wave detection information received from the portable information terminal 1. Then, the management server 4 notifies the search object when the reception condition matches the search start condition.
As shown in FIG. 2, the management server 4 includes a control unit 40, a storage unit 50, and a communication I / F unit 59.
The control unit 40 is a CPU that controls the entire management server 4. The control unit 40 executes various functions in cooperation with the hardware described above by appropriately reading and executing the OS and application programs stored in the storage unit 50.
The control unit 40 includes an information reception unit 41 (information reception unit), a flag acquisition unit 42 (flag acquisition unit), a condition determination unit 43 (condition determination unit), a notification unit 44 (notification unit), and a privilege grant unit. 45 (privilege grant means) and a flag change unit 46 (flag valid means).

The information receiving unit 41 receives radio wave detection information transmitted from the portable information terminal 1. The radio wave detection information includes information regarding a beacon ID (IDentifier) (device identification information) for identifying the beacon terminal 8, information regarding a terminal ID for identifying the portable information terminal 1, and information regarding the radio wave intensity of the beacon radio wave.
The flag acquisition unit 42 acquires a search flag (ON or OFF) corresponding to the beacon ID included in the radio wave detection information acquired by the information reception unit 41 based on the beacon management table 52 (described later). The initial state of the search flag when the search start condition is initially set (at the time of initial setting) is OFF.
The condition determination unit 43 determines whether the received radio wave detection information matches the search start condition when the search flag acquired by the flag acquisition unit 42 is OFF. The condition determination unit 43 determines a search start condition when a condition ID of a condition master table 53 described later is “1”. When the search flag acquired by the flag acquisition unit 42 is ON, the condition determination unit 43 does not perform processing.

When the condition determination unit 43 matches the search start condition, the notification unit 44 transmits information input screen data to the portable information terminal 1 that is the transmission source of the radio wave detection information. Further, when the condition determination unit 43 matches the search start condition, the notification unit 44 notifies the portable information terminal 3 that the search object has been found by e-mail.
The privilege grant unit 45 grants a privilege when a response to the information input screen data is received from the portable information terminal 1.
The flag changing unit 46 changes the target search flag in the beacon management table 52 from OFF to ON when the condition determination unit 43 matches the search start condition.
Detailed description will be given later.

The storage unit 50 is a storage area such as a hard disk or a semiconductor memory element for storing programs, data, and the like necessary for the control unit 40 to execute various processes.
The storage unit 50 includes a condition content table 51 (search start condition storage unit), a beacon management table 52 (search start condition storage unit), and a condition master table 53.
The condition content table 51 stores specific conditions for starting the search corresponding to the beacon ID. The condition content table 51 stores a beacon ID of the beacon terminal 8, a condition ID, and condition information for starting a search.
The beacon management table 52 is a table for managing the beacon terminals 8 searched by the search system 100. The beacon management table 52 stores a beacon ID, an excluded terminal ID, a condition ID, a search flag, and a client contact address.
The condition master table 53 is a table that stores a category of conditions for starting a search. The condition master table 53 stores the condition ID and the specified content of the condition.
Details of each table will be described later.
The communication I / F unit 59 is an interface unit for performing communication with the portable information terminal 1 and the portable information terminal 3 via the communication network N.

<Beacon terminal 8>
In this embodiment, the beacon terminal 8 is a terminal attached to the dog 9.
As shown in FIG. 2, the beacon terminal 8 includes a control unit 80, a storage unit 85, and a radio wave transmission unit 87.
The control unit 80 is a CPU that controls the entire beacon terminal 8. The control unit 80 reads out and executes the OS and application programs stored in the storage unit 85 as appropriate, thereby executing various functions in cooperation with the hardware described above.
The storage unit 85 is a storage area such as a semiconductor memory element for storing programs, data, and the like necessary for the control unit 80 to execute various processes.
The storage unit 85 stores a beacon ID.

  The radio wave transmission unit 87 transmits a radio wave including a beacon ID. The radio wave transmission unit 87 transmits the radio wave so as to repeat the strength at regular intervals (for example, every 10 seconds) under the control of the control unit 80. The radio wave having a strong radio wave intensity is a radio wave corresponding to Bluetooth Class 1, and can be received by the portable information terminal 1 if the portable information terminal 1 exists within a radius of 50 m centering on the beacon terminal 8, for example. is there. On the other hand, a radio wave having a weak radio wave intensity is a radio wave corresponding to Bluetooth Class 2 and is received by the portable information terminal 1 if the portable information terminal 1 exists within a radius of 10 m centered on the beacon terminal 8, for example. Is possible.

<Preparatory processing>
Next, the pre-preparation process that the client X of the dog 9 performs on the management server 4 as a premise of the process by the search system 100 will be described. This advance preparation process is performed by the client X using the portable information terminal 3.
The client X registers the beacon ID of the beacon terminal 8 attached to the dog 9, the search start condition, and the client contact information using the portable information terminal 3. This can be realized by executing, for example, the registration program 35a in the storage unit 35 of the portable information terminal 3 after installation. The beacon terminal 8 shows the beacon ID in a manner that is visible from the outside. Then, the client X inputs a beacon ID and a condition ID from a condition registration screen (not shown). In this example, the beacon ID is manually input, but the mobile information terminal 3 may be provided with a Bluetooth antenna and receive a beacon radio wave to input the beacon ID. The condition ID may be input by displaying the contents of the condition master table 53 of FIG. Next, the client X inputs a search start condition corresponding to the condition ID and the client contact address. The search start condition is specific condition contents for starting and notifying a search.

The control unit 30 receives the input beacon ID, condition ID, search start condition, and client contact information. Then, the control unit 30 transmits search condition information including these pieces of information and the terminal ID of the portable information terminal 3 to the management server 4. For example, the condition ID is set to “1”, and the search start conditions are a search target time zone (for example, from 22:00 to next 6:00) and a non-search target area (ACB district). Further, the client contact address is the email address of the client X.
The control unit 40 of the management server 4 stores the search condition information received from the portable information terminal 3 in the condition content table 51 and the beacon management table 52 (the beacon management table 52 in FIG. 6 and the condition content table in FIG. 8). 51 beacon ID “B0101”). Then, the control unit 40 of the management server 4 transmits the registration completion notification, so that the control unit 30 of the portable information terminal 3 receives the registration completion notification transmitted from the management server 4. By doing so, the client X of the portable information terminal 3 can know that the search start condition for the dog 9 has been set.

<Processing of portable information terminal 1>
Next, the process of the portable information terminal 1 will be described.
FIG. 3 is a flowchart showing processing in the portable information terminal 1 according to the first embodiment.
FIG. 4 is a diagram illustrating a display example of the portable information terminal 1 according to the first embodiment.
As a premise of this process, a search program 20a is installed in the mobile information terminal 1 in advance. Further, the search program 20a is being executed in the background, not the foreground, in the portable information terminal 1. By executing the search program 20a in the background, the user of the portable information terminal 1 can make the portable information terminal 1 in a state in which beacon radio waves can always be received without performing an operation related to searching for a search object.
Note that the processing of the portable information terminal 1 described below is always repeatedly executed while the search program 20a is being executed.

  In step S (hereinafter referred to as “S”) 10 in FIG. 3, the control unit 10 (radio wave receiver 11) of the portable information terminal 1 determines whether or not a beacon radio wave has been received. When the portable information terminal 1 is within the beacon radio wave reception range (for example, within 50 m), the control unit 10 (radio wave reception unit 11) can receive the beacon radio wave. When the beacon radio wave is received (S10: YES), the control unit 10 moves the process to S11. On the other hand, when the beacon radio wave is not received (S10: NO), the control unit 10 ends this process.

In S <b> 11, the control unit 10 (position information acquisition unit 12) acquires the position information of the position where the beacon radio wave is received via the GPS antenna 28.
In S <b> 12, the control unit 10 (information transmission unit 13) transmits the radio wave detection information to the management server 4. The radio wave detection information includes a beacon ID included in the beacon radio wave received in S10. The radio wave detection information includes the beacon radio wave intensity information (strong or weak) received in S10 and the position information acquired in S11. Further, the radio wave detection information includes the terminal ID of the portable information terminal 1.
The processing in the management server 4 that has received the radio wave detection information will be described later.

In S <b> 13, the control unit 10 determines whether information input screen data has been received from the management server 4 within a predetermined time. The management server 4 transmits information input screen data to the portable information terminal 1 when the search start condition is satisfied. When the information input screen data is received within the predetermined time (S13: YES), the control unit 10 moves the process to S14. On the other hand, when the information input screen data has not been received within the predetermined time (S13: NO), the control unit 10 ends this process.
In S <b> 14, the control unit 10 (input screen output unit 14) displays the information input screen 61 on the touch panel display 26.

FIG. 4A is a display example when information input screen data is received. The control unit 10 causes the pop-up message 60 to be displayed on the touch panel display 26. The user who sees this can know that something has been discovered. Then, when the user selects the “OK” button of the pop-up message 60, the control unit 10 deletes the pop-up message 60 and causes the information input screen 61 shown in FIG. 4B to be output.
The information input screen 61 is a screen for allowing the user to input information regarding the position where the pop-up message 60 is displayed. The information input screen 61 includes an image registration field 61a, a comment field 61b, and a button 61c. The image registration field 61a is for registering photographs taken around the position of the portable information terminal 1. The comment column 61b is used to input a comment regarding the position. The user can activate the camera unit 23 to take a peripheral image and register it in the image registration field 61a. The user can input characters by selecting the comment field 61b.

Returning to FIG. 3, in S <b> 15, the control unit 10 determines whether a transmission operation by the user has been accepted. The transmission operation is an operation of the button 61 c provided on the information input screen 61. When the transmission operation is accepted (S15: YES), the control unit 10 moves the process to S16. On the other hand, when the transmission operation is not received (S15: NO), the control unit 10 waits until the transmission operation is received.
It should be noted that a button to quit is provided on the information input screen 61, and the control unit 10 may not transmit information when a button to quit is received. In that case, the control part 10 complete | finishes this process.
In S <b> 16, the control unit 10 (input information transmission unit 15) transmits the input information input on the information input screen 61 to the management server 4.
In S <b> 17, the control unit 10 receives the coupon ID from the management server 4 and displays the received coupon ID information on the touch panel display 26. The coupon ID information relates to a discount that the user can use at the time of purchase, for example. Then, the control part 10 complete | finishes this process.

  Thus, the portable information terminal 1 can receive the beacon radio wave in the background and transmit the radio wave detection information to the management server 4 at any time. Therefore, the user of the portable information terminal 1 can be a search partner for the search object without being conscious of it. In addition, when the search object is in a state of searching according to the search start condition, a privilege can be obtained by providing detailed information, so incentive can be given and information input is actively performed It can be an opportunity.

<Processing of management server 4>
Next, processing of the management server 4 will be described.
FIG. 5 is a flowchart showing search processing in the management server 4 according to the first embodiment.
FIG. 6 is a diagram illustrating an example of each table stored in the storage unit 50 of the management server 4 according to the first embodiment.
FIG. 7 is a flowchart showing search condition determination processing in the management server 4 according to the first embodiment.
FIG. 8 is a diagram illustrating an example of the condition content table 51 stored in the storage unit 50 of the management server 4 according to the first embodiment.

The search process of the management server 4 described below is executed every time radio wave detection information is received.
In S <b> 40 of FIG. 5, the control unit 40 (information receiving unit 41) of the management server 4 receives the radio wave detection information transmitted from the portable information terminal 1. This is a case where the portable information terminal 1 transmits the radio wave detection information in S12 of FIG.
In S41, the control unit 40 refers to the beacon management table 52 and determines whether or not the beacon ID included in the radio wave detection information is the target.
Here, the beacon management table 52 will be described. As illustrated in FIG. 6, the beacon management table 52 stores a target beacon ID, a condition ID, an excluded terminal ID, a search flag, and a client contact address. The condition ID corresponds to the condition master table 53 and is used to determine the category of the search start condition. The excluded terminal ID stores a terminal ID that is not used as a search start condition. The search flag indicates whether or not the search is being started. OFF indicates “0” and ON indicates “1”. When the above-described advance preparation process is performed, the search flag is “0”. The client contact information is an e-mail address or the like input by the client X in the above-described preparation process.

Returning to FIG. 5, if there is a corresponding beacon ID in the beacon management table 52, it is a target one. When the beacon ID is the target (S41: YES), the control unit 40 moves the process to S42. On the other hand, when the beacon ID is not the target (S41: NO), the control unit 40 ends the process.
In S42, the control unit 40 refers to the beacon management table 52 and acquires an excluded terminal ID corresponding to the beacon ID included in the radio wave detection information. Then, the control unit 40 determines whether the terminal ID included in the radio wave detection information is the acquired excluded terminal ID. For example, when the client X has the portable information terminal 1 separately from the portable information terminal 3 or has the function of the portable information terminal 1 in the portable information terminal 3, the terminal of the terminal By registering an ID as an excluded terminal ID in advance, this is a process for removing the terminal. When the terminal ID is the target (S42: YES), the control unit 40 ends this process. On the other hand, when the terminal ID is not the target (S42: NO), the control unit 40 moves the process to S43.

In S43, the control unit 40 determines whether or not the radio wave intensity included in the received radio wave notification information is weak. This is because, in order to improve the accuracy of the position related to the discovery of the search object, only the one having a weak radio wave intensity is set as the determination target of the search start condition. If the radio field intensity is weak (S43: YES), the control unit 40 moves the process to S44. On the other hand, when the radio field intensity is not weak (S43: NO), the control unit 40 ends this process.
In S44, the control unit 40 stores the received radio wave detection information in the storage unit 50 as a detection log in association with the date and time when the radio wave detection information is received.

In S45, the control unit 40 (condition determining unit 43) determines whether or not the radio wave certainty condition is satisfied.
In the process of whether or not the radio wave certainty condition is satisfied, it is determined whether or not the following condition is satisfied.
The condition is “the same beacon ID and the same terminal ID, and the radio wave detection information with weak radio field intensity is traced back to the predetermined time (for example, the past 3 minutes from the current time) multiple times (for example, Is it received 5 times or more)?
This process is for the mobile information terminal 1 to receive the beacon radio wave having a weak radio wave intensity from the beacon terminal 8 not only once but also a plurality of times, thereby improving the certainty regarding the discovery of the search object. This process can be performed using the detection log stored in the storage unit 50.
If the radio wave certainty condition is satisfied (S45: YES), the control unit 40 moves the process to S46. On the other hand, when the condition of radio wave certainty is not satisfied (S45: NO), the control unit 40 ends this process.

In S <b> 46, the control unit 40 (flag acquisition unit 42) refers to the condition content table 51 and acquires a search flag corresponding to the beacon ID included in the radio wave detection information.
In S47, the control unit 40 (condition determining unit 43) determines whether or not the search flag acquired in S46 is OFF. If the search flag is OFF (S47: YES), the control unit 40 moves the process to S48. On the other hand, when the search flag is ON (S47: NO), the control unit 40 moves the process to S52.
In S48, the control unit 40 (condition determining unit 43) performs a search condition determining process.

Here, the search condition determination process will be described with reference to FIG.
In S60, the control unit 40 refers to the condition content table 51 and refers to the condition content corresponding to the corresponding beacon ID. Then, the control unit 40 determines whether or not the reception date / time of the radio wave detection information is within the time zone of the condition content. If the reception date and time of the radio wave detection information is within the time range of the condition content (S60: YES), the control unit 40 moves the process to S61. On the other hand, when the reception date and time of the radio wave detection information is not within the time range of the condition content (S60: NO), the control unit 40 moves the process to S62a.
In S61, the control unit 40 determines whether or not the position information of the radio wave detection information is within the area of the condition content. When the position information of the radio wave detection information is within the area of the condition contents (S61: YES), the control unit 40 moves the process to S62. On the other hand, when the position information of the radio wave detection information is not within the area of the condition content (S61: NO), the control unit 40 moves the process to S62a.
In S62, the control unit 40 determines that the condition in the condition content table 51 is satisfied. Thereafter, the control unit 40 ends the process and returns to FIG.
On the other hand, in S62a, the control unit 40 determines that the condition in the condition content table 51 is not satisfied. Thereafter, the control unit 40 ends the process and returns to FIG.

  In the example where the beacon ID is “B0101” (see FIG. 8), it is a time zone (nighttime) from 20:00 to 6:00 the next morning (S60: YES), and the dog 9 is outside the ACB area (for example, living area). When a radio wave is received from the beacon terminal 8 attached to the terminal (S61: YES), the search start condition is met. On the other hand, even if a radio wave is received from the beacon terminal 8 attached to the dog 9, if it is daytime or the like (S60: NO), the search start condition is not met.

Returning to FIG. 5, in S <b> 49, the control unit 40 (condition determination unit 43) determines whether the condition is satisfied as a result of the search condition determination process. If the condition is satisfied (S49: YES), the control unit 40 moves the process to S50. On the other hand, when the condition is not satisfied (S49: NO), the control unit 40 ends this process.
In S50, the control unit 40 (flag changing unit 46) changes the search flag corresponding to the corresponding beacon ID in the beacon management table 52 from OFF to ON.
In S <b> 51, the control unit 40 (notification unit 44) performs a notification process for the portable information terminal 3 of the client X. Specifically, the control unit 40 refers to the beacon management table 52 and transmits an email indicating that the dog 9 has been found to the email address registered in the client contact address. Note that a URI (Uniform Resource Identifier) of an information providing page, which will be described later, may be described in the body of the e-mail.
In S <b> 52, the control unit 40 performs a coupon grant process by providing information to be described next. Thereafter, the control unit 40 ends this process.

  Note that the search flag may be changed from ON to OFF as appropriate. For example, the control unit 40 may change the search flag from ON to OFF after a predetermined time or may be performed when the number of coupons provided by providing information reaches a predetermined number. Moreover, you may perform by operation from the portable information terminal 3 by the client X.

Here, the coupon provision process by information provision is demonstrated.
FIG. 9 is a flowchart showing a coupon grant process by providing information in the management server 4 according to the first embodiment.
In S70, the control unit 40 (notification unit 44) transmits information input screen data (see FIG. 4) to the portable information terminal 1 that has transmitted the radio wave detection information.
In S71, the control unit 40 determines whether or not input information has been received. The control unit 40 can receive the input information when the portable information terminal 1 transmits the input information in S16 of FIG. When the input information is received (S71: YES), the control unit 40 moves the process to S72. On the other hand, when input information is not received (S71: NO), control part 40 ends this processing. That is, in this search system 100, a coupon is provided only when input information is received.
In S72, the control unit 40 causes the storage unit 50 to store the received input information as a report log.

In S73, the control unit 40 creates an information provision page so that the client X can refer to the stored report log.
Thereby, the client X can access the management server 4 using, for example, the portable information terminal 3 and refer to various information (photographs, comments on the position, etc.) input and transmitted by the portable information terminal 1. The client X can obtain information about the location where the search object with the beacon terminal 8 attached in advance is found.
In S74, control part 40 (privilege grant part 45) transmits coupon ID memorized beforehand by storage part 50 (privilege storage part) to personal digital assistant 1 which transmitted electric wave detection information. Thereafter, the control unit 40 ends the process and returns to FIG.

Thus, according to the search system 100 of 1st Embodiment, there exist the following effects.
(1) When the reception condition when the management server 4 receives the radio wave from the beacon terminal 8 attached to the dog 9 matches the search start condition for notifying the discovery of the search object, the management server 4 Notify Therefore, when the reception condition does not match the search start condition, no notification is made, and there is no trouble. Moreover, since the management server 4 does not perform the determination of the search start condition or the notification to the portable information terminal 3 after the notification is made once, it can prevent unnecessary processing.

(2) The management server 4 can automatically notify the portable information terminal 3 when the search start condition is met by storing the search start condition in the condition content table 51 and the beacon management table 52 in advance.
(3) Since the management server 4 includes the condition content table 51, the beacon management table 52, and the condition master table 53, various search start conditions can be registered. Therefore, the client X can be used for various types of search objects by selecting and setting conditions suitable for characteristics such as the behavior of the search object.

(4) If the reception time of the radio wave detection information is included in the search target time zone, the management server 4 notifies that the search start condition is met. Therefore, the search can be started when the preset time is reached.
(5) In addition, when the dog 9 to which the beacon terminal 8 is attached moves to the search start position, the management server 4 determines the search start condition depending on the position of the mobile information terminal 1 that has received the beacon radio wave at the moved position. Can be notified that it matches.

  (6) Since the management server 4 gives a privilege called a coupon to the user of the portable information terminal 1 that has provided information, the management server 4 carries a search program 20a for causing the portable information terminal 1 to perform a series of operations for searching. Installation on the information terminal 1 can be promoted. In addition, the user of the portable information terminal 1 can be prompted to actively input information.

(7) Since the management server 4 determines the search start condition when the radio wave intensity is weak and a certain number or more of beacon radio waves are received, the reliability can be improved. As a result, the position of the dog 9 can be specified.
(8) The portable information terminal 1 plays a role as radio wave reception, and the management server 4 centrally manages search start conditions in the storage unit 50 and concentrates on the basis of the radio wave detection information received from the portable information terminal 1 It can be processed. Therefore, since processing can be distributed by the portable information terminal 1 and the management server 4, the load on each device can be reduced.

(Second Embodiment)
In the second embodiment, the requester's portable information terminal always receives a beacon radio wave from a lookout object (search object) and transmits it to the server. A description will be given of a case where the search is started when is left. In the following description, parts that perform the same functions as those in the first embodiment described above are given the same reference numerals or the same reference numerals at the end, and redundant descriptions are omitted as appropriate.

<Search system 200>
FIG. 10 is an overall configuration diagram of the search system 200 according to the second embodiment and a functional block diagram of the portable information terminal 203 and the management server 204.
The search system 200 starts a search when the dog 9 (watching object), which is the pet of the client, moves away from the client.
The search system 200 includes a portable information terminal 1, a portable information terminal 203, a management server 204, and a beacon terminal 8.

<Portable information terminal 203>
The portable information terminal 203 is a portable information terminal possessed by the client.
The portable information terminal 203 includes a control unit 230, a storage unit 235, a touch panel display 36, a communication I / F unit 39, and a Bluetooth antenna 237.
The control unit 230 is a CPU that controls the entire portable information terminal 203. The control unit 230 executes various functions in cooperation with the hardware described above by appropriately reading and executing the OS and application programs such as an e-mail program stored in the storage unit 235.
The storage unit 235 is a storage area such as a semiconductor memory element for storing programs, data, and the like necessary for the control unit 230 to execute various processes. The storage unit 235 stores a lookout program 235a.

The lookout program 235a is a program for executing various functions executed by the control unit 230 of the portable information terminal 203. It is assumed that the watch program 235a is downloaded from a website on the Internet and installed in the portable information terminal 203.
The Bluetooth antenna 237 is the same as the Bluetooth antenna 27 of the portable information terminal 1.
<Management server 204>
The management server 204 includes a control unit 240, a storage unit 50, and a communication I / F unit 59.
The condition determination unit 243 included in the control unit 240 determines a search start condition when the condition ID of the condition master table 53 (see FIG. 6) is “2”.

<Preparatory processing>
Next, as a premise of processing by the search system 200, a pre-preparation process performed by the client of the dog 9 on the management server 204 will be described. This advance preparation process is performed by the client using the portable information terminal 203.
The client installs the watch program 235a on the portable information terminal 203 and executes it. The control unit 230 of the portable information terminal 203 receives radio waves transmitted from the beacon terminal 8. This radio wave includes a beacon ID. Then, the client inputs the client contact address from the condition registration screen (not shown). The control unit 230 includes a search condition including the received beacon ID, a condition ID set in advance in the watch program 235a, information on the client contact information, a terminal ID of the portable information terminal 3, and a condition ID. Information is transmitted to the management server 204.
In addition, the control unit 230 of the portable information terminal 203 causes the storage unit 235 to store the beacon ID included in the received beacon radio wave.

The control unit 240 of the management server 204 updates the beacon management table 52 and the condition content table 51 based on the search condition information received from the portable information terminal 203. For example, the condition ID is set to “2”, and the search start condition is set to the continuous reception target terminal ID (for example, TA0301). The client contact address is the client's e-mail address. Then, the management server 204 transmits a registration completion notification to the portable information terminal 203.
Since the control unit 230 of the portable information terminal 203 receives the registration completion notification transmitted from the management server 204, the client of the portable information terminal 203 knows that the further search start condition for the dog 9 has been set. Can do.

<Processing of portable information terminal 203>
Next, processing of the portable information terminal 203 will be described.
FIG. 11 is a flowchart showing processing in the portable information terminal 203 according to the second embodiment.
As a premise of this processing, in the portable information terminal 203, the watch program 235a is being executed in the background of the portable information terminal 203. By executing the watch program 235a in the background, the mobile information terminal 203 can be in a state in which beacon radio waves can be received at all times without making the client of the mobile information terminal 203 specially aware.
Note that the processing of the portable information terminal 203 described below is repeatedly executed during the execution of the watch program 235a.

In S201, the control unit 230 of the portable information terminal 203 determines whether or not a beacon radio wave has been received. If the portable information terminal 203 is within the beacon radio wave reception range (for example, within 50 m), the control unit 230 can receive the beacon radio wave. When the beacon radio wave is received (S201: YES), the control unit 230 moves the process to S202. On the other hand, when the beacon radio wave is not received (S201: NO), the control unit 230 ends this process.
In S202, the control unit 230 determines whether or not the beacon ID included in the beacon radio wave is the target. If the beacon ID is the same as that stored in the storage unit 235 in the preliminary preparation process, it is the target. If the beacon ID is the target (S202: YES), the control unit 230 moves the process to S203. On the other hand, when the beacon ID is not the target (S202: NO), the control unit 230 ends this process.
In S <b> 203, the control unit 230 transmits the radio wave detection information to the management server 204. The radio wave detection information includes a beacon ID, beacon radio wave intensity information (strong or weak), and a terminal ID of the portable information terminal 203. Thereafter, the control unit 230 ends this process.

<Processing of portable information terminal 1>
The processing of the portable information terminal 1 is the same as that in FIG. 3 (first embodiment).

<Processing of management server 204>
Next, processing of the management server 204 will be described.
First, the search process will be described.
This is a process in the management server 204 when radio wave detection information is received from the portable information terminal 1.
FIG. 12 is a flowchart showing search processing in the management server 204 according to the second embodiment.
Note that the search processing of the management server 204 described below is executed every time radio wave detection information is received.

S240 to S244 are the same as S44 and S46 from S40 to S42 in FIG. 5 (first embodiment). In S241, the terminal ID of the requester's portable information terminal 203 is registered as an excluded terminal ID.
In S245, the control unit 240 (condition determining unit 243) determines whether or not the search flag acquired in S244 is OFF. If the search flag is OFF (S245: YES), the control unit 240 ends this process. On the other hand, when the search flag is ON (S245: NO), the control unit 240 moves the process to S246.
S246 and S247 are the same as S51 and S52 of FIG. 5 (first embodiment).
In this example, the process related to the strength of the radio wave intensity is not performed, but the notification process may be performed only when the radio wave certainty is high as in the first embodiment.
Further, the notification process may be performed only for the first time immediately after the search flag is turned ON.

Next, search condition determination processing will be described.
This is processing in the management server 204 when radio wave detection information is received from the portable information terminal 203.
Note that the management server 204 can simultaneously perform the search condition determination process and the search process described above.
FIG. 13 is a flowchart showing search condition determination processing in the management server 204 according to the second embodiment.

In S260, the control unit 240 of the management server 204 refers to the beacon management table 52 and the condition content table 51, and the beacon ID with the condition ID “2” and the radio wave reception target terminal ID associated therewith. And get and extract.
In S261, the control unit 240 determines whether radio wave detection information has been received. When the radio wave detection information is received (S261: YES), the controller 230 moves the process to S262. On the other hand, when the radio wave detection information is not received (S261: NO), the control unit 230 moves the process to S263.
In S262, the control unit 240 determines whether or not the received radio wave detection information includes the beacon ID acquired in S260 and the terminal ID. The radio wave detection information can be received when the portable information terminal 203 transmits the radio wave detection information in S203 of FIG. When the received beacon ID and the terminal ID are included in the received radio wave detection information (S262: YES), the control unit 240 moves the process to S261. On the other hand, if the received beacon ID and the terminal ID are not included in the received radio wave detection information (S262: NO), the control unit 240 moves the process to S263.

  In S263, the control unit 240 determines whether or not a certain time (for example, 5 minutes) has elapsed since the last reception of the radio wave detection information from the watch target object from the portable information terminal 203. The fact that the radio wave detection information is not received for a certain period of time means that the radio wave detection information cannot be continuously received. When the predetermined time has elapsed (S263: YES), the control unit 240 moves the process to S264. On the other hand, when the predetermined time has not elapsed (S263: NO), the control unit 240 moves the process to S261.

In S264, the control unit 240 (flag acquisition unit 42) refers to the beacon management table 52 and acquires a search flag corresponding to the target beacon ID.
In S265, the control unit 240 (condition determining unit 243) determines whether or not the search flag acquired in S264 is OFF. When the search flag is OFF (S265: YES), the control unit 240 moves the process to S266. On the other hand, when the search flag is ON (S265: NO), the control unit 240 ends this process.
In S266, the control unit 240 (flag changing unit 46) changes the search flag corresponding to the corresponding beacon ID in the beacon management table 52 from OFF to ON. Thereafter, the control unit 240 ends this process.
Note that the search flag may be changed from ON to OFF as appropriate. For example, the management server 204 may receive the radio wave detection information from the portable information terminal 203 again. Moreover, you may perform by operation from the portable information terminal 203 by a client.

Thus, according to the second embodiment, there are the following effects.
When the dog 9 to which the beacon terminal 8 is attached is separated from the portable information terminal 203, the portable information terminal 203 cannot receive the radio wave transmitted by the beacon terminal 8. Therefore, the management server 204 can notify the portable information terminal 203 that the portable information terminal 203 can no longer receive the radio wave transmitted by the beacon terminal 8 as the search start condition is met. Therefore, in the portable information terminal 203, the beacon terminal 8 may be registered in advance by the watch program 235a, and the other portable information terminal 1 searches for the dog 9.

(Third embodiment)
In the third embodiment, a description will be given of what is notified when an object that is normally fixed at an installation location and does not move (search object) moves.
<Search system 300>
FIG. 14 is an overall configuration diagram of the search system 300 according to the third embodiment, and a functional block diagram of the management server 304 and the beacon terminal 308.
Search system 300 includes portable information terminal 1, portable information terminal 3, management server 304, and beacon terminal 308.
<Management server 304>
The management server 304 includes a control unit 340, a storage unit 50, and a communication I / F unit 59.
The condition determination unit 343 included in the control unit 340 determines the search start condition when the condition ID of the condition master table 53 (see FIG. 6) is “3”.

<Beacon terminal 308>
The beacon terminal 308 is a terminal attached to an object that is not normally moved. Such a thing is the safe 309 etc., for example.
The beacon terminal 308 includes a control unit 380, a storage unit 85, an acceleration sensor 382, and a radio wave transmission unit 387.
The control unit 380 is a CPU that controls the entire beacon terminal 308. The control unit 380 executes various functions in cooperation with the hardware described above by appropriately reading and executing the OS and application programs stored in the storage unit 85.
For example, the acceleration sensor 382 detects the movement of the safe 309 to be attached. The acceleration sensor 382 has a function of outputting acceleration information to the control unit 380 when movement is detected.
The radio wave transmission unit 387 transmits a radio wave including a beacon ID. In addition, when receiving the acceleration information, the radio wave transmission unit 387 transmits a radio wave including the beacon ID and the acceleration information. The point that the radio wave sending unit 387 sends strong and weak radio waves at predetermined time intervals is the same as in the first embodiment.

<Preparatory processing>
Next, a pre-preparation process performed by the client who wants to monitor the safe 309 with respect to the management server 304 as a premise of the process by the search system 300 will be described. This advance preparation process is performed by the client using the portable information terminal 3, for example.
The advance preparation process is the same as that of the first embodiment except that the condition ID is set to “3”. When the condition ID is set to “3”, it is not necessary to set the condition contents. The portable information terminal 3 transmits search condition information including the beacon ID, the condition ID, the client contact information, and the terminal ID of the portable information terminal 3 to the management server 304.
The control unit 340 of the management server 304 stores the search condition information received from the portable information terminal 3 in the condition content table 51 and the beacon management table 52. For example, the condition ID is set to “3”, and the search start condition is set to “acceleration information> 0”. The client contact address is the client's e-mail address. Then, the management server 304 transmits a registration completion notification to the portable information terminal 3. The portable information terminal 3 receives the registration completion notification transmitted from the management server 304. By doing so, the client of the portable information terminal 3 can know that the search start condition for the safe 309 has been set.

<Processing of portable information terminal 1>
Next, the process of the portable information terminal 1 will be described.
The processing of the portable information terminal 1 is the same as that in FIG. 3 (first embodiment). In addition, when the radio wave detection information further includes acceleration information in the received beacon radio wave, the radio wave detection information also includes the acceleration information.

<Processing of Management Server 304>
Next, processing of the management server 304 will be described.
FIG. 15 is a flowchart showing search processing in the management server 304 according to the third embodiment.
Note that the search processing of the management server 304 described below is executed every time radio wave detection information is received.
The processes of S340 and S341 are the same as S40 and S41 of FIG. 5 (first embodiment).
The processing from S342 to S344 is the same as S44, S46, and S47 in FIG. 5 (first embodiment). When the search flag is ON in S344 (S344: NO), the control unit 340 moves the process to S348.

In S345, the control unit 340 (condition determining unit 343) refers to the beacon management table 52 and the condition content table 51, and refers to the condition content corresponding to the corresponding beacon ID. Then, the control unit 340 (condition determining unit 343) determines whether or not the received radio wave detection information includes acceleration information. When the acceleration information is included (S345: YES), the control unit 340 moves the process to S346. On the other hand, when the acceleration information is not included (S345: NO), the control unit 340 ends this process.
In this example (safe 309), regardless of the radio wave intensity, the number of receptions, etc. of the received radio wave detection information, if the radio wave detection information includes acceleration information, no matter what the radio wave intensity is, 1 It is determined that the search start condition is met even if it is received twice. When the acceleration information is not included in the radio wave detection information, it is determined that the search start condition is not met, and the control unit 340 does not perform subsequent processing.
Steps S346 to S348 are the same as steps S50 to S52 in FIG.
Note that the safe 309 has been described as an example, but other than that, the safe 309 can be applied if it is not normally moved, such as furniture.

Thus, according to the third embodiment, there are the following effects.
The beacon terminal 308 includes an acceleration sensor 382. Therefore, when the acceleration information is included in the radio wave from the beacon terminal 308 provided in the safe 309, the management server 304 matches the search start condition, and can notify the client that the safe 309 has moved.

(Fourth embodiment)
In the fourth embodiment, what is applied to a stamp rally will be described.
<Search system 400>
FIG. 16 is an overall schematic diagram of a search system 400 according to the fourth embodiment.
FIG. 17 is a block diagram of the management server 404 and an example of the digital stamp table 454 stored in the storage unit 450 according to the fourth embodiment.
A search system 400 illustrated in FIG. 16 includes a portable information terminal 401, a portable information terminal 403, a management server 404, and beacon terminals 408A to 408E.

  In the search system 400, a stamp rally organizer Y attaches a beacon terminal 408 to a stamp rally participant searching in a stamp rally venue. In this example, there are five stamps acquired as the stamp rally, and the beacon terminals 408A to 408E corresponding to the stamps are attached to the posters 409A to 409E (search object). The portable information terminal 401C of the user C who is a stamp rally participant (hereinafter, the portable information terminal 401 of the user C is referred to as the portable information terminal 401C) is, for example, a radio wave transmitted by the beacon terminal 408A attached to the poster 409A. And the radio wave detection information is transmitted to the management server 404. Then, the management server 404 determines whether or not it is a target according to the reception condition of the radio wave detection information received from the portable information terminal 401C. To send (notify) the digital stamp data. As a result, the user C can search the poster 409 in the stamp rally venue and collect various digital stamp data.

<Management server 404>
As shown in FIG. 17A, the management server 404 includes a control unit 440, a storage unit 450, and a communication I / F unit 59.
The condition determination unit 443 provided in the control unit 440 determines the search start condition when the condition ID of the condition master table 53 (see FIG. 6) is “4”.
The notification unit 444 included in the control unit 440 transmits the digital stamp data to the portable information terminal 401.
As shown in FIG. 17B, the digital stamp table 454 included in the storage unit 450 stores a beacon ID and digital stamp data in association with each other.
In this embodiment, the beacon terminals 408 (408A to 408E) are the same as those in the first embodiment, except that the beacon terminals 408 (408A to 408E) transmit only radio waves with weak radio wave intensity (beacon radio waves corresponding to the above-described Bluetooth Class 2). is there.

<Preparatory processing>
Next, as a premise for the processing by the search system 400, a preparation process performed by the organizer Y for the management server 404 will be described. This advance preparation process is performed by the organizer Y using the portable information terminal 403.
The organizer Y registers the beacon ID, search start condition, and digital stamp data of the beacon terminals 408A to 408E attached to the posters 409A to 409E using the portable information terminal 403. The registration method is the same as that of the first embodiment except that digital stamp data is registered instead of inputting the client contact information. In this example, the condition ID is set to “4”, and the search start condition is set as the stamp rally holding period (for example, from 10:00 on February 1, 2014 to 20:00 on February 28, 2014). The digital stamp data is image data in this example.

The control unit 440 of the management server 404 updates the condition content table 51 and the beacon management table 52 with the search condition information received from the portable information terminal 403. For example, the condition ID is set to “4” and the search start condition is set to a time zone (for example, 2014/2/1 10: 0 to 2014/2/28 20:00). In addition, the control unit 440 stores the digital stamp data received from the portable information terminal 403 in the digital stamp table 454. Then, the management server 404 transmits a registration completion notification to the portable information terminal 403.
The portable information terminal 403 receives the registration completion notification transmitted from the management server 404. By doing so, the organizer Y of the portable information terminal 403 can know that the search start condition has been set.

<Processing of portable information terminal 401>
Next, processing of the portable information terminal 401 will be described.
FIG. 18 is a flowchart showing processing in the portable information terminal 401 according to the fourth embodiment.
As a premise of this processing, a search program is installed in advance in the portable information terminal 401.
Further, the processing of the portable information terminal 401 described below is repeatedly executed during execution of the search program.

  In S410, the control unit (radio wave receiving unit) of the portable information terminal 401 determines whether or not a beacon radio wave has been received. When the portable information terminal 401 exists within the reception range of beacon radio waves from the beacon terminal 408 (any of 408A to 408E) (for example, within 10 m), the control unit may receive the beacon radio waves. it can. When the beacon radio wave is received (S410: YES), the control unit moves the process to S411. On the other hand, when the beacon radio wave is not received (S410: NO), the control unit ends this process.

In S411, the control unit (information transmission unit) transmits the radio wave detection information to the management server 404. The radio wave detection information includes a beacon ID included in the radio wave received in S410. The radio wave detection information includes the terminal ID of the portable information terminal 401.
The processing in the management server 404 that has received the radio wave detection information will be described later.
In step S412, the control unit determines whether digital stamp data has been received from the management server 404 within a predetermined time. The management server 404 transmits the digital stamp data to the portable information terminal 401 when the search start condition is satisfied. If the digital stamp data is received within the predetermined time (S412: YES), the control unit moves the process to S413. On the other hand, when the digital stamp data has not been received within the predetermined time (S412: NO), the control unit ends this process.

In step S413, the control unit (input screen output unit) displays a digital stamp on the touch panel display. Thereafter, the control unit ends this process.
The digital stamp is as shown in FIG. The participant can save this in the storage unit of the portable information terminal 401.
In S414, the control unit determines whether a coupon ID has been received. When all the stamp data are collected, the portable information terminal 401 can receive the coupon ID transmitted by the management server 404. When the coupon ID is received (S414: YES), the control unit moves the process to S415. On the other hand, when the coupon ID has not been received (S414: NO), the control unit ends this process.
In S415, the control unit displays the coupon ID on the touch panel display. Thereafter, the control unit ends this process.

<Processing of management server 404>
Next, processing of the management server 404 will be described.
FIG. 19 is a flowchart showing search processing in the management server 404 according to the fourth embodiment.
Note that the search processing of the management server 404 described below is executed every time radio wave detection information is received.
Steps S440 to S444 are the same as steps S40, S41, S44, S46, and S47 in FIG. 5 (first embodiment). When the search flag is ON in S444 (S444: NO), the control unit 440 moves the process to S447.

In S445, the control unit 440 (condition determination unit 443) refers to the condition content table 51 and refers to the condition content corresponding to the corresponding beacon ID. Then, the control unit 440 (condition determination unit 443) determines whether or not the reception date / time of the radio wave detection information is within the condition period. When the reception date and time of the radio wave detection information is within the condition period (S445: YES), the control unit 440 moves the process to S446. On the other hand, when the reception date / time of the radio wave detection information is not within the period of the condition (S445: NO), the control unit 440 ends this process.
In S446, the control unit 440 (flag changing unit 46) changes the search flag corresponding to the corresponding beacon ID in the beacon management table 52 from OFF to ON.

In the example of the beacon ID “B041A”, the reception date and time of the radio wave detection information after receiving the beacon radio wave transmitted by the beacon terminal 408A attached to the poster 409 is after 10:00 on February 1, 2014, and If it is within the period (S445: YES), the search start condition is met. Therefore, it is after the start of the stamp rally. On the other hand, if the reception date / time of the radio wave detection information is before 10:00 on February 1, 2014 (S445: NO), even if the beacon radio wave transmitted by the beacon terminal 408A is received, the search start condition is not met. Therefore, the stamp rally is not started.
Note that the change of the search flag from ON to OFF may be automatically changed by the control unit 440 on the condition that the current date and time is out of the period. Further, the organizer Y may operate the portable information terminal 403 to turn it off.

In S447, the control unit 440 (notification unit 444) refers to the digital stamp table 454 and transmits digital stamp data corresponding to the beacon ID to the portable information terminal 401.
In S <b> 448, the control unit 440 stores the terminal ID and the beacon ID in the storage unit 450 in association with each other.
In S449, the control unit 440 refers to the association between the terminal ID stored in the storage unit 450 and the beacon ID, and determines whether or not all stamps have been collected for the terminal ID. In this example, when the portable information terminal 401 has received beacon radio waves from the beacon terminals 408A to 408E after the stamp rally starts, all stamps have been collected. When all the stamps have been collected (S449: YES), the control unit 440 moves the process to S450. On the other hand, when all the stamps have not been collected (S449: NO), the control unit 440 ends this process.
In S450, control unit 440 transmits coupon ID stored in advance in storage unit 450 to portable information terminal 401. Then, the control part 440 complete | finishes this process.

Thus, according to the fourth embodiment, there are the following effects.
(1) The search system 400 can implement a stamp rally using beacon radio waves from the beacon terminals 408A to 408E. In addition, a stamp rally participant can participate in the stamp rally by a simple operation of installing a search program in his / her portable information terminal 401.
(2) If the organizer Y registers the holding period of the stamp rally in the management server 404 in advance, it can be automatically held when the holding period comes. Therefore, since it is not necessary to perform the act for starting on the spot, it can be made less time-consuming.

(Fifth embodiment)
In the fifth embodiment, a description will be given of a search for a search object by a plurality of portable information terminals to notify the discovery.
<Search system 500>
FIG. 20 is an overall configuration diagram of a search system 500 and a functional block diagram of the management server 504 according to the fifth embodiment.
The search system 500 includes a plurality of portable information terminals 1 (for example, 1X, 1Y, 1Z), a portable information terminal 3, a management server 504, and a beacon terminal 8.
The plurality of portable information terminals 1 have the same configuration as the portable information terminal 1 of the first embodiment.
When the beacon terminal 8 moves, when a plurality of portable information terminals 1 and the beacon terminals 8 approach each other, a beacon radio wave to be transmitted is received.

<Management server 504>
The management server 504 includes a control unit 540, a storage unit 50, and a communication I / F unit 59.
The condition determination unit 543 included in the control unit 540 determines the search start condition when the condition ID of the condition master table 53 is “4”.

<Preparatory processing>
Next, as a premise of processing by the search system 500, a pre-preparation process performed by the client of the dog 9 on the management server 504 will be described. This advance preparation process can be performed by the client using the portable information terminal 3, for example.
The advance preparation process is the same as that of the first embodiment except that the condition ID is set to “4” and the condition contents are specified so as to satisfy the condition corresponding to the condition ID “4”.
In this embodiment, the time interval and the number of terminals are set. That is, when the number of terminals that have received beacon radio waves during a certain time interval is extremely large, it is determined that the state is different from normal, and the dog 9 with the beacon terminal 8 attached is assumed to have escaped. It is.

<Processing of management server 504>
Next, processing of the management server 504 will be described.
FIG. 21 is a flowchart showing search condition determination processing in the management server 504 according to the fifth embodiment.
The search process of the management server 504 is the same as that in FIG. 5 (first embodiment).
In S560, the control unit 540 (condition determination unit 543) refers to the condition content table 51 (see FIG. 8) and confirms the condition content corresponding to the corresponding beacon ID. And the control part 540 extracts the detection log of beacon ID within the time range set retroactively from the present time.
In S561, the control unit 540 calculates the number of different terminal IDs from the extracted detection log. The control unit 540 can calculate the number of different terminal IDs by aggregating the same terminal IDs.

In step S562, the control unit 540 determines whether or not the calculated number of terminal IDs satisfies the condition stored in the condition content table 51. When the calculated number of terminal IDs satisfies the condition (S562: YES), the control unit 540 moves the process to S563. On the other hand, when the calculated number of terminal IDs does not satisfy the condition (S562: NO), the control unit 540 moves the process to S563a.
In S563, the control unit 440 determines that the condition in the condition content table 51 is satisfied. Thereafter, the control unit 440 ends this process and returns to the search process (FIG. 5).
On the other hand, in S563a, the control unit 440 determines that the condition in the condition content table 51 is not satisfied. Thereafter, the control unit 440 ends this process and returns to the search process (FIG. 5).

  In the example where the beacon ID is “B0505”, when a beacon radio wave having the beacon ID “B0505” has been received from 100 or more portable information terminals 1 within 10 minutes from the current time (S562: YES). Matches the search start condition.

Thus, according to the fifth embodiment, there are the following effects.
A plurality of portable information terminals 1 can detect a beacon radio wave from the beacon terminal 8 and transmit radio wave detection information to the management server 504.
Since the management server 504 stores the detection log in response to reception of the radio wave detection information, the number of receiving terminals within a unit time is out of the preset allowable range from the reception status of the past detection log. In such a case, it can be notified that the state is different from the normal state.

(Sixth embodiment)
In the sixth embodiment, what is applied to a treasure hunt game will be described.
<Search system 600>
FIG. 22 is a functional block diagram of a search system 600 according to the sixth embodiment.
The search system 600 includes a portable information terminal 601, a management server 604, and a beacon terminal 608.

<Portable information terminal 601>
In addition to the control unit 610, the storage unit 620, the touch panel display 26, the Bluetooth antenna 27, the GPS antenna 28, and the communication I / F unit 29, the portable information terminal 601 includes an NFC chip (Near Field Communication) 624. And an NFC antenna 624a.
The control unit 610 receives a beacon radio wave transmitted from the beacon terminal 608 and transmits radio wave detection information to the management server 604. In addition, the control unit 610 transmits the chip ID stored in the NFC chip 624 to the management server 604 through communication between the beacon terminal 608 and the NFC antenna 624a.
The search program 620a stored in the storage unit 620 is a program for executing the processing of the control unit 610 described above.

The NFC chip 624 is an IC (Integrated Circuit) chip created according to the NFC standard. NFC standards (ISO / IEC18092 (NFC IP-1), ISO / IEC21481 (NFC IP-2)) allow for short-range wireless communication that uses 13.56MHz electromagnetic waves and performs data communication at a close range of about 100mm. It is. The NFC chip 624 performs short-range wireless communication with the beacon terminal 608 according to the NFC standard using the NFC antenna 624a.
The NFC antenna 624a is a loop antenna.

<Management server 604>
The management server 604 includes a control unit 640, a storage unit 650, and a communication I / F unit 59.
The condition determination unit 643 included in the control unit 640 determines a search start condition when the condition ID of the condition master table 53 is “6”.
The notification unit 644 included in the control unit 640 transmits the position display data to the portable information terminal 601.
The coupon table 655 (privilege storage unit) included in the storage unit 650 stores the rank (order) and the coupon ID in association with each other. The value indicated by the coupon ID is higher as the rank is higher. For example, if the rank is No. 1, it is a coupon for 1000 yen discount, and if the rank is No. 2, it is a coupon for 500 yen discount.

<Beacon terminal 608>
A beacon terminal 608 is a terminal attached to a treasure 609 (search object) arranged in a treasure hunt area.
The beacon terminal 608 includes an NFC chip 684 and an NFC antenna 684a in addition to the control unit 680, the storage unit 85, and the radio wave transmission unit 87.
The control unit 680 is a CPU that controls the entire beacon terminal 608.
The NFC chip 684 is an IC chip created according to the NFC standard. The NFC chip 684 performs short-range wireless communication with the portable information terminal 601 according to the NFC standard using the NFC antenna 684a. The NFC chip 684 stores a chip ID that identifies the NFC chip in its storage unit (not shown).
The NFC antenna 684a is a loop antenna.

<Preparatory processing>
Next, as a premise of processing by the search system 600, a preparatory processing performed by the treasure hunting game organizer for the management server 604 will be described. This preparatory process is performed by the treasure hunt game organizer using a registration portable information terminal (not shown).
The treasure hunt game organizer registers the beacon ID, the chip ID, and the search start condition of the beacon terminal 608 attached to the treasure 609 using the registration portable information terminal. This can be realized by the registration portable information terminal having the same configuration as the portable information terminal 601 and installing and executing a pre-registration program (not shown) instead of the search program 620a, for example. The control unit of the registration portable information terminal receives a beacon radio wave transmitted from the beacon terminal 608. This beacon radio wave includes a beacon ID.

  And the control part of the portable information terminal for registration inputs condition ID (refer FIG. 6) from a condition registration screen (not shown). Further, by bringing the registration portable information terminal and the beacon terminal 608 close to each other, the control unit of the registration portable information terminal performs near field communication with the beacon terminal 608 according to the NFC standard and receives the chip ID. The treasure hunt game organizer inputs search start conditions corresponding to the condition ID and coupon information. The control unit of the registration portable information terminal receives the received beacon ID, chip ID, condition ID, search start condition, and coupon information, and sends search condition information including these information to the management server 604. Send to. In this example, the condition ID is set to “6”, and the search start condition is a treasure hunt game holding period (for example, from 10:00 to 20:00 on March 1, 2014).

  The control unit 640 of the management server 604 stores the search condition information received from the registration portable information terminal in the condition content table 51 and the beacon management table 52. In addition, the control unit 640 stores the coupon information received from the registration portable information terminal in the coupon table 655. Then, the management server 604 transmits a registration completion notification to the registration portable information terminal. The registration portable information terminal receives the registration completion notification transmitted from the management server 604. By doing so, the treasure hunting game organizer who has operated the registration portable information terminal can know that the search start condition has been set.

<Processing of portable information terminal 601>
Next, processing of the portable information terminal 601 will be described.
FIG. 23 is a flowchart showing processing in the portable information terminal 601 according to the sixth embodiment.
FIG. 24 is a diagram illustrating a display example of the portable information terminal 601 according to the sixth embodiment.
As a premise of this processing, a search program 620a is installed in advance in the portable information terminal 601.
Further, the processing of the portable information terminal 601 described below is repeatedly executed during the execution of the search program 620a.

In S610 of FIG. 23, control unit 610 (radio wave receiving unit 11) of portable information terminal 601 determines whether or not a beacon radio wave has been received. When the portable information terminal 601 is within the reception range (for example, within 50 m) of the beacon radio wave from the beacon terminal 608, the control unit 610 (radio wave reception unit 11) can receive the beacon radio wave. When the beacon radio wave is received (S610: YES), the control unit 610 moves the process to S611. On the other hand, when the beacon radio wave is not received (S610: NO), the control unit 610 moves the process to S614.
In step S611, the control unit 610 (information transmission unit 13) transmits the radio wave detection information to the management server 604. The radio wave detection information includes a beacon ID included in the beacon radio wave received in S610. The radio wave detection information includes the terminal ID of the portable information terminal 601.
The processing in the management server 604 that has received the radio wave detection information will be described later.

In step S <b> 612, the control unit 610 determines whether position display data has been received from the management server 604. The management server 604 transmits the position display data to the portable information terminal 601 when the search start condition is satisfied. When the position display data is received (S612: YES), the control unit 610 moves the process to S613. On the other hand, if position display data has not been received (S612: NO), control unit 610 moves the process to S614.
In step S <b> 613, the control unit 610 displays the position display screen 662 on the touch panel display 26.

When the position display data is received, the control unit 610 of the portable information terminal 601 displays a pop-up message 660 on the touch panel display 26 as shown in FIG. Here, when the treasure hunt game participant wants to confirm the position of the treasure 609, the control unit 610 displays a position display screen as shown in FIG. 662 is displayed. The treasure hunt game participant can check the distance from the current position of the treasure 609 while viewing this screen, and can approach the treasure 609.
The position display screen 662 is displayed once based on the position display data updated every time the control unit 610 (radio wave receiving unit 11) of the portable information terminal 601 receives a beacon radio wave after being displayed once. May be. In that case, the position display screen 662 can be updated so that it can be seen how the treasure 609 is gradually approached.

Returning to FIG. 23, in step S614, the control unit 610 determines whether an NFC tag ID has been received. When the treasure hunt game participant finds the treasure 609, the beacon terminal 608 attached to the treasure 609 and the portable information terminal 601 are brought close to each other. By doing so, the control unit 610 can receive the tag ID of the NFC chip 684 included in the beacon terminal 608. When the tag ID of the NFC chip 684 is received (S614: YES), the control unit 610 moves the process to S615. On the other hand, when the tag ID of the NFC chip 684 has not been received (S614: NO), the control unit 610 ends this process.
In step S615, the control unit 610 transmits the tag ID to the management server 604.
By doing so, the management server 604 performs rank determination processing described later.
In step S616, the control unit 610 receives the discovery order data and causes the touch panel display 26 to display the discovery order data. Thereafter, the control unit 610 ends this process.

<Processing of Management Server 604>
Next, processing of the management server 604 will be described.
FIG. 25 is a flowchart showing search processing in the management server 604 according to the sixth embodiment.
Note that the search processing of the management server 604 described below is executed repeatedly at all times.
In S640, the control unit 640 (information receiving unit 41) of the management server 604 determines whether or not the radio wave detection information transmitted from the portable information terminal 601 has been received. When the radio wave detection information is received (S640: YES), the control unit 640 moves the process to S641. On the other hand, when the radio wave detection information is not received (S640: NO), the control unit 640 moves the process to S646.
Steps S641 to S645 are the same as steps S441 and S443 to S446 in FIG. 19 (fourth embodiment).

In the example where the beacon ID is “B0606” (see FIG. 8), the reception date and time of the radio wave detection information after receiving the beacon radio wave transmitted from the beacon terminal 608 attached to the treasure 609 is “10:00 March 1, 2014. ”Or later and within the period, the search start condition is met. Therefore, the portable information terminal 601 starts a treasure hunt game. On the other hand, if the reception date / time of the radio wave detection information is before “10:00 on March 1, 2014”, even if the beacon radio wave transmitted by the beacon terminal 608 is received, the search start condition is not met. Therefore, the portable information terminal 601 does not start the treasure hunt game.
Note that the change of the search flag from ON to OFF may be automatically changed by the control unit 640 on the condition that the current date and time is out of the period. The treasure hunt game organizer may operate the registration portable information terminal to turn it off.

In S646, control unit 640 determines whether or not the search flag is ON. If the search flag is ON (S646: YES), the control unit 640 moves the process to S647. On the other hand, when the search flag is OFF (S646: NO), the control unit 640 ends this process.
In S647, the control unit 640 determines whether or not the tag ID of the NFC chip 684 is received from the portable information terminal 601. If this tag ID is received (S647: YES), the control unit 640 moves the process to S648. On the other hand, if this tag ID has not been received (S647: NO), the control unit 640 moves the process to S648a.
In S648, the control unit 640 performs ranking determination processing. Thereafter, the control unit 640 ends this process.
On the other hand, in S648a, control unit 640 (notification unit 644) generates position display data from the strength of the radio wave intensity included in the received radio wave detection information, and transmits it to portable information terminal 601. Thereafter, the control unit 640 ends this process.

Next, the order determination process will be described.
FIG. 26 is a flowchart showing the order determination processing in the management server 604 according to the sixth embodiment.
In step S670, the control unit 640 causes the storage unit 650 to store the tag ID and the terminal ID in association with each other.
In step S671, the control unit 640 refers to the association between the tag ID stored in the storage unit 650 and the terminal ID, and determines the discovery order for the terminal ID.
In S672, the control unit 640 determines whether or not it is within a predetermined order. For example, if the coupon ID set in the coupon table 655 is up to the top ten, the predetermined ranking is the tenth. If it is within the predetermined order (S672: YES), the control unit 640 moves the process to S673. On the other hand, when it is not in the predetermined order (S672: NO), the control unit 640 moves the process to S674a.

In S673, the control unit 640 refers to the coupon table 655 and acquires a coupon ID corresponding to the rank.
In S674, the control unit 640 generates discovery rank data including a coupon ID. The discovery order data is, for example, page data written as “You have found a treasure in the xxth place” (XX represents the order). Thereafter, the control unit 640 moves the process to S675.
On the other hand, in S674a, the control unit 640 generates discovery rank data. In this case, the coupon ID which is a prize is not included.
In step S675, the control unit 640 transmits discovery order data to the portable information terminal 601. Thereafter, the control unit 640 ends this process.

Thus, according to the sixth embodiment, there are the following effects.
(1) The portable information terminal 601 receives a beacon radio wave transmitted from the beacon terminal 608 and transmits it to the management server 604. Therefore, the management server 604 can generate the position display data of the treasure 609 to which the beacon terminal 608 is attached based on the strength of the received beacon radio wave and transmit it to the portable information terminal 601.
Since the portable information terminal 601 receives the position display data and outputs the position display screen in a manner in which the distance from the treasure 609 can be understood, the position of the treasure 609 can be easily displayed to the participant.
(2) The portable information terminal 601 and the beacon terminal 608 can detect that they have approached the position until they approach each other using the NFC chip. Then, the portable information terminal 601 receives the chip ID of the NFC chip 684 of the beacon terminal 608 and transmits it to the management server 604, so that the management server 604 can grasp the order of finding the treasure 609. And in the management server 604, a coupon can be provided in order of discovery.
(3) Since the coupon content is higher in rank as the rank is higher, the participant can produce an effect of trying to acquire a coupon with higher value.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to embodiment mentioned above. In addition, the effects described in the embodiments are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are not limited to those described in the embodiments. In addition, although embodiment mentioned above and the deformation | transformation form mentioned later can also be used in combination as appropriate, detailed description is abbreviate | omitted.

(Deformation)
(1) In the first embodiment, the beacon terminal 8 transmits a beacon radio wave including a beacon ID. However, the beacon terminal may include a biological sensor (biological information detection unit) and transmit a beacon radio wave including information detected by the biological sensor. The biological sensor may detect a pulse rate of a search object (for example, a dog). By doing so, it is possible to set the normal pulse rate range to be set as a search start condition and to notify when a pulse rate different from the normal time is detected. The biological sensor is not limited to detecting the pulse rate as long as it can detect a difference from normal.

  (2) In the first embodiment, when a radio wave from the beacon terminal 8 is received outside the search area within the search target time, the search flag is turned on and notified to the portable information terminal 1 of the client X. did. However, the management server does not set the outside of the search area, sets a condition that the distance difference between the position information of the plurality of portable information terminals that detected the beacon radio waves at different times is outside the allowable range, and satisfies the condition In this case, the request flag may be notified by turning on the search flag. In this case, the search can be started by detecting that the search object attached with the beacon terminal has moved without specifying the district.

(3) In the first embodiment, the dog 9 has been described as an example of the search object. However, the present invention can be applied to other pets and even persons (children, elderly people, etc.) other than pets. In that case, by setting the content outside the activity range in daily life as the condition content, it is possible to notify when the activity is performed at a different place and / or at a different time. Moreover, it is not limited to living things, and things, such as a bicycle, may be sufficient.
(4) In the first embodiment, an example of searching for the dog 9 has been described. However, this search system can be used not only for search but also for providing guidance information in accordance with the opening time of a store by attaching a beacon terminal to a store entrance or the like.
In that case, the set time zone may include date and time, day of the week, and the like.

(5) In the first embodiment, the position information is described as being acquired by GPS. However, the location information may be an address manually entered by the user.
(6) In the first embodiment, the management server 4 has been described as determining whether or not the management server 4 is included in the time zone of the condition using the date and time information when the radio wave detection information is received from the portable information terminal 1. However, the date and time information when the portable information terminal 1 receives the beacon radio wave is included in the radio wave detection information and transmitted, and the date and time information included in the radio wave detection information is used to determine whether it is included in the time zone of the condition. May be.

(7) In 1st Embodiment, the coupon by information provision shall be memorize | stored in the memory | storage part 50. FIG. However, this coupon may be selected by the client in advance preparation processing. In that case, the coupon may be stored in the storage unit in association with the beacon ID. By doing so, a coupon for the user who has searched the search object by the client can be determined in advance as a reward. Further, when the user provides information, the contents of the coupon may be displayed on the information input screen. By doing so, the user can decide whether to input information according to the content of the displayed coupon.
(8) In 1st Embodiment, it demonstrated as what transmits the coupon which can be used by the purchase specified by coupon ID to the portable information terminal 1 which provided information. However, it is not limited to coupons as long as it is an incentive for providing information. For example, points that can be used for purchase may be used.

  (9) In the first embodiment, the preparatory process has been described by installing and executing the registration program 35a on the portable information terminal 3. However, the pre-preparation process may be performed by accessing a web page for performing the pre-preparation process and inputting it on the web page without installing the registration program.

  (10) In the first to third embodiments and the fifth embodiment, the management server notifies the client by e-mail, and the information provided by the user is confirmed by changing the URI. As explained. However, the management server may create an e-mail including information provided by the user and provide it to the client.

(11) In the sixth embodiment, the portable information terminal 601 and the beacon terminal 608 have been described as including NFC chips. However, the portable information terminal may be provided with a reader for reading the code, and the beacon terminal may have a barcode or a two-dimensional code on which the code ID is stored on the surface. By doing so, the management server may receive the code ID from the portable information terminal and determine that the portable information terminal has reached the position of the search object.
(12) In the sixth embodiment, it has been described that the management server 604 generates position display data and transmits it to the portable information terminal 601 so that the portable information terminal 601 displays the received position display data. However, you may make it have a function which produces | generates position display data in the search program of a portable information terminal. In this case, the management server does not need to perform processing for generating position display data and communication for receiving position display data.

(13) In each of the embodiments, the terminal ID is transmitted as an example for identifying the portable information terminal. However, the present invention is not limited to this. What is necessary is just to be able to specify the portable information terminal, for example, an ID of a search program that is different for each terminal.
(14) In each embodiment, the management server has been described as one server. However, the condition server that determines whether or not the search start condition is satisfied and the notification server that notifies the mobile information terminal when the condition is satisfied may be provided as separate servers. In this case, the condition server may request notification to the notification server that performs the push distribution service, and the processing distribution can be achieved.

  (15) In the first to third embodiments, it has been described that the mobile information terminal and the management server determine whether to start a search. However, an integrated search device having the functions of the portable information terminal and the management server may be used.

1, 401, 601 Portable information terminal 3, 203, 403 Portable information terminal 4, 204, 304, 404, 504, 604 Management server 8, 308, 408A to 408E, 608 Beacon terminal 9 Dog 10, 410, 610 Control unit 11 Radio wave reception unit 12 Position information acquisition unit 13 Information transmission unit 14 Input screen output unit 15 Input information transmission unit 20,620 Storage unit 20a, 620a Search program 27 Bluetooth antenna 30, 230 Control unit 35, 235 Storage unit 40, 240, 340 , 440, 540, 640 Control unit 41 Information receiving unit 42 Flag acquisition unit 43, 243, 343, 443, 543, 643 Condition determination unit 44 Notification unit 45 Benefit granting unit 46 Flag change unit 50, 450, 650 Storage unit 51 Conditions Contents table 52 Beacon management table 53 Condition master table 61 Information input screen 80, 380, 680 Control unit 85 Storage unit 87, 387 Radio wave transmission unit 100, 200, 300, 400, 500, 600 Search system 237 Bluetooth antenna 309 Safe 382 Acceleration sensor 409 Poster 454 Digital stamp Table 609 Treasure 624, 684 NFC chip 655 Coupon table 662 Position display screen N Communication network

Claims (1)

A portable information terminal carried by multiple users ;
A management device for transmitting and receiving data to and from the portable information terminal;
A plurality of radio wave transmitters for transmitting device identification information for identifying the radio wave transmitters within a predetermined distance ;
In a search system comprising:
The portable information terminal
As an initial setting of the radio wave transmitter, the radio wave transmitter owned by a specific user is associated with the portable information terminal owned by the same user, and the correspondence is transmitted to the management device together with the device identification information. Pre-processing means to
Radio wave receiving means for receiving radio waves including the device identification information transmitted from any of the radio wave transmitters;
When the device identification information is received from any of the radio wave transmitters, position information acquisition means for acquiring own position information at the timing received by the mobile information terminal received ,
The location information where the device identification information and the positional information acquiring unit it receives has acquired, and information transmitting means for transmitting to said management apparatus,
With
The management device
A search start condition storage unit for storing a correspondence relationship between the device identification information and the portable information terminal transmitted by the preprocessing unit ;
When the device identification information and the position information are received from the portable information terminal that has received the device identification information from any of the radio wave transmitters, the device identification information is referred to by referring to the search start condition storage unit The portable information terminal associated with the radio wave transmitter of the identified user is identified by the pre-processing means, and information related to the position information is included in the portable information terminal of the identified user A notification means for performing notification;
Equipped with a,
The radio wave reception is within a predetermined distance from the search object to which the radio wave transmitter is attached and the search information indicating whether or not the search for the search object has been started. When the portable information terminal of any user having a means is located, the notifying means is provided to the portable information terminal of a specific user associated with the radio wave transmitter attached to the search object. With notifications
If the search information has not started searching, the notification means does not notify the portable information terminal associated with the device identification information,
The information related to the position information includes position display data represented in a shape centered on a position where radio waves are acquired by the portable information terminal ,
Search system characterized by

Images