KR20160048255A - A gis-based thematic mapping method to use in estimating the annual amount of non-point source pollutants using partially updated land-cover map - Google Patents

Abstract

The present invention relates to a geographic information system (GIS)-based thematic mapping method for estimating annual non-point source pollutant loads through partial updating of a land cover map. The purpose of the present invention is to manufacture a thematic map for estimating non-point source pollutant loads using an annually partially updated land cover map, the thematic map which is capable of being utilized in extracting land area information per land category more accurately in a GIS environment in applying loading unit law of multiplying an area per a land cover land category by a loading unit per the land category to quantitatively estimate scales of pollutant loads generated and discharged from a non-point pollution source in total maximum daily loads (TMDL) of Ministry of Environment. A GIS-based thematic mapping method for estimating annual non-point source pollutant loads through partial updating of a land cover map according to an exemplary embodiment of the present invention includes: a step of collecting relevant spatial data required in partial updating of a land cover map; a step of unifying a coordinate system of the spatial data collected through registration and conversion of coordinates; a step of extracting, from continuous cadastral maps, a region-of-interest which is suspicious about correction of land cover boundaries or land category properties; a step of partially updating the land cover boundaries and the land category properties by overlapping various thematic maps with respect to the region-of-interest; an inspection step for checking and inspecting updating result accuracy of land cover information; and a step of reclassifying land category classification properties of the inspection-completed land cover map into a loading unit land category for estimating non-point source pollutant loads.

Description

Technical Field [0001] The present invention relates to a method for producing a GIS-based annual non-point pollutant load by partially updating a map of a land cover map. }

The present invention relates to a method for producing a topographic map for estimating the annual non-point pollutant load based on a geographic information system (GIS) through partial renewal of a land cover map. The TMDL (Total Maximum Daily Loads) In order to quantitatively estimate the amount of pollutant load generated and discharged from Non-Point Pollution Source, in the application of the landfill method by multiplying the landing area per landing area by the loading unit, The present invention relates to a method for manufacturing a non-point pollutant load calculating method using a land cover map that is partially renewed at the top of a podium, which can be used to more accurately extract area information from a GIS environment. This research was supported by the Ministry of Environment's "Next Generation Eco Innovation Technology Development Project (Project Number: 2013000200001)".

Land cover maps are a kind of thematic map. They are classified according to certain scientific criteria, and the areas with homogeneous characteristics are classified by Color Indexing and then Spatial Information Database This is because it reflects the phenomenon of the surface most well. Therefore, it is necessary to estimate the nonpoint source load by the permeability of the ground surface, urban planning by biotope mapping, simulation of submergence damage at downstream dam drainage, Evaluation and so on. It is now being used as a scientific basis for the establishment of environmental policies by the central government and local governments, and various research data of relevant academia.

The land cover map has three hierarchies according to spatial resolution: large classification (resolution 30M class), middle classification (resolution 5M class), and subdivision (resolution 1M class), and the major classification is 7 kinds of land cover classification (Including residential areas, industrial areas, commercial areas, cultural / sporting / recreational areas, traffic areas, public facilities, etc.) The subdivision is divided into three categories: total area, rice field, field, plantation, orchard, other plantation, broadleaf forest, coniferous forest, mixed forest, natural grassland, artificial grassland, inland wetland, coastal wetland, natural grassland, 41 facilities (single residential facilities, joint residential facilities, industrial facilities, commercial / business facilities, mixed areas, cultural / sports / recreational facilities, airports, ports, railways, Administrative facilities, other public facilities, paddy fields, In addition, there is a possibility that the rice field, rice field, farmland, farmland, farmland, deciduous forest, coniferous forest, mixed forest, natural grassland, golf course, graveyard, other grassland, inland marshland, And is further subdivided into mud flat, salt mud, beach, riverside, rock / rock, mining area, playground, other ponds, rivers, lakes and ocean water).

Since the first land-cover map was established for the whole country in 1998 using various satellite imagery and aerial photographs, the land cover map of the whole country was completed by 2010. From 2010, it will be applied to some areas of the Han and Nakdong River basins Are being produced. Regarding the renewal cycle of the land cover map, there is no rule or regulation. In general, it is irregular period of 4 years or 5 years. When the map is renewed, the map is created by creating a new map for the entire area. It is costly.

Nonpoint pollution sources are sources of water pollutants that are unspecified at unspecified places such as cities, roads, farmland, mountainous areas, and construction sites. It is difficult to collect pollutant outflows and discharge routes and it is difficult to collect pollutants. It is defined as a pollutant source that makes it difficult to design and maintain the treatment facility because it is highly dependent on the condition. Conversely, point pollution sources are pollutants that can be easily collected because of the clear path of pollutant discharge, and the influence of seasons is relatively small.

Since nonpoint pollution sources are considered to be one of the major causes of water pollution in recent years and they are expected to be the main cause of water pollution in the future, non-point pollution sources are defined as pollution sources of land-based pollutants , And the pollutant load included in the rainfall runoff per land cover area is measured and reported and managed by local governments.

However, if it is difficult to accurately measure the non-point pollutant load for a large area, it is necessary to calculate the unit area of each land area (answer, total, earth, . The central government and most municipal governments use non-point pollutant loads by using the raw sewage law and use it as a basis for pollutant management instead of actual data.

In the water quality pollution control system, various development activities are permitted within the scope of establishing and adhering to the allowable load for each local government. If the total amount of generation and discharge load caused by points and nonpoint pollutants exceeds the allowable total amount, It is necessary to estimate and evaluate the accurate load.

Therefore, it is necessary to collect accurate land area information in order to accurately calculate the non-point load. However, there is no data that accurately provide the area information by land area until now. Instead, 28 kinds of land use classification items are classified into total water pollution management And technical guidelines. The total area of each land area has been calculated by adding up the land use area for each parcel, and applied it to the fabric law.

However, such a classification system can be applied to a case where a variety of land cover classification exists in a single parcel, for example, if there is an impervious 'land' such as a building in a 'school paper' and a permeable 'other' land such as a playground or grassland It is necessary to estimate the nonpoint load by calculating the area by differentiating the classification according to the land classification, and to calculate the nonpoint load by dividing the land area by the parcel unit in the past, but the result of the calculation of the nonpoint load tends to be somewhat higher .

In addition, as is well known, when the area is calculated in the continuous cadastral map, the parcel boundaries are incompatible with each other, and thus the actual land area and the area estimation result are provided. Thus, the conventional method of utilizing the cadastral area information It is expected that complaints will be filed against them.

Therefore, in order to solve this problem, there has been an attempt to estimate the non-point load using a more accurate and finely classified middle class or sub-class land cover map reflecting the physical characteristics of the land cover. In order to support this, We are continuously promoting map construction business.

However, in order to utilize the land cover map for the implementation of the management of the total amount of water pollution management, it is necessary to make an annual map production. Therefore, it is difficult to utilize the land clipping map of the whole country on the podium.

In the present invention, in order to quantitatively calculate the amount of pollution load generated and emitted from non-point pollution sources in the management of the total amount of pollutants in the environment, the land area information for each land area is applied The present invention provides a method for manufacturing a non-point pollutant load calculating method using a land cover map that is partially renewed on a podium, which can be used for accurate extraction in a GIS environment.

The method of producing a motif for estimating the annual non-point pollution load based on GIS through partial update of the land cover map according to an embodiment utilizes the boundary check of the land cover on the non-point pollution source, Collecting a plurality of spatial data including a subject map that can be used to confirm at least one landscape condition of a land cover map, an aerial photograph, a high resolution satellite image, a continuous cadastral map, a digital topographic map, and a complex map; Unifying coordinate systems of the plurality of collected spatial data; The area of interest in which the land cover is changed due to the change of time and the natural / anthropic environment and the boundary of the land cover or the land attribute of the land cover is required is extracted from the continuous cadastral map in which the coordinate system is unified according to a specific rule ; Wherein the extracted topographic map of at least one of the aerial photograph, the high-resolution satellite image, the digital topographic map, and the complex map is superimposed on the extracted area of interest and the land cover state is displayed on the land cover map Partially revising the land cover information of the land cover map by modifying the boundary of the land cover by modifying the boundary of the changed area or creating a new polygon object, discriminating the land cover according to a specific rule, and inputting or modifying the land cover information in the attribute; Inspecting the updated land cover map to verify and verify the accuracy of the result of updating the land cover information; And converting the land classification map of the land cover map, which has been inspected, into a subject for non-point pollutant load calculation by reclassifying the land classification map in accordance with the non-point pollutant land inventory in order to calculate the non-point pollutant load.

According to one aspect of the present invention, the area of interest in which the change of the land cover due to the change of the time and the natural / anthropic environment changes the boundary of the land cover or the landmark property of the land cover is required, Extracting a parcel address list in which a land cover change is suspected in accordance with a land use status change by retrieving a land move history in an intellectual study related to a land use state change or a building change history in a building ledger, ; Joining the parcel address list and the continuing cadastral map with an address code to search for the location of the parcels in the potential area of interest; And a step of extracting a region of interest for updating the land cover information by selecting and extracting in units of a land parcel unit or a predetermined radius region.

According to another aspect of the present invention, an area of interest in which the change of the land cover due to the change of the time and the natural / anthropic environment changes the boundary of the land cover or the land attribute of the land cover is required, Extracting address list information of the corresponding area from the digital topographic map update information announced on a weekly basis when the feature map is updated and updated as the feature map is changed; Searching for a position of a target parcel in the continuous cadastral map; And a step of extracting a region of interest for updating the land cover information by selecting and extracting in units of a land parcel unit or a predetermined radius region.

According to another aspect of the present invention, there is provided an image processing apparatus for superimposing a theme map relating to at least one of the aerial photograph, the high-resolution satellite image, the digital topographical map, The boundary of the land cover is modified by modifying the boundary of the area where the land cover state is changed on the map or creating a new polygon object, and the land cover information of the land cover map is inputted by modifying the land cover according to the specific rule, The step of partially updating includes sequentially setting a topology related to at least one of the aerial photograph, the high-resolution satellite image, and the digital terrain, which is utilized for confirming and discriminating the land cover state, to the lowest layer; Setting a land cover map requiring modification and update of land cover information as a top layer; Creating transparency of the land cover map set by the uppermost layer so that the topographic map set as the lower layer is simultaneously overlaid; And providing the overlapped subject maps simultaneously while visually providing the covering boundary information of the existing land cover map and the attribute information of the land cover so that they can be corrected for the land cover map.

According to another aspect of the present invention, there is provided a method of generating a GIS-based theme map for estimating an annual non-point pollutant load through partial update of the land cover map, comprising the steps of: The digital topographic map may further include utilizing boundary information related to boundary layers or landscapes for a plurality of subjects by superimposing the digital topographic map on the areas or shadows hidden by unreadable high-rise buildings or trees.

According to another aspect of the present invention, there is provided a method of generating a theme map for calculating an annual non-point pollution load based on GIS through partial update of the land cover map, And confirming and reading the latest street photograph taken in the horizontal direction or the street photograph taken in the air, fixing the classification, and inputting the attribute into the attribute.

According to the present invention, the method of producing the theme map for calculating the annual non-point pollution load based on the GIS based on the partial renewal of the land cover map according to the present invention is based on the calculation of the non-point load using the area information of the existing cadastral study, And can be provided automatically. This is to ensure the availability of local governments and national development projects by calculating the scientific and realistic calculation of the boiling load, which is the problem of reliability related to accuracy, using the thematic map that can be produced at low cost. To contribute to enhancing public confidence in the public. In addition, the renewed thematic map can be used to intuitively identify the spatial distribution of non - point pollutants, so it can be used as a basis for quantifying the non - point pollution management priority management area selection and management policy establishment.

In addition, the land cover map updated by yearly can be used as basic data for modeling and simulation in related research fields, especially in soil, water quality, atmospheric, oceanic, and climatic environment fields by providing more accurate land cover information. And can contribute to the development of fields and research fields. In addition, as one of the new business items in the field of map production business, it can contribute to the expansion of new business area of cartographic business related industries and job creation.

FIG. 1 is a flowchart illustrating a method for producing a theme map for calculating an annual unit non-point pollution load based on GIS through partial updating of a land cover map according to an embodiment.
FIG. 2 is a diagram illustrating a process of extracting a region of interest by receiving history information on land movement and building change according to an exemplary embodiment.
FIG. 3 is a diagram showing a result of extracting a region of interest in which land movements and buildings are changed according to an embodiment.
4 is a diagram illustrating a process of extracting a region of interest by receiving history information about a digital topographic map update according to an exemplary embodiment of the present invention.
FIG. 5 is a diagram illustrating a result of searching for a place where a digital topographic map update according to an embodiment is performed.
6 is a workflow diagram illustrating a setting process for updating a land cover information part according to an embodiment.
FIG. 7 is a diagram illustrating the setting of the GIS software for updating the land cover map portion according to one embodiment and the result of the overlap search.
FIG. 8 is a diagram illustrating the modification of boundary information by superimposing reference data such as a digital topographical map or a landscape-related subject map on an area where the coating boundary can not be read by an aerial photograph or satellite image according to an embodiment.
FIG. 9 is a diagram illustrating a modification of landmark attribute information by checking reference materials such as the latest street photographs and aerial photographs provided by an Internet portal site for an area where the landmark property classification is impossible with the aerial photograph or the satellite image according to the embodiment FIG.
FIG. 10 is a diagram illustrating a comparison of land cover maps before and after partial land cover information update for a newly constructed apartment complex according to an embodiment.
11 is a view showing a result of converting a partially updated land cover map according to an embodiment to a subject for calculating a non-point pollutant load.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flowchart illustrating a method for producing a theme map for calculating an annual unit non-point pollution load based on GIS through partial updating of a land cover map according to an embodiment.

The thematic production system for calculating the annual unit nonpoint pollutant load can be operated, for example, by using GIS software, and the thematic diagram for calculating the annual non-point pollutant load can be produced by using various functions provided by the GIS software.

In step 110, the theme drawing system for estimating the annual non-point pollutant load includes a land cover map, an aerial photograph, a high-resolution satellite image, a land cover map, It is possible to collect spatial data that includes a thematic map that can be used to identify landscape conditions such as continuous cadastral maps, digital topographical maps, and complex maps. The subject drawing system for estimating the annual non-point pollutant load can be used to collect available spatial data to produce a land cover map, and can use land cover maps, aerial photographs, high resolution satellites It is possible to collect images, continuous cadastral maps, digital topographical maps, complex layouts or landscaping plans for apartment buildings and apartment complexes, park composition diagrams, etc., and input them into the memory and storage device of the computer through the computer input device of the operator. You can see that all spatial data can be viewed. Considering that the renewal cycle of the thematic map for calculating the non-point pollutant load to be provided in the present invention is one year unit, the collection space data must be collected from the most recent constructed and updated data. In the embodiment, In order to construct a thematic map for estimating the non-point pollutant load by updating the land cover map for some areas in Bupyong, the related spatial data as shown in Table 1 can be collected and input to the memory and storage device through the input device of the operator computer.

On the other hand, since the paper map is not a numerical data, it can be retrieved from the computer output device through the commercial GIS software after performing tasks such as scanning and vectorizing which are usually performed for the computerization of the map.

In step 120, the theme drawing system for calculating the annual non-point pollutant load can unify the coordinate system of the spatial data collected using the coordinate registration and conversion function provided by the GIS software. In order to utilize collected spatial data by using commercial GIS software, the same spatial object of each spatial data is divided into 2-D Coordinate (2-D Coordinate System), and if the coordinate system defined at the time of creation of each spatial data is confirmed, and if the coordinate system of the reference spatial system and the spatial data of the spatial data to be overlapped are different, the commercial GIS software The coordinate transformation can be performed according to the reference coordinate system through the central processing unit operation of the operator's computer by using various coordinate transformation and projection functions provided and the result can be stored in the memory and storage device of the computer .

In the embodiment according to the present invention, a TM (Transverse Mercator) coordinate system based on GRS80 ellipsoid (ITRF2000 datum), which is a coordinate system of a 1: 5,000 scale digital map constructed and managed by the Geographical Information Service, is set as a reference coordinate system, The coordinate system of all spatial data is unified into the TM coordinate system using the coordinate transformation and projection function provided by commercial GIS software, and the coordinate system matching operation is repeated until a specific target position accuracy level is reached.

Here, the computerized paper map in which the coordinate system is not defined, refers to the reference digital topographic map, selects the boundary or corner of the same object as a common ground control point (GCP) At this time, since the coordinate movement and conversion technique is conventional, a detailed description will be omitted.

In step (130), the thematic drawing system for estimating the annual non-point pollutant load is suspected to require modification of the land cover boundary or land attribute in the land cover map due to changes in the land cover due to temporal flow and natural / The region of interest can be extracted from the continuous cadastral map in which the coordinate system matching is completed by a specific rule and process. The subject drawing system for calculating the annual non-point pollution load collects related information when the address or location information of the corresponding region is notified as various land movements, changes of buildings, and changes in the land feature occur, In the continuous cadastral map, where the coordinate system is unified by using the search and join functions provided in the commercial GIS software, a list of the addresses of the parcels is automatically or manually generated in the region where the coating change is suspected, After selecting and extracting the parcels of the addressee through the central processing unit operation of the worker computer, the buffer area provided by the commercial GIS software is used to calculate the specific radius area And can input it to the memory and storage device.

In step 140, the theme plotting system for calculating the annual non-point pollutant load is used to extract the landscape-related theme diagrams such as aerial photographs, high-resolution satellite images, digital topographical maps, The boundary of the land cover is modified by modifying the boundary of the land cover state changed on the land cover map or generating the new polygon object by the visual reading, and the land cover is discriminated according to the specific rule, The land cover information of the map can be partially updated.

In step 150, the theme drawing system for estimating annual non-point loadings can validate updated land cover maps through field surveys to verify and verify the accuracy of land cover information update results.

In the step 160, the theme drawing system for estimating the annual non-point pollution load is recalculated according to the non-point pollution element ordinarily shown for the calculation of the non-point pollution load, You can convert subject roads.

FIG. 2 is a diagram illustrating a process of extracting a region of interest by receiving history information on land movement and building change according to an exemplary embodiment.

FIG. 2 is a diagram for explaining in detail a process of searching and extracting an area to be extracted to a region of interest by land movement and building change. The topographic map production system for estimating the annual non-point pollutant loads is a system that searches the history of land movements in the cadastral studies related to changes in land use status or the history of changes in buildings in the building register, The list can be transmitted. The subject drawing system for calculating the annual non-point pollutant load can search the position of the parcels considered as the potential interest area by joining the parcel address list and the continuous cadastral map with the address code through the GIS software, It is possible to perform a process of extracting a region of interest for updating the land cover information by selecting it in units of regions and extracting it.

Here, the land movement history information retrieves and inquires 212 the land movement history information from the land / cadastral information DB 211 of the Korean Land Information System (KLIS) 210 and extracts only the address information for the land movement parcels 213 (214) file to the memory and storage device of the worker's computer by using software such as Excel which can create a tabular document, and the structure change history information is inputted into the building management management computer system (223) extracts only the address information on the parcels of the buildings to be changed and retrieves and displays the building change history information (222) from the building register DB (221) And inputs it to the memory and storage device of the worker computer as an address list file 224.

The address list of the change suspicious parcel is searched through the commercial GIS software such as ArcGIS and then the corresponding parcels are selected by performing a relational combining process such as joining with the address of the parcel among the attributes of the continuous cadastral map 231, The GIS software is provided with the GIS software in consideration of the fact that the positional accuracy of the parcel boundary may be inaccurate due to the root cause of the continuous cadastral map, The area is enlarged from the outermost line of the parcel to a specific radius by using a buffer function or the like to set an area 215 and can be determined as a region of interest and input into the memory and storage device of the worker computer as a region of interest 233 have.

FIG. 3 is a diagram showing a result of extracting a region of interest in which land movements and buildings are changed according to an embodiment.

3B shows an example of a result obtained by extracting a parcel object in which a land move has occurred from a continuous cadastral map and storing it as a parcel extraction layer, FIG. 3C shows an example of a result of creating a region of interest (ROI) by setting a buffer (20 m distance in the illustrated example) in consideration of the positional accuracy of a parcel object and storing it as a layer of interest.

4 is a diagram illustrating a process of extracting a region of interest by receiving history information about a digital topographic map update according to an exemplary embodiment of the present invention.

4 is a diagram for explaining in more detail a process of searching for and extracting an area to be extracted into a region of interest by a change to the feature item. The topographic map production system for calculating the annual non-point pollutant load is to receive the address list information of the corresponding region from the topographic map update information announced on a weekly basis in case that the topographic map is updated as the topographic map is updated have. The subject drawing system for calculating the annual non-point pollutant load can search the position of the target parcel in the continuous cadastral map by using the geocoding function of the GIS software. The subject drawing system for calculating the annual non-point pollutant load can be selected as a search parcel unit or area unit of a certain radius and extracted to extract a region of interest for updating the land cover information.

Here, the update information of the digital topographic map for the feature change is retrieved from the feature map variation system 410 of the National Geographic Information Institute (NGII) 410, from the digital topographic map update information DB 411 412). Only the address information of the update area is extracted (413) and input to the memory and the storage device of the worker computer as an address list (414) file using software such as Excel capable of creating a tabular document. Instead, coordinate information on a digital topographic map can be extracted and stored if provided.

The address list of questionable parcels is retrieved through commercial GIS software such as ArcGIS, and then the corresponding parcels are selected by performing a relational combining process such as joining with the address of the parcel among the attributes of the continuous numerical cadastral map (421) The extracted parcel objects are separately extracted and inputted to the memory and storage device of the worker computer by the parcel extraction layer 422. Then, Considering the fact that the position accuracy of the parcel boundary may not be accurate due to the fundamental problem of the continuous cadastral map, the area is enlarged from the outermost line of the parcel to a specific radius by using a buffer function provided by the commercial GIS software This is confirmed as a region of interest, and as a region of interest 423, It can be input to the storage device.

FIG. 5 is a diagram illustrating a result of searching for a place where a digital topographic map update according to an embodiment is performed.

FIG. 5 shows an example of a result of searching for an address that has been updated in the digital topographic map according to the change of feature according to the present invention. The address may be used for parcel search and retrieval on a continuous cadastral map and the final result of the process may be stored in the memory and input device of the worker computer in a similar manner as in Figure 3c.

6 is a workflow diagram illustrating a setting process for updating a land cover information part according to an embodiment.

The subject drawing system for estimating the annual non-point pollutant load includes a landscape-related theme map such as aerial photographs, high-resolution satellite images, digital topographical maps, and complex layout maps for the extracted regions of interest In order to overlay the data on the output device of the operator computer monitor or the like using GIS software and to modify the boundary of the area where the land covering state has changed on the land cover map or to create a new polygon object according to the read time of the operator And inputting a command using an input device such as a keyboard, the central processing unit reflects and corrects existing land cover boundary information as newly inputted boundary information and stores it in a memory and a storage device, Similar to the above process, It is possible to store the attribute results determined in accordance with a specific land cover classification rule in a memory and a storage device.

In step 641, the theme drawing system for calculating the annual non-point pollutant load includes aerial photographs, high-resolution satellite images, digital topographical maps, and other landscaping-related themes used for identifying and discriminating land cover status from the map display window of GIS software As shown in FIG.

At step 642, the theme plotting system for calculating the annual non-point pollutant load can set a land cover map that requires modification and update of land cover information to the top layer.

In step 643, the theme drawing system for calculating the annual non-point pollution load uses the transparency adjustment function provided by the commercial GIS software to adjust the transparency of the land cover map set as the uppermost layer, It can be manipulated so as to check for overlapping.

In step 644, the subject drawing system for estimating the annual non-point pollutant load is a process of directly visually confirming the overlapped subject maps and directly applying the covering boundary information of the existing land cover map and the attribute information of the land cover map Can be performed.

FIG. 7 is a diagram illustrating the setting of the GIS software for updating the land cover map portion according to one embodiment and the result of the overlap search.

As shown in FIG. 7A, the layer order is set so that the land cover map and the reference data that need to be updated are sequentially superimposed, and the reference material is overlapped with the land cover map by using the opacity adjusting function provided by ArcGIS As shown in FIG. FIG. 7B shows an example of reference data used in the overlap analysis for the area of interest. The reference data are superimposed to identify areas where the land cover information needs to be updated as the land cover changes, and the boundary of the individual land cover The land cover classification attribute can be modified.

In the process of revising the boundaries of the land cover, the boundary layer and landscape design of various topics of digital topographic maps are analyzed for areas covered by trees or shadows that are not identifiable due to inherent limitations of aerial photographs or high resolution satellite images The related boundary information can be corrected or updated by superimposing the landscape-related thematic diagram of FIG.

FIG. 8 is a diagram illustrating the modification of boundary information by superimposing reference data such as a digital topographical map or a landscape-related subject map on an area where the coating boundary can not be read by an aerial photograph or satellite image according to an embodiment.

The subject drawing system for calculating the annual non-point pollution load is activated by the snapping function when editing the graphic data using ArcGIS to digitize the screen along the boundary of the digital topographic map, The stored land cover boundary information can be replaced with the boundary information of the digital topographic map and input and stored.

In addition, in the process of correcting the landmark attributes of the land cover, it is difficult to accurately identify and classify the landmarks by using the collected spatial data. In the case of the latest street photographs taken in the horizontal direction, The photographed distance photographs and the like can be confirmed and read, and the classified classification can be determined and input to the attribute to modify or update the attribution attribute information.

FIG. 9 is a diagram illustrating a modification of landmark attribute information by checking reference materials such as the latest street photographs and aerial photographs provided by an Internet portal site for an area where the landmark property classification is impossible with the aerial photograph or the satellite image according to the embodiment FIG.

When the confirmation of the cladding state is completed for the part covered by buildings or shadows, the theme-drawing system for calculating the annual non-point pollutant load is replaced with the land cover classification attribute information stored in the existing memory and storage device according to the specific land cover classification rule It is possible to substitute and input the cloth classification classification attribute suitable for the record of the attribute corresponding to the spatial object of the land covering through the input device of the worker's computer.

Meanwhile, in the embodiment of the present invention, referring to the classification system and code shown in the "Guideline for Guiding the Land Covering of the Land (Guideline 1036, 2014.4.19, enacted by the Ministry of Environment)" of the Ministry of Environment as the land classification system, Classification and input of land cover items as a rule, however, these classification criteria can be changed to be more detailed or generalized according to the purpose of land cover classification.

FIG. 10 is a diagram illustrating a comparison of land cover maps before and after partial land cover information update for a newly constructed apartment complex according to an embodiment.

For example, before the construction, the areas that were classified as' other areas' are classified as' residential areas' and 'artificial grasslands', and the' Traffic area 'can be confirmed as newly constructed.

The subject drawing system for estimating the annual non - point pollutant load can perform field surveys or random sample checks to confirm the boundary position accuracy and landmark property accuracy of partially updated land cover maps. The subject drawing system for calculating the annual non-point pollutant load can determine the inspection method and accuracy target according to a specific criterion and check whether the set accuracy is satisfied, and if the accuracy is satisfied, the land cover The information is confirmed and the next step is carried out, and such inspection methods and standards can be determined through the use of commonly applied or consensus.

The thematic map production system for estimating the annual non - point pollutant load is classified into the thematic map for estimating the non - point pollutant load by reclassifying the classified classification attributes of the partially renewed land cover map that has been verified according to the non - Can be produced. The subject drawing system for calculating the annual non-point pollution load is a central processing unit of the worker computer, and sequentially loads the classification classification attributes of the respective spatial objects included in the land covering map and applies predetermined conversion rules to correspond to each classification classification classification And the result is input to the memory and storage device of the computer. Then, the stored information is loaded through the commercial GIS software, and the color information is color-indexed based on the nonpoint-polluting elementary attribute By outputting through the output device of the computer, it is possible to generate and inquire a thematic map for calculating the non-point pollutant load. Meanwhile, in the embodiment of the present invention, the reference point conversion criterion according to the non-point pollution source follows the criterion in Table 3. However, the reference point conversion criterion can be variously changed as the non-point pollution criterion classification criterion is changed or partially corrected.

11 is a view showing a result of converting a partially updated land cover map according to an embodiment to a subject for calculating a non-point pollutant load.

It is possible to confirm the change of the area and distribution of nonpoint source before and after the partial renewal, and it is easy to grasp the tendency of annual unit change and the calculation of accurate area of nonpoint source. Support the total amount of pollutant management system, and establish various water environment management policies.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (6)

In a method for producing a theme drawing for estimating an annual non-point pollution load based on GIS through partial update of a land cover map,
Checking of at least one landscape condition of at least one of land cover map, aerial photograph, high resolution satellite image, continuous cadastral map, digital topographical map and simple map layout used for performing boundary check and division of land cover regarding non-point pollution sources, Collecting a plurality of spatial data including an available thematic map;
Unifying coordinate systems of the plurality of collected spatial data;
The area of interest in which the land cover is changed due to the change of time and the natural / anthropic environment and the boundary of the land cover or the land attribute of the land cover is required is extracted from the continuous cadastral map in which the coordinate system is unified according to a specific rule ;
Wherein the extracted topographic map of at least one of the aerial photograph, the high-resolution satellite image, the digital topographic map, and the complex map is superimposed on the extracted area of interest and the land cover state is displayed on the land cover map Partially revising the land cover information of the land cover map by modifying the boundary of the land cover by modifying the boundary of the changed area or creating a new polygon object, discriminating the land cover according to a specific rule, and inputting or modifying the land cover information in the attribute;
Inspecting the updated land cover map to verify and verify the accuracy of the result of updating the land cover information; And
A step of converting the land classification attribute of the land cover map for which the inspection is completed to the subject point for calculating the non-point pollutant load by reclassifying the land classification attribute according to the non-
Wherein the GIS-based annual basis point pollution load is calculated by partially updating the land cover map. The method according to claim 1,
The area of interest in which the change of the land cover due to the change of the time and the natural / anthropic environment changes the boundary of the land cover or the land attribute of the land cover in the land covering map is determined from the continuous cadastral map In the extracting step,
Receiving a parcel address list in which a change in land cover is suspected in accordance with a land use status change by retrieving a land move history in a cadastral study related to a change in land use status or a building change history in a building ledger;
Joining the parcel address list and the continuing cadastral map with an address code to search for the location of the parcels in the potential area of interest; And
A step of extracting a region of interest for updating land cover information by selecting and extracting in units of search parcel units or regions having a certain radius
Wherein the GIS-based annual basis point pollution load is calculated by partially updating the land cover map. The method according to claim 1,
The area of interest in which the change of the land cover due to the change of the time and the natural / anthropic environment changes the boundary of the land cover or the land attribute of the land cover in the land covering map is determined from the continuous cadastral map In the extracting step,
Receiving address list information of the corresponding area from the digital topographic map update information announced on a weekly basis when the digital map is updated and updated as the feature map is changed;
Searching for a position of a target parcel in the continuous cadastral map; And
A step of extracting a region of interest for updating land cover information by selecting and extracting in units of search parcel units or regions having a certain radius
Wherein the GIS-based annual basis point pollution load is calculated by partially updating the land cover map. The method according to claim 1,
Wherein the extracted topographic map of at least one of the aerial photograph, the high-resolution satellite image, the digital topographic map, and the complex map is superimposed on the extracted area of interest and the land cover state is displayed on the land cover map The step of partially revising the land cover information of the land cover map by modifying the boundaries of the land cover by modifying the boundary of the changed area or creating a new polygon object, discriminating the land cover according to a specific rule, ,
Sequentially setting, as a lowest layer, the topography related to at least one of the aerial photograph, the high-resolution satellite image, and the digital topographic map utilized for identifying and discriminating the land cover state;
Setting a land cover map requiring modification and update of land cover information as a top layer;
Creating transparency of the land cover map set by the uppermost layer so that the topographic map set as the lower layer is simultaneously overlaid; And
Providing the overlapped subject maps simultaneously while visually providing the covering boundary information of the existing land cover map and the attribute information of the land cover so that they can be corrected for the land cover map
Wherein the GIS-based annual basis point pollution load is calculated by partially updating the land cover map. 5. The method of claim 4,
In the process of modifying the coating boundary, digital aerial photographs, high-rise buildings which can not be read due to the inherent limitations of the high resolution satellite images, or areas or shadows covered by trees, To use the associated boundary information
The method comprising the steps of: (a) providing a map of the land cover map of the land cover map; 5. The method of claim 4,
The visual reading using the spatial data collected in the process of modifying the attribute of the landmark is confirmed and read through the latest distance photograph taken in the horizontal direction or the distance photograph taken in the air provided by the Internet portal site, Input
The method comprising the steps of: (a) providing a map of the land cover map of the land cover map;

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