KR20160114959A

KR20160114959A - Intelligent safty system based on lbs and method thereof

Info

Publication number: KR20160114959A
Application number: KR1020150041503A
Authority: KR
Inventors: 백현일; 황해연; 이혁
Original assignee: 주식회사 엠앤엘솔루션
Priority date: 2015-03-25
Filing date: 2015-03-25
Publication date: 2016-10-06

Abstract

The present invention aims at predicting and setting a moving route and a moving time, and continuously checking the movement patterns of the moving interval and the user movement patterns of the moving time to provide prompt confirmation in the event of a dangerous situation, thereby enabling active response. For this purpose, a destination and a transportation means are set, the destination and transportation means are informed to a server, the moving route information and the moving time information are received from the server to set destination moving situation information, A user terminal for comparing with the generated destination moving situation information to determine whether there is an abnormal situation; And a server receiving the destination and the transportation means from the user terminal and generating movement route information and movement time information to the destination through the transportation means with reference to the real time traffic information and providing the movement route information to the user terminal, Based intelligent safety system is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an intelligent safety system based on LBS,

The present invention relates to an LBS-based intelligent safety system and a method thereof, and more particularly, to a LBS-based intelligent safety system and a method thereof. More particularly, when route information to a destination is set, And a system and method for notifying the guardian of the abnormal situation information immediately.

With the development of mobile communication technology and related technologies, recent mobile terminals are acting as a comprehensive information medium which can transmit and receive multimedia data through a wireless Internet or a portable Internet, out of the category of simple communication means.

In particular, recently, a location based service (LBS) has been attracting attention, in which a current position of a holder is identified using a characteristic that the user always carries and then a predetermined service is provided.

Such location-based services include services for providing traffic information and map information in neighboring areas, friend finding services, and emergency relief services.

In order to provide the location-based service, the current position of the mobile terminal must be accurately determined, and a GPS (Global Positioning System) method is mainly used for the position determination method.

The GPS method is a method in which a mobile terminal incorporating a GPS receiver determines the position of a mobile terminal using GPS signals transmitted from at least four GPS satellites and has a much higher accuracy than a cell-based method.

In recent years, as children's interest in safety has increased, there has been an increasing need for services that can identify their children's dynamics. As a result, Services were also introduced.

However, there is a problem that parents or guardians can not confirm whether or not their children are moving properly from outside of school or school with these services alone.

In order to solve the problems of the related art, the present invention predicts and sets a moving route and a moving time, continuously checks user movement patterns of a moving time interval and a moving time, The goal is to make it possible.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, there is provided a method of setting destination and transportation means, notifying the server of destination and transportation means, receiving travel route information and moving time information from the server, setting destination moving situation information, A user terminal for generating movement route information and comparing the movement route information with the set destination movement state information to determine whether an abnormal situation exists; And a server receiving the destination and the transportation means from the user terminal and generating movement route information and movement time information to the destination through the transportation means with reference to the real time traffic information and providing the movement route information to the user terminal, Based intelligent safety system is provided.

The user terminal includes a destination registration manager for storing GPS position information and WIFI radio information, setting and registering destination information using the GPS position information and the WIFI radio information, A communication unit for transmitting the information on the means to the server and receiving the movement route information and the movement time information from the server and a user position information generating unit for generating user position information using GPS or WIFI radio information; A destination movement information setting and analyzing unit for setting destination movement state information using the movement route information and the movement time information and analyzing movement information for each section of the movement path to the destination using the user position information; And a controller for comparing the user position information measured by the user position information generator with the destination information and switching the position measurement related function to a UNABLE state when it is determined that the user has arrived at a destination, can do.

Here, the controller may determine whether an abnormal situation is caused by using the movement information for each section of the movement path from the analysis unit to the destination moving state information setting unit and the analyzed unit. If the abnormal condition is determined, And transmits the LBS-based intelligent safety system to the guardian terminal.

Here, the user location information generation unit may include a GPS module and a WIFI module, and may determine the current location of the user using the GPS module or the WIFI module according to a user's location status.

Here, the destination information may include GPS location information of the destination and identification information of the WIFI router. If the identification information of the WIFI router included in the user location information matches the identification information of the WIFI router of the destination It is determined that the user has arrived at the destination.

Here, the communication unit may provide the user location information generated by the user location information generation unit to the server.

The server includes a server communication unit for performing communication with the user terminal, and a control unit for controlling the movement path information and the movement time information to the destination using the information about the destination and the transportation means received from the user terminal based on the real- A movement path and a movement time generation unit for generating a movement path; And a server controller for controlling the movement path information and the movement time information to be transmitted to the user terminal.

Herein, in the case of receiving the user location information from the user terminal, the received user location information is analyzed and compared with the movement route information to the generated destination and the movement time information to determine whether the user terminal is normally moving A location information analysis unit; And an abnormal situation information generating unit for generating abnormal situation information when the user terminal is analyzed as being not moving to a normal movement path as a result of the analysis by the user location information analyzing unit, And to provide the abnormal situation information to the guardian terminal.

In addition, the user terminal sets a destination and a transportation means and provides the server with the destination and the transportation means, and the server generates optimal travel route information and travel time information using the transportation means to the destination based on real- The method comprising the steps of: providing the mobile terminal to the user terminal, setting the destination mobility information including the mobile route information and the movement time information, and generating the current location information by the user terminal; The method comprising the steps of: determining whether the user terminal is in an abnormal situation by comparing and analyzing the destination moving situation information and the current location information; and generating abnormal situation information and providing the abnormal situation information to the parent terminal; And ending a location measurement operation when the user terminal arrives at a destination. [0012] According to another aspect of the present invention, there is provided a method of using an LBS-based intelligent safety system.

The user terminal generates the current location information using GPS or WIFI radio information according to the current location state of the user terminal, wherein the current location information is generated by the user terminal. can do.

The step of terminating the position measurement operation when the user terminal arrives at a destination includes receiving GPS position information or WIFI identification information included in the current position information generated by the user terminal, And determining that the destination has arrived at the destination if it matches the identification information of the WIFI router.

Here, when the user terminal transmits the current location information to the server, the server analyzes the current location information of the received user terminal and transmits the current location information of the user terminal to the destination, Generating abnormal situation information by determining that an abnormal situation occurs when an abnormal difference occurs between the optimal moving route information using the transportation means and the moving time information; And providing the abnormal situation information to the guardian terminal by the server.

The present invention provides safety to the elderly when the user of the mobile terminal moves away from the reference route without notifying the parent or guardian immediately.

FIG. 1 is a diagram illustrating a configuration of an LBS-based intelligent security system according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a user terminal according to an embodiment of the present invention.
3 is a diagram showing a configuration of a server according to an embodiment of the present invention.
4 is a diagram for explaining a movement path and a movement time according to an embodiment of the present invention.
5 is a diagram for explaining a case where abnormal situation information is generated in a user terminal according to an embodiment of the present invention.
FIG. 6 is a diagram for explaining a case where abnormal situation information is generated in a server according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating a configuration of an LBS-based intelligent security system according to an embodiment of the present invention.

The LBS-based intelligent security system of the present invention includes a user terminal 100, a server 200, and a user terminal 300.

The user terminal 100 sets the destination and selects the transportation means to use to move to the destination. Then, the user terminal 100 transmits the information on the set destination and the transportation means to the server 200. Then, the user terminal 100 receives the movement route information and the movement time information from the server 200 and sets the destination movement state information.

The destination movement status information includes the movement time to arrive at the destination using the optimal travel route and the travel route to the destination, and the travel time information of the travel route by the travel route.

The movement path to the destination and the movement time and the movement time for each section of the movement path can be generated by the server 200 and transmitted to the user terminal 100, And may be generated using information and movement time information.

The movement path, the movement time, and the movement time according to the section will be described in detail with reference to FIG.

The user terminal 100 periodically determines its position and determines whether it has departed from the movement route to the set destination in the movement route to the destination and the movement route to the destination, If it takes an abnormally longer time, it is determined that an abnormal situation has occurred and abnormal situation information can be generated and transmitted to the parent terminal 300

Here, the user terminal 100 may transmit its own location information to the server. Then, the server 200 may determine the location of the user terminal 100 and determine whether the user terminal 100 is normally moving to the destination.

That is, the user terminal 100 periodically generates its own current location and transmits it to the server 200. The server 200 uses the location information of the received user terminal 100, It is possible to judge whether or not the user is normally moving in a section divided into a plurality of sections.

When the server 200 receives the destination information and the transportation means information from the user terminal 100, the server 200 sets the travel route to the destination and generates the travel time information including the estimated arrival time ETA (Estimated Time of Arrival) to the destination. Then, the generated movement route information and movement time information are transmitted to the user terminal 100.

Here, the movement route information and the movement time information are generated using the real time traffic information. That is, the server 200 receives the real-time traffic information from the traffic information provider or the business entity, and based on the real-time traffic information, the server 200 transmits the optimal travel route information And movement time information.

Here, the server 200 may periodically receive location information from the user terminal 100. [ If the position information of the user terminal 100 is compared with the movement route information and it is determined that the user terminal 100 is not normally moving in the movement route by region, the abnormal situation information may be generated and transmitted to the robot terminal 300 have.

2 is a diagram illustrating a configuration of a user terminal according to an embodiment of the present invention.

The user terminal 100 of the present invention includes a user location information generating unit 110, a destination movement information setting and analyzing unit 120, a control unit 130, a destination registration and rewriting unit 140, and a communication unit 150 .

The user location information generation unit 110 generates the current location information of the user terminal 100.

To this end, the user location information generation unit 110 includes a GPS module 111 and a WIFI module 112.

The user location information generation unit 110 can find the current location of the user using the GPS module 111 or the WIFI module 112 according to the location status of the user terminal 100. [

For example, when the user terminal 100 is located in an open area where the GPS signal can be received, the GPS module 111 generates current location information of the user terminal 100, (E.g., the SSID information of the WIFI router) from the WIFI router using the WIFI module 112 when it is located in a room where the GPS signal can not be received, .

The destination moving situation information setting and analyzing unit 120 sets the destination moving situation information using the information received from the server 200 (moving route information to the destination and ETA information).

Herein, the destination moving situation information includes a moving path to a destination, a total moving time, a moving path for each section of the moving section when moving to the destination through the selected transportation means, and moving prediction time information for each section.

The destination moving situation information setting and analyzing unit 120 analyzes the location information of the user terminal and determines whether the moving route to the destination where the user terminal 100 is set based on the previous current location and the current location information .

The control unit 130 compares the user location information measured by the user location information generation unit 110 with the destination information and disables the location measurement related function of the user location information generation unit 110 UNABLE state.

Accordingly, when the position measuring function is not needed any more, the controller 130 can automatically disable the position measuring function to prevent unnecessary battery consumption of the user terminal 100. [

If it is determined that the user terminal is out of the normal movement path and the movement time using the information analyzed by the destination movement state information setting and analyzing unit 120, the controller 130 determines that the user terminal is in an abnormal state, And transmits the generated status information to the parent terminal 300.

The destination registration management unit 140 stores GPS location information and WIFI radio information (SSID information), and sets and registers and manages destination information using GPS location information and WIFI radio information.

That is, when the destination is selected, the destination registration management unit 140 generates the destination information using the GPS location information of the destination or the SSID information of the WIFI router installed in the destination.

Here, the destination information includes GPS location information of the destination and identification information of the WIFI router.

Accordingly, when the current location information of the user terminal 100 matches the GPS location information included in the destination information or the SSID information of the WIFI router, the controller 130 determines that the destination has arrived.

The communication unit 150 transmits information on the set destination and the transportation means to the server 200 and receives the movement route information and the movement time information from the server 200. [ In addition, when the abnormal situation information is generated, it is also possible to transmit the abnormal situation information to the guardian terminal 300.

3 is a diagram showing a configuration of a server according to an embodiment of the present invention.

The server 200 of the present invention includes a server communication unit 210, a movement path and movement time generation unit 220, a user location information analysis unit 230, an abnormal situation information generation unit 240, and a server control unit 250 do.

The server communication unit 210 performs communication with the user terminal. Here, the server communication unit 210 may control the server 200 to transmit the abnormal situation information to the guardian terminal 300.

The movement path and movement time generation unit 220 generates movement path information and movement time information to the destination using the information about the destination and the transportation means received from the user terminal 100 based on the real time traffic information.

Here, the movement time information means an Estimated Time of Arrival (ETA).

Here, the movement route information may include movement route information for each section of the movement route. Also, the movement time information of the movement path of each section may be included in the movement time information.

The server control unit 250 controls to transmit the created route information and movement time information to the user terminal.

Here, the server 200 may determine whether the user terminal 100 is moving to a normal movement path, and may generate abnormal situation information and transmit the abnormal situation information to the guardian terminal 300 when an abnormal situation occurs .

In order for the server 200 to generate the abnormal situation information and transmit the abnormal situation information to the caregiver terminal 300, the following user location information analyzing unit 230 and the abnormal situation information generating unit 240 are additionally required.

When the server 200 receives the user location information from the user terminal 100, the user location information analyzer 230 analyzes the received location information and compares the received location information with the movement route information to the destination and the movement time information And determines whether the user terminal is normally moving.

The abnormal situation information generation unit 240 generates abnormal situation information when the user terminal 100 is analyzed as a result of the analysis by the user location information analysis unit 230 that the user terminal 100 is not moving on the normal movement route.

Here, the server control unit 250 can control to provide the generated abnormal state information to the guardian terminal 300. [

4 is a diagram for explaining a movement path and a movement time according to an embodiment of the present invention.

In FIG. 4, the destination is designated as G and the origin as S. A, B, C, D, and E are the movement paths for each section to the destination.

The predicted moving time of the section B is t2, the predicted moving time of the section C is t3, the predicted moving time of the section D is A, B + C + D + E, And the predicted moving time of the section E is t5, the moving time to the destination becomes t1 + t2 + t3 + t4 + t5.

That is, in the present invention, not only the predicted movement path and the movement time to the destination but also the movement time of the movement path and the movement path of each section are predicted and obtained, and the user terminal 100 periodically grasps the position information, It is analyzed whether it does not deviate from the star moving path and it takes longer time than the moving time per section.

As a result of the analysis, if the moving distance per section is out of order and the moving time per section takes longer than the predicted moving time, it is determined that an abnormal situation has occurred and abnormal situation information is generated and notified to the guardian terminal 300.

5 is a diagram for explaining a case where abnormal situation information is generated in a user terminal according to an embodiment of the present invention.

In step S100, the user terminal 100 sets a destination and a transportation means.

The user terminal 100 sets the destination information using the GPS information of the destination and the SSID information of the WIFI router installed in the destination.

Step S101 is a step of providing the server 200 with information including a destination and a transportation means set by the user terminal 100. [

In step S102, the server 200 generates optimal travel route information and travel time information to the destination using the transportation means selected by the user terminal 100 based on the real-time traffic information. Here, the movement time information includes the predicted arrival time (ETA).

Step S103 is a step of providing the user terminal 100 with the movement route information and the movement time information generated by the server 200. [

Step S104 is a step of setting destination moving situation information using the moving route information and moving time information received by the user terminal 100. [

The destination moving situation information includes a moving route to a destination, a predicted moving time, a moving route per section, and moving time information per section.

In operation S105, the user terminal 100 generates current location information. The method of generating the current position by the user terminal 100 will be described later in the steps S204 to S206 of FIG.

In operation S106, the current location information generated by the user terminal 100 is analyzed and compared with the set destination moving situation information to determine whether an abnormal situation has occurred.

Step S107 is a step of generating abnormal situation information when the user terminal 100 determines that an abnormal situation has occurred.

Here, the abnormal situation information includes the information of the section in which the abnormal situation occurs and the information of the section in which the abnormal situation occurred.

Therefore, by analyzing the abnormal situation information, it is possible to know in which section the abnormal situation occurred.

Step S108 is a step of transmitting the abnormal situation information generated by the user terminal 100 to the guardian terminal 300. [

Step S109 is a step of determining whether the user terminal 100 has arrived at the destination

Here, when the measured current location information of the user terminal 100 matches the GPS location information included in the destination information or the SSID of the WIFI router, it is determined that the destination has arrived.

Step S110 is a step of terminating the position measurement operation when the user terminal 100 arrives at the destination.

The user terminal 100 can automatically stop the position measurement function when the user terminal 100 arrives at a destination without user's operation, thereby preventing unnecessary battery consumption of the user terminal 100. [

FIG. 6 is a diagram for explaining a case where abnormal situation information is generated in a server according to an embodiment of the present invention.

Steps S200 to S203 are the same as the operations of steps S100 to S103 of FIG.

In steps S204 to S206, the user terminal 100 generates current location information.

The user terminal 100 of the present invention includes the GPS module 111 and the WIFI module 112 and selectively uses the GPS GPS module 111 or the WIFI module 112 according to the positional state of the user terminal 100 The current position can be measured.

That is, it is determined whether the user terminal 100 is located in the shadow area of the GPS, as in step S204. If the user terminal 100 is not in the shadow area of the GPS, the location information is generated using the GPS as in step S205. If the user terminal 100 is located in the shadow area of the GPS, the current location is measured and generated using the WIFI information using the WIFI module as in step S206.

Step S207 is a step of providing location information generated by the user terminal 100 to the server 200. [ The user terminal 100 periodically generates a current location and provides the generated location to the server 200.

In operation S208, the server 200 analyzes the current location information of the user terminal.

In step S209, the server 200 determines whether or not the movement path and the movement time of the user terminal are abnormally different from the optimal movement path information and the movement time information using the transportation means to the destination created in step S202, based on the information analyzed in step S208 Is generated.

In step S210, when the server 200 determines that an abnormal situation has occurred, it generates abnormal situation information and provides it to the guardian terminal 300. [

Step S211 is a step of terminating the positioning operation when it is determined that the user terminal 100 has arrived at the destination.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: user terminal
110: User location information generating unit
120: Destination moving situation information setting and analysis unit
130:
140: Destination registration manager
150:
200: Server
210: server communication section
220: movement path and movement time generation unit
230: User location information analysis unit
240: Abnormal situation information generating unit
250:
300: Protector terminal

Claims

Setting destination and transportation means, informing the destination and the transportation means to the server, receiving the moving route information and the moving time information from the server, setting the destination moving situation information, generating the current position and the moving route information for each section, A user terminal comparing the destination moving situation information to determine whether an abnormal situation exists; And
A server receiving the destination and the transportation means from the user terminal, generating movement path information and movement time information to the destination through the transportation means with reference to the real time traffic information, and providing the movement path information to the user terminal;
LBS based intelligent safety system.

The method according to claim 1,
The user terminal comprises:
A destination registration manager for storing GPS position information and WIFI radio information, setting, registering and managing destination information using the GPS position information and the WIFI radio information;
A communication unit that transmits information on the set destination and the transportation means to the server and receives the travel route information and the travel time information from the server;
A user location information generation unit for generating user location information using GPS or WIFI radio information;
A destination movement information setting and analyzing unit for setting destination movement state information using the movement route information and the movement time information and analyzing movement information for each section of the movement path to the destination using the user position information; And
A controller for comparing the user location information measured by the user location information generator with the destination information and switching the location measurement related function to a UNABLE state when it is determined that the user location information has arrived at a destination;
And an LBS-based intelligent safety system.

3. The method of claim 2,
The control unit determines whether an abnormal situation is detected by using the movement information for each section of the movement path from the destination moving state information setting unit and the analyzed unit to the destination, To the LBS-based intelligent safety system.

3. The method of claim 2,
The user location information generation unit
A GPS module, and a WIFI module. The LBS-based intelligent safety system according to the present invention uses the GPS module or the WIFI module to determine the user's current location according to the user's location.

3. The method of claim 2,
The destination information includes GPS position information of the destination and identification information of the WIFI router. When the identification information of the WIFI router included in the user location information matches the identification information of the WIFI router of the destination, Of the LBS-based intelligent safety system.

3. The method of claim 2,
Wherein the communication unit provides the user location information generated by the user location information generation unit to the server.

The method according to claim 1,
The server comprises:
A server communication unit for performing communication with the user terminal;
A movement path and a movement time generation unit for generating movement path information and movement time information to a destination by using information about a destination and a transportation means received from the user terminal based on real time traffic information; And
A server controller for controlling the movement path information and the movement time information to be transmitted to the user terminal;
And an LBS-based intelligent safety system.

8. The method of claim 7,
The method includes analyzing the received user location information in the case of receiving the user location information from the user terminal and comparing the user location information with the movement route information to the generated destination and the movement time information to determine whether the user terminal is normally moving, Analysis section; And
An abnormal situation information generating unit for generating abnormal situation information when the user terminal is analyzed that the user terminal is not moving on the normal movement path as a result of the analysis by the user location information analyzing unit;
Further comprising:
And the server control unit can control the abnormal situation information to be provided to the guardian terminal.

Establishing a destination and means of transportation for a user terminal and providing it to a server;
The server generates optimal travel route information and travel time information using the transportation means to the destination based on real-time traffic information, and provides the information to the user terminal;
Setting destination moving situation information in which the user terminal includes the moving route information and the moving time information;
Generating the current location information by the user terminal;
Comparing the current location information with the destination location information to determine whether the user terminal is in an abnormal situation;
Generating abnormal condition information and providing the abnormal condition information to the guardian terminal when the user terminal determines that the user terminal is abnormal; And
Terminating the position measurement operation when the user terminal arrives at a destination;
Based intelligent safety system.

10. The method of claim 9,
Wherein the user terminal generates current location information,
Wherein the user terminal generates the current location information using GPS or WIFI radio information according to the current location of the user terminal.

10. The method of claim 9,
And terminating the position measurement operation when the user terminal arrives at a destination,
Determining whether the GPS location information or the WIFI identification information included in the current location information generated by the user terminal arrives at a destination when the GPS location information or the WIFI identification information matches the GPS location information of the destination or the identification information of the WIFI router installed in the destination;
Further comprising the steps of: receiving an LBS-based intelligent safety system;

10. The method of claim 9,
When the user terminal transmits current location information to the server,
The server analyzes the current location information of the received user terminal and determines whether there is an abnormal difference between the movement route of the user terminal and the optimal travel route information using the transportation means to the destination, Generating abnormal condition information by determining that an abnormal condition has occurred when the abnormal condition occurs; And
The server providing the abnormal situation information to the guardian terminal;
Further comprising the steps of: receiving an LBS-based intelligent safety system;