KR20010100609A - Service method for map information of Geographic Information System - Google Patents

Abstract

The method for providing map information of a geographic information system according to the present invention is a method for providing geographic information for transmitting a level to be viewed by a client and a map area to be viewed from a geographic information system server, wherein the original image map information and at least a few steps are provided. Image map information and original vector map information divided in consideration of the enlarged screen area and the amount of data are stored and managed in a minimum grid form for each level viewed by the user, and the client stores the stored original image and When the vector map information request, the image information and the vector map information are transmitted in parallel in the grid form for each level viewed by the user.

The vector map information is expressed by a base point, a scale, and respective position coordinates of the area in a grid form for each level viewed by the user with respect to the original vector map information. The reference point is 16 bytes, The size is 16 bytes, and each position coordinate is expressed as an integer value of 4 bytes for 2 bytes.

According to the present invention, after processing and storing the vector map information and the image map information in the geographic information system for providing the map information, it can only increase the user's haptic speed by using the data in parallel when the client requests In addition, it provides a geographic information system that can reduce the transmission time of GIS data on the Internet.

Description

Service method for map information of Geographic Information System}

In particular, the method of providing geographic information of the geographic information system according to the present invention reprocesses the vector and image GIS map information according to the characteristics of each layer and transmits it to the client as vector map information of different resolutions according to the viewing area. It relates to a method of providing geographic information.

In general, the Geographic Information System (GIS) is a collection of hardware, software, maps, human resources, organizational and institutional devices for collecting, storing, analyzing, and providing a variety of information related to terrain, geology, geography, and land. It is a system.

The primary purpose of such a geographic information system is to provide a desired information service to a user, and the secondary purpose is to informatize and manage the geographical phenomenon of the real world. That is, it is more important to provide a service of geographical information desired by a user than to informatize geographical phenomenon.

To this end, according to the information and functions desired by the user, the geographical phenomenon must be accurately and effectively informed by the geographic information system in different forms, and one of the most important parts is data. The reason for this is that not only data is the most expensive to construct geographic information system, but also the correct construction of data is essential to determine the quality of functions provided by geographic information system.

In general, the geographic information system has a large amount of map information, and there is a problem in speed to service on the Internet that provides a limited speed. Recently, a service that provides GIS map information on the Internet has been limited to a web GIS.

The web GIS provides map information service to various devices (mobile phones, PDAs, computers, mobile computing, etc.) on the Internet due to the development of wired and wireless communication, and these services often use image map information, and vector map information. In case of transmission, the speed is a problem.

In the conventional geographic information system, the vector map information and the image map information are separately provided.

As shown in FIG. 1, the vector map information structure of the conventional geographic information system has each position coordinate [(x1, y1), (x2, y2), ..., (xn, yn)] is allocated to each of 16 bytes by 16 bytes, and stores the vector map information with the allocated size, and transmits the corresponding area when requested by the client.

Here, each of the coordinates [(x1, y1), (x2, y2), ..., (xn, yn)] is represented by a real value.

A method for providing vector and image geographic information of such a geographic information system will be described with reference to the accompanying drawings.

First, the vector map information is basically classified with the image map information according to the type of data used by the client. The image map information is received from the geographic information system server and is shown to the user. Instead of receiving the vector map information containing the actual coordinates will be used.

The image map information is designated to a level that can be enlarged. For example, most of the image map information is enlarged to 9 levels, and an image enlarged at each step is stored for each grid.

When the client requests the geographic information system server for the level and map area to be viewed by the user, the server selects and sends only the area requested by the user in the large image. In other words, the grid area that the user is currently viewing among the images enlarged on the geographic information system server is cut and then transmitted.

Unlike this, there is a method of processing and sending an image that can display a client screen every time the server requests it.

In the geographic information system serving the image map information, the client cannot select a symbol (object) displayed on the screen, or when selected, communicates with the geographic information system server to receive it again. Is not free and if you enlarge it, the contents of the image will be aggregated. It's just a service to the client.

In addition, when the image map information is used, it is mainly used due to the speed problem, and the number of transfer of the image is determined not by the number of objects in the screen but by the screen size.

In addition, the geographic information system server that services the vector geographic information transmits vector map information including actual coordinates, not an image. The vector map information, for example, attempts to represent a spatial object called a rectangle. In this case, four segments are required and each segment requires the coordinates of two end points. Of course, both endpoints of one segment must match the endpoints of the other segment.

Referring to FIG. 1, 8 bytes are allocated to each of position coordinates [(x1, y1), (x2, y2), ..., (xn, yn)] for representing two different points, so 16 bytes are allocated in total. The assigned position coordinates have a real value.

In the case of displaying 100 position coordinates in the vector map information, 16 bytes are consumed by 8 bytes each on the x-axis and y-axis. When expressing 100 such 16-byte position points, 1600 bytes are used. In the representation, 16000 bytes are used.

However, when the vector information is transmitted, the amount of the map information is enormous, and therefore, the speed is slowed when the user wants to transmit the information to the user. In addition, when the vector map information including the actual coordinates is not received, the location of the map information displayed on the screen may not be moved or deleted. This speed problem causes users to lose confidence in the geographic information service.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and after processing the map information into the Internet vector grid map information according to the characteristics of each data layer (layer), the minimum grid information for the area required by the user is obtained. And the method of providing the map information of the geographic information system to transmit the image map information in parallel with the vector map information by transmitting the vector map information of different resolutions according to the viewing area. The purpose is to provide.

1 is a view showing the structure of the vector map information in the conventional map information providing method of the map information system.

2 is a view showing vector map information in a method of transmitting map information of a geographic information system according to the present invention;

3 is a diagram illustrating an example in which an original image (or a table) is divided in a method of transmitting map information of a geographic information system according to the present invention.

4 is a system configuration diagram showing a first embodiment of a method for transmitting map information of a geographic information system according to the present invention;

5 is a system configuration diagram showing a second embodiment for showing a method of transmitting map information of a geographic information system according to the present invention;

6 is a system configuration diagram showing a third embodiment of a method for transmitting map information of a geographic information system according to the present invention;

7 is a diagram illustrating an example of map information for implementing the map information transmission method of FIG.

<Explanation of symbols for the main parts of the drawings>

10,30 Client 20 Geographic Information System Server

40 Geographic Information System Total Server 41,42,43 ... Local Server

In order to achieve the above object, a method of providing map information of a geographic information system according to the present invention,

In the geographic information providing method of transmitting the level to the client and the map area to be viewed from the client connected to the Web GIS to the client,

Considering the original image map information, the screen area and the amount of data enlarged to at least a few levels, the image map information and the original vector map information in which the amount of data is uniformly divided, and the vector map information processed in the form of a grid for each level viewed by each user. Store and manage them,

When the client requests the stored original image and the vector map information, the image information and the vector map information are simultaneously transmitted in a minimum grid form for each level viewed by the user.

If the image map information and the vector map information are provided in parallel, the transmission speed on the user's Internet is checked. If the transmission speed is slow, the image map information is transmitted first, and then the vector map information can be transmitted. It features.

The vector map information is transmitted in the form of a minimum grid for each level that the user views with respect to the original vector map information, and is expressed as a reference point and a size of the area and data represented by each position coordinate.

The vector map information is expressed by 16 bytes of 8 bytes for each region, and the size of the vector map information is expressed by 16 bytes by 8 bytes for each axis direction, and each location coordinate is 4 bytes of 2 bytes. It is characterized by expressing data by displaying it as an integer value.

The method of providing map information of a geographic information system according to the present invention is a method of transmitting geographic information of a geographic information system in which a whole server of geographic information system in which an entire map information area is stored and a plurality of local servers having map information of a specific region are connected. To

Requesting data from the user client to the entire GIS server;

Transmitting a message to a local server in an area requested by a client from the entire geographic information system server after the data request step;

And transmitting and displaying the requested geographic information from the corresponding local server to the client.

Here, the client is characterized in that it comprises a mobile phone and PDA, and a computer and a portable computer.

Hereinafter, with reference to the accompanying drawings as follows.

2 is a diagram showing vector map information in a method of transmitting map information of a geographic information system, and FIG. 3 is a diagram showing an example of dividing an original image (or table) in a method of transmitting map information of a geographic information system. 4 is a system configuration showing a first embodiment showing a method of transmitting map information of a geographic information system, FIG. 5 is a system configuration showing a second embodiment for showing a method of transmitting map information of a geographic information system, and FIG. A system configuration diagram showing a third embodiment of a map information transmission method of a geographic information system, and FIG. 7 is a diagram illustrating an example of map information for implementing the map information transmission method of FIG. 6.

Referring to FIG. 3, the client 10 requesting the region transmission of the map information and the region transmitted from the client 10 lead the map region nearest to the pre-stored data reference point. It consists of a geographic information system server 20 to transmit to.

Referring to FIG. 4, when the client 10 requests the area transmission to be viewed, the geoinformation system server 20 transmits the image map information and then transmits the grid map information to the client 10.

Referring to the accompanying drawings, the method for transmitting map information according to the present invention constituted as described above is as follows.

First, referring to FIG. 2, in order to process the vector map information into the size (or grid) for the level viewed by the user, the reference point (x ₀ , y ₀ ) and the size from the reference point to the X and Y axes ( Scale).

The reference point (x ₀ , y ₀ ) of the vector map information is an integer value, and 8 bytes are allocated to x ₀ and y ₀ respectively by 16 bytes, and the scale (x, y) of each axis is also 8 to xy. Allocate 16 bytes by byte. In this case, the size (x, y) of each axis is allocated to each x, y by 8 bytes even when the size is different from the square (e.g., rectangle) so that the size can be accurately represented. In addition, each position coordinate is [(x1, y1) (x2, y2), ..., (xn, yn)] and 4 bytes are allocated for 2 bytes each. That is, it expresses the data to be displayed by allocating the total reference point (16Bytes), size information (16Bytes), and each position coordinate (4Bytes).

When presenting 100 position coordinates in the vector map information, the existing data is a total of 1600 bytes, the present invention is a total of 432 bytes, the increase / decrease rate is 73% reduction of the present invention, and the existing data is a total of 1000 location points It is 16000 bytes, and Internet data is 4032 bytes, and the increase and decrease rate is 74.8%. This is shown in Table 1.

Reference position coordinates Existing Information Size Information size of the present invention Change rate When expressing 100 position points 1600 bytes 432 bytes 73% reduction In case of 1000 position points 16000Bytes 4032Bytes 74.8%

As compared to Table 1 above, the actual amount of data can be reduced to a quarter of that of the conventional one.

The vector map information is stored in a database of the geographic information system server 20, which is processed and stored in a grid form for each grid level that the user is viewing.

Referring to FIG. 3, when the GIS map information is extended to the original image T ₀ and the original image map information in order to serve the area that the user wants to view, the first enlarged image T is considered in consideration of the screen area and the amount of data. ₁ ) divides the data into a constant amount of data, and further divides and stores the second enlarged image (T ₂ ) in which the original image (T ₀ ) is further enlarged into a more detailed amount of data. Each area divided in this way is a grid, and the grid is processed for each level that the user sees.

In addition, the vector map information is divided into the grid of the original map information associated with the screen that the user is viewing, that is, when T ₀ is viewing the entire screen, when T ₀ is further enlarged Becomes T ₁ , and when T ₁ is enlarged more than T ₁ , T 2 is used. In addition, each level is created and stored using the vector map information as shown in FIG. The resolution of the vector map information varies depending on the viewing area of the user and is provided with a resolution of T ₀ <T ₁ <T ₂ .

Here, if the user requests the required grid according to the screen that the user is viewing, the storage size of each grid can be maintained almost constant.

A first embodiment of the grid map information transmission method will be described with reference to FIG. 4.

The screen size of the map information currently viewed by the client 10 is fixed, and the screen size allows the user to display the area to be viewed with different resolutions for each grid level.

First, when the client 10 requests the geographic information system server 20 to transmit the area to be viewed (S11), the geographic information system server 20 selects a grid suitable for the area of the user's viewing area (S12). The selected grid material 12 is transmitted to the client 10 to be displayed on the user screen (S13).

In this case, the data transmitted to the client 10 may be provided in a compressed state, and such compressed data may be displayed on a user screen when the client 10 releases the compressed data using a compression program. At this time, the data in the form of a grid exists for use when performing a spatial query because only some data, not all data, is transmitted to the client 10.

In addition, the real vector data 13 refers to data (raw data) before conversion to a grid-type data structure, which is used when performing an analysis on a GIS without being transmitted.

If the grid data that the user wants to see is 'V1' in FIG. 2, the minimum grid transmitted to the client is G ₃₄₁ , G ₃₄₂ , G ₃₄₃ , G ₃₄₄ , and combines the transmitted grid data to the size of the screen. In this case, the 'V1' screen is displayed.

FIG. 5 is a second embodiment of the present invention in which the vector map information and the image map information are mixed and transmitted. When the client 10 requests the geographical information system server 20 to transmit an area to be viewed (S21), The information system server 20 selects the image and grid data by checking the Internet transmission speed (S22).

At this time, not only the image data 22 is transmitted to the client 10 in parallel with the grid data 23, but also when the Internet transmission speed is slow, the image data 22 is first transmitted (S23), and the grid data 23. Transmits (S24). This can be provided to the user at a high speed by transmitting the vector data after image of the background map hardly changed in the GIS data, the image data 22 when the transmission of the grid data 23 is delayed.

That is, by transmitting the image map information until the arrival of the vector map information as shown in Figure 2 to provide a faster response time to the user to serve as a basic background as an image and to serve the vector in the upper specific layer.

In the case of transmitting the image and grid map information, 3D (x, y, z) and altitude data (DEM; Digital Elevation Model) can be serviced as described above.

Here, the image and grid map information can be stored in the compressed state in the geographic information system server 20 to save time for compression, and can be used particularly effectively when the network line is slow.

On the other hand, if the GIS map information is serviced nationwide because the amount of map information is enormous, it can be serviced as shown in FIG. FIG. 6 is a fourth embodiment of providing map information using a local server. When the client 30 requests the entire geographical area system server 40 to transmit a map area viewed by the user (S31), the geographic information is requested. In the case of the entire map area, the system-wide server 40 transmits the area GP ₀ to the client 30.

However, if the geo-information system-wide server 40 requests the map information for the region, it transmits to the region server 1, 2, 3 (41, 42, 43) (S32). At this time, the local server 1, 2, 3 (41, 42, 43) is a region (GP ₁ , GP ₂ ,) to the client 30 when the map information transmitted from the entire geographic information system server 40 is its own region. GP ₃ ) is divided and transmitted as shown in FIG. 7 (S33).

As shown in FIG. 7, the entire area GP ₀ is divided into respective regions GP ₁ , GP ₂ , and GP ₃ , and map information about the corresponding region is provided through local servers 1,2,3 (41,42,43). Is provided to the client 30 to be divided into regions according to the number of users and the amount of map information included in the region. That is, one server may be arranged in each area of metropolitan city or more such as Seoul, Incheon, and Daegu, and two may be operated in other areas.

Then, the user client 30 is connected to the entire geographic information system server 40, but if you look in detail at any part of the area server 1, 2, 3 (41, 42, 43) will operate . In this way, it can be used not only for segmenting map information by region, but also for segmenting users by region. Considering the data volume for all regions, install a server that manages the entire region, and each local server runs when the user is searching each region.

When receiving the amount of data through the local server, the image map information and the vector map information of the GIS data may be selectively transmitted in parallel to the client 30.

As described above, the method of providing map information of the geographic information system according to the present invention not only reduces the amount of map information by reprocessing GIS map information into Internet vector map information according to the characteristics of each data layer. By transmitting the vector map information of different resolutions according to the viewing area of the user, the time required for transmitting the map information and the amount of the map information can be kept constant.

In addition, when the Internet line is slow, the image map information is used in parallel to increase the user's haptic speed.

Claims (5)

In the geographic information providing method of transmitting the level to the client and the map area to be viewed from the client to the client, Considering the original image map information, the screen area and the amount of data enlarged to at least a few levels, the image map information obtained by dividing the amount of data uniformly and the original vector map information into the vector map information processed into the grid form for each level viewed by the user. Store and manage, When the client requests the stored original image and the vector map information, the map information providing method of the geographic information system, characterized by transmitting the image map information and the vector map information in parallel in the form of a grid for each user viewing. The method of claim 1, In the case of providing the image map information and the vector map information in parallel, the user can check the transmission speed on the Internet, and if the transmission speed is slow, the image map information can be transmitted first, and then the vector map information can be transmitted. Method of providing map information of geographic information system. The method of claim 1, The vector map information is processed in a minimum grid form for each level that the user views with respect to the original vector map information, and is expressed as data represented by the reference point of the area, the size of each axis direction, and each position coordinate. Method of providing map information of geographic information system. The method of claim 3, wherein The vector map information expresses the reference point of the grid area in 16 bytes of 8 bytes, the size of which is allocated by 8 bytes in the axial direction, and expressed in 16 bytes, and each position coordinate is represented by an integer value of 4 bytes in 2 bytes. Method for providing map information of a geographic information system, characterized in that to display and represent each data. In the geographic information transmission method of a geographic information system in which a geographic information system that stores an entire map information area and a plurality of regional servers having map information for a specific area are connected. Requesting the map information material from the user client to the entire GIS server; Transmitting a message to a local server in an area requested by a client from the entire geographic information system server after the data request step; And transmitting, by the corresponding local server, the requested map information to the client in parallel with the image and the vector data.