KR20130012430A - System and method for the mash-up service of the danger information on the site - Google Patents

Abstract

PURPOSE: A system for providing site risk information and a disaster response service based on location and a method thereof are provided to supply a site risk information mesh-up service including bidirectional information collected in real time by interlinking general people with a relevant institution. CONSTITUTION: Communication terminals(10) include GPS modules and camera modules at least. The communication terminals obtain site risk information of a photo or video type by using the modules. The communication terminals transmit the obtained site risk information. A site risk information management server(30) builds a site risk information database by using the received site risk information. [Reference numerals] (10a) Communication terminal A; (10b) Communication terminal B; (10c) Communication terminal C; (10d) Communication terminal D; (20) Wire and wireless communication network; (30) Site risk information management server; (40) Related institution server; (50) Display media

Description

System for risk information mashup service and method thereof

The present invention relates to a service system for providing on-site risk information and a method thereof, and more particularly, on-site risk information mashup in which two-way information (on-site risk information and follow-up information) is collected in real time in conjunction with the general public and related organizations. The present invention relates to a site risk information mashup service system and a method for providing a service, and in particular, to significantly improve the participation rate of site risk information provision by a non-specific number.

Generally, a national disaster / disaster management system that collects various disaster / disaster-related information by using sensors such as cameras, rain gauges and wind vanes, or intelligent traffic information system (ITS) that collects traffic-related information using CCTVs. In the technical field, using location information and image information acquired by applying a known geographic information system, it is possible to promptly deal with disasters / disasters such as wildfires and floods, or include traffic accidents and congested areas. Provide users with various information on road traffic conditions.

However, the conventional geographic information system applied in the technical field such as the national disaster / disaster management system or the intelligent traffic information system (ITS) as described above collects the video information through the CCTV installed in a specific place and sends it to the server. Because it collects various disaster / disaster-related information by the automatic transmission method, there is a disadvantage in that it does not provide enough location information and video information on actual site situation of surveillance weak area where CCTV is not installed or human traffic is rare.

In fact, when the conventional geographic information system is applied to the national disaster / disaster management system, since the positions of the cameras, the rain gauge, the wind vane, and the like are fixed in a specific area, the situation room has a Video information could not be obtained in real time.

In addition, when the conventional geographic information system is applied to the intelligent traffic information system (ITS), the image of the traffic situation is only in a limited position where the CCTV is fixed, although the position requiring the predetermined image information is not limited to the road. The problem is that information can be provided to the user.

In order to overcome these limitations, a method has been proposed to receive information on disasters / disasters / traffic accidents through mobile phones, etc., or to quickly identify disaster situations and implement recovery measures by sending and receiving SMS / MMS text messages. .

However, the above-described technical methods have not been able to substantially overcome the limitations of the conventional national disaster / disaster management system or intelligent traffic information system due to the low participation rate of information provision by the general public. Only on-site information could be obtained, and situation grasping has limitations such as effective situation grasping, prompt information delivery to general public, control, and command delivery by simply displaying the point or area of a specific disaster.

The present invention has been made to solve the above problems, the object of the present invention is to collect the site risk information from an unspecified number in real time and also to share it in real time to avoid the field risk in advance In particular, it is to provide a site risk information mashup service system and method that can maximize the practical utility of the public by actively providing the site risk information.

Another object of the present invention can be provided in real time, as well as site risk information when the risks generated in the site is removed through follow-up measures, so that the site situation can be quickly identified and accurate response It provides a risk information mashup service system and method thereof.

Another object of the present invention is to alert the citizens in the area where the alarm is issued when a natural disaster such as an earthquake, tsunami, typhoon, etc., as well as to quickly and automatically provide guidelines for evacuation or countermeasures for the disaster, the citizens disaster spread situation It is to provide an on-site risk information mashup service system and a method for reporting the risk.

The on-site risk information mashup service system according to the present invention for achieving the above object is equipped with at least a GPS module and a camera module to obtain on-site risk information in the form of pictures (or videos), and to obtain the acquired on-site risk information. A communication terminal transmitting through a wired or wireless communication network; And a site risk information management server configured to receive the site risk information in real time from the communication terminal through a wired / wireless communication network, to build a site risk information database using the received site risk information, and to provide it. The communication terminal may include an electronic map display function of displaying an electronic map indicating a current location on a screen of the communication terminal using GPS location information of the communication terminal; A photographing function for generating a photograph (or video) photographing operation of the communication terminal; A location information matching function for extracting GPS location information matching the photographed picture (or video) data; There is provided a memory in which an application program for realizing a data transmission function for transmitting the photographed photo (or video) data and GPS location information matching the photographed photo (or video) data to the field risk information management server. It is characterized by.

According to the on-site risk information mashup service system and method thereof according to the present invention, it is possible to collect in real time the on-site risk information corresponding to the actual on-site situation from general people scattered in various regions, limiting the limitations of the conventional surveillance vulnerability area. By overcoming the risk risk information to the public and related ministries quickly, the public can recognize the risk in advance and respond to it, and the ministries have a remarkable effect.

In addition, it is possible to maximize the motivation and participation of the communication terminal user's on-site risk information by automatically reading the priority relationship of duplicated on-the-spot risk information and whether or not it is overlapped and utilizing it. There is a remarkable effect that can greatly improve the power of collecting information.

In addition, the site risk information mashup service, which collects bi-directional information (site risk information and follow-up information) in real time, is provided through the site risk information server that is linked with the relevant agency server. Not only the facts but also the risks of on-site risk removal after the completion of follow-up actions can be provided in real time, thereby accurately identifying the site situation.

In addition, by providing on-site risk information and follow-up information in the form of an electronic map, the general public has the advantage of being able to grasp the on-site risk information very conveniently.

In addition, by providing the user of the communication terminal in the area where the site hazard occurred, the disaster response guideline in real time is provided for the proper evacuation or response of the site risk in real time so that the user can evacuate the site risk quickly and safely. There is.

1 is a block diagram showing the overall configuration of the on-site risk information mashup service system according to the present invention.
Figure 2 is a flow chart of the site risk information mashup service system according to the present invention.
3 is a block function diagram showing various functions of an application program recorded in a memory of the communication terminal of the present invention.
Figure 4 is a block diagram showing the detailed configuration of the site risk information management server of the present invention.
5 is a flow chart illustrating an information provision fee processing flow of the site risk information management server according to the present invention.
Figure 6 is an example of the disaster response guidelines displayed on the screen of the communication terminal of the user by the site risk information mashup service system according to the present invention.

The present invention is a field risk information mashup of two-way information (site risk information and follow-up information) collected in real time through a predetermined application program installed on a communication terminal, including a smartphone and a site risk information server that is linked to the relevant agency server. It provides the service, and furthermore, it proposes the technical features that can maximize the participation level of the user and the risk information provided by the user of the communication terminal through the technical configuration that reads the first site risk information and utilizes it.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment, advantages and features of the present invention.

Prior to the description, the term 'site' used in the present invention means a region or a place as a comprehensive meaning including all places where people or vehicles can be located or carried, such as general sidewalks and driveways as well as hiking trails. Site hazards, for example, traffic accidents, road damage, bridge damage, loads on roadways, human accidents and damages such as terror, fire, and forest fires, as well as accidents, disasters, landslides, heavy snow, earthquakes and typhoons. It is used to include all natural disasters such as floods, droughts, tsunamis, and infectious diseases. Furthermore, construction for repair / construction of elements (eg, roads, water and sewage, bridges, etc.) that can hinder the smooth traffic flow of vehicles. ) May be included.

1 is a block diagram showing the overall configuration of the on-site risk information mashup service system according to the present invention, FIG. 2 is a flow chart of the on-site risk information mashup service system according to the present invention, and FIG. 3 is a communication terminal of the present invention. Fig. 1 is a block function diagram showing various functions of the application program 11 recorded in the memory.

1 to 3, the on-site risk information mashup service system of the present invention is equipped with at least a GPS module and a camera module, and obtains the on-site risk information in the form of a photo (or video) by using the wire-wireless wireless wireframe. A communication terminal 10 transmitting through the communication network 20; On-site risk information management server for receiving the on-site risk information from the communication terminal 10 through the wired / wireless communication network 20, and using the received on-site risk information to build a field risk information database and to make it available for inquiry (30) )Wow; It is configured to include a related agency server 40 that is connected with the site risk information management server 30 receives the site risk information and provides follow-up action completion information.

The communication terminal 10 includes an electronic communication device having a GPS function capable of extracting and obtaining current location information, a camera function capable of capturing a picture (or video), a central processing unit (CPU), and a memory. Typical examples include smartphones, smart pads, notebooks, netbooks, and PDAs. In addition, the communication terminal 10 has a wired / wireless communication function capable of transmitting data including pictures, videos, GPS location information, SMS, and MMS through various communication networks 20 provided by a communication company. For reference, the communication network 20 may include, for example, a third generation mobile communication (3G) network, a fourth generation mobile communication (3G) network, a WiBro network, and a Wifi network.

On the other hand, the communication terminal 10 of the present invention is characterized in that the application program (Application Program 11) for realizing a variety of functions in the communication terminal is installed. The application program 11 is recorded and provided in a memory of the communication terminal 10, which includes both an external memory and an internal memory.

The application program 11 installed in the communication terminal 10 of the present invention can easily and conveniently collect and transmit on-site risk information by the user of the communication terminal and utilize the on-site risk information database constructed based on a plurality of on-site risk information. It is a structure part which guides so that it may be performed.

The application program 11 is basically configured to instruct or realize the electronic map display function 12, the photographing function 13, and the data transmission function 15 to the communication terminal 10.

The electronic map display function 12 requests an electronic map from the application program 11 to the site risk information management server 30 (S10), and receives it (S20) to digital information on the screen of the user's communication terminal 10. Refers to a function that allows the displayed map to be displayed. Particularly, when the application program 11 displays the electronic map on the screen of the communication terminal 10, the area corresponding to the current position of the communication terminal 10 based on the location information of the GPS module mounted on the communication terminal 10. It will display an electronic map indicating.

In addition, such an electronic map is linked to a geographic information system (GIS) that has a database of geographic and geographical information, and the electronic map information to which the geographic information system (GIS) is applied is stored and managed by a site risk information server, and communication terminals ( The on-site risk information mashup service is provided by combining the on-site risk information transmitted from 10a, 10b, 10c, and 10d with the follow-up action information transmitted from the related institution server 40.

The photographing function 13 refers to a function in which the application program 11 generates a photographing or photographing operation on the user's communication terminal 10. This shooting function 13 is configured to be associated with the shooting icon display function 14. The photographing icon display function 14 executes the application program 11 to display an electronic map based on the GPS location information of the communication terminal 10, and communicates a photographing icon having a predetermined shape indicating the start of photographing or video recording at the current location. Means a function to display on the terminal 10 screen. The photographing icon may be configured to be displayed on the electronic map (for example, the lower end of the electronic map) displayed on the screen of the communication terminal 10, or may be configured to be provided separately in the outer region of the electronic map. There will be.

The data transmission function 15 is a photograph (or video) data and the corresponding photograph (or video) data obtained by driving the photographing function 13 by touching (or clicking) the photographing icon displayed on the communication terminal 10. Means a function for guiding the GPS location information matched to the field risk information management server 30 (S30). This data transfer function 15 is configured to be associated with the transfer icon display function 16. The transmission icon display function 16 refers to a function of displaying a transmission icon of a predetermined shape on the communication terminal screen indicating the start of transmission of photographed and / or moving picture data.

On the other hand, when the application program 11 transmits the photo (or video) data containing the site hazard information of a specific point through the touch (or click) operation of the shooting icon displayed on the communication terminal 10, the photo (or In addition, the GPS location information matched to the data is transmitted together. The application program 11 of the present invention transmits the corresponding picture (the location information matching function 17 through the same location information matching function 17 as in the following first, second or third embodiment). Or to acquire GPS location information of the point where the video is captured and match it with the corresponding picture (or video) data.

The first preferred embodiment of the positional information matching function 17 is configured to record GPS positional information together when a photographing (or video) photographing operation of the communication terminal 10 occurs. That is, when the shooting function 13 of the application program 11 is activated, the GPS of the point of time when the shooting operation is generated through the activated shooting function 13 (for example, the point of time when the 'shooting icon' is touched (or clicked)). The location information may be extracted and recorded, and the GPS location information recorded as described above may be transmitted together with the specific photograph (or video) data acquired.

The second preferred embodiment of the location information matching function 17 automatically records GPS location information at this time when the current location point on the electronic map displayed on the communication terminal 10 screen is selected through touch (for example, double touch). Alternatively, a separate location recording icon of a predetermined shape indicating the storage of GPS location information is displayed on the communication terminal screen and configured to automatically record GPS location information at this time when the location recording icon is touched (or clicked). can do.

The second preferred embodiment of the positional information matching function 17 is a GPS position at the time of transmission of picture (or video) data containing on-site danger information of a specific point by activating the data transmission function 15 of the application program. It can be configured to extract information and send it together.

In addition, the application program 11 is configured to further realize a login function in the communication terminal 10. That is, when the user activates the application program 11 recorded in the communication terminal 10, the login screen is displayed on the communication terminal, and when the login is completed through the input of ID and password, the above-described electronic map display function It is possible to enter various functions including (12).

On the other hand, when the photo (or video) data and GPS location information matched to the field risk information management server 30, the login ID (ID) to each of the communication terminals (10a, 10b, 10c, 10d) uniquely The assigned unique number (for example, a mobile number or a unique number assigned when the application program 11 is down) is also transmitted. The login ID or unique number is an identifier for identifying the person who provided the site risk information. The identifier is used in the information processing fee processing to be described later.

In addition, in the above description, for example, the picture or video as a form of the site risk information that the communication terminal 10 obtains and transmits to the site risk information management server 30, the communication terminal 10 together with the picture or video. Of course, the text type of the user may also be included.

4 is a block diagram showing the detailed configuration of the site risk information management server of the present invention.

1 and 4, the site risk information management server 30 receives the site risk information in the form of a picture (or video) from the communication terminal 10 through the wired / wireless communication network 20, and receives the received site risk information. The site risk information database can be built and provided to be used for inquiry. Also, it is linked with the related agency server 40 to update the site information including the electronic map in real time so that other communication terminal users can always reflect the latest status. It is configured to provide.

The on-site risk information management server 30 is in detail an information receiver 31, an information storage unit 32, an information extractor 33, an information calculator 34, an information updater 35 and an information transmitter 36. It is configured to include.

The information receiver 31 corresponds to a component that receives site hazard information data of a point where a site hazard occurs from a communication terminal 10 in which the application program 11 of the present invention is installed through wired or wireless communication. For reference, the site hazard information received by the information receiver 31 basically includes photo (or video) data and GPS location information matched thereto, and may further include text characters.

The information storage unit 32 corresponds to a component that stores a database constructed based on various site hazard information received from the information receiver 31 (that is, pictures, video data, and text characters matched with GPS location information). .

The information extracting unit 33 is classified by site risk type (for example, traffic accident, bridge damage, road damage, street light installation, road drop, landslide, river invasion, etc.) from various photo (or video) data stored in the information storage unit 32. It is a component that extracts and classifies data such as region, period (day, week, month, year), and displays the processed category data on the electronic map.

For reference, as a method of displaying data for each category on the electronic map, it may be displayed using various known forms such as color, symbol, iconized figure or pop-up window. For example, data for each site type may be displayed on the electronic map by dividing it by color and symbol, and the number of complaints may be added next to the symbol for the same point.

As such, the electronic map displaying the data for each category is displayed on the screen of the communication terminal 10 through the electronic map display function 12 of the application program 11 installed in the communication terminal 10.

In addition, the category-specific database established by the information extraction unit 33 may be configured to be connected to the field risk information management server 30 through the application of the communication terminal 10 to be indexed, searched and searched.

The information transmission unit 36 provides a site hazard information database including a database constructed by the information extraction unit 33, that is, the above-mentioned category-specific data to an electronic map reflecting the category-specific data (S40, S50). S60). The person concerned includes a user of the communication terminal in which the application program 11 of the present invention is installed, and a related agency server 40 associated with the site risk information management server 30.

In addition, the information transmitting unit 36 transmits (S80) to the communication terminal 10 in which the application program 11 is installed when updated to the site risk information database reflecting the follow-up action information (S70) received from the relevant authority, the related party In addition to the fact that the site risk has occurred, it is possible to quickly identify the fact that the site risk has been eliminated.

In addition, the information transmitter 36 detects through the GPS location information that the user of the communication terminal 10 installed with the application program 11 of the present invention is expected to enter or is in close proximity to a point where a site hazard occurs. If so, it may be configured to automatically transmit an information confirmation alarm message, etc. requesting confirmation of the site hazard information for the point to the communication terminal (10). For reference, the confirmation of the site risk information, for example, can be confirmed by receiving an electronic map reflecting the site risk information from the site risk information management server 30 or by searching and inquiring through the site risk information management server 30. Can be achieved.

The information calculation unit 34 is the first site risk information received from the communication terminal 10 (especially, data in the form of photographs and videos) is transmitted to the site risk information generated at a specific point or subsequently transmitted first. It is to determine whether the site hazard information is duplicated with the site hazard information through the process of the first or second embodiment as follows.

According to a first preferred embodiment of the process of determining whether or not to duplicate the site risk information, the information calculation unit 34 of the site risk information management server 30 is the transmission of the photo (or video) data through the error radius value stored by the operator, etc. Determines whether the site hazard information was originally transmitted for the incident. For reference, the error radius value refers to a radius range (for example, 100m, etc.) defined based on a specific GPS position coordinate, and the error radius value may be set differently according to the location, characteristics, and circumstances of the site.

The initial site risk information determination process using the error radius value of the first embodiment is as follows. When the photo (or video) data is received from the specific communication terminal 10, the error radius is calculated based on the GPS position coordinates of the received photo (or video) data, and the GPS is included in the error radius determined by the calculation. If no other picture (or video) data with position coordinates is present in the database described above, the received picture (or video) data is read as the first transmitted picture (or video) data.

On the other hand, if the other photo (or video) data with GPS position coordinates included in the error radius based on the GPS position coordinates of the received photo (or video) data already exists in the above-mentioned database, the received photo (or video) ) Will be read as subsequently transmitted picture (or video) data.

The second preferred embodiment of the process of determining whether site risk information is duplicated is that once the first photo (or video) data transmitted for the site risk occurrence point is secured, a photo (or video) containing the site risk information for the same point thereafter is obtained. Calculate the data automatically.

That is, the information computing unit 34 of the site risk information management server 30 of the second embodiment transmits the photo (or video) data subsequently transmitted to the corresponding accident point through the error radius value stored by the operator. Automatic identification of site hazard information.

In more detail, the error radius is calculated and determined based on the GPS position coordinates of the first transmitted picture (or video) data, and the GPS position coordinates of the subsequently transmitted picture (or video) data are included in the error radius. In this case, the picture (or video) data that is duplicated with the first transmitted picture (or video) data is read.

In addition, the site risk information management server 30 of the present invention through the process of determining whether the site risk information is duplicated according to the first or second embodiment described above, the scene risk that the transmitted picture (or video) data is first transmitted If it is determined as information, a signal indicating a normal reception completion (for example, 'first information' SMS message) is transmitted to the corresponding communication terminal 10, and the transmitted picture (or video) data is discriminated as subsequently transmitted field risk information. When the signal indicating the completion of the reception (for example, 'sequence information' SMS message) transmits to the communication terminal 10.

In addition, whether the picture (or video) data containing the site hazard information generated at a specific point is the first transmission data or the subsequent transmission data is used in the information processing fee processing. Details of the information processing fee processing process will be described later.

On-site risk information management server 30 is also configured to update the site information, including the electronic map in real time in connection with the relevant agency server 40, as described above, the update of the site risk information associated with the relevant agency server 40 is This is achieved through the update unit 35.

That is, the relevant agency that received the specific site risk information from the site risk information management server 30 completed the follow-up action on the point indicated by the site risk information, and thus indicates that the follow-up action is completed (hereinafter referred to as 'follow-up action information'). ') Is transmitted to the relevant agency server 40 to the site risk information management server 30, the information update unit 35 of the present invention is updated to the database reflecting this. For reference, the database reflecting follow-up information is updated by excluding specific site risk information (ie, site risk information corresponding to the received follow-up information) displayed in the form of symbol, icon, etc. on the electronic map. Means site information.

On the other hand, when the electronic map reflecting the subsequent action information and reflecting the update is completed, the electronic map updated to the latest state is transmitted to the communication terminal 10 in which the application program 11 of the present invention is installed.

Therefore, the user of the communication terminal 10 installed with the application program 11 of the present invention can quickly grasp not only the fact of occurrence of the on-site risk but also the fact that the on-site risk has been followed up and thus maximize the user's situation response and convenience. You can do it.

The related organization server 40 of the present invention receives the site risk information from the site risk information management server 30 in real time, and when the follow-up action for the point indicated by the site risk information is completed, the follow-up action information corresponding thereto is completed. It generates and transmits to the site risk information management server 30 (S70). For reference, related organizations are those that need on-site risk information, for example, the traffic information situation room of local governments, road construction, police departments, and construction companies.

The site risk information mashup service system of the present invention collects location-based site risk information from the communication terminal 10 and is provided with a follow-up action information in connection with a related agency server 40 to provide a mashup service that collects bidirectional information. By being configured, the user of the communication terminal can always be provided with the site information reflecting the latest on-site risk information, and the related organizations have an excellent effect of achieving prompt situational action and smooth work processing.

On the other hand, when the on-site risk information mashup service system of the present invention is configured so that the on-site risk information management server 30 is linked to a budget related organization, information on facilities such as roads and bridges (for example, location, time of completion, Based on the budget data for the initial construction budget) and the facility restoration case, the simulation information for the site recovery budget for each accident location is constructed, and when a site risk occurs at a specific point, another related institution (for example, a construction company) Providing to the government can lead to the rapid progress of work for follow-up of accident-prone areas.

As an extended embodiment of the on-site risk information mashup service system of the present invention, the on-site risk information management server 30 may also be configured to transmit the on-site risk information to the display medium server 50 according to the interface.

The display medium refers to a display device installed on a road, sidewalk, or the like for visual display of information. For example, the display medium and the display media board (VMS) may be used. The expression medium server 50 refers to a system that displays a predetermined phrase or figure by operating the expression medium. The promised interface means a control command and a data transmission command using a network standard protocol including TPC / IP and RS232C.

When the site risk information management server 30 transmits the site risk information message to the display medium server 50 as described above, the display medium server 50 of the display medium that is disposed in close proximity to the point where the site risk occurs is fixed scheduling. In addition, the contents of the emergency situation are prepared and displayed to the outside through the display medium, thereby providing the advantage that the non-installer to the non-user of the communication terminal 10 can grasp the site risk information in real time.

In addition, as an extended embodiment of the site risk information mashup service system of the present invention, among the site risk information collected from the communication terminal 10 by the site risk information management server 30, in particular, site risk information related to inducing traffic delay is received. If possible, provide it in conjunction with TPEG (real-time traffic information), but detect the cause of traffic jams (e.g. vehicle accidents, bridge damage, etc.) posted on the photo (or video) and text messages of the site hazard information. By providing a combination of the analysis information also provides the advantage that the non-installer to the non-users of the communication terminal 10 can identify the traffic-related site risk information and its cause in real time.

5 is a flow chart illustrating an information provision fee processing flow of the site risk information management server according to the present invention.

Prior to the description, it is assumed that a user who owns the communication terminal 'A' having the application program 11 of the present invention witnessed a vehicle accident at the 'B' point of the roadway while the vehicle is running.

In this case, the communication terminal 'A' generates photo (or video) data 'C' matched with GPS location information and transmits it to the site risk information management server 30 (S100). At this time, the site risk information management server 30 is a picture (or video) to distinguish the communication terminal 10a transmitting the picture (or video) data 'C' from other communication terminals (10b, 10c, 10d). ) Register and store a unique identifier (login ID, unique number, etc.) information in the data 'C' (S110).

In addition, the information calculation unit 34 of the site risk information management server 30 determines whether the received picture (or video) data 'C' is the first site risk information transmitted on the site risk generated at the point 'B' or subsequently. It is determined through the process of the first or second embodiment described above whether it is transmitted and the site risk information overlapped with the initial site risk information.

As a result of the determination, when the picture (or video) data 'C' is read as the subsequent site risk information transmitted as the first site risk information, a signal indicating completion of the reception (for example, 'follow-up information' SMS message) is read. To the communication terminal 'A' and terminates the information provision fee processing process (S130).

As a result of the determination, when the picture (or video) data 'C' is read as the site risk information transmitted for the first time, a signal indicating normal reception completion (for example, 'first information' SMS message) is transmitted to the communication terminal 'A'. (S140)

In addition, a notification SMS for payment of a predetermined information providing fee is sent to the user of the communication terminal 10a which provided the initial site risk information. (S150) The information providing fee is not only in the form of money but also cultural gift certificates, book gift certificates, coupons. Etc. may be provided in various forms. In addition, the guide SMS may include a fee details (eg, amount), a payment institution, a beneficiary name (or a beneficiary ID), a scheduled payment date, and the like.

Then, when the communication terminal 10a completes the confirmation of the guide SMS or the information provider requests the fee, the site risk information management server 30 performs the processing of paying the information provision fee to the information provider. Payment of the information provision fee can be processed in various forms, such as depositing into a contracted linked account or charging a coupon on a predetermined website.

For reference, in the above description and description to determine the duplicate site risk information based only on the error radius and to process the information provision fee payment based on the error radius, in determining the duplicate site risk information, additional discrimination conditions other than the error radius are added. Of course, it can also be configured to go through. For example, if the site hazard information is photographic data, image matching rate analysis can be applied. In this case, when the matching rate of the received photo data with other existing photo data exceeds a predetermined level, it may be configured to read the photo data for the same point, that is, the subsequent site hazard information.

By the above configuration, the on-site risk information mashup service system of the present invention determines the initial on-site risk information and performs the provision of information provision fee based thereon, furthermore, the process for the final payment of the fee from the initial on-site risk information determination All of them characterized in that configured to be able to quickly and automatically process systematically. As a result, the provider of the on-site risk information can verify the expectation of financial compensation as well as whether the on-site risk information provided by the user is subject to a fee payment (within a few minutes). Motivation and participation can be maximized, resulting in a significant improvement in the ability to collect real-time risk information.

As described above, the on-site risk information mashup service system according to the present invention can be provided in real-time by overcoming the limitations of the surveillance weak area, the on-site risk occurrence of the entire area as well as the fact that the on-site risk removal upon completion of follow-up actions. This makes it possible to accurately grasp the site situation.

In addition, the site risk information mashup service system of the present invention is configured to further provide disaster response guidelines for appropriate evacuation and response to the site risk in addition to the real-time provision of the site risk occurrence information and follow-up information as described above. In addition, these disaster response guidelines are provided through the situation information analysis unit 37 of the site risk information management server.

The situation information analysis unit 37 of the present invention manages on-site risk information received from a plurality of communication terminals in real time for each type, and on-site risk information for analyzing the on-site risk information for each type based on GPS location information in real time. Through monitoring, it provides an alarm message to the user of the communication terminal in the area where the site risk information has occurred or is expected to enter, and provides disaster response guidelines for appropriate response. give.

'Real-time management by field risk information type' of the situation information analysis unit 37 is classified by the above-mentioned information extraction unit for each field risk type (for example, traffic accident, bridge damage, road damage, street lamp installation, road drop, landslide) , River invasion, etc.), region by region, and period (day, week, month, year).

The disaster response guidelines generated and provided by the situation information analysis unit 37 may be provided in various forms, for example, the direction of evacuation, the location of the shelter, emergency response tips, It may be configured to display and provide a real-time damage situation on the electronic map.

Meanwhile, the situation information analysis unit 37 described and illustrated above is configured to be included as a function unit in the site risk information management server 30, but is provided separately from the site risk information management server 30. Of course, the same purpose can be achieved by separately configuring the server and configuring it to be linked with the site risk information management server.

6 is an example of the disaster response guidelines displayed on the screen of the communication terminal of the user by the site risk information mashup service system according to the present invention.

Referring to FIG. 6, a field risk called 'explosive threat terrorism' occurred in Gangnam station, and the site risk information management server of the present invention received corresponding field risk information (explosive threat threat terrorism) from a predetermined communication terminal in real time. Assume that the user terminal 'A' of the communication terminal 10 having the application program 11 installed therein is located in Gangnam station.

In this case, the situation information analysis unit 37 of the present invention through the situation analysis based on the site risk type information (that is, 'terrorism') and GPS location information (that is, Gangnam station) classified from the received site risk information The appropriate dynamic response plan (ie, disaster response guidelines) is extracted and provided to user 'A' in the area.

In the case of the embodiment of Figure 6, the situation information analysis unit 37 generates a disaster response guidelines expressed in the form of text and arrows, such as arrows on the electronic map corresponding to the area where the on-site risk information called 'terrorism' occurred Transmits to the communication terminal of the user 'A' in the corresponding area, and the communication terminal of the user 'A' displays an electronic map on which the disaster response guidelines are presented through the application program 11 installed on the communication terminal 10 screen. By doing so, the user 'A' can respond quickly and safely from the on-site risks generated.

On the other hand, the site risk information mashup service system of the present invention as described above provides a guideline for the corresponding site risks in real time on the communication terminal, these guidelines are managed, updated and provided through the site risk information management server . However, if a communication is disconnected between the communication terminal and the site risk information management server when a danger occurs at a specific site, citizens in the area may not be provided with the above guidelines.

In order to overcome the above problems, the site risk information mashup service system of the present invention may be provided with minimal information for coping and evacuating the risk even when a communication terminal of a citizen at a predetermined risk site is in a communication failure state. It is another feature that is configured to allow.

That is, the on-site risk information mashup service system of the present invention is configured to further realize a function of providing a guideline that reflects at least the latest state, even if not a real-time guideline for a risk occurring at a specific site.

For example, the application program of the present invention installed in the communication terminal periodically connects to the on-site risk information management server to update the electronic map expressing the guidelines to the latest state and temporarily stores them in the communication terminal for a period of time without communication connection if necessary. You can also configure it to provide the user.

As described and illustrated above, the on-site risk information mashup service according to the present invention is equipped with at least a GPS module and a camera module, and obtains the on-site risk information in the form of a picture (or video) by using the on-site risk information. Communication terminal 10 for transmitting through a wired or wireless communication network; Receives the site risk information in real time from the communication terminal through a wired or wireless communication network, and is implemented based on the site risk information management server 30 to build and provide a site risk information database using the received site risk information.

In addition, an application execution step of the communication terminal 10 to activate the application program (11) installed in the memory provided in the communication terminal; An electronic map display step of displaying an electronic map indicating a current location on a screen of the communication terminal by using GPS location information of the communication terminal; A photographing step of generating a photographic (or video) photographing operation; A location information matching step of extracting GPS location information matching the photographed picture (or video) data; And a data transmission step of transmitting the captured photo (or video) data and GPS location information matching the captured photo (or video) data to the site risk information management server.

In addition, the picture (or video) transmitted by the site risk information management server 30 is the picture (or video) data first transmitted on the site risk generated at a specific point. A step for determining whether or not to duplicate the site risk information to determine whether the data; A guide message sending step of sending a message for guiding payment of a predetermined information providing fee to a communication terminal providing the first picture (or video) data when the picture is first transmitted (or video) data as a result of the determination; And a fee payment step of performing a process for payment of the information provision fee.

In addition, the site risk information mashup service system further includes a related agency server 40 associated with the site risk information management server 30, and the related agency server 40 provides site risk information from the site risk information management server. Receiving on-site risk information; When the follow-up action for the point indicated by the received site risk information is completed, it characterized in that it comprises a follow-up action information transmitting step of generating the follow-up action information corresponding to this to the site risk information management server.

On the other hand, follow-up action information receiving step for the site risk information management server 30 receives the follow-up action information from the relevant agency server; The method may further include a site risk information update step of updating the site risk information database in which the follow-up action information is reflected.

While the preferred embodiments of the present invention have been described and illustrated above using specific terms, such terms are used only for the purpose of clarifying the invention, and it is to be understood that the embodiment It will be obvious that various changes and modifications can be made without departing from the spirit and scope of the invention. Such modified embodiments should not be understood individually from the spirit and scope of the present invention, but should be regarded as being within the scope of the claims of the present invention.

10: communication terminal 11: application program
20: wired and wireless communication network 30: field risk information management server
40: related organization server 50: expression medium server

Claims (14)

A communication terminal equipped with at least a GPS module and a camera module to obtain field hazard information in the form of a photograph (or video), and to transmit the obtained field hazard information through a wired or wireless communication network; And a site risk information management server configured to receive the site risk information in real time from the communication terminal through a wired / wireless communication network, to build a site risk information database using the received site risk information, and to provide it.
The communication terminal,
An electronic map display function for displaying an electronic map indicating a current location on a screen of the communication terminal by using GPS location information of the communication terminal; A photographing function for generating a photograph (or video) photographing operation of the communication terminal; A location information matching function for extracting GPS location information matching the photographed picture (or video) data; And a memory in which an application program for realizing a data transmission function for transmitting the photographed photo (or video) data and the GPS position information matching the photographed photo (or video) data to the field hazard information management server is recorded. On-site risk information mashup service system characterized in that it is provided.
The method according to claim 1,
The communication terminal,
A shooting icon display function for displaying an icon for executing the shooting function on the screen of the communication terminal; And a memory in which an application program for realizing a transmission icon display function for displaying an icon for executing the data transmission function is displayed on the communication terminal screen.
The method according to claim 1,
The communication terminal,
When a photograph (or video) photographing operation of the communication terminal occurs, a memory having an application program for realizing the location information matching function for recording the GPS position information at the time of the photographing operation occurrence is provided. Risk Information Mashup Service System.
The method according to claim 1,
The site risk information management server,
An error radius value is stored to determine whether the picture (or video) data is transmitted for the first time on the spot hazard generated at a specific point, and the error radius is based on the GPS position coordinates of the received picture (or video) data. If there is no other picture (or video) data with GPS position coordinates included therein, the received picture (or video) data is read as the first transmitted picture (or video) data, and the When there is another picture (or video) data having GPS position coordinates included in the error radius based on the GPS position coordinates, the received picture (or video) data is read as subsequently transmitted picture (or video) data. On-site risk information mashup service system, characterized in that.
The method according to claim 1,
The site risk information management server,
An error radius value for determining subsequently transmitted picture (or video) data is stored for a site hazard generated at a specific point, and the error radius is based on the GPS position coordinate of the first transmitted picture (or video) data. And if the GPS position coordinates of the subsequently transmitted photo (or video) data are included in the error radius, the data is read as photo (or video) data that overlaps with the first transmitted photo (or video) data. On-site risk information mashup service system.
The method according to claim 4 or 5,
The site risk information management server,
When the picture (or video) data received from the communication terminal is the first picture (or video) data transmitted, a message for instructing payment of a predetermined information providing fee to the communication terminal providing the first picture (or video) data. Shipping, and the on-site risk information mashup service system, characterized in that for performing the processing for payment of the information provision fee.
The method according to claim 1,
Receive real-time risk information from the site-risk information management server, and when follow-up actions for the point indicated by the provided site-risk information is completed, generate follow-up information corresponding to the spot risk information management server and transmit it to the site-risk information management server. On-site risk information mashup service system, characterized in that it further comprises a related agency server.
The method of claim 7, wherein
The site risk information management server,
When receiving the follow-up information from the relevant agency server, on-site risk information mashup service system, characterized in that for updating the follow-up action information to at least on-site risk information database reflected in the electronic map. The method of claim 8,
The electronic map display function,
E-map information in which on-site risk information received from the communication terminal is represented on an electronic map, or electronic map information in which follow-up action information received from the related agency server is reflected on an electronic map is brought into communication with the on-site risk information management server On-site risk information mashup service system, characterized in that it further comprises a function to display on the terminal screen.
The method according to claim 1,
The site risk information management server,
Based on the type and location information of the site hazard information received from the communication terminal, the disaster response guidelines for evacuation or response from the site hazard in the form of a graphic or text on the electronic map of the area where the site hazard occurred On-site risk information mashup service system, characterized in that provided to the communication terminal to display.
A communication terminal equipped with at least a GPS module and a camera module to obtain field hazard information in the form of a photograph (or video), and to transmit the obtained field hazard information through a wired or wireless communication network; And on-site risk information mashup based on the on-site risk information management server that receives the on-site risk information from the communication terminal through a wired / wireless communication network in real time and constructs and provides a on-site risk information database using the received on-site risk information. As a service method,
The communication terminal,
An application execution step of activating an application program installed in a memory provided in the communication terminal;
An electronic map display step of displaying an electronic map indicating a current location on a screen of the communication terminal by using GPS location information of the communication terminal;
A photographing step of generating a photograph (or video) photographing operation;
A location information matching step of extracting GPS location information matching the photographed picture (or video) data; And
A field risk information mashup service, comprising: a data transmission step of transmitting photographed picture (or video) data and GPS location information matching the photographed picture (or video) data to the site risk information management server; Way.
12. The method of claim 11,
The site risk information management server,
Duplicate site risk information to determine whether the picture (or video) data received from the communication terminal is the first transmitted picture (or video) data or subsequent transmitted picture (or video) data for the on-site risk occurring at a specific point Determining whether or not;
A guide message sending step of sending a message for guiding payment of a predetermined information providing fee to a communication terminal providing the first picture (or video) data when the picture is first transmitted (or video) data as a result of the determination; And
On-site risk information mashup service method comprising the commission payment step of performing a process for payment of the information provision fee.
12. The method of claim 11,
Further comprising a related agency server associated with the site risk information management server,
The relevant agency server,
A site risk information receiving step of receiving site risk information from the site risk information management server; And
When the follow-up action for the point indicated by the received site risk information is completed, the field risk information comprising the step of transmitting the follow-up action information to generate the follow-up action information corresponding to this to the site risk information management server Mashup service method. The method of claim 13,
The site risk information management server,
A follow-up action information receiving step for receiving the follow-up action information from the related agency server; And
On-site risk information mashup service method, characterized in that it further comprises a site risk information update step of updating to the site risk information database reflecting the follow-up action information.

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