KR100462299B1 - Packet structure and communications protocol for GML data transmission and system thereof - Google Patents

Abstract

The present invention relates to a packet structure suitable for converting map data into GML data, performing predetermined compression, and transmitting the packet to a wireless terminal, and a method including transmitting and receiving the packet; When a wireless terminal requests the geographic information data and when the geographic information is transmitted to the wireless terminal, user information required in each case, information indicating a transmission direction of the geographic information data, and the geographic information data to be transmitted are divided. It is characterized by consisting of a header containing information indicating the size of the, it is possible to provide the user with GML data more accurately and faster than in the case of the conventional technique.

Description

Packet structure and communications protocol for GML data transmission and system

The present invention relates to a packet structure for transmitting and receiving geographic information data through a wireless Internet, a communication method for transmitting and receiving a packet between a wireless terminal and a server, and an apparatus thereof.

In order to provide 3D map information to a wireless terminal, vector map data stored in a 3D geographic information (GIS) server must be converted into GML data, which is a standard geographic markup language, and sent. In this case, at least 360kbps of data should be sent at the same time. However, there is a problem in processing the data of this size through a wireless network, and there is a problem in that 3D map data cannot be smoothly provided by a wireless terminal.

An object of the present invention is to provide a packet structure for efficiently transmitting and receiving compressed data by converting 3D map data into GML data.

Another object of the present invention is to provide a communication method and apparatus for exchanging the packet between a wireless terminal and a server.

1 is a view showing the components of a data packet according to the present invention.

2 is a flowchart illustrating a method of transmitting and receiving data packets according to the present invention.

3 is a diagram illustrating a configuration of a communication network to which a GML data packet is transmitted according to the present invention.

In order to achieve the above technical problem, a packet according to the present invention includes a body including geographic information data composed of GML data compressed in a predetermined manner; When a wireless terminal requests the geographic information data and when the geographic information is transmitted to the wireless terminal, user information required in each case, information indicating a transmission direction of the geographic information data, and the geographic information data to be transmitted are divided. A header including information indicating the size of the user information, wherein the user information includes information for identifying the wireless terminal, a type of service required, and the wireless information when the wireless terminal requests the geographic information data. Information including geographic location and time information of the terminal, and when the wireless terminal receives the geographic information data, information for identifying the wireless terminal, the type of service requested by the wireless terminal device, and time information. Characterized by including the information to include.

In order to achieve the above technical problem, a communication system according to the present invention includes a storage unit for storing map data; A converting unit converting the map data into GML data; A transmission unit which accesses the conversion unit and compresses the GML data by a predetermined method, and then packetizes the GML data to a user who requests the GML data according to a predetermined communication protocol. Is executed in the memory of the transmitter.

In order to achieve the above technical problem, a communication method according to the present invention comprises the steps of: acquiring map data and converting it into GML data; Compressing, by a user, information including the GML data by a predetermined method according to a request; And transmitting the packet to a wireless terminal according to a predetermined communication protocol, wherein the compression by the predetermined method is processed in a memory.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a view showing the components of a data packet according to the present invention.

First, the configuration of the data packet of FIG. 1 will be described. The basic skeleton is like a normal data packet. That is, it consists of a body containing geographic information data, a header containing different user information according to the delivery direction, and the delivery direction of the information data. A configuration example of the user information unit shown in FIG. 1 is shown in Table 1 below. In FIG. 1, the rightmost number indicates the number of bytes of each component. That is, the user information part is 117 bytes, the delivery part is 1 byte, the data size part indicating the size of the GML data contained in the body part is 1 byte, and finally the size of the GML data is N bytes (N is a positive integer).

Types of data entered in the user information section will be briefly described with reference to Table 1. In this case, the contents of Table 1 are merely examples, and the contents of the Table 1 may be varied and varied depending on the user's needs. First, the phone number is the telephone number of the wireless terminal requesting the geospatial data, the user name is the name of the owner of the terminal, the address is the address of the owner of the terminal, and the Identification ID is the social security number of the owner of the terminal. As I will explain, it is necessary information for user authentication. The Service Request ID indicates the type of service that a user of a wireless terminal can request, and includes a location-based service that can be provided using geographic information such as an emergency rescue request, a current location request, a public service search service request, and the like. . On the other hand, x, y, z are the information indicating the current longitude, latitude, and altitude of the wireless terminal, respectively, is necessary for measuring the 3D position of the wireless terminal, which is necessary to display the 3D GIS geographic information. The time stamp is a GPS time provided by the GPS receiver to record a time when the wireless terminal requests service. In addition, it is provided to acquire time information necessary to provide a service such as tracking the user's location movement path.

type length description Phone number byte 20 Mobile ID User name char 10 username Address char 50 address Identification ID byte 20 Resident registration number Service Request ID byte 20 Service Request Classification x int One Hardness y int One Latitude z int One Altitude time stamp time One GPS time

On the other hand, Table 2 shows an example of the information contained in the user information portion in the data packet toward the wireless terminal. The usage and description of each component is as shown in Table 1, but the altitude, latitude, and longitude information are unnecessary in this case, and can be omitted.

type length description Phone number byte 20 Mobile ID User name char 10 username Address char 50 address Identification ID byte 20 Resident registration number Service Request ID byte 20 Service Request Classification time stamp time One GPS time

A preferred embodiment of the present invention for a method (protocol) for transmitting an efficient packet of GML data and a system in which the packet is operated as described above will be described with reference to the accompanying drawings. 2 is a flowchart illustrating a method of transmitting and receiving data packets according to the present invention. 3 is a diagram illustrating a configuration of a communication network to which a GML data packet is transmitted according to the present invention.

As can be seen from Figure 3, when looking at the network configuration in which the packet is transmitted according to the present invention, first, a wireless terminal 301 requiring GML data, a communication network 303 to which the packet moves, a GML delivery server connected to this communication network 305, the MAP adapter server 307, and the GIS server 309. In this case, the communication network 303 may be a wired network or a wireless network, and may be a network capable of packet communication and capable of an air interface with a wireless terminal. The GIS server 309 holds a database therein and stores geographic data in the form of a vector map. In addition, when a data request comes from a user (for example, a wireless terminal), the service performs a function related to service provision such as user authentication. The map adapter server 307 converts the geographic information data provided by the GIS server 309 into GML data. Here, GML is an abbreviation of Geograhpy Markup Language (XML) and refers to an XML-based encoding standard developed by the OpenGIS Consortium (OGC), which can be understood by anyone skilled in the art. Omit. The GML delivery server 305 performs a function for transmitting GML data between the map adapter server 307 and the wireless terminal 301. In more detail, the communication method according to the present invention will be described below.

The wireless terminal 301 to receive the geographic information forms a data packet as shown in Table 1 containing its ID and location information and sends it to the GML delivery server 305 through the communication network 303. The GML delivery server 305 decomposes the packet sent by the wireless terminal to obtain user information, and then transmits to the map adapter server 307 what information is required by the wireless terminal 301. The map adapter server 307 sends this back to the GIS server 309. The GIS server 309 identifies whether the user of the wireless terminal has a right, such as the user's ID contained in the user information, and sends necessary information in the reverse order. Look at the process of data transmission to the wireless terminal in more detail. In order to respond to a request for geographic data from the user, the GML delivery server 305 is loaded with the GML data from the map adapter server 307 as described above (step 201). The GML delivery server 305 compresses this GML data in a predetermined manner (for example, Hoffman coding or Gzip). The communication method according to the present invention processes compression on GML data on main memory without depending on the hard disk. In other words, the main memory database base management system technique is applied to improve the processing speed. This is due to an environment in which the size of main memory can be greatly improved due to the recent drop in memory prices.

The GML delivery server 305 processes the compressed or uncompressed GML data in the form of a packet as shown in FIG. 1, and attaches the overhead required for a predetermined communication protocol (for example, TCP / IP) to match the communication protocol. The process is reworked and transmitted to the communication network 303. The communication network 303 is composed of, for example, a mobile communication exchange (MSC) and a base station in the case of a wireless network. The communication network 303 determines whether to transmit (step 207). If it is not determined to be a proper data packet, the communication network 303 returns to step 201 to construct a new data packet, and if it is valid, sends it to the wireless terminal 301. .

The wireless terminal 301 stores the received data packet in a buffer provided in the wireless terminal (step 209). Thereafter, GML data is extracted from the packet stored in the buffer (step 211). The validity of the extracted GML data or the packet itself is examined (step 213). For this purpose, a specific byte is allocated to the lower end of the packet structure according to the present invention in order to perform a cyclic redundancy check (CRC) or parity check. You may. On the other hand, if it is determined that there is an error after checking the validity of the data (213), a recovery action such as requesting retransmission is taken, and if it is recognized as valid, the GML data is compressed by the GML data delivery server 305. If it is, the GML delivery server 305 performs the decompression by applying the main memory database management system in the same manner as performing the compression. This method can significantly improve the processing speed because it does not download and execute in file unit but executes in memory in specific frame unit. By displaying the decompressed GML data on the display device of the wireless terminal, three-dimensional geographic information requested by the user is displayed (step 215). Application software required for the display may be implemented in a wireless terminal from the beginning, or may be downloaded and executed by the GIS server 309 after registering as a member through proper authentication procedures when accessing this service for the first time. have.

The GML data transmission method according to the present invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, hard disk, floppy disk, flash memory, optical data storage device, and also carrier wave (e.g. transmission over the Internet). It is also included to be implemented in the form of. The computer readable recording medium can also be distributed over computer systems connected over a computer network so that the computer readable code is stored and executed in a distributed fashion. Also, the font ROM data structure according to the present invention can be read by a computer on a recording medium such as a computer readable ROM, RAM, CD-ROM, magnetic tape, hard disk, floppy disk, flash memory, optical data storage device, and the like. It can be implemented as code.

As described above, the packet according to the present invention, the method for transmitting and receiving the packet, and the apparatus thereof can provide the user with GML data more accurately and faster than in the case of the related art.

In addition, the process of compressing and decompressing GML data is executed in main memory instead of file-by-file, which significantly increases the execution speed.

Claims (11)

A body including geographic information data consisting of GML data compressed in a predetermined manner; When a wireless terminal requests the geographic information data and when the geographic information is transmitted to the wireless terminal, user information required in each case, information indicating a transmission direction of the geographic information data, and the geographic information data to be transmitted are divided. The header comprising information indicating the size of; The user information includes information for identifying the wireless terminal, the type of service required, the geographical location of the wireless terminal, and time information when the wireless terminal requests the geographical information data. When the wireless terminal receives the geographic information data, the GML data transmission includes information for identifying the wireless terminal, information including a type of service requested by the wireless terminal, and time information. Packet structure. delete delete delete A storage unit for storing map data; A converting unit converting the map data into GML data; And a transmitter for accessing the converter and compressing the GML data by a predetermined method and then packetizing the GML data to a user who requests the GML data according to a predetermined communication protocol. And the compression by the predetermined method is performed in the memory of the transmitter. The method of claim 5, And a wireless terminal for accessing the transmitter and requesting the GML data, decompressing the packet after receiving the packet. delete (a) obtaining map data and converting the map data into GML data; (b) a user compressing the packet containing information including the GML data in a predetermined manner and then packetizing the request; (c) transmitting the packet to a wireless terminal according to a predetermined communication protocol; And compressing by the predetermined method is performed in a memory. delete delete A computer-readable recording medium having recorded thereon a program for executing the steps of claim 8 on a computer.