JP2011060072A - Arrival confirmation system, server, terminal, control method of the arrival confirmation system, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow, in an arrival confirmation system for electronically confirming that a participant arrives at a check point, the participant to select the check point. <P>SOLUTION: The arrival confirmation system includes: a mobile communication terminal which transmits location information to a server according to a user's operation, receives a plurality of check points selectable by the user from the server followed by displaying, and reports arrival confirmation information for determining whether the user arrives at a specific check point; and the server which determines, upon receipt of the location information from the mobile terminal, whether a location shown by the location information is within an approval area of a zone, transmits check point information showing the plurality of check points contained in the zone to the mobile communication terminal when the location is within the approval area of the zone, and determines, upon receipt of the arrival confirmation information from the mobile communication terminal, whether the user of the mobile communication terminal arrives at the specific check point based on the arrival information. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an arrival confirmation system that electronically confirms that a participant has reached a checkpoint using a terminal.

  Events and competitions in which participants follow courses provided in facilities, grounds, and specific areas include stamp rallies, walk rallies, orienteering, walking, marathons, touring, excursions, etc. In these events, attempts have been made to facilitate event management using a terminal that moves with each participant, such as a mobile phone or a car navigation system, and a server that manages those terminals. It was.

  For example, in the electronic stamp rally system described in Patent Document 1, in addition to the terminal and the server, an access point that allows the terminal to connect wirelessly is installed at each check point. When the participant reaches the checkpoint, the terminal notifies the server that the participant has reached the checkpoint via the access point.

  In the event holding system described in Patent Document 2, in addition to the terminal and the server, each checkpoint is provided with a non-contact reader / writer capable of exchanging information without contact with the terminal. When the participant who has reached the check point holds the terminal over the contactless reader / writer, the terminal communicates with the contactless reader / writer and records that the participant has reached the checkpoint.

  In the information processing system described in Patent Document 3, the terminal is a communication device having a function of acquiring its own position information. When the participant reaches the checkpoint, the terminal uses the terminal to send the position information to the server. Send. Then, the server determines from the position information whether the participant has reached the checkpoint. Further, in this system, the server selects a checkpoint that is relatively free in consideration of the congestion of each checkpoint, and guides the participant to that point as the next checkpoint to which the participant should go.

JP 2007-219568 A JP 2007-011520 A JP 2003-187027 A

  However, the systems described in Patent Documents 1 to 3 have a problem that it is difficult to give a degree of freedom to participants who participate in events and competitions.

  In the systems described in Patent Document 1 and Patent Document 2, the course that the participant should turn around is determined in advance, and it is not assumed that the participant freely selects or changes the course.

  Further, in the system described in Patent Document 3, since the server determines the next check point, there is no room for the user's free will to intervene in the course to go around.

  An object of the present invention is to provide a technology that enables a participant to select a checkpoint in an arrival confirmation system that electronically confirms that a participant has reached a checkpoint.

  In order to achieve the above object, the arrival confirmation system of the present invention transmits position information indicating a current position to a server according to a user's operation, and indicates a plurality of checkpoints that can be selected by the user. Receives and displays checkpoint information from the server, and notifies the server of arrival confirmation information for determining whether or not the user has reached a specific checkpoint in accordance with the further operation of the user The mobile communication terminal and the one or more zones are pre-stored for each zone, the zone accreditation range and checkpoint information indicating a plurality of checkpoints included in the zone, When the position information is received from the communication terminal, it is determined whether or not the position indicated by the position information is within the authorized range of the zone. When the checkpoint information corresponding to the mobile station is transmitted to the mobile communication terminal and the arrival confirmation information is received from the mobile communication terminal, the user of the mobile communication terminal And a server for determining whether or not a specific checkpoint has been reached.

  The mobile communication terminal of the present invention includes a location information transmitting means for transmitting location information indicating a current location of a mobile communication device to a server in response to a user operation, and a plurality of checks that can be selected by the user. Receiving means for receiving checkpoint information indicating a point from the server; display means for displaying the checkpoint information received by the position information receiving means; and determining whether or not the user has reached the checkpoint. And arrival information transmission means for transmitting the arrival information to the server.

  The server according to the present invention includes a storage unit that stores, for each zone, an authorized range of the zone and checkpoint information indicating a plurality of checkpoints included in the zone, and a mobile communication terminal. Whether or not the position indicated by the position information received by the position information receiving means is a position within the authorized range of the zone stored in the storage means. A check point information transmitting means for reading the check point information corresponding to the zone from the storage means and transmitting it to the mobile communication terminal if the position is within the authorized range of the zone, and the mobile communication Arrival information receiving means for receiving arrival information for determining whether or not the user has reached a specific checkpoint from a terminal; Having a determination means for the user to determine whether the host vehicle has reached the specific checkpoint on the basis of the received arrival information by.

  According to the mobile communication device control method of the present invention, the position information transmitting means transmits position information indicating the current position of the mobile communication device to the server according to the operation of the user, and the receiving means is the user. Checkpoint information indicating a plurality of checkpoints that can be selected by the server is received from the server, the display means displays the checkpoint information received by the position information receiving means, and the arrival information transmitting means is the user This is a method for controlling a mobile communication terminal, in which arrival information for determining whether or not a checkpoint has been reached is transmitted to the server.

  In the server control method of the present invention, the position information receiving means receives position information from the mobile communication terminal, and the checkpoint information transmitting means indicates that the position indicated by the position information received by the position information receiving means is: It is determined whether or not the position is within the authorized range of the predetermined zone. If the position is within the authorized range of the zone, checkpoint information indicating a plurality of checkpoints included in the zone is sent to the mobile communication terminal. And the arrival information receiving means receives arrival information for determining whether or not the user has reached a specific checkpoint from the mobile communication terminal, and the determination means is received by the arrival information receiving means. The server control method determines whether the user has reached the specific checkpoint based on the received arrival information.

  According to a first aspect of the present invention, there is provided a program for transmitting a position information indicating a current position of a mobile communication device to a server in response to a user's operation. A reception procedure for receiving checkpoint information indicating a plurality of possible checkpoints from the server, a display procedure for displaying the checkpoint information received in the location information reception procedure, and whether or not the user has reached the checkpoint This is a program for executing an arrival information transmission procedure for transmitting arrival information for determining whether or not to the server.

  According to a second aspect of the present invention, there is provided a program that stores, in a computer, a position information reception procedure for receiving position information from a mobile communication terminal, and a position indicated by the position information received in the position information reception procedure is a predetermined zone. If the position is within the authorized range of the zone, checkpoint information indicating a plurality of checkpoints included in the zone is transmitted to the mobile communication terminal. Checkpoint information transmission procedure, arrival information reception procedure for receiving arrival information for determining whether or not the user has reached a specific checkpoint from the mobile communication terminal, and an arrival information reception procedure It is a program for executing a determination procedure for determining whether or not the user has reached the specific checkpoint based on the arrival information.

  According to the present invention, if the position of the terminal is in the zone, the server transmits checkpoint information indicating a plurality of checkpoints in the zone, and the terminal displays the plurality of checkpoints. It is possible to go around the course from a desired check point in the zone, and to provide a user with a high degree of freedom.

It is a figure which shows the example of 1 structure of the search type course recommendation system of the 1st Embodiment of this invention. It is the table | surface which put together the content registered into the personal information table of the 1st Embodiment of this invention. It is a table | surface which shows the content described in the zone discrimination | determination table of the 1st Embodiment of this invention. It is a table | surface which shows the content described in the checkpoint discrimination | determination table of the 1st Embodiment of this invention. It is a flowchart which shows operation | movement of the terminal of the 1st Embodiment of this invention. It is a flowchart which shows the personal information transmission process of this invention. It is a flowchart which shows the positional infomation transmission process of this invention. It is a flowchart which shows the image data transmission process of this invention. It is a flowchart which shows the zone related information display process of this invention. It is a flowchart which shows operation | movement of the server of the 1st Embodiment of this invention. It is a flowchart which shows the participant registration process of the 1st Embodiment of this invention. It is a flowchart which shows the checkpoint information transmission process of the 1st Embodiment of this invention. It is a flowchart which shows the checkpoint arrival discrimination | determination process of the 1st Embodiment of this invention. It is a flowchart which shows the zone related information transmission process of the 1st Embodiment of this invention. It is a sequence diagram which shows an example of the operation | movement of the search type course recommendation of the 1st Embodiment of this invention. It is an example of the screen of the terminal for registering the personal information of the 1st Embodiment of this invention. It is an example of the screen of the terminal which displayed the zone relevant information of the 1st Embodiment of this invention. It is an example of the screen for transmitting the schedule checkpoint information of the terminal of the 1st Embodiment of this invention, and image data. (A) It is a figure for demonstrating the search type course recommendation service of the 1st Embodiment of this invention. (B) It is a figure for demonstrating the search type course recommendation service of the 1st Embodiment of this invention. (A) It is a figure for demonstrating the search type course recommendation service of the 1st Embodiment of this invention. (B) It is a figure for demonstrating the search type course recommendation service of the 1st Embodiment of this invention. (A) It is a figure for demonstrating the search type course recommendation service of the 1st Embodiment of this invention. (B) It is a figure for demonstrating the search type course recommendation service of the 1st Embodiment of this invention. It is a table | surface which shows the content described in the zone discrimination | determination table of the modification of this invention. It is a table | surface which shows the content as described in the checkpoint discrimination | determination table of the modification of this invention. It is a figure which shows the example of 1 structure of the search type course recommendation system of the 2nd Embodiment of this invention. It is a flowchart which shows operation | movement of the terminal of the 2nd Embodiment of this invention. It is a table | surface which shows the content described in the checkpoint discrimination | determination table of the 2nd Embodiment of this invention. It is a flowchart which shows the checkpoint arrival discrimination | determination process of the 2nd Embodiment of this invention. It is a figure which shows the example of 1 structure of the search type course recommendation system of the 3rd Embodiment of this invention. It is a table | surface which shows the content described in the checkpoint discrimination | determination table of the 3rd Embodiment of this invention. It is a flowchart which shows operation | movement of the terminal of the 3rd Embodiment of this invention. It is a flowchart which shows the checkpoint arrival discrimination | determination process of the 3rd Embodiment of this invention. (A) It is an example of the screen of the terminal for transmitting the schedule checkpoint information of the 3rd Embodiment of this invention. (B) It is an example of the screen of the terminal for transmitting the answer information of the 3rd Embodiment of this invention. It is a figure which shows the example of 1 structure of the search type course recommendation system of the 4th Embodiment of this invention. It is a table | surface which shows the content described in the checkpoint discrimination | determination table of the 4th Embodiment of this invention. It is a flowchart which shows operation | movement of the terminal of the 4th Embodiment of this invention. It is a flowchart which shows the checkpoint arrival discrimination | determination process of the 4th Embodiment of this invention. It is a sequence diagram which shows an example of operation | movement of the search type course recommendation system of the 4th Embodiment of this invention. It is a table | surface which shows the content described in the checkpoint discrimination | determination table of the 5th Embodiment of this invention. (A) It is an example of the screen of the terminal for transmitting the schedule checkpoint information of the 5th Embodiment of this invention. (B) It is an example of the screen of the terminal for transmitting the schedule checkpoint information of the 5th Embodiment of this invention. is there. (A) It is an example of the screen of the terminal for transmitting the schedule checkpoint information of the 5th Embodiment of this invention. (B) It is an example of the screen of the terminal for transmitting the schedule checkpoint information of the 5th Embodiment of this invention. It is a figure for demonstrating the search type course recommendation service of the 5th Embodiment of this invention.

(First embodiment)
A first embodiment for carrying out the present invention will be described with reference to the drawings.

  In the present embodiment, as an example, an event is assumed in which a zone including a plurality of checkpoints is defined, and a participant goes around the zone and confirms electronic arrival at the checkpoint in the zone.

  Here, a check point is a point that a participant should reach in an event or competition. A zone is a concept that is geographically wider than a checkpoint, and is an area that a participant should reach in an event or competition. In this embodiment, zones other than the start and goal zones each include one or more checkpoints. In addition, at least one zone including a plurality of checkpoints is provided. In addition, the order in which the participants travel around the zone is determined in advance, but the order in which each participant can check the check points in the zone can be determined freely.

  FIG. 1 is a block diagram illustrating a configuration example of a search type course recommendation system 1 according to the present embodiment. The search type course recommendation system 1 is a communication system (arrival confirmation system) that electronically confirms that a participant has reached a checkpoint in an event or competition in which the participant passes through a plurality of checkpoints. The types of events include stamp rally, walk rally, orienteering, walking, marathon, touring and excursions.

  As shown in FIG. 1, the search type course recommendation system 1 includes a plurality of terminals including a terminal 10 and a server 20. Here, the description will focus on one terminal 10, but the other terminals have the same configuration as the terminal 10. In the figure, terminals other than the terminal 10 are omitted.

  The terminal 10 is a communication terminal that can communicate with the server 20 even while moving via a wireless line, and is, for example, a mobile phone. It is assumed that each participant goes around the course while holding a terminal such as the terminal 10 in the event.

  As illustrated in FIG. 1, the terminal 10 includes a control unit 101, an operation unit 102, a storage unit 103, a display unit 104, a transmission unit 105, and a reception unit 106.

  The control unit 101 controls the entire terminal 10. Specifically, the terminal 10 stores the personal information input to the operation unit 102 in the storage unit 103. The personal information includes information for identifying the participant, such as information indicating the participant's characteristics such as the gender and age of the participant (user of the mobile phone), and an identification number assigned to the participant (hereinafter, “ "Participant identification information"). The terminal 10 transmits the personal information of the participant carrying the terminal 10 to the server 20 via the transmission unit 105.

  In addition, the control unit 101 acquires position information indicating the current position of the terminal 10 by using a GPS (Global Positioning System) in response to an operation on the operation unit 102. The terminal 10 transmits the position information together with the participant identification information to the server 20 via the transmission unit 105.

  In addition, the control unit 101 transmits the scheduled checkpoint information input to the operation unit 102 to the server 20 via the transmission unit 105 together with the participant identification information. This scheduled checkpoint information is information indicating a point selected as a checkpoint to which the participant goes next from a plurality of checkpoints notified from the server 20 that has received the position information.

  The control unit 101 acquires image data by capturing an image with a camera in response to an operation on the operation unit 102. In the present embodiment, this image data is used as information for confirming that the participant carrying the terminal 10 has reached the scheduled checkpoint. The control unit 101 transmits the image data together with the participant identification information to the server 20 via the transmission unit 105.

  Further, the control unit 101 stores information received from the server 20 via the reception unit 105 in the storage unit 103 and causes the display unit 104 to display the information in accordance with the operation of the operation unit 102.

  Information received from the server 20 includes checkpoint related information, zone related information, determination result information, and privilege information.

  The checkpoint related information is information indicating a checkpoint in the zone such as a checkpoint name, a location, and a way to go, and information related to the checkpoint. The zone related information is information related to each zone such as the name, location, and directions of the zone. The terminal 10 is notified of the zone related information of the zone corresponding to the current position of the terminal 10 and the checkpoint related information regarding the checkpoints included in the zone.

  The determination result information is information indicating a result of the server 20 determining whether or not the participant has reached each check point. The privilege information is information that is transmitted as a privilege to the participant's terminal when the participant passes the predetermined number of check points and reaches the goal.

  The control unit 101 creates a time stamp for each arrived checkpoint based on the scheduled checkpoint information input by the participant in advance and notified to the server 20 and the determination result information notified from the server 20, and stores the time stamp. The data is stored in the unit 103. The time stamp is a record of the time when the participant arrived at each zone or checkpoint.

  The operation unit 102 receives input of personal information, scheduled checkpoint information, and instruction information instructing transmission to the server, and notifies the control unit 101 of the input.

  The storage unit 103 appropriately stores personal information, information indicating the contents of the time stamp, and information received from the server 20. The display unit 104 displays information stored in the storage unit 103 under the control of the control unit 101.

  The transmission unit 105 transmits various information such as personal information, position information, scheduled checkpoint information, and image data to the server 20 under the control of the control unit 101. The receiving unit 102 receives checkpoint related information, zone related information, determination result information, privilege information, and the like from the server 20. The information received from the server 20 is notified to the control unit 101 and stored in the storage unit 103 as appropriate.

  Next, the server 20 will be described. The server 20 is a communication device that is connected to the terminal 10 via a communication network and provides the search course recommendation service to the terminal 10.

  As illustrated in FIG. 1, the server 20 includes a reception unit 201, a transmission unit 202, a storage unit 203, and a control unit 204.

  The receiving unit 201 receives various information such as personal information, position information, scheduled checkpoint information, and image data from the terminal 10. The transmission unit 202 transmits personal information, position information, scheduled checkpoint information, image data, and the like to the terminal 10.

  The storage unit 203 stores a personal information table, a checkpoint determination table, and a zone determination table. In the personal information table, personal information and a time stamp are registered for each event and each participant.

  Before describing the control unit 204, a table such as a personal information table will be described. FIG. 2 is a table showing an example of contents registered in the personal information table. Referring to the figure, one or more “event identifiers”, “personal information”, and “time stamp” are registered for each event identifier in the personal information table. “Event identifier” is information for identifying an event in which a participant participates.

  The personal information includes information indicating the characteristics of the participant and participant identification information. For example, the personal information includes information indicating “name”, “age”, “gender”, “phone number”, “participant identifier”, “RFID (Radio Frequency Identification)”, “mail address”, and the like.

  The participant identifier is an identifier assigned to each participant, and information indicating the participant identifier is used as participant identification information.

  The RFID is identification information for identifying the terminal. “Mail address” is the mail address registered in the terminal. Note that information indicating RFID can be used as participant identification information.

  In the “time stamp” column, for each zone and checkpoint, the time when the participant arrives and the zone or checkpoint that the participant is scheduled to reach next are registered.

  For example, the participant must reach the second zone next to the first zone, and the participant with the participant identifier “k001” reaches the first zone and sets the checkpoint “first CP” in the zone. Think about the choice. In this case, the time when the participant arrived at the first zone is registered in the first zone column of “time stamp”. Then, “next schedule” indicating that the next arrival is scheduled is registered in the first CP column of “time stamp”. Furthermore, “next schedule” is registered in the second zone column of “time stamp”.

  FIG. 3 is a table showing the contents described in the zone discrimination table. In this embodiment, the shape of the certified range that is recognized as a zone is circular. Referring to the figure, the zone discrimination table describes “zone identifier”, “related information”, “reference point”, and “setting range” for each zone.

  The “zone identifier” is an identifier for identifying a zone. “Related information” is information for guiding participants to the zone, such as the name of the zone and the address of the zone. The “reference point” is the coordinate of the center point of the zone. The “setting range” is the radius of the zone centered on the “reference point”.

  Here, the certified range of the zone set by the reference point and the set range is not necessarily the same as the geographical range of the actual zone. Generally, since the GPS position information includes an error, the zone recognition range is set to be larger than the actual zone shape in consideration of the error.

  FIG. 4 is a table showing the contents described in the checkpoint discrimination table. As shown in the figure, the “zone identifier” of each zone and the “checkpoint identifier” of the checkpoint in each zone are described in the checkpoint determination table. For each “checkpoint identifier”, “related information” and “reference image” are described.

  “Checkpoint identifier” is an identifier for identifying a checkpoint. “Related information” is information for guiding the participant to the checkpoint, such as the name and address of the checkpoint. A “reference image” is an image taken at a checkpoint. The server 20 compares the “reference image” with the image captured by the participant to determine whether or not the participant has reached the checkpoint.

  Returning to FIG. 1, the control unit 204 will be described. When personal information is received from the terminal 10, the control unit 204 registers the personal information in the personal information table. As described above, the terminal 10 transmits the position information together with the participant identification information to the server 20 in accordance with the operation of the participant.

  Further, when receiving the participant identification information and the position information from the terminal 10, the control unit 204 refers to the personal information table and acquires the “next scheduled” zone of the participant indicated by the participant identification information.

  Then, the control unit 204 refers to the zone determination table, acquires the authorized range of the “next scheduled” zone, and determines whether or not the position indicated by the position information is within that zone. If the position is in the zone, the control unit 204 refers to the checkpoint determination table and acquires “related information” of all the checkpoints in the zone. The control unit 204 transmits the information to the terminal 10 as checkpoint related information.

  As described above, the terminal 10 transmits the scheduled checkpoint information and the image data together with the participant identification information to the server 20 according to the operation of the participant.

  When the control unit 204 receives the scheduled checkpoint information and the participant identification information from the terminal 10, in the personal information table, the control unit 204 sets the checkpoint indicated by the scheduled checkpoint information to the “next schedule” of the participant indicated by the participant identification information. The point.

  When the control unit 204 receives the image data and the participant identification information from the terminal 10, the control unit 204 refers to the personal information table and acquires the “next schedule” checkpoint of the participant indicated by the participant identification information. Then, the control unit 204 refers to the checkpoint determination table and acquires the “reference image” of the “next scheduled” checkpoint. The control unit 204 collates the received image data with the “reference image” and determines whether or not the participant has reached the check point according to the result. The control unit 204 transmits determination result information indicating the determination result to the terminal 10.

  If the participant has gone through all the zones and check points, the control unit 204 transmits privilege information to the terminal 10.

  Next, the operation of the server 20 will be described. FIG. 5 is a flowchart showing the operation of the terminal 10. This operation starts when an application for providing the search type course recommendation service is executed in the terminal 10.

  The terminal 10 executes personal information transmission processing (step S1), position information transmission processing (step S2), image data transmission processing (step S3), and zone related information display processing (step S4).

  And the terminal 10 judges whether privilege information was received from the server 20 (step S5). If privilege information is not received (step S5: NO), the terminal 10 returns to step S2. If the privilege information is received (step S5: YES), the terminal 10 ends the operation.

  FIG. 6 is a flowchart showing personal information transmission processing. The terminal 10 displays an input screen for inputting personal information, and accepts input of personal information (step S11). The terminal 10 determines whether or not necessary items have been input and the send button has been pressed (step S12).

  If the send button has not been pressed (step S12: NO), the terminal 10 returns to step S12. If the transmission button is pressed (step S12: YES), the terminal 10 transmits the input personal information to the server 20 (step S13). On the other hand, the server 20 transmits the start zone related information to the terminal 10.

  The terminal 10 receives the start zone related information and displays the content indicated by the information (step S14). After step S14, the terminal 10 ends the personal information transmission process. On the other hand, the server 20 registers the personal information from the terminal 10 in the personal information registration table.

  FIG. 7 is a flowchart showing the position information transmission process. The terminal 10 displays the related information of the next scheduled zone. And the terminal 10 displays the screen for transmitting position information (step S21). The terminal 10 determines whether or not the position information transmission button has been pressed (step S22).

  If the transmission button is not pressed (step S22: NO), the terminal 10 returns to step S22. If the transmission button is pressed (step S22: YES), the terminal 10 acquires position information using GPS or the like (step S23), and transmits the participant identification information together with the position information to the server 20 (step S23). S24).

  On the other hand, if the position indicated by the position information is within the next scheduled zone, the server 20 transmits checkpoint related information corresponding to the zone to the terminal 10.

  FIG. 8 is a flowchart showing image data transmission processing. The terminal 10 determines whether checkpoint related information has been received from the server 20 (step S31).

  If the checkpoint related information has not been received (step S31: NO), the terminal 10 returns to step S31. If the checkpoint related information is received (step S31: YES), the terminal 10 displays the checkpoints indicated by the checkpoint related information that the participant has not reached. Then, the terminal 10 displays a screen for selecting a checkpoint to be scheduled next and transmitting image data (step S32). The terminal 10 determines whether or not the transmission button for transmitting the selected checkpoint and the image data has been pressed (step S33).

  If the transmission button is not pressed (step S33: NO), the terminal 10 returns to step S33. If the transmission button is pressed (step S33: YES), the terminal 10 transmits the scheduled checkpoint information indicating the selected checkpoint and the image data to the server 20 together with the participant identification information (step S34). .

  On the other hand, the server 20 determines whether or not the participant has reached the next scheduled checkpoint based on the scheduled checkpoint information, the image data, and the participant identification information, and transmits the determination result information to the terminal 10. To do.

  The terminal 10 receives the determination result information and displays the result indicated by the information (step S35). The terminal 10 determines whether or not the zone clear condition is satisfied (step S36).

  Here, the clear condition is a condition that the participant should satisfy in the current zone in order to reach the next zone from the current zone or to complete the event. For example, a range (for example, two or more) of the number of checkpoints that the participant should reach among the checkpoints in the zone is determined as a clear condition.

  In this embodiment, in a zone including one or more checkpoints, it is assumed that the clear condition of the zone is satisfied when the participants have reached all the checkpoints in the zone regardless of the arrival order. In a zone that does not include a checkpoint, that is, a start or goal zone, the clear condition is satisfied when the participant reaches the zone.

  If the clear condition is not satisfied (step S36: NO), the terminal 10 returns to step S32. If the clear condition is satisfied (step S36: YES), the terminal 10 ends the image data transmission process.

  On the other hand, if the participant has reached all of the checkpoints in the zone, the server 20 transmits the zone related information of the next scheduled zone to the terminal 10.

  FIG. 9 is a flowchart showing the zone related information display process. The terminal 10 determines whether zone-related information has been received from the server 20 within a predetermined period after transmitting the determination result information (step S41).

  If the zone related information has not been received (step S41: NO), the terminal 10 returns to step S41. If the zone related information is received (step S41: YES), the terminal 10 displays the content indicated by the information (step S42). After step S42, the terminal 10 ends the zone related information display process.

  Next, the operation of the server 20 will be described. FIG. 10 is a flowchart showing the operation of the server 20. This operation is started when an application for providing the search type course recommendation service is executed in the server 20. The server 20 executes a participant registration process (step T1), a checkpoint related information transmission process (step T2), a checkpoint arrival determination process (step T3), and a zone related information transmission process (step T4).

  Then, the server 20 determines whether or not the participant satisfies the clear conditions for all zones (step T5). If the clear condition of any zone is not satisfied (step T5: NO), the server 20 returns to step T2.

  If the clear conditions for all zones are satisfied (step T5: YES), the server 20 transmits privilege information to the terminal 10 (step T6). After step T6, the server 20 ends the operation of providing the search type recommendation service to the terminal 10.

  FIG. 11 is a flowchart showing participant registration processing. The server 20 determines whether personal information is received from the terminal 10 (step T11). If the personal information has not been received (step T11: NO), the server 20 returns to step T11.

  If the personal information has been received (step T11: YES), the server 20 describes the personal information in the personal information table and registers the participant (step T12). The server 20 reads the start zone related information from the zone discrimination table and transmits it to the terminal 10 (step T13). After step T13, the server 20 ends the participant registration process.

  On the other hand, the terminal 10 transmits the position information together with the participant identification information according to the operation of the participant.

  FIG. 12 is a flowchart showing checkpoint related information transmission processing. The server 20 determines whether or not position information and participant identification information have been received from the terminal 10 (step T21). If the position information and the participant identification information are received (step T21: YES), the server 20 acquires the next scheduled zone of the participant indicated by the participant identification information from the zone determination table, and participates indicated by the position information. It is determined whether the position of the person is within the next scheduled zone of the participant (step T22).

  If either the position information or the participant identification information has not been received (step T21: NO), or if the position of the participant is not within the next scheduled zone (step T22: NO), the server 20 proceeds to step T21. Return.

  If the position of the participant is in the next scheduled zone (step T22: YES), the server 20 acquires checkpoint related information of all checkpoints in the zone from the checkpoint determination table. The server 20 transmits the acquired checkpoint related information to the terminal 10 (step T23). The server 20 adds the time when the participant reached the zone to the time stamp in the personal information table, and updates the next scheduled zone (step T24).

  After step T24, the server 20 ends the checkpoint related information transmission process.

  On the other hand, the terminal 10 transmits the scheduled checkpoint information and the image data to the server 20 together with the participant identification information in accordance with the operation of the participant.

  FIG. 13 is a flowchart showing checkpoint arrival determination processing. The server 20 determines whether schedule checkpoint information, image data, and participant identification information have been received (step T31).

  If the scheduled checkpoint information, image data, or participant identification information has not been received (step T31: NO), the server 20 returns to step T31. If the scheduled checkpoint information, the image data, and the participant identification information are received (step T31: YES), the server 20 reads the reference image of the point indicated by the scheduled checkpoint information from the checkpoint determination table. The server 20 collates the image indicated by the image data with the reference image (step T32).

  Based on the collation result, the server 20 determines whether or not the participant has reached the next scheduled checkpoint (step T33). If it has been reached (step T33: YES), the server 20 adds the time at which the participant indicated by the participant identification information has reached the checkpoint to the time stamp in the personal information table (step T34).

  After step T34, the server 20 transmits determination result information indicating the result of determination as to whether or not the participant has reached the checkpoint to the terminal 10 (step T35).

  When the scheduled checkpoint information, the image data, or the participant identification information is not received (step T31: NO), or after step T35, the server 20 ends the checkpoint arrival determination process.

  FIG. 14 is a flowchart showing zone-related information transmission processing. The server 20 determines whether or not the clear condition is satisfied in the zone where the participant finally reached (step T41).

  If the clear condition is satisfied (step T41: YES), the server 20 reads the next scheduled zone from the personal information table. The zone related information of the next scheduled zone is read from the checkpoint discrimination table and transmitted to the terminal 10 (step T42).

  When the clear condition is not satisfied (step T41: YES), or after step T42, the server 20 ends the zone related information transmission process.

  Next, the overall operation of the search type course recommendation system 1 will be described. FIG. 15 is a sequence diagram illustrating an example of the operation of the search type course recommendation system 1.

  When an application for providing the search type course recommendation service is executed on the terminal 10 and the server 20, the terminal 10 transmits the personal information input by the participant to the server 20 (step U1).

  The server 20 registers the personal information received from the terminal 10 in the personal information table (step U2).

  The server 20 transmits the start zone related information to the terminal 10 (step U3).

  It is assumed that the participant has reached the start zone. The terminal 10 transmits the position information together with the participant identification information according to the operation of the participant (Step U4).

  Since the position indicated by the position information is a position in the start zone, the server 20 adds the time at which the participant indicated by the participant identification information has reached the zone to the time stamp in the personal information table. The server 20 updates the next scheduled zone in the personal information table (step U5).

  The server 20 reads the zone related information of the next scheduled zone from the zone discrimination table and transmits it to the terminal 10 (step U6).

  It is assumed that the participant has reached the next scheduled zone. The terminal 10 transmits the position information together with the participant identification information according to the operation of the participant (step U7).

  Since the position indicated by the position information is a position in the next scheduled zone, the server 20 adds the time when the participant reached the zone to the time stamp in the personal information table. The server 20 updates the next scheduled zone in the personal information table (step U8).

  The server 20 transmits related information of all checkpoints in the zone reached by the participant to the terminal 10 (step U9).

  Then, it is assumed that the participant has selected one of the checkpoints in the zone and reached that checkpoint. The terminal 10 transmits the scheduled checkpoint information and the image data together with the participant identification information according to the operation of the participant (Steps U10 and U11).

  The server 20 collates the reference image corresponding to the scheduled checkpoint information with the image indicated by the image data. The server 20 determines that the participant has reached the checkpoint, and adds the time when the participant has reached the checkpoint to the time stamp of the personal information table (step U12).

  The server 20 transmits determination result information indicating the verification result to the terminal 10 (step U13).

  Steps U10 to U13 are repeatedly executed until the participant reaches all checkpoints in the zone. Each time the zone clear condition is satisfied, steps U6 and U7 are executed.

  It is assumed that the participant has reached the goal zone. At this time, the terminal 10 transmits position information according to the operation of the participant (step U21).

  The server determines that the clear conditions for all zones have been satisfied, and transmits privilege information to the terminal 10 (step U22).

  Next, an example of a screen displayed on the terminal 10 will be described. FIG. 16 is an example of a screen that is first displayed on the terminal 10 after execution of the application. As shown in the figure, an area for inputting personal information such as “name”, “age”, and “gender” is displayed on the screen. In addition, a transmission button for transmitting the input personal information is displayed on the screen.

  When the send button is pressed, the input personal information is transmitted to the server 20 and registered in the personal information table.

  FIG. 17 is an example of a screen displayed on the terminal 10 after the terminal 10 transmits personal information. As shown in the figure, information for guiding a participant to the next scheduled zone, such as the name of the next scheduled zone, is displayed on the screen. In addition, a transmission button for transmitting position information is displayed on the screen.

  When the transmission button is pressed, the position information is transmitted to the server 20 together with the participant identification information, and the server 20 determines whether or not the participant has reached the next scheduled zone based on the information. When the server 20 determines that the participant has reached the next scheduled zone, the server 20 transmits checkpoint related information corresponding to the zone to the terminal 10.

  FIG. 18 is an example of an image displayed on the terminal 10 when the terminal 10 receives the checkpoint related information. As shown in the figure, an area for a participant to select a checkpoint and a selection button are displayed on the screen. Each time this selection button is pressed, the next scheduled checkpoint is changed.

  In addition, an acquisition button for acquiring image data and a transmission button for transmitting the selected checkpoint, image data, and participant identification information are displayed on the screen.

  When the transmission button is pressed after the selection button and the acquisition button are pressed, the scheduled checkpoint information and the image data are transmitted to the server 20 together with the participant identification information. Based on these pieces of information, the server 20 determines whether or not the participant has reached the next scheduled checkpoint.

  Next, the operation of the search course recommendation system 1 according to the operation of the participant will be described. 19-20 is a figure which shows the whole course in which a participant turns. In these drawings, a solid arrow indicates a course followed by the participant, and a dotted arrow indicates where the server 20 guides the participant. The symbol “re” indicates that the participant has reached the zone or checkpoint in which “re” is described.

  As shown in FIG. 19A, the course has zones of “ZS”, “Z1”, “Z2”, and “ZG”. The turn of the participants is “ZS”, “Z1”, “Z2”, “ZG”. That is, “ZS” is the start zone and “ZG” is the goal zone.

  Then, checkpoints “CP1”, “CP2”, and “CP3” are provided within the geographical range of the zone “Z1”. Checkpoints “CP4”, “CP5”, and “CP6” are provided within the geographical range of the zone “Z2”. Participants need to go through all the checkpoints in the zone, but the order of going through the checkpoints in each zone can be freely determined.

  As shown in FIG. 19A, consider a case where the participant has reached “ZS”. In this case, the server 20 transmits the zone related information of the next scheduled zone “Z1” to the terminal 10 to guide the participant.

  As shown in FIG. 19B, consider a case where a participant reaches within “Z1” and the terminal 10 transmits position information to the server together with the participant identification information. In this case, the server 20 transmits the related information of each checkpoint in the zone “Z1”, and selects the checkpoint “CP1”, “CP2”, and “CP3” next to the participant. Leave (recommend).

  As shown in FIG. 20A, when a participant selects a checkpoint “CP1”, reaches that point, and the terminal 10 transmits scheduled checkpoint information and image data together with participant identification information. Think. In this case, the server 20 adds the time when the participant arrived at the checkpoint “CP1” to the time stamp, and entrusts the participant to select the checkpoint “CP2” or “CP3” next ( To recommend).

  Then, as shown in FIG. 20B, consider a case where the participant has reached all the check points in the zone “Z1”. In this case, since the clear condition for the zone “Z1” is satisfied, the server 20 transmits the zone related information of the next scheduled zone “Z2” to the terminal 10 to guide the participant.

  As shown in FIG. 21A, consider a case where a participant reaches within “Z2” and the terminal 10 transmits position information to the server together with the participant identification information. In this case, the server 20 transmits the related information of each checkpoint in the zone “Z2”, and selects the checkpoint “CP4”, “CP5”, and “CP6” next to the participant. Leave (recommend).

  Then, as shown in FIG. 21B, consider a case where the participant has reached all the check points in the zone “Z2”. In this case, since the clear condition of the zone “Z2” is satisfied, the server 20 transmits zone related information of the next scheduled zone “ZG” to the terminal 10 to guide the participant. When the participant reaches the zone “ZG”, the search type course recommendation service ends.

  In this embodiment, the terminal 10 is a mobile phone, but the terminal 10 may be a mobile communication terminal, and may be a car navigation device, a PHS (Personal Handyphone System: registered trademark), or the like.

  Further, in this embodiment, the shape of the zone accreditation range is a circle, and the geographical range of the zone is defined by the center coordinates and the radius, but the shape of the zone accreditation range is not limited to a circle. Further, the geographical range of the zone may be determined by a method other than the definition of the center coordinate and the radius. For example, as shown in FIG. 22, the zone accreditation range may be a rectangular area, and the zone accreditation range may be determined by the latitude and longitude ranges.

  In the present embodiment, the start and goal are zones, but the start and goal may be check points. In this case, as shown in FIG. 23, a reference image is set at each check point of the start and goal in the check point discrimination table.

  In the present embodiment, the order of going around the zone is determined in advance and the participant cannot change, but the order of going around the zone may be freely selected by the participant.

  In the present embodiment, the server 20 is configured to perform image matching. However, the terminal 10 may be configured to perform image matching. In this case, the terminal 10 transmits the collation result to the server 20, and the server 20 updates the personal information table based on the result.

  As described above, according to the present embodiment, if the position of the terminal is in the zone, the server transmits checkpoint information indicating a plurality of checkpoints in the zone, and the terminal detects the plurality of checkpoints. Since it displays, the user can go around a course from the desired checkpoint in a zone, and can provide a user with a high degree of freedom course.

  In the current GPS, an error may occur between the position indicated by the position information and the actual position of the terminal. However, in this embodiment, it is determined from the GPS position information that the terminal 10 is in the zone, and the server determines whether or not the participant has reached the checkpoint by checking the images. For this reason, even if there is an error in the position indicated by the position information, it is possible to accurately determine that the terminal 10 is in the zone and that the terminal 10 has reached the checkpoint.

(Second Embodiment)
A second embodiment of the present invention will be described. The search type course recommendation system according to the present embodiment is different from the image comparison in that the server determines whether or not the participant has reached the checkpoint based on the keyword comparison. Different from the recommendation system. In addition, about the search type course recommendation system of this embodiment, the detailed description of the structure similar to the structure demonstrated in FIGS. 1-23 is abbreviate | omitted, and it demonstrates in detail about a different point from 1st Embodiment.

  The keyword is a character string used for the server to determine whether or not the participant has reached the checkpoint. The keyword has a different character string for each checkpoint, and is posted in advance at each checkpoint in a place where the participant can visually recognize, such as a bulletin board.

  When the participant reaches the checkpoint, the participant visually recognizes this keyword and inputs it to the terminal 10. The terminal 10 notifies the server 20 of the input keyword. The server 20 stores in advance the keyword posted at each checkpoint as a reference keyword, and collates the keyword notified from the terminal 10 with the reference keyword. If the keywords match, the server 20 determines that the participant carrying the terminal 10 has reached the checkpoint.

  FIG. 24 is a block diagram illustrating a configuration example of the search type course recommendation system 1a according to the present embodiment. Referring to the figure, except that the terminal 10 has a control unit 101a instead of the control unit 101 and the server 20 has a storage unit 203a and a control unit 204a instead of the storage unit 203 and the control unit 204. The configuration is the same as that of the search type course recommendation system 1 of the first embodiment.

  The control unit 101a transmits keyword information indicating the input keyword and participant identification information to the server 20 in accordance with a user operation without using a camera.

  The storage unit 203a stores a checkpoint determination table in which reference keywords are described instead of reference images.

  The control unit 204a checks whether or not the participant indicated by the participant identification information has reached the checkpoint by checking the keyword indicated by the keyword information from the terminal 10 with the reference keyword described in the checkpoint determination table. to decide.

  FIG. 25 is a diagram showing the contents described in the checkpoint discrimination table of this embodiment. As shown in the figure, a reference keyword is described in this checkpoint discrimination table instead of the reference image.

  FIG. 26 is a flowchart showing the operation of the terminal 10 of this embodiment. Referring to the figure, the operation of the terminal 10 of the present embodiment is the same as that of the first embodiment described in FIG. 5 except that the keyword information transmission process (step S3a) is executed instead of the image data transmission process. The operation is the same as that of the terminal 10.

  The keyword information transmission process is the same as the image data transmission process described with reference to FIG. 8 except that the terminal 10 transmits the keyword information instead of the image data.

  FIG. 27 is a flowchart showing checkpoint arrival determination processing in the server 20 of the present embodiment. Referring to the figure, the checkpoint arrival determination process of the present embodiment is the checkpoint arrival determination of the first embodiment described in FIG. 13 except that steps T31a and T32a are executed instead of steps T31 and T32. This is the same processing as the processing.

  The server 20 determines whether schedule checkpoint information, keyword information, and participant identification information have been received (step T31a).

  If the scheduled checkpoint information, keyword information, and participant identification information have been received (step T31a: YES), the server 20 reads the reference keyword of the point indicated by the scheduled checkpoint information from the checkpoint determination table. The server 20 collates the keyword indicated by the keyword information with the reference keyword (step T32a).

  As described above, according to the present embodiment, the server determines whether or not the participant has reached the checkpoint based on keyword matching, so that the server can participate even if the terminal does not have a shooting function. It is possible to accurately determine whether the person has reached the checkpoint.

(Third embodiment)
A third embodiment of the present invention will be described. The search type course recommendation system of the present embodiment is the first implementation in that the server determines whether or not the participant has reached the checkpoint based on the correctness of the participant's answer to the problem, rather than the image matching. It differs from the search type course recommendation system of form. In addition, about the search type course recommendation system of this embodiment, the detailed description of the structure similar to the structure demonstrated in FIGS. 1-23 is abbreviate | omitted, and it demonstrates in detail about a different point from 1st Embodiment.

  In the present embodiment, in order to satisfy the clear condition, the participant needs to reach each checkpoint and answer the question. The question is prepared for each checkpoint, and it is assumed that the content is difficult to answer unless the participant actually reaches the checkpoint.

  The participant arrives at the checkpoint and inputs an answer to the problem to the terminal 10 using the surrounding situation as a hint. The terminal 10 notifies the server 20 of the input answer. The server 20 stores the correct answer in advance for each checkpoint, and confirms the correctness of the answer of the participant notified from the terminal 10. If the answer is correct, the server 20 determines that the participant carrying the terminal 10 has reached the checkpoint.

  FIG. 28 is a block diagram illustrating a configuration example of the search type course recommendation system 1b according to the present embodiment. Referring to the figure, in the search type course recommendation system 1b, the terminal 10 has a control unit 101b instead of the control unit 101, the server 20 has a storage unit 203, a storage unit 203b instead of the control unit 204, and a control unit. The configuration is the same as that of the search type course recommendation system 1 of the first embodiment except that the unit 204b is included.

  The control unit 101b transmits answer information indicating the inputted answer to the server 20 together with the participant identification information in accordance with a user operation without using a camera.

  Information indicating a problem is added to the storage unit 203b, and a checkpoint determination table in which correct answers are described is stored instead of the reference image.

  The control unit 204a transmits the checkpoint related information including information indicating the problem to the terminal 10. In addition, the control unit 204a compares the answer indicated by the answer information from the terminal 10 with the correct answer described in the checkpoint determination table to determine whether the participant indicated by the participant identification information has reached the checkpoint. Determine whether.

  FIG. 29 is a diagram showing the contents described in the checkpoint discrimination table of this embodiment. As shown in the figure, the related information in this checkpoint determination table includes information indicating a problem in addition to information indicating a name. Also, the correct answer of the problem is described in the checkpoint discrimination table instead of the reference image.

  FIG. 30 is a flowchart showing the operation of the terminal 10 of this embodiment. Referring to the figure, the operation of the terminal 10 of this embodiment is the same as that of the first embodiment described in FIG. 5 except that the answer information transmission process (step S3b) is executed instead of the image data transmission process. The operation is the same as that of the terminal 10.

  The answer information transmission process of the present embodiment is the same process as the image data transmission process described with reference to FIG. 8 except that the terminal 10 transmits answer information instead of the image data.

  FIG. 31 is a flowchart showing checkpoint arrival determination processing in the server 20 of the present embodiment. Referring to the figure, the checkpoint arrival determination process of the present embodiment is the checkpoint arrival determination of the first embodiment described in FIG. 13 except that steps T31b and T32b are executed instead of steps T31 and T32. This is the same processing as the processing.

  The server 20 determines whether schedule checkpoint information, answer information, and participant identification information have been received (step T31b).

  If the scheduled checkpoint information, the answer information, and the participant identification information are received (step T31b: YES), the server 20 reads the correct answer of the point indicated by the scheduled checkpoint information from the checkpoint determination table. The server 20 collates the answer indicated by the answer information with the read correct answer (step T32b).

  FIG. 32A is an example of an image displayed on the terminal 10 after the terminal 10 of the present embodiment transmits position information indicating the position in the next scheduled zone. As shown in FIG. 6A, an area for displaying a checkpoint selected by the participant and a selection button are displayed on the screen. By pressing this selection button, the checkpoint selected by the participant is changed. In addition, a transmission button for transmitting the selected checkpoint is displayed on the screen.

  When the transmission button is pressed after the selection button is pressed, the scheduled checkpoint information is transmitted to the server 20 together with the participant identification information.

  In the personal information table, the server 20 sets the check point indicated by the scheduled check point information as the next scheduled point of the participant indicated by the participant identification information.

  FIG. 32B is an example of an image displayed on the terminal 10 after the terminal 10 according to the present embodiment transmits the scheduled checkpoint information and the participant identification information. As shown in FIG. 5B, a question reminiscent of a checkpoint and a candidate for an answer to the question are displayed on the screen. In addition, a transmission button for transmitting the selected answer candidate is displayed on the screen.

  When the send button is pressed, answer information indicating the selected answer candidate is sent to the server 20 together with the participant identification information.

  The server 20 collates the answer indicated by the answer information with the correct answer of the problem corresponding to the next scheduled checkpoint.

  As described above, according to the present embodiment, because the server determines whether or not the participant has reached the checkpoint due to the correctness of the answer, even if the terminal does not have a shooting function such as a camera, It is possible to accurately determine whether or not the participant has reached the checkpoint. In addition, since the participants think about the answers to the questions and go around the course while answering the questions, the participants can enjoy the event more.

(Fourth embodiment)
A fourth embodiment of the present invention will be described. The search type course recommendation system according to the present embodiment is the first implementation in that the server determines whether or not the participant has reached the checkpoint based on the identification information from the reading device rather than the image verification. It differs from the search type course recommendation system of form. In addition, about the search type course recommendation system of this embodiment, the detailed description of the structure similar to the structure demonstrated in FIGS. 1-23 is abbreviate | omitted, and it demonstrates in detail about a different point from 1st Embodiment.

  FIG. 33 is a configuration example of the search type course recommendation system 1c according to the present embodiment. Referring to the figure, in the search type course recommendation system 1c, the terminal 10 has a control unit 101c instead of the control unit 101, the server 20 has a storage unit 203, a storage unit 203c instead of the control unit 204, and a control unit. The configuration is the same as that of the search type course recommendation system 1 of the first embodiment, except that the unit 204c is provided and the reading device 30 is further provided.

  When entering the wireless communication area of the reading device 30 without using the camera, the control unit 101c wirelessly transmits participant identification information to the reading device 30 using RFID technology.

  For example, the control unit 101c of the terminal 10 has an IC (Integrated Circuit) chip (not shown), and this IC chip is an identification for identifying the IC chip to the reading device 30 by an electromagnetic induction method or a radio wave method. Information is transmitted as participant identification information.

  The IC chip is not limited to the one built in the terminal 10. An IC chip mounted on an external medium such as a plastic card used by being inserted into the terminal 10 may be used.

  The reading device 30 is a device that is installed at each checkpoint and performs wireless communication using RFID technology. The reading device 30 reads participant identification information from the terminal 10 when the terminal 10 enters the wireless communication range. Then, the reading device 30 transmits device identification information for identifying the reading device and the read participant identification information to the server 20 in a wired or wireless manner.

  The storage unit 203b stores a checkpoint determination table in which device identification information is described instead of the reference image.

  The control unit 204a stores device identification information of a reading device installed for each checkpoint. When receiving the participant identification information and the device identification information from the reading device 30, the control unit 204a determines that the participant indicated by the participant identification information has reached the checkpoint corresponding to the device identification information. The control unit 204a transmits determination result information indicating the result of the determination to the reading device 30, and causes the reading device 30 to display the determination result information.

  FIG. 34 is a diagram showing the contents described in the checkpoint discrimination table of this embodiment. As shown in the drawing, in the checkpoint discrimination table, “device identification information” is described for each “checkpoint identifier” instead of the reference image. “Device identification information” is information for identifying a reading device installed at a checkpoint.

  FIG. 35 is a flowchart showing the operation of the terminal 10 of this embodiment. Referring to the figure, the operation of the terminal 10 of the present embodiment is the same as that of the first embodiment described in FIG. 5 except that the participant identification information transmission process (step S3c) is executed instead of the image data transmission process. This is the same as the operation of the terminal 10 of the embodiment.

  The participant identification information transmission process is the same as the image data transmission process described with reference to FIG. 8 except that the terminal 10 transmits the participant identification information to the reading device 30 instead of the image data.

  FIG. 36 is a flowchart showing checkpoint arrival determination processing in the server 20 of this embodiment. Referring to FIG. 13, the checkpoint arrival determination process of the present embodiment is the same as that of the first embodiment described in FIG. 13 except that steps T31c, T32c, and T35c are executed instead of steps T31, T32, and T35. This is the same processing as the checkpoint arrival determination processing.

  The server 20 determines whether the scheduled checkpoint information, the participant identification information, and the device identification information have been received (step T31c).

  If the scheduled checkpoint information, the participant identification information, and the device identification information are received (step T31b: YES), the server 20 obtains the device identification information corresponding to the point indicated by the scheduled checkpoint information from the checkpoint determination table. read out. The server 20 collates the received device identification information with the read device identification information (step T32b).

  When the participant has not reached the checkpoint (step T33: NO), or after step T34, the server 20 uses the determination result information indicating the result of the determination as to whether or not the participant has reached the checkpoint. The information is transmitted to the reading device 30 and the determination result information is displayed on the reading device 30. (Step T35c).

  FIG. 37 is a sequence diagram showing an example of the operation of the search type course recommendation system 1c.

  The operation of the search type course recommendation system 1c of this embodiment is the same as the operation of the search type course recommendation system 1 of the first embodiment, except that steps U31 to U33 are executed instead of steps U11 and U12. .

  After the terminal 10 transmits the scheduled checkpoint information and the participant identification information (step U10), the participant reaches the next scheduled checkpoint and brings the terminal 10 closer to the reading device 30 installed at that point. Think.

  The terminal 10 transmits the participant identification information to the reading device 30 (Step U31). The reading device 30 transmits the participant identification information and the device identification information from the terminal 10 to the server 20 (step U32). The server 20 confirms that the participant has reached the check point based on the participant identification information and the device identification information, and adds the arrival time to the point to the time stamp in the personal information table (step U33).

  The server 20 transmits the determination result information to the reading device 30. The reading device 30 displays the determination result information (step U34).

  In the present embodiment, the server 20 is configured to transmit the determination result information to the reading device 30 and display the information. However, the server 20 may be configured to directly transmit the determination result information to the terminal 10 instead of the reading device 30. In this case, the server 20 registers in advance the identification information of the IC chip, which is the participant identification information, in association with an e-mail address or the like that can be received by the terminal 10. Then, the server 20 transmits the determination result information to an e-mail address or the like corresponding to the received participant identification information.

  As described above, according to the present embodiment, since the reading device reads the participant identification information from the terminal 10, even if the terminal does not have a photographing function, the server determines whether or not the participant has reached the checkpoint. Can be judged accurately.

(Fifth embodiment)
A fifth embodiment of the present invention will be described. The search type course recommendation system of the present embodiment is different from the search type course recommendation system of the first embodiment in that the participant does not necessarily have to go through all the check points in the zone. In addition, about the search type course recommendation system of this embodiment, the detailed description of the structure similar to the structure demonstrated in FIGS. 1-23 is abbreviate | omitted, and it demonstrates in detail about a different point from 1st Embodiment.

  In the present embodiment, the clear condition in the zone including the checkpoint is to go around two or more checkpoints.

  FIG. 38 is a diagram showing the contents described in the checkpoint discrimination table of this embodiment. Referring to the figure, the “related information” of each check point includes information indicating “classification” and “name”.

  “Classification” is a characteristic common to checkpoints in a group when checkpoints are grouped. “Name” is the name of each checkpoint.

  For example, it is considered that a course that goes around “lunch at a hotel”, “a place with a great view”, and a “green park” is provided as a course at an event.

  And “XX Hotel” and “XX Hotel” are prepared as candidates for “Lunch at Hotel”, and “XX Tower” and “XX Tower” are candidates for “place where the view is wonderful”. It is prepared. “Green parks” and “xx parks” are prepared as candidates for “green parks”. Participants shall visit any two or more of “Lunch at a hotel”, “A place with a great view”, and “Green park” and head to the next zone.

  In this case, “lunch at the hotel”, “where the view is wonderful”, and “green park” are described in the classification column of the checkpoint discrimination table. Checkpoint names corresponding to “Lunch at Hotel” are listed as “XX Hotel” and “XX Hotel”, and checkpoint names corresponding to “where the view is wonderful” are “XX Tower”, “× "Tower" is described. “XX Park” and “XX Park” are described as names of checkpoints corresponding to “Green Park”. Then, reaching the two or more checkpoints belonging to different classifications among the checkpoints is a zone clearing condition.

  FIG. 39A is a diagram illustrating an example of a screen displayed on the terminal 10 when the participant reaches the zone including the check point. As shown in FIG. 5A, the terminal 10 displays the achievement status of the zone clear condition and the related information of the check points in the zone.

  At this time, since the participant has not reached any checkpoint in the zone, “remaining 2” is displayed as the achievement status of the clear condition of the zone.

  As related information, “lunch at hotel”, “where the view is wonderful”, and “green park” are displayed.

  FIG. 39B is an example of a screen displayed on the terminal 10 when the participant selects “Lunch at Hotel”. As shown in FIG. 5B, the terminal 10 displays the names of checkpoints and the like (related information) belonging to the selected category.

  Consider a case where a participant selects any checkpoint, reaches the checkpoint, and the terminal 10 transmits image data. In this case, the server 20 determines that the participant has reached the checkpoint by collating the images, and transmits the determination result to the terminal 10. The terminal 10 adds the time when the participant arrives to the time stamp based on the determination result.

  FIG. 40A is an example of a screen displayed on the terminal 10 when the participant reaches the first checkpoint. As shown in FIG. 5A, the terminal 10 displays the time when the participant reached the checkpoint, the achievement status of the zone clear condition, and the related information of the checkpoint in the zone.

  At this point, since the participant has reached the first checkpoint belonging to “lunch at hotel”, “remaining 1” is displayed as the achievement status of the clear condition of the zone. In addition, “where the view is wonderful” to which the remaining checkpoints belong and “green park” (related information) are displayed.

  It is assumed that the participant reaches one of the remaining check points and the terminal 10 transmits the image data. The server 20 determines that the participant has reached the check point by collating the images, and transmits the determination result to the terminal 10. In addition, the server 20 determines that the zone clear condition has been achieved, and transmits related information of the next zone to the terminal 10. The terminal 10 adds the time when the participant arrives to the time stamp based on the determination result.

  FIG. 40B is an example of a screen displayed on the terminal 10 when the participant reaches the second check point. As shown in FIG. 5B, the terminal 10 further displays the related information of the remaining check points and the related information of the next zone.

  At this point, the clear condition has been achieved, but the participant has not gone through all the checkpoints. The terminal 10 displays “green park” (related information) to which the remaining checkpoints belong, and also displays the name “B town” (related information) of the next zone. Participants can choose any of these to turn around.

  FIG. 41 is a diagram illustrating a guidance destination of the server 20. Consider the case where a participant has reached two checkpoints and has achieved the clear condition, but there are checkpoints that have not yet been reached.

  In this case, the server 20 transmits related information of the next scheduled zone to the terminal 10. The terminal 10 displays the related information of the next scheduled zone and the related information of the remaining check points. The participant can select either the next zone or the remaining checkpoints.

  In the present embodiment, the clear conditions for each zone other than the goal and start are the same, but it is a matter of course that different clear conditions may be set for each zone.

  As described above, according to the present embodiment, the participant does not need to go through all the check points, so that the degree of freedom of course selection is further improved.

1, 1a, 1b, 1c Search type course recommendation service 10 Terminal 20 Server 30 Reading device 101, 101a, 101b, 101c Control unit 102 Operation unit 103 Storage unit 104 Display unit 105 Transmission unit 106 Reception unit 201 Reception unit 202 Transmission unit 203 , 203a, 203b, 203c Storage unit 204, 204a, 204b, 204c Control unit

Claims (13)

In response to a user's operation, position information indicating the current position is transmitted to the server, checkpoint information indicating a plurality of checkpoints that can be selected by the user is received from the server and displayed, and the user is displayed. A mobile communication terminal that notifies the server of arrival confirmation information for determining whether or not the user has reached a specific checkpoint according to the further operation of
With respect to one or more zones, for each zone, an authorized range of the zone and checkpoint information indicating a plurality of checkpoints included in the zone are stored in advance, and the location information is received from the mobile communication terminal. When received, it is determined whether or not the position indicated by the position information is within the accreditation range of the zone, and if the position is within the accreditation range of the zone, the checkpoint information corresponding to the zone is the mobile object. When transmitting to the communication terminal and receiving the arrival confirmation information from the mobile communication terminal, it is determined whether the user of the mobile communication terminal has reached the specific checkpoint based on the arrival information Server,
Reaching confirmation system. The mobile communication device, from among the plurality of checkpoints indicated by the checkpoint information, schedule checkpoint information indicating a checkpoint selected by the user as a checkpoint scheduled to go next, from the arrival confirmation information Sent to the server before,
When the server receives the arrival confirmation information after receiving the scheduled checkpoint information, based on the scheduled checkpoint information and the arrival confirmation information, the user of the mobile communication terminal The arrival confirmation system according to claim 1, wherein it is determined whether or not the checkpoint indicated by is reached. The arrival confirmation information that is installed at the checkpoint and that includes terminal identification information for identifying the mobile communication terminal is read from the mobile communication terminal, and the checkpoint is identified in the arrival confirmation information. It further comprises a reading device that adds checkpoint identification information and transmits it to the server,
When the server receives the arrival confirmation information from the reading device, the terminal identification information included in the arrival confirmation information is included in the checkpoint indicated by the checkpoint identification information included in the arrival confirmation information. The arrival confirmation system according to claim 1 or 2, wherein it is determined that a user of the mobile communication terminal indicated by The mobile communication terminal has a function of capturing an image, acquires an image according to a user operation, transmits the arrival confirmation information including image information indicating the image to the server,
The server stores a reference image determined for each check point in advance, and corresponds to the reference image by comparing the image indicated by the image information included in the arrival confirmation information with the reference image. The arrival confirmation system according to claim 1 or 2, wherein it is determined whether or not a user of the mobile communication terminal has reached the checkpoint. The arrival confirmation information includes a keyword entered by the user for confirming that the user has reached a specific checkpoint,
The server stores a reference keyword determined for each checkpoint in advance, and matches the keyword included in the arrival confirmation information with the stored reference keyword to correspond to the reference keyword. The arrival confirmation system according to claim 1 or 2, wherein it is determined whether or not a user of the mobile communication terminal has reached a checkpoint. The server stores, for each checkpoint, problem information indicating a problem that recalls the checkpoint, and arrival confirmation information for confirming arrival at the checkpoint that is recalled by the problem, Along with the check point information, the problem information corresponding to the check point indicated by the check point information is transmitted to the mobile communication terminal,
The mobile communication terminal displays a problem indicated by the problem information received from the server, and arrival confirmation information including information indicating that the user has reached a checkpoint recalled by the problem, which is input by the user To the server,
The server receives the arrival confirmation information from the mobile communication terminal, and compares the received arrival confirmation information with the stored arrival confirmation information, thereby notifying the problem notified together with the checkpoint information. The arrival confirmation system according to claim 1 or 2, wherein it is determined whether or not a user of the mobile communication terminal has arrived at a checkpoint corresponding to information. A plurality of the zones are provided,
The server stores in advance a clear condition that defines a range of the number of checkpoints that the user should reach for each zone, and when the user determines that the checkpoint has been reached, It is determined whether or not a clear condition of a zone to be included is satisfied, and if the clear condition is satisfied, zone information regarding another zone different from the zone is transmitted to the terminal. The arrival confirmation system described in the section. Position information transmitting means for transmitting position information indicating the current position of the mobile communication device to the server in response to a user operation;
Receiving means for receiving, from a server, checkpoint information indicating a plurality of checkpoints selectable by the user;
Display means for displaying the checkpoint information received by the position information receiving means;
Arrival information transmitting means for transmitting arrival information for determining whether or not the user has reached a checkpoint to the server;
A mobile communication terminal. Storage means for storing, for each zone, a qualification range of the zone and checkpoint information indicating a plurality of checkpoints included in the zone for one or more zones;
Position information receiving means for receiving position information from a mobile communication terminal;
It is determined whether or not the position indicated by the position information received by the position information receiving means is a position within the authorized range of the zone stored in the storage means, and the position within the authorized range of the zone If there is, checkpoint information transmitting means for reading the checkpoint information corresponding to the zone from the storage means and transmitting it to the mobile communication terminal;
Arrival information receiving means for receiving arrival information for determining whether or not the user has reached a specific checkpoint from the mobile communication terminal;
Determining means for determining whether or not the user has reached the specific checkpoint based on the arrival information received by the arrival information receiving means;
Server with. The position information transmitting means transmits position information indicating the current position of the mobile communication device to the server in response to a user operation,
The receiving means receives checkpoint information indicating a plurality of checkpoints that can be selected by the user from the server,
Display means displays the checkpoint information received by the position information receiving means;
A method for controlling a mobile communication terminal, wherein arrival information transmitting means transmits arrival information for determining whether or not the user has reached a checkpoint to the server. The location information receiving means receives location information from the mobile communication terminal,
The check point information transmitting means determines whether or not the position indicated by the position information received by the position information receiving means is a position within the authorized range of the predetermined zone, and the position within the authorized range of the zone If so, checkpoint information indicating a plurality of checkpoints included in the zone is transmitted to the mobile communication terminal,
Reaching information receiving means receives arrival information for determining whether or not the user has reached a specific checkpoint from the mobile communication terminal,
A server control method, wherein a determination unit determines whether or not the user has reached the specific checkpoint based on the arrival information received by the arrival information reception unit. On the computer,
A position information transmission procedure for transmitting position information indicating the current position of the mobile communication device to the server in accordance with a user operation;
A reception procedure for receiving, from a server, checkpoint information indicating a plurality of checkpoints that can be selected by the user;
A display procedure for displaying the checkpoint information received in the location information reception procedure, and an arrival information transmission procedure for transmitting to the server arrival information for determining whether or not the user has reached the checkpoint;
A program for running On the computer,
Location information receiving procedure for receiving location information from a mobile communication terminal;
It is determined whether or not the position indicated by the position information received in the position information receiving procedure is a position within the authorized range of the predetermined zone. A checkpoint information transmission procedure for transmitting checkpoint information indicating a plurality of included checkpoints to the mobile communication terminal;
Based on the arrival information reception procedure for receiving arrival information for determining whether or not the user has reached a specific checkpoint from the mobile communication terminal, and the arrival information received in the arrival information reception procedure A determination procedure for determining whether the user has reached the specific checkpoint;
A program for running

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