KR101675422B1 - Automatic updating system of facility spatial information using geotag module, and method for the same - Google Patents

Abstract

Provided are a system for automatically updating the spatial data of a facility using a geo-tag module and a method thereof. The present invention can automatically update the spatial data of a facility more efficiently through geo-tagging of a geo-tag module installed in the facility if the spatial data of the facility is changed and prevent unnecessary manual data input. Also, as a facility spatial data management server receives the geo-tagging spatial data from the geo-tag module in real time, updates the spatial data of the facility automatically, and updates the changes onto an electronic map automatically, the present invention allows the changes to be applied immediately in a facility spatial data link server such as an electronic map server, a GIS server, and a spatial data server which uses the spatial data of various facilities.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and method for automatically updating facility space information using a geotag module,

More particularly, the present invention relates to a system and method for automatically updating facility space information by geotagging of a geotag module installed in a facility, The present invention relates to a system and method for automatically updating facility space information using a geotag module.

In general, Geo-Tagging is a function that automatically displays the location of a photograph taken with a built-in GPS receiver when photographing, and automatically records GPS information of the photographing location. Accordingly, the place is automatically stored at the time of photographing.

FIG. 1 is a diagram for explaining the concept of a general geotag.

1, a geotag 12 may be displayed on a photograph 11 taken through a mobile terminal 10 having a GPS receiver. Specifically, such a geotagging may be represented by a geographical identification metadata For example, an image, an image, a website, an SMS message, or the like, and is a form of spatial metadata. Through geotagging, users can find various types of specific location information. For example, a user may enter latitude and longitude coordinates into a suitable image search engine to find images photographed near a given location.

In addition, such geotagging can inform the user of the location or point of view (POV) of the contents of a given image or other media, and conversely, it can display media related to a given location in some media platforms.

For example, an information service capable of geotagging can be used to find location-based news, web sites, or other information resources, and research on application methods and applications of such geotagging is under development.

As a related art, Korean Patent No. 10-796045 discloses an invention titled " a method for providing geographic tagging information for digital data and a method for providing geographical name information therefor ", and FIGS. 2, 3A and 3B .

FIG. 2 is a diagram schematically showing a geotagging system for digital data according to a conventional technique, and FIGS. 3A and 3B are diagrams showing a server and a terminal shown in FIG. 2, respectively.

2, the geotagging system for digital data according to the related art includes a server 20 and a terminal 30, and the terminal 30 transmits its location information to the server 20 And the server 20 generates the user location information database by using the location information of the terminal 30. [ At this time, if the terminal 30 requests the server for the geographical name information in order to tag the digital data generated by the terminal 30, the server 20 estimates the location where the terminal 30 has generated the digital data , And transmits to the terminal 30 the geographical name information corresponding to the estimated position. Here, the digital data may include a photograph, a moving picture, an SMS, a mail, an MP3 sound source, a web surfing record, and the like. In addition, the geographical name information may be information including a location name or a name familiar to the user, as well as the location coordinates of the photograph.

3A, the server 20 includes a communication unit 22 for communication with the terminal 30, a geographic name DB 21 storing a geographic name according to the location, And a user location information DB 25 for storing location information of the user's location information. The user location information DB 25 includes a control unit 23 and a user's tagging DB 24.

The server 20 receives location information from the idle screen application of the terminal 30 at periodic time intervals, for example. At this time, the user of the terminal 30 may manually operate the terminal to transmit the location information to the server 20 at any time, without depending on the idle screen application of the terminal 30. [ Specifically, the user may be implemented in such a manner that a web page composed of WAP (Wireless Application Protocol) and HTML is called using input means such as a mobile address (WINC), and the location information is stored in the server 20 at this time have.

The server 20 generates the user location information DB 25 using the location information of the terminal 30. The user location information DB 25 includes the time at which the terminal 30 transmitted the location information and the location information of the terminal at that time.

3B, the terminal 30 includes a location information obtaining unit 33 for obtaining location information, an input unit 31 for receiving a user's command so that the user can control the terminal 30, A display unit 32, a memory 35, a communication unit 36 for communication with the server 20, and a control unit 34.

The location information obtaining unit 33 provides location information of the terminal 30.

The communication unit 36 periodically transmits the location information of the terminal 30 to the server. In addition, the communication unit 36 requests the geographical name information of the picture taken when the terminal 30 takes a picture. The communication unit 36 may request the geographical name information about the photograph to the server as soon as the terminal 30 takes a picture, and may request the geographical name information later. For example, the communication unit 36 may request the geographical name information on the photograph when the terminal 30 transmits the location information to the server 20. [

 The terminal 30 does not need to transmit the time information to the server 20 when the terminal 30 requests the geographical name information immediately after shooting the photograph. However, when requesting geographical name information about a photo when transmitting location information, information about the time when the photograph was taken must be transmitted to the server. This is because the time of taking the picture and the time of requesting the geographical name information are different.

In addition, the communication unit 36 receives the geographical name information transmitted by the server, and the geographical name information may include a plurality of geographical names. In this case, the user may select the geographical name using the input unit 31. [

In addition, the user can manually enter a geographical name for the photograph if the geographical name information does not include the appropriate geographical name information. In this case, the communication unit 36 transmits the geographical name input by the user to the server.

The control unit 34 controls the operation of the terminal 30 according to the program for this operation and tags the pictures using the selected geographic name or the geographic name input by the user. The geographic name entered by the user may be recommended as a tag when tagging a subsequent photo.

According to the geotagging system for digital data according to the related art, it is possible to help the user to perform geo-location-related tagging on the digital data generated by the terminal, and to generate digital data for geotagging on the digital data It is possible to provide the geographical name information reasonably in relation to the location.

On the other hand, the facility is constructed in various shapes and sizes for its location, purpose, and purpose, and various facilities are provided to provide a more comfortable living environment and convenience since it is a living space for humans.

These facilities can not be used permanently due to human technological limitations and various external factors, but they can be added or subtracted according to natural factors such as climate and human factors such as lifestyle and management method of residents. Only. In addition, since various facilities installed in such facilities are directly connected to the lives of the residents, periodic screening is required to be operated with optimum performance. Especially, in facilities related to human life, .

4 is a diagram for explaining update of facility space information according to a conventional technique.

Referring to FIG. 4, the facility space information on the facilities 40 constituted by the first to Nth facilities 41, 42 and 43 according to the conventional technology is obtained, for example, when the facility 40 is newly installed , There is an inconvenience that the facility manager must manually input the location of the newly installed facility 40 and update it. In addition, the dismantled facility 40 is present in the space information DB 51 of the facility space information management server 50 as it is. Accordingly, there has been a problem that the facility space information interlock system 60, for example, the electronic map server or the GIS server, interlocked with the facility space information management server 50 can not accurately reflect the changed facility space information.

Korean Patent No. 10-1432593 filed on Aug. 20, 2008, entitled "Mobile terminal and its geotagging method" Korean Patent No. 10-796045 filed on Feb. 8, 2007, entitled "Geotagging method for digital data and method for providing geographical name information therefor" Korean Patent Laid-Open Publication No. 2013-6215 (Publication Date: January 16, 2013), entitled "Apparatus and method for dynamically tagging geographic identification metadata in a geotagging system" Korean Patent Laid-Open No. 2011-19184 (Publication date: February 25, 2011), title of invention: "Geotagging function utilizing device" Korean Patent Publication No. 2011-69993 (Publication date: June 24, 2011), title of the invention: "Multimedia information geotagging service method"

According to an aspect of the present invention, there is provided a geotagging method for geotagging a geotag module installed in a facility, the method comprising: The present invention relates to a system and method for automatically updating facility spatial information using a geotag module.

Another object of the present invention is to provide a facility space information management server that can automatically update the facility space information by automatically receiving the geotagging space information from the geotag module in real time, , A system for automatically updating facility space information using a geotag module, and a method thereof.

According to an aspect of the present invention, there is provided a system for automatically updating facility space information using a geotag module according to the present invention, comprising: at least three GPS satellites transmitting GPS signals so as to confirm location information of facilities; A GPS receiver for receiving the GPS signals from the GPS satellites to generate a geo tag corresponding to the location of the facility and providing the facility space information to the geo tag combined with the geo tag, A geotag module for transmitting geotagging spatial information; And a facility space information management server that performs wired or wireless communication with the geotag module and automatically receives the geotagging space information from the geotag module installed in the facility to automatically update the facility space information, The facility space information includes a facility name, a facility specification, location information, a geographic name, drawing information, and status information, and the geotag generated by the geotag module 120 includes the longitude and latitude coordinates of the facility 200 And the geospatial information is combined with the geospatial information to form geotagging space information. The geospatial information generated by the geotag module is changed when the facility is expanded, demolished, or changed in structure. And is transmitted in combination with the changed facility space information.

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Here, the geotag module may be integrated with a meter installed in the facility to detect abnormal behavior of the facility.

Here, the geotag module may include a facility space information storage unit for storing space information of the facilities inputted from the facility manager; A GPS receiver for receiving GPS signals from the GPS satellites; A geotagging unit for generating a geotag that corresponds to the location of the facility according to the GPS signal received from the GPS receiver; A geo tag combining unit for generating geo tagging space information by combining the facility space information stored in the facility space information storage unit and the geo tag generated by the geo tag generation unit; And a communication module that performs wired or wireless communication to transmit the geotagging space information generated by the geotagging unit to the facility space information management server.

Here, the facility space information management server may include a communication module that performs wired or wireless communication to receive geotagging space information from the geotag module; A spatial information DB for storing the pre-change facility space information of the facility and storing the updated facility space information when the facility space information is changed; A geotagging space information verifying unit comparing the geo tagging space information received by the communication module with the pre-change facility space information stored in the space information DB to check whether the space information of the facility has changed; And a facility space information updating unit for automatically updating the facility space information and storing the updated facility space information in the space information DB when the facility space information is changed.

The system for automatically updating the facility space information using the geotag module according to the present invention is a system for automatically updating the facility space information using the geotag module according to the present invention. The system is interlocked with the facility space information management server through wired or wireless communication and receives and utilizes the facility space information provided from the facility space information management server A facility space information interworking server may be additionally included.

Here, the facility spatial information interworking server may be an electronic map server, a GIS server, or a spatial information server.

According to another aspect of the present invention, there is provided a method for automatically updating facility space information using a geotag module according to the present invention, comprising the steps of: a) installing a geotag module in each of at least one facility, Storing the facility space information in the space; b) the geotag module receiving a GPS signal from a GPS satellite to generate a geotag; c) the geotag module combines the stored facility spatial information with the generated geotag to generate geotagging space information; d) the geotag module transmits the geotagging space information to the facility space information management server; e) the facility spatial information management server compares and verifies the transmitted geotagging spatial information with previously stored facility spatial information; And f) automatically updating the facility space information corresponding to the transmitted geotagging space information by the facility space information management server and storing the facility space information in the space information DB, wherein the facility space information includes a facility name, Geographical name, drawing information, and status information, and the geotag generated by the geotag module 120 includes the longitude and latitude coordinates of the facility 200, and the geotag is associated with the facility space information And the geospatial information is changed when the facility is expanded, demolished, or changed in structure, and the geotag generated in the geotag module is transmitted in combination with the changed facility spatial information .

A method for automatically updating facility space information using a geotag module according to the present invention includes the steps of: h) when the facility space information is changed, the facility space information management server transmits the updated facility space information to the facility space information interworking server . ≪ / RTI >

According to the present invention, in the case where the facility space information is changed, the facility space information can be updated more efficiently by geotagging of the geotag module installed in the facility, and the existing unnecessary manual input can be prevented Thereby minimizing waste of manpower.

According to the present invention, the facility space information management server receives the geotagging space information from the geotag module in real time, automatically updates the facility space information, automatically updates the changed contents on the electronic map, It can be used instantaneously and precisely at the interoperable facility space information server such as electronic map server, GIS server or spatial information server.

FIG. 1 is a diagram for explaining the concept of a general geotag.
2 is a diagram schematically showing a geotagging system for digital data according to a conventional technique.
3A and 3B are configuration diagrams specifically showing the server and the terminal shown in FIG. 2, respectively.
4 is a diagram for explaining update of facility space information according to a conventional technique.
5 is a block diagram of a system for automatically updating facility space information using a geotag module according to an embodiment of the present invention.
6 is a configuration diagram specifically illustrating a geotag module in a system for automatically updating facility spatial information using a geotag module according to an embodiment of the present invention.
FIG. 7 is a configuration diagram specifically illustrating a facility space information management server in a system for automatically updating facility space information using a geotag module according to an embodiment of the present invention.
FIG. 8 is a diagram illustrating a case in which a spatial information change facility occurs in a facility spatial information automatic update system using a geotag module according to an embodiment of the present invention.
9 is a flowchart illustrating a method of automatically updating facility space information using a geotag module according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the term "part" or the like, as described in the specification, means a unit for processing at least one function or operation, and may be implemented by hardware, software, or a combination of hardware and software.

[System for Automatic Updating of Facility Spatial Information Using Geotag Module (100)]

FIG. 5 is a block diagram of a system for automatically updating facility space information using a geotag module according to an embodiment of the present invention. FIG. 6 is a schematic diagram of a system for automatically updating facility space information using a geotag module according to an embodiment of the present invention. FIG. 7 is a configuration diagram specifically showing a facility space information management server in a facility space information automatic update system using a geotag module according to an embodiment of the present invention. Referring to FIG.

5 to 7, a facility spatial information automatic updating system 100 using a geotag module according to an embodiment of the present invention includes a GPS satellite 110, a geo-tag module 120, 6, the geo-tag module 120 includes a facility space information storage unit 121, a GPS (Global Positioning System) database 130, 7, the facility spatial information management server 130 includes a reception unit 122, a geotagging unit 123, a geo tag coupling unit 124, and a communication module 125. The facility spatial information management server 130, Module 131, a geotagging spatial information verifying unit 132, a facility spatial information updating unit 133, and a spatial information DB 134.

At least three GPS satellites 110 are provided and transmit GPS signals so that location information of each of the facilities 200 including the first to Nth facilities 210 and 220 can be confirmed. Such a GPS can accurately calculate the current position by measuring the accurate time and distance from three or more satellites by using the triangulation method, and thus it can be said that it is very efficient in locating the facility 200. That is, when the single measurement is performed using the GPS receiver, the existing property information such as the management of the facility 200 can be sufficiently utilized to search and modify the information despite the relatively low accuracy. Here, the facility may be a social infrastructure, a social infrastructure is an asset that is constructed as a large-scale investment for the formation of a national infrastructure, and has long-term economic effects, for example, roads, railways, Harbors, dams, airports, waterworks, rivers and aquaculture facilities.

The geotag module 120 is installed in each of the facilities 200 and incorporates facility space information for the facilities 200. The geotag module 120 receives GPS signals from the GPS satellites 110, (Geo-Tag) corresponding to the geo-tag space, and transmits the geo-tagging space information combined with the facility space information and the geo-tag. At this time, the geotag module 120 may be attached to the facility 200 itself, but may be formed integrally with a meter installed in the facility 200 to detect abnormal behavior of the facility 200 have.

The facility space information includes a facility name, a facility specification, location information, a geographical name, drawing information, and status information, and the geotag generated by the geotag module 120 includes geographical information such as the longitude and latitude Coordinates, and the geotag is combined with the facility space information to form geotagging space information. In addition, the facility space information is changed when the facility 200 is expanded, demolished, or changed in structure, and the geotag generated by the geotag module 120 is transmitted in combination with the changed facility space information.

6, the facility spatial information storage unit 121 of the geotag module 120 stores spatial information of the facility 200 input from the facility manager. For example, the facility manager can store the facility space information including the facility name, the facility specification, the location information, the geographical name, the drawing information, and the status information in the facility space information storage unit 121 using the field terminal.

The GPS receiver 122 of the geotag module 120 receives GPS signals from the GPS satellites 110.

The geotag generator 123 of the geotag module 120 generates a geotag that corresponds to the location of the facility 200 according to the GPS signal received from the GPS receiver 122.

The geotagging unit 124 of the geotag module 120 combines the facility space information stored in the facility spatial information storage unit 121 and the geotag generated by the geotag generator 123, And generates spatial information.

The communication module 125 of the geotag module 120 performs wired or wireless communication to transmit the geotagging space information generated by the geotagging unit 124 to the facility spatial information management server 130 do.

5, the facility space information management server 130 performs wired or wireless communication with the geotag module 120 and receives geotag data from the geotag module 120 installed in the facility 200, And automatically updates facility space information by receiving spatial information.

7, the communication module 131 of the facility spatial information management server 130 performs wired or wireless communication to receive the geotagging space information from the geotag module 120. As shown in FIG.

The geo-tagging space information verifying unit 132 of the facility space information management server 130 receives the geo-tagging space information received by the communication module 131 and the pre-change facility space information stored in the space information DB 134 And determines whether the spatial information of the facility 200 has been changed.

When the facility space information is changed, the facility space information updating unit 133 of the facility space information management server 130 automatically updates the facility space information and updates the updated facility space information to the space information DB 134 ).

The space information DB 134 of the facility space information management server 130 stores the pre-change facility space information of the facility 200 and stores the updated facility space information when the facility space information is changed.

5, the facility space information interworking server 300 is interlocked with the facility space information management server 130 through wired or wireless communication, and receives the facility space information from the facility space information management server 130 Can be received and utilized. Here, the facility spatial information interworking server 300 may be an electronic map server, a GIS server, or a spatial information server, but is not limited thereto.

Meanwhile, FIG. 8 is a diagram showing a case in which a spatial information changing facility occurs in a facility spatial information automatic updating system using a geotag module according to an embodiment of the present invention.

Referring to FIG. 8, in a system for automatically updating facility spatial information using a geotag module according to an embodiment of the present invention, when a spatial information fluctuation facility 230 such as expansion, demolition, or structural change of a facility occurs, The geotag module 120 installed in the facility 230 transmits geotagging space information in real time to the facility spatial information management server 130 by wire or wirelessly through a network, Update the spatial information, store the spatial information in the spatial information DB 1 (134), and transmit the updated facility spatial information to the facility spatial information interworking server (300).

According to the system for automatically updating the facility space information using the geotag module according to the embodiment of the present invention, the GPS is linked with the GPS through the facility 200 or the geotag module 120 attached to the target structure, The information management server 130 or the facility space information interworking server 300 automatically. At this time, in the geotag module 120 attached to or installed in the facility 200 or the target structure, the location information and other information of the geotag module 120 are transmitted to the facility spatial information management server 130 or the facility space information To the interworking server (300).

[How to update facility space information automatically using geotag module]

9 is a flowchart illustrating a method of automatically updating facility space information using a geotag module according to an embodiment of the present invention.

Referring to FIG. 9, a method for automatically updating facility space information using a geotag module according to an embodiment of the present invention includes: first installing a geotag module 120 in at least one facility 200, The facility space information is stored in the module 120 (S110). At this time, the geotag module 120 may be integrated with a meter installed in the facility 200 to detect an abnormal behavior of the facility 200.

Next, the geotag module 120 receives a GPS signal from the GPS satellite 110 and generates a geotag (S120).

Next, the geotag module 120 combines the stored facility space information with the generated geotag to generate geotagging space information (S130). In this case, the facility space information includes a facility name, a facility specification, location information, a geographical name, drawing information, and status information, and a geotag that is generated by the geotag module 120 includes geographical information such as longitude and latitude Coordinates, and the geotag is combined with the facility space information to form geotagging space information.

Next, the geotag module 120 transmits the geotagging space information to the facility spatial information management server 130 (S140). That is, the facility space information changes when the facility 200 is expanded, demolished, or changed in structure, and the geotag generated by the geotag module 120 is transmitted in combination with the changed facility space information.

Next, the facility space information management server 130 compares and confirms the transmitted geotagging space information with previously stored facility space information (S150).

Next, the facility space information management server 130 updates the facility space information corresponding to the transmitted geotagging space information and stores it in the space information DB 134 (S160).

Next, when the facility space information is changed, the facility space information management server 130 transmits the updated facility space information to the facility space information interworking server 300 (S170). Here, the facility spatial information interworking server 300 may be an electronic map server, a GIS server, or a spatial information server, but is not limited thereto.

As a result, according to the embodiment of the present invention, the facility space information can be updated more efficiently by geotagging of the geotag module installed in the facility when the facility space information is changed, and the existing unnecessary manual input is prevented So that the waste of manpower can be minimized. In addition, the facility space information management server receives the geotagging space information from the geotag module in real time, automatically updates the facility space information, automatically updates the changed contents on the electronic map, and displays the electronic map Server, GIS server, or spatial information server can be instantly and accurately utilized.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Facility information automatic update system
200: Facility
300: Facilities space information interworking server
110: GPS satellite
120: Geotag module
130: Facility space information management server
121: Facility space information storage unit
122: GPS receiver
123: Geotag generator
124: Geo tag coupling part
125: Communication module for geotag module
131: Communication module for facility space information management server
132: Geotagging space information verifying unit
133: Facility space information update section
134: Spatial information DB
210: First facility
220: Facilities N
230: Spatial Information Fluctuation Facility

Claims (12)

At least three GPS satellites (110) for transmitting GPS signals so that location information of the facilities (200) can be confirmed;
Geo-tag information corresponding to the location of the facility 200 is received by the GPS satellite 110 and installed in the facility 200 and includes facility space information for the facility 200, A geo-tag module 120 for generating the geo-tag information and the geo-tagging space information combined with the geo-tag; And
Performs wired or wireless communication with the geotag module 120 and receives geotagging space information from the geotag module 120 installed in the facility 200 to automatically update facility space information, A facility space information management server 130,
, ≪ / RTI &
The facility space information includes facility name, facility specification, location information, geographical name, drawing information, and status information, and the geotag that is generated by the geotag module 120 may include the longitude and latitude coordinates of the facility 200 The geotag module 120 forms the geotagging space information by combining the geotag with the facility space information. The facility space information is changed when the facility 200 is expanded, demolished, or structured, and the geotag module 120 ) Is transmitted in combination with the changed facility space information, and the geotag generated in the geotag module is transmitted in combination with the changed facility space information. delete The method according to claim 1,
Wherein the geotag module (120) is integrated with a meter installed in the facility (200) to detect abnormal behavior of the facility (200). The method according to claim 1,
The geotag module (120)
A facility space information storage unit 121 for storing space information of the facility 200 inputted from the facility manager;
A GPS receiver 122 for receiving GPS signals from the GPS satellites 110;
A geotag generator 123 for generating a geotag corresponding to the location of the facility 200 according to the GPS signal received from the GPS receiver 122;
A geotagging unit 124 for generating geotagging space information by combining the facility space information stored in the facility spatial information storage unit 121 and the geotag generated by the geotag generator 123; And
And a communication module 125 that performs wired or wireless communication to transmit the geotagging space information generated by the geotagging unit 124 to the facility space information management server 130 Automatic update system of facility space information. The method according to claim 1,
The facility space information management server (130)
A communication module 131 for performing wired or wireless communication to receive geotagging space information from the geotag module 120;
A spatial information DB (134) for storing the pre-change facility space information of the facility (200) and storing the updated facility space information when the facility space information is changed;
The geotagging space information received by the communication module 131 and the pre-change facility space information stored in the space information DB 134 are compared with each other to check whether or not the spatial information of the facility 200 is changed. 132; And
A facility space information updating unit 133 for automatically updating the facility space information and storing the updated facility space information in the space information DB 134 when the facility space information is changed, Automated Renewal System for Spatial Information of Facilities. The method according to claim 1,
A facility space information interworking server 300 interlocked with the facility space information management server 130 via wired or wireless communication and receiving and using the facility space information provided from the facility space information management server 130 is additionally provided Automatic Spatial Information Updating System Using Geotag Module Included. The method according to claim 6,
Wherein the facility spatial information interworking server (300) is an electronic map server, a GIS server, or a spatial information server. a) installing a geotag module (120) in at least one facility (200), and storing facility space information in the geotag module (120);
b) receiving the GPS signal from the GPS satellite 110 to generate a geotag;
c) generating the geotagging space information by combining the stored facility space information and the generated geotag by the geotag module 120;
d) transmitting the geotagging space information from the geotag module (120) to the facility spatial information management server (130);
e) The facility space information management server 130 compares and confirms the transmitted geotagging space information with previously stored facility space information; And
f) The facility space information management server 130 updates the facility space information corresponding to the transmitted geotagging space information and stores the updated facility space information in the space information DB 134
, ≪ / RTI &
The facility space information includes facility name, facility specification, location information, geographical name, drawing information, and status information, and the geotag that is generated by the geotag module 120 may include the longitude and latitude coordinates of the facility 200 The geotag module 120 forms the geotagging space information by combining the geotag with the facility space information. The facility space information is changed when the facility 200 is expanded, demolished, or structured, and the geotag module 120 ) Is transmitted in combination with the changed facility space information. The method of automatically updating facility space information using the geotag module according to claim 1, 9. The method of claim 8,
h) transferring the updated facility space information to the facility space information interworking server (300) when the facility space information is changed, the facility space information management server (130) Automatic update of spatial information. 10. The method of claim 9,
Wherein the facility spatial information interworking server (300) is an electronic map server, a GIS server, or a spatial information server. delete 9. The method of claim 8,
Wherein the geotag module (120) is integrated with a meter installed in the facility (200) to detect abnormal behavior of the facility (200).

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