KR100436646B1 - System For Automatic Attribute Input In Digital Map and Method There Of - Google Patents

Abstract

PURPOSE: An automatic map attribute inputting system and method is provided to automatically input attributes of spatial data in producing a numerical map. CONSTITUTION: The system comprises a spacial data management database(101), a calling module(113), a task object determination module(115), and an update module(117). The spacial data management database(101) stores layer data and spacial data generated in a process of producing a numerical map. The calling module(113) calls layer data from the database(101) and task object data input via a documentation of the layer data. The task object determination module(115) extracts attributes from the task object data, and determines a dimension of a diagram from the attribute data. The update module(117) transmits diagram attribute data, corresponding to the determined diagram dimension, to the database(101).

Description

System For Automatic Attribute Input In Digital Map and Method There Of}

The present invention relates to a device for inputting attribute information on a digital map, and more particularly, to a digital map attribute automatic input system and method for automatically inputting an attribute of spatial information data which is a process of a digital map production process.

In general, the Geographic Information System (GIS) is a rapidly developing field since the 1980s, and the concept is currently being introduced in a wide variety of fields from general business to government business and academic research.

Data attribute information can be regarded as a big feature of the numerical map. In summarizing the transformation of the feature system, when there is a feature with stronger characteristics as an attribute when merging and deleting duplicate features, it should be treated as an attribute of graphic data. The attribution information is inputted from the data obtained through the geographic survey and the relevant literature data such as road ledger, building ledger, and facility management ledger. For example, existing digital maps are already produced. If it can be used in a poem, it is a way to reduce the time required for input and economic waste.

For the input of GIS attribute information, for example, the classification system of the features used in the digital topographic map of 1 / 5,000 scale and 1 / 25,000 scale is divided into four categories. That is, it is divided into 9 groups, 28 groups, 92 groups, 578 subdivisions, and represented by 4 digits. In 1 / 1,000, it is represented by letters and numbers. However, the new digital map simply re-defines the topographic map system regardless of the scale by simply redefining the layer that is not suitable for the real world and merging, modifying, and adding layers that are not suitable for the real world. Have. Therefore, the work of converting the existing digital map feature system to the new digital map feature system should be performed. In other words, the new digital map removes the logical contradictions and geometrical problems of the existing layer information, and satisfies the new geographic classification system (104 features) suitable for various geographic information system (GIS) applications. Data, data suitable for the internal geographic information center's internal format (possible to represent figures and attribute information), data that can be easily modified and updated, and data that can be easily produced by automatic paper map.

The National Geographic Information Institute enacted the guidelines for the production of new digital maps by changing the data of each layer into attribute data, and these digital maps utilize various Geographic Information Systems (GIS) by linking the attribution information based on 104 spatial information. Is based on. However, the conventional attribute information input method has a problem of working in an inconvenient and inefficient way of manually selecting and inputting spatial information one by one.

The present invention was created to solve the above problems, and an object of the present invention is to provide a new numerical map or structured edit file on a result that does not have attribute information, such as existing digital maps or spatially positioned spatial information data. In the case of requiring attribution information, it is easy to construct additional database without additional editing of existing data, thereby providing a digital map attribution automatic input system and method for increasing the efficiency of attribution information input of GIS. .

1 is a system configuration diagram for automatic attribute input of a digital map structured edit file according to the present invention.

2 is a flowchart illustrating a main operation of calling a work object in the automatic attribute input system according to the present invention.

3 is a screenshot of a process of reconstructing figure information requiring a surface object of a called digital map according to the present invention.

4 is a capture screen for generating object data intersections and intersections of a numerical map according to the present invention.

5 is an example screenshot illustrating a process of automatically inputting an attribute of an object according to the present invention.

FIG. 6 is an example capture screen of a product in which attributes of a digital map and a structured edit file generated according to the present invention are automatically input.

7 is a screenshot of an example for explaining a process of inputting various document data inputted in Excel as attribute information.

<Description of Symbols for Main Drawings>

101: positional spatial information database 111: automatic input of the attribute information.

113: call module 115: object determination module

117: update module

According to a first aspect of the present invention, there is provided a digital map attribute automatic input system, comprising: a spatial information database for storing layer data and positionalized spatial information data generated during a digital map production process;

A calling module for calling the layer data inputted into the numerical map from the spatial information database and the work object data inputted through a documenting operation of the layer data;

A work object determination module for extracting attribute information of the work object data of the numerical map and determining a figure order of the work object data through the attribute information; And

And an update module for transmitting figure attribute information to the database in a form corresponding to a figure order of work object data of the numerical map.

Preferably, the shape attribute information of each dimension of the update module includes attribute information of a layer and a layer of a numerical map, and inputs an attribute information table into an Excel data input and a Hangul data input function in a document program. Characterized in that the input to the document program.

In addition, the numerical map attribute automatic input method according to the second aspect of the present invention for achieving the above object is input to the digital map from a spatial information database, which is generated during the production of the digital map and stores the spatial information data positioned in position. A first step of calling input work object data through the layer data and the documenting of the layer data;

A second step of determining a figure order of the work object data or layer data;

And a third process of transmitting figure attribute information to the database in a form corresponding to a figure order of the work object data of the numerical map through the work object determination process.

The third process includes a process of inputting and transmitting an attribute value to be used in an Excel file or a document file. When the work object data and the layer data type are viscous, the attribute text is input in accordance with the point insertion point, In case of, input property text is coincident with the highest point in the middle of the line.In case of 2D, input property text is included in the plane shape so that the data of Excel file and property table match. The input module for inputting figure information for automatic input of attribute information into a surface object of a digital map comprises: a property including attribute information of a layer and a layer of the digital map. And inputting the information table into a document program having an Excel input function or a Korean input function.

Preferred embodiments of the present invention having such features will be described in detail with reference to the accompanying drawings.

1 is a system configuration diagram for automatically inputting an attribute of a structured edit file of a digital map according to the present invention, and the call module included in the spatial information database 101 and the automatic attribute information input device 111 extracted from the digital map. (113), the determination module 115, the update module 117,

Calling the work object data input in a predetermined format through the document data and the layer data input to the numerical map from the spatial information database 101 through the call module 113 which is the automatic attribute information input device 111. In addition, through the work object determination module 115 for determining the shape order of the shape of the work object data of the numerical map, the update module 117 inputs the shape attribute information to the work object data of the numerical map to the database. It has a structure to transmit to 121, respectively.

2 is a flowchart for the automatic input of attributes of a digital map and a structured edit file according to the present invention. 203), 'dotted, one-dimensional case 209', information input 205 when the object is two-dimensional, and information input process 207 when the object is two-dimensional, have.

The object is called 201 to input attribute data corresponding to each object from the positioned spatial information database. When the called object is 'two-dimensional (203)', any field that has the same value in the property such as property information, symbol, symbol, area, angle of symbol and text, table, etc. contained in the two-dimensional object Start / end point of linear data such as angle value, area value, length value, code value, user specified value, road center line, etc. Automatically inputs the attribute value for, the attribute value after extracting the elevation value for the contour, and the attribute value after extracting the elevation value for the symbol.

In the case of `` dotted, one-dimensional case (209) '', after extracting the altitude value of the starting point, the end point property of the linear data such as the center line of the road, or the contour in the case of the contour line, and the symbol having the altitude value such as the elevation point Automatically extracts the attribute value after extracting only the altitude value.

FIG. 3 is a diagram illustrating a process of generating a 2D object from a digital map, and is a capture screen showing a construction process for inputting attribute information from the generated 2D object.

At the point where the road is divided into three or four intersections, a feature called 'intersection' is generated and an intersection is generated (represented by a dotted line in a circle), and two-dimensional, such as intersections and intersections, etc. from existing one-dimensional objects as shown in FIG. You can also create objects of type and point.

At this time, the features to be created as 2D objects are shown in Table 1 below.

<Table 1> 2D Object

5, in step 611 of checking the type of the attribute value to be automatically input, whether the insertion system layer is selected, whether to select it, or if the selection is made, the active window is selected in the active window. It includes a parent window 501 consisting of a window for selecting whether it is in the form of a text or a symbol code name, and an intermediate window 503 for selecting a basic entity property. The 'Insert Fixed Value' window is selected at the bottom of the menu. In the case of describing the Gyeongbu line, '505', the attribute value of the entire Gyeongbu line is automatically input. When the system inputs through the above process, as shown in FIG. 6, the result of completing the attribute input may be obtained. That is, FIG. 6 shows data of each layer of the digital map by 'ID (identifier)', 'name', 'division', 'type', 'use', 'cycle', 'number of layers',' UFID (electronic identifier, Unique Feature IDentifier) ', you can see the property input window that is the result of entering the property.

The function can improve the time and data quality by providing a user-definable table by the user-defined table, eliminating input mistakes that can be caused by the user or the hassle of specifying each layer one by one.

7 illustrates a process of converting attribute data when field survey data and various documents are displayed on Excel. Although it is difficult to input all the various matters 701 related to the property for each layer, this is the property data of the numerical map when the property data for each layer is inputted using the Excel program with reference to the plurality of layers 703. You can see the conversion process.

In addition, there may be a method of collectively processing only some attributes of all layers without converting attribute values by specifying each layer individually through a user-defined function.

What has been described above is only one embodiment for a digital map attribute automatic input system and method according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims, the present invention Without departing from the gist of the present invention, those skilled in the art to which the present invention pertains to the technical spirit of the present invention to the extent that various modifications can be made.

As described above, in the process of newly updating the digital map and the structured edit file, the digital map is produced or the structured edit file is recycled without further editing or converting the existing digital map and the spatial information data where the exact position edit is completed. In writing, this can increase economics and save time and costs.

In addition, if a property that does not have attribute information requires attribute information such as a new digital map or a structured edit file, the database can be easily implemented by inputting only essential attributes without additional editing of existing data. It is possible to produce and build, which provides the effect of producing qualitatively improved digital map.

Claims (5)

A system for automatically inputting attributes of a digital map structured editing file for constructing a geographic information system (GIS), A spatial information database for storing layer data and positionalized spatial information data generated during a digital map production process; A calling module for calling the layer data inputted into the numerical map from the spatial information database and the work object data inputted through a documenting operation of the layer data; A work object determination module for extracting attribute information of the work object data of the numerical map and determining a figure order of the work object data through the attribute information; And And an update module for transmitting figure attribute information to the database in a form corresponding to a figure order of the work object data of the numerical map. The method of claim 1, The update module includes an attribute information table including attribute information on the layer and the layer of the numerical map, and has an Excel data input function and a Hangul data input function in a document program. A method for automatically inputting attributes of a structured edit file of a digital map for building a geographic information system (GIS), a) calling the layer data inputted to the numerical map and the work object data inputted through the documenting operation of the layer data from a spatial information database in which the spatial information data generated and positioned in the digital map is stored is stored; 1 course; b) a second step of determining a figure order of the work object data or the layer data; c) a third process of transmitting figure attribute information to the database in a form corresponding to a figure order of work object data of a numerical map through the work object determination process. The method of claim 3, wherein The third process, Enter the attribute value to be used in the Excel file or the document file.In case of point form, input the attribute text to coincide with the point insertion point.In case of 1-dimension, input the attribute text to coincide with the highest point in the middle of the linear line. If the attribute text is to be included in the plane form to input the data in the Excel file and the attribute table to match the automatic property input method. The method of claim 3, wherein The attribute data input method of claim 1, wherein the work object data of the first step is a point, a one-dimensional or a two-dimensional figure.