KR20010035392A - Method for providing geographic information utilized satellite image - Google Patents

Abstract

PURPOSE: A method for providing geography information using a satellite image is provided to offer present information and property information by using a large sized satellite image and a vector data produced based on the satellite image and displaying the data on a client at high speed. CONSTITUTION: If a client connects to a geography information providing server(S200), the geography information providing server loads main screen data and transmits the data to the client(S210). The main screen data are displayed on a client browser as a main screen(S202). The geography information providing server checks whether the client demands an event(S203). If a screen transmission demand(S205) by a screen control(S204) is checked, data of selected region are created as result data(S212), and transmits the result to the client(S213), and the result data are displayed on a browser of the client(S214). If a searching demand with respect to geography information of the client is checked(S206), a property is searched by using a searching language in a database, and detects whether the corresponding data exist(S208). If the corresponding data exist, the result data in searched area are created(S212), and the result is transmitted to the client(S213), and the result data are displayed on a browser of the client(S214). If a modifying demand with respect to geography information of the client is checked(S209), data of the corresponding area searched(S210), and the error information is modified or additional information with respect to the searched data using a modifying tool is inputted, and the data are transmitted to the server, and the prior database is updated(S211). In addition, result data in updated area are created(S212), and the result data are transmitted to the client(S213), and the result data are displayed on a browser of the client(S214). It is checked whether the client disconnects to the server(S215).

Description

Method for providing geographic information utilizing satellite image}

The present invention relates to a method for providing geographic information, and in particular, to provide visual information, using satellite images and processed vector data based on the map information as a basic map information when constructing a geographic information system. The present invention relates to a method of providing geographic information using satellite images.

In general, in the case of a vector map containing map information, it takes a long time to construct basic data and thus does not include any manifest information, and the included information only contains extracted map information by symbolizing or simplifying things. It does not contain all the information on the map and a lot of information is lost, which causes data reliability problems. In addition, the construction cost is expensive, there is a problem that requires a lot of time and a lot of skilled labor to maintain the built map information to be manifest.

In addition, the conventional technology of superimposing / integrating the satellite image and the vector data has a problem that the service speed is remarkably lowered because of lack of precision of map information manifestation and reprocessing and displaying the existing digital map in the client / server system. It is not applicable to future wireless Internet service, next generation mobile communication, and vehicle navigation system. In particular, in order to service geographic information using satellite images to wired / wireless internet and terminals, it is necessary to use foreign software. Since foreign software is developed based on a large area (1/25000), it is a narrow area like Korea. This is difficult to apply and the geographic information accuracy is low.

An object of the present invention for solving the above problems is to use a large-capacity satellite image representing all the manifestations of the real world and processed vector data based on the same, and display them on the client side at high speed and easy maintenance and update The present invention provides a method for providing geographic information using satellite images.

1 is a block diagram schematically showing the configuration of a geographic information providing system according to the present invention.

2A and 2B show an example of satellite image indexing according to the present invention.

3A and 3B illustrate an example of vector data space indexing according to the present invention.

4 is a flowchart illustrating a geographic information providing process according to the present invention.

5 is a flowchart illustrating a process of displaying a circular screen on the client side according to the present invention.

6 is a view showing an example of a geographic information output screen according to the present invention.

<Description of the reference numerals for the main parts of the drawings>

10: client 20: geographic information providing server

30: Geographic information city engine 40: Vector data database

50: satellite image database

A feature of the present invention for achieving the above object is a method for providing geographic information using a satellite image of the client / server method, the first step of storing the satellite image and the vector data constructed in the background of the satellite image in a database ; When the client connects to the geographic information providing server, displaying a main screen of the geographic information providing server and checking whether there is a predetermined request event from the client; A third step of generating result data by integrating vector data with satellite image of a region selected by a geographical information city engine when the request event is a screen transmission request by screen control; If the request event is a request for searching for geographic information, performing an attribute search in a database using a search word input from a client, and generating result data by integrating the satellite image and the vector data of the searched area if the corresponding data exists; If the request event is a request for correction of geographic information, search the data of the region, complete correction / addition of error information for the searched data, and update the database when the data is transmitted to the geographic information providing server. A fifth step of generating result data by integrating the updated satellite image and vector data; And a sixth step of transmitting the result data generated in each step to the client and displaying the result data as a circular image having a predetermined diameter.

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

1 is a block diagram schematically showing the configuration of a geographic information providing system according to the present invention, which includes a client 10, a geographic information providing server 20, a geographic information city engine 30, a vector data database 40, and a satellite. It consists of an image database 50.

The client 10 is connected to the geographic information providing server 20 through a wired / wireless internet network, a local area network (LAN), a wide area network (WAN), a mobile communication network, and the like. It sends a request to the screen transmission, search, correction, etc., and outputs or modifies the data transmitted in response thereto, and transmits it to the geographic information providing server 20.

The geographic information providing server 20 retrieves the corresponding satellite image and the vector data from the databases 40 and 50 according to the request of the client 10, and the retrieved data is processed by the geographic information city engine 30. The data is transmitted to the client 10 and, in the case of a modification request, receives data retransmitted from the client 10 and stores the data in the vector data database 40.

The geo-information city engine 30 generates a map data result screen by integrating the satellite image and the vector data searched by the size of the client 10 browser to be displayed, and transmits it to the client 10 side. At this time, circular area setting information is also transmitted for circular processing to be described later.

The vector data database 40 stores vector data and data on an indexing table, and the satellite image database 50 stores indexed high quality satellite images.

The vector data is not a method of collecting and reprocessing existing digital maps, but a new construction method. The new construction method uses vector satellite images as a background to draw vector data directly at an accurate location to generate vector data. Vector data can be constructed with less time and effort than traditional digital map collection and reprocessing, and accuracy can be increased.

The satellite image may use not only a visible light region of a person but also a satellite image represented by a photosensitive band of light outside the visible light region.

2A and 2B illustrate an example of satellite image indexing according to the present invention, and FIGS. 3A and 3B illustrate an example of vector data space indexing according to the present invention.

In order to show a large satellite image on the screen at a fast time in the server 20, there must be an approach to data. To this end, tile indexes are created and used. FIG. 2A shows a tiled satellite image, and by generating the index table as shown in FIG. 2B along with the attribute information for each tile based on the tiling, it is possible to quickly access the index area by using the index table. .

Spatial index is created to improve the speed of data retrieval when searching vector data as well as satellite images As shown in FIG. 3A, the relationship is established by dividing the vector data included in the screen requested by the client 10 into a predetermined size, and a spatial index table is generated as shown in FIG. 3B based on the data. It is possible to perform a fast search through the created spatial index table.

4 is a flowchart illustrating a process of providing geographic information according to the present invention.

When the client 10 is connected to the geographic information providing server 20 (S200), the geographic information providing server 20 loads the main screen data and transmits it to the client 10 (S201). The main screen data transmitted to the client 10 is displayed as a main screen on the client 10 browser (S202), and the geographic information providing server 20 checks whether there is a predetermined request event from the client 10 (S203). . When a request for screen transmission (S205) by screen control (S204) such as clicking a specific part of the output screen, moving up, down, left, right, zooming, or 360 degree rotation is checked, the geographic information city engine 30 selects Data is generated as result data (S212) and transmitted to the client 10 (S213), and the transmitted result data is displayed on the client's browser (S214).

When the search request (S206) for the geographic information of the client 10 is checked, the attribute search (S207) is performed in the database 40 using the search word input from the client 10, and it is determined whether the corresponding data exists (S208). . If the data does not exist, the user inputs a search word again, and if the data exists, the result data of the searched region is generated (S212), transmitted to the client 10 (S213), and displayed on the client 10 (S214). .

If the request for correction of the geographic information of the client 10 (S209) is checked, the data of the corresponding area is searched (S210), and the correction information or additional information of the error information is performed on the client 10 side using a correction tool for the retrieved data. When the input is completed and the data is transmitted to the server 20, the existing database 40 is updated with the modified data (S211), and the result data of the updated region is generated (S212) and transmitted to the client 10 ( S213) and display (S214) to enable the correction confirmation.

Finally, it is checked whether the client 10 is terminated (S215), and accordingly, a new request event check (S203) or geographic information is terminated.

The result data generation is performed by using the satellite image and the vector data of the selected region stored in the database (40, 50) in the geographic information city engine 30, the satellite image of the region stored in the database (40, 50) It means to create a single image combined with the vector data of the region. It does not transmit any additional attribute data by processing the attribute information retrieved at the time of the request for searching for the attribute information such as the building name as one image while being displayed on the result screen. As such, by adopting a technique of processing the area requested by the server, converting the result into an image, and transmitting the result, a vector client tool is not required for display.

5 is a flowchart illustrating a process of displaying a circular screen on a client side according to the present invention, FIG. 6 is a diagram illustrating an example of a geographic information output screen according to the present invention, and FIG. 5 is a screen display process of FIG. It will be shown in detail.

When receiving the result data generated in the server 20 (S300), using the circular area setting information transmitted with the result data to set the area to be shown in the circle in the client 10 (S301), the circular processing process (S302) In operation S303, the circular screen generated through the display is displayed.

The circular processing (S302) is performed by the circular processing module on the client 10 side, so as to display only the inside of the area to be circularly processed in the area set image using the window-related function provided by the system-provided application program interface (API). Process.

In this way, the area where the map information is displayed is placed in the concept of a human's viewing distance, and the area where the map is displayed is processed in a circle so that the stereoscopic effect of the satellite image itself and the three-dimensional effect appear. In FIG. 6, (a) shows the effect of reducing the radius to show the visual effect according to the weather, and the circular area is enlarged, and the narrow area can be observed. (b) is the figure with the maximum radius, which has the effect of reducing the area of origin, and can observe a wide area. By adopting a circular screen of the client 10, it is possible to rotate and move 360 degrees in all directions.

In addition, by adopting the screen display of the client 10 in a circular shape, the same effect as the instrument panel may occur to generate various applications. For example, it can be applied to the vehicle navigation system when mounted on an automobile, and applied to the military simulation field when mounted on an airplane, and applied to military strategy simulation when mounted on a military weapon such as a tank.

As described above, according to the present invention, the satellite image and the vector data are used together, so that the attribute information can be provided with rich manifestation, and the vector data has the advantage that a client tool for a separate display is not required.

In addition, by using satellite data to solve the enormous cost and labor of updating existing data, it can be easily used by consumers by inducing relatively low construction costs.

In addition, unlike the conventional rectangular screen city, it adopts a circular city method and at the same time, rotation and movement in all directions are possible. This concept is the same as the urban form of the radar, aviation, and vehicle boards that require the same, and can have the same function, so that such control and urban systems can be easily replaced using satellite images in the future.

Lastly, satellite images can have various information represented by photosensitive bands of light outside the visible range of human beings, so that they can be easily integrated and operated with existing geographic information. It is possible to replace expensive foreign geospatial software that does not match the topography of Korea, and was developed in accordance with the world standard module with import substitution effect to reduce foreign currency. City engine software exports are effective.

Claims (3)

In the geographic information providing method using a satellite image of the client / server method, A first step of storing a satellite image and vector data constructed based on the satellite image in a database; When the client connects to the geographic information providing server, displaying a main screen of the geographic information providing server and checking whether there is a predetermined request event from the client; A third step of generating result data by integrating vector data with satellite image of a region selected by a geographical information city engine when the request event is a screen transmission request by screen control; If the request event is a request for searching for geographic information, performing an attribute search in a database using a search word input from a client, and generating result data by integrating the satellite image and the vector data of the searched area if the corresponding data exists; If the request event is a request for correction of geographic information, search the data of the region, complete correction / addition of error information for the searched data, and update the database when the data is transmitted to the geographic information providing server. A fifth step of generating result data by integrating the updated satellite image and vector data; And And a sixth step of transmitting the result data generated in each step to the client and displaying the result data as a circular image having a predetermined diameter. The satellite image generating method of claim 1, wherein the result data generation is performed by a geospatial city engine as one integrated image in which the satellite image of the region stored in the database and the vector data of the region are synthesized. How to provide geographic information. The system of claim 1, wherein the display of the circular image receives the result data generated by the server, sets an area to be shown in the circle in the client using the circular area setting information transmitted together with the result data, and the system. Method for providing geographic information using a satellite image, characterized in that to display only the inside of the area to be circle-processed of the region set image using the window-related function provided by the provided API (Application Program Interface).