KR20060107195A - Land information system using 3d gis technology - Google Patents

Abstract

The present invention relates to a system for providing land information more effectively, and more particularly, to a method of providing a land information service that performs various spatial analysis functions and excellent visual functions by using a 3D GIS technology. .

According to the present invention, more realistic visualization is possible than two-dimensional land information, so that accurate actual grasp of the land and management of the land are possible. In addition, since 3D graphic technology is used when reading information, various effects such as altitude adjustment and viewpoint switching can be obtained.

3D, Geographic Information System, GIS, Land Information, Land Information System  

Description

Land information system using 3D geographic information system {Land information system using 3D GIS technology}

FIG. 1 shows the structure of a land information system utilizing a three-dimensional geographic information system and the major devices and modules for each component.

Figure 2 shows the flow of the process of the system configured as shown in FIG.

3 is a flowchart illustrating a three-dimensional visualization process in FIG. 2.

The present invention relates to a system for providing land information more effectively, and more particularly, to a method of providing a land information service that performs various spatial analysis functions and excellent visual functions by using a 3D GIS technology. .

Land information refers to general information that is related to land and is in a form that can be obtained and provided by the manager. This land information basically specifies not only basic information on the topography and geology, but also intellectual information including land location, land, land, area, boundary, coordinates, real estate information such as public land price and actual transaction price, and rights relations. Registration information may be included.

To date, services that provide land-related information through the Internet have provided the form of providing the information in the form of text, charts, or two-dimensional (2D) maps. In particular, in the provision of map form, it provides only the thematic map to which the land information belongs without analyzing the related land information, that is, the attribute information. In addition, since it is provided only in the form of a flat map, the general user has a limitation in accurately grasping the state of the land through the land information providing service. With this type of land information, it is difficult to obtain reasonable results in planning land use and determining land value.

In order to solve the above problems, an object of the present invention is to provide a land information service method for fusing three-dimensional spatial data and related land information, that is, attribute information, and expressing it through a three-dimensional map. To this end, we propose a service structure that uses 3D GIS technology and maximizes the efficiency of service provision.

An embodiment of the present invention for achieving the above object will be described in detail with reference to the drawings.

FIG. 1 shows the structure of a land information system utilizing a three-dimensional geographic information system and the major devices and modules for each component.

The system is largely composed of land information server 100, an external DB 200, and the user terminal 300.

The land information server 100, which is the core of the system, consists of a number of main modules (software) and a database (DB). The spatial analysis unit 111 is software that analyzes altitude, slope, and the like using spatial data and attribute data. Spatial search unit 112 is responsible for the search of land properties and spatial conditions in the space. The attribute search unit 113 is responsible for searching the attribute data. Three-dimensional graphic processing of the analyzed spatial and attribute data is performed through the three-dimensional visualization unit 114 and transmits the processed land information to the user terminal 300 through the interface 115. The database consists of a land information DB 121 in which land-related information is stored, a 3D space DB 122 consisting of a 3D topographical map and a related theme map, and a user DB 123 having user and data provider information.

The external DB 200 is a DB of land information held by an external related institution, and transmits the land information related to the occurrence of the request data in the land information server 100. The external DB 200 may be managed for each of the holder and the server to manage. (201 ~ 20n)

The user terminal 300 is an electronic device such as a general PC or a personal digital assistant (PDA) that is equipped with a display device 311 and an internet matching unit 312 to visualize three-dimensional land information. The user terminal 300 accesses the land information server 100 through the Internet or the network through the Internet matching unit 312.

Figure 2 shows the flow of the process of the system configured as shown in FIG.

Referring to the flow of services and processes according to Figure 2 as follows. The user connects to the land information server 100 through the user terminal 300. (F01) The server authenticates the connected user. (F02) The user DB 123 in the server at the time of user authentication Search the user information to grasp the user's access rights and basic user information. The authenticated user requests land information from the server (F03). At this time, the land information is selected and the area to receive the information is transmitted to the server. The land information server 100 analyzes the request information received and defines the necessary work for providing the information. (F04) In the server, the 3D space DB 122 uses the spatial search unit 112 to define the work required for the information. The spatial data is extracted. (F05) In addition, the attribute search unit 113 extracts all the land information necessary for generating the requested information from the land information DB 121. (F06) The land information DB 121 inside the server (F07) If it does not exist, the external DB 200 is searched to find the land information held in the external DB. (F08) (F09) After searching the 3D spatial DB and the land information DB, it is determined whether or not to perform the spatial analysis process according to the type of land information requested. The generated data The spatial analysis unit 112 performs a three-dimensional spatial analysis work. (F11) Three-dimensional spatial analysis applies three-dimensional modeling technology to construct three-dimensional information of terrain and artificial facilities, and to improve the geographic information system (GIS) and augmentation. Refers to a technology that stores, processes, processes, and analyzes spatial information in conjunction with real technology. The function of 3D spatial analysis is basically analyzing the height and slope of the terrain. In addition, in the event of a disaster disaster, it is a function of predicting the influence area such as the extent of disaster through 3D image. After completion of the spatial analysis process (F11), land information data is generated by connecting the analyzed spatial data and land information data, which is the attribute data. (F12) Finally, the land information is made into a three-dimensional image by the three-dimensional visualization unit 114. The user checks the information in the user terminal 300. (F13) In this case, the 3D image is generated by the 3D visualization unit 114 in the server for transmission and the user terminal 300. This includes all cases of generating a 3D image directly through the display device 311.

3 is a flowchart illustrating a three-dimensional visualization process in FIG. 2.

Three-dimensional data generation and visualization is as follows. (G01) Generates a 3D polygon mesh that consists of a collection of continuous polygons in order to display a 3D graphic object on a 2D screen based on topographic map contours or numerical data. (G01) Two-dimensional image is generated from the land information data (F12). (G02) In particular, it is effective to use satellite image, orthogonal photograph, etc. for realism in real terrain and visual field. The land information image is mapped onto each polygon as a texture on the three-dimensional polygon network. (G03) Also, line data such as cadastral map and administrative boundary map is also applied to the three-dimensional data surface. 3D land information under the surface of underground facilities, etc. is generated. (G04) Finally, other spatial data (main system, etc.), attribute data, and space and property analysis are created on the surface data generated as spatial data. 3D land information is generated by mapping the generated land information onto a 3D surface. (G05) When a user uses the generated 3D land information in a user terminal, not only a map moving function such as 2D map control but also 3D The 3D land information can be viewed and utilized by using functions such as altitude control and viewpoint switching, which can be used only on the map.

According to the present invention, more realistic visualization is possible than two-dimensional land information, so that accurate actual grasp of the land and management of the land are possible. In this regard, it can be useful for determining the value of land.

In addition, since 3D graphic technology is used to view information, various image manipulations such as altitude adjustment and viewpoint switching can be obtained.

Claims (3)

In the technology for providing land information through an Internet server, a land information server 100 comprising a spatial analysis unit, a spatial search unit, an attribute search unit, a 3D visualization unit, a land information DB, a 3D space DB, and a user DB; It is composed of a user terminal (300) consisting of a display device and an internet matching unit, and analyzes the land information using the 3D Geographic Information System (GIS) technology, and provides the land information analyzed by the 3D image to the user. 3D land information system According to claim 1, Three-dimensional land information that generates a three-dimensional land information image by mapping various land information and satellite image image on the surface of the three-dimensional topographic map using the three-dimensional graphics technology and the user freely manipulates the three-dimensional land information system The three-dimensional land information system according to claim 1, wherein the three-dimensional land information system provides the user with three-dimensional land information by linking the land information of the external database 200 through the Internet server 100.

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