KR102264665B1 - Method and system for providing disaster information based on location capable of bidirectional communication - Google Patents

Abstract

The present invention relates to a location-based disaster information providing method capable of bidirectional communication and a system thereof. The location-based disaster information providing method comprises: a first step of receiving disaster occurrence data from a disaster monitoring server; a second step of setting an area within a predetermined radius from the disaster occurrence location as a dangerous area; a third step of subdividing the dangerous area into dangerous stages; a fourth step of obtaining user terminal information located in a corresponding area for each of the subdivided dangerous areas; a fifth step of transmitting a disaster guidance message to corresponding user terminals based on the obtained user terminal information; a sixth step of receiving a response message of a corresponding user terminal from the user terminals; and a seventh step of analyzing the response message and coping with it according to the result. Therefore, the location-based disaster information providing method can increase the reliability of disaster information.

Description

Method and system for providing location-based disaster information capable of two-way communication {METHOD AND SYSTEM FOR PROVIDING DISASTER INFORMATION BASED ON LOCATION CAPABLE OF BIDIRECTIONAL COMMUNICATION}

The present invention relates to a method and system for providing disaster information, and more particularly, to a method and system for providing disaster information based on location information capable of bidirectional communication.

Recently, the frequency of occurrence of natural and human disasters due to extreme weather and rapid industrialization is increasing. In particular, as the frequency of disasters in downtown areas increases, people's interest in disseminating disaster situations is increasing.

As a result, the importance of a system that can effectively deliver disaster information to people is being emphasized. In order to effectively deliver disaster information, it is necessary to provide disaster information appropriate to the recipient's situation.

However, the existing disaster information providing system provides disaster information in a preset area unit (eg, administrative district, etc.) without considering the recipient's situation. That is, the existing disaster information providing system provided disaster information to all users located in the area or nearby areas where the disaster occurred without considering the degree of risk of the disaster and the scope of the impact of the disaster. Therefore, all people located in the disaster area will receive disaster information, regardless of whether their location is within the disaster impact range. Depending on the type of disaster, the range of impact may be wide, but there are cases where it is not (eg, prediction of slope collapse). If disaster information is provided to all users located in , provinces, etc.), an unspecified majority may have unnecessary anxiety, and as the number of times of providing such disaster information is repeated, the reliability of the disaster information may decrease.

Also, in the related art, there is no method for determining the situation of the receiving side only by sending a disaster information message in a lump from the side providing the disaster information. For example, there is no system-wide way to deal with a case where a user adjacent to a disaster area does not receive a disaster information message or a user is in a situation requiring rescue.

1. In-Chan Jeon, “Effective Disaster Alert System Study: Design of Automatic Recognition System and Integrated Alert System Reference Model,” Seoul National University Graduate School, 2015. 2. Jung Sang-gu, “A Study on the Utilization of Disaster Information Transmission Media for Customized Disaster Prediction/Alert”, Graduate School of Science and Technology Association, 2017.

Accordingly, the present invention provides two-way communication that can increase the reliability of disaster information by subdividing the surrounding locations around the point of occurrence of a disaster and providing disaster information in consideration of the degree of risk and the extent of the impact of the disaster based on the segmented local information. It is intended to provide a method and system for providing location-based disaster information.

In addition, the present invention receives a response message to the disaster information message from the user terminal that has received the disaster information message, and based on the response message, the server side can determine and respond to the situation of the terminal receiving the disaster information message. It is intended to provide a method and system for providing location-based disaster information capable of bidirectional communication that can take a more responsible response to disasters.

) 이내의 영역을 위험지역으로 설정하는 제2 단계; 상기 재난 발생 위치로부터의 거리(

,

)를 반영하여 상기 위험 지역을 위험 단계별로 세분화하는 제3 단계; 상기 세분화된 위험 지역별로 해당 지역에 위치한 사용자 단말 정보를 획득하는 제4 단계; 상기 획득한 사용자 단말 정보에 기초하여 대응된 사용자 단말들에게 재난 안내 메시지를 전송하는 제5 단계; 상기 사용자 단말들로부터 상기 재난 안내 메시지에 대한 응답 메시지를 수신하는 제6 단계; 및 상기 응답 메시지를 분석하고, 그 결과에 따라 대응하는 제7 단계를 포함하는 것을 특징으로 한다. In order to achieve the above object, the method for providing location-based disaster information provided by the present invention generates a disaster guidance message in conjunction with a disaster monitoring server that generates disaster occurrence data when a disaster occurs, and then delivers it to a plurality of user terminals. A method for providing location-based disaster information by an information providing server, comprising: a first step of receiving, from the disaster monitoring server, disaster occurrence data including a disaster occurrence location, a disaster impact range, and a disaster risk degree; A predetermined radial distance (

) a second step of setting the area within the danger zone; Distance from the disaster location (

,

) a third step of subdividing the risk area into risk stages by reflecting; a fourth step of acquiring user terminal information located in a corresponding region for each of the subdivided risk regions; a fifth step of transmitting a disaster guidance message to corresponding user terminals based on the obtained user terminal information; a sixth step of receiving a response message to the disaster guidance message from the user terminals; and a seventh step of analyzing the response message and corresponding according to the result.

Preferably, in the second step, an area including the impact range of the disaster may be set as a dangerous area.

인 경우, 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 심각단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 경계단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 주의단계지역; 및 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 관심단계지역으로 세분화할 수 있다. Preferably, the third step subdivides the dangerous area into a severe stage area, a boundary stage area, a caution stage area, and a stage interest area,

If , the distance from the disaster location (

)end

Areas that satisfy the Severe Stage Area; Distance from the disaster location (

)end

An area that satisfies the boundary stage area; Distance from the disaster location (

)end

An area that satisfies the state level area; and the distance from the disaster location (

)end

Regions that satisfy this condition can be subdivided into regions of interest level.

Preferably, the third step may further include a 3-1 step of dividing the subdivided dangerous area into a plurality of segments.

,

)인 다수의 원(segment)들로 분할할 수 있다. Preferably, the step 3-1 is a radius (

,

) can be divided into multiple segments.

Preferably, the location-based disaster information providing method further comprises a location information receiving step of receiving real-time location information from the plurality of user terminals, and storing/managing it, wherein the fourth step is the location information receiving step. Based on the stored real-time location information of the user terminals, the user terminal information located in the subdivided risk region may be obtained.

Preferably, the receiving of the location information may further include an approval step of receiving approval from the user terminal to share the real-time location information of the user terminal with the disaster information providing server.

Preferably, the disaster information providing server may interwork with a location-based service providing server, and in the fourth step, user terminal information located in a corresponding area for each of the subdivided risk regions may be collected from the location-based service providing server.

Preferably, the location-based disaster information providing method further comprises a disaster guide message setting step of setting different disaster guide messages for each risk step of a disaster, wherein the fifth step is a risk step in an area where each of the user terminals is located Accordingly, it is possible to transmit a disaster guidance message corresponding to the risk level.

Preferably, in the seventh step, when the received response message is a rescue request message, the first step of detecting the location information of the terminal that transmitted the rescue request message and generating a rescue request delivery message including the location information Step 7-1; and a step 7-2 of delivering the rescue request delivery message to a management server of a rescue organization.

Preferably, the seventh step includes: a 7-3 step of identifying user terminals that have transmitted the response message; a step 7-4 of comparing, by the disaster information providing server, the user terminals to which the disaster guide message has been transmitted in the sixth step, and the user terminals transmitting the response message to the disaster information providing server; and step 7-5 of detecting user terminals that have not transmitted the response message as a result of the comparison and retransmitting the disaster guidance message to the user terminals that have not transmitted the response message.

In addition, in order to achieve the above object, the location-based disaster information providing method provided by the present invention is disaster information in response to a disaster by subdividing the risk area into risk stages and providing disaster guidance messages set differently for each risk stage of the disaster A method for providing location-based disaster information for a user terminal that provides a location-based disaster information provision service in conjunction with a provision server, the method comprising: receiving a disaster guidance message corresponding to a risk level of an area in which the user terminal is located from the disaster information provision server first step; a second step of displaying the disaster guidance message; a third step of receiving a user's response signal to the disaster guidance message; a fourth step of generating a response message to the disaster guidance message based on the user's response signal; and a fifth step of transmitting the response message to the disaster information providing server.

Preferably, the location-based disaster information providing method of the user terminal may further include a location information delivery step of receiving real-time location information of the user terminal and transmitting the location information to the disaster information providing server.

Preferably, in the second step, a message for inducing a user's response signal to the disaster guidance message may be displayed together, and a message for inducing a response of either an acknowledgment or a rescue request from the user may be displayed. .

Preferably, the fourth step includes: identification information of the corresponding user terminal when the 'acknowledgment' response is input in the third step; and to indicate that the user's response is 'acknowledgment', a response message including an identification value promised to each other between the disaster information providing server and the user terminal may be generated.

Preferably, the fourth step includes identification information of the corresponding user terminal when the 'rescue request' response is input in the third step; an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and a response message including real-time location information of the user terminal may be generated.

) 이내의 영역을 위험지역으로 설정한 후, 상기 재난 발생 위치로부터의 거리(

,

)를 반영하여 상기 위험 지역을 위험 단계별로 세분화하는 위험 지역 관리부; 재난의 위험 단계별로 서로 다르게 설정된 재난 안내 정보를 저장하는 데이터베이스부; 상기 데이터베이스부에 저장된 정보에 기초하여 상기 사용자 단말에게 전달되어질 재난 안내 메시지를 생성하는 메시지 생성부; 및 상기 통신 인터페이스부, 상기 위험 지역 관리부, 상기 데이터베이스부 및 상기 메시지 생성부의 동작을 제어하는 제어부를 포함하되, 상기 제어부는 상기 재난 발생 데이터의 수신에 응답하여, 상기 세분화된 위험 지역별로 해당 지역에 위치한 사용자 단말 정보를 획득하고, 상기 사용자 단말 정보에 기초하여 사용자 단말들 각각이 위치한 지역의 위험 단계에 따라 그 위험 단계에 대응된 재난 안내 메시지를 생성 및 전송하도록 제어하고, 상기 사용자 단말로부터의 응답메시지 수신에 응답하여, 상기 응답 메시지를 분석하고, 그 결과에 따라 대응하도록 제어하는 것을 특징으로 한다. On the other hand, in order to achieve the above object, the location-based disaster information providing server provided by the present invention is linked with a disaster monitoring server that generates disaster occurrence data including the location of the disaster, the range of impact of the disaster, and the degree of risk of the disaster when a disaster occurs. In the disaster information providing server that generates a disaster guidance message and then delivers it to a plurality of user terminals, the disaster information providing server provides an interface between the disaster information providing server and a communication network, and acquiring the disaster occurrence data and user terminal information through the communication network and a communication interface unit providing a communication interface for delivering the disaster guidance message to the user terminal and receiving a response message from the user terminal; In response to the reception of the disaster occurrence data, a predetermined radial distance (

After setting the area within ) as a dangerous area, the distance (

,

), a risk area management unit that subdivides the risk area into risk stages by reflecting; a database unit for storing disaster guide information set differently for each risk level of a disaster; a message generating unit for generating a disaster guidance message to be delivered to the user terminal based on the information stored in the database unit; and a control unit for controlling operations of the communication interface unit, the risk area management unit, the database unit, and the message generation unit, wherein the control unit responds to the reception of the disaster occurrence data, Acquire the user terminal information located, and control to generate and transmit a disaster guidance message corresponding to the risk level according to the risk level of the area where each of the user terminals is located based on the user terminal information, and a response from the user terminal In response to receiving the message, the response message is analyzed and characterized in that it is controlled to respond according to the result.

Preferably, the control unit receives real-time location information from a plurality of user terminals through the communication interface unit, stores the real-time location information in the database unit, and controls to store only the latest real-time location information for each user terminal, , in response to the reception of the disaster occurrence data, it is possible to obtain the user terminal information located in the subdivided risk region for each region from the database unit.

Preferably, the disaster information providing server interworks with a location-based service providing server, and the control unit responds to the reception of the disaster occurrence data from the location-based service providing server to the subdivided risk region through the communication interface unit. User terminal information located in the area may be acquired.

Preferably, the control unit checks whether a response message for each user terminal to the disaster information message is received, and retransmits a previously transmitted disaster information message to a user terminal that does not transmit a response message even after a predetermined waiting time has elapsed. can be controlled

Preferably, when a response message for each user terminal to the disaster guidance message is received, the control unit analyzes the response message to generate a rescue request delivery message including location information of the corresponding user terminal in the case of a rescue request message to rescue It can be controlled to be delivered to the management server of the institution.

Preferably, the risk area management unit may set an area including the impact range of the disaster as the risk area.

인 경우, 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 경우 심각단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 경우 경계단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 경우 주의단계지역; 및 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 경우 관심단계지역으로 세분화할 수 있다. Preferably, the risk area management unit subdivides the risk area into a critical level area, a boundary level area, a caution level area, and a concern level area,

If , the distance from the disaster location (

)end

If it satisfies the severity level area; Distance from the disaster location (

)end

If it satisfies the boundary stage area; Distance from the disaster location (

)end

If it satisfies the caution level area; and the distance from the disaster location (

)end

If , it can be subdivided into regions of interest level.

,

)일 수 있다. Preferably, the hazardous area management unit divides the subdivided hazardous area into a plurality of segments, wherein the plurality of circles have a radius (

,

) can be

In addition, in order to achieve the above object, the user terminal provided in the present invention is interlocked with a disaster information providing server that subdivides a risk area into risk stages in response to a disaster and provides a disaster guide message set differently for each risk stage of a disaster In the user terminal for providing a location-based disaster information service by providing an interface between the user terminal and a communication network, the disaster information providing server receives a disaster guidance message corresponding to a risk level of an area in which the user terminal is located, a communication interface unit providing a communication interface for transmitting a response message thereto; and a display unit for displaying the disaster information message in response to the reception of the disaster information message. a user interface unit that provides an interface with a user, and receives a user's response to the disaster guidance message displayed on the display unit; and a message generator for generating a response message to the disaster guidance message based on the user's response signal input through the user interface unit, and transmitting the response message to the disaster information providing server through the communication interface unit characterized.

Preferably, the user terminal may further include a user location information processing unit that receives the real-time location information of the user terminal and transmits it to the disaster information providing server.

Preferably, the display unit may display a message for inducing a user's response signal to the disaster guidance message together with a message for inducing a response of any one of acknowledgment or a rescue request from the user.

Preferably, the message generating unit includes: identification information of the corresponding user terminal when an 'acknowledgment' response is input from the user interface unit; and to indicate that the user's response is 'acknowledgment', a response message including an identification value promised to each other between the disaster information providing server and the user terminal may be generated.

Preferably, the message generating unit includes identification information of the corresponding user terminal when a 'rescue request' response is input from the user interface unit; an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and a response message including real-time location information of the user terminal may be generated.

Preferably, it may further include a user location information processing unit that receives the real-time location information of the user terminal and transmits it to the disaster information providing server.

The present invention provides disaster information in consideration of the degree of risk and the extent of the impact of a disaster by subdividing the surrounding locations around the point where the disaster occurred when a disaster occurs, and based on the subdivided local information. That is, the present invention transmits the disaster guidance message set differently for each risk step to the user terminal. Therefore, each user can be provided with a disaster guidance message corresponding to the risk level in the area where they are located, thereby increasing the reliability of disaster information and enabling users to respond to disasters quickly/accurately. There is an advantage to

In addition, the present invention receives a response message to the disaster information message from the user terminal that has received the disaster information message, and based on the response message, the server side can determine and respond to the situation of the terminal receiving the disaster information message. This has the advantage of being able to respond more responsibly to disasters.

1 is a processing procedure diagram of a system for explaining a method for providing location-based disaster information according to an embodiment of the present invention.
2 is a diagram schematically illustrating a processing procedure for managing location information of a user terminal according to an embodiment of the present invention.
3 is a schematic block diagram of a location-based disaster information providing server according to an embodiment of the present invention.
4 is a diagram for explaining an example of a field configuration of databases managed by the database unit according to an embodiment of the present invention.
5 is a flowchart illustrating an example of a processing process of a location-based disaster information providing server according to an embodiment of the present invention.
6 is a schematic block diagram of a user terminal according to an embodiment of the present invention.
7 is a flowchart for explaining an example of a processing process of a user terminal according to an embodiment of the present invention.
8 illustrates an example of a screen of a user terminal displaying a disaster guidance message and a response induction message according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings, but it will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily practice the present invention. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. On the other hand, in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification. In addition, even if the detailed description is omitted, descriptions of parts that can be easily understood by those skilled in the art are omitted.

Throughout the specification and claims, when a part includes a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

1 is a processing procedure diagram of a system for explaining a location-based disaster information providing method according to an embodiment of the present invention, and processing between a disaster information providing server 100 , a user terminal 200 and a disaster monitoring server 300 . The procedure is illustrated. In this case, the disaster monitoring server 300 is a device for monitoring whether a disaster has occurred by a sensor installed in a specific area, and is installed in a corresponding specialized institution.

Referring to FIG. 1 , a method for providing location-based disaster information according to an embodiment of the present invention is as follows. First, the disaster information providing server 100 includes a database unit (DB) 110 for storing/managing a preset operation program and various data and data generated in the operation process to provide a location-based disaster information providing service; It may be interlocked or configured to include the database unit (DB) 110 . Meanwhile, in step S105, the user terminal may install a service application for using the location-based disaster information providing service of the present invention, and communicate with the disaster information providing server 100 using the application.

In addition, the disaster information providing server 100 obtains real-time location information directly from the user terminal 200 in order to determine the locations of the user terminals 200 that will provide the disaster guidance message, or from a location-based service providing server (not shown). It is possible to obtain location information of a user terminal located in a specific area. In the example of FIG. 1, in step S110, a location information management session between the disaster information providing server 100 and the user terminal 200 is connected, and disaster information is provided A case in which the server 100 directly acquires real-time location information from the user terminal 200 is exemplified. Figure 2 shows an example of the processing process of such a location information management session (S110). That is, FIG. 2 is a diagram illustrating a processing procedure for managing location information of a user terminal according to an embodiment of the present invention, and briefly shows a processing procedure between the disaster information providing server 100 and the user terminal 200 are doing Referring to FIG. 2 , in the location information management session ( S110 ) of the user terminal 200 , the user terminal 200 receives real-time location information ( S112 ), and transmits the location information to the disaster information providing server 100 . and a series of procedures in which the disaster information providing server 100 manages the user location information received through the step S114 (S116). In this case, in steps S112 and S114, the user terminal 200 may receive its own location information from a base station or GPS of a mobile communication network at regular time intervals, and transmit the information in real time.

On the other hand, in step S116, the disaster information providing server 100 updates the corresponding information each time it receives the user location information through the step S114, but does not store the user's location information change history, only the latest information is stored / It is desirable to manage In addition, the location information management session ( S110 ) may further include an approval step of receiving approval from the user terminal 200 to share the real-time location information of the user terminal with the disaster information providing server. This is to prevent invasion of the user's privacy.

Referring back to FIG. 1 , in steps S115 to S130, the disaster monitoring server 300 monitors whether a disaster occurs in a specific area and, when a disaster is detected, generates a disaster occurrence message to the disaster information providing server ( 100) is sent. At this time, the disaster message includes a disaster occurrence location, a disaster impact range, and a disaster risk level, wherein the 'disaster occurrence location' expresses the corresponding disaster occurrence point in (x,y) coordinates, and the 'disaster occurrence location' The 'influence range' represents an area predicted to be affected by the disaster based on the (x,y) coordinates, and the 'disaster risk level' may be expressed in a predetermined step according to the degree of damage caused by the disaster.

) 이내의 영역을 위험지역으로 설정한다. 이 때, 단계 S135에서는, 상기 재난 발생 메시지에 포함된 재난의 영향 범위를 포함하는 영역을 위험 지역으로 설정하는 것이 바람직하다. In step S135, the disaster information providing server 100 that has received the disaster occurrence message receives a predetermined radius from the disaster occurrence location included in the disaster occurrence message.

) is set as a hazardous area. In this case, in step S135, it is preferable to set the area including the impact range of the disaster included in the disaster occurrence message as the dangerous area.

,

)를 반영하여 위험 단계별로 세분화한다. 예를 들어, 상기 재난 정보 제공 서버(100)는 상기 위험지역을 심각단계지역, 경계단계지역, 주의단계지역, 및 관심단계지역으로 세분화하되,

인 경우, 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 심각단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 경계단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 주의단계지역; 및 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 관심단계지역으로 세분화하는 것이 바람직하다. 다시 말해서, 재난 정보 제공 서버(100)는 상기 재난 발생 위치로부터 가까운 순으로 심각단계지역, 경계단계지역, 주의단계지역, 및 관심단계지역으로 세분화하는 것이 바람직하다. 그리고 재난 정보 제공 서버(100)는 그 세분화 정보를 데이터베이스부(DB)(110)에 저장하는 것이 바람직하다. 또한, 단계 S140은 상기 세분화된 위험지역을 다수의 원(segment)들로 분할하되, 상기 위험지역을 반경(

,

)인 다수의 원(segment)들로 분할할 수 있다. 이 때, 상기 반경(

)은 GPS 오차율을 고려할 때, 100m인 것이 바람직하다. 이와 같이 세분화된 위험 지역을 다시 다수의 원(segment)들로 분할하는 것은 상기 위험 지역을 소규모로 그룹화함으로써, 재난 안내 메시지의 전송 대상자가 몇 명이고, 정상 전달율이 몇%인지 등을 세부적으로 관리하기 위함이다. In step S140, the set dangerous area is subdivided. That is, in step S140, the disaster information providing server 100 sets the set risk area, the distance (

,

) and subdivided into risk stages. For example, the disaster information providing server 100 subdivides the risk area into a serious level area, a boundary level area, a caution level area, and an interest level area,

If , the distance from the disaster location (

)end

Areas that satisfy the Severe Stage Area; Distance from the disaster location (

)end

An area that satisfies the boundary stage area; Distance from the disaster location (

)end

An area that satisfies the state level area; and the distance from the disaster location (

)end

It is desirable to subdivide the region that satisfies the In other words, it is preferable that the disaster information providing server 100 is subdivided into a severe level area, a warning level area, a caution level area, and an interest level area in the order closest to the location of the disaster. And it is preferable that the disaster information providing server 100 stores the subdivided information in the database unit (DB) 110 . In addition, step S140 divides the subdivided dangerous area into a plurality of segments, but divides the dangerous area with a radius (

,

) can be divided into multiple segments. At this time, the radius (

) is preferably 100m in consideration of the GPS error rate. The division of the divided risk area into a plurality of segments again manages in detail how many people to whom the disaster information message is transmitted and what the normal delivery rate is by grouping the risk area into small groups. to do

In step S145, the disaster information providing server 100 acquires the user terminal information located in the relevant region for each of the subdivided risk regions. At this time, if the disaster information providing server 100 receives and stores/manages real-time location information from the user terminal 200 as in step S110, in step S145, the user terminals stored in step S110 are stored/managed. Based on the real-time location information, it is possible to obtain user terminal information located in a corresponding area for each of the subdivided risk areas. That is, in step S145, the disaster information providing server 100 derives real-time location information of user terminals from the database unit (DB) 110, and the user whose location information is included in any one of the subdivided risk areas. Obtain terminal information. For example, information on user terminals located in an area classified as a critical level area, information on user terminals located in an area classified as a boundary level area, information on user terminals located in an area classified as a caution level area, and Each of the user terminals located in the region classified as the interest level region is acquired. Alternatively, when the disaster information providing server 100 does not conduct the location information management session S110 , that is, the disaster information providing server 100 receives and stores real-time location information from the user terminal 200 and does not store the location information. In the case of interworking with a location-based service (LBS) providing server, in step S145, the disaster information providing server 100 transmits user terminal information located in a corresponding area to the subdivided risk region to the location-based service providing server can be collected from

In step S150, the disaster information providing server 100 generates a disaster guide message to be transmitted to the corresponding user terminals based on the user terminal information obtained in step S145, and in step S155, the disaster guide message is transmitted to the user terminal 200 ) is sent to To this end, it is preferable that the disaster information providing server 100 sets and stores different disaster guide information for each risk stage of a disaster in advance, and uses the information to generate the disaster guide message. For example, for a user terminal located in an area where the disaster risk level is 'severe', the slope collapse is predicted in the xx area where xxx is located at xx hours and xx on xx month xx, year xx, and the risk level is 'severe'. is. Please evacuate to a safe place” message is sent, and to the user terminal located in the area where the disaster risk level is 'Caution', “At xx hours xx on xx month xx, a slope collapse occurs in the xx area where xxx is located. As expected, the risk level is 'Caution'. Please be careful when passing nearby.” That is, different disaster guidance messages are transmitted for each risk level in the area where the user is located.

In step S160, the user terminal 200 that has received the disaster guidance message displays it. When displaying the disaster guide message, the user terminal 200 may also display a message for inducing a user's response signal to the disaster guide message. 8 shows an example of a screen display of such a user terminal 200a. That is, FIG. 8 is an example of a screen of a user terminal displaying a disaster guidance message and a response guidance message according to an embodiment of the present invention. Referring to FIG. 8 , the user terminal 200a displays the disaster guidance message and at the same time , a message to induce a response is displayed in the form of a button. In the example of FIG. 8 , a user who has confirmed the disaster guidance message can select either 'receipt confirmation (221a)' or 'rescue request (223a)'.

Again, referring to FIG. 1, in step S165, it is determined whether or not to input a response signal of the user to the disaster guidance message, and when the user inputs a response signal, the user terminal 200 in step S170, the response signal generates a response message to the disaster guidance message based on the For example, when the user selects 'acknowledgment', the user terminal 200 includes identification information of the corresponding user terminal; an identification value promised to each other between the disaster information providing server 100 and the user terminal 200 to indicate that the user's response is 'acknowledgment'; and generating a response message including real-time location information of the user terminal, and when the user selects 'rescue request', the user terminal 200 includes identification information of the user terminal; an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and a response message including real-time location information of the user terminal may be generated. Meanwhile, real-time location information of the user terminal may be omitted. This is because the real-time location information may be managed by the DB 110 of the disaster information providing server 100 or the disaster information providing server 100 may be provided from a location-based service providing server (not shown).

In step S175 , the user terminal 200 transmits the response message to the disaster information providing server 100 .

Upon receiving the response message, the disaster information providing server 100 analyzes the response message (S180) in step S180, and responds according to the result. For example, the disaster information providing server 100 determines whether the response message is a rescue request message in step S185, and if the response message is a rescue request message, generates a rescue request delivery message in step S190 After that, in step S195, the rescue request delivery message may be delivered to the management server 20 of the rescue organization.

On the other hand, as a result of the determination in step S185, when the response message is not a rescue request message, that is, when the response message is an acknowledgment message, the disaster information providing server 100 is a user who has not responded to the disaster guidance message. The method may further include retransmitting the disaster guidance message to the extracted user terminals after detecting the terminal (not shown). To this end, the disaster information providing server 100 connects the user terminals to which the disaster information providing server 100 has transmitted the disaster guide message and the user terminals that have transmitted the response message to the disaster information providing server 10 . The method may further include a series of steps of comparing, detecting user terminals that have not transmitted the response message as a result, and retransmitting the disaster guidance message to the user terminals that have not transmitted the response message. At this time, the disaster information providing server 100 provides a list (a.k.a., a first list) of user terminals to which the disaster guide message has been transmitted and a list (a.k.a., a second list) of user terminals that have transmitted the response message. ) and comparing the lists (first and second lists), it is possible to detect a user terminal that has not transmitted the response message.

In the examples of FIGS. 1 and 2 , a case in which the disaster information providing server 100 transmits/receives data to/from one user terminal 200 is described as an example. However, this is only for convenience of explanation, and in reality, the disaster information providing server 100 transmits/receives data to and from an unspecified number of user terminals 200 located in the disaster-affected range to provide a disaster guidance message. can

3 is a schematic block diagram of a location-based disaster information providing server according to an embodiment of the present invention. Referring to FIG. 3 , the disaster information providing server 100 includes a database unit (DB) 110 , a communication interface unit (I/F) 120 , a hazardous area management unit 130 , a message generating unit 140 and a control unit 150 .

The database unit (DB) 110 stores disaster guide information set differently for each risk stage of a disaster. In addition, when the disaster information providing server 100 receives real-time location information from a user terminal, it stores real-time location information of the user terminal. 4 is a diagram for explaining an example of a field configuration of databases managed by the database unit 110 according to an embodiment of the present invention. shows an example of a field configuration of the message management DB 10 for storing , and FIG. 4 (b) shows an example of a field configuration of the user terminal management DB 20 for storing real-time location information of the user terminal. Referring to (a) of FIG. 4 , the message management DB 10 stores messages set differently for each risk step, including the risk step identification information 11 / risk step message 12 field. Referring to (b) of FIG. 4 , the user terminal management DB 20 includes a user terminal identification information 21/phone number 22/real-time location information 23 field, and includes a phone number and real-time information for each user terminal. Save location information. In this case, the 'phone number' is information for transmitting an information message in case of a disaster, and the 'real-time location information' is information necessary to determine whether to transmit a disaster information message and to select the message content corresponding to the disaster information message transmission. In addition, in the real-time location information 23 field, the user terminal management DB 20 stores only real-time location information of the corresponding user terminal, but does not store the location change history of the corresponding user terminal. This is in order not to infringe the privacy of the user of the corresponding user terminal.

1 and 3 , the communication interface unit (I/F) 120 provides an interface between the disaster information providing server 100 and a communication network. In particular, the communication interface unit (I/F) 120 allows the disaster information providing server 100 to receive disaster occurrence data from the disaster monitoring server 300 and obtain user terminal information (eg, user location information). It provides a communication interface to enable it. In addition, a communication interface for providing a disaster guidance message generated using the information to a user terminal and receiving a response message from the user terminal is provided. To this end, the communication interface unit (I/F) 120 provides a communication interface between the disaster information providing server 100 and the disaster monitoring server 300 , and the disaster information providing server 100 and the user terminal 200 . . On the other hand, when the disaster information providing server 100 receives the location information of the user terminal 200 from the location-based service providing server (not shown), the disaster information providing server 100 and the location-based service providing server (not shown) It provides a communication interface between In addition, when the user terminal 200 transmits a rescue request message to the disaster information providing server 100, the disaster information providing server 100 generates a rescue request delivery message in response to the rescue organization management server 20 ), and for this purpose, the communication interface unit (I/F) 120 may provide a communication interface between the disaster information providing server 100 and the rescue organization management server 20 .

) 이내의 영역을 위험지역으로 설정할 수 있다. When disaster occurrence data is received from the disaster monitoring server 300 , the risk area management unit 130 sets a risk area based on the information. At this time, the risk area management unit 130 sets the area including the range of impact of the disaster included in the disaster occurrence data as the danger zone, but a predetermined radial distance (centered on the disaster occurrence location included in the disaster occurrence data)

) can be set as a hazardous area.

,

)를 반영하여 상기 위험 지역을 위험 단계별로 세분화 할 수 있다. 예를 들어, 위험 지역 관리부(130)는 상기 위험 지역을 심각단계지역, 경계단계지역, 주의단계지역, 및 관심단계지역으로 세분화하되,

인 경우, 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 심각단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 경계단계지역; 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 주의단계지역; 및 상기 재난 발생 위치로부터의 거리(

)가

를 만족하는 지역을 관심단계지역으로 세분화할 수 있다. 또한, 위험 지역 관리부(130)는 상기 세분화된 위험지역을 다수의 원(segment)들로 분할하되, 상기 위험지역을 반경(

,

)인 다수의 원(segment)들로 분할할 수 있다. 이 때, 상기 반경(

)은 GPS 오차율을 고려할 때, 100m인 것이 바람직하다. 이와 같이 세분화된 위험 지역을 다시 다수의 원(segment)들로 분할하는 것은 상기 위험 지역을 소규모로 그룹화함으로써, 재난 안내 메시지의 전송 대상자가 몇 명이고, 정상 전달율이 몇%인지 등을 세부적으로 관리하기 위함이다. In addition, the risk area management unit 130 subdivides the risk area into risk stages, but the distance from the disaster location (

,

), the risk area can be subdivided into risk stages. For example, the risk area management unit 130 subdivides the risk area into a serious level area, a boundary level area, a caution level area, and an interest level area,

If , the distance from the disaster location (

)end

Areas that satisfy the Severe Stage Area; Distance from the disaster location (

)end

An area that satisfies the boundary stage area; Distance from the disaster location (

)end

An area that satisfies the state level area; and the distance from the disaster location (

)end

Regions that satisfy this condition can be subdivided into regions of interest level. In addition, the danger area management unit 130 divides the subdivided danger area into a plurality of segments, but divides the risk area into a radius (

,

) can be divided into multiple segments. At this time, the radius (

) is preferably 100m in consideration of the GPS error rate. The division of the divided risk area into a plurality of segments again manages in detail how many people to whom the disaster information message is transmitted and what the normal delivery rate is by grouping the risk area into small groups. to do

The message generating unit 140 generates a disaster guidance message to be delivered to a user terminal located in a dangerous area based on information stored in the database unit (DB) 110 .

The control unit 150 controls the operations of the communication interface unit 120 , the dangerous area management unit 130 , the database unit (DB) 110 , and the message generation unit 140 based on a pre-stored operation algorithm. In particular, in response to the reception of the disaster occurrence data, the control unit 150 acquires user terminal information located in a corresponding area for each of the subdivided risk regions, and based on the user terminal information, the risk of the area where each of the user terminals is located Controlling the communication interface unit 120, the risk area management unit 130, the database unit (DB) 110 and the message generation unit 140 to generate and transmit a disaster guidance message corresponding to the risk stage according to the stage desirable.

Also, the controller 150 may receive real-time location information of user terminals from a plurality of user terminals or a location-based service providing server through the communication interface unit 120 . In the former case, that is, when the disaster information providing server 100 receives real-time location information of the user terminals from a plurality of user terminals, the control unit 150 stores the real-time location information in the database unit (DB) 110 . can be stored in In this case, the controller 150 controls to store only the latest real-time location information for each user terminal. And, when the disaster occurrence data is received, user terminal information (ie, real-time location information of the user terminal) located in the subdivided risk region in the region may be acquired from the database unit (DB) 110 . On the other hand, in the latter case, that is, when the disaster information providing server 100 receives real-time location information of the user terminals from the location-based service providing server, the controller 150 determines that the disaster information providing server 100 is located Control to interwork with the base service providing server (not shown). In addition, when the disaster occurrence data is received, the user terminal information located in the subdivided risk region may be acquired from the location-based service providing server (not shown) through the communication interface unit 120 .

In addition, the control unit 150 may receive a response message to the disaster guidance message from the user terminal through the communication interface unit 120, and in response thereto, analyze the response message, and control to respond according to the result. . For example, when receiving a 'rescue request' message from the user terminal, the control unit 150 analyzes the 'rescue request' message, identifies the user terminal that transmitted the 'rescue request' message, and the user terminal It is possible to control to generate a rescue request delivery message including the location information of the rescue organization and deliver it to the management server of the rescue organization. On the other hand, if there is a user terminal that does not transmit a response message even after a predetermined waiting time has elapsed, the controller 150 may control to retransmit a previously transmitted disaster guidance message to the user terminal. To this end, the control unit 150 prepares a list (a.k.a., a first list) of user terminals that have transmitted the disaster guidance message and a list (a.k.a., a second list) of user terminals that have transmitted the response message, and , by comparing the lists (the first and second lists), it is possible to detect a user terminal that has not transmitted the response message.

5 is a flowchart illustrating an example of a processing process of a location-based disaster information providing server according to an embodiment of the present invention. 3 and 5 , first, in step D210 , the disaster information providing server 100 stores real-time location information of the user terminal in the database unit (DB) 110 . This is an example of the case where the disaster information providing server 100 receives real-time location information of the user terminal from the user terminal, and if the disaster information providing server 100 receives the real-time location information of the user terminal from the location-based service providing server In this case, step S210 can be omitted.

And, in step S220, when disaster occurrence data is received through the communication I/F 120, in steps S230 and S240, the hazardous area management unit 130 determines the risk area based on the information included in the disaster occurrence data. After setting, subdivide the risk area. In this case, the detailed description of the risk area setting and the risk area segmentation process is the same as described with reference to FIG. 3 .

In step S250, the control unit 150 acquires user terminal information located in the corresponding area for each risk region, and in step S260, the control unit 150 transmits a disaster guidance message based on the terminal information. In this case, the specific processing process of the controller 150 for performing steps S250 and S260 is the same as described in the description with reference to FIG. 3 .

Meanwhile, in step S265, when a response message to the disaster guidance message is received from the user terminal, the controller 150 analyzes the response message in step S270 and responds according to the result in step S275. For example, as a result of the analysis in step S270, if the received response message is a rescue request message, the location information of the corresponding terminal is detected, a rescue request delivery message including the location information is generated, and the rescue request is delivered. The message can be delivered to the management server of the rescue organization. If the response message is not received from the user terminal in step S265, the control unit 150 waits for a response for a predetermined time in steps S280 and S285, and even after a predetermined time elapses, the response message to the disaster guidance message is not received. If not, the disaster guide message is retransmitted (S260).

Although the example of FIG. 5 describes an example of a processing process depending on whether a response message is received for one user terminal, the present invention relates to a response message for all user terminals located in an area classified as a dangerous area. It includes a processing process depending on whether or not it is received. Therefore, in order to detect the user terminals that have not transmitted the response message, the controller 150 first analyzes the response message received by the controller 150 to identify the user terminals that have transmitted the response message, and in step S260 The control unit 150 may perform a series of processes of comparing the identified user terminals with the user terminals that have transmitted the disaster information message. And as a result, if the user terminals that have not transmitted the response message are detected until a predetermined time elapses, it is preferable to retransmit the disaster guidance message to the user terminals.

6 is a schematic block diagram of a user terminal according to an embodiment of the present invention. 3 and 6 , the user terminal 200 according to an embodiment of the present invention subdivides a hazardous area into risk stages in response to a disaster and provides a disaster guidance message set differently for each risk stage of the disaster A location-based disaster information service is provided by interworking with a disaster information providing server, and for this purpose, a communication interface unit (I/F) 210, a display unit 220, a control unit 230, and a user interface unit (I/F) 240 , a user location information processing unit 250 and a message generating unit 260 .

The communication interface unit (I/F) 210 provides an interface between the user terminal 200 and the communication network, but a disaster information message from the disaster information providing server 100 corresponding to the risk level of the area where the user terminal 200 is located , and transmits a response message to it.

The display unit 220 displays the disaster information message in response to the reception of the disaster information message. In this case, the display unit 220 may display a message for inducing a user's response signal to the disaster guidance message together. 8 shows an example of a screen display of such a user terminal 200a. That is, FIG. 8 is an example of a screen of a user terminal displaying a disaster guidance message and a response guidance message according to an embodiment of the present invention. Referring to FIG. 8 , the user terminal 200a displays the disaster guidance message and at the same time , a message to induce a response is displayed in the form of a button. In the example of FIG. 8 , a user who has confirmed the disaster guidance message can select either 'receipt confirmation (221a)' or 'rescue request (223a)'.

The control unit 230 controls the overall operation of the user terminal 200 based on a preset operation algorithm, but the communication interface unit 210 and the display unit so that the user terminal 200 receives and displays the disaster information message. 220) is controlled.

The user interface unit (I/F) 240 provides an interface with the user, but receives the user's response to the disaster guidance message displayed on the display unit 220 . As in the example of FIG. 8 , when a user touches a desired content among the response contents of the 'receipt confirmation 221a' or the 'rescue request (223a)' implemented in the form of a button, the content is input as a response message, the user The interface unit (I/F) 240 may include such a screen configuration and a touch screen.

The user location information processing unit 250 transmits real-time location information of the user terminal 200 to the disaster information providing server 100 . That is, the user location information processing unit 250 receives the real-time location information of the user terminal 200 and transmits it to the disaster information providing server 100 . To this end, the user location information processing unit 250 may receive its own location information from a base station or GPS of a mobile communication network at regular time intervals, and transmit the information in real time.

The message generating unit 260 generates a response message to the disaster guidance message based on the user's response signal input through the user interface unit (I/F) 240 , and transmits the response message to the communication interface unit ( It is transmitted to the disaster information providing server 100 through the I/F) 210 . For example, when an 'acknowledgment' response is input from the user interface unit (I/F) 240 , the message generating unit 260 may include identification information of the corresponding user terminal; and the user's response is 'acknowledgment'. In order to indicate that , a response message including an identification value promised to each other between the disaster information providing server and the user terminal may be generated. Alternatively, when a 'rescue request' response is input from the user interface unit (I/F) 240 , the message generating unit 260 may include identification information of the corresponding user terminal; an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and a response message including real-time location information of the user terminal may be generated. Then, the response message is transmitted to the disaster information providing server 100 through the communication interface unit (I/F) 210 .

7 is a flowchart for explaining an example of a processing process of a user terminal according to an embodiment of the present invention. 6 and 7, the processing process of the user terminal according to an embodiment of the present invention is as follows. First, in step S310, the user terminal 200 checks whether a disaster information message is received from the disaster information providing server 100, and in step S320, when the disaster information message is received as a result of the check, the disaster information message is displayed. do. At this time, the user terminal 200 receives and displays the disaster information message set differently for each risk level of the disaster from the disaster information providing server 100 . 8 shows an example of a screen display of such a user terminal 200a. Referring to FIG. 8 , the user terminal 200a displays the disaster guidance message and, at the same time, displays a message for inducing a response in the form of a button. In the example of FIG. 8 , a user who has confirmed the disaster guidance message can select either 'receipt confirmation (221a)' or 'rescue request (223a)'.

And, when the user's response signal to the disaster guidance message is input in step S330, the controller 230 generates a response message to the disaster guidance message based on the user's response signal in step S340. In the example screen of FIG. 8 , when the user selects any one of 'acknowledgment 221a' or 'rescue request (223a)' and a corresponding signal is input, the control unit 230 responds based on the response signal. generated response message. For example, when the user selects 'acknowledgment', the control unit 230 may include identification information of the corresponding user terminal; And to indicate that the user's response is 'acknowledgment', a response message including an identification value promised to each other between the disaster information providing server and the user terminal is generated, and when the user selects 'rescue request', the control unit ( 230) is identification information of the corresponding user terminal; an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and generates a response message including real-time location information of the user terminal.

In step S350, the response message is transmitted to the disaster information providing server.

In the exemplary system described above, the methods are described on the basis of a flowchart as a series of steps or blocks, however, the present invention is not limited to the order of steps, and some steps may occur in a different order or concurrent with other steps as described above. can

In addition, those skilled in the art will understand that the steps shown in the flowchart are not exhaustive and that other steps may be included or that one or more steps in the flowchart may be deleted without affecting the scope of the present invention.

Claims (33)

In a method for providing location-based disaster information of a disaster information providing server that generates a disaster guidance message in conjunction with a disaster monitoring server that generates disaster data in the event of a disaster and then delivers it to a plurality of user terminals,
a location information receiving step of receiving real-time location information of a corresponding user terminal from a plurality of user terminals approved for sharing real-time location information with the disaster information providing server, and storing/managing it;
a first step of receiving, from the disaster monitoring server, disaster occurrence data including a disaster occurrence location, a disaster impact range, and a disaster risk degree;
A predetermined radial distance (

a second step of setting an area within ) as a danger area, but setting an area including a disaster impact range included in the disaster occurrence data as the danger area;
Distance from the disaster location (

,

) a third step of subdividing the risk area into risk stages by reflecting;
a fourth step of obtaining user terminal information located in a corresponding area in the subdivided risk area based on the real-time location information of the user terminals stored in the location information receiving step;
a fifth step of transmitting a disaster guidance message to corresponding user terminals based on the obtained user terminal information;
a sixth step of receiving a response message to the disaster guidance message from the user terminals; and
a seventh step of analyzing the response message and corresponding according to the result,
The third step is
Radius (

)this

After dividing into a plurality of segments, the subdivided dangerous area is grouped into a plurality of groups, and the location information of the user terminal, the disaster information message transmission information, and a response message to the disaster information message are grouped into the group. to be managed by Location-based disaster information providing method, characterized in that. According to claim 1, wherein the second step
Location-based disaster information providing method, characterized in that the area including the impact range of the disaster is set as a dangerous area. According to claim 1, wherein the third step
A location-based disaster information providing method, characterized in that the dangerous area is subdivided into a severe level area, a boundary level area, a caution level area, and an interest level area. 4. The method of claim 3, wherein the third step

If ,
Distance from the disaster location (

)end

Areas that satisfy the Severe Stage Area;
Distance from the disaster location (

)end

An area that satisfies the boundary stage area;
Distance from the disaster location (

)end

An area that satisfies the state level area; and
Distance from the disaster location (

)end

A method for providing location-based disaster information, characterized in that the region satisfying the delete delete delete delete According to claim 1,
The disaster information providing server interworks with a location-based service providing server,
The fourth step is
The location-based disaster information providing method, characterized in that collecting the user terminal information located in the corresponding area for each of the subdivided risk regions from the location-based service providing server. According to claim 1,
Further comprising a disaster guide message setting step of setting different disaster guide messages for each risk step of the disaster,
The fifth step is
A method for providing location-based disaster information, characterized in that the user terminals transmit a disaster guidance message corresponding to the risk level according to the risk level of the area where each of the user terminals is located. The method of claim 1, wherein the seventh step
When the received response message is a rescue request message,
a step 7-1 of detecting location information of the terminal that has transmitted the rescue request message and generating a rescue request delivery message including the location information; and
and a step 7-2 of transmitting the rescue request delivery message to a management server of a rescue organization. 12. The method of claim 11, wherein the seventh step
a step 7-3 of identifying user terminals that have transmitted the response message;
a step 7-4 of comparing, by the disaster information providing server, the user terminals to which the disaster guide message has been transmitted in the sixth step, and the user terminals transmitting the response message to the disaster information providing server; and
As a result of the comparison, a step 7-5 of detecting user terminals that have not transmitted the response message and retransmitting a disaster guidance message to the user terminal that has not transmitted the response message. Way. The method of claim 1, wherein the seventh step
Steps 7-6 of identifying user terminals that have transmitted the response message;
a step 7-7 of comparing, by the disaster information providing server, the user terminals to which the disaster guide message is transmitted in the fifth step, and the user terminals transmitting the response message to the disaster information providing server; and
As a result of the comparison, step 7-8 of detecting user terminals that have not transmitted the response message, and retransmitting a disaster guidance message to the user terminal that has not transmitted the response message, providing location-based disaster information Way. Interlocking with a disaster monitoring server that generates disaster occurrence data in the event of a disaster, setting a risk area based on a radial distance from the disaster occurrence location, and setting an area including a disaster impact range included in the disaster occurrence data is the risk A location-based disaster of a user terminal that provides a location-based disaster information provision service in conjunction with a disaster information providing server that subdivides the risk area into a risk phase after setting it as an area and provides a disaster guide message set differently for each risk phase of a disaster In the information providing method,
a location information delivery step in which the user terminal receives its own location information in real time and transmits the location information to the disaster information providing server;
a first step of receiving, from the disaster information providing server, a disaster guidance message corresponding to a risk level of an area in which the user terminal is located;
a second step of displaying the disaster guidance message;
a third step of receiving a user's response signal to the disaster guidance message;
a fourth step of generating a response message to the disaster guidance message based on the user's response signal; and
A fifth step of transmitting the response message to the disaster information providing server,
The second step is
A message for inducing a user's response signal to the disaster guidance message is displayed together, and a message for inducing a response of either an acknowledgment or a rescue request from the user is displayed together with the disaster guidance message. How to provide location-based disaster information. delete delete delete 15. The method of claim 14, wherein the fourth step
When the 'acknowledgment' response is input in the third step
identification information of the corresponding user terminal; and
In order to indicate that the user's response is 'acknowledgment', a response message including an identification value promised to each other between the disaster information providing server and the user terminal is generated. 15. The method of claim 14, wherein the fourth step
When the 'rescue request' response is input in the third step
identification information of the corresponding user terminal;
an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and
Location-based disaster information providing method, characterized in that generating a response message including the real-time location information of the user terminal. When a disaster occurs, it is linked with a disaster monitoring server that generates disaster occurrence data including the location of the disaster, the extent of the impact of the disaster, and the degree of risk of the disaster to generate a disaster information message and then to the disaster information providing server that delivers it to multiple user terminals. in,
providing an interface between the disaster information providing server and a communication network, acquiring the disaster occurrence data and user terminal information through the communication network, delivering the disaster guidance message to the user terminal, and receiving a response message from the user terminal a communication interface unit providing a communication interface;
In response to the reception of the disaster occurrence data, a predetermined radial distance (

) is set as a risk area, but an area including the range of impact of the disaster included in the disaster occurrence data is set as the risk area, and the distance from the disaster occurrence location (

,

) to subdivide the risk area into risk stages, and then divide the subdivided risk area into a radius (

)this

a risk area management unit for grouping the subdivided risk area into a plurality of groups by dividing it into a plurality of segments;
a database unit for storing disaster guide information set differently for each risk level of a disaster;
a message generating unit for generating a disaster guidance message to be delivered to the user terminal based on the information stored in the database unit; and
A control unit for controlling operations of the communication interface unit, the dangerous area management unit, the database unit, and the message generation unit,
the control unit
After receiving real-time location information from a plurality of user terminals through the communication interface unit, the real-time location information is stored in the database unit, and controls to store only the latest real-time location information for each user terminal,
In response to the reception of the disaster occurrence data, after obtaining the user terminal information located in the area for each of the subdivided risk regions from the database unit, based on the user terminal information, the user terminal is located at the risk stage of the area where each of the user terminals is located. Control to generate and transmit a disaster guidance message corresponding to the risk level according to the
In response to receiving the response message from the user terminal, the response message is analyzed and controlled to respond according to the result,
The location-based disaster information providing server, characterized in that the group manages the location information of the user terminal, the disaster guide message transmission information, and a response message to the disaster guide message. delete 21. The method of claim 20,
The disaster information providing server interworks with a location-based service providing server,
the control unit
The location-based disaster information providing server, characterized in that in response to the reception of the disaster occurrence data, the location-based service providing server through the communication interface unit, the location-based disaster information providing server, characterized in that it acquires the user terminal information located in the region in the subdivided risk region. The method of claim 20, wherein the control unit
Checking whether a response message for each user terminal to the disaster guidance message is received,
A location-based disaster information providing server, comprising controlling to retransmit a previously transmitted disaster guidance message to a user terminal that does not transmit a response message even after a predetermined waiting time has elapsed. 24. The method of claim 23, wherein the control unit
When a response message for each user terminal to the disaster guidance message is received,
A location-based disaster information providing server, characterized in that by analyzing the response message, if it is a rescue request message, a rescue request delivery message including location information of the user terminal is generated and controlled to be delivered to a management server of a rescue organization. The method of claim 20, wherein the hazardous area management unit
A location-based disaster information providing server, characterized in that the area including the range of impact of the disaster is set as the risk area. 26. The method of claim 25, wherein the hazardous area management unit
The risk area is subdivided into a critical level area, a vigilant level area, a caution level area, and a concern level area,

If ,
Distance from the disaster location (

)end

Areas that satisfy the Severe Stage Area;
Distance from the disaster location (

)end

An area that satisfies the boundary stage area;
Distance from the disaster location (

)end

An area that satisfies the state level area; and
Distance from the disaster location (

)end

Location-based disaster information providing server, characterized in that the region that satisfies the level of interest is subdivided into regions of interest. delete Interlocking with a disaster monitoring server that generates disaster occurrence data in the event of a disaster, setting a risk area based on a radial distance from the disaster occurrence location, and setting an area including a disaster impact range included in the disaster occurrence data is the risk In a user terminal that provides a location-based disaster information service in conjunction with a disaster information providing server that subdivides the risk area into risk stages after setting it as an area and provides a disaster guide message set differently for each risk stage of a disaster,
a user location information processing unit for receiving real-time location information of the user terminal and transmitting it to the disaster information providing server;
Communication providing an interface between the user terminal and a communication network, and providing a communication interface for receiving a disaster guidance message corresponding to a risk level in an area where the user terminal is located from the disaster information providing server, and transmitting a response message thereto interface unit;
a display unit for displaying the disaster information message in response to the reception of the disaster information message;
a user interface unit that provides an interface with a user, and receives a user's response to the disaster guidance message displayed on the display unit; and
A message generator for generating a response message to the disaster guidance message based on the user's response signal input through the user interface unit, and transmitting the response message to the disaster information providing server through the communication interface unit,
the display unit
A message for inducing a user's response signal to the disaster guidance message is displayed together, and a message for inducing a response of either an acknowledgment or a rescue request from the user is displayed together with the disaster guidance message. user terminal. delete delete delete The method of claim 28, wherein the message generating unit
When a 'acknowledgment' response is input from the user interface unit
identification information of the corresponding user terminal; and
In order to indicate that the user's response is 'acknowledgment', a response message including an identification value promised to each other between the disaster information providing server and the user terminal is generated. The method of claim 28, wherein the message generating unit
When a 'rescue request' response is input from the user interface unit
identification information of the corresponding user terminal;
an identification value promised to each other between the disaster information providing server and the user terminal to indicate that the user's response is a 'rescue request'; and
User terminal, characterized in that for generating a response message including the real-time location information of the user terminal.

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