KR20120066709A - System and method for web based 3d visualisation of geo-referenced data - Google Patents

Abstract

PURPOSE: A system and a method for visualizing an analysis result of geographic reference data in three-dimension are provided to visualize an analysis result of geographic information reference data through a visualized unit. CONSTITUTION: A three-dimensional spatial information generating unit(210) generates three-dimensional space information through geographic information. A data obtaining unit(220) obtains geographic information reference data including location information. A visualization communicating unit(260) receives an analysis result of the geographic information. A visualization unit(200) visualizes the analysis result.

Description

3D visualization system for web-based geographic reference data and its method {SYSTEM AND METHOD FOR WEB BASED 3D VISUALISATION OF GEO-REFERENCED DATA}

The present invention relates to a web-based three-dimensional visualization system and method of the georeferenced reference data, and more particularly, georeferenced reference data including location information and georeferenced reference data in a three-dimensional spatial information visualization system implemented on the web. It relates to a technology that allows visualization of the analysis results analyzed.

As the imaging sector has gradually shifted from 2D to 3D (3D), the ripple effect of related fields is also rapidly growing, and the 3D application field is gradually diversified from the public sector, defense sector and general industry. It is becoming.

One of these applications, the 3D Geographical Information (GI) software commercial market has been developed by segmenting its function. Contributed to the creation of applications.

Recently, web-based 3D spatial information visualization services have emerged. These services aim to visualize spatial information such as terrain, satellite image, aerial image, and 3D object. Sensors such as odor sensor and weather sensor include sensor location information along with data acquired by each sensor. Doing.

 Conventional three-dimensional geographic information system is more expensive than two-dimensional data modeling in 3D data modeling, and three-dimensional data is constructed by using the latest surveying equipment such as Mobile Mapping System (MMS). It also costs a lot. Moreover, the conventional 3D geographic information system has a disadvantage in that it is difficult to update information on underground facilities.

In addition, sensor information including location information is called geographic reference data, and a function of providing this information in a web-based 3D spatial information visualization system is provided by some systems. Existing web-based 3D spatial information visualization services provide functions to visualize 3D spatial information and sensor data, but provide level information in the form of markers and provide sensor data in text form.

It is difficult to provide web-based services because it takes time and process to perform analysis using geographic reference data. Existing web-based 3D spatial information visualization services generate analysis results by 2D images. We are using a mapping method on the map image.

Therefore, when the analysis result is composed of more than three dimensions there is a problem that can not be utilized or information is lost.

The present invention has been proposed to solve the above problems, in the web-based three-dimensional spatial information visualization system, a method of visualizing by linking the three-dimensional spatial information and geographic information reference data, and the three-dimensional spatial information and geographic reference data The purpose is to provide a way to visualize the results of the analysis.

In order to achieve the above object, a three-dimensional visualization system of web-based geographic reference data according to an embodiment of the present invention, the three-dimensional spatial information generation unit for processing the geographic information to generate three-dimensional spatial information; A data acquisition unit for obtaining geographic information reference data including location information; Visualization means for visualizing the analysis results, including; visualization communication unit for transmitting the three-dimensional spatial information and the obtained geographic information reference data, and receives an analysis result; And analyzing means for analyzing the data information received from the visualization communication unit and transmitting an analysis result to the visualization communication unit.

The present invention provides various information that could not be provided by the existing web-based three-dimensional spatial information service by providing a three-dimensional visualization of the three-dimensional spatial information, geographic reference data, and analysis results of the geographic reference data through the web. There is an effect that can provide the ability to provide, and to inform the public of the results of the analysis.

In addition, there is an effect that can be utilized for various georeferenced reference data that may include location information.

1 is an overall configuration diagram of a three-dimensional visualization system of web-based geographic reference data according to an embodiment of the present invention.
2 is a detailed block diagram of the visualization means of FIG.
3 is a detailed block diagram of the analysis means of FIG.
4 is a flowchart of a three-dimensional visualization method of web-based geographic reference data according to another embodiment of the present invention.

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. . First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, a three-dimensional visualization system and method thereof for web-based geographic reference data according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of a three-dimensional visualization system of web-based geographic reference data according to an embodiment of the present invention.

Referring to FIG. 1, the visualization system 100 includes a visualization means 200 and an analysis means 300.

The visualization means 200 processes the geographic information to generate three-dimensional spatial information, obtains geographic information reference data including position information, transmits the data, and visualizes the analysis result when the analysis result is received.

The analysis means 300 analyzes the data information received from the visualization communication unit located at a remote location or a local area, and transmits the analysis result.

2 is a detailed block diagram of the visualization means of FIG.

Referring to FIG. 2, the visualization means 200 includes a three-dimensional spatial information generator 210, a data acquirer 220, a renderer 230, a data converter 240, a visualization storage unit 250, and three. Dimensional spatial information storage unit 251, processing data storage unit 252, analysis result data storage unit 253, visualization communication unit 260, and visualization control unit 270,

The 3D spatial information generator 210 processes the geographic information to generate 3D spatial information, and stores the 3D spatial information in the 3D spatial information storage unit 251.

The data acquisition unit 220 is responsible for obtaining geographic information reference data including location information such as odor sensor and weather sensor in real time or at irregular intervals.

The rendering unit 230 visualizes the 3D spatial information storage unit 251 of the storage unit 250, the processing data storage unit 252, and the data stored in the analysis result data storage unit 253 in 3D space. do.

Here, rendering refers to a process of generating an image from a model using a computer program.

This model is a description of a three-dimensional object written in a data structure or a strongly defined language.

This can include geometry, viewpoints, texture mapping, lighting, and shading information.

Such images are called digital images and raster graphics images.

It can also be said that rendering is the process of calculating the effect of an image editing file to produce the final video output.

Rendering is used in architecture, video games, simulators, movies, television special effects, and design visualizations, and uses different features and techniques in different fields.

In addition, various rendering programs can be used for rendering.

Some programs are integrated into creating large modeling and animation packages, some are standalone products, and some belong to free source projects.

Looking further, the rendering program is also an engineering program based on a selective mix of optics, visual systems, mathematics, and software development.

Subsequently, the data transformation unit 240 processes the obtained geographic reference data in the data transformation unit 120 so as to visualize the obtained geographic reference data in association with the three-dimensional spatial information stored in the three-dimensional spatial information storage unit 251.

The processed data storage unit 252 stores the processed geographic reference data in XML format in order to be applicable to various systems.

The analysis result data storage unit 253 stores the analysis result received from the analysis means to be described later.

The communication unit 260 transmits the stored 3D spatial information and the processed geographic information reference data to the analyzing means, and receives the analysis result.

The visualization controller 270 controls the data acquisition process and the data conversion process periodically or non-periodically by scheduling, and requests the rendering unit 230 to render.

In addition, when receiving the analysis result event from the analysis means informs the rendering unit 230.

3 is a detailed block diagram of the analyzing means of FIG.

Referring to FIG. 3, the analysis means 300 includes an analysis communication unit 310, an analysis unit 320, an analysis result converter 330, an analysis storage unit 340, and an analysis control unit 350.

The analysis communication unit 310 receives data information from the above-described visualization means, and transmits the stored analysis result to the analysis result storage unit of the visualization means.

The analysis unit 320 analyzes the received 3D spatial information and data information which is the geographic information reference data.

In other words, the analysis process requires a lot of time and a high process, so that the analysis result is not generated in real time, but it takes time until the analysis result is made after the analysis request.

The analysis result converter 330 processes the analysis result into an XML form in order to make it available on the web and stores the analysis result in the analysis storage unit 340.

Therefore, the stored analysis results can be used in other systems.

The analysis control unit 350 controls to analyze the received 3D spatial information and the data information which is the geographic reference data, controls to process the analysis result, and transmits the processed analysis result to the visualization means.

The analyzing means 300 may be located in the same hardware as the visualization means 200 or may exist in a separate location.

4 is a flowchart of a 3D visualization method of web-based geographic reference data according to another embodiment of the present invention.

Referring to Figure 4, through the three-dimensional spatial information generation unit, by processing the geographic information to generate and store the three-dimensional spatial information (S100).

Geographic information reference data including location information, such as odor sensors and weather sensors, is acquired in real time or irregularly through the data acquisition unit (S200).

The data transformation unit processes and stores the georeferenced reference data so that the acquired georeferenced reference data is visualized in association with the stored 3D spatial information (S300).

At this time, processed geospatial reference data is stored in XML format to be applicable to various systems.

Each stored three-dimensional spatial information and processed geographic information reference data is transmitted to the analysis means (S400).

In this case, when the georeferenced data is acquired in real time, it is checked whether the transmission is completed to the analyzing means (S500).

When the transmission is completed, an analysis operation is performed through the analysis unit using the received data information (S600).

The analysis means may be located in the same hardware as the visualization means or may be in a separate location.

As the analysis process requires a lot of time and high process, the analysis result is not generated in real time, but it takes time until the analysis result is made after the analysis request.

Subsequently, the analysis result is processed in an XML form through the analysis result conversion unit so that it can be used on the web, and stores the processed analysis result (S700).

Therefore, the stored analysis results can be used in other systems.

The stored analysis result is transmitted to the visualization means, and after completion of the transmission, the controller of the visualization means is informed.

Through the rendering unit, the received analysis result, pre-stored 3D spatial information, and processed geographic information reference data are linked and visualized on the 3D space.

Although a preferred embodiment according to the present invention has been described above, it is possible to modify in various forms, and those skilled in the art to various modifications and modifications without departing from the claims of the present invention It is understood that it may be practiced.

100: visualization system 200: visualization means
210: three-dimensional spatial information generation unit 220: data acquisition unit
230: rendering unit 240: data conversion unit
250: visualization storage unit 251: 3D spatial information storage unit
252: processing data storage unit 253: analysis result data storage unit
260: visualization communication unit 270: visualization control unit
300: analysis means 310: analysis communication unit
320: analysis unit 330: analysis result conversion unit
340: analysis storage unit 350: analysis control unit

Claims (1)

A three-dimensional spatial information generator for processing three-dimensional spatial information by processing geographic information;
A data acquisition unit for obtaining geographic information reference data including location information;
Visualization means for visualizing the analysis results, including; visualization communication unit for transmitting the three-dimensional spatial information and the obtained geographic information reference data, and receives an analysis result; And
And analyzing means for analyzing the data information received from the visualization communication unit and transmitting an analysis result to the visualization communication unit.

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