KR102463914B1 - System for kids' safety attendance and absence and thereof - Google Patents

Abstract

The purpose of the present invention is to provide a system for checking the safety of kids in going to and coming from kindergarten and a using method thereof, wherein whether a guide teacher and kids are safely going to and coming from kindergarten can be monitored and checked when using a kid guide service in going to and coming from kindergarten. To achieve the purpose, the system for checking the safety of kids in going to and coming from kindergarten according to the present invention comprises: a plurality of user terminals for requesting a kid guide service in going to and coming from kindergarten; a plurality of guide terminals for providing the location of a guide to guide kids in going to and coming from kindergarten in person; and a server for matching the plurality of user terminals with the plurality guide terminals while providing the kid guide service in going to and coming from kindergarten.

Description

SYSTEM FOR KIDS' SAFETY ATTENDANCE AND ABSENCE AND THEREOF

The present invention relates to a system for safe commuting of infants and toddlers and a method of using the same, and more particularly, to a system for safe commuting and dropping of infants and toddlers, and a method of using the same, which can monitor whether infants and toddlers who are going to and from the school safely go to and from the school together with a guide teacher.

In general, daycare centers are facilities that care for and raise preschool children, and when the guardians of children are unable to take care of children, they are entrusted by the guardians to provide childcare.

In recent years, such crimes or violence against children in daycare centers, preschools, or kindergartens are constantly occurring, and the safety of children's commuting to school is required.

Therefore, parents are always keeping a close eye on the safe transportation of young children to and from educational facilities.

On the other hand, as the number of dual-income earners in which both parents are engaged in economic activities recently increases, there is a time constraint on the arrival and departure of children from daycare centers, preschools, or kindergartens.

For example, in the case of educational facilities that have school buses, a school bus can be used to transport young children to and from school. However, for parents who do not own a school bus or cannot meet the bus schedule, it is easy to safely transport young children to and from school. There was a problem that didn't happen.

In addition, relatives (eg grandparents) or acquaintances of the parents of infants and toddlers direct their children to and from educational facilities in order to safely transport their infants and toddlers to and from parents who are limited by time. There was also a problem in that it was not easy to directly transport infants and young children to and from the school due to time constraints.

Therefore, there is a need for a system capable of safely commuting infants and young children who do not use school buses to and from educational facilities and monitoring whether infants and young children are safely commuting to and from educational facilities.

Republic of Korea Patent Publication No. 10-2015-0062600 (published on Aug. 8, 2015)

An object of the present invention to solve the conventional problems as described above is to provide a safe infant and toddler commuting system and a method of using the same, which can monitor and confirm whether the guide teacher and infants are safely commuting when using the infant commuting service. will be.

In order to achieve the above object, the infant safety commuting system according to the present invention, a plurality of user terminals for requesting infants and toddlers commuting service; A plurality of guide terminals that provide the location of the guide to direct infants and toddlers to and from; and a server that matches the plurality of user terminals and the plurality of guide terminals as well as providing the infant and toddler drop-off service.

In addition, in the infant safety commuting system according to the present invention, the server includes a data receiving unit for receiving request data for requesting an infant commuting service from the user terminal, and a departure point or destination for infants and toddlers. It is characterized in that it comprises a data matching unit for matching and recommending the guide by providing information on the guide to the user terminal.

In addition, in the infant and toddler safety commuting and dropping system according to the present invention, the server includes: a movement path for infants and toddlers; a data storage unit for storing the frequency of use of the infant and toddler transportation service; It characterized in that it comprises a data learning unit for learning by receiving data, and a map generation unit for providing the predicted movement path of the infant to the user terminal through the learning completed AI information.

In addition, in the infant safety commuting system according to the present invention, the server comprises an alarm unit that provides an alarm to the guide terminal when an event occurs, and a push unit that provides the contents of the event as a message to the user terminal. do it with

In addition, in the infant safety commuting system according to the present invention, the guide terminal includes an accelerometer for measuring the movement speed of the infant, and the accelerometer measures the speed change of the infant outside a predetermined range. It is characterized in that it provides an alarm for.

In order to achieve the above object, the method of using the infant and toddler safety commuting system according to the present invention includes a first step of requesting an infant commuting service by a plurality of user terminals; a second step in which the location of the guide is provided to the server by a plurality of guide terminals in order to directly transport infants and toddlers; and a third step of matching the plurality of user terminals and the plurality of leader terminals by the server.

In addition, in the method of using the infant safety commuting system according to the present invention, the server receives, by the data receiving unit, request data for requesting the infant commuting service from the user terminal, and a departure or destination for infants and toddlers. It is characterized in that the information on the guide located in the vicinity is provided to the user terminal by the data matching unit to recommend and match the guide.

In addition, in the method of using the infant and toddler safety drop-off system according to the present invention, the server stores, by a data storage unit, a movement path of infants and toddlers and a frequency of use of the infant/child transportation service by a data storage unit, and in the data storage unit It is characterized in that it receives the stored movement path data and learns it by the data learning unit, and provides the predicted movement path of the infant through the learning completed AI information to the user terminal by the map generation unit.

In addition, in the method of using the infant safety commuting system according to the present invention, the server provides an alarm to the leader terminal by an alarm unit when an event occurs, and sends the contents of the event to the user terminal as a message by the push unit. It is characterized by providing.

In addition, in the method of using the infant safety commuting system according to the present invention, the guide terminal measures the moving speed of the infant by an accelerometer, and the accelerometer measures the speed change of the infant outside a predetermined range. It is characterized in that it provides an alarm about the change.

Specific details of other embodiments are included in "Details for carrying out the invention" and attached "drawings".

Advantages and/or features of the present invention, and methods for achieving them, will become apparent with reference to various embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the configuration of each embodiment disclosed below, but may also be implemented in a variety of different forms, and each embodiment disclosed herein only makes the disclosure of the present invention complete, It is provided to fully inform those of ordinary skill in the art to which the scope of the present invention belongs, and it should be understood that the present invention is only defined by the scope of each of the claims.

According to the present invention, there is an effect that can be checked by monitoring whether the guide teacher and the infant are safely getting to and from the school when using the infant and toddler drop-off service.

1 is a block diagram showing the overall configuration of an infant safety commuting system according to the present invention.
2 is a block diagram showing a detailed configuration of a server of the infant safety commuting system according to the present invention.
3 is a flow chart showing the overall flow of the method for the safety of infants and toddlers according to the present invention.

Before describing the present invention in detail, the terms or words used herein should not be construed as being unconditionally limited to their ordinary or dictionary meanings, and in order for the inventor of the present invention to describe his invention in the best way It should be understood that the concepts of various terms can be appropriately defined and used, and further, these terms or words should be interpreted as meanings and concepts consistent with the technical idea of the present invention.

That is, the terms used in this specification are only used to describe preferred embodiments of the present invention, and are not used for the purpose of specifically limiting the content of the present invention, and these terms represent various possibilities of the present invention. It should be noted that the term has been defined with consideration in mind.

Also, in this specification, it should be understood that, unless the context clearly indicates otherwise, the expression in the singular may include a plurality of expressions, and even if it is similarly expressed in plural, it should be understood that the meaning of the singular may be included. .

In the case where it is stated throughout this specification that a component "includes" another component, it does not exclude any other component, but further includes any other component unless otherwise indicated. It could mean that you can.

Furthermore, when it is described that a component is "exists in or is connected to" of another component, this component may be directly connected or installed in contact with another component, and a certain It may be installed spaced apart by a distance, and in the case of being installed spaced apart by a certain distance, a third component or means for fixing or connecting the corresponding component to another component may exist, and now It should be noted that the description of the components or means of 3 may be omitted.

On the other hand, when it is described that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the third element or means does not exist.

Likewise, other expressions describing the relationship between components, such as "between" and "immediately between", or "adjacent to" and "directly adjacent to", have the same meaning. should be interpreted as

In addition, if terms such as "one side", "other side", "one side", "other side", "first", "second" are used in this specification, with respect to one component, this one component is It is used to be clearly distinguished from other components, and it should be understood that the meaning of the component is not limitedly used by such terms.

In addition, in this specification, terms related to positions such as "upper", "lower", "left", "right", etc., if used, should be understood as indicating a relative position in the drawing with respect to the corresponding component, Unless an absolute position is specified for their position, these position-related terms should not be construed as referring to an absolute position.

In addition, in this specification, in specifying the reference numerals for each component of each drawing, the same component has the same reference number even if the component is indicated in different drawings, that is, the same reference is made throughout the specification. The symbols indicate the same components.

In the drawings attached to this specification, the size, position, coupling relationship, etc. of each component constituting the present invention are partially exaggerated, reduced, or omitted for convenience of explanation or in order to sufficiently clearly convey the spirit of the present invention. may be described, and thus the proportion or scale may not be exact.

In addition, in the following, in describing the present invention, a detailed description of a configuration determined that may unnecessarily obscure the subject matter of the present invention, for example, a detailed description of a known technology including the prior art may be omitted.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the related drawings.

1 is a block diagram showing the overall configuration of the infant and toddler safety commuting system according to the present invention.

Referring to FIG. 1 , the infant safety commuting system 1000 according to the present invention includes a plurality of user terminals 100 , a server 200 , and a plurality of guide terminals 300 .

Here, the plurality of user terminals 100 includes each of the user terminals 100-1, 100-2, ... 100-N.

Similarly, the plurality of leader terminals 300 includes respective leader terminals 300-1, 300-2, ... 300-N.

In the present invention, for ease of explanation, the plurality of user terminals 100 may be described as user terminals, or the plurality of leader terminals 300 may be described as guide terminals.

That is, when each user terminal (100-1, 100-2, ... 100-N) exchanges data with the server 200, each user terminal (100-1, 100-2, ... 100-N) can be described as the user terminal 100 .

Similarly, when each of the leader terminals (300-1, 300-2, ... 300-N) exchanges data with the server 200, each of the leader terminals (300-1, 300-2, ... 300-N) can be described as the guide terminal 300 .

The plurality of user terminals 100 serve to request a service for infants and toddlers.

Here, the infant and toddler drop-off service refers to a service that enables the guide teacher and infants to safely drop off and drop off from the departure point to the destination, as well as monitor and confirm whether infants are safely dropped off.

The plurality of guide terminals 300 serve to provide the location of the guide in order to directly transport infants to and fro.

In this case, the server 200 provides a guide located at the shortest distance from the location of the plurality of user terminals 100 or infants using the infant and toddler drop-off service.

Thereby, a plurality of user terminals 100 using the infants and toddlers drop off service can quickly use the infants and toddlers drop off service without waiting for a long time.

The server 200 provides services for infants and toddlers to a plurality of user terminals 100 and a plurality of guide terminals 300 , respectively.

In this case, the server 200 provides an app having a function that allows a plurality of user terminals 100 to request a service for infants and toddlers.

In addition, the server 200 provides an app having a function that allows the plurality of guide terminals 300 to provide the location of the guide to get infants and toddlers to and from the school.

In addition, the server 300 includes a function of matching the plurality of user terminals 100 and the plurality of guide terminals 300 .

On the other hand, the plurality of user terminals 100 and the plurality of leader terminals 300 communicate with the server 200 through a plurality of wireless communication, respectively.

Here, the plurality of user terminals 100 and the plurality of leader terminals 300 are input/output devices for the user to communicate with the server 200 , and may be a PC, a notebook computer, a tablet PC, a smart phone, or the like.

In addition, wireless communication includes, in addition to a Wifi module and a wireless broadband module, GSM (global System for Mobile Communication), CDMA (Code Division Multiple Access), WCDMA (Wideband Code Division Multiple Access), UMTS (universal mobile telecommunications) system), Time Division Multiple Access (TDMA), Long Term Evolution (LTE), and the like, may be implemented by a wireless communication module supporting various wireless communication methods.

With this configuration, infants and toddlers can safely go to and from school with their guide.

This will be described in more detail with reference to FIGS. 2 and 3 .

2 is a block diagram showing the detailed configuration of the server of the infant safety commuting system according to the present invention.

Referring to FIG. 2 , the server 200 of the infant safety commuting system 1000 according to the present invention includes a data receiving unit 210 , a data matching unit 220 , a data learning unit 230 , and a data storage unit. 240 , a control unit 250 , an alarm unit 260 , a push unit 270 , a map generation unit 280 , and a monitoring unit 290 .

The data receiving unit 210 receives request data for requesting a service for infants and toddlers from the plurality of user terminals 100 .

The data matching unit 220 provides information on guides located near the departure or destination for infants and toddlers to the plurality of user terminals 100 to recommend and match the guides.

In this case, it is preferable that the data matching unit 220 provides information about a guide located near the shortest distance to the departure point or arrival point for infants and toddlers to the plurality of user terminals 100 .

The data storage unit 240 stores the movement path of infants and toddlers and the frequency of use of services for infants and toddlers.

The data learning unit 230 serves to receive and learn the movement path data stored in the data storage unit 240 as described above.

The data learning unit 230 generates a data set from data related to the movement path of infants and toddlers stored in the data storage unit 240 and performs machine learning based on the generated data set to generate an artificial intelligence model. may include

The data learning unit 230 may first generate an artificial intelligence model using a data set generated from data related to the movement path of infants and young children, and then store the generated artificial intelligence model in the data storage unit 240 .

Algorithms used for artificial intelligence are stored in the data learning unit 230, and it is preferable to use, for example, artificial neural networks or fuzzy neural networks.

In particular, it is preferable that an algorithm for natural language processing is stored in the data learning unit 230 .

Artificial neural networks are divided into several types according to their structures and functions, and the most common artificial neural network is a multilayer perceptron with a plurality of hidden layers between one input layer and an output layer.

The artificial neural network may be implemented through the data learning unit 230, and is a form in which several neurons, which are basic computing units, are connected by a weighted link, and the weighted link is weighted to adapt to a given environment. can be adjusted.

Artificial neural networks include, but are not limited to, various models such as a self-organizing map (SOM), a recurrent neural network (RNN), and a convolutional neural network (CNN).

A fuzzy neural network is a system that uses the learning ability of a neural network to verbally express rules or update new rules in a knowledge base.

When the fuzzy neural network is used in the present invention, rules are defined to calculate items of movement path measurement of infants and toddlers, driving factors to achieve a target movement path, or a predicted value predicted by comparing the actual movement path with the predicted movement path. can be used

Through the map generator 280, which will be described later, data processing for calculating the optimal moving path condition by analyzing, analyzing, or predicting moving path data and moving path data provided through the artificial intelligence model stored in the data storage unit 240 will perform

On the other hand, the data storage unit 240 stores the frequency of use of the service for infants and toddlers.

According to the frequency of use of the stored infant and toddler drop-off service, the user terminal 100 and the guide terminal 300 may be matched with priority as the user terminals that use the infant/toddler drop-off service more frequently.

This may be a concept of a service provided to the user terminal 100 that uses a large number of services for infants and toddlers.

In addition, the data learning unit 230 compares the moving path prediction data provided through the artificial intelligence model with the actual moving path related data received by the data receiving unit 210 to provide the best moving path for infants and toddlers.

On the other hand, the data learning unit 230 may select a threat area from the movement path of infants and toddlers at the time of commuting to and from school, and may provide a movement path excluding the threat area.

Here, the threat area refers to an area in which entertainment districts that are unnecessary for infants and young children are concentrated.

Accordingly, the data learning unit 230 provides the best travel route for infants and toddlers excluding these threatened areas.

The map generator 280 provides the predicted movement path of infants and toddlers to the plurality of user terminals 100 through the AI information on which learning has been completed.

In addition, in the infant safety commuting system 1000 according to the present invention, the server 200 includes an alarm unit 260 and a push unit 270 .

The alarm unit 260 provides an alarm to the plurality of leader terminals 100 when an event occurs.

In addition, the push unit 270 provides the contents of the generated event to the plurality of user terminals 100 as a message.

The content of such an event may occur when a plurality of user terminals 100 check or pay for the infant and toddler safety drop-off service.

In addition, for the safety of infants and toddlers, the contents of the event include assignment of a leader through a plurality of leader terminals 300 , movement of a plurality of leader terminals 300 , and departure and It could be arrival.

Meanwhile, in the infant safety commuting system 1000 according to the present invention, the plurality of guide terminals 300 may include an accelerometer for measuring the moving speed of the infant.

Such an accelerometer includes an acceleration within a predetermined range corresponding to the moving speed of the infant.

However, when the accelerometer measures the speed change of the infant outside the predetermined range, an alarm about the speed change is provided to the alarm unit 260 .

Thereby, the plurality of user terminals 100 receive an event according to the speed change of the corresponding infant by the push unit 270 of the server 200, and the corresponding infant or toddler's The cause of the speed change can be identified.

Such changes in the speed of infants and young children include the speeding of the guide to get the infant to and from the child quickly, or the infant during the transportation to and from the environment (for example, a stationery store, a toy store, a mart, etc.) If you want to experience the environment, etc.

Since this may act as a factor that interferes with the safe commuting of infants and young children, the plurality of user terminals 100 send messages or smartphone calls for safe commuting of infants and young children through the plurality of guide terminals 300 when confirming the event. will use

On the other hand, the predicted movement path of infants and toddlers is provided to the plurality of user terminals 100 through the AI information that has been learned by the map generator 280, and the plurality of user terminals 100 use the corresponding predicted movement path. When a request for safe commuting of infants to and from school is requested, the server 200 causes the infants to go to and from school through the predicted movement path corresponding to the plurality of guide terminals 300 .

At this time, when the plurality of guide terminals 300 deviate from the predicted movement path, the alarm unit 260 of the server 200 provides an alarm indicating that the predicted movement path deviated to the plurality of user terminals 100 . .

Since this may act as a factor that interferes with the safe commuting of infants and young children, the plurality of user terminals 100 send messages or smartphone calls for safe commuting of infants and young children through the plurality of guide terminals 300 when confirming the event. will use

In addition, the monitoring unit 290 provides a function of integrating and checking the events that occurred in real time so that the plurality of user terminals 100 can check the safe commuting of infants and young children.

In addition, data that can confirm basic information of a guide corresponding to a plurality of guide terminals 300 is provided to the plurality of user terminals 100 , and data such as a plurality of guide terminals 300 and the movement paths of infants and children may be provided to a plurality of user terminals 100 .

On the other hand, the plurality of user terminals 100 may control (relay) the movement path of the infant in real time.

In addition, the control unit 250 includes a data receiving unit 210 , a data matching unit 220 , a data learning unit 230 , a data storage unit 240 , an alarm unit 260 , and a push unit 270 . And, it serves to control the map generator 280 and the monitoring unit 290, respectively.

Meanwhile, in the infant safety commuting system 1000 according to the present invention, infants may include a wireless communication module.

Such a wireless communication module may use various wireless communication, but preferably may use a beacon.

As such, infants and toddlers contain beacons.

Such a beacon is a device that periodically transmits a specific signal to transmit location information.

Therefore, when the child is abducted or lost due to separation from the guide, the data control unit 250 of the server 200 identifies the location of the lost infant through the beacon, and identifies the location of the lost infant The push unit 270 of the server 200 provides basic information about infants and toddlers who are lost to a plurality of user terminals 100 using the infant safety commuting system as seen within the radius distance of the corresponding beacon.

As described above, the plurality of user terminals 100 that receive basic information on lost infants within the radius of the beacon as a push message more quickly and easily finds nearby lost infants, or Information for finding infants and toddlers can be quickly shared among a plurality of user terminals 100 .

Thereby, there is an effect of quickly discovering lost infants.

3 is a flow chart showing the overall flow of the method for safe arrival and departure of infants and toddlers according to the present invention.

Referring to FIG. 3 , the method of using the infant safety commuting system 1000 according to the present invention includes a total of three steps.

In the first step ( S100 ), a service for infants and toddlers is requested to the server 200 by the plurality of user terminals 100 .

In the second step (S200), the location of the guide is provided to the server 200 by the plurality of guide terminals 300 to directly transport infants and young children to and from the school.

In the third step (S300), the plurality of user terminals 100 and the plurality of leader terminals 300 are matched by the server 200 .

The infant and toddler safety commuting method includes a data receiving unit 210 , a data matching unit 220 , a data learning unit 230 , a data storage unit 240 , a control unit 250 , and an alarm unit 260 . It is implemented by the server 200 of the infant safety commuting system 1000 including the push unit 270 , the map generation unit 280 , and the monitoring unit 290 .

The server 200 receives, by the data receiving unit 210 , the request data for requesting the infant and toddler drop-off service from the plurality of user terminals 100 .

In addition, the data matching unit 220 provides information on a guide located near the departure or destination for infants and toddlers to the plurality of user terminals 100 to recommend and match the guide.

In this case, it is preferable that the data matching unit 220 provides information about a guide located near the shortest distance to the departure point or arrival point for infants and toddlers to the plurality of user terminals 100 .

In addition, in the method of using the infant and toddler safety drop-off system according to the present invention, the server 200 stores the movement path of infants and toddlers and the frequency of use of the infant/child drop-off service by the data storage unit 240, and stores the data. The moving path data stored in the unit 240 is provided and learned by the data learning unit 230, and the predicted moving path of infants and young children through the AI information on which the learning is completed is calculated by the map generating unit 280 to a plurality of user terminals ( 100) is provided.

The data storage unit 240 stores the movement path of infants and toddlers and the frequency of use of services for infants and toddlers.

The data learning unit 230 serves to receive and learn the movement path data stored in the data storage unit 240 as described above.

At this time, as described above, the data learning unit 230 generates a data set from data related to the moving path of infants and toddlers stored in the data storage unit 240 , and performs machine learning based on the generated data set to perform artificial It may include a unit for generating an intelligence model.

The data learning unit 230 may first generate an artificial intelligence model using a data set generated from data related to the movement path of infants and young children, and then store the generated artificial intelligence model in the data storage unit 240 .

Algorithms used for artificial intelligence are stored in the data learning unit 230, and it is preferable to use, for example, artificial neural networks or fuzzy neural networks.

In particular, it is preferable that an algorithm for natural language processing is stored in the data learning unit 230 .

Artificial neural networks are divided into several types according to their structures and functions, and the most common artificial neural network is a multilayer perceptron with a plurality of hidden layers between one input layer and an output layer.

The artificial neural network may be implemented through the data learning unit 230, and is a form in which several neurons, which are basic computing units, are connected by a weighted link, and the weighted link is weighted to adapt to a given environment. can be adjusted.

Artificial neural networks include, but are not limited to, various models such as a self-organizing map (SOM), a recurrent neural network (RNN), and a convolutional neural network (CNN).

A fuzzy neural network is a system that uses the learning ability of a neural network to verbally express rules or update new rules in a knowledge base.

When the fuzzy neural network is used in the present invention, rules are defined to calculate items of movement path measurement of infants and toddlers, driving factors to achieve a target movement path, or a predicted value predicted by comparing the actual movement path with the predicted movement path. can be used

Through the map generator 280, which will be described later, data processing for calculating the optimal moving path condition by analyzing, analyzing, or predicting moving path data and moving path data provided through the artificial intelligence model stored in the data storage unit 240 will perform

On the other hand, the data storage unit 240 stores the frequency of use of the service for infants and toddlers.

According to the frequency of use of the stored infant and toddler drop-off service, the user terminal 100 and the guide terminal 300 may be matched with priority as the user terminals that use the infant/toddler drop-off service more frequently.

This may be a concept of a service provided to the user terminal 100 that uses a large number of services for infants and toddlers.

In addition, the data learning unit 230 compares the moving path prediction data provided through the artificial intelligence model with the actual moving path related data received by the data receiving unit 210 to provide the best moving path for infants and toddlers.

On the other hand, the data learning unit 230 may select a threat area from the movement path of infants and toddlers at the time of commuting to and from school, and may provide a movement path excluding the threat area.

Here, the threat area refers to an area in which entertainment districts that are unnecessary for infants and young children are concentrated.

Accordingly, the data learning unit 230 provides the best travel route for infants and toddlers excluding these threatened areas.

The map generator 280 provides the predicted movement path of infants and toddlers to the plurality of user terminals 100 through the AI information on which learning has been completed.

In addition, in the method of using the infant safety commuting system according to the present invention, the server 200 provides an alarm to the plurality of leader terminals 260 by the alarm unit 260 when an event occurs, and pushes the contents of the event to the push unit ( 270) as a message to the plurality of user terminals 100.

That is, in the infant safety commuting system 1000 according to the present invention, the server 200 includes an alarm unit 260 and a push unit 270 .

The alarm unit 260 provides an alarm to the plurality of leader terminals 100 when an event occurs.

In addition, the push unit 270 provides the contents of the generated event to the plurality of user terminals 100 as a message.

The content of such an event may occur when a plurality of user terminals 100 check or pay for the infant and toddler safety drop-off service.

In addition, for the safety of infants and toddlers, the contents of the event include assignment of a leader through a plurality of leader terminals 300 , movement of a plurality of leader terminals 300 , and departure and It could be arrival.

On the other hand, in the method of using the infant safety commuting system according to the present invention, the plurality of guide terminals 100 measure the moving speed of the infant by an accelerometer, and the accelerometer is an alarm when measuring the speed change of the infant outside a predetermined range The unit 260 provides an alarm for speed changes.

Such an accelerometer includes an acceleration within a predetermined range in response to the moving speed of the infant.

However, when the accelerometer measures the speed change of the infant outside the predetermined range, an alarm about the speed change is provided to the alarm unit 260 .

Thereby, the plurality of user terminals 100 receive an event according to the speed change of the corresponding infant by the push unit 270 of the server 200, and the corresponding infant or toddler's The cause of the speed change can be identified.

Such changes in the speed of infants and young children include the speeding of the guide to get the infant to and from the child quickly, or the infant during the transportation to and from the environment (for example, a stationery store, a toy store, a mart, etc.) If you want to experience the environment, etc.

Since this may act as a factor that interferes with the safe commuting of infants and young children, the plurality of user terminals 100 send messages or smartphone calls for safe commuting of infants and young children through the plurality of guide terminals 300 when confirming the event. will use

In addition, the monitoring unit 290 provides a function of integrating and checking the events that occurred in real time so that the plurality of user terminals 100 can check the safe commuting of infants and young children.

In addition, data for confirming basic information of a guide corresponding to the plurality of guide terminals 300 may be provided, and data such as movement paths of the plurality of guide terminals 300 and infants and children may be provided.

In addition, the control unit 250 includes a data receiving unit 210 , a data matching unit 220 , a data learning unit 230 , a data storage unit 240 , an alarm unit 260 , and a push unit 270 . And, it serves to control the map generator 280 and the monitoring unit 290, respectively.

Meanwhile, in the method of using the infant safety commuting system according to the present invention, infants may include a wireless communication module.

Such a wireless communication module may use various wireless communication, but preferably may use a beacon.

As such, infants and toddlers contain beacons.

Such a beacon is a device that periodically transmits a specific signal to transmit location information.

Therefore, when the child is abducted or lost due to separation from the guide, the data control unit 250 of the server 200 identifies the location of the lost infant through the beacon, and identifies the location of the lost infant The push unit 270 of the server 200 provides basic information about infants and toddlers who are lost to a plurality of user terminals 100 using the infant safety commuting system as seen within the radius distance of the corresponding beacon.

As described above, the plurality of user terminals 100 that receive basic information on lost infants within the radius of the beacon as a push message more quickly and easily finds nearby lost infants, or Information for finding infants and toddlers can be quickly shared among a plurality of user terminals 100 .

Thereby, there is an effect of quickly discovering lost infants.

As described above, according to the present invention, there is an effect of monitoring and confirming whether the guide teacher and the infant are safely arriving and departing when using the infant and toddler drop-off service.

In the above, although several preferred embodiments of the present invention have been described with some examples, the descriptions of various various embodiments described in the "Specific Contents for Carrying Out the Invention" item are merely exemplary, and the present invention Those of ordinary skill in the art will understand well that the present invention can be practiced with various modifications or equivalents to the present invention from the above description.

In addition, since the present invention can be implemented in various other forms, the present invention is not limited by the above description, and the above description is intended to complete the disclosure of the present invention, and is generally It should be understood that this is only provided to fully inform those with knowledge of the scope of the present invention, and that the present invention is only defined by each of the claims.

100: a plurality of user terminals
100-1, 100-2, … 100-N: user terminal
200 : server
210: data receiving unit
220: data matching unit
230: data learning unit
240: data storage unit
250: control unit
260: alarm unit
270: push part
280: map generation unit
290: monitoring unit
300: a plurality of guide terminals
300-1, 300-2, … 300-N: Leader terminal
1000: Infant safety drop-off system

Claims (10)

A plurality of user terminals requesting a service for infants and toddlers;
A plurality of guide terminals that provide the location of the guide to direct infants and toddlers to and from; and
A server that provides the infant and toddler drop-off service and matches a plurality of user terminals and a plurality of guide terminals; includes,
The server is
A data matching unit for recommending and matching the guide by providing information on the guide located near the departure or destination for infants and toddlers to the user terminal,
The data matching unit is characterized in that it provides information on a guide located near the shortest distance to the departure point or destination for infants and toddlers to a plurality of user terminals,
Infant safety commuting system.
The method of claim 1,
The server is
It characterized in that it comprises a data receiving unit for receiving the request data for requesting the service for infants and toddlers from the user terminal,
Infant safety commuting system.
The method of claim 1,
The server is
A data storage unit for storing the movement path of infants and toddlers and the frequency of use of the service for infants and toddlers;
a data learning unit for receiving and learning the movement path data stored in the data storage unit;
It characterized in that it comprises a map generator for providing the predicted movement path of the infant to the user terminal through the learning completed AI information,
Infant safety commuting system.
The method of claim 1,
The server is
An alarm unit that provides an alarm to the leader terminal when an event occurs,
Characterized in that it comprises a push unit that provides the content of the event to the user terminal as a message,
Infant safety commuting system.
5. The method of claim 4,
The guide terminal includes an accelerometer for measuring the movement speed of infants and toddlers,
The accelerometer is characterized in that it provides an alarm about the speed change to the alarm unit when measuring the speed change of infants and young children outside a predetermined range,
Infant safety commuting system.
A first step of requesting a service for infants and toddlers by a plurality of user terminals;
a second step in which the location of the guide is provided to the server by a plurality of guide terminals in order to directly transport infants and toddlers; and
A third step of matching the plurality of user terminals and the plurality of guide terminals by the server;
The server is
A data matching unit for recommending and matching the guide by providing information on the guide located near the departure or destination for infants and toddlers to the user terminal,
The data matching unit is characterized in that it provides information on a guide located near the shortest distance to the departure point or destination for infants and toddlers to a plurality of user terminals,
How to use the infant and toddler safe drop-off system.
7. The method of claim 6,
The server is
Characterized in that the data receiving unit receives the request data for requesting the service for infants and toddlers from the user terminal,
How to use the infant and toddler safe drop-off system.
7. The method of claim 6,
The server is
The data storage unit stores the movement path of infants and toddlers and the frequency of use of the infants and toddlers service,
It receives the movement path data stored in the data storage unit and learns it by the data learning unit,
Characterized in providing the predicted movement path of the infant through the learning AI information to the user terminal by the map generator,
How to use the infant and toddler safe drop-off system.
7. The method of claim 6,
The server is
When an event occurs, an alarm is provided to the leader terminal by the alarm unit,
characterized in that the content of the event is provided to the user terminal as a message by a push unit,
How to use the infant and toddler safe drop-off system.
10. The method of claim 9,
The guide terminal measures the moving speed of the infant by the accelerometer,
The accelerometer is characterized in that it provides an alarm about the speed change to the alarm unit when measuring the speed change of infants and young children outside a predetermined range,
How to use the infant and toddler safe drop-off system.

Images