KR100216075B1 - Gis system using lbx-protocal - Google Patents

Abstract

The present invention relates to a method for efficiently processing geographic information in a client-server environment. Especially, the LBX protocol can be used to efficiently process geospatial vector data constructed in a host system in a personal computer environment of 486 PC level or more. The present invention relates to a geographic information processing method using the LBX protocol in a client-server environment.

The present invention provides a method for processing geographic information in a client-server environment, comprising: setting up a TCP / IP environment on a serial line, running a GeoNet server, configuring an environment for a GeoNet server, running a client executor, and loading a font file. (Loading) and setting up the Hangul processing environment, running the LBX server and connecting with the host system, client connection processing, LBX data transmission and reception, the received geospatial data compression processor (LBX) Processing geospatial vector data after parsing, and terminating LBX server and GeoNet server when all clients are terminated. To provide.

Description

Geographic Information Processing Method Using LBX Protocol in Client-Server Environment

The present invention relates to a method for efficiently processing geographic information in a client-server environment. In particular, the present invention can effectively process geographic information vector data constructed in a host system under a personal computer environment of 486 PC level or more using the LBX protocol. The present invention relates to a method of processing geographic information using the LBX protocol in a client-server environment.

Conventionally, because of the problem that the terminal cannot process geographic information vector data with a large amount of data efficiently, it provides only the image map information in an environment using general PC communication, and does not provide accurate geographic information (vector data). There are many problems to provide general users with services such as zooming out, zooming out, and moving screen.

Therefore, the present invention solves the above problems and provides a large amount of information to the terminal of the user to service the geographic information system (GIS) vector data and its associated additional information (property data) to suit the needs of the user. The task is to provide a method of processing geographic information using the LBX protocol to effectively display the geographic information without difficult GIS-specific tools.

1 is a hardware configuration diagram of a computer applied to the present invention.

2 is a system configuration diagram of the entire client-server according to the present invention.

3 is a principle diagram of LBX operation used in the present invention.

4 is a flowchart of geographic information processing using the LBX protocol in a client-server environment according to the present invention.

* Explanation of symbols for main parts of the drawings

11: central processing unit 12: main memory unit

13 input and output controller 14 auxiliary storage device

15: I / O device 21: GeoNet server

22: GeoNet Server Module 23: GeoNet Server Processing Module

24: LBX Compressor 31: Proxy Server

32: X client

The present invention provides a method for processing geographic information in a client-server environment in order to achieve the above object, comprising: setting a TCP / IP environment in a serial line, running a GeoNet server and setting an environment for the GeoNet server, Running a client executor, loading a font file, and setting up a Hangul processing environment, running an LBX server and connecting with a host system, and performing client connection processing; Transmitting and receiving LBX data; After the received geospatial data is interpreted by a compression processor (LBX), processing the geospatial vector data, characterized in that the LBX server and GeoNet server is terminated when all clients are terminated.

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

1 is a 486 PC class or more hardware configuration to which the present invention is applied. The CPU 11 stores and executes programs to be executed in the central processing unit 11 and the central processing unit 11 for controlling and managing the overall operation of the computer. And a main memory device 12 for storing various data, and an input / output controller 13 connected to an internal connection bus and controlling inputs and outputs to the auxiliary memory device 14 and the input / output device 15. The auxiliary memory device 14 stores a large amount of data, and the input / output device 15 includes a general keyboard, a display device, a printer, and the like.

In the 486 class or more computers configured as described above, the main memory device 12 stores a program capable of processing geographic information vector data using the LBX protocol in a client server environment to which the present invention is applied. , Under control of the central processing unit 11.

2 is a block diagram of a client-server system according to the present invention. When a general user accesses a host system through a modem and geographic information vector data is transmitted according to a desired service, the compressed geographic data received through the modem is shown. Performs a process of displaying on the user terminal using the GeoNet server 21 which is analyzed and driven using the compression processor (LBX) 24. The GeoNet server processing detail module 23 of the GeoNet server 21 performs tasks such as setting the environment of the GeoNet server, executing a client, loading a font file, and the like.

FIG. 3 illustrates the operation principle of LBX used in the present invention, and FIG. 4 relates to a method for processing geographic information vector data in a client server environment using the LBX protocol of FIG. When the GeoNet server program resides in the main memory device 12 in the auxiliary memory device 14 and the work is started by the CPU 11, the GeoNet server program is ready to receive data transmitted from the host system. Input devices, output devices, network interfaces, and memory to act as servers are all allocated from Windows. The Network Application Program Interface (API) is designed to support TCP / IP using Windows Sockets 1.1 and runs over TCP (Transmission Control Protocol). When the GeoNet server 21 is running, the process of opening the port of TCP and waiting for the X client 32 of the host system to connect, and when all the connected X clients 32 are terminated, the GeoNet server 21 It will shut down automatically.

The execution of each processor is performed in order of running and waiting for the GeoNet server 21, connecting to the GeoNet server 21 after the proxy server 31 is executed, and connecting to the proxy server 31 after the X client 32 is executed. do.

A process of processing geospatial vector data will be described in more detail with reference to FIG.

First, set up the TCP / IP environment on the serial line (S1), then run the GeoNet server (S2), run the program to set the environment for the GeoNet server (S3), and then run the client launcher (S4). ) And the process of loading the used font file (S5) and setting the Hangul processing environment (56) are performed.

Thereafter, the LBX server is driven to connect to the host system (S7), and a process of waiting for a connection (S8) to send and receive data is performed. A process of transmitting and receiving substantial data using a module capable of performing the step S10 is performed.

At this time, in more detail the process of transmitting and receiving LBX, the geographic information data received from the proxy server 31 of the host system is interpreted by the compression processor (LBX) 24 (S11) and displayed on the terminal (S12). Here, LBX (Low Bandwidth X) is an extension of the protocol that enables fast data transmission over low speed networks such as telephone lines by redesigning the existing X protocol based on a local area network (LAN).

GeoNet server 21 and proxy server 31 send and receive data on low speed network using LBX protocol, and proxy server 31 and X client 32 use high speed X11 protocol on the same host or LAN. Performs a test to send and receive data.

Since the GeoNet server 21 and the proxy server 31 must communicate using the LBX protocol in addition to the X11 protocol, the GeoNet server must support the LBX protocol. After the process, the geospatial vector data is displayed on the user terminal using the decompressed LBX data (S12). If all clients are not terminated, the process is branched to the above-mentioned connection waiting state (S8). When all clients are terminated (S13), the process of terminating the LBX server and the GeoNet server (S14) is performed continuously.

As described in detail above, the present invention provides a method for efficiently processing a GIS (Geographic Information System) using the LBX protocol in a client-server environment. Due to the problem that it can not be processed by the PC, the environment using general PC communication provides only image map information, but does not provide accurate geographic information (vector data). However, the present invention entails the effect of being applicable to various geographic information services such as city information retrieval service, land use information retrieval service, land price and real estate information retrieval service based on PC communication. In addition, by presenting the present invention, the geographic information system is popularized, thereby increasing the value of sharing and using geographic information, securing the core base technology by implementing the nation's first X window service on a PC, and applying general serial line communication technology to the X terminal. By grafting, it contributes to the popularization of X Window, and finally, it is possible to provide high value-added PC communication service based on GIS by breaking away from text-based communication service.

In addition, a preferred embodiment of the present invention is disclosed for the purpose of illustration, those skilled in the art will be able to make various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and modifications belong to the following claims This is something to see.

Claims (4)

A method for processing geographic information in a client-server environment, comprising: setting up a TCP / IP environment on a serial line, running a GeoNet server, configuring an environment for a GeoNet server, running a client executor, loading font files And setting up the Hangul processing environment, running the LBX server and connecting to the host system, performing client connection processing, sending and receiving LBX data, and interpreting the received geographic information data into a compression processor (LBX). Processing the geospatial vector data, and terminating the LBX server and the GeoNet server when all the clients are terminated. The method of claim 1, wherein the steps of setting up a TCP / IP environment on the serial line, executing a GeoNet server, and setting up an environment for the GeoNet server include: allocating an input / output device, a network interface, and a memory for operating as a GeoNet server from a window. The application interface on the network supports TCP / IP using Windows Sockets 1.1. The protocol runs over TCP. When the GeoNet server is running, it opens a TCP port and allows the X client on the host system to connect. And a process of going to a waiting state and automatically terminating all connected X clients. The method of processing geographic information using the LBX protocol in a client-server environment. The method of claim 1, wherein in the step of connecting the LBX server with the host system, the host system includes a proxy server and an X client connected thereto, and the GeoNet server and the proxy server use an LBX protocol, The X client uses the X11 protocol on the same host or LAN. The method of processing geographic information using the LBX protocol in a client-server environment. The process of claim 3, wherein the GeoNet server and the proxy server communicate using the LBX protocol in addition to the X11 protocol, and the GeoNet server must support the LBX protocol. Method of processing geographic information using LBX protocol in client-server environment, which is performed in order of connecting to GeoNet server, and then connecting to proxy server after running X client.

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