CN105262829B - Geographical position monitoring method and system - Google Patents

Abstract

The invention provides a geographic position monitoring method, which comprises the following steps: triggering to enter a session interface in a second application operated by the first mobile equipment according to the associated account of the first application, wherein the first application is operated on the second mobile equipment where the target user is located; intercepting to obtain a trigger instruction of a user position menu in the session interface; executing geographic position query for the user identification logged in the second application according to the trigger instruction, wherein the second application and the first application log in the same user identification; and displaying the geographical position of the target user in the session interface according to the geographical position obtained by the query. In addition, a geographic position monitoring system matched with the method is also provided. The geographical position monitoring method and the system do not need to add new hardware equipment, and the realization cost is very low.

Description

Geographical position monitoring method and system

Technical Field

The invention relates to the technical field of internet application, in particular to a method and a system for monitoring a geographic position.

Background

With the development of internet application technology, more and more users realize the monitoring of their geographical position through purchasing various intelligent wearing equipment. Specifically, the user carries the purchased intelligent wearable device with him to know the current geographic position under the action of the intelligent wearable device, and transmits the geographic position to the mobile device, so as to monitor the geographic position of the user in the mobile device.

For example, the smart wearable device may be a smart band or the like. The child can carry the intelligent bracelet with him or her, so that parents who are guardians can check the geographic position of the child at any time in the mobile device.

However, the implementation process depends on hardware devices, and additional hardware devices are required, that is, intelligent wearable devices are additionally purchased, so that the implementation cost is high.

Disclosure of Invention

Based on this, it is necessary to provide a geographic position monitoring method, which does not require additional hardware devices and is very low in implementation cost.

In addition, it is also necessary to provide a geographic position monitoring system, which does not require additional hardware devices and is very low in implementation cost.

In order to solve the technical problems, the following technical scheme is adopted:

a method of geographic location monitoring, operational in a first mobile device, the method comprising:

triggering to enter a session interface in a second application operated by the first mobile equipment according to the associated account of the first application, wherein the first application is operated on the second mobile equipment where the target user is located;

intercepting to obtain a trigger instruction of a user position menu in the session interface;

executing geographic position query for the user identification logged in the second application according to the trigger instruction, wherein the second application and the first application log in the same user identification;

and displaying the geographical position of the target user in the session interface according to the geographical position obtained by the query.

A geographic location monitoring method, the method operating on a second mobile device at which a target user is located, the method comprising:

triggering the positioning of a first application in the second mobile equipment to obtain the geographic position of a target user;

reporting the geographical position to a server so as to store the geographical position in the server and binding the geographical position with a user identifier of the first application login;

and the user identifier logged in the first application is the user identifier of the second application.

A geographic location monitoring system comprises an interface triggering module, an interface interception module, a location query module and a display module which run in first mobile equipment, wherein:

the interface triggering module is used for triggering the first mobile device to enter a session interface in a second application running in the first mobile device according to the associated account of the first application, wherein the first application is run in the second mobile device;

the interface interception module is used for intercepting and obtaining a trigger instruction of a user position menu in the session interface;

the position query module is used for executing geographic position query for the user identifier logged in the second application according to the trigger instruction, and the second application and the first application log in the same user identifier;

and the display module is used for displaying the geographic position of the second mobile equipment in the session interface according to the geographic position obtained by inquiry.

A geographic position monitoring system comprises a positioning module and a position reporting module which run on a second mobile device where a target user is located, wherein:

the positioning module is used for positioning in a first application to obtain the geographic position of a target user;

the position reporting module is used for reporting the geographical position to a server so as to store the geographical position in the server and binding the geographical position with a user identifier logged in the first application;

and the user identifier logged in the first application is the user identifier of the second application.

According to the technical scheme, in the process of monitoring the geographical position of the target user, the first application is operated in the second mobile equipment where the target user is located, the first mobile equipment where the monitoring party is located triggers to enter the session interface in the operated second application according to the associated account number of the first application, a trigger instruction of a user position menu in the session interface is intercepted, the geographical position query is executed for the user identification logged in the second application according to the trigger instruction, the same user identification is logged in the second application and the first application, the geographical position where the target user is located is displayed in the session interface according to the geographical position obtained by the query, therefore, the geographical position where the target user is located can be checked in the second application by means of the mobile equipment and the first application in the mobile equipment which originally exist, for the monitoring of the geographic position of the target user, no additional hardware equipment is needed, and the realization cost is very low.

Drawings

Fig. 1 is a schematic structural diagram of a system architecture according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a terminal device according to an embodiment of the present invention;

FIG. 3 is a flow diagram of a method for geographic location monitoring in one embodiment;

FIG. 4 is a flowchart of the method of FIG. 3 for performing a geographic location query for a logged-in user identifier in a second application according to a triggering instruction;

FIG. 5 is a flow chart of a method of geographic location monitoring in another embodiment;

FIG. 6 is a flow chart of a method of geographic location monitoring in another embodiment;

FIG. 7 is a flow chart of a method of geographic location monitoring in another embodiment;

FIG. 8 is a flow chart of a method of geographic location monitoring in another embodiment;

FIG. 9 is a schematic diagram of a geographic location monitoring implementation in an application scenario of the present invention;

FIG. 10 is a schematic illustration of the application interface of FIG. 9;

FIG. 11 is a schematic diagram of a geographic location monitoring system in one embodiment;

FIG. 12 is a block diagram of the location query module of FIG. 10;

FIG. 13 is a schematic diagram of a geographic location monitoring system in accordance with another embodiment;

fig. 14 is a schematic structural diagram of a geographical position monitoring system in another embodiment.

Detailed Description

Exemplary embodiments that embody features and advantages of the invention are described in detail below in the specification. It is to be understood that the invention is capable of other embodiments and that various changes in form and details may be made therein without departing from the scope of the invention and the description and drawings are to be regarded as illustrative in nature and not as restrictive.

As described above, the monitoring of the geographic position of the target user, such as the monitoring of the geographic position of the child by the parent, is implemented by the mobile device used by the parent and the intelligent wearable device carried by the child, in which the intelligent wearable device is indispensable, and the monitoring of the geographic position of some other target users is implemented at high cost and cannot be performed at will.

Therefore, in order to avoid the addition of intelligent wearable equipment or other hardware equipment and reduce the implementation cost of monitoring the geographical position of the target user, the geographical position monitoring method is especially provided, and the geographical position of other target users can be monitored at will through the method.

The geographic position monitoring method is realized by a computer program, and correspondingly, the constructed geographic position monitoring system is realized by a system architecture formed by mobile equipment and a server.

Fig. 1 illustrates a system architecture provided by the embodiment of the present invention, which is only an example to which the present invention is applicable and is not to be considered as providing any limitation to the scope of the present invention.

As shown in fig. 1, the system architecture includes a first mobile device 101, a second mobile device 103, and a server 105, where the first mobile device 101 serves as a monitoring side, the second mobile device 103 serves as a target user side, and the server 105 interacts with the first mobile device 101 and the second mobile device 103 respectively, so as to realize monitoring of the geographic location of the target user under cooperation of the first mobile device 101, the second mobile device 103, and the server 105.

Further, fig. 2 shows a structure of a terminal device according to an embodiment of the present invention. The terminal device 200 is only an example suitable for the present invention and should not be construed as providing any limitation to the scope of the present invention. The terminal device 200 is also not to be construed as requiring reliance on, or a combination of, one or more of the components of the illustrated exemplary terminal device 200.

As shown in fig. 1, the terminal device 200 includes a processor 210, a memory 220, and a system bus 230. Various components including the memory 220 and the processor 210 will be connected to the system bus 230. Processor 210 is hardware for executing computer program instructions through basic arithmetic and logical operations in a computer system. Memory 220 is a physical device for temporarily or permanently storing computer or data.

Wherein the memory 220 has stored therein corresponding program instructions; the processor 210 will execute the program instructions in the memory 220, listen for various operations on the inputs to get the various instructions accordingly, and respond.

The terminal device 200 further includes various input interfaces 270, an input means 240 to enable input of various operations. The input device 240 may be at least one of a touch screen, a button, a keyboard, and a mouse.

Terminal device 200 also includes a storage device 280, and storage device 280 may be selected from a variety of computer-readable storage media, which refers to any available media that can be accessed, including both removable and non-removable media. For example, computer-readable media includes, but is not limited to, flash memory (micro SD cards), CD-ROM, Digital Versatile Disks (DVD) or other optical disks, magnetic cassettes, magnetic tape storage or other storage devices, or any other medium which can be used to store the desired information and which can be accessed.

As described in detail above, the terminal device 200 to which the present invention is applied will perform a specified operation of the geographical location monitoring, i.e., the specified operation is performed by the processor 210 executing a form of program instructions in the memory 220, to achieve the monitoring of the geographical location.

Furthermore, the present invention can be implemented by hardware circuitry or by a combination of hardware circuitry and software instructions, and thus, implementation of the present invention is not limited to any specific hardware circuitry, software, or combination of both.

In one embodiment, specifically, a geographical location monitoring method is shown in fig. 3, which is executed in a first mobile device, and includes:

step S310, triggering to enter a session interface in a second application operated by the first mobile equipment according to the associated account of the first application, wherein the first application is operated by the second mobile equipment where the target user is located.

The first application has a positioning function for enabling output of a current geographical location. The second application is any application with other application access functionality, which provides a public platform for other applications, e.g. the first application, to access, the first application being associated with the second application through an interface provided in the public platform. Specifically, the second application may be a social network application, a payment application with functions such as a session extended, or the like, which is not illustrated here.

The first application will access the public platform provided by the second application to make certain functions of the first application available through the session page provided by the second application.

The first application runs on the second mobile equipment, and the mobile equipment currently carried by the target user who currently performs geographic position monitoring is the second mobile equipment; the second application runs on the first mobile device, and the first mobile device is a monitoring side, that is, a mobile device used by another user who performs geographic location monitoring on the target user.

It should be noted that the first mobile device and the second mobile device are any mobile devices originally used by the user, for example, a smart phone, a tablet computer, and the like.

And on the monitoring side, in a second application operated by the first mobile equipment, the user selects the associated account of the first application through the address book provided by the second application, and at the moment, the interface of the second application skips from the interface corresponding to the address book to enter the session interface of the first application.

Step S330, a trigger instruction of the user position menu in the session interface is intercepted and obtained.

The session interface of the first application comprises a plurality of menus, and a user can implement the related functions of the first application in the second application by triggering a certain menu in the session interface, for example, the user can execute message sending or jump of a webpage with a certain function in the first application by triggering the menu in the session interface.

In the session interface of the first application, one menu is a user position menu, and the user position menu is used for providing a function of displaying the geographical position of the target user in the session interface of the first application, so that the user can search the geographical position of the target user by triggering the user position menu.

Specifically, if the operation of clicking the user position menu by the user is detected in the session interface of the first application, a corresponding trigger instruction is generated, so that a corresponding response action is executed according to the trigger instruction.

Step S350, geographic position inquiry is executed for the user identification logged in the second application according to the triggering instruction, and the second application and the first application log in the same user identification.

The response action corresponding to the user position menu is triggered, namely the geographic position query executed according to the user identifier logged in the second application. It is to be noted that the user identity of the second application login in the first mobile device is the same as the user identity of the first application login in the second mobile device.

The queried geographic location is output by the first application in the second mobile device held by the target user, and therefore, the geographic location can be regarded as the geographic location of the target user.

And step S370, displaying the geographical position of the target user in the conversation interface according to the geographical position obtained by inquiry.

In a second application of the first mobile device, content display in a session interface of the first application jumps to display of the geographical position of the target user, and the geographical position inquired according to the user identifier logged in the second application is displayed as the geographical position of the target user in the session interface.

Therefore, through the process, if a user needs to monitor the geographical position of the target user, the first application is directly installed on the second mobile device held by the target user, and the user logs in through the user identifier of the second application after the first application is started; at this time, correspondingly, on the monitoring side, the user only needs to log in the second application of the first mobile device by using the same user identifier, and can obtain the position of the target user through the user position menu after entering the session interface of the first application.

And for the user, the user can log in the second application in any mobile equipment through the user identification; for a target user, the target user only needs to hold any mobile device which is internally provided with the first application and logs in the user identifier, so that the flexibility is very high, the monitoring of the geographic position of the target user is easier to realize, the user can check the geographic position of the target user on different mobile devices, and the target user can also use different mobile devices.

Further, in one embodiment, step 350, as described above, is illustrated in FIG. 4 and includes:

step S351, obtaining the user identifier logged in the second application.

In a second application of the first mobile device, a user identifier of a currently logged-in user is acquired, wherein in actual operation, the user identifier belongs to an account system of the second application.

Step S353, reporting the user identifier to a server corresponding to the first application, so as to obtain the geographical location bound by the user identifier through server query.

And the server corresponding to the first application is used for storing the geographic position. That is, the geographic location is bound to the user identification in a geographic location store by the server. After the second application of the first mobile device reports the user identifier to the server, the geographical location bound by the user identifier is obtained through server query.

In another embodiment, as shown in fig. 5, the method as described above further comprises the steps of:

step S410, running in the first application of the second mobile device, logging in through the user identifier logged in the second application.

And the second mobile equipment held by the target user runs the first application and logs in through the user identification of the user in the second application.

It should be noted that the first application may be any application running in the second mobile device and including a positioning function, for example, a health public service application developed specifically for children.

Step S430, triggering positioning to obtain a geographic location.

Specifically, in the first application of the second mobile device, the second mobile device may perform positioning at regular time to output a corresponding geographic location, where the geographic location is the current geographic location of the target user.

Step S450, reporting the geographical position to a server corresponding to the first application so as to store the geographical position corresponding to the user identifier in the server.

And reporting the geographical position to a server, wherein the server has a remote storage function of the first application so as to orderly store the geographical positions respectively reported by the massive first applications according to the user identification.

Further, in another embodiment, as shown in fig. 6, the method as described above further includes:

step S510, the server receives the geographical location reported by the first application.

Step S530, storing the geographic location, and binding the stored geographic location with the user identifier.

The server interacting with the first applications receives and obtains the geographical position reported by each first application, and the geographical position is stored in the server and bound with the user identification reporting the geographical position. That is to say, the server stores the geographical location reported by the first application and the mapping relationship between the geographical location and the user identifier, so that the second application can query the geographical location to be bound through the user identifier logged in by the second application.

Through the process, the original hardware equipment and the widely used second application are effectively utilized, a geographic position monitoring framework formed by the second application, the first application and the server in the mobile equipment is constructed between the user and the target user, and the method is simple and easy, so that the geographic position of the target user can be monitored at will.

In another aspect, there is correspondingly provided a geographic position monitoring method, as shown in fig. 7, including the steps of:

step S610, triggering the positioning of the first application in the second mobile device to obtain the geographic location of the target user.

As described above, the second mobile device is carried by the target user, the first application is run in the second mobile device, and the user identifier of the second application is logged in the first application.

Step S630, reporting the geographic location to a server, so as to store the geographic location in the server, and binding the geographic location with the user identifier of the first application login.

And the user identification logged in the first application is the user identification of the second application.

Through the process, the first application capable of monitoring the geographical position of the target user is provided for the second mobile device, and through the interaction between the first application and the server, the user can log in a certain user identification in the second application of any mobile device at will to check the geographical position of the target user, so that the geographical position monitoring of the target user is greatly facilitated.

In another embodiment, as shown in fig. 8, the method according to this embodiment is executed by a first mobile device, and specifically includes the following steps:

step S710, in the second application that the first mobile device runs and the user identifier logs in, triggering to enter a session interface according to the associated account of the first application.

And step S730, intercepting and obtaining a trigger instruction of the user position menu in the session interface.

And step S750, executing the geographic position query for the user identification according to the trigger instruction.

And step S770, displaying the geographical position of the target user in the session interface according to the geographical position obtained by inquiry.

Through the above process, the first mobile device serves as a monitoring side, the user identifier which is the same as that of the first application is logged in the second application, and the service for monitoring the geographical position of the corresponding target user is obtained through the access of the first application in the public platform provided by the second application.

In the process, the display of the geographic position is realized through page jump carried out by a session interface in the second application, namely jump is carried out to load a map, the corresponding map is displayed in the session interface through the loading of the map, and the geographic position of the target user is marked in the map.

By the method, the geographical position of the target user is intuitively displayed, so that the user can intuitively monitor the geographical position of the target user.

The method described above is explained in detail below with reference to a specific application scenario. In this embodiment, the geographic location monitoring performed by children by parents will be described as an example. The parent is used as a user on the monitoring side, the child is used as a target user, the mobile terminal carried by the child is the second mobile terminal, and the mobile terminal used by the parent for monitoring is the first mobile terminal.

As shown in fig. 9, in this process, first, for the second mobile device 910 that has installed the first application, it is determined whether the geographic location reporting switch is already turned on in the second mobile device 910, i.e., step S911, and if not, the switch shown in item 1010 is turned on in the setting interface shown in fig. 10.

After the switch is opened, login is triggered, namely, the user jumps to enter a login page, and at the moment, login is carried out by using the user identifier of the second application in the login page.

After determining that the geographic position reporting switch is turned on and logs in through the user identifier of the second application, the geographic position obtained by positioning will be periodically reported to the server 930.

The server 930 will bind the received geographical location and the user id reporting the geographical location and store them for subsequent reading.

On the other hand, for the first mobile device 950, the parent logs in the second application running on the first mobile device 950 by using the user identifier logged in the first application, i.e., step S951 is performed.

The display of the geographical location of the friend in the first mobile device 950 will subsequently be achieved by performing steps S953 to S957.

In one embodiment, there is also provided a geographic location monitoring system, as shown in fig. 11, which includes an interface triggering module 310, an interface listening module 330, a location query module 350 and a display module 370 operating in a first mobile device 300, wherein:

the interface triggering module 310 is configured to trigger entry into a session interface in a second application executed by the first mobile device according to the associated account of the first application, where the first application is executed by the second mobile device.

And the interface interception module 330 is configured to intercept a trigger instruction of obtaining a user location menu in the session interface.

And a location query module 350, configured to perform, according to the trigger instruction, a geographic location query for the user identifier logged in the second application, where the second application and the first application log in the same user identifier.

And a display module 370, configured to display the geographic location of the second mobile device in the session interface according to the geographic location obtained by the query.

Further, as shown in fig. 12, in an embodiment, the location query module 350 includes an identifier obtaining unit 351 and an identifier reporting unit 353, where:

the identifier obtaining unit 351 is configured to obtain an identifier of a user logged in the second application.

The identifier reporting unit 353 is configured to report the user identifier to a server corresponding to the first application, so as to obtain the geographic location bound to the user identifier through server query.

In another embodiment, as shown in fig. 13, the system as described above further includes a login module 410, a location module 430 and a location reporting module 450 running on the second mobile device 400, wherein:

the login module 410 is configured to run in the first application of the second mobile device 400 and log in through the user identifier logged in the second application.

And a positioning module 430 for triggering positioning to obtain a geographic location.

The location reporting module 450 is configured to report the geographic location to a server corresponding to the first application, so as to store the geographic location corresponding to the user identifier in the server.

In another embodiment, as shown in fig. 14, the system as described above further comprises a receiving module 510 and a storing module 530 running in the server 500, wherein:

a receiving module 510, configured to receive the geographic location reported by the first application.

A storage module 530, configured to store the geographic location and bind the stored geographic location with the user identifier.

In another aspect, a geographic location monitoring system is further provided, where the system includes a positioning module and a location reporting module, where the positioning module and the location reporting module are operated on a second mobile device where a target user is located, where:

the positioning module is used for positioning in the first application to obtain the geographic position of the target user.

The position reporting module is used for reporting the geographical position to the server so as to store the geographical position in the server and binding the geographical position with the user identifier logged in the first application.

And the user identification logged in the first application is the user identification of the second application.

Further, the system as described above further includes an interface triggering module, an interface listening module, a location query module, and a display module running on the first mobile device, wherein:

and the interface triggering module is used for triggering the first mobile equipment to enter a session interface according to the public number appointed by the first application in a second application which is operated by the first mobile equipment and is logged in by the user identifier.

And the interface interception module is used for intercepting and obtaining a trigger instruction of a user position menu in the session interface.

And the position query module is used for executing the geographic position query for the user identification according to the trigger instruction.

And the display module is used for displaying the geographical position of the target user in the session interface according to the geographical position obtained by the query.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

While the present invention has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (12)

1. A method of geographic location monitoring, operating in a first mobile device, the method comprising:

triggering to enter a session interface in a second application operated by the first mobile equipment according to an associated account of the first application, wherein the first application is operated on the second mobile equipment where a target user is located, the first application is an application with a positioning function, the second application is an application with other application access functions, the first application realizes the corresponding functions by accessing the second application, and the first application and the second application log in by using the same user identifier;

intercepting to obtain a trigger instruction of a user position menu in the session interface;

executing the geographic position query of the target user for the user identification logged in the second application according to the trigger instruction;

and displaying the geographical position of the target user in the session interface according to the geographical position obtained by the query so as to realize monitoring of the geographical position of the target user in the first mobile equipment.

2. The method of claim 1, wherein the step of performing a geographic location query for the user identifier logged into the second application according to the triggering instruction comprises:

acquiring a user identifier logged in the second application;

and reporting the user identifier to a server corresponding to the first application so as to obtain the geographical position bound by the user identifier through the server query.

3. The method of claim 1, further comprising:

the method comprises the steps that the mobile terminal runs in the first application of second mobile equipment, and login is carried out through a user identifier logged in the second application;

triggering positioning to obtain a geographic position;

and reporting the geographical position to a server corresponding to the first application so as to store the geographical position corresponding to the user identification in the server.

4. The method of claim 3, further comprising:

the server receives the geographical position reported by the first application;

storing the geographic location and binding the stored geographic location with the user identification.

5. A method for geographic location monitoring, the method operating on a second mobile device where a target user is located, the method comprising:

triggering the positioning of a first application in the second mobile equipment to obtain the geographic position of a target user;

reporting the geographical position to a server so as to store the geographical position in the server and binding the geographical position with a user identifier of the first application login;

the user identification of the second application is logged in first mobile equipment, the first application is an application with a positioning function, the second application is an application with other application access functions, and the first application accesses the second application to realize the corresponding functions of the first application;

and the method comprises the steps of running in the second application of the first mobile equipment, triggering the second application to enter a session interface through the associated account of the first application, and executing geographic position query of the target user for the user identification logged in the second application according to a trigger instruction of a user position menu in the session interface so as to display the geographic position of the target user in the session interface of the second application, so that the geographic position of the target user is monitored in the first mobile equipment.

6. The geographic position monitoring system is characterized by comprising an interface triggering module, an interface monitoring module, a position query module and a display module which run in first mobile equipment, wherein:

the interface triggering module is used for triggering entry into a session interface in a second application operated by the first mobile equipment according to an associated account of the first application, the first application is operated on the second mobile equipment where a target user is located, the first application is an application with a positioning function, the second application is an application with other application access functions, the first application realizes corresponding functions by accessing the second application, and the first application and the second application log in by using the same user identifier;

the interface interception module is used for intercepting and obtaining a trigger instruction of a user position menu in the session interface;

the position query module is used for executing geographic position query on the target user for the user identification logged in the second application according to a trigger instruction;

the display module is used for displaying the geographic position of the second mobile equipment in the session interface according to the geographic position obtained by the query so as to monitor the geographic position of the target user in the first mobile equipment.

7. The system of claim 6, wherein the location query module comprises:

the identification obtaining unit is used for obtaining the user identification logged in the second application;

and the identifier reporting unit is used for reporting the user identifier to a server corresponding to the first application so as to obtain the geographical position bound by the user identifier through the server query.

8. The system of claim 6, further comprising a login module, a location module, and a location reporting module operating in the second mobile device, wherein:

the login module is used for running in the first application of a second mobile device and logging in through a user identifier logged in the second application;

the positioning module is used for triggering positioning to obtain a geographic position;

the location reporting module is configured to report the geographic location to a server corresponding to the first application, so as to store the geographic location corresponding to the user identifier in the server.

9. The system of claim 8, further comprising a receiving module and a storage module running in a server, wherein:

the receiving module is used for receiving the geographical position reported by the first application;

the storage module is used for storing the geographic position and binding the stored geographic position with the user identification.

10. A geographic position monitoring system, the system includes a positioning module and a position reporting module which run on a second mobile device where a target user is located, wherein:

the positioning module is used for positioning in a first application to obtain the geographic position of a target user;

the position reporting module is used for reporting the geographical position to a server so as to store the geographical position in the server and binding the geographical position with a user identifier logged in the first application;

the user identification of the second application is logged in first mobile equipment, the first application is an application with a positioning function, the second application is an application with other application access functions, and the first application accesses the second application to realize the corresponding functions of the first application;

and the method comprises the steps of running in the second application of the first mobile equipment, triggering the second application to enter a session interface through the associated account of the first application, and executing geographic position query of the target user for the user identification logged in the second application according to a trigger instruction of a user position menu in the session interface so as to display the geographic position of the target user in the session interface of the second application, so that the geographic position of the target user is monitored in the first mobile equipment.

11. An electronic device, comprising:

one or more processors;

storage means for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement a processing method of the geographical position monitoring method according to any one of claims 1 to 5.

12. A computer-readable program medium storing computer-readable instructions which, when executed by a processor, cause a computer to perform the method of any one of claims 1-5.

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