KR102473266B1 - Method for providing Pediatric safety management services using route pattern analysis and apparatus thereof - Google Patents

Abstract

The present invention relates to a method for providing a child safety management service using behavior pattern analysis and an apparatus therefor. The present invention includes the steps of a pattern derivation module deriving a behavior pattern including a movement model representing a location movement pattern by time slot of the kids device and a place model representing the frequency of visits to the place of the kids device, and the abnormal diagnosis module Comparing the behavior pattern with the location of the kids device to verify whether the location of the kids device is abnormal, and if the abnormality diagnosis module verifies that the location of the kids device is abnormal as a result of the verification, the kids device and the Checking whether the guardian device mapped to the kids device is within a preset range from the kids device, and if the abnormality diagnosis module is not within the preset range as a result of the check, a warning notifying the guardian device of an abnormal situation Provides a method for providing a child safety management service, comprising the step of transmitting a message, and an apparatus therefor.

Description

Method for providing child safety management service using behavior pattern analysis and apparatus therefor

The present invention relates to a technology for providing child safety management services, and more particularly, to a child safety management service by verifying whether or not the current location is abnormal based on a behavior pattern indicating the time-by-time location movement of a kids device carried by a child. It relates to a method capable of providing and an apparatus therefor.

As the importance of safety management for the socially vulnerable, such as children, increases, services using various special terminals using location data, such as kids phones, watches, and location trackers, are increasing. Safety management through location information at the present time is implemented in the kids phone mentioned above.

The first major service using location information is the current location inquiry function. Through this function, the guardian can check the detailed positioning result of the kids terminal's current location. There are three times when the location inquiry function operates: 1) when the guardian requests the child's location, 2) when the child transmits the current location, and 3) when the location transmission is set periodically for a specific period. All three of these have the inconvenience that the guardian has to check the child's location every time, and the guardian has to arbitrarily determine whether it is in a normal position every time.

The second is the safety zone function. If a guardian or child registers a specific place and time in advance, it provides information about entering or exiting the safe zone compared to the current location. Unlike the current location inquiry function, the effort of checking the location every time and determining whether there is an abnormality is reduced, but the service cannot be used unless the safe zone is registered in advance.

The third is the SOS rescue request function. When a child makes a rescue request through a specific button provided on the terminal, it is transmitted along with the current location information. However, there is a disadvantage that the service is not available unless a rescue request is made.

Korea Patent Registration No. 10-1234269, registered on February 12, 2013 (Name: mobile communication terminal capable of providing location information for children)

In the case of existing child location-related services, they were in the form of passive services directly set by guardians. Accordingly, the current location, which is transmitted periodically, is recognized as spam by the guardian and is not checked every time, making it difficult to respond in real time in case of an abnormal movement. Also, in the case of the safe zone, it is inconvenient to set each time, so the frequency of use is not high. An object of the present invention is to send a warning message to the guardian device only when there is a high probability of an actual problem based on the behavior pattern of the child's kids device, and to provide a child safety management service through place settings such as a safe zone that is automatically set. It is to provide a method capable of providing and a device therefor.

In order to achieve the above object, a method for providing a safety management service for children according to a preferred embodiment of the present invention is a movement model in which a pattern derivation module represents a location movement pattern for each time period of a kids device and a location of the kids device. deriving a behavioral pattern including a place model representing a visit frequency to ; and verifying whether or not the location of the kids device is abnormal by comparing the behavior pattern with the location of the kids device by an anomaly diagnosis module; When the abnormality diagnosis module verifies that the position of the kids device is abnormal as a result of the verification, checking whether the guardian device mapped to the kids device is within a preset range from the kids device; As a result of the check, if it is not within the predetermined range, transmitting a warning message informing the abnormal situation to the guardian device.

The step of deriving the behavior pattern includes the step of generating, by the pattern derivation module, a movement model indicating a location corresponding to a unit time of the kids device, and the pattern derivation module of a main place where the visit frequency of the kids device is equal to or greater than a predetermined reference value. generating a place model that derives

The generating of the movement model includes the pattern derivation module collecting location information of the kids device for each predetermined unit period and for each unit time, and the pattern derivation module for the same unit time in different unit periods. Comparing the location information of the device and determining the location corresponding to the unit time of the kids device according to the presence or absence of overlapping locations in each unit time.

In the step of generating the place model, the pattern derivation module creates a plurality of location groups from the location information of the kids devices collected during a predetermined unit period, and determines locations where the frequency of visits to the created location groups is equal to or greater than a predetermined value. It is characterized by the selection of a location.

The step of verifying whether or not there is an abnormality by comparing the behavior pattern with the location of the kids device is whether the abnormality diagnosis module determines whether the location of the movement model and the current time of the kids device deviate from the location corresponding to the unit time of the movement model. determining whether or not the location of the kids device belongs to a main place according to the place model, when it is determined that the abnormality diagnosis module deviate from the movement path according to the time as a result of the determination; and , When the abnormality diagnosis module determines that the location of the kids device does not belong to the main place as a result of the determination, determining that the location of the kids device is abnormal.

The step of deriving the behavior pattern comprises deriving the behavior pattern based on the network location information for the kids device during a predetermined initial period after the service is started by the pattern derivation module, and the pattern derivation module performs the initial period. Then, the kids device comprises the step of deriving the behavior pattern based on the terminal measurement location information for positioning.

An apparatus for providing safety management services for children according to a preferred embodiment of the present invention for achieving the above object is a movement model representing a location movement pattern of a kids device by time zone and a visit frequency to a place of the kids device. A pattern derivation module for deriving a behavioral pattern including a place model representing, comparing the behavioral pattern and the location of the kids device to verify whether the location of the kids device is abnormal, and as a result of the verification, the location of the kids device If is verified as abnormal, it is checked whether the guardian device mapped to the kids device is within a preset range from the kids device, and as a result of the check, if it is not within the preset range, a warning notifying the abnormal situation to the guardian device It includes an anomaly diagnosis module that transmits a message.

The pattern derivation module is characterized by generating a movement model representing a location corresponding to a unit time of the kids device and generating a place model for deriving a main place where the visit frequency of the kids device is equal to or greater than a predetermined reference value.

The pattern derivation module collects the location information of the kids device for each predetermined unit period and unit time, and compares the location information of the kids device at the same unit time in different unit periods to determine the position overlapping in each unit time. It is characterized in that the position corresponding to the unit time of the kids device is determined according to the presence or absence.

The pattern derivation module is characterized in that for generating a plurality of location groups from the location information of the kids device collected during a predetermined unit period, and selecting a location where the frequency of visits to the created location group is equal to or greater than a predetermined value as the main place .

The anomaly diagnosis module determines whether the current time positions of the mobile model and the kids device deviate from the position corresponding to the unit time of the mobile model, and as a result of the determination, it is determined that they deviate from the movement path according to the time. , it is determined whether the location of the kids device belongs to the main place according to the place model, and as a result of the determination, if the location of the kids device does not belong to the main place, the location of the kids device is determined to be abnormal. to be characterized

The pattern derivation module derives the behavior pattern based on the communication network location information for the kids device for a predetermined initial period after service starts, and the pattern derivation module measures the terminal for the kids device to measure after the initial period. It is characterized in that the behavior pattern is derived based on location information.

According to the present invention, a warning message is sent to the guardian device only when there is a high probability of an actual problem occurring based on a behavior pattern, and a place such as a safe zone can be automatically set, thereby efficiently providing safety management services for children. can

In addition, the present invention can supplement inaccuracy of location information due to lack of location data by deriving a behavioral pattern based on communication network location information during a predetermined initial period of infrequent positioning due to a service or battery problem.

1 is a diagram for explaining a system for providing a child safety management service using behavior pattern analysis according to an embodiment of the present invention.
2 is a block diagram for explaining the configuration of a service server according to an embodiment of the present invention.
Figure 3 is a block diagram for explaining the configuration of the kids device according to an embodiment of the present invention.
4 is a block diagram for explaining the configuration of a guardian device according to an embodiment of the present invention.
5 is a flowchart illustrating a method for providing a child safety management service according to an embodiment of the present invention.
6 is a diagram for explaining a method for providing a child safety management service according to an embodiment of the present invention.
7 is a flowchart for explaining a method of deriving a thawing pattern according to an embodiment of the present invention.
8 is a flowchart for explaining a method of verifying whether a location of a kids device is abnormal according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, detailed descriptions of well-known functions or configurations that may obscure the gist of the present invention will be omitted in the following description and accompanying drawings. In addition, it should be noted that the same components are indicated by the same reference numerals throughout the drawings as much as possible.

The terms or words used in this specification and claims described below should not be construed as being limited to a conventional or dictionary meaning, and the inventors should appropriate the concept of terms to describe their invention in the best way. It should be interpreted as a meaning and concept consistent with the technical spirit of the present invention based on the principle that it can be defined in the following way. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention. It should be understood that there may be equivalents and variations.

In addition, terms including ordinal numbers, such as first and second, are used to describe various components, and are used only for the purpose of distinguishing one component from other components, and to limit the components. Not used. For example, a second element may be termed a first element, and similarly, a first element may be termed a second element, without departing from the scope of the present invention.

Additionally, when an element is referred to as being “connected” or “connected” to another element, it means that it is logically or physically connected or capable of being connected. In other words, it should be understood that a component may be directly connected or connected to another component, but another component may exist in the middle, or may be indirectly connected or connected.

In addition, terms used in this specification are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In addition, terms such as "include" or "having" described in this specification are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or the other It should be understood that the above does not preclude the possibility of the presence or addition of other features, numbers, steps, operations, components, parts, or combinations thereof.

In addition, embodiments within the scope of the present invention include computer-readable media having or conveying computer-executable instructions or data structures stored thereon. Such computer readable media can be any available media that can be accessed by a general purpose or special purpose computer system. By way of example, such computer readable media may be in the form of RAM, ROM, EPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage, or computer executable instructions, computer readable instructions or data structures. physical storage media such as, but not limited to, any other medium that can be used to store or convey any program code means in a computer system and which can be accessed by a general purpose or special purpose computer system. .

First, a system for providing a child safety management service using behavior pattern analysis according to an embodiment of the present invention will be described. 1 is a diagram for explaining a system for providing a child safety management service using behavior pattern analysis according to an embodiment of the present invention. Referring to FIG. 1 , a safety management service providing system according to an embodiment of the present invention includes a service server 100 , a kids device 200 and a guardian device 200 .

The service server 100, the kids device 200 and the guardian device 200 may communicate with each other through the communication network 10. Here, if the communication network 10 is a network capable of transmitting and receiving data, the type is not particularly limited. For example, the communication network 10 may include a wireless communication network such as WLAN (Wireless LAN), Wi-Fi, Wibro, Wimax, HSDPA (High Speed Downlink Packet Access), and system implementation Depending on the method, it may include a wired communication network such as Ethernet, xDSL (ADSL, VDSL), HFC (Hybrid Fiber Coaxial Cable), FTTC (Fiber to The Curb), FTTH (Fiber To The Home).

Preferably, the communication network 10 of the present invention may include, for example, a mobile communication network consisting of a plurality of access networks (not shown) and a core network (not shown) connecting them. Here, the access network is a network that is directly connected to a terminal and performs wireless communication. For example, a plurality of base stations such as BS (Base Station), BTS (Base Transceiver Station), NodeB, eNodeB, etc. , may be implemented as a base station controller such as a radio network controller (RNC). In addition, as described above, the digital signal processing unit and the radio signal processing unit integrally implemented in the base station are divided into digital units (hereinafter referred to as DUs) and radio units (hereinafter referred to as RUs), A plurality of RUs (not shown) may be installed in a plurality of areas, and the plurality of RUs may be configured by connecting a centralized DU In addition, a core network (not shown) constituting a mobile network together with an access network is It serves to connect other communication networks such as an external network, for example, the Internet network.

As described above, the core network is a network system that performs major functions for mobile communication services such as mobility control and switching between access networks, and performs circuit switching or packet switching. It manages and controls the flow of packets within it. In addition, the core network may manage inter-frequency mobility and perform a role for interworking with traffic in the access network and the core network and other networks, such as the Internet network. The core network may further include a Serving GateWay (SGW), a PDN GateWay (PGW), a Mobile Switching Center (MSC), a Home Location Register (HLR), a Mobile Mobility Entity (MME), and a Home Subscriber Server (HSS). may be

In addition, the communication network 10 according to the present invention may include an Internet network. The Internet network refers to a common open communication network, that is, a public network in which information is exchanged according to the TCP/IP protocol.

The service server 100, the kids device 200, and the guardian device 200 may interwork with each other through the communication network 10 to configure a safety management service providing system according to the present invention.

The service server 100 is a server device that provides a web-based service, has a specific domain name, and can exchange information with the connected kids device 200 and the guardian device 300.

The kids device 200 and the guardian device 300 may include a memory for storing programs and protocols for transmitting and receiving information, a processor for calculating and controlling by executing various programs, and the like.

The kids device 200 is a terminal carried by a child of a guardian, and the guardian device 300 is a terminal carried by the guardian. The kids device 200 and the guardian device 300 may be representatively, a smart phone. The kids device 200 and the guardian device 300 may be replaced with terms such as User Equipment (UE), Mobile Station (MS), Mobile Subscriber Station (MSS), and Subscriber Station (SS).

The service server 100 provides child safety management services. After starting the service, the service server 100 may continuously acquire the location information of the kids device 200 .

Here, the location information includes communication network location information and terminal measurement location information. The communication network location information is base station cell usage information collected through the communication network 10 . This communication network location information includes base station cell information, use time, etc. to which the kids device 200 has access. Since the base station cell usage information is based on the base station, it is continuously collected while the power of the kids device 200 is turned on. However, the positioning error is 150 to 2,000 m, which is less accurate than the terminal measurement location information. The terminal measurement location information is location information measured by the kids device 200 . This is basically generated based on the GPS kids device 200 is received, and is corrected through Cell / WiFi positioning, the positioning error is within 10 ~ 100m, the accuracy is higher than the communication network location information. On the other hand, since the terminal measurement location information operates only when the kids device 200 is set, the parameters may be insufficient. Therefore, the present invention uses both communication network location information and terminal measurement location information. That is, the pattern derivation module 131 uses communication network location information for a predetermined initial period after service starts, and uses both terminal measurement location information and communication network location information after a predetermined initial period. At this time, the location information format of the communication network location information is the same as the location information format of the terminal measurement location information, and the cell use information of the base station and the location information of the cell are combined and converted into latitude and longitude for use.

In addition, the service server 100 derives the behavior pattern of the kids device 200 based on the location information of the kids device 200 . These behavior patterns include a movement model representing a location movement pattern by time period and a place model representing the frequency of visits to places of the kids device 200 . Specifically, the movement model may indicate position movement of the kids device 200 according to unit time. Also, the place model may indicate a safe place through visit frequency. In addition, the service server 100 compares the behavior pattern and the location of the kids device 200 to verify whether or not the location of the kids device 200 is abnormal. At this time, the service server 100, if the location of the kids device 200 is verified as strange, checks whether the kids device 200 and the parental device 300 mapped to the kids device 200 are in the same location. At this time, the service server 100, when it is confirmed that the kids device 200 and the guardian device 300 are not in the same location, transmits a warning message informing the abnormal situation to the guardian device 300.

On the other hand, the service server 100 uses communication network location information, which is base station-based cell information obtained from a base station to which the kids device 200 has access, for the initial period after service starts. The positioning accuracy of this communication network location information varies from at least 150 m to 2,000 m depending on the location and construction characteristics of the cell. To improve this, a service radius for each cell may be calculated by calculating a distance between neighboring base stations for each cell. At this time, three closest cells are selected, the interval between the three cells is calculated, and the average value of the interval is determined as the service radius of the cell. This service radius means positioning accuracy. According to this service radius, a radius is created from the center coordinates of the cell. Depending on this radius, it is possible to determine whether they are in the same location. For example, if the distance between cell A and the neighboring base station is 200 m, if the distance between the location information to be determined and cell A is less than 200 m, it is determined to be the same location, and if it is more than 200 m, it is determined not to be the same location. can do. After the initial period, the location information uses the terminal measurement location information, and the location information according to the terminal measurement location information reflects the service radius, that is, positioning accuracy within 50 m. Therefore, if the difference between the location information to determine whether or not there is an anomaly and the location information to be compared is less than 50 m, it can be determined as the same location, and if it is more than 50 m, it can be determined that it is not the same location.

Next, the configuration of the service server 100 according to an embodiment of the present invention will be described in more detail. 2 is a block diagram for explaining the configuration of a service server according to an embodiment of the present invention. Referring to FIG. 2 , a service server 100 according to an embodiment of the present invention includes a communication module 110 , a storage module 120 and a control module 130 .

The communication module 110 is for communication with the kids device 200 and the guardian device 300 through the communication network 10 . The communication module 110 may include a modem that modulates a transmitted signal and demodulates a received signal. The communication module 110 may receive location information from the kids device 200 and the guardian device 300 through the communication network 10 .

The storage module 120 serves to store programs and data necessary for the operation of the service server 100 . In particular, the storage module 120 stores various data necessary for the operation of the service server 100. The storage module 120 may store information for identifying the kids device 200 and the guardian device 300 mapped to the kids device 200, a behavior pattern of the kids device 200, and the like. Various kinds of data stored in the storage module 120 can be deleted, changed, or added according to a user's manipulation.

The control module 130 may control overall operation of the service server 100 and signal flow between internal blocks of the service server 100, and may perform a data processing function of processing data. The control module 130 may be a central processing unit (CPU), a digital signal processor (DSP), or the like.

The control module 130 includes a pattern derivation module 131 and an anomaly diagnosis module 133 . The pattern derivation module 131 is for deriving a behavioral pattern of the kids device 200 . In addition, the abnormal diagnosis module 133 performs a function of determining whether there is an abnormality by comparing the behavior pattern and the current position of the kids device 200 . Operations of the control module 130 including the pattern derivation module 131 and the abnormal diagnosis module 133 will be described in more detail below.

Meanwhile, in the embodiment of the present invention, the functions of the pattern derivation module 131 and the abnormal diagnosis module 133 will be described as functions of one service and one service server 100, but the present invention is not limited thereto. The service server 100 may be implemented by dividing each function of the pattern derivation module 131 and the anomaly diagnosis module 133 into separate devices. That is, the service server 100 will be implemented by being divided into a pattern derivation server (not shown) that performs the function of the pattern derivation module 131 and an anomaly diagnosis server (not shown) that performs the function of the anomaly diagnosis module 133. may be

Next, the configuration of the kids device 200 according to an embodiment of the present invention will be described in more detail. Figure 3 is a block diagram for explaining the configuration of the kids device according to an embodiment of the present invention. Referring to Figure 3, Kids device 200, Kids communication unit 210, Kids location information unit 220, Kids input unit 230, Kids display unit 240, Kids storage unit 250 and Kids control unit 260 include

Kids communication unit 210 is to communicate with the service server 100 and the guardian device 300 through the communication network (10). Kids communication unit 210 may include an RF (Radio Frequency) transmitter (Tx) for up-converting and amplifying the frequency of the transmitted signal and an RF receiver (Rx) for low-noise amplifying the received signal and down-converting the frequency. . And kids communication unit 210 may include a modem (Modem) for modulating the transmitted signal, demodulation of the received signal.

The kids location information unit 220 is for deriving location information of the kids device 200 . To this end, the kids location information unit 220 may calculate the location information of the kids device 200 using a GPS (Global Positioning System) signal. In more detail, the kids location information unit 220 may derive location information of the kids device 200 by receiving a Global Positioning System (GPS) signal from a satellite. Kids location information unit 220 continuously calculates the location information of the kids device 200 according to the above method. Then, the kids location information unit 220 transmits the calculated location information to the kids control unit 260 .

Kids input unit 230 receives the user's key manipulation for controlling the kids device 200, generates an input signal, and transmits it to the kids control unit 260. Kids input unit 230 may include a variety of keys for controlling the kids device (200). Kids input unit 230, when the kids display unit 240 is made of a touch screen, the functions of various types of keys can be made on the kids display unit 240, and when all functions can be performed with only the touch screen, kids input unit 230 ) may be omitted.

Kids display unit 240 visually provides the menu, input data, function setting information and other various information of the kids device 200 to the user. Kids display unit 240 performs a function of outputting a screen such as a booting screen, a standby screen, a menu screen, and the like of the kids device 200 . The kids display unit 240 may be formed of a liquid crystal display (LCD, Liquid Crystal Display), an organic light emitting diode (OLED), an active matrix organic light emitting diode (AMOLED), or the like. . On the other hand, kids display unit 240 may be implemented as a touch screen. In this case, the kids display unit 240 includes a touch sensor. The touch sensor detects a user's touch input. The touch sensor may be configured as a touch sensor such as a capacitive overlay, a pressure sensor, a resistive overlay, or an infrared beam, or a pressure sensor. . In addition to the above sensors, all types of sensor devices capable of detecting contact or pressure of an object may be used as the touch sensor of the present invention. The touch sensor detects a user's touch input and generates a detection signal to transmit to the kids control unit 260. In particular, when the kids display unit 240 is made of a touch screen, some or all of the functions of the kids input unit 230 may be made through the kids display unit 240.

Kids storage unit 250 serves to store programs and data required for operation of the kids device 200 . In particular, the kids storage unit 250 is an area where user data generated according to the use of the kids device 200 is stored. Various types of data stored in the kids storage unit 250 may be deleted, changed, or added according to a user's manipulation.

Kids control unit 260 controls the overall operation of the kids device 200 and the signal flow between the internal blocks 110 to 180 of the kids device 200, and may perform a data processing function of processing data. These kids control unit 260 may be a central processing unit (CPU: Central Processing Unit), digital signal processor (DSP: Digital Signal Processor), and the like.

Next, the configuration of the guardian device 300 according to an embodiment of the present invention will be described in more detail. 4 is a block diagram for explaining the configuration of a guardian device according to an embodiment of the present invention. 4, the guardian device 300 includes a guardian communication unit 310, a guardian location information unit 320, a guardian input unit 330, a guardian display unit 340, a guardian storage unit 350, and a guardian control unit 360. include

Guardian communication unit 310 is for communication with the service server 100 and the kids device 200 through the communication network (10). The guardian communication unit 310 may include a radio frequency (RF) transmitter (Tx) for up-converting and amplifying the frequency of a transmitted signal and an RF receiver (Rx) for low-noise amplifying a received signal and down-converting the frequency. . And the guardian communication unit 310 may include a modem that modulates a transmitted signal and demodulates a received signal.

The guardian location information unit 320 is for calculating location information of the guardian device 300 . To this end, the guardian location information unit 320 may calculate location information of the guardian device 300 using a GPS (Global Positioning System) signal. In more detail, the guardian location information unit 320 may derive location information of the guardian device 300 by receiving a Global Positioning System (GPS) signal from a satellite. The guardian location information unit 320 continuously calculates the location information of the guardian device 300 according to the method described above. Then, the guardian location information unit 320 transfers the calculated location information to the guardian control unit 360 .

The guardian input unit 330 receives a user's key manipulation for controlling the guardian device 300, generates an input signal, and transmits it to the guardian control unit 360. The guardian input unit 330 may include various keys for controlling the guardian device 300 . When the guardian display unit 340 is made of a touch screen, the function of various keys can be performed on the guardian display unit 340, and when all functions can be performed with only the touch screen, the guardian input unit 330 ) may be omitted.

The guardian display unit 340 visually provides the menu of the guardian device 300, input data, function setting information, and other various information to the user. The guardian display unit 340 performs a function of outputting screens such as a booting screen, a standby screen, a menu screen, and the like of the guardian device 300 . The protector display unit 340 may be formed of a Liquid Crystal Display (LCD), Organic Light Emitting Diodes (OLED), Active Matrix Organic Light Emitting Diodes (AMOLED), or the like. . Meanwhile, the guardian display unit 340 may be implemented as a touch screen. In this case, the guardian display unit 340 includes a touch sensor. The touch sensor detects a user's touch input. The touch sensor may be configured as a touch sensor such as a capacitive overlay, a pressure sensor, a resistive overlay, or an infrared beam, or a pressure sensor. . In addition to the above sensors, all types of sensor devices capable of detecting contact or pressure of an object may be used as the touch sensor of the present invention. The touch sensor detects a user's touch input, generates a detection signal, and transmits it to the guardian control unit 360. In particular, when the guardian display unit 340 is formed of a touch screen, some or all of the functions of the guardian input unit 330 may be performed through the guardian display unit 340 .

The guardian storage unit 350 serves to store programs and data necessary for the operation of the guardian device 300 . In particular, the guardian storage unit 350 is an area where user data generated according to the use of the guardian device 300 is stored. Various kinds of data stored in the guardian storage unit 350 may be deleted, changed, or added according to a user's operation.

The guardian control unit 360 may control the overall operation of the guardian device 300 and the signal flow between the internal blocks 110 to 180 of the guardian device 300, and may perform a data processing function of processing data. The parental control unit 360 may be a central processing unit (CPU), a digital signal processor (DSP), or the like.

Next, a method for providing a child safety management service according to an embodiment of the present invention will be described. 5 is a flowchart illustrating a method for providing a child safety management service according to an embodiment of the present invention. 6 is a diagram for explaining a method for providing a child safety management service according to an embodiment of the present invention.

Referring to Figure 5, the pattern derivation module 131 of the service server 300 determines the behavior pattern based on the location information of the kids device 200 according to the unit time (UT) of the unit period (UD) in step S110. derive This unit period (UD) means a period from before a predetermined period to the current point in time (PT) based on the current point in time (PT) for deriving a behavior pattern. Also, the unit time UT means a unit dividing the unit period UD based on a predetermined time. At this time, the pattern derivation module 131 derives a behavior pattern including a movement model representing the location movement of the kids device 200 according to unit time and a place model representing the frequency of visits to the place of the kids device 300 . Derivation of these behavioral patterns will be described in more detail below.

Next, the abnormal diagnosis module 133 compares the position of the previously derived behavior pattern and the kids device 200 in step S120 to verify whether or not the location of the kids device 200 is abnormal.

As a result of the verification of step S120, if the location of the kids device 200 is verified to be normal, the pattern derivation module 131 updates the behavioral pattern by proceeding to step S110. Renewing a behavior pattern only changes the current point in time (PT) at which the behavior pattern is derived, and is the same as the method of generating the behavior pattern.

As a result of the verification in step S120, if the position of the kids device 200 is verified to be abnormal, it proceeds to step S130, and the abnormal diagnosis module 133 determines that the parent device 300 mapped to the kids device 200 is the kids device 200. It is checked whether it is within a preset range from In this step S130, the abnormal diagnosis module 133 receives the location information of the guardian device 300 from the guardian device 300, and then compares the location information of the guardian device 300 with the location information of the kids device 200. It is checked whether the guardian device 300 is within a predetermined range from the kids device 200 .

As a result of the check in step S130, if the guardian device 300 is not within a preset range from the kids device 200, the abnormal situation diagnosis module 133 sends the guardian device 300 through the communication module 110 in step S140. Sends a warning message indicating Accordingly, the guardian may be warned through the guardian device 300 . Then, the guardian can check the warning message through the guardian device 300 and take necessary measures. As such, according to the present invention, the guardian transmits a warning message only for non-regular location movement that has gone through several steps of verification, such as behavior patterns according to the movement model and place model and whether or not the guardian is in the same place. That is, a warning message is transmitted to the guardian device 300 only when there is a high probability that an actual problem will occur, and the number of unnecessary warning message transmissions can be reduced.

On the other hand, when the warning message is received, the guardian can check the actual location of the child and check whether it is normal. If it is confirmed that it is normal, the guardian may transmit a message indicating that it is normal through the guardian device 300 . Accordingly, the abnormality diagnosis module 133 checks whether a normal response is received in step S150, and if a normal response is received, proceeds to step S160 to reflect that the corresponding location is a safe place in the behavior pattern. On the other hand, when a normal response is not received, the abnormality diagnosis module 133 continuously tracks the location of the kids device 200 in step S170, and the kids tracked to the guardian device 300 through the communication module 110. The location of the device 200 is continuously provided.

Next, a behavior pattern derivation method according to an embodiment of the present invention will be described in detail. That is, the above-described step S110 will be described in more detail. 7 is a flowchart for explaining a method of deriving a thawing pattern according to an embodiment of the present invention.

As shown in FIG. 7 , the pattern derivation module 131 collects location information in step S210. At this time, the pattern derivation module 131 collects the location information of the kids device 200 for each predetermined unit period (UD) and for each predetermined unit time (UT). For example, the unit period UD may be one week, and the unit time UT may be one hour. In this case, the pattern derivation module 131 divides and collects location information on a weekly basis, a day of the week basis, and an hourly basis. In addition, location information of unit time (UT) may be extracted within a predetermined number of location information (latitude and longitude) of unit time in consideration of the time spent staying at the corresponding location, the amount of data traffic generated, and the number of times of data collection.

Next, the pattern derivation module 131 generates a movement model indicating a position corresponding to a unit time (UT) of the kids device 200 in step S220. At this time, the pattern derivation module 131 compares the location information of the kids device 200 of the same unit time (UT) in different unit periods (UD) and determines whether overlapping locations exist in each unit time (UT). The location corresponding to the unit time (UT) of the kids device 200 is determined.

For example, it is assumed that the unit period UD is one week and the unit time UT is one hour. Then, as described above, the pattern derivation module 131 is in a state in which location information is classified and collected on a weekly basis, a day basis, and an hourly basis. Then, the pattern derivation module 131 compares location information of the same time of different weeks.

For example, location information at 14:00 on Wednesday of the first week is compared with location information at 14:00 on Wednesday of the second week. As a result of the comparison, if the location information is the same, the score for the location information is +1. If, as a result of the comparison, the location information is not the same, the score for the corresponding location information is set to -1. Accordingly, if the score of the current point in time (PT) for deriving the pattern is 0 or less, the corresponding location information is deleted, and the location information for which the score of the current point in time (PT) for deriving the pattern is 1 or higher is stored as the location of the corresponding unit time. do.

For example, the generated movement model may be shown in Table 1 below.

Next, the pattern derivation module 131 generates a place model representing a main place where the visit frequency of the kids device 200 is equal to or greater than a predetermined reference value in step S230. At this time, the pattern derivation module 131 generates a plurality of location groups based on the location information of the kids device 200 collected in a predetermined unit of time, and then visits the number of elements of the generated location groups. It is set as a frequency, and a location where the frequency of visit is higher than a predetermined value is selected as the main place. Creation of these location groups may be made according to machine learning (machine learning) techniques.

The pattern derivation module 131 updates the movement model and the place model by repeating steps S210 to S230 described above every predetermined unit period. Therefore, as data accumulates, information on various places can be accumulated. Furthermore, places that have not been visited recently due to reasons such as moving are excluded from safe places.

Next, a method for verifying whether the location of the kids device 200 according to an embodiment of the present invention is abnormal will be described in more detail. That is, the above step S120 will be described in more detail. 8 is a flowchart for explaining a method of verifying whether a location of a kids device is abnormal according to an embodiment of the present invention.

Referring to Figure 8, the abnormal diagnosis module 133 obtains the location of the current time of the kids device 200 from the location information for the kids device 200 in step S310.

Then, the abnormal diagnosis module 133 determines whether the position of the current time of the kids device 200 is out of the position corresponding to the corresponding unit time of the moving model in step S320.

As a result of the determination in step S320, if it is determined that the position does not deviate from the corresponding unit time, the abnormal diagnosis module 133 proceeds to step S350 and determines that the position of the kids device 200 is normal.

On the other hand, as a result of the determination in step S320, if it is determined that it is out of the corresponding position of the unit time, the anomaly diagnosis module 133 proceeds to step S330 so that the position of the kids device 200 at the current time is the main place according to the place model. determine whether it belongs to

As a result of the determination in step S330, if it is determined that the current location of the kids device 200 belongs to the main place, the abnormal diagnosis module 133 proceeds to step S350 and determines that the location of the kids device 200 is normal.

As a result of the determination in step S330, if it is determined that the current location of the kids device 200 does not belong to the main place, the abnormal diagnosis module 133 proceeds to step S340 and determines that the location of the kids device 200 is abnormal.

Although this specification contains many specific implementation details, they should not be construed as limiting on the scope of any invention or what is claimed, but rather as a description of features that may be unique to a particular embodiment of a particular invention. It should be understood. Certain features that are described in this specification in the context of separate embodiments may also be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment can also be implemented in multiple embodiments individually or in any suitable subcombination. Further, while features may operate in particular combinations and are initially depicted as such claimed, one or more features from a claimed combination may in some cases be excluded from that combination, and the claimed combination is a subcombination. or sub-combination variations.

Similarly, while actions are depicted in the drawings in a particular order, it should not be construed as requiring that those actions be performed in the specific order shown or in the sequential order, or that all depicted actions must be performed to obtain desired results. In certain cases, multitasking and parallel processing can be advantageous. Further, the separation of various system components in the embodiments described above should not be understood as requiring such separation in all embodiments, and the program components and systems described may generally be integrated together into a single software product or packaged into multiple software products. You have to understand that you can.

Specific embodiments of the subject matter described herein have been described. Other embodiments are within the scope of the following claims. For example, the actions recited in the claims can be performed in a different order and still achieve desirable results. As an example, the processes depicted in the accompanying drawings do not necessarily require the specific depicted order or sequential order in order to obtain desirable results. In certain implementations, multitasking and parallel processing may be advantageous.

The present description presents the best mode of the invention and provides examples to illustrate the invention and to enable those skilled in the art to make and use the invention. The specification thus prepared does not limit the invention to the specific terms presented. Therefore, although the present invention has been described in detail with reference to the above-described examples, those skilled in the art may make alterations, changes, and modifications to the present examples without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but by the claims.

The present invention collects the location information of the kids device, derives a behavior pattern, verifies whether or not the location of the kids device is abnormal according to the behavior pattern, and sends a warning message to the guardian device when it is determined that an abnormality has occurred. Accordingly, manage the safety of children. Therefore, the present invention has industrial applicability because it is not only sufficiently commercially available or commercially viable, but also to the extent that it can be clearly practiced in reality.

10: communication network 100: service server
110: communication module 120: storage module
130: control module 131: pattern derivation module
133: Abnormal diagnosis module 200: Kids device
210: Kids Communication Department 220: Kids Location Information Department
230: Kids input unit 240: Kids display unit
250: kids storage unit 260: kids control unit
300: guardian device 310: guardian communication unit
320: guardian location information unit 330: guardian input unit
340: guardian display unit 350: guardian storage unit
360: parental control unit

Claims (12)

Deriving, by a pattern derivation module, a behavior pattern including a movement model representing a location movement pattern of each kid's device by time and a place model representing a visit frequency of the child's device;
Comparing the derived behavior pattern with the location of the kids device by the abnormality diagnosis module to verify whether or not the location of the kids device is abnormal;
If the abnormality diagnosis module verifies that the position of the kids device is abnormal as a result of the verification, checking whether the guardian device mapped to the kids device is within a preset range from the kids device; and
When the abnormality diagnosis module is not within the predetermined range as a result of the confirmation, transmitting a warning message informing of an abnormal situation to the guardian device; characterized in that it comprises a
Methods for providing child safety management services. According to claim 1,
The step of deriving the behavior pattern is
Generating, by the pattern derivation module, a movement model indicating a position corresponding to a unit time of the kids device; and
The pattern derivation module generating a place model for deriving a main place where the visit frequency of the kids device is equal to or greater than a predetermined reference value;
Methods for providing child safety management services. According to claim 2,
The step of generating the movement model is
Collecting, by the pattern derivation module, location information of the kids device for each predetermined unit period and unit time;
The pattern derivation module compares the location information of the kids device of the same unit time in different unit periods and determines a location corresponding to the unit time of the kids device according to whether there is an overlapping location in each unit time; characterized in that it includes
Methods for providing child safety management services. According to claim 2,
The step of creating the place model is
Characterized in that the pattern derivation module generates a plurality of location groups from the location information of the kids device collected during a predetermined unit period, and selects a location having a visit frequency of a predetermined value or more for the generated location group as a main place
Methods for providing child safety management services. According to claim 2,
The step of verifying whether there is an abnormality by comparing the behavior pattern with the location of the kids device
Determining, by the abnormality diagnosis module, whether the current time positions of the mobile model and the kids device deviate from a position corresponding to a unit time of the mobile model;
determining whether the location of the kids device belongs to a main place according to the place model, when it is determined that the abnormality diagnosis module deviate from the movement path according to the time as a result of the determination; and
And determining, by the abnormal diagnosis module, that the location of the kids device is abnormal if the location of the kids device does not belong to the main place as a result of the determination.
Methods for providing child safety management services. According to claim 1,
The step of deriving the behavior pattern is
Deriving, by the pattern derivation module, the behavioral pattern based on communication network location information for the kids device for a predetermined initial period after the service starts; and
After the initial period, the pattern derivation module deriving the behavior pattern based on the terminal measurement location information measured by the kids device; characterized in that it comprises a
Methods for providing child safety management services. A pattern derivation module for deriving a behavior pattern including a movement model representing a location movement pattern of each kid's device and a place model representing a visit frequency to a place of the kids device; and
The derived behavior pattern and the location of the kids device are compared to verify whether the location of the kids device is abnormal, and as a result of the verification, if the location of the kids device is verified to be abnormal, the guardian device mapped to the kids device It checks whether it is within a predetermined range from the kids device, and as a result of the check, if it is not within the predetermined range, an abnormality diagnosis module for transmitting a warning message informing of an abnormal situation to the guardian device; characterized in that it comprises a
A device for providing child safety management services. According to claim 7,
The pattern derivation module
Creating a movement model representing a position corresponding to a unit time of the kids device,
Characterized in that for generating a place model for deriving a main place where the visit frequency of the kids device is equal to or greater than a predetermined reference value
A device for providing child safety management services. According to claim 8,
The pattern derivation module
Collecting the location information of the kids device for each predetermined unit period and unit time,
Comparing the location information of the kids device of the same unit time in different unit periods to determine the location corresponding to the unit time of the kids device according to the presence or absence of overlapping locations in each unit time
A device for providing child safety management services. According to claim 8,
The pattern derivation module
Creating a plurality of location groups from the location information of the kids devices collected during a predetermined unit period, and selecting a location where the frequency of visits to the created location group is equal to or greater than a predetermined value as the main place
A device for providing child safety management services. According to claim 8,
The abnormal diagnosis module
Determining whether the current time positions of the movement model and the kids device deviate from a position corresponding to a unit time of the movement model;
As a result of the determination, if it is determined that it is out of the movement path according to the time, it is determined whether the location of the kids device belongs to a main place according to the place model,
As a result of the determination, if the location of the kids device does not belong to the main place, it is characterized in that the location of the kids device is determined to be abnormal.
A device for providing child safety management services. According to claim 7,
The pattern derivation module
After starting the service, the behavior pattern is derived based on the communication network location information for the kids device for a predetermined initial period,
Characterized in that the pattern derivation module derives the behavior pattern based on the terminal measurement location information for the kids device to measure after the initial period
A device for providing child safety management services.

Images