KR101602482B1 - Fire protection management system using geographical information and the control method thereof - Google Patents

Fire protection management system using geographical information and the control method thereof Download PDF

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Publication number
KR101602482B1
KR101602482B1 KR1020150114322A KR20150114322A KR101602482B1 KR 101602482 B1 KR101602482 B1 KR 101602482B1 KR 1020150114322 A KR1020150114322 A KR 1020150114322A KR 20150114322 A KR20150114322 A KR 20150114322A KR 101602482 B1 KR101602482 B1 KR 101602482B1
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KR
South Korea
Prior art keywords
information
position
location
structure
terminal
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KR1020150114322A
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Korean (ko)
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최영근
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(주)아이넷테크
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B21/00Alarms responsive to a single specified undesired or abnormal operating condition and not elsewhere provided for
    • G08B21/02Alarms for ensuring the safety of persons
    • G08B21/0202Child monitoring systems using a transmitter-receiver system carried by the parent and the child
    • G08B21/0263System arrangements wherein the object is to detect the direction in which child or item is located
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B21/00Alarms responsive to a single specified undesired or abnormal operating condition and not elsewhere provided for
    • G08B21/02Alarms for ensuring the safety of persons
    • G08B21/0202Child monitoring systems using a transmitter-receiver system carried by the parent and the child
    • G08B21/0205Specific application combined with child monitoring using a transmitter-receiver system
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/14Central alarm receiver or annunciator arrangements
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B5/00Visible signalling systems, e.g. personal calling systems, remote indication of seats occupied
    • G08B5/22Visible signalling systems, e.g. personal calling systems, remote indication of seats occupied using electric transmission; using electromagnetic transmission
    • G08B5/222Personal calling arrangements or devices, i.e. paging systems
    • G08B5/223Personal calling arrangements or devices, i.e. paging systems using wireless transmission
    • G08B5/224Paging receivers with visible signalling details
    • G08B5/225Display details
    • G08B5/226Display details with alphanumeric or graphic display means

Abstract

The present invention relates to a fire control system using geographic information and a control method thereof, and more particularly, to a fire control system using geographical information and more particularly to a fire control system using geographical information, And a fire control system using the geographical information, and a control method thereof.

Description

FIELD PROTECTION MANAGEMENT SYSTEM USING GEOGRAPHICAL INFORMATION AND THE CONTROL METHOD THEREOF FIELD OF THE INVENTION [0001]

The present invention relates to a fire control system using geographic information and a control method thereof, and more particularly, to a fire control system using geographical information and more particularly to a fire control system using geographical information, And a fire control system using the geographical information, and a control method thereof.

When an emergency such as a fire occurs, a paramedic who has been informed by the complainant arrives at the site to arrange the situation. In this process, the exchange of information through voice or wireless voice communication is currently limited there was. Therefore, the type, size, and severity of the field situation were to be communicated only to the dictate.

Even if a fire occurs, whether there is general digestion or combustion of chemical substances requiring special extinguishing materials, characteristics of the place where the fire occurs, whether there is casualty damage, the scale of the accident, It is almost impossible to pass all such information to the oral only. Therefore, on-site dispatch based on inadequate information can lead to various trial and error in the control of the on-site situation, and as a result, the emergency situation can not be handled more quickly.

Especially, although it is necessary to reach the site quickly, it is difficult to enter the site information in dark, and sometimes it takes much time to find the exact location. In the event of an emergency such as a car accident in addition to the occurrence of a fire, the prompt on-site treatment is not significantly different from that in the case of a fire, and if the site is not well preserved even in case of investigation of an accident, There was a demand for the transmission and the arrangement.

Therefore, in the prior art, as in the technique disclosed in the following Patent Document 1, a remote fire control system is provided to remotely monitor everything from the detection of a fire advance to the time of fire to manage instantaneous disaster prevention in case of fire detection, And a technique for providing site information to dispatch personnel using photographs of the site and the scene was proposed.

However, in such a conventional fire control system, a dispatch command may be generated in the fire safety center as information on the dispatch position, the fire safety center and the dispatch vehicle at the dispatchable position is confirmed and dispatch is requested.

That is, in the conventional fire control system, since it is not enough to monitor the dispatching or dispatching vehicle, the dispatch order is received, and the dispatching instruction is sent to the fire fighting safety center where the agent is dispatched to the site, There is a problem that the situation where the fatigue of the agent is increased and the dispatch order is overturned often wastes time in the urgent structure.

In addition, the conventional fire control system commands the dispatch as the structure position where the first notification is received, but when the correct position of the structure is confirmed due to the falsehood of the complainant, the changed position is propagated again. In this case, the conventional fire control system has a problem that the erroneous situation can be propagated due to noise in the field situation or noise generated in the wireless communication due to the spreading of the dispatch command and the changed position information by the oral command through wireless.

In addition, in the conventional fire control system, it is only through wireless communication with the dispatching vehicle that the estimated time of arrival of the dispatched vehicle or the travel path of the vehicle is made through wireless communication. For example, There is a problem that it is impossible to cope flexibly with an unexpected situation due to a delay in grasping the present position of the dispatcher.

In addition, in the past, only the location information about the structure location, the fire safety center, and the emergency room generated within the metropolitan city area was provided, and the status of the field personnel of each safety center (the number of fire fighting personnel, emergency personnel, And the presence or absence of the vehicle), the current position of the entire dispatched vehicle, the movement route, and the structural condition generated in the corresponding metropolitan city area are not integrated and output to the situation (or by the fire safety center) Therefore, the monitoring of the overall dispatch situation is made or judged by collaboration among the controllers.

Korean Patent Publication No. 10-2014-0129504 (December, 2010) Korean Patent Registration No. 10-0620792 (Apr.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a fire extinguishing system, a fire extinguishing system, The present invention provides a system for controlling firefighters using geographical information and a control method thereof so that information on the current position and the movement route can be grasped in real time.

Accordingly, in order to achieve the above-mentioned object, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a fire extinguishing system, a fire extinguishing system, A situation terminal mounted on a vehicle in a dispatch area and configured to receive a dispatch command of the context terminal and to receive a structure status and current location information before and after dispatch of the dispatch station; And a location information server for transmitting the current location information of the support terminal and the location and structure location information of the notification terminal to the context terminal.

In addition, in the present invention, the situation management information classifies and displays the location of the notifier, the position of the structure, and the current location of the dispatch zone in different icons according to the emergency structure item and the progress status in the electronic map, The location is indicated by icon set for each structure and risk facility.

In addition, the control method of the firefighter system according to the present invention registers the position of the center, the state of equipment and personnel, the location and the layout of the public institution, the location and type of the firefighting structure, An information registration step of, when the report is received from the report terminal, generating a new reception information including the reporter, the structure position and the emergency structure item by classifying the item into the set item of the emergency structure item; A dispatch instruction step of transmitting a dispatch instruction including a structure position and a movement path from a start point to a structure position to a support terminal of the dispatch counter in accordance with the position information of the dispatch counter, And the moving route in real time, and outputs it to the situation management information, And a real-time situation monitoring step of displaying the progress of the real-time situation monitoring.

Accordingly, the present invention can output the structure position, the situation of the dispatching personnel and the information of the object to be fire-extinguished in real time based on the geographical information, so that the dispatch request which occurs simultaneously in different regions and / There is an effect that can cope flexibly.

In addition, according to the present invention, upon receiving the dispatch command and the result information after dispatching based on the geographical information, the monitoring information is updated and output, thereby promptly searching for the dispatchable position or the state of the dispatched agent, There is an effect that this can be done quickly.

1 is a block diagram showing a fire control system using geographical information according to the present invention.
2 is a block diagram illustrating a situation terminal in a fire control system using geographical information according to the present invention.
3 is a flowchart illustrating a method of controlling a fire control system using geographical information according to the present invention.
FIG. 4 is a flow chart showing a report accepting step in a control method of a fire control system using geographical information according to the present invention.
FIG. 5 is a flowchart showing a dispatch command step in a method of controlling a fire control system using geographical information according to the present invention.
FIG. 6 is a flowchart showing a status processing step in a method of controlling a fire control system using geographical information according to the present invention.
FIGS. 7 to 17 are views showing an embodiment of a fire control system using a geographic information and a control method thereof according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments It is not limited to examples and examples.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Throughout this specification and claims, when a section is referred to as " including " an element, it is understood that it may include other elements, aside from other elements, .

Moreover, the steps of the method described throughout this specification and claims are not limited to the order in which they are described, and may be performed in parallel or in reverse order, for various applications.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a fire control system and a control method thereof using geographical information according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a fire control system using geographical information according to the present invention.

Referring to FIG. 1, a fire control system according to the present invention includes a situation terminal 100 for mapping and monitoring fire control information on an electronic map, a support terminal 200 for receiving an exit instruction from the situation terminal 100, A notification terminal 300 for reporting a structure request and / or a disaster accident, and a location information server 600 for providing location information.

The support terminal 200 is a terminal for receiving the dispatch command of the context terminal 100 and is a terminal or vehicle dispatching vehicle that is organized into devices or personnel set for emergency call items (for example, fire, emergency, As shown in FIG. In addition, the support terminal 200 transmits the progress status (for example, dispatch, completion of construction, arrival at the site, in-house, completed in-house, out-of-place) in real time after receiving the dispatch command.

Preferably, the support terminal 200 is a wireless communication terminal capable of transmitting a dispatch command of the context terminal 100, transmitting / receiving result information, and searching for an address and a route guidance.

Here, the mover can be arbitrarily organized by the situation terminal 100 as equipment and personnel arranged in a fire fighting center, an emergency room, a police station and an earthquake zone adjacent to the structure position, and a military unit (hereinafter, collectively referred to as a center).

The location information server 600 confirms in real time the location of the notifier, the structure location, and the current position of the vehicle (dispatching vehicle) on which the dispatching personnel aboard the electronic map, and outputs the confirmation to the situation terminal. At this time, the location information of the location information server 600 is, for example, data including coordinates including latitude and longitude.

In addition, when the notification of the notification terminal 300 is received, the location information server 600 automatically confirms the location of the notification terminal 300 in association with the communication company server and transmits it to the status terminal 100. [

Here, the situation terminal 100 digitizes and stores various geographic information collected in the area, maps it to an electronic map, and outputs various information to the situation management information according to the setting of the administrator. In addition, the context terminal can calculate the current position, the movement route, and the movement locus using the GPS satellite information between the notification terminal and the support terminal, and map the current position, the movement route, and the movement locus on the electronic map.

In more detail, the context terminal 100 may monitor the entire monitoring information on the fire, emergency, emergency, and other situations occurring in the jurisdiction area, the travel route of the departure zone, And outputs it to the situation management information in real time.

That is, when the notification is received from the notification terminal 300, the status terminal 100 controls the position information server 600 to check the position and structure position of the notifier to organize the dispatchable dispatcher, The control unit 200 transmits the dispatch command. At this time, the situation terminal 100 transmits the information on the fire fighting structure such as the fire fighting water installed at the structural position and / or the close position in the dispatch order.

Then, the situation terminal 100 displays the position and the movement path of the corresponding support terminal 200 and / or the dispatch vehicle in the situation control information by checking the position information of the dispatched vehicle or the dispatched vehicle in real time, 130).

A more detailed configuration of such a situation terminal will be described with reference to Fig.

2 is a block diagram illustrating a situation terminal of a fire fighting system using geographic information according to the present invention.

2, the situation terminal 100 includes a display 130 for outputting situation management information, a terminal communication unit 140 for communicating with the support terminal 200, the notification terminal 300 and the location information server 600, A search unit 150 for searching the database 500, an input unit 160 for outputting the set command, a situation processing unit 170 for monitoring the situation management information and accumulating and updating new information, A location information display unit 120 for displaying location information received from the server 600 on an electronic map and a situation control unit 110 for controlling the display 130 and the location information display unit 120. [

The location information display unit 120 includes a caller location display module 121 for displaying the location of the notifier on the electronic map, a structure location display module 122 for displaying the structure location on the electronic map, A route search module 123 for searching for a route to the structure position, a position change module 124 for changing the position displayed on the electronic map, and a locus from the current position to the destination of the dispatch vehicle, An icon display module 126 for displaying icons on the electronic map on the electronic map and a search display module 127 for mapping the searched addresses and structures to the electronic map.

When the originator location information is received from the location information server 600, the filerator location display module 121 displays the location of the originator on the electronic map. At this time, the electronic map in which the position of the caller is displayed is included in the situation management information (see FIG. 7) in which the entire structure in the charge zone, the emergency service, and the fire status are outputted under the control of the situation control unit 110. .

The filer location display module 121 searches the electronic map for a location corresponding to the address input in the address information window on the left side and displays the search result. This is illustrated in Fig. Referring to FIG. 9, the originator location 111b is preferably displayed as a unique icon designed in an identifiable hue or shape.

More preferably, the caller location display module 121 can set a broadcast which means the same disaster area by a distance set around the caller location when the caller location is confirmed. Such an indication of the broadcast is introduced as an example in Fig.

The setting and the cancellation of the broadcast 111c as described above can be set and canceled at the same time the position and / or structure position of the caller is set by the caller position display module 121 or can be set and released by the position change module 124.

The position change module 124 sets (Fig. 14 (a)) or releases (Fig. 14 (b)) according to the selection of the broadcast setting menu 111e as shown in Figs. 14 (a) and 14 (b).

The change menu of the broadcast setting is displayed in the situation management information output on the display 130 of the situation terminal 100 and the selection signal of the menu is outputted to the location change module 124. [

 The structure location display module 122 displays the structure position received from the declaration terminal 300 under the control of the context terminal 100 on the electronic map and outputs it to the context terminal 100. [ Here, the structure location display module 122 displays, as a unique icon, a point corresponding to the structural location input in the structure location input window on the left side in the context terminal 100 in the electronic map, which is shown as an example in FIG. Likewise, the structure location display module 122 can be set to broadcast in the same manner as the caller location display module 121 described above.

The path search module 123 searches for a movable path by checking the source address and the address to the destination received from the context terminal 100. At this time, the searched route is output to the trajectory calculation module 125, and the trajectory calculation module 125 displays the trajectory searched for by the route search module 123 as a color, a line, or a symbol on the electronic map, (100). This is illustrated in Fig.

In addition, the route search module 123 and the locus calculation module 125 are included in the situation control information in association with the information of the corresponding departure vehicle stored in the history DB 540.

The icon display module 126 displays on the electronic map for each item selected from the situation management information output from the situation terminal 100 to the electronic map. For example, when the emergency item is selected from the fire, structure, emergency, and other items included in the control information output to the display 130, the icon display module 126 displays the emergency information corresponding to the emergency situation among the currently- And displays the vehicle, the caller, and the structural position on the electronic map and outputs it to the situation terminal 100. [

Or icon display module 126, when an item such as a water supply water supply tank or a water storage tank is selected on the electronic map, the current position of the moving object related to the item and the current progress of the moving object of each center (for example, Confirmation, field arrival, home availability, non-return home, completed home, hospital arrival).

Such icons on the electronic map can be displayed simultaneously with other items, or only selected items can be displayed. The description and guidance of the icon displayed by the icon display module 126 are provided as a legend included in the icon selection menu operated by the situation processing module 175 described later (see FIG. 17).

The search display module 127 displays on the electronic map a position corresponding to the search keyword (address, name, POI of the communication company, telephone number unique number) received from the context terminal 100 and transmits it to the context terminal 100. The search display module 127 may be displayed on the electronic map according to the address input in the address search window of Fig. 11, or may be displayed on the electronic map corresponding to the name of the building, address, As shown in FIG.

Here, the menu window included in FIGS. 11 and 12 is a menu operated by the search unit 150 of the context terminal 100, which will be described later. That is, when the administrator inputs the address or the name of the building in the search window on the right side, the search unit 150 requests mapping of the electronic map matching the corresponding location. Therefore, the search display module 127 displays the location information of the search result of the search unit 150 on the electronic map and transmits the information to the context terminal 100.

The location information completed by the caller location display module 121 and the search display module 127 is collectively output through the situation management information shown in FIG. 7, and a more detailed description will be given later.

The database 500 includes a history DB 540 in which departure history information is stored for each dispatching agent and vehicle, a fire fighting structure DB 530 for storing fire fighting device information including fire fighting water installed for each region, building, A center DB 560 for storing information on the vehicle, the person, the location and the jurisdiction region, and an address DB 520 for storing the jurisdiction region and / or the national lot number and / ).

The history DB 540 stores the number of times of dispatch, the date and time of dispatch, and the history of dispatch personnel and equipment for each support terminal 200 (and / or each fire fighting center). Such history information is stored by fire, structure, first aid and other situations. The history information is recorded and stored in the context terminal 100.

The fire-fighting structure DB 530 stores address and location information capable of supplying fire-fighting water on the electronic map, information on the fire-fighting equipment for each building, and information on the structures classified as dangerous facilities such as gas stations, do.

The address DB 520 maps and stores POIs set for each building, house, road, electric number, and communication company on an electronic map.

The center DB 560 includes the personnel and equipment list for each fire fighting center, and more preferably stores the state information classified into the current dispatchable, dispatching, and dispatching status.

The map DB 510 stores an electronic map. Here, the battery map includes updated situation management information in real time.

The statistics DB 550 stores statistics calculated in the context terminal 100. The statistical values are calculated according to the number of dispatches per each center, the number of dispatched personnel, reason for dispatch (fire, structure, emergency and other items), dispatch distance, day, month and time zone. These statistical values can be used as data for establishing plans for firefighting education, management, and patrol in the future, whether personnel and equipment of firefighting centers are recruited.

That is, in the present invention, the database stores various geographical information (such as government offices, major buildings, fire-fighting water, locations and detailed information of the center, etc.) collected in the area and provides the data under the control of the situation control unit.

In this case, the display 130 outputs the situation management information including the electronic map and the detailed information made up of characters at the same time or one of them, which includes the situation information or the entire information.

In addition, the situation management information is output such that the location, structure position, emergency structure situation and vehicle behavior of the fire department, the notifier, and the vehicle movement are collectively or selectively included in the electronic map.

The situation management information using the geographic information system including the electronic map is displayed on the map on the basis of the status, position and surrounding information of each structural position and dispatching agent updated in real time, It facilitates the identification of the control and situation information of each center.

The terminal communication unit 140 receives the notification of the notification terminal 300 and applies the notification to the situation control unit 110. The terminal communication unit 140 transmits an exit instruction under the control of the situation control unit 110 to the support terminal 200, And outputs the received positional information to the status control unit 110.

The input unit 160 outputs a command set according to a combination of a plurality of keys or a selection of a menu to the situation control unit 110. Here, the command is output by a combination of a multi-key device such as a keyboard and a selection by a mouse.

The situation control unit 110 controls the situation processing unit 170 according to an instruction of the input unit 160 and controls the display 130 to output the electronic map received from the position information display unit.

The situation processing unit 170 calculates the movement path and the trajectory of the notifier, the structure position, and the moving vehicle under the control of the situation control unit 110, and monitors to update the situation control information to the latest situation control information.

More specifically, the status processing unit 170 receives a notification signal from the notification terminal 300, which registers the reception signal including the position of the notifier, the structure position, and the dispatch item (emergency structure, disaster, A history management module 173 for recording and generating a history of the dispatch history and the receipt status, a statistical module 174 for calculating and calculating statistical values for each emergency structure item, A situation processing module 175 for updating and requesting the situation management information according to the selection signal of the center, and a system for automatically searching for equipment and personnel for each dispatchable center to combine equipment and personnel set in accordance with the emergency structure item And an organizing module 171.

The report acceptance module 172 classifies and accumulates the newly received report from the notification terminal 300 with the previously received reports, and outputs it to the storage and status processing module 175 of the received information. In addition, the report acceptance module 172 is associated with the communication company server and the location information server 600 and automatically transmits information (e.g., a telephone number and a subscriber's name) of the notification terminal 300 at the time of receiving the notification terminal 300 , Receives the current position and creates a new acceptance input window.

The history management module 173 records and stores the history of each dispatch game, the dispatch history, the date and time of dispatch, the number of people and equipment, the presence or absence of the dispatch vehicle and personnel, and the report reception history.

The statistical module 174 calculates the cumulative acceptance information generated by the report acceptance module 172 and the history management module 173 and the statistical values of the dispatch history information for each center. These statistical values can be statistically calculated by the number of times of daily dispatch of each center, the time, and report items (fire, emergency, emergency and other items).

The situation processing module 175 receives the newly received report from the report acceptance module 172, the statistical value of the statistical module 174, the information of each fire fighting center of the history management module 173, To update and output the situation management information in real time, and to register the center, the hazardous facility information, and the information of the fire fighting structure in the database 500.

For example, when the new report information is received in the report acceptance module 172, the situation processing module 175 transmits the reported information to the position information display section 120, Request an electronic map with the location indicated.

In addition, the situation processing module 175 analyzes the location information including the movement path and trajectory of the dispatching vehicle under the control of the situation control unit 110 and the location information including the location information of each item (fire, structure, emergency and other items, Information on the structure, structure position, moving vehicle position, traveling vehicle, moving vehicle moving path of the entire moving vehicle, personnel information of each center, and equipment status information).

The firefighter system according to the present invention includes the above-described configuration. Hereinafter, a control method of the firefighter system achieved through the above-described configuration will be described with reference to the attached flowchart.

3 is a flowchart illustrating a method of controlling a fire control system using geographical information according to the present invention.

Referring to FIG. 3, a method for controlling a fire control system using geographical information according to the present invention includes an information registration step (S100) of registering structures and location information in a corresponding area in an electronic map, (Step S200) of generating a report taker and a structural position when received, a dispatch instruction step (S300) of transmitting a dispatch instruction including position information generated in the notification acceptance step (S200) to the support terminal 200, And a real-time situation management step (S400) of calculating departure information, a moving route and a locus including the departing vehicle and the personnel of the center after the dispatch command and outputting the calculated moving route and the locus in real time.

The information registration step S100 is a step for registering the location information of the fire fighting center, the police station, the earthquake zone, the emergency room, the hazardous materials facility (for example, gunpowder, oil and dangerous goods manufacturing or warehouse) The location information of each fire fighting center, the equipment and personnel status information for each fire fighting center, and the unique code or location information of the institutions, buildings, and poles.

The situation control unit 110 registers each center information input through the input unit 160 and location information including the address, location, and unique code of a building name, an institution, a telephone pole, and registers the registered information in the situation management information So that it can be output according to the selection command.

In addition, the status control unit 110 drives the status processing module 175 to register the equipment and personnel status information for each center in the database 500. Here, the center equipment, personnel status, and location information are stored in the center DB 560, and the center, the fire fighting structure, and the risk facility-related location information are included in the situation management information output to the display 130 and output.

FIG. 7 shows an example of the situation control information output to the display 130, and an example of the registered fire control object is shown in FIG.

Referring to FIGS. 7 and 8, the situation management information 400 is output as an electronic map including the location of the center, the road, and the names of major buildings and places. In addition, the situation control information includes respective menus for commanding the status of the dispatching vehicle or personnel and the status or result of the dispatching vehicle or agent in the dispatching situation. Here, each menu is set with a command that is linked to the report acceptance module 172, the situation processing module 175, the search unit 150, and the display 130, respectively.

For example, in the left menu window, a list 410 for each center linked to the search unit 150 and the history management module 173 is output, and an emergency structure item (fire, structure A menu 420 for selecting the output of the control condition information sorted by the type of the vehicle, an emergency call and the like, and a menu 430 for outputting a classification and output command according to the state of the vehicle for each center.

The right menu window is formed with a search menu 440 that is linked to the search unit 150 and outputs a search command of an address, a building name, and an organization name.

Here, the center-by-center list 410 outputs the status information for each center updated by the status processing module 175 in real time. The status information of each center is briefly displayed on the information about the vehicle or the person in possession, the vehicle and the person who is presently dispatched, and the vehicle and personnel capable of dispatching.

Therefore, according to the present invention, as the status information for each center is listed and updated in real time together with the position information using the electronic map in the situation management information 400, There is an advantage that this can be done simply.

In addition, the situation management information includes a menu for classifying and searching the emergency structure items and the vehicles classified by the center so as to be classified and displayed as an electronic map and text according to the emergency structure item and the state of the vehicle according to the center. The classification and search menus 420, 430, and 440 are interlocked with the search unit 150 and the situation processing module 175.

For example, when the administrator selects one of the centers in the center list and selects the emergency structure item 420 and the vehicle dynamics menu 430, the situation control unit 110 confirms the corresponding selection signal, 150) to retrieve related information. The retrieved information is output together with the location information by the situation processing module 175.

At this time, the situation processing module 175 outputs the position information of the center searched by the search unit 150 and the location of the dispatching agent and the vehicle in the structure operation as colors or symbols that can be distinguished from other information alone or from other information do.

In addition, fire-fighting objects registered in the present invention are dispatched from major government offices and buildings in the area, and are set up and registered with a jurisdiction center in everyday life. An example of such registration information of the fire-fighting object is shown in Fig.

Referring to FIG. 8, the object of fire fighting includes the name of the responsible center through the basic information, the target building or organization name, the address, and the telephone number. More preferably, the floor plan of the target building, the divergence plan, the emergency rescue plan and the building history, the dangerous goods information, the fire protection and the safety manager and the persons concerned are registered.

The registration of information about such fire-fighting objects can be transmitted to the on-site support terminal 200 in case of a disaster requiring an emergency structure such as a fire in the building, and can be utilized in the rescue planning of the field personnel.

That is, in the situation management information of the present invention, the text and the electronic map are combined with the position information and the structure position of the departing person and the situation information of each center, the dispatch vehicle, and the predetermined information of the fire control object.

The report acceptance step (S200) is a step of outputting the position information of the notifier and the information of the structure position to the situation control information when the notification is received from the notification terminal (300). Here, the situation control unit 110 drives the notification acceptance module 172 to transmit the location information of the notification terminal 300 and the structure information of the emergency terminal 300, Requests location information on the location to the location information server 600, and retrieves and outputs the information of the adjacent center.

The dispatch order step S300 is a step of transmitting the dispatch terminal 300 and the structure position information confirmed in the notification acceptance step S200 to the support terminal 200 of the adjacent center by the context terminal 100 and transmitting the dispatch command to be. Here, the situation terminal 100 searches for a center close to the structural position identified in the report acceptance step (S200) or a center equipped with a vehicle capable of presently dispatching, and transmits a dispatch command.

The personnel, equipment, and position of the center can be selected by the manager manually searching the center DB 560 and the history DB 540 by controlling the search unit 150.

In the present invention, the status processing module 175 updates the status information of the vehicle or the personnel of each center in real time and outputs it to the situation management information, so that the administrator can search for and select a center that can be dispatched only by simple search.

Therefore, the situation control unit 110 transmits the report acceptance information including the center, the structure position, and the location information of the report terminal 300 inputted through the report acceptance input window 111a to the support terminal of the center selected through the terminal communication unit 140 (200).

More preferably, the situation control unit 110 generates a movement route from the center to the structure position and transmits the movement route to the support terminal 200.

That is, the situation control unit 110 drives the route search module 123 to generate a path that can be moved from the center to the structure position (for example, the fastest road or the road with the best traffic condition) .

Therefore, the support terminal 200 outputs the received report acceptance information and the movement route so that the driver of the dispatching vehicle can use the dispatching information to dispatch to the field.

Here, the support terminal 200 includes GPS and its own electronic map, and it is preferable that navigation is included so that the support terminal 200 can compare the current position with the movement route and guide the movement route.

The real-time situation control step S400 is a step of receiving the departing person, the dispatching vehicle, and the current position from the supporting terminal 200 that has sent the dispatching command from the situation terminal 100 and checking the current state of the corresponding supporting terminal 200 and / Checking the position in real time, updating the situation control information, and outputting it.

The support terminal 200 transmits its position in real time to the context terminal 100 and the context terminal 100 drives the context processing module 175 to display the current position of the support terminal 200 in real time To be output. The situation processing module 175 transmits the location information of the vehicle on which the supporting terminal 200 and / or the supporting terminal 200 is mounted to the location information server 600 through the terminal communication unit 140. [

The position information server 600 transmits the current position information of the supporting terminal 200 and / or the dispatching vehicle to the situation terminal 100 in real time, and the situation control unit 110 transmits the current position information of the supporting terminal 200 and / (124) in real time to calculate and update the moving path and trajectory of the vehicle.

Therefore, the situation processing module 175 outputs the position of the dispatched vehicle calculated in real time by the locus calculation module 125 and the position change module 124, as the situation control information.

In addition, the situation processing module 175 receives the information on the arrival position of the structural position, the information on the status of the structure completion, the in-situ, and the post-structure emergency transport from the support terminal 200 in real time and updates the situation control information.

In the control method of the fire fighting system using the geographical information according to the present invention, the report accepting step will be described in detail with reference to FIG.

FIG. 4 is a flow chart showing a report receiving step in a control method of a fire fighting system using geographic information according to the present invention.

Referring to FIG. 4, the report acceptance step S200 includes a caller position confirmation step S210 for confirming the position of the caller, a structure position search step S220 for generating position information by confirming and searching the structure position, An electronic map mapping step S230 of displaying a report maker and a structural position on a map, an information change decision step S240 of determining whether the structure position, the position of the reporter, and the emergency structure item are changed, (S250) of changing the information when the information change signal is received in step S240, and an information registration step (S260) of registering the changed information in the modification step (S250).

When the notification of the notification terminal 300 is received via the terminal communication unit 140, the state control unit 110 drives the notification reception module 172 to check the location of the notification terminal 300 Thereby generating a report acceptance input window 111a. Here, the report acceptance module 172 requests and receives the information and position information of the report terminal 300 through the communication company server and the position information server 600, generates a report acceptance input window as shown in FIG. 9, (130).

The structure location searching step (S220) is a step of searching for and outputting a structure location input through the call acceptance input window, which is shown in Fig.

The manager can proceed with the telephone conversation with the notifier while checking the report acceptance information output by the report acceptance module 172. [ Then, the manager confirms the current situation and the structure position through the voice call with the caller, inputs the emergency structure item and the structure position in the report acceptance input window that is output and generated by the report acceptance module 172.

At this time, the manager selects a search menu, and a search menu is installed so that the name, the address, and the name of the organization listened to by the report terminal 300 can be searched. Such a search menu is interlocked with the search unit 150, and when the menu is selected, the corresponding command is output to the search unit 150. The retrieval of the retrieval unit 150 has been described with reference to FIGS. 11 and 12. FIG.

Referring to FIGS. 11 and 12, the search unit 150 can search for a unique code or location information for a corresponding address, a building name, an institution name, and an electric pole in accordance with a received command according to a search menu 440.

Therefore, the search menu 440 is formed so as to be able to select from an address, a building name, an institution name, and a unique code of a telephone pole. Each of the menus outputs a search command of data matching the keyword inputted in the classification to the search unit 150. Here, the institutional search can include agencies that can request cooperation in relation to emergency structures and all public offices in the area.

The mapping step S230 is a step in which the context terminal 100 maps the notifier and the structure position to the electronic map according to the report acceptance information generated by the report acceptance module 172. [ The report reception module 172 outputs the received reception information to the report taker location display module 121 and the structure location display module 122 and displays the address included in the reception information Map the location corresponding to the building name on the electronic map.

Here, the caller location display module 121 and the structure location display module 122 set the broadcast to the radius set at the position included in the report reception information and display it on the electronic map. Such a mapping can be set in consideration of a disaster radius or a search range in an emergency structure.

The situation processing module 175 updates the situation management information to include the newly received reporter and the structure position when the reporter position and the structure position are mapped to the electronic map.

Here, the situation control unit 110 controls the icon display module 126 to generate an icon set according to the emergency structure item set in the report acceptance information, and output it to the situation information.

The information change decision step S240 is a step of determining whether the information change signal of the caller and the structure position or the emergency structure item is applied through the input unit 160 at the state control unit 110. [ For example, when it is determined through the voice communication with the notification terminal 300 that it is necessary to set or cancel the position, the structure position, the emergency structure item, or the broadcast of the firstly received caller, the administrator selects the menu included in the situation management information do.

In the modification step S250, when the status control unit 110 receives the information change command through the input unit 160, it outputs an input window for inputting the change information, and updates the status control information as the input information.

For example, when the manager inputs the emergency reception structure input item to the report reception acceptance input window, and inputs the other emergency configuration item among the inputted items to the emergency reception mode, the situation control unit 110 drives the situation processing module 175, And controls to change the emergency structure state from the information. This is illustrated in Fig.

Referring to FIG. 13, the status control unit 110 controls the icon display module 126 to display the emergency configuration item as an icon set in the status control information, if the emergency configuration item is set to other. Or the situation processing module 175 controls the icon display module 126 to display an icon displayed at the corresponding structure position and an icon set to be rescreened in the other when the signal for changing the emergency structure state is input at the information change determination step.

In addition, the manager can change or cancel the structure position, the position information of the target building, and the broadcast. This is illustrated in Fig. 14 and Fig.

14, when the administrator operates the input unit 160 to select the setting or the setting of the broadcast setting menu 111e from the setting, the situation control unit 110 drives the position change module 124 to start the broadcast 111c, Is set or released.

Referring to FIG. 15, when the administrator changes the structure position or the address of the caller through the call acceptance input window 111a, the status control unit 110 drives the position change module 124 to change the position corresponding to the input address It is displayed on the electronic map.

Alternatively, the status control unit 110 drives the position change module 124 when the position change menu 451 is selected even if no address is input in the report acceptance input window. If a certain point is selected on the electronic map even though no address is inputted, the position change module 124 receives the position information including the address for the corresponding point from the position information server 600 and automatically changes the address of the report acceptance input window .

The information registration step S260 is a step in which the situation control module 110 controls the situation processing module 175 to update and output the situation control information output on the display 130. [ The situation processing module 175 outputs new acceptance information reflecting the registrants' position and / or broadcast information modified by the control of the situation control unit 110, including the situation management information.

5 is a flowchart showing a dispatch command step in a control method of a fire control system using geographical information according to the present invention.

Referring to FIG. 5, the dispatch command step S300 includes a center search step S310 for searching for a center capable of dispatching a person capable of dispatching around the structure position, a step S310 for checking the dispatching vehicle and the personnel of the searched center, An automatic knitting step S320 for automatically knitting, and a transmitting step S330 for transmitting a dispatch command.

The center search step S310 is a step of confirming the vehicle and the personnel of the adjacent center based on the distance to the structure position. This will be described with reference to FIG.

Referring to FIG. 16, the administrator selects the search menu 440 and searches for vehicles and personnel at adjacent centers. Accordingly, the situation control unit 110 controls the search unit 150 to output a center located at an adjacent distance and a list 452 of equipment and personnel that can be dispatched from the center. In addition, the situation control unit 110 controls the search display module 127 to display the searched center location 453 in an electronic map.

Therefore, the administrator can check the list of the equipment and the personnel of the output center, and select the center which can be dispatched.

In the automatic organizing step S320, when the state control unit 110 receives a dispatch order command from the input unit 160, it combines the equipment and personnel for each center to organize a dispatch station with personnel suitable for the emergency structure item. 16, the situation control unit 110 drives the automatic knitting module 171 to combine equipment and personnel of one or more adjacent centers at the center of the distance Control to arrange departure zones.

If a fire is selected in the emergency structure item, the automatic organizing module 171 arranges the fire fighting equipment and the personnel to the appropriate center and / or center with suitable equipment and personnel.

In addition, the situation control unit 110 controls the path search module 123 and the trajectory calculation module 125 to automatically search the path from the center to the structure location, and display the trajectory of the searched path. This is shown in Fig. 17 as an example.

Referring to FIG. 17, the trajectory calculation module 125 displays a trajectory on a road corresponding to a movement path from a structural position calculated by the path search module 123 in the electronic map to a center in a line or in a different color.

The transmitting step S330 is a step of transmitting the dispatch command including the travel route and the structure position, the movement route to the structure position, and the report acceptance information to one or more centers organized in the automatic arrangement step S320. The situation control unit 110 transmits a dispatch command when the dispatch command menu 455 is selected. The transmitted command is transmitted to the support terminal 200 arranged at the dispatch zone.

Here, the situation control unit 110 receives situation information such as arrival, departure, and arrival from the support terminal 200 through the terminal communication unit 140 in real time and displays each support terminal 200 as a separate icon 457 Respectively.

That is, when the dispatch confirmation message is received from the support terminal 200 after the dispatch instruction is transmitted, the situation control unit 110 controls the icon display module 126 to display an icon .

The movement path, the current position and the current state of such a moving party are outputted through the situation management information in real time by the situation processing module 175.

FIG. 6 is a flowchart showing a real-time situation control step in a method of controlling a fire fighting system using geographic information according to the present invention.

Referring to FIG. 6, the real-time situation control step S400 includes a real-time position information reception step S410 for checking in real time the position of the departure zone, an information update step S420 for updating the vehicle locus and the position according to the location of the departure zone, A structural state real-time confirmation step (S430) of confirming the structural progress of the dispatch zone in real time, and a history storage and statistical value calculation step (S440) of checking the presence or absence of the dispatch zone and accumulating the dispatch history to calculate a statistic value.

The real-time location information receiving step S410 is a step for receiving the location of the supporting terminal 200 in real time from the location information server 600. [ The situation control unit 110 checks the location of the supporting terminal 200 in real time from the location information server 600 through the terminal communication unit 140. [

The location information updating step S420 is a step in which the situation controller 110 drives the trajectory calculating module 125 and the route searching module 123 to calculate the remaining distance and route from the current location of each supporting terminal 200, And outputs it. The situation control unit 110 controls the position change module 124 according to the current position information of the support terminal 200 received from the position information server 600 to display the changed position of the support terminal 200 on the electronic map And controls the trajectory calculation module 125 to generate and display the trajectory according to the remaining path from the position of the presently supported terminal 200 to the structure position.

The situation processing module 175 processes the position and the locus of the changed support terminal 200 in accordance with the control of the situation control unit 110 to display the situation control information in real time.

The structural state real-time confirmation step (S430) is a step in which the situation control unit (110) confirms the progress of the structure of the supporting terminal (200) received through the terminal communication unit (140) in real time. Here, when the context-based search command is input through the input unit 160, the status control unit 110 controls the search unit 150 to include icons indicating the structure positions and the statuses according to the same emergency structure items in the entire status management information It is also possible to output situation control information as an electronic map.

For example, when the administrator selects a fire and selects a search name from among the emergency rescue items, the search unit 150 searches and outputs the structural position indicated by the fire related icon and the location information of the departure location. Then, the situation control unit 110 controls the search display module 127 to display the searched departure location and the structure location in the situation management information.

Alternatively, when the manager inputs the outgoing party in which the user is located, the retrieval unit 150 retrieves the outgoing party information in the presence control information, and the retrieved information is transmitted to the search display module 127 under the control of the situation control unit 110 And is displayed collectively in the situation management information.

Alternatively, the situation control unit 110 may be configured to selectively retrieve and output only the location of the individual departure zone or the location of the departure zone in the input search command.

The history storing and statistical step S440 is a step of accumulating the dispatch history of the completed moving-out area after the completion of the structure in the structural state real-time checking step S430 of the situation control unit 110, 500). The status control unit 110 drives the history management module 173 to accumulate the dispatch history information of the dispatch station in the database 500 when the completed dispatch center or dispatch station is confirmed through the status processing module 175. [

The status controller 110 drives the statistical module 174 to determine the number of occurrences of each emergency structure item accumulated in the history DB 540, the date and time, the cause (s) And a result is calculated and stored in the statistical DB.

As described above, the present invention enables information on all emergency situations in the area to be confirmed in real time through an electronic map through the electronic map, so that the situation manager can quickly grasp the situation and cope with follow-up.

100: status terminal 110: status controller
120: Position information display section 121: Notifier position display module
122: structure position display module 123: path search module
124: Position change module 125: Trajectory calculation module
126: Icon display module 127: Search display module
130: Display 140:
150: Search section 160: Input section
170: status processor 171: automatic programming module
172: Report reception module 173: History management module
174: Statistics module 175: Status module
200: Support terminal 300: Report terminal
500: Database 600: Location information server

Claims (17)

  1. Situation control on the electronic map as an icon set with the information of the equipment and personnel status by center, the structure of firefighting structure, the structure position where the emergency structure was received, the position of the declarant, the location of the dispatch site, A status terminal for updating information in real time;
    A support terminal mounted on a vehicle of a dispatch station for receiving a dispatch command of the context terminal and transmitting structural status and current location information before and after dispatch of the dispatch station in real time; And
    And a location information server for transmitting the current location information of the support terminal and the location and structure location information of the notification terminal to the context terminal,
    The situation terminal
    A caller location display module for displaying the current location of the call terminal on an electronic map;
    A structure location display module for displaying the structure location recorded in the report reception information of the report terminal on an electronic map;
    An icon display module for generating an icon set for each item displayed in the situation management information and outputting the generated icon to the situation management information;
    A position change module for changing the position of the notifier, the structure position, and the position of the dispatch counter displayed in the situation control information to a newly inputted position and displaying the changed position;
    A route search module for searching for a travel route from the current location of the outgoing station or the supporting terminal to the structure location; And
    A trajectory calculation unit that generates a trajectory of the trajectory of the trajectory detected by the traversal module in an electronic map, calculates a trajectory of the trajectory in accordance with the position of the support terminal or the dispatch zone received in real time from the position information server, Module,
    The location change module
    Wherein the broadcasting station has a radius set by a selected one of a caller position and a structural position, and sets and releases the broadcast indicating the same disaster area.
  2. The information processing apparatus according to claim 1,
    In the electronic map, the position of the reporter, the position of the structure, and the current position of the dispatch zone are classified and displayed as different icons according to the emergency structure item and the progress status,
    Wherein the location is indicated by an icon set for each of a public institution, a fire-fighting water, a fire-fighting structure, and a dangerous facility.
  3. The method of claim 1,
    A position information display unit for receiving the position information of the position information server and calculating the position of the caller, the position of the caller, the moving path and the locus of the supporting terminal, and displaying the position on the electronic map;
    A status processing unit for updating the electronic map generated in the position information display unit with status control information;
    Wherein when the notification of the reporting terminal is received, the control unit controls the position information display unit to generate an electronic map reflecting the notifier and the structure position, and controls the situation processing unit to update the situation management information with the electronic map reflecting the new reception A control unit; And
    And a display for outputting updated situation management information in real time under the control of the situation control unit.
  4. delete
  5. delete
  6. The method of claim 1,
    Firefighters using geographical information, including geographical information including location, equipment and personnel status, location and address of firefighting structures, drawings of buildings and firefighting facilities, system.
  7. The method of claim 6, wherein the context terminal
    And a search unit for searching for information stored in the database,
    And a search display module for automatically displaying an address or a location of a building searched by the search unit on an electronic map.
  8. 7. The method of claim 6, wherein the database
    The information of the object of fire prevention in which the center of jurisdiction is normally set is registered,
    The fire control object information is a firefighter system using geographical information including at least one of a name of a responsible center, a name and a location, contact information, a building plan, an emergency rescue plan, dangerous goods information, and fire prevention and safety manager information.
  9. 4. The system according to claim 1 or 3, wherein the status terminal
    And an automatic scheduling module for identifying equipment and personnel for each center adjacent to the structural location and automatically assembling departure points by combining personnel and equipment per center according to the equipment and personnel standard set for each emergency structure item A firefighter system using geographical information.
  10. 4. The system according to claim 1 or 3, wherein the status terminal
    A report acceptance module for generating report acceptance information including the position of the registrant and the position of the rescuer when the report is received from the report terminal;
    A status processing module for reflecting the electronic map in which the location corresponding to the report acceptance information generated in the report acceptance module is displayed in the situation control information;
    A history management module for accumulating the history of the departure of the departing party, the departure history for each center, and the departure history for each emergency structure item; And
    And a statistical module for calculating a statistical value of the accumulated history information in the history management module.
  11. The location of the center, the status of equipment and manpower, the location of the public institution and the building plan, the location and type of the firefighting structure, the location and the drawing of the firefighting object for which the jurisdiction center is set;
    A notification accepting step of, when the notification is received from the notifying terminal, generating new acceptance information including the notifier, the structure position, and the emergency structure item by classifying the item into the set item of the emergency structure item;
    A dispatch order step of organizing a dispatch zone in accordance with the location information generated in the report acceptance step and transmitting a dispatch order including a structure location and a movement route from a source location to a structure location to a support terminal of the dispatch area; And
    And a real-time situation control step of displaying the current position and the movement route of the dispatch zone after the dispatch command step in real time and outputting them to the situation control information and displaying the progress of the dispatch zone on the electronic map as different icons for each progress situation,
    The report accepting step
    A report taker position confirming step of receiving the information of the report terminal and the position and generating new acceptance information when the report of the report terminal is received;
    A structure location searching step of identifying and searching the structure location to generate location information;
    An electronic map mapping step of displaying a complainant and a structural position on the electronic map;
    An information change judgment step of judging whether the change of the structure position and the caller position and the emergency structure item is changed;
    A correction step of changing information when an information change signal is received in the information change determination step; And
    And an information registration step of registering the changed information in the correction step of changing the information as the situation management information,
    Wherein the mapping step is set such that, when the structure position is inputted in the new reception information, the position searched in the electronic map is automatically displayed,
    Wherein the step of changing the information includes automatically changing information previously input to the selected location on the electronic map,
    The electronic map mapping step
    A control method of a firefighter system using geographical information in which a broadcast is set in which an area set around at least one of a position of a caller and a structure position is indicated as the same disaster area.
  12. 12. The method according to claim 11, wherein the information registration step
    Location information of center and firefighting structures; Information on equipment and personnel status by center; Unique code and location information for public institutions, buildings, and poles; A control method of a firefighter system using geographical information characterized in that information of a firefighting object designated by a jurisdiction center, information of a contact, a dangerous facility information, and a safety manager is registered.
  13. delete
  14. delete
  15. 12. The method of claim 11, wherein the mapping step
    Wherein the at least one of the structure position and the caller position is displayed with an icon set for each emergency structure item input from the report acceptance information.
  16. 12. The method according to claim 11,
    A center retrieval step of retrieving a center capable of coordinating the number of persons dispatched around the structural position;
    An automatic organizing step of automatically organizing equipment and personnel by checking the dispatched vehicle and personnel of the searched center; And
    And a transmitting step of searching for a traveling route of the traveling party organized in the automatic knitting stage, calculating a locus and displaying it in the situation management information, and transmitting a departure command including the traveling route and the structural position, Method of controlling the system.
  17. 12. The method of claim 11, wherein the real-
    A real-time location information receiving step of real-time checking the location of the outgoing station;
    An information updating step of updating the vehicle locus and the position according to the position of the departure point;
    Receiving information on the arrival information of the departure station and information on the progress of the emergency structure, and displaying the information on the status information with the icon for each progress; And
    A method for controlling a fire fighting system using geographical information including a step of storing history and a statistic value calculating step of accumulating the dispatch history of the dispatcher by ascertaining whether or not the dispatcher is present, and proceeding with statistics according to the set conditions.
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