KR102297369B1 - System for producting figures of facilities and method thereof - Google Patents

Abstract

The present invention relates to a system and method for producing a figure for location and status of facilities. A task to be solved is to make it easier and more convenient to create the figure for the location and status of various facilities using public data and satellite images, and to make it possible to modify the created figure. An embodiment of the present invention discloses the location and status of facilities, a figure production system, which includes: a spatial data input unit for receiving spatial data; an orthogonal image merging unit for generating a merged orthogonal image by merging a plurality of individual orthogonal images each having a location coordinate reference value into one; a figure generating unit which generates a location map showing a map of a center of the facility and a calculation point map showing a detailed map of a specific area using the spatial data, overlays the spatial data on the merged orthogonal image, and generates a status map showing the status as a satellite image by using the merged orthogonal image overlaid with spatial data, and generates the figure by inputting a legend image, administrative district information, and facility information to the generated location map, the calculation point map, and a current status map, respectively.

Description

Location and status of facilities and method for making inserts

An embodiment of the present invention relates to a system and method for making an inset for the location and status of a facility.

Small-scale public facilities that are not managed in accordance with other laws such as the 'Road Act' and 'River Act', such as small bridges, rivers, inlet weirs, and falling holes, are subject to social/geographical conditions, disaster risk factors and damage according to the 'Act on Safety Management of Small Public Facilities, etc.' Regulations to establish a safety inspection and maintenance plan for small public facilities that conduct a visual or technical inspection to analyze the expected size and history of disasters, analyze and predict the risk quantitatively and qualitatively, and establish a maintenance plan for the hazardous facilities has been

As such, data (ex. insets) are needed to plan and proceed with safety inspection and maintenance of small public facilities, but the amount of these materials is huge and the time required to construct them is considerable. It is required to develop a program that can be modified and managed.

Registered Utility Model Publication No. 20-0388211 (Registration Date: June 20, 2005)

An embodiment of the present invention provides a system and a method for producing an inset that can more easily and conveniently produce an inset for the location and status of various facilities using public data and satellite images, and can also modify the generated inset.

In accordance with an embodiment of the present invention, there is provided a system for producing an inset for location and status of a facility, comprising: a spatial data input unit for receiving spatial data; a merging unit for generating a merged orthogonal image by merging a plurality of individual orthoimages each having a position coordinate reference value into one; and using the spatial data to generate a location map showing a map of the center of a facility and a calculated point map showing a detailed map of a specific area, respectively, overlaying the spatial data on the merged orthogonal image, and the spatial data is overlaid Using the merged orthogonal image, a status map showing the status as a satellite image is generated, and a legend image, administrative district information, and facility information are inputted respectively to the generated location map, the calculated point map, and the status map to generate an inset. including a shovel generating unit.

In addition, it may further include an inset correction unit for respectively adjusting the display position and size of the attribution information included in the inset according to the correction instruction input from the user, and for correcting the text content of the attribution information.

In addition, the spatial data may include information on at least one of a river, a house, a road, a building, a contour line, and an administrative area.

In addition, the inset generation unit adjusts the map image included in the spatial data to a first scale, and the map image adjusted to the first scale includes a legend image for attribute information included in the spatial data and an administrative code. a location map file generator for generating a location map by inputting the text box and the text box including the facility data, respectively, and generating and storing the location map file through screen capture of the generated location map; The map image included in the spatial data is adjusted to a second scale smaller than the first scale, and the map image adjusted to the second scale includes a legend image for attribute information included in the spatial data and an administrative code. a calculation point map file generator for generating a calculated point map by inputting a text box and a text box including facility data, respectively, and generating and storing a calculated point map file through a screen capture of the generated calculated point map; and a satellite image included in the merged orthogonal image is adjusted to a third scale smaller than the second scale, and the satellite image adjusted to the third scale includes a legend image and an administrative code for attribute information included in the spatial data. A current status map is generated by inputting the included text box and the text box including the facility data, respectively, and a status map file generation unit for generating and storing the current status map file through screen capture of the generated status map may be included.

In addition, the location map file generator, the calculated point map file generator, and the current status map file generator automatically adjust the position and scale of the text box so that text boxes do not overlap when text boxes are input in the corresponding image or video. However, in the case of a text box for an administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of a text box for a river, it is automatically placed in the middle of the river, and in the case of a text box for a facility, it is a facility It can be automatically placed by inserting it into position.

According to another embodiment of the present invention, there is provided a method for producing an inset of a location and status of a facility, comprising: a spatial data input step for receiving spatial data by a spatial data input unit; an ortho image merging step of merging, by an orthogonal image merging unit, satellite image fragments each having a position coordinate reference value into one to generate a merged orthogonal image; and an inset generating unit using the spatial data to generate a location map showing a map of the center of a facility and a calculated point map showing a detailed map of a specific area, respectively, and overlaying the spatial data on the merged orthogonal image, By using the merged orthogonal image overlaid with data to generate a current status map showing the status as a satellite image, a legend image, administrative district information, and facility information are inputted to the generated location map, the calculated point map, and the status map, respectively. and an inset generation step of generating the inset.

In addition, the inset correction unit may further include a correction step of adjusting the display position and size of the attribution information included in the inset according to a correction instruction input from the user, respectively, and correcting the text content of the attribution information.

In addition, the spatial data may include information on at least one of a river, a house, a road, a building, a contour line, and an administrative area.

In addition, the generating of the inset includes adjusting the map image included in the spatial data to a first scale using a location map file generator, and attribute information included in the spatial data in the map image adjusted to the first scale A location map is created by inputting a legend image, a text box including administrative code, and a text box including facility data, respectively, and a location map file is created and saved through screen capture of the created location map file creation step; Using the calculated point map file generator, the map image included in the spatial data is adjusted to a second scale smaller than the first scale, and the map image adjusted to the second scale is added to the attribute information included in the spatial data. It generates a calculation point map by inputting a legend image for the information, a text box containing an administrative code, and a text box containing facility data, respectively, and creates and saves a calculation point map file through screen capture of the generated calculation point map. generating a calculation point map file; and a status map file generator adjusts the satellite image included in the merged orthogonal image to a third scale smaller than the second scale, and relates to attribute information included in the spatial data in the satellite image adjusted to the third scale A current status map is created by inputting a legend image, a text box containing an administrative code, and a text box including facility data, respectively, and a status map file is created and saved through screen capture of the generated status map. may include steps.

In addition, the step of generating the location map file, the step of generating the calculated point map file, and the step of generating the status map file are performed according to the position and scale of the text box so that the text boxes do not overlap when inputting text boxes within the image or video. However, in the case of a text box for administrative districts, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of a text box for a river, it is automatically placed at the middle point of the river, and in the case of a text box for facilities It can be automatically placed by inserting it into a facility location.

Advantageous Effects of Invention According to the present invention, it is possible to provide a system and method for producing an inset that can more easily and conveniently produce an inset for the location and status of various facilities using public data and satellite images, and can also modify the generated inset.

1 is a block diagram showing the configuration of a system for making a location and current state of a facility according to an embodiment of the present invention.
2 is a block diagram illustrating the configuration of an inset generation unit according to an embodiment of the present invention.
3 is a view showing an example of the manufacturing sequence of the location map and the calculation point map according to an embodiment of the present invention.
4 is a view showing an example of a production sequence of the status diagram according to an embodiment of the present invention.
5 to 9 are diagrams captured by the execution screen of the insert production program for producing the insert according to an embodiment of the present invention.
10 is a diagram illustrating a screen capture of an execution screen of an insert production program that checks an insert check and insert correction list generated according to an embodiment of the present invention.
11 is a diagram illustrating a screen capture of an execution screen of an insert production program for correcting an insert generated according to an embodiment of the present invention.
12 is a view of capturing an execution screen of an insert making program for storing the corrected insert according to an embodiment of the present invention.
13 is a flowchart illustrating a method for producing an inset of a facility location and status according to another embodiment of the present invention.
14 is a flowchart illustrating a step of generating an inset according to another embodiment of the present invention.

Terms used in this specification will be briefly described, and the present invention will be described in detail.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

When a part "includes" a certain element throughout the specification, this means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software. .

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the embodiments of the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

1 is a block diagram showing the configuration of a system for making an insert for the location and status of a facility according to an embodiment of the present invention, FIG. 2 is a block diagram showing the configuration of an insert generating unit according to an embodiment of the present invention, FIG. 3 is a view showing an example of the production sequence of the location map and the calculated point map according to an embodiment of the present invention, Figure 4 is a view showing an example of the production sequence of the current state diagram according to an embodiment of the present invention.

Referring to FIG. 1 , the location and status of a facility according to an embodiment of the present invention is a spatial data input unit 100 , an orthographic image merging unit 200 , an inset generation unit 300 , and the number of insets. It may include at least one of the government 400 .

The spatial data input unit 100 may download spatial data from a public data portal and receive the downloaded spatial data. Spatial data according to this embodiment may include information on at least one of rivers, houses, roads, buildings, contour lines, and administrative districts, and administrative districts may include administrative district lines such as city, county, and gu. . The file format of spatial data may be a shape file (*.shp).

The spatial data is information about the geographic location and characteristics of a feature (natural or artificial shape on Earth). It refers to data used in a geographic information system, and may generally be composed of figure information indicating the shape or geographic location and correlation of an object in space and attribute information of the object. These spatial data sms are data used to represent objects in space or to express relationships between objects, and are composed of figure information representing geographic location and topological relationship and attribute information representing characteristics of objects. It can be used in various fields such as administrative services, administrative services, etc. that require decision-making related to space. Safe file refers to a geo-relational spatial data storage format that includes non-topological properties and spatial data. The file structure is simple, so GIS (Geographic Information System: Geospatial Information System, geographic information system) file format.

The ortho image merging unit 200 may generate a merged orthogonal image by merging a plurality of individual orthoimages each having a position coordinate reference value into one. The orthogonal image merging unit 200 downloads satellite image image fragments having respective position coordinate reference values from the public data portal, stitches the downloaded satellite image image fragments into one, and creates a merged orthographic image file that is one file. can do. These merged orthoimage files include an image ortho image file (*.flt) and a location coordinate reference value ortho image file (*.hdr), where *.flt and *.hdr are two files to operate as one set. and the ratio can be made in various ways, such as 1:1 to 1:100, and used as a different file according to the scale adjustment of the map.

The inset generating unit 300 generates a location map showing a map of the center of a facility and a calculated point map showing a detailed map of a specific area using spatial data, respectively, and overlays the spatial data on the merged orthogonal image And, using the merged orthographic image overlaid with spatial data, a current status map is generated using satellite images, and legend images (ex. facility, river, evaluation location legend) on the generated location map, estimating point map and current status map, By inputting administrative district information and facility information, respectively, it is possible to create and store an inset file (location map, point of calculation, and status map image file) for each. In addition, the input image may further include a azimuth gun, starting/middle point/end point display, and the like.

For this purpose, the inset generating unit 300 includes at least one of a location map file generating unit 310, a calculated point map file generating unit 320, and a current state map file generating unit 330, as shown in FIG. 2 . can do.

The location map file generation unit 310 adjusts the map image included in the spatial data to a first scale, and the map image adjusted to the first scale includes a legend image for attribute information included in the spatial data and an administrative code. A location map is generated by inputting each included text box and a text box including facility data, and a location map file can be created and saved through screen capture of the generated location map.

For example, as shown in FIG. 3, a spatial data file (*.shp) is displayed on the screen to output a map image, and the scale of the map image output on the screen is adjusted to be larger than the calculation point diagram and the current status diagram, It is possible to inquire the administrative code appropriate to the location of the facility (apply the statutory dong code using public data, directly input it), and display the region name according to the administrative code on the scaled spatial data (map image), The facility and facility name (direct input possible) can also be displayed. Thereafter, the location map file can be created by capturing the corresponding screen and saving the image file.

At this time, when inputting text boxes for entering administrative district names, facility names, and river names within the map image or video, the text boxes are automatically arranged according to the position and scale of the text box so that each text box does not overlap on the map image. can do. However, in the case of the text box for the name of the administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of the text box for the name of the river, it is automatically placed at the middle point of the river, and the text box for the name of the facility In this case, it can be automatically placed by inserting it at the location of the facility.

The calculated point map file generating unit 320 adjusts the map image included in the spatial data to a second scale smaller than the first scale, and adds the attribute information included in the spatial data to the map image adjusted to the second scale. The calculation point map is generated by inputting the legend image of the country, the text box containing the administrative code, and the text box containing the facility data, respectively, and the calculation point is obtained through screen capture of the generated calculation point map (detailed view of a specific area). You can also create a file and save it.

For example, as shown in FIG. 3, a spatial data file (*.shp) is displayed on the screen to output a map image, and the scale of the map image output on the screen is adjusted to be larger than the location map and smaller than the current status map, , it is possible to inquire the administrative code suitable for the location of the facility, display the name of the region according to the corresponding administrative code on the scaled spatial data (map image), and also display the facility and facility name. Thereafter, by capturing the corresponding screen and saving the image file, the calculated point map file can be generated.

At this time, when inputting text boxes for entering administrative district names, facility names, and river names within the map image or video, the text boxes are automatically arranged according to the position and scale of the text box so that each text box does not overlap on the map image. can do. However, in the case of the text box for the name of the administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of the text box for the name of the river, it is automatically placed at the middle point of the river, and the text box for the name of the facility In this case, it can be automatically placed by inserting it at the location of the facility.

The status map file generator 330 adjusts the satellite image included in the merged orthogonal image to a third scale smaller than the second scale (ie, the first scale > the second scale > the third scale), and the third scale In the satellite image adjusted with Through capture, you can create and save the status map file.

For example, as shown in FIG. 4, a spatial data file (*.shp) is displayed on the screen to output a map image, and the scale of the map image output on the screen is adjusted to be smaller than the location map and the calculated point map, Orthographic images (*flt, *hdr) are displayed on the screen according to the location and scale of the facility, and then the legend image is displayed on the screen. Thereafter, an administrative code suitable for the location of the facility may be inquired, and a region name according to the corresponding administrative code may be displayed on the scaled spatial data (map image), and the facility and facility names may also be displayed. Thereafter, by capturing the screen and saving the image file, the status map file can be created.

At this time, when inputting text boxes for entering administrative district names, facility names, and river names within the map image or video, the text boxes are automatically arranged according to the position and scale of the text box so that each text box does not overlap on the map image. can do. However, in the case of the text box for the name of the administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of the text box for the name of the river, it is automatically placed at the middle point of the river, and the text box for the name of the facility In this case, it can be automatically placed by inserting it at the location of the facility.

The inset correction unit 400 adjusts the display position and size of attribution information included in the inset, respectively, according to a correction instruction input from the user, and corrects the text content of the attribution information (ex. facility location, name, etc.) can

5 to 9 are diagrams captured by the execution screen of the insert production program for producing the insert according to an embodiment of the present invention.

As shown in FIG. 5, if you select the eup/myeon/dong, ri, facility classification button displayed at the top of the shovel production program screen, a table list (code information and name) is created on the left screen to display the information you want to inquire. can be checked By selecting the "Ready" and "Go" buttons when making an inset, three kinds of inset images can be produced based on the table list displayed on the left screen: 'location map, estimating point map, and current status map'. In addition, you can check the progress of automatic image creation in the upper right corner of the screen.

As shown in FIGS. 6 to 8 , three images can be automatically generated for each table list on the left side of the screen: a location map (FIG. 6), a current status diagram (FIG. 7), and a point of calculation (FIG. 8). .

As shown in FIG. 9 , the image files of 'location map, calculation point map, and current status map' are stored in the folder location of the designated or set path, respectively, and the corresponding image file can be checked through the set folder.

FIG. 10 is a view capturing an execution screen of an insert making program for checking an insert confirmation and an insert correction list generated according to an embodiment of the present invention.

As shown in Fig. 10, if the "Auto Continue View" button is selected, the table list displayed on the left side of the screen automatically goes over and images for the corresponding location map, current status map, and calculation point map can be checked. If you select the "below" button, you can edit the displayed images (location map, current status map, and calculation point map).

11 is a view of capturing an execution screen of an insert making program for correcting an insert created according to an embodiment of the present invention.

As shown in FIG. 11, select the image you want to edit (location diagram, current status diagram, and calculation point diagram) from the table list on the left side of the screen, and, for example, select the text box for “start point” or the location of another image. If you want to move it, you can adjust the position by clicking or holding the mouse and dragging the target object to the position you want to move. You can also select a camera image to save the modified image. A capture operation is performed to save the modified image, and the confirmation checkbox is automatically converted after the capture operation is completed.

12 is a view captured by the execution screen of the insert production program for storing the corrected insert according to an embodiment of the present invention.

When the program is re-executed by selecting the inset check button in the SFMP program, as shown in FIG. 12, a table list is displayed on the left side of the screen, and a modified image can be checked by selecting a specific list. At this time, after selecting the "Select All" button, select the "Save" button at the bottom of the screen to safely save the confirmed modified image again.

13 is a flowchart illustrating a method for producing an inset of the location and status of a facility according to another embodiment of the present invention, and FIG. 14 is a flowchart illustrating the step of generating an insert according to another embodiment of the present invention.

Referring to FIG. 13 , the location and status of a facility according to an embodiment of the present invention is an inset production system (S100SS1000), a spatial data input step (S100), an ortho image merging step (S200), an inset creation step (S300), and an inset At least one of the correction steps (S400) may be included.

In the spatial data input step S100, spatial data may be downloaded from a public data portal, and the downloaded spatial data may be input. Spatial data according to this embodiment may include information on at least one of rivers, houses, roads, buildings, contour lines, and administrative districts, and administrative districts may include administrative district lines such as city, county, and gu. . The file format of spatial data may be a shape file (*.shp).

The spatial data is information about the geographic location and characteristics of a feature (natural or artificial shape on Earth). It refers to data used in a geographic information system, and may generally be composed of figure information indicating the shape or geographic location and correlation of an object in space and attribute information of the object. These spatial data sms are data used to represent objects in space or to express relationships between objects, and are composed of figure information representing geographic location and topological relationship and attribute information representing characteristics of objects. It can be used in various fields such as administrative services, administrative services, etc. that require decision-making related to space. Safe file refers to a geo-relational spatial data storage format that includes non-topological properties and spatial data. The file structure is simple, so GIS (Geographic Information System: Geospatial Information System, geographic information system) file format.

The ortho image merging step ( S200 ) may generate a merged orthographic image by merging a plurality of individual orthoimages each having a position coordinate reference value into one. In the orthogonal image merging step (S200), the satellite image image pieces having each location coordinate reference value are downloaded from the public data portal, and the downloaded satellite image image fragments are stitched together to create a merged orthographic image file that is one file. can do. These merged orthoimage files include an image ortho image file (*.flt) and a location coordinate reference value ortho image file (*.hdr), where *.flt and *.hdr are two files to operate as one set. The ratio can be made in various ways, such as 1:1 to 1:S100, and can be used as a different file according to the scale adjustment of the map.

In the inset creation step (S300), a location map showing a map of the center of a facility and a calculated point map showing a detailed map of a specific area are generated using spatial data, respectively, and the spatial data is overlaid on the merged orthogonal image. And, using the merged orthographic image overlaid with spatial data, a current status map is generated using satellite images, and legend images (ex. facility, river, evaluation location legend) on the generated location map, estimating point map and current status map, By inputting administrative district information and facility information, respectively, it is possible to create and store an inset file (location map, point of calculation, and status map image file) for each. In addition, the input image may further include a azimuth gun, starting/middle point/end point display, and the like.

To this end, the inset creation step (S300) includes at least one of a location map file creation step 310, a calculation point map file creation step 320, and a current status map file creation step 330, as shown in FIG. 14 . can do.

In the location map file creation step 310, the map image included in the spatial data is adjusted to a first scale, and a legend image for attribute information included in the spatial data and an administrative code are included in the map image adjusted to the first scale. A location map is generated by inputting each included text box and a text box including facility data, and a location map file can be created and saved through screen capture of the generated location map.

For example, as shown in FIG. 3, a spatial data file (*.shp) is displayed on the screen to output a map image, and the scale of the map image output on the screen is adjusted to be larger than the calculation point diagram and the current status diagram, It is possible to inquire the administrative code appropriate to the location of the facility (apply the statutory dong code using public data, directly input it), and display the region name according to the administrative code on the scaled spatial data (map image), The facility and facility name (direct input possible) can also be displayed. Thereafter, the location map file can be created by capturing the corresponding screen and saving the image file.

At this time, when inputting text boxes for entering administrative district names, facility names, and river names within the map image or video, the text boxes are automatically arranged according to the position and scale of the text box so that each text box does not overlap on the map image. can do. However, in the case of the text box for the name of the administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of the text box for the name of the river, it is automatically placed at the middle point of the river, and the text box for the name of the facility In this case, it can be automatically placed by inserting it at the location of the facility.

In the step 320 of generating the calculated point map file, the map image included in the spatial data is adjusted to a second scale smaller than the first scale, and the map image adjusted to the second scale is added to the attribute information included in the spatial data. The calculation point map is generated by inputting the legend image of the country, the text box containing the administrative code, and the text box containing the facility data, respectively, and the calculation point is obtained through screen capture of the generated calculation point map (detailed view of a specific area). You can also create a file and save it.

For example, as shown in FIG. 3, a spatial data file (*.shp) is displayed on the screen to output a map image, and the scale of the map image output on the screen is adjusted to be larger than the location map and smaller than the current status map, , it is possible to inquire the administrative code suitable for the location of the facility, display the name of the region according to the corresponding administrative code on the scaled spatial data (map image), and also display the facility and facility name. Thereafter, by capturing the corresponding screen and saving the image file, the calculated point map file can be generated.

At this time, when inputting text boxes for entering administrative district names, facility names, and river names within the map image or video, the text boxes are automatically arranged according to the position and scale of the text box so that each text box does not overlap on the map image. can do. However, in the case of the text box for the name of the administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of the text box for the name of the river, it is automatically placed at the middle point of the river, and the text box for the name of the facility In this case, it can be automatically placed by inserting it at the location of the facility.

In the step 330 of generating the status map file, the satellite image included in the merged orthogonal image is adjusted to a third scale smaller than the second scale (ie, the first scale > the second scale > the third scale), and the third scale In the satellite image adjusted with Through capture, you can create and save the status map file.

For example, as shown in FIG. 4, a spatial data file (*.shp) is displayed on the screen to output a map image, and the scale of the map image output on the screen is adjusted to be smaller than the location map and the calculated point map, Orthographic images (*flt, *hdr) are displayed on the screen according to the location and scale of the facility, and then the legend image is displayed on the screen. Thereafter, an administrative code suitable for the location of the facility may be inquired, and a region name according to the corresponding administrative code may be displayed on the scaled spatial data (map image), and the facility and facility names may also be displayed. Thereafter, by capturing the screen and saving the image file, the status map file can be created.

At this time, when inputting text boxes for entering administrative district names, facility names, and river names within the map image or video, the text boxes are automatically arranged according to the position and scale of the text box so that each text box does not overlap on the map image. can do. However, in the case of the text box for the name of the administrative district, it is automatically placed in the center based on the center of gravity of the area to be inserted, and in the case of the text box for the name of the river, it is automatically placed at the middle point of the river, and the text box for the name of the facility In this case, it can be automatically placed by inserting it at the location of the facility.

In the inset correction step (S400), the display position and size of the attribute information included in the insert is adjusted according to the correction instruction input from the user, respectively, and the text content of the attribute information (ex. facility location, name, etc.) is corrected. can

What has been described above is only one embodiment for implementing the system and method for manufacturing the location and status of facilities according to the present invention, and the present invention is not limited to the above embodiment, and is claimed in the claims below. As such, without departing from the gist of the present invention, it will be said that the technical spirit of the present invention exists to the extent that various modifications can be made by anyone with ordinary knowledge in the field to which the present invention belongs.

1000: location and status of facilities, inset production system
100: spatial data input unit
200: orthogonal image merging unit
300: insert generator
310: location map file generation unit
320: calculation point map file generation unit
330: status map file generation unit
400: insert correction unit
S1000: How to make an inset for the location and status of facilities
S100: Spatial data input step
S200: Orthogonal image merging step
S300: Inset creation stage
S310: Location map file creation step
S320: Calculation point map file creation step
S330: Status map file creation step
S400: Inset Correction Step

Claims (10)

a spatial data input unit for receiving spatial data;
a merging unit for generating a merged orthogonal image by merging a plurality of individual orthoimages each having a position coordinate reference value into one; and
Using the spatial data, a location map showing a map of the center of a facility and a calculated point map showing a detailed map of a specific area are generated, respectively, the spatial data is overlaid on the merged orthogonal image, and the spatial data is overlaid Using the merged orthographic image to generate a status map showing the status as a satellite image, and input a legend image, administrative district information, and facility information to the generated location map, the calculation point map, and the status map, respectively, to generate an inset including a shovel generator;
The spatial data is
contains information on at least one of a river, a house, a road, a building, a contour line, and an administrative district;
The inset generating unit,
A map image included in the spatial data is adjusted to a first scale, and a legend image for attribute information included in the spatial data, a text box including an administrative code, and facility data are included in the map image adjusted to the first scale. a location map file generator for generating a location map by inputting each included text box, and generating and storing a location map file through a screen capture of the generated location map;
The map image included in the spatial data is adjusted to a second scale smaller than the first scale, and the map image adjusted to the second scale includes a legend image for attribute information included in the spatial data and an administrative code. a calculation point map file generator for generating a calculated point map by inputting a text box and a text box including facility data, respectively, and generating and storing a calculated point map file through a screen capture of the generated calculated point map; and
A satellite image included in the merged orthogonal image is adjusted to a third scale smaller than the second scale, and the satellite image adjusted to the third scale includes a legend image and an administrative code for attribute information included in the spatial data. A current status map is generated by inputting a text box and a text box containing facility data, respectively, and a status map file creation unit for generating and storing a current status map file through screen capture of the generated status map,
When entering text boxes within the image or video, the text boxes are automatically placed according to the position and scale of the text boxes so that they do not overlap. In the case of a text box for a river, it is automatically placed at the middle point of the river, and in the case of a text box for a facility, it is inserted and automatically placed at the location of the facility.
According to claim 1,
The location and current status of the facility, characterized in that it further comprises an insert correction unit for adjusting the display position and size of the attribution information included in the inset according to the correction instruction input from the user, respectively, and correcting the text content of the attribution information production system.
delete delete delete a spatial data input step in which the spatial data input unit receives spatial data;
an orthographic image merging step of merging, by an orthogonal image merging unit, satellite image fragments each having a location coordinate reference value into one to generate a merged orthogonal image; and
The inset generating unit generates a location map showing a map of the center of a facility and a calculated point map showing a detailed map of a specific area using the spatial data, respectively, and overlays the spatial data on the merged orthogonal image, and spatial data Creates a status map showing the status as a satellite image using the merged orthographic image overlaid with, and inserts legend images, administrative district information, and facility information into the generated location map, the calculated point map, and the status map, respectively. comprising the step of generating an inset to generate
The spatial data is
contains information on at least one of a river, a house, a road, a building, a contour line, and an administrative district;
The inset creation step is,
By using the location map file generator, the map image included in the spatial data is adjusted to a first scale, and the map image adjusted to the first scale has a legend image and an administrative code for the attribute information included in the spatial data. A location map file creation step of generating a location map by inputting an included text box and a text box including facility data, respectively, and generating and storing a location map file through a screen capture of the generated location map;
Using the calculated point map file generator, the map image included in the spatial data is adjusted to a second scale smaller than the first scale, and the map image adjusted to the second scale is added to the attribute information included in the spatial data. It generates a calculation point map by inputting the legend image for the information, a text box containing administrative code, and a text box containing facility data, respectively, and creates and saves a calculation point map file through screen capture of the generated calculation point map. generating a calculation point map file; and
A status map file generating unit adjusts the satellite image included in the merged orthogonal image to a third scale smaller than the second scale, and a legend about attribute information included in the spatial data in the satellite image adjusted to the third scale A status map file creation step in which a current status map is generated by inputting an image, a text box including an administrative code, and a text box including facility data, respectively, and a status map file is created and saved through screen capture of the generated status map including,
When entering text boxes within the image or video, the text boxes are automatically arranged according to the position and scale of the text boxes so that they do not overlap. In the case of a text box for a river, it is automatically placed in the middle of the river, and in the case of a text box for a facility, it is inserted and automatically placed at the location of the facility.
7. The method of claim 6,
The inset correction unit further comprising a correction step of adjusting the display position and size of the attribute information included in the inset according to a correction instruction input by the user, respectively, and correcting the text content of the attribute information How to make a location and status inset.
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