JP2017191333A - Position acquisition program, communication terminal, network system, position acquisition method, and server - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a position acquisition program for improving convenience of a user or convenience of a service side, and to provide a communication terminal, a network system, a position acquisition method, and a server.SOLUTION: There is provided a position acquisition program 121 for an apparatus which includes a communication interface 160 for communicating with a server 200, a position acquisition function 170, a display 130 and a processor 110. The position acquisition program 121 makes the processor 110 execute a step for acquiring the present position by using the position acquisition function 170, and transmitting the present position to the server 200 through the communication interface 160, and a step for receiving the present position of at least another device 100 from the server 200 through the communication interface 160, and displaying the present position of at least the other device on the display 130.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a position acquisition program, a communication terminal, a network system, a position acquisition method, and a server that can acquire and display information related to the position of a communication terminal using a position acquisition function or the like.

  Conventionally, a position acquisition function for acquiring the position of a terminal is known. And the network system for displaying the position of the said terminal with a some apparatus by utilizing a server is also known.

  For example, Japanese Patent Laying-Open No. 2012-157510 (Patent Document 1) discloses a passing position display system, its terminal device, and a program. According to Japanese Patent Laying-Open No. 2012-157510 (Patent Document 1), the position acquisition server transmits position information including identification information and measured position information of each moving body to each attended terminal as needed. In each attended terminal, a display screen creation unit or the like converts the measured position information into coordinates on the screen of the monitor, and displays an image showing each moving object at these coordinates. In addition, the image of the moving body voted by the user of the seated terminal is displayed in a different display form from the image of the other moving body.

  Japanese Patent Laid-Open No. 11-258325 (Patent Document 2) discloses a moving position monitoring method and position notification device for children and small animals. According to Japanese Patent Laid-Open No. 11-258325 (Patent Document 2), a plurality of artificial satellites that emit ranging radio waves, a position notification unit attached to a satellite that cannot notify its own position, a mobile communication base station, In a child / small animal movement position monitoring system comprising a monitoring center, a searcher, and a search requester, the position notification means detects its own position using the position acquisition system, and detects its own position via mobile communication. The monitoring center selects a map based on the position information, and displays the position of the search target on the map.

JP 2012-157510 A JP-A-11-258325

  However, since the platform for acquiring the position information of its own communication terminal and transmitting it to the server is different from the platform for acquiring and displaying the position information of other communication terminals, the user's Convenience or convenience on the service side was not good. An object of the present invention is to provide a location acquisition program, a communication terminal, a network system, a location acquisition method, and a server that improve user convenience or service-side convenience.

  According to an aspect of the present invention, a position acquisition program for a device having a communication interface for communicating with a server, a position acquisition function, a display, and a processor is provided. The position acquisition program acquires a current position by using a position acquisition function to the processor, transmits the current position to the server via the communication interface, and at least one other from the server via the communication interface. Receiving the current position of the other device and causing the display to display the current position of at least one other device.

  Preferably, before the position acquisition program causes the processor to execute the step of transmitting the current position, the step of receiving the identification information from the server when registering as a member in the server and the step of transmitting the identification information to another device And execute. The position acquisition program causes the processor to execute the step of displaying the current position of the at least one other device, receiving the identification information of the at least one other device, and receiving the received at least one identification information. The step of starting the acquisition of the current position of the other device is executed by using.

  Preferably, the step of displaying the current position of at least one other device includes the step of adjusting the scale of the map so that the current position of at least one other device is displayed on the display.

  Preferably, the step of displaying the current position of at least one other device includes the step of causing the display to display the current position of at least one other device on a map of a set area.

  Preferably, the position acquisition program causes the processor to execute a step of receiving an instruction to select one area from a plurality of types of areas before executing the step of displaying the current position of at least one other device.

  Preferably, the step of displaying the current position of at least one other device includes the step of causing the display to display the current position of at least one other device on a map centered on any position of the device. .

  The step of displaying the current position of at least one other device includes at least one other device that has not been successfully updated if the current position of any of the at least one other device has not been updated successfully for a predetermined period of time. The present invention includes a step of causing the display to display the current position of any of the devices in a display manner different from the display manner of the current position of any of the at least one other device that has been successfully updated.

  According to another aspect of the present invention, a communication terminal is provided that includes a communication interface for communicating with a server, a position acquisition function, a display, and a processor. The processor acquires the current position by using the position acquisition function, transmits the current position to the server via the communication interface, and receives the current position of at least one other device from the server via the communication interface. Then, the current position of at least one other device is displayed on the display.

  According to another aspect of the present invention, a network system including a first communication terminal, a second communication terminal, and a server is provided. The first communication terminal acquires the current position by using the position acquisition function, and transmits the current position to the server. The server transmits the current position of the first communication terminal to the first or second communication terminal based on the request of the first or second communication terminal. The first or second communication terminal displays the current position of the first communication terminal on the display.

  According to another aspect of the present invention, a position acquisition method in a network system including a first communication terminal, a second communication terminal, and a server is provided. The position acquisition method includes a step in which the first communication terminal periodically acquires a current position by using a position acquisition function, and transmits the current position to the server. Transmitting the current position of the first communication terminal to the first or second communication terminal based on the request of the communication terminal; and the first or second communication terminal is configured to transmit the current position of the first communication terminal. Displaying on a display.

  According to another aspect of the present invention, a server is provided that includes a communication interface for communicating with first and second communication terminals and a processor. The processor receives the current position from the first communication terminal via the communication interface, and determines the current position of the first communication terminal via the communication interface based on the request of the first or second communication terminal. Transmit to the first or second communication terminal.

  As described above, according to the present invention, a location acquisition program, a communication terminal, a network system, a location acquisition method, and a server that improve user convenience or service convenience are provided.

It is an image figure showing the whole network system 1 composition concerning a 1st embodiment. It is an image figure which shows the operation | movement outline | summary of the network system 1 concerning 1st Embodiment. It is a block diagram showing the hardware constitutions of the communication terminal 100 concerning 1st Embodiment. It is a 1st image figure which shows the display screen in the communication terminal 100 concerning 1st Embodiment. It is a 2nd image figure which shows the display screen in the communication terminal 100 concerning 1st Embodiment. It is a 3rd image figure which shows the display screen in the communication terminal 100 concerning 1st Embodiment. It is a 4th image figure which shows the display screen in the communication terminal 100 concerning 1st Embodiment. It is a 5th image figure which shows the display screen in the communication terminal 100 concerning 1st Embodiment. It is a flowchart which shows the position data transmission process in the communication terminal 100 concerning 1st Embodiment. It is a flowchart which shows the position data transmission process in the communication terminal 100 concerning 1st Embodiment. It is a block diagram showing the hardware constitutions of the server 200 concerning 1st Embodiment. It is an image figure which shows the present location information database 221 concerning 1st Embodiment. It is a flowchart which shows the position data transmission process in the communication terminal 100 concerning 1st Embodiment. It is a 1st image figure which shows the display screen in the communication terminal 100 concerning 2nd Embodiment. It is a 2nd image figure which shows the display screen in the communication terminal 100 concerning 2nd Embodiment. It is a table | surface which shows different service content according to 3rd Embodiment depending on whether it is a free location acquisition program or a paid location acquisition program. It is a 1st image figure which shows the display screen in the communication terminal 100 concerning 3rd Embodiment. It is a 1st image figure which shows the display screen in the communication terminal 100 concerning 3rd Embodiment. It is an image figure which shows the display screen in the communication terminal 100 concerning 4th Embodiment. It is an image figure which shows the display screen in the communication terminal 100 concerning 5th Embodiment. It is an image figure which shows the display screen in the communication terminal 100 concerning 6th Embodiment. It is an image figure which shows the display screen in the communication terminal 100 concerning 7th Embodiment. It is a flowchart which shows the position data transmission process in the communication terminal 100 concerning 8th Embodiment. It is a flowchart which shows the position data transmission process in the communication terminal 100 concerning 9th Embodiment. It is an image figure which shows the display screen in the communication terminal 100 concerning 10th Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.
<First Embodiment>
<Overall configuration of network system>

  First, the overall configuration and operation overview of the network system 1 according to the present embodiment will be described. FIG. 1 is an image diagram showing an overall configuration of a network system 1 according to the present embodiment.

  The overall configuration of the network system 1 will be briefly described with reference to FIG. The network system 1 mainly includes a plurality of communication terminals 100 and a server 200. The plurality of communication terminals 100 are devices having a communication function such as a smartphone, a tablet, a notebook computer, and a car navigation system. Server 200 can perform data communication with each of a plurality of communication terminals 100.

  In this embodiment, at least two of the plurality of communication terminals 100 (such as 100A and 100B in FIG. 1) use a position acquisition function such as a satellite positioning system GNSS (Global Navigation Satellite System). The current position of itself can be acquired. Such a communication terminal 100 can transmit its current position to the server 200.

The plurality of communication terminals 100 can display characters and images using a display. Such a communication terminal 100 can display the position of the communication terminal 100 having the position acquisition function based on the data from the server 200.
<Overview of network system operation>

  Next, an outline of the operation of the network system 1 according to the present embodiment will be described. FIG. 2 is an image diagram showing an outline of the operation of the network system 1 according to the present embodiment. Hereinafter, a case will be described in which users of a plurality of communication terminals 100 are members of a team such as a bicycle race. However, the users of the plurality of communication terminals 100 may be families who live daily lives, groups that come to shopping at large commercial facilities, or groups that come to play at amusement parks, etc. There may be.

  First, each of a plurality of members belonging to each team downloads a position acquisition application program from the server 200 to his / her communication terminal 100 (step S002 in FIG. 2). However, the position acquisition application program may be supplied from a server other than the server 200.

  Hereinafter, the application program for position acquisition is also abbreviated as a position acquisition program. Further, the application program for position acquisition is also referred to as a position acquisition application for short. Each member then activates the position acquisition program (step S004 in FIG. 2). Each member confirms the terms of use (step S006 in FIG. 2).

  And before the start of a race or when a member takes another action, each member is in a transmission mode in which location information is transmitted to the communication terminal 100 of the other member or to his communication terminal 100, or communication of the other member. The acquisition mode for acquiring the position information from the terminal 100 or its own communication terminal 100 and displaying it is selected (step S008 in FIG. 2).

  When the member selects the transmission mode in step S008, the position acquisition program of communication terminal 100 accepts the input of the nickname from the member (step S010 in FIG. 2). The position acquisition program accepts a user ID acquisition command from a member and requests the user ID from the server 200. The position acquisition program acquires a user ID from the server 200 and displays the user ID on the display.

  Here, the position acquisition program also accepts a command for transmitting the user ID to another communication terminal 100. For example, the position acquisition program accepts the instruction from the user and starts up the mail transmission / reception program. The position acquisition program transmits the acquired user ID to the communication terminal 100 of another member designated by the user (step S012).

  Then, the position acquisition program waits for an instruction to start position acquisition and position data transmission. For example, immediately before the start of the race, the position acquisition program accepts the start command. The position acquisition program starts to acquire the current position of the communication terminal 100 using the position acquisition function. The position acquisition program starts transmitting the current position to the communication terminal 100 of another member via the server (step S014 in FIG. 2).

  On the other hand, when the member selects the acquisition (display) mode in step S008, the position acquisition program of the communication terminal 100 receives an input of the user ID of the communication terminal 100 from which the current position is to be acquired from the member (step S016 in FIG. 2). ). Note that the position acquisition program may acquire a user ID using an electronic mail. When the position acquisition program receives the current position information of the other communication terminal 100, the position acquisition program displays the current position of the other communication terminal 100 on the map (step S018 in FIG. 2). The position acquisition program also displays information related to various events.

  As will be described later as the tenth embodiment, the member may be able to select the staff mode in step S008 (step S020 in FIG. 2). In this case, the position acquisition program of the communication terminal 100 receives input of the staff ID from the member. Then, the position acquisition program waits for an instruction to start position acquisition. Just before the start of the race, the position acquisition program accepts the start command. The position acquisition program starts to acquire the current position of the communication terminal 100 using the position acquisition function. The position acquisition program transmits the current position to the server. As a result, the operator can confirm the current position of the staff via a browser or the like.

  Note that the position acquisition program according to the present embodiment can simultaneously execute the transmission mode and the acquisition mode. For example, the communication terminal 100 acquires the current position of another communication terminal 100 received from the server 200 as the acquisition mode or displays it on the map while transmitting its own position information as the transmission mode. be able to.

As described above, since the position acquisition program according to the present embodiment has the transmission mode and the acquisition mode, a common platform is used for transmitting own position information and for acquiring other person's position information. can do. As a result, user convenience and / or service convenience can be improved. Hereinafter, the network system 1 for realizing such a function will be described in detail.
<Hardware configuration of communication terminal 100>

  First, an aspect of the hardware configuration of the communication terminal 100 will be described. FIG. 3 is a block diagram showing a hardware configuration of communication terminal 100 according to the present embodiment.

  Referring to FIG. 3, communication terminal 100 includes CPU 110, memory 120, touch panel 150 (display 130 and pointing device 140), communication interface 160, and position acquisition unit 170 as main components.

  CPU 110 controls each unit of communication terminal 100 by executing a program stored in memory 120 or an external storage medium. That is, the CPU 110 executes various processes, for example, the steps described in FIGS. 4 and 6 by executing the program stored in the memory 120.

  The memory 120 is realized by various types of RAM (Random Access Memory), various types of ROM (Read-Only Memory), flash memory, and the like. The memory 120 is a USB (Universal Serial Bus) (registered trademark) memory, a CD (Compact Disc), a DVD (Digital Versatile Disk), a memory card, a hard disk, an IC (Integrated Circuit) card, which is used via an interface. It is also realized by a storage medium such as an optical card, mask ROM, EPROM (Erasable Programmable Read Only Memory), or EEPROM (Electronically Erasable Programmable Read Only Memory).

  The memory 120 includes a program executed by the CPU 110, data generated by execution of the program by the CPU 110, data input via the pointing device 140, data received from the server 200, map data for displaying a map, The latitude / longitude information indicating the position and / or area of the pitch used for the race is stored.

  The display 130 outputs characters and images based on signals from the CPU 110. The pointing device 140 receives a command from the user and inputs the command to the CPU 110. In the present embodiment, communication terminal 100 includes touch panel 150 in which display 130 and pointing device 140 are combined.

  The communication interface 160 is realized by an antenna or a connector. The communication interface 160 exchanges data with other devices by wired communication or wireless communication. The CPU 110 transmits position data, other text data, and other image data, which will be described later, to other devices such as the server 200 via the communication interface 160. In addition, the CPU 110 transmits position data, a program, control commands, image data, text data, and the like for indicating the position of the communication terminal 100 held by the runner among the team members via the communication interface 160 to the server 200. Receive from other devices.

The position acquisition unit 170 exchanges signals with external satellites. CPU 110 acquires the current position of communication terminal 100, that is, the current latitude and longitude, based on the signal acquired by position acquisition unit 170.
<Processing of CPU 110 of Communication Terminal 100>

  Next, processing executed by the CPU 110 in the communication terminal 100 according to the present embodiment according to the position acquisition program will be described. 4-8 is an image figure which shows the display screen in the communication terminal 100 concerning this Embodiment.

  Referring to FIG. 4A, CPU 110 measures the position of communication terminal 100 and designates a transmission mode for transmitting position information to server 200, and / or another communication from server 200. A command for specifying an acquisition mode for acquiring position information of the terminal 100 is received from the user.

  When the user selects the transmission mode via the touch panel 150 or the switch of the communication terminal 100, the CPU 110 receives an input of a nickname from the user as shown in FIG.

  With reference to (a) of FIG. 5, CPU110 receives the input of a nickname from a user via the touch panel 150 or a switch.

  Referring to (b) of FIG. 5, CPU 110 accepts a user ID acquisition command from the user via touch panel 150 or a switch. CPU 110 receives a user ID from server 200 by transmitting a nickname to server 200 via communication interface 160. The CPU 110 displays the user ID on the touch panel 150 or the display.

  At this time, CPU 110 causes touch panel 150 to display a software button for accepting a command for notifying other communication terminal 100 of the user ID. When the user inputs a command for notifying the other communication terminal 100 of the user ID to the communication terminal 100, the CPU 110 activates the mailer and transmits the user ID, as shown in FIG. It waits for the input of the address of the communication terminal 100 to perform. Based on the address from the address book or the directly input address, the CPU 110 transmits the user ID to the terminal having the address.

  Further, as illustrated in FIG. 5C, the CPU 110 causes the touch panel 150 to display a software button for receiving a command for starting the acquisition process of the current position of the communication terminal 100 using the position acquisition function. . When the user inputs an instruction for starting the acquisition process of the current position to the communication terminal 100, the CPU 110 starts the acquisition process of the current position of the communication terminal 100 using the position acquisition function. The acquisition process of the current position of the communication terminal 100 will be described later.

  Referring to (a) of FIG. 6, during acquisition processing of the current position of communication terminal 100, CPU 110 displays a “stop calling” button on touch panel 150 for stopping acquisition and transmission of the current position. When the user inputs a transmission stop command, CPU 110 stops the acquisition of the current position and transmission.

  In the present embodiment, as shown in FIG. 6B, the CPU 110 invalidates the user ID after a predetermined period of time, for example, 24 hours, 48 hours, etc. has elapsed after acquiring the user ID. That is, when a predetermined period has elapsed since the acquisition of the user ID, the position acquisition program of the communication terminal 100 ends the current position acquisition process.

  On the other hand, returning to FIG. 4, when the user selects the acquisition (display) mode via the touch panel 150 or the switch of the communication terminal 100, as shown in FIG. The input of the user ID related to the communication terminal 100 that wants to be displayed is accepted.

  Referring to (a) of FIG. 7, in the present embodiment, CPU 110 causes touch panel 150 to display a user ID acceptance screen related to communication terminal 100. When a user ID is sent from another communication terminal 100 by e-mail or the like, the CPU 110 causes the touch panel 150 to display a screen on which the user ID is automatically input.

  When the user inputs the user ID related to the communication terminal 100 that wants to display the current position and presses the search button, or the user ID is input based on the received mail from the communication terminal 100 that wants to display the current position. When the search button is pressed, the CPU 110 transmits a user ID to the server 200 via the communication interface 160.

  With reference to FIG. 7B, server 200 transmits a nickname corresponding to the user ID to communication terminal 100. CPU 110 causes touch panel 150 to display a nickname related to communication terminal 100 whose current position is to be displayed. Thereby, the user of the communication terminal 100 can confirm whether or not the communication terminal 100 trying to acquire the current position belongs to the desired user.

  At this time, CPU 110 causes touch panel 150 to display a software button for receiving a command for starting display of the current position of designated communication terminal 100. When receiving a command for starting display of the current position of the designated communication terminal 100, the CPU 110 starts to acquire the current position information of the communication terminal 100 from the server 200 via the communication interface 160. That is, referring to FIG. 8, CPU 110 maps the current position of communication terminal 100 designated by the user on touch panel 150 based on map data that can be acquired from server 200, another database, or its own position acquisition program. Display above.

In the state where the position information is transmitted in the transmission mode, when the user inputs the user ID related to his / her communication terminal 100 on the screen shown in FIG. 7A, or in the received mail from his / her communication terminal 100. When the user ID is input based on the touch panel 150, the current position of the communication terminal 100 is displayed on the map.
<Position Data Transmission Processing in Communication Terminal 100>

  Next, position data transmission processing in communication terminal 100 according to the present embodiment will be described. FIG. 9 is a flowchart showing position data transmission processing in the communication terminal 100 according to the present embodiment.

  Referring to FIG. 9, CPU 110 of communication terminal 100 first resets the timer (step S102). CPU110 acquires the update interval of position data from the memory 120 (step S104).

  CPU 110 determines whether or not the value of the timer exceeds the update interval (step S106). If the timer value does not exceed the update interval (NO in step S106), the process of step S106 is repeated.

If the timer value exceeds the update interval (YES in step S106), CPU 110 uses position acquisition unit 170 to acquire the current position, speed, direction, and the like of communication terminal 100 (step S108). ). CPU 110 creates data indicating the current position based on the current position, speed, direction, and the like (step S110). CPU 110 transmits position data D111 to server 200 by using communication interface 160 (step S112). CPU110 repeats the process from step S110.
<Position acquisition display processing in communication terminal 100>

  Next, position data acquisition / display processing in the communication terminal 100 according to the present embodiment will be described. FIG. 10 is a flowchart showing position data transmission processing in the communication terminal 100 according to the present embodiment.

  Referring to FIG. 10, CPU 110 of communication terminal 100 first resets the timer (step S122). CPU110 acquires the update interval of a map from the memory 120 (step S124).

  CPU 110 determines whether or not the timer value exceeds the update interval (step S126). If the timer value does not exceed the update interval (NO in step S126), the process of step S126 is repeated.

If the timer value exceeds the update interval (YES in step S126), CPU 110 requests location data from server 200 via communication interface 160 (step S128). CPU 110 receives position data from server 200 via communication interface 160 (step S130). CPU 110 causes touch panel 150 to display the current position of communication terminal 100 on the map based on the acquired position data and map data in the vicinity of the position data (step S132).
<Hardware Configuration of Server 200>

  Next, an aspect of the hardware configuration of the server 200 will be described. FIG. 11 is a block diagram showing a hardware configuration of server 200 according to the present embodiment.

  Referring to FIG. 11, server 200 includes a CPU 210, a memory 220, and a communication interface 260 as main components.

  The CPU 210 controls each unit of the server 200 by executing a program stored in the memory 220 or an external storage medium. That is, the CPU 210 executes various processes, for example, various processes described later, by executing a program stored in the memory 220.

  The memory 220 is realized by various RAMs, various ROMs, flash memories, and the like. Note that the memory 120 is also realized by a storage medium such as a USB (registered trademark) memory, a CD, a DVD, a memory card, a hard disk, an IC card, an optical card, a mask ROM, an EPROM, and an EEPROM used via an interface. Is done.

  The memory 220 includes a program executed by the CPU 210, data generated by execution of the program by the CPU 210, data input via the input / output unit, data received from the plurality of communication terminals 100, various databases described below, Map data for displaying a map, latitude / longitude information indicating the position and / or area of a pitch used for a race, and the like are stored. For example, the memory 220 stores a current position information database 221.

  Here, FIG. 12 is an image diagram showing the current position information database 221 according to the present embodiment. Referring to FIG. 12, the current location information database 221 corresponds to a user ID, a nickname, information indicating the current location of the communication terminal 100 corresponding to the user ID, and an address of the communication terminal 100 corresponding to the user ID. Store relationships.

Returning to FIG. 11, the communication interface 260 is realized by an antenna or a connector. The communication interface 260 exchanges data with other devices by wired communication or wireless communication. The CPU 210 receives position data, control commands, image data, text data, and the like of the communication terminal 100 from other devices such as the communication terminal 100 via the communication interface 260. Further, the CPU 210 transmits data for displaying the position of the runner for each team, other text data, other image data, and the like to other devices such as the plurality of communication terminals 100 via the communication interface 260. .
<Position Data Acquisition / Transmission Processing in Server 200>

  Next, position data transmission processing in the server 200 according to the present embodiment will be described. FIG. 13 is a flowchart showing position data transmission processing in the communication terminal 100 according to the present embodiment.

  Referring to FIG. 13, when CPU 210 of server 200 receives data from communication terminal 100 via communication interface 260, CPU 210 executes the following processing. It is determined whether or not the received data includes data indicating the current position (step S152). If the received data includes data indicating the current position (YES in step S152), CPU 210 identifies the ID of the user of communication terminal 100 from the received data (step S154). The CPU 210 stores the position data in the position information database 221 (step S156). CPU 210 waits for the next data from communication terminal 100 via communication interface 260.

  If the received data does not include data indicating the current position (NO in step S152), CPU 210 determines whether the received data includes a request for position data (step S162). . If the received data includes a request for position data (YES in step S162), CPU 210 identifies the ID of the user of communication terminal 100 that wants to acquire position data from the received data (step S164). .

  The CPU 210 reads position data from the position information database 221 (step S166). CPU 210 transmits position data to communication terminal 100 via communication interface 260 (step S170). CPU 210 waits for the next data from communication terminal 100 via communication interface 260.

  When the received data does not include a request for position data (NO in step S162), CPU 210 obtains other commands and information from the received data and executes various processes (step S172). ). CPU 210 waits for the next data from communication terminal 100 via communication interface 260.

Since the position acquisition program according to the present embodiment has a transmission mode and an acquisition mode, it is possible to share a platform for transmitting own position information and acquiring other person's position information. . As a result, user convenience and / or service convenience can be improved.
<Second Embodiment>

  In the first embodiment, the current position of one communication terminal is displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the present embodiment, as shown in FIG. 14, the current positions of the plurality of communication terminals 100 are displayed on each touch panel 150 of communication terminal 100 in the position acquisition mode. FIG. 14 is a first image diagram showing a display screen in communication terminal 100 according to the present embodiment.

The overall configuration of the network system 1 according to the present embodiment, the outline of the operation of the network system 1, the hardware configuration of each device, the position data transmission process in the communication terminal 100, and the like are the same as those in the first embodiment. Therefore, the description will not be repeated here. In other words, only parts that are significantly different from the first embodiment will be described below.
<Processing of CPU 110 of Communication Terminal 100>

  Next, processing executed by the CPU 110 in the communication terminal 100 according to the present embodiment according to the position acquisition program will be described. However, the processing of CPU 110 in the transmission mode is the same as that of the first embodiment, and therefore description thereof will not be repeated here.

  Referring to FIG. 4, when the user selects the acquisition (display) mode via touch panel 150 or a switch of communication terminal 100, as shown in FIG. An input of user IDs regarding a plurality of communication terminals 100 for which the current position is to be displayed is received from the user. FIG. 15 is a second image diagram showing a display screen in communication terminal 100 according to the present embodiment.

  Referring to (a) of FIG. 15, in the present embodiment, CPU 110 causes touch panel 150 to display user ID reception screens related to a plurality of communication terminals 100. When the user ID is sent from another communication terminal 100 by e-mail or the like, the CPU 110 automatically inputs the user ID into the input field.

  When the user inputs the user ID related to the communication terminal 100 that wants to display the current position and presses the search button, or the user ID is input based on the received mail from the communication terminal 100 that wants to display the current position. When the user presses the search button, the CPU 110 transmits a user ID to the server 200 via the communication interface 160.

  Referring to (b) of FIG. 15, server 200 transmits a nickname corresponding to the user ID to communication terminal 100. CPU 110 causes touch panel 150 to display a nickname related to communication terminal 100 whose current position is to be displayed. Thereby, the user of the communication terminal 100 can confirm whether or not the communication terminal 100 trying to acquire the current position belongs to the desired user.

  Further, when the user inputs a user ID related to another communication terminal 100 that wants to display the current position and presses the search button, or the user ID is input based on the received mail from the communication terminal 100 that wants to display the current position. When the user presses the search button in such a state, the CPU 110 transmits a user ID to the server 200 via the communication interface 160.

  Referring to (c) of FIG. 15, server 200 transmits a nickname corresponding to a user ID related to another communication terminal 100 to communication terminal 100. CPU 110 causes touch panel 150 to display a nickname related to another communication terminal 100 whose current position is desired to be displayed. Thereby, the user of the communication terminal 100 can confirm whether the other communication terminal 100 which is going to acquire the present position belongs to the desired user.

  At this time, CPU 110 causes touch panel 150 to display a software button for accepting a command for starting display of the current position of one or more designated communication terminals 100. When receiving an instruction to start displaying the current position of the designated one or more communication terminals 100, the CPU 110 receives the current position information of the one or more communication terminals 100 from the server 200 via the communication interface 160. Start getting. That is, based on the map data that can be acquired from the server 200, another database, or its own position acquisition program, the CPU 110 displays the current positions of the plurality of communication terminals 100 designated by the user on the touch panel 150 as shown in FIG. Is displayed on the map.

Also in the present embodiment, when the user inputs a user ID related to his / her communication terminal 100 in the state shown in FIG. 15A while transmitting position information in the transmission mode, or from his / her communication terminal 100 When the user ID is input based on the received mail, the current position of the own communication terminal 100 is displayed on the map together with the current position of the other communication terminal 100 on the touch panel 150.
<Position Data Acquisition / Transmission Processing in Server 200>

  The position data transmission process in the server 200 according to the present embodiment will be described. However, since the position data transmission processing in the server 200 according to the present embodiment is different in step S166 and step S170 compared to the first embodiment shown in FIG. 12, the description regarding other steps S is repeated. Absent.

That is, in the present embodiment, CPU 210 reads a plurality of position data from position information database 221 based on the IDs of a plurality of communication terminals 100 for which position data is requested (step S166). CPU 210 transmits a plurality of position data to communication terminal 100 via communication interface 260 (step S170). CPU 210 waits for the next data from communication terminal 100 via communication interface 260.
<Third Embodiment>

  In the first embodiment, the current position of one communication terminal is displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the second embodiment, the current position of one or more communication terminals is displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the present embodiment, only the current position of one communication terminal 100 can be displayed or the current positions of a plurality of communication terminals 100 can be displayed, depending on whether the program is a free position acquisition program or a paid position acquisition program. Is different.

  FIG. 16 is a table showing different service contents according to the present embodiment depending on whether it is a free location acquisition program or a paid location acquisition program. Referring to FIG. 16, CPU 110 of communication terminal 100 or CPU 210 of server 200 determines the current position of only one communication terminal 100 in the transmission mode of communication terminal 100 in the position acquisition mode when using the free position acquisition program. Display on the touch panel 150. Then, the CPU 110 of the communication terminal 100 executes acquisition of position information using the position acquisition function at intervals determined by the service side. In addition, the display of information regarding the event is forcibly executed by the service side.

  On the other hand, when using the paid location acquisition program, the CPU 110 of the communication terminal 100 or the CPU 210 of the server 200 determines the current location of the communication terminal 100 in one or more transmission modes according to the user's specification. Display on the touch panel 150. And CPU110 of the communication terminal 100 can change the acquisition interval of the positional information using a position acquisition function based on a user's setting. Also, the user can freely set whether or not to display information regarding the event.

  Here, processing related to changing the position information acquisition interval will be described in detail. FIG. 17 is a first image diagram showing a display screen in communication terminal 100 according to the present embodiment. FIG. 18 is a second image diagram showing a display screen in communication terminal 100 according to the present embodiment.

As illustrated in FIG. 17, the CPU 110 of the communication terminal 100 displays a setting window on the touch panel 150 based on an instruction from the user. When the user selects the “set” button, the CPU 110 displays a window for setting the position data acquisition interval as shown in FIG. The CPU 110 acquires the current position using the position acquisition function according to the position data acquisition interval set by the user.
<Fourth embodiment>

  In the second embodiment, as shown in FIG. 14, the current positions of the plurality of communication terminals 100 are displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the present embodiment, communication terminal 100 causes touch panel 150 to display a map on a scale to the extent that the current positions of a plurality of designated communication terminals 100 are all displayed.

  The overall configuration of the network system 1 according to the present embodiment, the outline of the operation of the network system 1, the hardware configuration of each device, the position data transmission process in the communication terminal 100, the position data acquisition and transmission process in the server 200, etc. Since it is the same as that of the first embodiment, description thereof will not be repeated here. In other words, hereinafter, a part of the position acquisition display process in the communication terminal 100 will be described as a part different from the first embodiment.

  Referring to FIG. 10, CPU 110 receives position data of one or more communication terminals 100 from server 200 via communication interface 160 (step S130). CPU 110 calculates the scale of the map based on the acquired position data of the plurality of communication terminals 100. For example, the CPU 110 calculates the distance between the plurality of communication terminals 100, and the east-west distance between the communication terminals 100 having the longest distance in the east-west direction and the north-south direction between the communication terminals 100 having the longest distance in the north-south direction. The map scale is calculated based on the distance.

Then, as illustrated in FIG. 19, the CPU 110 displays the current position of one or more communication terminals 100 on the touch panel 150 based on the acquired position data of the plurality of communication terminals 100 and the determined scale map data. It is displayed on the map (step S132). Since other steps are the same as those in the first to third embodiments, description thereof will not be repeated here.
<Fifth embodiment>

  In the second embodiment, as shown in FIG. 14, the current positions of the plurality of communication terminals 100 are displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the present embodiment, communication terminal 100 accepts display area settings, and in particular, accepts commands from the user for designating areas to be displayed, venues, and the like. Note that the communication terminal 100 may simply accept a designation of latitude / longitude indicating a map position and a designation of scale from the user via the touch panel 150.

  The overall configuration of the network system 1 according to the present embodiment, the outline of the operation of the network system 1, the hardware configuration of each device, the position data transmission process in the communication terminal 100, the position data acquisition and transmission process in the server 200, etc. Since it is the same as that of the first embodiment, description thereof will not be repeated here. In other words, a part of the processing of the CPU 110 of the communication terminal 100 will be described below as a part different from the first embodiment.

  FIG. 20 is an image diagram showing a display screen in communication terminal 100 according to the present embodiment. Referring to FIG. 20A, also in the present embodiment, CPU 110 measures the position of communication terminal 100 and transmits the position information to server 200, and other communication terminals from server 200. A command for designating an acquisition mode for acquiring 100 position information is received from the user.

  However, in this embodiment, CPU 110 has not only a button for specifying a transmission mode and a button for specifying an acquisition mode, but also a pull-down menu for receiving an area selection command, on touch panel 150. To display. Then, the user selects a transmission mode or selects an acquisition mode via the touch panel 150 or a switch with the area selected. Thus, CPU 110 displays the current position of communication terminal 100 on the map of the selected area based on the position data of communication terminal 100 from server 200 and the map data of the selected area. Since the subsequent processing is the same as that in the first to fourth embodiments, description thereof will not be repeated here.

  Examples of selectable areas include theme parks, amusement parks, large commercial facilities, sightseeing spots, race venues, prefectures, and municipalities. The CPU 110 of the communication terminal 100 preferably acquires a list of selectable areas from the server 200 via the communication interface 160 in advance, periodically, or when starting the position acquisition program.

  In addition, a part of the position acquisition display process in the communication terminal 100 will be described as a part different from the first embodiment. Referring to FIG. 10, CPU 110 receives position data of one or more communication terminals 100 from server 200 via communication interface 160 (step S130). CPU 110 causes touch panel 150 to display the current position of one or more communication terminals 100 on the map based on the acquired position data of the plurality of communication terminals 100 and map data of the selected area (step S132). . Since other steps are the same as those in the first to fourth embodiments, description thereof will not be repeated here.

This makes it easy for the user to know where the other members and themselves are located without specifying the map range.
<Sixth Embodiment>

  In the second embodiment, as shown in FIG. 14, the current positions of the plurality of communication terminals 100 are displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the present embodiment, the communication terminal 100 displays a map so that the current position of the communication terminal 100 designated first (top entry field) is displayed at the center of the map on the screen shown in FIG. And the current position of one or a plurality of communication terminals 100 are displayed on touch panel 150.

  In other words, by inputting the user ID acquired at the start of the transmission mode of the communication terminal 100 in the top field of the ID input field of the acquisition mode shown in FIG. Can be displayed at the center of the map.

  The overall configuration of the network system 1 according to the present embodiment, the outline of the operation of the network system 1, the hardware configuration of each device, the position data transmission process in the communication terminal 100, the position data acquisition and transmission process in the server 200, etc. Since it is the same as that of the first embodiment, description thereof will not be repeated here. In other words, hereinafter, a part of the position acquisition display process in the communication terminal 100 will be described as a part different from the first embodiment.

  Referring to FIG. 10, CPU 110 receives position data of one or more communication terminals 100 from server 200 via communication interface 160 (step S130). CPU110 determines the center of a map based on the position data of the communication terminal 100 designated first. Then, as shown in FIG. 21, CPU 110 causes touch panel 150 to display the current position of one or more communication terminals 100 on a map centered on the position of communication terminal 100 specified first (step S132). ). Since other steps are the same as those in the first to third embodiments, description thereof will not be repeated here.

  However, the scale of the map may be calculated based on the position data of the communication terminal 100 specified first and the other communication terminal 100. For example, the CPU 110 calculates the distance between the first designated communication terminal 100 and the other communication terminals 100, and the distance between the communication terminals 100 having the longest distance in the east-west direction and the distance in the north-south direction are the largest. The scale of the map may be calculated based on the distance between the distant communication terminals 100 in the north-south direction.

Moreover, it is not restricted to the form in which the communication terminal 100 designated first is displayed at the center of the map. For example, a radio button for selecting the communication terminal 100 to be displayed at the center of the map may be displayed on the ID input screen shown in FIG. Alternatively, the map may be such that the current position of the communication terminal 100 executing the position acquisition mode is automatically displayed in the center of the map without inputting the ID of the transmission mode of the communication terminal 100. The display area may be determined.
<Seventh embodiment>

  In the second embodiment, as shown in FIG. 14, the current positions of the plurality of communication terminals 100 are displayed on each touch panel 150 of the communication terminal 100 in the position acquisition mode. In the present embodiment, communication terminal 100 is controlled such that the display form of the position of communication terminal 100 whose current position has not been updated for a predetermined period or more is different from the display form of the positions of other communication terminals 100. .

  The overall configuration of the network system 1 according to the present embodiment, the outline of the operation of the network system 1, the hardware configuration of each device, the position data transmission process in the communication terminal 100, the position data acquisition and transmission process in the server 200, etc. Since it is the same as that of the first embodiment, description thereof will not be repeated here. In other words, hereinafter, a part of the position acquisition display process in the communication terminal 100 will be described as a part different from the first embodiment.

  Referring to FIG. 10, CPU 110 receives position data of one or more communication terminals 100 from server 200 via communication interface 160 (step S130). In the present embodiment, CPU 110 stores the latest position data acquisition time in memory 120 for each of a plurality of communication terminals 100.

  As shown in FIG. 22, the CPU 110 displays a map on the touch panel 150 and displays the current position of the communication terminal 100 in which the current position is updated within a predetermined period in the normal first display form. The current position of the communication terminal 100 that has not been updated for a predetermined period or longer is displayed in a second display form different from the first display form (step S132). Since other steps are the same as those in the first to third embodiments, description thereof will not be repeated here.

Accordingly, when there is another member displayed in the second display form, the user can predict that the other member may not be currently in the displayed position.
<Eighth Embodiment>

  In the first to seventh embodiments, the communication terminal 100 periodically measures the current position using the position acquisition function. In particular, for the paid service in the third embodiment, the measurement interval of the current position can be determined by the user setting. In the present embodiment, communication terminal 100 changes the current position measurement interval by position acquisition based on the remaining battery level.

  The overall configuration of the network system 1 according to the present embodiment, the operation overview of the network system 1, the hardware configuration of each device, the location data acquisition display processing in the communication terminal 100, the location data acquisition transmission processing in the server 200, etc. Since it is the same as that of 1st Embodiment, description is not repeated here. Below, a part of position data transmission process in the communication terminal 100 is demonstrated as a different part from 1st Embodiment.

  FIG. 23 is a flowchart showing position data transmission processing in the communication terminal 100 according to the present embodiment. Referring to FIG. 23, CPU 110 of communication terminal 100 first resets the timer (step S802).

  And in this Embodiment, CPU110 of the communication terminal 100 performs the process which acquires battery remaining charge (step S803). When the remaining battery level is high, the CPU 110 sets the current position measurement interval by position acquisition to be shorter. Conversely, when the remaining battery level is low, the CPU 110 sets the current position measurement interval by position acquisition to be shorter (step S804).

  As a specific example, when the remaining battery level is half (first predetermined value) or more, the CPU 110 sets the current position measurement interval by position acquisition to a normal set time, for example, 30 seconds. When the remaining battery level is less than half and equal to or greater than ¼ (second predetermined value), CPU 110 sets the current position measurement interval by position acquisition to twice the normal set time, for example, 60 seconds. When the remaining battery level is less than 1/4, CPU 110 sets the current position measurement interval by position acquisition to four times the normal set time, for example, 2 minutes.

  The CPU 110 determines whether or not the timer value exceeds the set update interval (step S806). If the timer value does not exceed the update interval (NO in step S806), the process of step S806 is repeated.

If the timer value exceeds the update interval (YES in step S806), CPU 110 uses position acquisition unit 170 to acquire the current position, speed, direction, and the like of communication terminal 100 (step S808). ). CPU 110 creates data indicating the current position based on the current position, speed, direction, and the like (step S810). CPU 110 transmits position data D111 to server 200 by using communication interface 160 (step S812). CPU110 repeats the process from step S802.
<Ninth embodiment>

  In the first to seventh embodiments, the communication terminal 100 periodically measures the current position using the position acquisition function. In particular, for the paid service in the third embodiment, the measurement interval of the current position can be determined by the user setting. In the present embodiment, communication terminal 100 changes the current position measurement interval by position acquisition based on the speed.

  The overall configuration of the network system 1 according to the present embodiment, the operation overview of the network system 1, the hardware configuration of each device, the location data acquisition display processing in the communication terminal 100, the location data acquisition transmission processing in the server 200, etc. Since it is the same as that of 1st Embodiment, description is not repeated here. Below, a part of position data transmission process in the communication terminal 100 is demonstrated as a different part from 1st Embodiment.

  FIG. 24 is a flowchart showing position data transmission processing in the communication terminal 100 according to the present embodiment. Referring to FIG. 24, CPU 110 of communication terminal 100 first resets the timer (step S902).

  And in this Embodiment, CPU110 of the communication terminal 100 performs the process which acquires the moving speed of the communication terminal 100 (step S903). For example, the CPU 110 calculates the speed of the communication terminal 100 based on the latest two own position data. Then, when the speed of the communication terminal 100 is high, the CPU 110 sets the current position measurement interval by position acquisition to be short. Conversely, when the speed is low, the CPU 110 sets the current position measurement interval by position acquisition to be shorter (step S904).

  As a specific example, when the speed is less than 10 km / h (first predetermined value), the CPU 110 sets the normal interval of current position measurement by position acquisition to 30 seconds. When the speed is 10 km / h or more and less than 50 km / h (second predetermined value), the CPU 110 sets the current position measurement interval by position acquisition to 15 seconds. When the speed is 50 km / h or more, the CPU 110 sets the current position measurement interval by position acquisition to 10 seconds.

  The CPU 110 determines whether or not the timer value exceeds the set update interval (step S906). If the timer value does not exceed the update interval (NO in step S906), the process of step S906 is repeated.

If the timer value exceeds the update interval (YES in step S906), CPU 110 uses position acquisition unit 170 to acquire the current position, speed, direction, etc. of communication terminal 100 (step S908). ). CPU 110 creates data indicating the current position based on the current position, speed, direction, and the like (step S910). CPU 110 transmits position data D111 to server 200 by using communication interface 160 (step S912). CPU110 repeats the process from step S902.
<Tenth Embodiment>

  In the first to ninth embodiments, the user can input a command for designating the transmission mode and a command for designating the acquisition mode. In the present embodiment, as shown in FIG. 2, the user can also specify the staff mode.

  The overall configuration of the network system 1 according to the present embodiment, the operation overview of the network system 1, the hardware configuration of each device, the position data transmission process in the communication terminal 100, the position data acquisition display process in the communication terminal 100, the server 200 Since the position data acquisition / transmission processing in FIG. 6 is the same as that in the first embodiment, description thereof will not be repeated here. Below, the part which is not demonstrated in the 1st-9th embodiment is demonstrated.

  As illustrated in FIG. 17, the CPU 110 of the communication terminal 100 displays a setting window on the touch panel 150 based on an instruction from the user. When the user selects the button “staff mode” from the setting window, the CPU 110 shifts to a staff mode setting process as shown in FIG. FIG. 25 is an image diagram showing a display screen in communication terminal 100 according to the present embodiment.

  Referring to FIG. 25A, CPU 110 receives an input of a staff ID from the user via touch panel 150. When the user presses the “confirm” button, the CPU 110 transmits the staff ID to the server 200 via the communication interface 160.

  In the server 200, a correspondence relationship between a staff ID and a user name is input in advance from an operator, for example, a race organizer or an amusement park manager. The CPU 210 of the server 200 receives the staff ID from the communication terminal 100 via the communication interface 260 and transmits the user name corresponding to the staff ID to the communication terminal 100.

  Referring to FIG. 25B, CPU 110 causes touch panel 150 to display the user name received from server 200. Thereby, the staff who is the user of the communication terminal 100 can confirm whether or not the staff ID is input incorrectly.

  Further, at this time, CPU 110 causes touch panel 150 to display a software button for receiving a command for starting the current position acquisition process of communication terminal 100 using the position acquisition function. When the user inputs an instruction for starting the acquisition process of the current position to the communication terminal 100, the CPU 110 starts the acquisition process of the current position of the communication terminal 100 using the position acquisition function. Note that the process of acquiring the current position of the communication terminal 100 is the same as that of the first embodiment, and therefore description thereof will not be repeated here.

As a result, the server 200 can acquire the current positions of a large number of staff members. The race organizer and the amusement park manager can access the server 200 from a communication terminal 100 such as a personal computer, a tablet, or a smartphone by using a dedicated application program or an Internet browser, so that many staff members can access the server 200. It is possible to grasp the current position.
<Other application examples>

  It goes without saying that the present invention can also be applied to a case where it is achieved by supplying a program to a system or apparatus. Then, a storage medium (or memory) storing a program represented by software for achieving the present invention is supplied to the system or apparatus, and the computer (or CPU or MPU) of the system or apparatus stores it in the storage medium. The effect of the present invention can also be enjoyed by reading and executing the program code.

  In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiment, and the storage medium storing the program code constitutes the present invention.

  Further, by executing the program code read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (operating system) running on the computer based on the instruction of the program code However, it is needless to say that a case where the function of the above-described embodiment is realized by performing part or all of the actual processing and the processing is included.

Furthermore, after the program code read from the storage medium is written to another storage medium provided in the function expansion board inserted into the computer or the function expansion unit connected to the computer, based on the instruction of the program code, It goes without saying that the CPU of the function expansion board or function expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.
<Summary of the above embodiments>

  In the first to tenth embodiments, a position acquisition program 121 for a device having a communication interface 160 for communicating with the server 200, a position acquisition function 170, a display 130, and a processor 110 is provided. . The position acquisition program 121 acquires a current position by using the position acquisition function 170 in the processor 110 and transmits the current position to the server 200 via the communication interface 160. Receiving the current position of at least one other device 100 from the server 200 and causing the display 130 to display the current position of the at least one other device.

  In the first to tenth embodiments described above, the position acquisition program 121 receives identification information from the server 200 when registering as a member in the server 200 before causing the processor 110 to execute the step of transmitting the current position. The receiving step and the step of transmitting identification information to another device 100 are executed. Prior to causing the processor 110 to display the current position of at least one other device 100, the position acquisition program 121 receives the identification information of the at least one other device 100, and receives at least one received The step of starting acquisition of the current position of the other device 100 is executed by using one piece of identification information.

  In the fourth embodiment described above, the step of displaying the current position of at least one other device 100 is the scale of the map so that the current position of at least one other device 100 is displayed on the display 130. A step of adjusting.

  In the fifth embodiment described above, the step of displaying the current position of at least one other device 100 includes displaying the current position of at least one other device 100 on the map of the set area on the display 130. The step of displaying is included.

  In the fifth embodiment, the position acquisition program 121 causes the processor 110 to select one area from a plurality of types of areas before executing the step of displaying the current position of at least one other device 100. The step of receiving an instruction to select is executed.

  In the sixth embodiment described above, the step of displaying the current position of at least one other device 100 is performed by causing the display 130 to display at least one other device on a map centered on any position of the device 100. Displaying the current position of the device 100.

  In the seventh embodiment described above, in the step of displaying the current position of at least one other device 100, the current position of any one of the at least one other device 100 is not normally updated for a predetermined period. The current position of any one of the at least one other device 100 that has not been updated normally is displayed in a display mode different from the display mode of any current position of the at least one other device 100 that has been updated normally. Including displaying on the display 130.

  In the first to tenth embodiments described above, the communication interface 100 provided with the communication interface 160 for communicating with the server 200, the position acquisition function 170, the display 130, and the processor 110 is provided. The processor 110 acquires the current position by using the position acquisition function 170, transmits the current position to the server 200 via the communication interface 160, and at least one other one from the server 200 via the communication interface 160. The current position of the device 100 is received, and the current position of at least one other device 100 is displayed on the display 130.

  In said 1st-10th embodiment, the network system 1 provided with the 1st communication terminal 100, the 2nd communication terminal 100, and the server 200 is provided. The first communication terminal 100 acquires the current position by using the position acquisition function 170 and transmits the current position to the server 200. The server 200 transmits the current position of the first communication terminal 100 to the first or second communication terminal 100 based on the request of the first or second communication terminal 100. The first or second communication terminal 100 displays the current position of the first communication terminal 100 on the display 130.

  In the first to tenth embodiments described above, a location acquisition method in the network system 1 including the first communication terminal 100, the second communication terminal 100, and the server 200 is provided. In the position acquisition method, the first communication terminal 100 periodically acquires the current position by using the position acquisition function 170 and transmits the current position to the server 200. Based on the request of the first or second communication terminal 100, the step of transmitting the current position of the first communication terminal 100 to the first or second communication terminal 100, and the first or second communication terminal 100, Displaying the current position of the first communication terminal 100 on the display 130.

  In the first to tenth embodiments described above, a server including a communication interface 260 for communicating with the first and second communication terminals 100 and a processor 210 is provided. The processor 210 receives the current position from the first communication terminal 100 via the communication interface 260, and performs the first communication via the communication interface 260 based on the request of the first or second communication terminal 100. The current position of the terminal 100 is transmitted to the first or second communication terminal 100.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

1: Network system 100: Device (communication terminal)
110: Processor (CPU)
120: Memory 121: Position acquisition program (application program for position acquisition)
130: Display 140: Pointing device 150: Touch panel 160: Communication interface 170: Position acquisition function 200: Server 210: Processor (CPU)
220: Memory 221: Location information database 260: Communication interface

Claims (12)

A position acquisition program for a device having a communication interface for communicating with a server, a position acquisition function, a display, and a processor,
Simultaneously displaying on the display a button for receiving a first command for starting a position transmission mode and a button for receiving a second command for starting a position display mode;
When receiving the first command, continuously acquiring the current position by using the position acquisition function, and transmitting the current position to the server via the communication interface;
When the second command is received, the current position of at least one other device is continuously received from the server via the communication interface, and the current position of the at least one other device is received on the display. A position acquisition program for executing a step of displaying a position.   The position acquisition program according to claim 1, wherein when receiving the second command, the processor executes a step of receiving a designation of the at least one other device on which the current position is to be displayed. Before having the processor perform the step of transmitting the current location,
Receiving identification information from the server when registering with the server;
Transmitting the identification information to another device, and
Before causing the processor to display the current position of the at least one other device,
Receiving identification information of the at least one other device;
The position acquisition program according to claim 1, wherein the step of starting acquisition of a current position of the other device is performed by using the received at least one identification information. Displaying the current position of the at least one other device;
The position acquisition program according to any one of claims 1 to 3, comprising a step of adjusting a scale of the map so that the current position of the at least one other device is all displayed on the display. Displaying the current position of the at least one other device;
The position acquisition program according to any one of claims 1 to 3, further comprising a step of causing the display to display a current position of the at least one other device on a map of a set area. Before executing the step of displaying the current position of the at least one other device, the processor
The position acquisition program according to claim 5, wherein a step of receiving an instruction to select one area from a plurality of types of areas is executed. Displaying the current position of the at least one other device;
The position according to any one of claims 1 to 6, comprising a step of causing the display to display a current position of the at least one other device on a map centered on the position of the device. Acquisition program. Displaying the current position of the at least one other device;
If the current position of any of the at least one other device is not updated normally for a predetermined period, the current position of any of the at least one other device that has not been updated normally is updated normally. The position acquisition program according to any one of claims 1 to 7, further comprising a step of causing the display to display in a display mode different from a display mode of any current position of the at least one other device. A communication interface for communicating with the server;
With position acquisition function,
Display,
A communication terminal with a processor,
The processor is
A button for receiving a first command for starting a position transmission mode and a button for receiving a second command for starting a position display mode are simultaneously displayed on the display;
In the position transmission mode, continuously acquiring the current position by using the position acquisition function, and transmitting the current position to the server via the communication interface,
In the position display mode, the current position of at least one other device is continuously received from the server via the communication interface, and the current position of the at least one other device is displayed on the display. , Communication terminal. A plurality of communication terminals for receiving a first command for starting a position transmission mode or a second command for starting a position display mode;
A network system comprising a server,
The communication terminal in the position transmission mode that has received the first command continuously acquires the current position by using the position acquisition function, and transmits the current position to the server.
The server transmits the current position of the communication terminal in the position transmission mode to the communication terminal in the position display mode based on the request of the communication terminal in the position display mode that has received the second command,
The network system in which the communication terminal in the position display mode continuously displays the current position of the communication terminal in the position transmission mode on a display. A position acquisition method in a network system including a plurality of communication terminals and a server,
Any of the plurality of communication terminals accepting a first command for starting the position transmission mode;
Any one of the plurality of communication terminals accepting a second command for starting the position display mode;
The communication terminal in the position transmission mode continuously acquires a current position by using a position acquisition function, and transmits the current position to the server;
The server, based on the request of the communication terminal in the position display mode, transmitting the current position of the communication terminal in the position transmission mode to the communication terminal in the position display mode;
A position acquisition method comprising: a communication terminal in the position display mode continuously displaying a current position of the communication terminal in the position transmission mode on a display. A communication interface for communicating with a plurality of communication terminals;
A server comprising a processor,
The processor is
Through the communication interface, continuously receiving the current position from the communication terminal in the position transmission mode that has received the first command,
Based on the request of the communication terminal in the position display mode that has received the second command, the current position of the communication terminal in the position transmission mode is continuously transmitted to the communication terminal in the position display mode via the communication interface. ,server.

Images