WO2019074315A1 - Method and system for providing user location information - Google Patents

Abstract

A method and system for providing user location information is disclosed. The method for providing user location information according to an embodiment may comprise the steps of: collecting information on at least one access point (AP) to which a user's electronic device is connected; acquiring the user's connection fingerprint on the basis of the collected information on the at least one AP; accessing a fingerprint database in which a plurality of location IDs mapped to respective fingerprints are stored and maintained; retrieving a location ID corresponding to the connection fingerprint, from the fingerprint database; and providing the retrieved location ID to at least one of the user's electronic device and a guardian's electronic device paired with the user's electronic device.

Description

Method and system for providing user location information

The description below relates to a technique for providing user location information.

Location Based Services (LBS) refers to systems and services that track users' locations in real time based on mobile communication electronic devices such as mobile phones and PDAs. In the conventional location-based service, a method of confirming the location of a user by determining which mobile communication base station the user's electronic device is connected to or checking the location of the user using a global positioning system (GPS) based on a satellite is used . As an example of a method using GPS, Korean Patent Laid-Open Publication No. 10-2001-0040059 (published May 15, 2001) discloses a method and apparatus for measuring a position using a spread spectrum signal from a GPS satellite have.

However, the method of utilizing the mobile communication base station has a disadvantage in that the accuracy is low because it includes an error range of 1 to 2 km in the location tracking, and the method using the GPS has a problem that it is difficult to apply the method in the room where the GPS signal does not reach.

Therefore, it is necessary to provide a technique that can be applied not only to the outdoor but also indoors, and to minimize the error range of the position tracking.

One embodiment is a method and system for providing user location information that can be applied both indoors and outdoors, minimizing error range, improving user location tracking speed and lowering computational complexity, A computer program and its recording medium stored in a computer-readable recording medium for causing a computer to execute an information providing method are proposed.

At this time, one embodiment includes a method and system for tracking user location information in real time, and a computer program stored on a computer-readable recording medium for causing a computer to execute the user location real- I suggest.

In addition, one embodiment provides a method and system for providing a time-of-day user location by creating a user's movement schedule using location information of a user, and a computer readable recording medium in combination with the computer, A computer program stored on a medium and its recording medium are proposed.

More specifically, one embodiment provides a method and system for providing user location information that can be applied both indoors and outdoors by using an AP (Access Point) based fingerprint, minimizing error range, And proposes a computer program stored on a computer-readable recording medium and a recording medium thereof for causing a computer to execute a method of providing user location information.

In addition, one embodiment provides a method and system for building and maintaining a fingerprint database used in the process of using a fingerprint, and a computer system coupled to the computer for storing the computer- We propose a program and its recording medium.

Another embodiment provides a method and system for providing user location information that can improve user location tracking speed and reduce computational complexity by using WPS based on a grid map, and a method for providing user location information in combination with a computer The present invention proposes a computer program and a recording medium thereof stored in a computer-readable recording medium for execution on a computer.

Another embodiment provides a method and system for building and maintaining a map database in which a map is grid-lined with a grid-by-grid index and stored, and a computer coupled to the build and maintain method A computer program stored in a computer-readable recording medium and a recording medium therefor are proposed.

A computer-implemented method for providing user location information, the method comprising: collecting information of at least one access point (AP) connected to a user's electronic device; Obtaining a fingerprint of the user based on the collected information of the at least one AP; A fingerprint database, the fingerprint database having a plurality of place IDs mapped to respective fingerprints, stored and maintained; Extracting a place ID corresponding to the connection fingerprint from the fingerprint database; And providing the extracted location ID to at least one of the user's electronic device or the electronic device of the guardian paired with the user's electronic device.

According to an aspect, the extracting may include extracting a place ID mapped from a fingerprint database to a fingerprint whose similarity with the connection fingerprint is equal to or higher than a predetermined level.

According to another aspect, the acquiring step includes acquiring identification information of the collected information of at least one AP with the connection fingerprint, wherein the plurality of place IDs stored and held in the fingerprint database The fingerprint of each of the plurality of location IDs may include identification information of at least one AP searched in each of the plurality of location IDs.

According to another aspect of the present invention, the acquiring step includes acquiring at least one AP having a received signal strength indication (RSSI) of a predetermined level or more among the at least one AP or a number of times that the user's electronic device And obtaining the user's fingerprint of the connection based on the information of the user's fingerprint.

According to another aspect of the present invention, in the providing step, when a place ID corresponding to the connection fingerprint is not extracted from the fingerprint database, or when the extracted place ID does not coincide with a predetermined place ID by time, And notifying an alarm informing that at least one of the user's electronic device or the protector's electronic device has left the user.

According to another aspect of the present invention, the user location information providing method may be repeatedly performed according to a predetermined period to provide a location ID corresponding to a user location by time.

According to another aspect of the present invention, there is provided a method of providing user location information, the method comprising: generating a movement schedule for the user based on a location ID corresponding to the user location by time; And providing the movement schedule to at least one of the protector's electronic device or the user's electronic device.

According to another aspect, the method of providing user location information may further include notifying an alarm informing the user's electronic device to move to a specific place based on the movement schedule.

According to another aspect, the collecting step further comprises checking coordinates of the user's electronic device based on the collected information of the at least one AP, And the step of extracting may include extracting a place ID mapped to coordinates within a predetermined distance from the identified coordinates from the fingerprint database have.

According to another aspect of the present invention, the user location information providing method may further include a step of building the fingerprint database in advance.

According to another aspect, the pre-building step may include collecting information of at least one AP to which the electronic device of the user located at a specific place accesses; Generating a place ID for the specific place in response to a place specifying input generated in the electronic equipment of the user or the protector of the user; Obtaining a fingerprint for the specific location based on the collected information of the at least one AP; And mapping and storing and storing the generated place ID to the obtained fingerprint.

According to another aspect of the present invention, the pre-establishing step may include a step in which the number of times that the user's electronic device located at the specific location accesses at least one AP is equal to or greater than a predetermined number, And recommending the user to designate the place ID at the specific place if the coordinates of the user's electronic device, which is confirmed based on the location, are repeated for a predetermined number of times or more.

According to another aspect, the pre-building step may include: selecting a specific place on the map in response to a place selection input generated on a map provided by the electronic equipment of the user or the electronic device of the protector; Collecting information of at least one AP searched at the specific location; Generating a place ID for the specific place in response to a place specifying input generated in the electronic equipment of the user or the protector of the user; Obtaining a fingerprint for the specific location based on the collected information of the at least one AP; And mapping and storing and storing the generated place ID to the obtained fingerprint.

According to another aspect of the present invention, the acquiring step includes acquiring at least one AP having a received signal strength indication (RSSI) of a predetermined level or more among the at least one AP or a number of times that the user's electronic device And obtaining a fingerprint for the specific place based on the information of the specific place.

According to another aspect, the creating step may further include recommending the place ID based on the coordinates of the specific place.

A computer program recorded on a computer-readable recording medium for executing a method of providing user location information in combination with a computer system, the method comprising: providing at least one access point (AP) Collecting information of a user; Obtaining a fingerprint of the user based on the collected information of the at least one AP; A fingerprint database, the fingerprint database having a plurality of place IDs mapped to respective fingerprints, stored and maintained; Extracting a place ID corresponding to the connection fingerprint from the fingerprint database; And providing the extracted place ID to at least one of the user's electronic device or the electronic device of the guardian paired with the user's electronic device.

A computer-implemented method for providing user location information, the system comprising: at least one processor configured to execute computer-readable instructions, the at least one processor comprising: at least one access Point); An acquiring unit acquiring a connection fingerprint of the user based on the collected information of the at least one AP; An extraction unit for accessing a fingerprint database, the fingerprint database having a plurality of place IDs mapped to and stored in respective fingerprints, and extracting a place ID corresponding to the connection fingerprints from the fingerprint database; And a providing unit for providing the extracted place ID to at least one of the electronic equipment of the user or the electronic equipment of the protector paired with the user's electronic equipment.

A computer-implemented method for providing user location information, the method comprising the steps of: maintaining a map database, wherein maps are stored in a grid with a plurality of grids and indexed by a grid; The method comprising the steps of: collecting information of at least one Access Point (AP) connected to a user's electronic device; Confirming coordinates at which the user's electronic device is located based on the collected information of the at least one AP; Selecting any one of the plurality of grids stored in the map database and including the identified coordinates; And providing an index of the selected grid to an electronic device of a guardian paired with the user's electronic device.

According to an aspect, the index of each of the plurality of gratings may be sequentially determined according to a position where the plurality of gratings are arranged.

According to another aspect, the size of each of the plurality of grids may be adjusted so that each of the plurality of grids includes a predetermined number of APs.

According to another aspect, the shape of each of the plurality of grids may be determined based on the coverage or number of APs contained in each of the plurality of grids.

According to another aspect of the present invention, the providing step may further include notifying an alert to the electronic device of the protector when the index of the selected grid does not coincide with the index of the predetermined grid by time, .

According to another aspect, the notifying step may notify the electronic device of the protector together with the distance between the selected grating and the predetermined grating by the time.

According to another aspect of the present invention, the user location information providing method may be repeatedly performed at predetermined intervals to provide an index of a grid corresponding to a user position by time.

According to another aspect of the present invention, there is provided a method of providing user location information, the method comprising: generating a movement schedule for the user based on an index of a grid corresponding to the user position per time; And providing the movement schedule to the electronic device of the protector.

According to another aspect, the method of providing user location information may further include notifying an alarm informing the user's electronic device to move to a specific grid based on the movement schedule.

According to another aspect, the notifying step may notify the electronic apparatus of the user together with a distance between a grid where the user's electronic apparatus is currently located and a specific grid to which the user should move.

According to another aspect of the present invention, the user location information providing method may further include the step of building the map database in advance.

According to another aspect, the pre-building step comprises: grating the map into the plurality of grids; And providing an index to each of the plurality of gratings.

According to another aspect of the present invention, there is provided a method for providing user location information, comprising: updating map database by mapping information of the at least one AP to an index of the selected grid; And using the updated map database for a fingerprint-based location providing service configured with identification information of the AP.

According to another aspect, the confirming step includes a step of confirming coordinates at which the user's electronic device is located using a Wi-Fi Positioning System (WPS) based on the information of the collected at least one AP can do.

A computer program recorded on a computer readable recording medium for executing a method of providing user location information in combination with a computer system, the method comprising: providing a map database, the map database comprising a plurality of grids, Maintaining a grid-indexed index; The method comprising the steps of: collecting information of at least one Access Point (AP) connected to a user's electronic device; Confirming coordinates at which the user's electronic device is located based on the collected information of the at least one AP; Selecting any one of the plurality of grids stored in the map database and including the identified coordinates; And providing an index of the selected grid to an electronic device of a guardian paired with the user's electronic device.

A computer-implemented method for providing user location information, the system comprising: at least one processor configured to execute computer-readable instructions, the at least one processor comprising: a map database, And the grid index is stored and stored in the storage unit. A collecting unit for collecting information of at least one access point (AP) to which the user's electronic device is connected; A confirmation unit for confirming coordinates of the electronic device of the user based on the collected information of the at least one AP; A selecting unit selecting any one of the plurality of grids stored in the map database and including the identified coordinates; And a providing unit for providing an index of the selected grid to an electronic device of a guardian paired with the user's electronic device.

One embodiment provides a user location information providing method and system, and a computer program and a recording medium, thereby enabling user location tracking both indoors and outdoors, minimizing a position tracking error range, and improving user location tracking speed At the same time, a technical effect of lowering the computational complexity can be achieved.

At this time, one embodiment provides a method and system for tracking user location information in real time, and proposes a computer program and a recording medium to provide an alarm service requesting a user to leave a specific place or move to a specific place, Can be provided to the user.

In addition, one embodiment can broaden the utilization of location-based services by suggesting a method and system for creating a mobile schedule that represents a user location by time, and a computer program and a recording medium

In more detail, by using an AP (Access Point) -based fingerprint, the embodiments can be applied both indoors and outdoors, and the technical effect of minimizing an error range can be achieved.

In addition, one embodiment provides a method and system for building and maintaining a fingerprint database, and a computer program and a recording medium to enable a fingerprint in user location tracking, and in a variety of location-based services, .

In another embodiment, a user location information providing method and system using a WPS based on a grid map, and a computer program and a recording medium are proposed, thereby improving the speed of user location tracking and reducing the computational complexity.

In addition, one embodiment of the present invention proposes a method and system for constructing and maintaining a map database, and a computer program and a recording medium, so that the map database can be utilized in various services including a fingerprint- .

1 is a diagram illustrating an example of a network environment according to an embodiment.

2 is a block diagram for explaining an internal configuration of an electronic device and a server in one embodiment.

3 is a block diagram illustrating an example of components that a processor of a server according to one embodiment may include.

4 is a flowchart illustrating a method of providing user location information that can be performed by a server according to an exemplary embodiment of the present invention.

FIG. 5 is a conceptual diagram for explaining a process of acquiring a user's connection fingerprint and extracting a location ID corresponding to a connection fingerprint in an embodiment.

FIG. 6 is a diagram for explaining a process of determining the similarity between fingerprints in one embodiment.

FIG. 7 is a diagram illustrating an electronic device service screen of a guardian provided with a movement schedule for a user in an embodiment.

FIG. 8 is a flowchart illustrating a process of previously constructing a fingerprint database according to an embodiment.

9 is a diagram illustrating a service screen on a user's electronic device in the process of pre-building a fingerprint database according to an embodiment.

FIG. 10 is a flowchart illustrating a process of previously building a fingerprint database according to another embodiment.

FIG. 11 is a view illustrating a service screen of a protector on an electronic device in a process of pre-building a fingerprint database according to another embodiment.

12 is a block diagram illustrating an example of the components that a processor of a server according to another embodiment may include.

13 is a flowchart illustrating a method of providing user location information that can be performed by a server according to another embodiment of the present invention.

FIG. 14 is a diagram for explaining a lattice map in another embodiment. FIG.

15 is a diagram for explaining a process of providing a user leave alarm in another embodiment.

FIG. 16 is a diagram illustrating a service screen of an electronic device on a guardian provided with a movement schedule for a user in another embodiment.

17 is a diagram illustrating a service screen on a user's electronic device provided with a user movement alarm in another embodiment.

18 is a conceptual diagram for explaining a process of updating a map database in another embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments described in the present invention relate to a technology for providing user location information, which uses an AP-based fingerprint in the process of providing the position of the user's electronic device to the electronic device of the parent paired with the user's electronic device , User location tracking is enabled both indoors and outdoors, and the advantages of minimizing the location tracking error range are achieved.

1 is a diagram illustrating an example of a network environment according to an embodiment. 1 shows an example in which a plurality of electronic devices 110, 120, 130, 140, a plurality of servers 150, 160, and a network 170 are included. 1, the number of electronic devices and the number of servers are not limited to those shown in FIG.

The plurality of electronic devices 110, 120, 130, 140 may be a mobile terminal implemented as a computer device. A mobile phone, a tablet PC, a navigation device, a computer, a notebook, a digital broadcasting terminal, a PDA (personal digital assistant), a PMP (personal digital assistant) Portable Multimedia Player). For example, the first electronic device 110 may communicate with other electronic devices 120, 130, 140 and / or the servers 150, 160 via the network 170 using a wireless or wired communication scheme.

The communication method is not limited, and may include a communication method using a communication network (for example, a mobile communication network, a wired Internet, a wireless Internet, a broadcasting network) that the network 170 may include, as well as a short-range wireless communication between the devices. For example, the network 170 may be a personal area network (LAN), a local area network (LAN), a campus area network (CAN), a metropolitan area network (MAN), a wide area network (WAN) , A network such as the Internet, and the like. The network 170 may also include any one or more of a network topology including a bus network, a star network, a ring network, a mesh network, a star-bus network, a tree or a hierarchical network, It is not limited.

Each of the servers 150 and 160 is a computer device or a plurality of computers that communicate with a plurality of electronic devices 110, 120, 130 and 140 through a network 170 to provide commands, codes, files, Lt; / RTI > devices.

For example, the server 160 may provide a file for installation of an application to the first electronic device 110 connected via the network 170. [ In this case, the first electronic device 110 can install an application using a file provided from the server 160. [ The server 150 is connected to the server 150 according to the control of an operating system (OS) included in the first electronic device 110 or at least one program (for example, a browser or an installed application) Services and contents can be provided. For example, if the first electronic device 110 transmits a service request message to the server 150 via the network 170 under the control of the application, the server 150 transmits a code corresponding to the service request message to the first And the first electronic device 110 can provide contents to the user by displaying and displaying a screen according to the code according to the control of the application.

2 is a block diagram for explaining an internal configuration of an electronic device and a server in one embodiment. In FIG. 2, the internal configuration of the first electronic device 110 as an example of one electronic device and the server 150 as an example of one server will be described. Other electronic devices 120, 130, 140 or server 160 may have the same or similar internal configurations.

The first electronic device 110 and the server 150 may include memories 211 and 221, processors 212 and 222, communication modules 213 and 223 and input / output interfaces 214 and 224. The memories 211 and 221 may be a computer-readable recording medium and may include a permanent mass storage device such as a random access memory (RAM), a read only memory (ROM), and a disk drive. The memory 211 and 221 may store an operating system or at least one program code (for example, codes for an application installed and driven in the first electronic device 110). These software components may be loaded from a computer readable recording medium separate from the memories 211 and 221. [ Such a computer-readable recording medium may include a computer-readable recording medium such as a floppy drive, a disk, a tape, a DVD / CD-ROM drive, and a memory card. In other embodiments, the software components may be loaded into memory 211, 221 via communication modules 213, 223 rather than a computer readable recording medium. For example, at least one program may be a program installed by a file distribution system (for example, the server 160 described above) that distributes installation files of developers or applications, May be loaded into the memory 211, 221 based on the application described above.

Processors 212 and 222 may be configured to process instructions of a computer program by performing basic arithmetic, logic, and input / output operations. The instructions may be provided to the processors 212 and 222 by the memories 211 and 221 or the communication modules 213 and 223. For example, the processor 212, 222 may be configured to execute a command received in accordance with a program code stored in a recording device, such as the memory 211, 221.

The communication modules 213 and 223 may provide a function for the first electronic device 110 and the server 150 to communicate with each other through the network 170 and may be connected to other electronic devices ) Or another server (e.g., server 160). For example, a request (e.g., a search request) generated by the processor 212 of the first electronic device 110 in accordance with a program code stored in a recording device, such as the memory 211, To the server 150 via the Internet 170. Conversely, control signals, commands, contents, files, and the like provided under the control of the processor 222 of the server 150 are transmitted to the communication module 223 of the first electronic device 110 via the communication module 223 and the network 170, May be received by the first electronic device (110) via the second network (213). For example, the control signal or command of the server 150 received through the communication module 213 may be transmitted to the processor 212 or the memory 211, and contents or files may be transmitted to the first electronic device 110, May also be stored as a storage medium.

The input / output interface 214 may be a means for interfacing with the input / output device 215. For example, the input device may include a device such as a keyboard or a mouse, and the output device may include a device such as a display for displaying a communication session of the application. As another example, the input / output interface 214 may be a means for interfacing with a device having integrated functions for input and output, such as a touch screen. The processor 212 of the first electronic device 110 may use the data provided by the server 150 or the second electronic device 120 in processing the instructions of the computer program loaded into the memory 211. For example, A service screen or contents configured by the user can be displayed on the display through the input / output interface 214. [ The input / output interface 224 can also output information configured using the data provided by the server 150 in processing the instructions of the computer program loaded in the memory 221 by the processor 222 of the server 150 have.

Also, in other embodiments, the first electronic device 110 and the server 150 may include more components than the components of FIG. However, there is no need to clearly illustrate most prior art components. For example, the first electronic device 110 may be implemented to include at least some of the input / output devices 215 described above, or may be implemented as a transceiver, a Global Positioning System (GPS) module, a camera, And may further include components. More specifically, when the first electronic device 110 is a smart phone, it may be an acceleration sensor, a gyro sensor, a camera, various physical buttons, buttons using a touch panel, input / output ports, It is understood that various components such as a vibrator may be further included in the first electronic device 110.

Hereinafter, a specific embodiment of a method and system for providing user location information will be described.

FIG. 3 is a block diagram illustrating an example of a component that a processor of a server according to an exemplary embodiment may include; FIG. 4 is a flowchart illustrating a method of providing user location information that can be performed by a server according to an exemplary embodiment; FIG. 5 is a conceptual diagram for explaining a process of acquiring a connection fingerprint of a user and extracting a location ID corresponding to a connection fingerprint in an embodiment, and FIG. 6 is a conceptual diagram illustrating a process of acquiring fingerprint FIG. 7 is a diagram illustrating an electronic device service screen of a guardian in which a movement schedule for a user is provided according to an exemplary embodiment of the present invention. Referring to FIG.

The server 150 according to an exemplary embodiment may be configured with a computer-implemented user location information providing system. The server 150 provides user location information to a plurality of electronic devices 110, 120, 130 and 140 as clients and is provided on the electronic devices 110, 120, 130, And may provide user location information corresponding to a dedicated application or a service request through a web / mobile site connection associated with the server 150. More specifically, the server 150 controls the user's electronic device to collect information of at least one access point (AP) to which the user's electronic device (e.g., the first electronic device 110) The location information of the user (accurately, the location information of the user's electronic device) based on the information of the at least one AP collected from the electronic device of the user is stored in the electronic device of the caregiver Device 120). Hereinafter, the user's electronic device may mean, for example, an electronic device owned by the child, and the electronic device of the parent may mean an electronic device owned by the child's parent. Accordingly, the fact that the user's electronic device is paired with the protector's electronic device means that the server 150 responds to a pairing request generated from the protector's electronic device (or the user's electronic device) It may mean that they are matched and registered.

4, the processor 222 of the server 150 may include a collecting unit 310, an acquiring unit 310, 320, an extracting unit 330, and a providing unit 340. The components of processor 222 may optionally be included or excluded from processor 222 in accordance with an embodiment. In addition, in accordance with an embodiment, the components of the processor 222 may be separate or merged for the representation of the functionality of the processor 222. For example, at least some of the components of the processor 222 may be implemented in a processor included in a user's electronic device or in a processor included in a protector's electronic device.

The components of the processor 222 and the processor 222 may control the server 150 to perform the steps S410 to S450 included in the method of providing the user location information of FIG. For example, the components of processor 222 and processor 222 may be implemented to execute instructions in accordance with the code of the operating system and the code of at least one program that memory 221 contains.

Herein, the components of processor 222 may be representations of different functions of processor 222 performed by processor 222 in accordance with instructions provided by the program code stored in server 150 . For example, if the server 150 is a functional representation of the processor 222 that controls the server 150 in accordance with the above-described instructions to collect information of at least one AP to which the user's electronic device is connected, Can be used.

The processor 222 may read the necessary commands from the loaded memory 221 (not shown in a separate step in the figure) prior to step S410, with instructions relating to control of the server 150. [ In this case, the read command may include instructions for controlling the processor 222 to execute steps (S410 to S450) to be described later.

In step S410, the collecting unit 310 may collect information of at least one AP to which the user's electronic device is connected. Hereinafter, the collecting unit 310 collects the information of at least one AP connected to the user's electronic device. That is, the user's electronic device located at the specific location searches for the neighboring APs and detects at least one AP Means that information of at least one detected AP is received from the user's electronic device.

Here, the AP information includes identification information such as a MAC address of the AP, a basic service set identification (BBSID), physical coordinates (e.g., latitude and longitude) of the AP, and a signal generated at the AP Received Signal Strength Indication (RSSI), and the like. Accordingly, the collecting unit 310 confirms the coordinates of the user's electronic device using the Wi-Fi Positioning System (WPS) based on the received signal strength of each AP and the physical coordinates of each AP among the collected information of the at least one AP . For example, the collecting unit 310 may filter the wrong data and add new data by comparing the received signal strength of each of the APs connected to the electronic device and the physical coordinates of each of the APs with previously constructed AP databases The coordinates of the electronic device can be estimated based on the WPS technology that updates the AP databases. However, confirming the coordinates at which the collecting unit 310 is located by the user's electronic device is not limited to the described contents, and can be performed using various methods. The coordinates thus confirmed can be additionally used in the process of extracting a place ID to be described later.

The operation of the collecting unit 310 may be performed when a request to grasp the user location information is generated from any one of the electronic equipment of the user or the electronic equipment of the protector, and the present invention is not limited thereto, Thus, information of at least one AP to which the user's electronic device accesses in real time can be collected. As described above, the information of at least one AP collected in real time can be sorted and stored in the memory 221 by the collecting unit 310 by time-specific data.

In step S420, the obtaining unit 320 may obtain a fingerprint of the user based on the information of the collected at least one AP. Hereinafter, a connection fingerprint (and also a fingerprint stored in a fingerprint database described later) may mean a cluster of identification information of at least one AP. For example, if the user's electronic device is connected to the first AP, the second AP, the third AP, and the fourth AP, the acquiring unit 3200 acquires information of the first AP collected from the collecting unit 310, A, which is identification information of the second AP, B which is identification information of the second AP among the information of the second AP, D which is identification information of the third AP among the information of the third AP, and H B, D, and H on the basis of the fingerprint of the user.

The acquiring unit 320 acquires a connection fingerprint of the user based on the information of at least one AP whose RSSI is equal to or higher than a predetermined level among the at least one AP or whose number of times the user's electronic device is connected is equal to or greater than a preset number can do. For example, referring to FIG. 5, it is assumed that a user's electronic device has connected to a first AP, a second AP, a third AP, and a fourth AP, and the collecting unit 310 collects identification information A of the first AP, The ID information B of the AP, the identification information D of the third AP, and the identification information H of the fourth AP are collected (510). The RSSI of the first AP, the RSSI of the second AP, If the RSSI of the fourth AP is less than the predetermined level, the obtaining unit 320 obtains the connection finger print of the user based on the identification information A of the first AP, the identification information B of the second AP, and the identification information D of the third AP (A), (B), and (D). For example, if the user's electronic device has connected to the first AP, the second AP, and the third AP ten times for a predetermined time, and once connected to the fourth AP, the obtaining unit 320 obtains a predetermined number of times A, B, and D of the user can be obtained based on the identification information of each of the first AP, the second AP, and the third AP 5 times or more.

In step S430, the extraction unit 330 may access the fingerprint database 530. [ Here, in the fingerprint database 530, a plurality of place IDs may be mapped to respective fingerprints 531 and stored and maintained, and may be pre-built on the memory 221 before step S410. Hereinafter, the place ID is identification information according to a place designation input generated by a user's electronic device or a protector's electronic device, and may be constituted by various languages or combinations of symbols as well as Korean names such as school, house, .

The fingerprint 531 of each of the plurality of place IDs stored and maintained in the fingerprint database 530 identifies at least one of the plurality of place IDs searched in each of the plurality of place IDs, It can mean a cluster of information. Also, in the fingerprint database 530, a plurality of place IDs may be mapped to respective coordinates (e.g., latitude and longitude) and stored and maintained (not shown). Accordingly, the fingerprint database 530 can be utilized in the process of extracting the place ID based on the coordinates described later. At this time, the detailed process of preliminarily constructing the fingerprint database 530 can be performed by the processor 222, but it is not limited thereto and can be performed by a separate server. In this case, the fingerprint database 530 constructed in advance by the separate server can be used in the operation of the extraction unit 330 by being backed up on the memory 221 by the processor 222. [ A detailed description of how the fingerprint database 530 is constructed in advance will be described with reference to Figs. 8 to 11. Fig.

The extraction unit 330 may extract the location ID 532 corresponding to the connection fingerprint 520 from the fingerprint database 530 in step S440. 6, the fingerprint of the first location 610 is "00: 24: 6c: 85: a9: 49-69,00: 24: 6c: 85: a9: 48-67, b4: 5d : 50: fd: e2: b0-75, b4: 5d: 50: fd: e2: b1-74,2a: a1: 83: f9: c6: fd-83,00: 1d: 93: 2f: c0: 0a Dd: dd: dd: dd: db-79,00: 24: 6c, bd: dd: : 85: b7: f2-76,00: 24: 6c: 85: b7: f3-78,00: 24: 6c: 85: b7: f0-81, b4: 5d: 50: fd: b4: 5d: 50: fd: e1: 30-53, b4: 5d: 50: fd: e1: 31-53, b4: 5d: 50: 02: 28: c2-82,00: 24: : b7: fb-83, b4: 5d: 50: 02: 28: c1-83,02: 30: 0d: b0: 15: 12-85, b4: 5d: 50: fd: : 5d: 50: fd: e2: a0-58, b4: 5d: 50: f3: 08: 11-81, b4: 5d: 50: f3: 08: 10-81, b4: 5d: 50: f3: 08 : 12-80, b4: 5d: 50: fd: d9: c1-70,90: 9f: 33: c3: 80: ea-87,00: 24: 6c: 85: a9: 4b-65, b4: 5d 50: fd: d9: e1-61, b4: 5d: 50: fd: e5: d2-73, b4: 5d: 50: fd: e5: d1-72, b4: B4: 5d: 50: fd: e5: c0-64, b4: 5d: 50: f4: B4: 5d: 50: 02: 25: 90-76, b4: 5d: 50: fd: e5: c1-63, a6: 84: 31: fe: 0f: a2-79 fd: e1: 21-41, b4: 5d: 50: fd: e1: 20-42, b4: 5d: 50: fd: e1: 22-45, b4: 5d: 50: 02 : 25: 92-76,00: 24: 6c: 85: b7: fa-84,00: 24: 6c: 85: dc: d8-78,00: 24 6: c: 06: 36: 6a-83 ", the fingerprint of the second place 620, which is about 88 m away from the first place 610, : 00: 07: 89: 6b: b3: 11-92,02: 30: 0d: 11: 05: 12-93,00: 0b: 81: 9b: f4: 9c -96,00: 07: 89: 74 : 44: 88-95,90: 9f: 33: 40: name: e2-91,00: 08: 9f: 66: 63: 39-95,90: 9f: 33: ba: a3: 46-51,64 : e5: 99: 5c: 5a: 8c-86,08: 5d: dd: 2d: ce: ec-84,08: 5d: dd: : ea-90, cc: 46: d6: 89: 60: d0-97,88: 36: 6c: 06: 36: 68-68,88: 36: 6c: 24: 00: f0-91,90: 9f : 33: 3e: 40: 0a-70,02: 15: 99: d2: ff: 41-74, cc: 46: d6: 77: b8: ff-90,48: 27: ea: ce: Dd: dd: d3: 19: c0-89.08: d: dd: d3: 19: c1-96, 84: d4: 7e: a1: 57: e0-91, 84: d4: 7e : a1: 57: e1-89,90: 9f: 33: 7b: a3: 42-93,88: 3c: 1c: 1c: 6d: 8f-93,00: 07:89:34: dd: 13-93 , 00: 07: 89: 34: dd: 12-94 ". Thus, the similarity between the fingerprint of the first location 610 and the fingerprint of the second location 620 is calculated to be 3.540%. The fact that the degree of similarity between the fingerprints of the physically separated spaces is low indicates that the similarity between the fingerprints can determine whether or not the spaces are the same space. Accordingly, the extracting unit 330 can extract the place ID 532 mapped to the fingerprint 531 whose similarity to the connection fingerprint 520 from the fingerprint database 530 is equal to or higher than a predetermined level.

In addition, the extracting unit 330 may further utilize the coordinates (coordinates confirmed by the collecting unit 310) where the user's electronic device is located in the process of extracting the place ID 532. [ For example, if a plurality of fingerprints having a degree of similarity to the connection fingerprint 520 in the fingerprint database 530 are greater than a predetermined level, the extracting unit 330 extracts a plurality of fingerprints mapped to the plurality of fingerprints It is possible to extract any one of the location IDs mapped to the coordinates in which the user's electronic device is located and the coordinates within the predetermined distance. The reason why the coordinates at which the user's electronic device is located can be utilized as follows. The collecting unit 310 collects coordinates of at least one AP to which the user's electronic device is connected, And a plurality of place IDs are mapped with respective coordinates and stored and held in the process of the fingerprint database 530 being constructed in advance.

In step S450, the providing unit 340 may provide the extracted place ID to the electronic device of the guardian paired with the user's electronic device. 5, when the place ID 532 mapped to the fingerprint 531 whose similarity with the connection fingerprint 520 is equal to or higher than a predetermined level is extracted from the fingerprint database 530, The studying unit 340 can provide the extracted place ID "school" to the protector's electronic equipment. Also, without being limited thereto or limited, the providing unit 340 may provide the extracted place ID to the user's electronic device.

The operations of the collecting unit 310, the acquiring unit 320, the extracting unit 330 and the providing unit 340 may be the same as those of the first embodiment, , ≪ / RTI > However, the operation of the collecting unit 310, the acquiring unit 320, and the extracting unit 330 may be repeatedly performed according to a predetermined period, It is possible to provide the place ID indicating the location of the location to the guardian's electronic device (or the user's electronic device) in real time. Also, the providing unit 340 stores the location ID and the location ID in the memory 221. The location ID corresponding to the user location is stored in the memory 221, Or to at least one of the user's electronic devices. For example, referring to FIG. 7, when a location ID indicating a place where a user's electronic device is located is extracted, the providing unit 340 stores the location ID extracted and matched with the location ID, (I.e., when the place where the user's electronic device is located is changed, that is, when the user moves to another place), the time at which the changed place ID is extracted together with the changed place ID is matched and stored Thereby creating a movement schedule 700 in which a place ID corresponding to a time-based user position is visualized and providing the movement schedule 700 to at least one of the electronic device of the guardian or the electronic equipment of the user. Although the movement schedule 700 is illustrated as being implemented in a table form, the present invention is not limited to this, and the location schedules 700 may be displayed on the map with location IDs corresponding to the location of the user, . ≪ / RTI >

In addition, the provider 340 can notify the electronic device of the protector (or the user's electronic device) that the user (more precisely, the user's electronic device) has left the specific place. For example, if the location ID corresponding to the connection fingerprint 520 is not extracted from the fingerprint database 530 (when the user's electronic device has gone to an unfamiliar place where a new AP is searched) Can notify the electronic device of the protector (or the user's electronic device) of an alarm notifying that the user has departed from the specific place to be located. Alternatively, if the location ID extracted by the extracting unit 330 does not coincide with the preset place ID by time, the providing unit 340 may provide an alarm to the protector's electronic device (or the user's electronic device) . More specifically, if the place ID extracted at 17:00 in the extracting unit 330 is " school " and the place ID preset at 17:00 is " school ", the providing unit 340 extracts It is judged that the place ID "school" which is the place ID set at 17:00 is inconsistent, and an alarm notifying the guardian's electronic device (or the user's electronic device) that the user has departed is notified .

Also, the providing unit 340 may notify the user's electronic device or the electronic device of the guardian of an alarm notifying that the user has arrived at a specific place or arrived at a specific place. For example, when the place ID corresponding to the connection fingerprint 520 is extracted from the fingerprint database 530, the providing unit 340 determines whether the extracted place ID matches the place ID of the place where the user should depart If not, it is possible to recognize that the user has left the place. Thus, the providing unit 340 may notify the electronic device of the guardian of an alarm informing that the user has departed from the specific place. As another example, when a place ID corresponding to the connection fingerprint 520 is extracted from the fingerprint database 530, the providing unit 340 determines whether the extracted place ID matches the place ID of the place where the user should depart , And notifies the electronic device of the guardian of an alarm notifying that the user has not departed from the specific place, by recognizing that the user has not yet started the place when they match.

As another example, if a place ID corresponding to the connection fingerprint 520 is extracted from the fingerprint database 530, the providing unit 340 determines whether the extracted place ID matches the place ID of the place where the user should have arrived If it is determined that the user has arrived at the specific place, an alarm indicating that the user has arrived at the specific place can be notified to the electronic device of the guardian by recognizing that the user has arrived at the place.

Further, the providing unit 340 may notify the user's electronic device of an alarm notifying the user to move to a specific place based on the movement schedule 700. [ For example, if the place ID set at 16:00 on the mobile schedule 700 is "school" and the place ID set at 16:18 is "school", the providing unit 340 is set to 16:00 The user can notify the user of the alarm to inform the user of the move to the " school "

Although the service examples that can be serviced by the user's electronic device or the protector's electronic device on the basis of providing the place ID where the user's electronic device is located have been described above, the service examples are not limited to or limited to those described above.

FIG. 8 is a flowchart illustrating a process of pre-establishing a fingerprint database according to an embodiment. FIG. 9 is a view illustrating a service screen of a user on an electronic device in the process of pre- to be.

The steps S810 to S840 included in the fingerprint database establishment process of FIG. 8 may be performed by the components of the processor 222 described above with reference to FIG. 3, respectively. For example, steps S810 to S820 are performed by the collecting unit 310, step S830 is performed by the obtaining unit 320, step S840 is performed by the extracting unit 340, . Thus, steps S810 to S840 are not limited to the examples described below, and may be performed as an example of the operations of each of the components described above with reference to Figs. Steps S810 through S840 are not limited to or limited to those performed by the components of the processor 222 described above with reference to Figure 3 and may be performed by separate components Each of which is provided for pre-building the fingerprint database 530).

In operation S810, the collecting unit 310 may collect information of at least one AP connected to the user's electronic device located at a specific location. In this case, the collecting unit 310 collects information of at least one AP connected to the user's electronic device. That is, the user's electronic device located at a specific location searches for nearby APs and detects at least one AP Means that information of at least one detected AP is received from the user's electronic device. 9, the collecting unit 310 may provide identification information 910 of at least one AP among information of the collected at least one AP to one side of the service screen 900 of the user's electronic device, You can help the user identify the AP status collected at a specific location.

The collecting unit 310 confirms the coordinates of the user's electronic device using the WPS based on the received signal intensity of each AP and the physical coordinates of each AP among the collected information of the at least one AP, It is possible to mark a place corresponding to the identified coordinates on the map 920 provided on one side of the map. Thus, the user can visually confirm a specific place where the user is currently located.

The operation of the collecting unit 310 may be performed when a place designation request is generated from any one of a user's electronic device or a guardian's electronic device. However, the present invention is not limited thereto, . Therefore, if the number of times that the user's electronic device located at a specific location accesses at least one AP is equal to or greater than a predetermined number, or the coordinates where the user's electronic device is located based on information of the collected at least one AP, If the number of repetitions exceeds the set number of times, the collecting unit 310 can recommend to the user's electronic device to specify the place ID at a specific place, and if a response to accept the recommendation is generated from the user's electronic device Steps S820 to S840 may be performed.

In step S820, the collecting unit 310 may generate the place ID for the specific place in response to the place specifying input generated in the user's electronic device or the electronic device of the caregiver. For example, in response to the location designation input generated in the input field 930 provided on one side of the service screen 900, the collection unit 310 may generate the location ID for the specific location. At this time, the collecting unit 310 may recommend the place ID based on the coordinates of the specific place. For example, the collecting unit 310 searches for the location names 931 and 932 having coordinates that are within the predetermined distance from the coordinates determined by interlocking with the search service after confirming the coordinates where the user's electronic device is located, It is possible to recommend the searched place names 931 and 932 on one side of the screen 900 as a place ID. In the drawings, "Daewon Foreign Language High School" and "Daewon International Junior High School" can both be recommended as the place ID because the confirmed coordinates are the coordinates of "Daewon Foreign Language High School" and the coordinates of "Daewon International Middle School".

In step S830, the obtaining unit 320 may obtain a fingerprint for a specific place based on the information of the collected at least one AP. For example, the acquiring unit 320 may acquire a collection of identification information of the collected at least one AP as a fingerprint for a specific place.

Here, the obtaining unit 320 may obtain a fingerprint for a specific place based on the information of at least one AP whose RSSI is equal to or higher than a predetermined level, or the number of times that the user's electronic device accesses the predetermined number of times or more Can be obtained. Therefore, in the fingerprint for a specific place, since the identification information of the AP whose RSSI is less than a predetermined level or the identification information of the AP which is often inactivated is excluded, the similarity with the connection fingerprint described above with reference to Fig. 4 is judged The error in step S440 can be minimized.

In step S840, the extracting unit 330 may map and store the generated place ID to the acquired fingerprint.

The fingerprint database 530 may be constructed in advance as shown in FIG. 5 through these steps (S810 to S840) and utilized in the method of providing the user location information described above with reference to FIGS. The constructed fingerprint database 530 is constructed not only for each user but also for a plurality of users to be integrally used and shared among users. In addition, the fingerprint database 530 may be used as an AP map in various location-based services in which the relationship between the location coordinates and APs is required as well as the described method of providing user location information.

FIG. 10 is a flowchart illustrating a process of preliminarily building a fingerprint database according to another embodiment. FIG. 11 is a flowchart illustrating a process of building a fingerprint database on a protector's electronic device in a process of pre- Fig.

The steps (S1010 to S1050) included in the fingerprint database building process of FIG. 10 are similar to the fingerprint database building process described above with reference to FIG. 8, except that a specific place to be placed is directly selected from a guardian or a user on a map Respectively.

Thus, steps S1010 through S1050 may also be performed by the components of processor 222 described above with reference to FIG. For example, steps S1010 to S1030 are performed by the collecting unit 310, step S1040 is performed by the obtaining unit 320, step S1050 is performed by the extracting unit 340, . Thus, steps S1010 to S1050 are not limited to the following examples, and may be performed as an example of the operations of each of the components described above with reference to Figs. Steps S1010 through S1050 are not limited to or limited to those performed by the respective components of the processor 222 described above with reference to FIG. 3, and may include separate components (not shown) Each of which is provided for pre-building the fingerprint database 530).

In step S1010, the collecting unit 310 can select a specific place on the map in response to the place selection input generated on the map provided by the user's electronic device or the guardian's electronic device. 11, the collecting unit 310 provides a map 1110 on one side of the service screen 1100 of the electronic device of the protector, and displays the map 1110 in a specific place 1111 on the provided map 1110. [ When the selection input is generated, the specific place 1111 can be selected.

In operation S 1020, the collecting unit 310 may collect information of at least one AP searched in the specific location 1111. At this time, the collection unit 310 collects the information of at least one AP that is searched at a specific location. That is, at least one AP capable of searching for and accessing an electronic device at a specific location receives the sorted data from the external server . That is, the collecting unit 310 may collect data of at least one AP that is searched at a specific location by receiving data that is pre-arranged from an external server, rather than a user's electronic device. In addition, the collecting unit 310 may provide identification information 1120 of at least one AP among information of the collected at least one AP to one side of the service screen 1100 of the user's electronic device, Of the AP. The operation of the collecting unit 310 may be performed when a location designation request is generated from any one of a user's electronic device or a guardian's electronic device.

In step S1030, the collecting unit 310 may generate the place ID for the specific place in response to the place specifying input generated in the user's electronic device or the electronic device of the caregiver. For example, the collection unit 310 may generate a place ID for a specific place, in response to a place specifying input generated in an input place 1130 provided at one side of the service screen 1100. [ At this time, the collecting unit 310 may recommend the place ID based on the coordinates of the specific place. For example, after the coordinates of the user's electronic device is found, the collecting unit 310 searches for the place name 1131 having coordinates that are within the predetermined distance from the identified coordinates in cooperation with the search service, ) Can be recommended as a place ID. In the figure, "Daewon foreign language high school" can be recommended as the place ID since the confirmed coordinates are close to the coordinates of "Daewon foreign language high school".

In step S1140, the obtaining unit 320 may obtain a fingerprint for a specific place based on the collected information of at least one AP. For example, the acquiring unit 320 may acquire a collection of identification information of the collected at least one AP as a fingerprint for a specific place.

Here, the obtaining unit 320 may obtain a fingerprint for a specific place based on the information of at least one AP whose RSSI is equal to or higher than a predetermined level, or the number of times that the user's electronic device accesses the predetermined number of times or more Can be obtained. Therefore, in the fingerprint for a specific place, since the identification information of the AP whose RSSI is less than a predetermined level or the identification information of the AP which is often inactivated is excluded, the similarity with the connection fingerprint described above with reference to Fig. 4 is judged The error in step S440 can be minimized.

In step S1150, the extraction unit 330 may map and store the generated location ID to the acquired fingerprint.

The fingerprint database 530 may be constructed in advance as shown in FIG. 5 through these steps S1110 to S1150 and utilized in the method of providing the user location information described above with reference to FIGS. The constructed fingerprint database 530 is constructed not only for each user but also for a plurality of users to be integrally used and shared among users. In addition, the fingerprint database 530 may be used as an AP map in various location-based services in which the relationship between the location coordinates and APs is required as well as the described method of providing user location information.

As described above, according to the embodiments of the present invention, a user location information providing method and system using a fingerprint based on an access point (AP), a computer program and a recording medium are proposed, And the effect of minimizing the position tracking error range can be achieved. Furthermore, a method and system for tracking user location information in real time, and a computer program and recording medium are proposed, whereby an alarm service is provided to a guardian or a user requesting a user to leave a specific place or move to a specific place . Further, a method and system for building and maintaining a fingerprint database, and a computer program and a recording medium are proposed, so that a fingerprint is available at the time of user location tracking, and a fingerprint database can be utilized in various location- have. In addition, a method and system for generating a movement schedule indicating a user position by time, and a computer program and a recording medium are proposed, thereby widening the utilization of the location-based service.

FIG. 12 is a block diagram illustrating an example of a component that a processor of a server according to another embodiment may include; FIG. 13 illustrates a method of providing user location information that can be performed by a server according to another embodiment; FIG. 14 is a view for explaining a lattice map in another embodiment, and FIG. 15 is a diagram for explaining a process of providing a user departure alarm in another embodiment.

The server 150 according to an exemplary embodiment may be configured with a computer-implemented user location information providing system. The server 150 provides user location information to a plurality of electronic devices 110, 120, 130 and 140 as clients and is provided on the electronic devices 110, 120, 130, And may provide user location information corresponding to a dedicated application or a service request through a web / mobile site connection associated with the server 150. More specifically, the server 150 controls the user's electronic device to collect information of at least one access point (AP) to which the user's electronic device (e.g., the first electronic device 110) The location information of the user (accurately, the location information of the user's electronic device) based on the information of the at least one AP collected from the electronic device of the user is stored in the electronic device of the caregiver Device 120). Hereinafter, the user's electronic device may mean, for example, an electronic device owned by the child, and the electronic device of the parent may mean an electronic device owned by the child's parent. Accordingly, the fact that the user's electronic device is paired with the protector's electronic device means that the server 150 responds to a pairing request generated from the protector's electronic device (or the user's electronic device) It may mean that they are matched and registered.

12, the processor 222 of the server 150 may include a holding unit 1210, a collecting unit (collecting unit) 1220, an identifying unit 1230, a selecting unit 1240, and a providing unit 1250. The components of processor 222 may optionally be included or excluded from processor 222 in accordance with an embodiment. In addition, in accordance with an embodiment, the components of the processor 222 may be separate or merged for the representation of the functionality of the processor 222. For example, at least some of the components of the processor 222 may be implemented in a processor included in a user's electronic device or in a processor included in a protector's electronic device.

The components of the processor 222 and the processor 222 may control the server 150 to perform the steps S1310 to S1350 included in the method of providing the user location information of Fig. For example, the components of processor 222 and processor 222 may be implemented to execute instructions in accordance with the code of the operating system and the code of at least one program that memory 221 contains.

Herein, the components of processor 222 may be representations of different functions of processor 222 performed by processor 222 in accordance with instructions provided by the program code stored in server 150 . For example, the collection unit 1210 may be implemented as a functional representation of the processor 222 that controls the server 150 in accordance with the above-described instructions so that the server 150 collects information of at least one AP to which the user's electronic device is connected, Can be used.

In step S1310, the holding unit 1210 can maintain the map database. In this case, the map may be stored in the map database with a plurality of grids and grid-indexed grids, and may be pre-built on the memory 221 before step S1310. In this case, building the map database may be performed by the maintenance unit 1210 of the components of the processor 222, but is not limited thereto and may be performed by the separate components included in the processor 222 ≪ / RTI > In addition, the map database may be preliminarily constructed by a separate server and then backed up on the memory 221 by the processor 222. [

The detailed procedure for constructing the map database is as follows. First, the holding unit 1210 may grid the map 1400 into a plurality of grids 1410, 1420, 1430, and 1440 as shown in FIG. At this time, the size of each of the plurality of gratings 1410, 1420, 1430, and 1440 is directly related to the user location tracking speed, the complexity of the calculation, and the user location estimation accuracy. For example, when the size of each of the plurality of gratings 1410, 1420, 1430, 1440 is set large, the tracking speed of the user's position is improved and the complexity of the calculation is lowered, And the size of each of the plurality of gratings 1410, 1420, 1430, and 1440 is set small, the accuracy of estimating the user position is improved, while the tracking speed of the user's position is decreased and the complexity of the calculation is increased do. 1420, 1430, 1440, 1440, 1440, 1440, 1440, 1440, 1440, 1440, 1440, 1440, 1440, 1440, 1440, and 1440 in a size that can improve the position tracking speed of the user and reduce the computational complexity while maintaining the accuracy of estimating the user position constant. ) Each size can be adjusted. To this end, the holding unit 1210 adjusts the size of each of the plurality of gratings 1410, 1420, 1430, and 1440 such that each of the plurality of gratings 1410, 1420, 1430, and 1440 includes a predetermined number of APs . The holding unit 1210 may also be configured to determine the shape of each of the plurality of gratings 1410, 1420, 1430 and 1440 according to the coverage or number of APs contained in each of the plurality of gratings 1410, 1420, 1430, 1440 You can decide. For example, since the coverage of the AP is formed in a circular shape, the shape of each of the plurality of gratings 1410, 1420, 1430, 1440 may be determined to be hexagonal, but is not limited thereto and may be determined in various shapes .

Once the map 1400 is gridded with a plurality of gratings 1410, 1420, 1430 and 1440, the holding unit 1210 can index each of the plurality of gratings 1410, 1420, 1430 and 1440 have. In this case, the holding unit 1210 can sequentially determine the respective indexes according to the positions where the plurality of gratings 1410, 1420, 1430, and 1440 are disposed. For example, the holding unit 1210 determines the index (1, 1) of the first grating 1410 disposed at the upper left end, and then determines the index of the second grating 1410 located on the same row with respect to the first grating 1410 The indexes of the fourth grid 1440 and the third grid 1430 are determined to be (2, 1) and (3, 1), respectively, (1, 2) in which the axis is incremented by one. As described above, the index of each of the plurality of gratings 1410, 1420, 1430, and 1440 is sequentially determined according to the arrangement position, so that the process of calculating the distance between the gratings described below can be simplified.

The plurality of gratings 1410, 1420, 1430 and 1440 generated by the holding unit 1210 include respective coordinate ranges (e.g., latitude and longitude ranges) since the map 1400 is a grid . For example, each of the plurality of gratings 1410, 1420, 1430, and 1440 includes a coordinate range of a hexagonal area that does not overlap with each other on the map 1400. [ Accordingly, the coordinate range of each of the plurality of gratings 1410, 1420, 1430, and 1440 is mapped and stored in the index of each of the plurality of gratings 1410, 1420, 1430, and 1440 in the map database.

As described above, the map database in which the map 1400 is grid-gridded with a plurality of grids 1410, 1420, 1430, and 1440 and is stored while being given grid-specific indexes is utilized in a step S1340 . Accordingly, the user location information providing method according to an embodiment of the present invention can improve the position tracking speed and improve the positioning speed of the mobile terminal, compared to the technique of performing location tracking using WPS based on a map composed of a large number of coordinates without being lattice- The complexity can be lowered.

In step S1320, the collecting unit 1220 may collect information of at least one AP to which the user's electronic device is connected. Hereinafter, the collecting unit 1220 collects the information of at least one AP connected to the user's electronic device. That is, the user's electronic device located at a specific location searches for the neighboring APs and detects at least one AP Means that information of at least one detected AP is received from the user's electronic device. Here, the AP information includes identification information such as a MAC address of the AP, a basic service set identification (BBSID), physical coordinates (e.g., latitude and longitude) of the AP, and a signal generated at the AP Received Signal Strength Indication (RSSI), and the like.

The operation of the collecting unit 1220 may be performed when a request to grasp user location information is generated from any one of a user's electronic device or a guardian's electronic device, and the present invention is not limited thereto, Thus, information of at least one AP to which the user's electronic device accesses in real time can be collected. As described above, the information of at least one AP collected in real time can be sorted and stored in the memory 221 by the collecting unit 1220 by time-specific data.

In addition, the collecting unit 1220 may further collect the position coordinates calculated based on the GPS from the GPS receiver included in the user's electronic device in the process of collecting the information of the at least one AP connected to the user's electronic device have. The position coordinates thus collected may be further utilized in step S1340 described later.

In addition, the collecting unit 1220 may transmit information of the collected at least one AP to the holding unit 1210 so that the holding unit 1210 may update the map database. Therefore, the updated map database includes the information of the AP, so that the AP map can be produced. A detailed description thereof will be described with reference to Fig.

In step S1330, the confirmation unit 1230 can confirm the coordinates of the user's electronic device based on the information of the collected at least one AP. More specifically, the identifying unit 1230 determines coordinates (coordinates) at which the user's electronic device is located using a Wi-Fi Positioning System (WPS) based on the received signal strength of each AP and physical coordinates of each AP among the collected information of at least one AP . For example, the confirmation unit 1230 may filter the wrong data and add new data by comparing the received signal strength of each of the APs connected to the electronic device and the physical coordinates of each of the APs with pre-established AP databases The coordinates of the electronic device can be estimated based on the WPS technology that updates the AP databases. However, confirming the coordinates at which the confirmation unit 1230 locates the user's electronic device is not limited to the described contents, and can be performed using various methods.

In step S1340, the selecting unit 1240 may select any of the grids including the identified coordinates among the plurality of grids 1410, 1420, 1430, and 1440 stored in the map database. For example, if the coordinate range of the first grid 1410 is (0.0,0.0) to (10.0,10.0) and the coordinate range of the second grid 1420 is (10.01,0.0) to (20.0,10.0) When the coordinate range of the third grid 1430 is (20.01, 0.0) to (30.0, 10.0) and the coordinate range of the fourth grid 1440 is (0.0, 10.01) to (10.0, 20.0) The selector 1240 may select the first grid 1410 if the coordinates identified in step 1230 are (7.2, 5.4).

In addition, the selecting unit 1240 may further use the position coordinates calculated based on the GPS as well as the coordinates confirmed based on the information of at least one AP in the identifying unit 1230 in the process of selecting one of the grids . For example, when the RSSI of the information of at least one AP connected to the user's electronic device is lower than a predetermined level, the selecting unit 1240 selects at least one It is determined that the reliability of the AP of the plurality of grids 1410, 1420, 1430, and 1440 may be low and any one of the grids including the identified coordinates based on the information of at least one of the plurality of grids 1410, 1420, 1430, By determining whether any of the gratings 1410, 1420, 1430, and 1440 of the grid 1410, 1420, 1430, 1440 is selected based on GPS, Device) can be more accurately tracked. The collection unit 1220 collects only the position coordinates calculated based on the GPS from the GPS receiver included in the user's electronic device, so that the selection unit 1240 selects It is possible to select any one of the plurality of grids 1410, 1420, 1430, 1440 stored in the map database, including the calculated position coordinates based on the GPS, irrespective of the identified coordinates. In this case, the confirmation unit 1230 is inactivated and unnecessary power consumption can be prevented.

In step S1350, the providing unit 1250 may provide an index of the selected grid to the electronic device of the guardian paired with the user's electronic device. For example, if the selected grid is a first grid 1410 having an index of (1, 1), then the provider 1250 may provide an index of "(1, 1)" to the protector's electronics. Also, the providing unit 1250 may provide the index of the selected grid to the user's electronic device.

The operations of the collecting unit 1220, the confirming unit 1230, the selecting unit 1240, and the providing unit 1250 may be the same as those of the first embodiment, , ≪ / RTI > However, the present invention is not limited thereto, and the operation of the collecting unit 1220, the confirming unit 1230, and the selecting unit 1240 may be repeatedly performed according to a predetermined period, It is possible to provide an index of the grid indicating the location of the location to the electronic device of the guardian in real time. Also, the providing unit 1250 checks the time at which the grating is selected, and stores and maintains the selected grating with the index of the selected grating on the memory 221 so that the index of the grating corresponding to the user position by time is stored in the electronic device As shown in FIG. A detailed description thereof will be described with reference to FIG.

Also, the providing unit 1250 can notify the guardian's electronic device of an alarm that the user (more precisely, the user's electronic device) has left the particular grid. For example, if the index of the grid selected by the selecting unit 1240 does not match the index of the predetermined grid by time (if the user's electronic device is located in a different grid than the specific grid to be located) May notify the guardian's electronic device of an alarm notifying that the user has departed from the specific grid to be located. More specifically, if the index of the grid selected at 17:00 in the selection unit 1240 is " (1, 1) ", and the index of the grid preset at 17:00 is " , The providing unit 1250 determines that the index "(1, 1)" of the selected grid does not coincide with the index "(3, 3)" of the predetermined grid, It is possible to notify an alarm notifying that it has occurred.

At this time, the provider 1250 can notify the electronic device of the protector together with the alarm that notifies that the user has departed, as well as the distance that the user has left. For example, if the grid on which the current user is located on the map 1500 (the grid selected in the selection unit 1240) is the first grid 1510 on the map 1500 shown in FIG. 15 and the grid set in the current time is the second grid 1520 , The providing unit 1250 supplies the distance 1530 between the selected grid (the first grid 1510) and the predetermined grid according to the time (the second grid 1520) to the guardian's electronic device Can be notified. In this case, the offset distance 1530 may be calculated as the distance between the center of the selected grating (first grating 1510) and the center of the predetermined grating (second grating 1520) by time.

FIG. 16 is a diagram illustrating an electronic device service screen of a guardian provided with a movement schedule for a user in an embodiment. FIG. 17 illustrates an electronic device service screen of a user provided with a user movement alarm in an embodiment. Fig.

Referring to FIGS. 16 through 17, the providing unit 1250 can provide an index of a grid corresponding to a time-based user position on the service screen 1600 of the protector's electronic device in the form of a movement schedule 1610 . For example, when an index of a grid indicating a location where a user's electronic device is located is extracted, the provider 1250 matches and stores the selected time of the grid with the index of the grid, and then the index of the selected grid is changed (When the grid where the user's electronic device is located is changed, in other words, when the user moves to another grid), the time at which the changed grid is selected together with the index of the changed grid is stored and stored, And provide it to the protector's electronic device. ≪ RTI ID = 0.0 > [0031] < / RTI > The providing unit 1250 may provide a visualization of the moving schedule 1610 on the map 1620 provided on one side of the service screen 1600. [

Further, the providing unit 1250 may notify the user's electronic device of an alarm notifying the user to move to a specific grid based on the movement schedule 1610. [ For example, if the index of the grid set at 16:00 on the movement schedule 1610 is " (1, 1) ", the index of the grid set at 16:18 is " (3, If the index of the grid where the user is present at 16:05 is " (3, 1) ", the service provider 1240 displays the next schedule place on the service screen 1700 of the user's electronic device, (3, 3) " of the lattice point of the lattice point. At this time, the providing unit 1250 may visualize and provide the grid on which the current user is located along with the moving schedule 1610 on the map 1720 provided on one side of the service screen 1700.

At this time, the providing unit 1250 can notify the user's electronic apparatus together with the alarm 1710 notifying the user to move, as well as the distance 1711 to which the user should move. For example, if the index of the grid where the current user is currently located is " (3, 1) ", and the index of the specific grid to which the user should move is " (3, 3) 3, 1) " and the lattice of (3, 3) " with the alarm 1710 to the user's electronic device. In this case, the distance 1711 to be moved can be calculated as the distance between the center of the grating of (3, 1) and the center of the grating of (3, 3).

18 is a conceptual diagram for explaining a process of updating a map database in an embodiment.

18, the holding unit 1210 receives information (1813, 1814) of at least one AP collected by the collecting unit 1220 and transmits information (1813, 1814) of at least one AP The map database 1810 can be updated by mapping to the indexes 1811 and 1812 of the grid. For example, if information 1813 of at least one AP has been collected when the user's electronic device is located in the first grid, the holding unit 1210 stores information 1813 of at least one AP in the first grid If the information 1814 of at least one AP has been collected when the user's electronic device is located in the second grid, the maintenance unit 1210 updates the map database 1810 by mapping at least one AP May update map database 1810 by mapping information 1814 of the second grid to index 1812 of the second grid. Since the updated map database 1810 includes identification information among the information 1813 and 1814 of the AP, it can be utilized in a fingerprint-based location providing service composed of identification information of the AP . However, without being limited thereto or limited, the updated map database 1810 may be utilized in various location-based services because it implements an AP map that includes identification information of the AP along with an index of the grid with a coordinate range.

According to the embodiments described above, a method and system for providing user location information using WPS based on a latticed map, and a computer program and a recording medium are proposed, thereby improving the speed of user location tracking and lowering the computational complexity The effect can be achieved. Furthermore, a method and system for tracking user location information in real time, and a computer program and recording medium are proposed, whereby an alarm service can be provided to the guardian or user informing the user to leave the particular grid or to move to a particular grid have. Also, in the process of providing the guardian or the user with the alarm service informing the user to depart from the specific grid or to move to the specific grid, the distanced distance or the distance to be moved together are notified together, have. In addition, a method and system for constructing and maintaining a map database, and a computer program and a recording medium are proposed, so that the map database can be utilized in various services including a fingerprint-based location providing service composed of APs . In addition, a method and system for generating a movement schedule indicating a user position by time, and a computer program and a recording medium are proposed, thereby widening the utilization of the location-based service.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented as a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA), a programmable logic unit, a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be embodied in any type of machine, component, physical device, computer storage media, or device for interpretation by a processing device or to provide instructions or data to the processing device have. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. At this time, the medium may be a program that continuously stores a computer executable program, or temporarily stores the program for execution or downloading. Further, the medium may be a variety of recording means or storage means in the form of a combination of a single hardware or a plurality of hardware, but is not limited to a medium directly connected to any computer system, but may be dispersed on a network. Examples of the medium include a magnetic medium such as a hard disk, a floppy disk and a magnetic tape, an optical recording medium such as CD-ROM and DVD, a magneto-optical medium such as a floptical disk, And program instructions including ROM, RAM, flash memory, and the like. As another example of the medium, a recording medium or a storage medium that is managed by a site or a server that supplies or distributes an application store or various other software is also enumerated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (20)

1. A computer-implemented method for providing user location information,

   The method comprising the steps of: collecting information of at least one Access Point (AP) connected to a user's electronic device;

   Obtaining a fingerprint of the user based on the collected information of the at least one AP;

   A fingerprint database, the fingerprint database having a plurality of place IDs mapped to respective fingerprints, stored and maintained;

   Extracting a place ID corresponding to the connection fingerprint from the fingerprint database; And

   Providing the extracted place ID to at least one of the electronic equipment of the user or the electronic equipment of the caregiver paired with the electronic equipment of the user

   To the user location information.
2. The method according to claim 1,

   Wherein the acquiring comprises:

   A connection fingerprint of the user is set based on information of at least one AP whose received signal strength indication (RSSI) is equal to or higher than a predetermined level among the at least one AP, Acquire

   Wherein the user location information providing method comprises:
3. The method according to claim 1,

   Wherein the providing step comprises:

   If a place ID corresponding to the connection fingerprint is not extracted from the fingerprint database or if the extracted place ID does not match a preset place ID by time, at least one of the electronic equipment of the user or the guardian And notifying an alarm notifying that one of the users has departed

   Further comprising the steps of:
4. The method according to claim 1,

   The method of providing user location information comprises:

   Repeatedly performed according to a predetermined cycle to provide a place ID corresponding to a user position by time

   Wherein the user location information providing method comprises:
5. 5. The method of claim 4,

   The method of providing user location information comprises:

   Generating a movement schedule for the user based on the place ID corresponding to the time-based user location; And

   Providing the movement schedule to at least one of the protector's electronic device or the user's electronic device

   Further comprising the steps of:
6. The method according to claim 1,

   Wherein the collecting comprises:

   Checking coordinates of the electronic device of the user based on the collected information of the at least one AP

   Further comprising:

   In the fingerprint database,

   The plurality of place IDs are mapped with respective coordinates and stored and held,

   Wherein the extracting comprises:

   Extracting a location ID mapped to the coordinates near the determined coordinates from the fingerprint database within a predetermined distance

   Wherein the user location information providing method comprises:
7. The method according to claim 1,

   The method of providing user location information comprises:

   Pre-building the fingerprint database

   Further comprising the steps of:
8. 8. The method of claim 7,

   The pre-

   Collecting information of at least one AP connected to an electronic device of the user located at a specific place;

   Generating a place ID for the specific place in response to a place specifying input generated in the electronic equipment of the user or the protector of the user;

   Obtaining a fingerprint for the specific location based on the collected information of the at least one AP; And

   Mapping and storing and storing the generated place ID to the obtained fingerprint

   To the user location information.
9. A computer-implemented user location information providing system,

   At least one processor configured to execute computer readable instructions,

   Lt; / RTI >

   Wherein the at least one processor comprises:

   A collecting unit for collecting information of at least one access point (AP) to which the user's electronic device is connected;

   An acquiring unit acquiring a connection fingerprint of the user based on the collected information of the at least one AP;

   An extraction unit for accessing a fingerprint database, the fingerprint database having a plurality of place IDs mapped to and stored in respective fingerprints, and extracting a place ID corresponding to the connection fingerprints from the fingerprint database; And

   And providing the extracted place ID to at least one of the electronic equipment of the user or the electronic equipment of the caregiver paired with the electronic equipment of the user,

   The user location information providing system comprising:
10. A computer-implemented method for providing user location information,

    Maintaining a map database in the map database, wherein the maps are grid-grasped with a plurality of grids and stored with grating-specific indexes;

    The method comprising the steps of: collecting information of at least one Access Point (AP) connected to a user's electronic device;

    Confirming coordinates at which the user's electronic device is located based on the collected information of the at least one AP;

    Selecting any one of the plurality of grids stored in the map database and including the identified coordinates; And

    Providing an index of the selected grid to an electronic device of a guardian paired with the user's electronic device

    To the user location information.
11. 11. The method of claim 10,

    Wherein an index of each of the plurality of gratings,

    Which are sequentially determined according to the positions at which the plurality of gratings are arranged

    Wherein the user location information providing method comprises:
12. 11. The method of claim 10,

    The size of each of the plurality of gratings may be,

    Wherein each of the plurality of grids is adjusted to include a predetermined number of APs

    Wherein the user location information providing method comprises:
13. 11. The method of claim 10,

    The shape of each of the plurality of gratings may be,

    Determined based on the coverage or number of APs included in each of the plurality of grids

    Wherein the user location information providing method comprises:
14. 11. The method of claim 10,

    Wherein the providing step comprises:

    When the index of the selected grid does not coincide with the index of the predetermined grid according to the time, notifying the electronic appliance of the guardian of an alarm informing that the user has departed

    Further comprising the steps of:
15. 15. The method of claim 14,

    Wherein the notifying step comprises:

    And notifying the electronic device of the protector together with the distance between the selected grid and the predetermined grid according to the time

    Wherein the user location information providing method comprises:
16. 11. The method of claim 10,

    The method of providing user location information comprises:

    Providing an index of the grid corresponding to the user position by time repeatedly performed at predetermined intervals

    Wherein the user location information providing method comprises:
17. 17. The method of claim 16,

    The method of providing user location information comprises:

    Generating a movement schedule for the user based on an index of a grid corresponding to the user position per time; And

    Providing the movement schedule to the electronic device of the protector

    Further comprising the steps of:
18. 11. The method of claim 10,

    The method of providing user location information comprises:

    The step of building the map database in advance

    Further comprising the steps of:
19. 19. The method of claim 18,

    The pre-

    Griding the map into the plurality of grids; And

    Assigning an index to each of the plurality of gratings

    To the user location information.
20. 11. The method of claim 10,

    The method of providing user location information comprises:

    Updating the map database by mapping information of the at least one AP to an index of the selected grid; And

    Using the updated map database for a fingerprint-based location providing service composed of identification information of the AP

    Further comprising the steps of:

Images