KR20040044713A - Internet protocol managing method for mobile communication system - Google Patents

Abstract

PURPOSE: A method for managing an IP of a mobile communication system is provided to realize load balance by mapping mobile communication terminals to IP addresses, and to divide the IP addresses into classes, then to connect an IP address included in a class for a high-speed service with a service server through a fixed routing tunneling method, thereby supplying a high-speed data service. CONSTITUTION: If a mobile communication terminal requests a TCP/IP service, a base station determines a level according to service quality, selects an IP address, and assigns the IP address to the mobile communication terminal(S11-S13). The base station updates an IP mapping table as assigning the IP address, converts data received from the mobile communication terminal into an IP packet, transmit the IP packet, and transmits pure data to the mobile communication terminal in reference to the IP mapping table(S14,S15). If a service termination request is transmitted from the mobile communication terminal, the base station deletes the assigned IP address from the IP mapping table(S16,S17).

Description

IP management method of mobile communication system {INTERNET PROTOCOL MANAGING METHOD FOR MOBILE COMMUNICATION SYSTEM}

The present invention relates to an IP management method of a mobile communication system, and more particularly, to an IP management method of a mobile communication system in which one of a plurality of mobile communication terminals is allocated to one of an IP address divided by service class and shared. .

In general, a mobile terminal has a PPP layer between network access servers for receiving TCP / IP services such as the Internet, and this PPP layer separates front and back boundaries of IP datagrams transmitted from a mobile terminal or an external Internet network. do.

The network access server allocates an IP address to a mobile communication terminal at the same time as the PPP layer using a function of an Internet Protocol Control Protocol (IPCP).

For convenience of explanation, assume a network access server as a base station.

Since the base station allocates an IP address to each mobile communication terminal, it is difficult to manage the IP address. For example, the base station does not know how many users will use TCP / IP, so it may not know how many IP addresses to operate, and suddenly, if more users than the number of IP addresses are in need of service, the IPV currently in use. In case of 4, not enough IP address is allocated for every user.

Due to this exhaustion of IP addresses, IPV 6 is slowly being prepared.

In addition, it is not economical to have a maintenance cost for each IP address. In addition, as mobile communication service enters 3rd generation beyond 2.5 generations, multimedia service needs become stronger, but it is also difficult to satisfy QoS (Quality of Service) for providing differentiated high-speed data service. There is this.

Network address translation (RFC1631) can be used as a way to address the lack of IP addresses, which is part of the firewall due to the translation of public IP addresses to private IP addresses.

NAT is an IP masquerade technology that enables 1: N connections by using port numbers and uses NAT tables. Qualcomm is currently working on a mobile communication terminal with the same patent as NAT.

The virtual tunneling technique is used to satisfy the quality of service, and there is a method of providing a high speed service to a specific IP. This is a method used for a virtual private network (VPN), which encrypts and decrypts data before transmitting data over a public network. This requires a fast processor.

Accordingly, the present invention has been made in view of the above-described problems, and load balancing is performed by mapping M mobile communication terminals to N IP addresses, and classifying N IP addresses into several classes for high-speed services. The purpose of the present invention is to provide an IP management method of a mobile communication system to provide a high-speed data service by connecting to a service server with fixed routing tunneling.

1 is an operation flowchart of an IP management method of a mobile communication system according to the present invention;

2 is a message flow diagram of an IP management method of a mobile communication system according to the present invention;

3 is an exemplary view illustrating information update of an IP mapping table performed when a high speed data service is requested by a mobile communication terminal according to the present invention.

4 is an exemplary view showing a data packet transmitted and received between a mobile communication terminal and a base station according to the present invention.

According to an aspect of the present invention, a mobile communication terminal requests a TCP / IP service, and the base station determines a level suitable for the quality of service according to the service request, and selects and assigns an IP address. The base station updates the IP mapping table while allocating the IP address, converts the data received from the mobile communication terminal into IP packets, and transmits the response-on data to the corresponding mobile communication terminal by referring to the IP mapping table. Transmitting; When the service termination request is received from the mobile communication terminal, the base station deletes the allocated IP address from the IP mapping table.

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

1 is an operation flowchart of an IP management method of a mobile communication system according to the present invention. As shown in FIG. 1, when a mobile communication terminal requests a TCP / IP service, a base station determines a level corresponding to a service quality according to a service request. Selecting and allocating an address (S11 to S13); The base station updates the IP mapping table while allocating the IP address, converts the data received from the mobile communication terminal into IP packets, and transmits the response-on data to the corresponding mobile communication terminal by referring to the IP mapping table. Transmitting (S14, S15); When the service termination request is received from the mobile communication terminal, the base station deletes the allocated IP address from the IP mapping table (S16 and S17).

When the user uses the wireless Internet service, the mobile communication terminal requests the base station for TCP / IP service (S11). The service request of the mobile communication terminal is made in a manner similar to the call setup.

The base station selects an IP address by determining a level suitable for the quality of service according to the service request (S12). In this case, the IP address is assigned to one of the IP addresses held by the base station, and may share the IP address with other users according to the service port (S13).

IP addresses are shared by very few users for high-speed data services, but shared by many users for low-speed data services.

The base station updates the information in the IP mapping table while allocating an IP address to the mobile communication terminal, and prepares to transmit the response-on data from the service server to the mobile communication terminal (S14).

The mobile terminal simply transmits data to be sent to the base station, and does not perform other IP data analysis. The base station converts the data received from the mobile communication terminal into an IP packet and transmits the received data to the service server as a destination, and transmits pure data to the corresponding mobile communication terminal with reference to the IP mapping table (S15). . At this time, the pure data is data converted according to the data format between the mobile communication terminal and the base station.

When the user stops using the service, the mobile communication terminal requests service termination to allow the base station to delete information on the assigned IP address from the IP mapping table (S16).

The base station updates the IP mapping table to terminate the service for the mobile communication terminal (S17).

FIG. 2 is a message flow diagram of an IP management method of a mobile communication system according to the present invention. As shown in FIG. Transmitting and receiving the requested data (S21 to S26); Updating, at a base station, an IP mapping table by selecting and allocating an IP address corresponding to a service requested from the mobile communication terminal; The base station transmits the service request data in the IP packet to the service server as a destination, and converts the data received from the service server to the corresponding mobile communication terminal by referring to the IP mapping table (S31 to S34).

When the mobile communication terminal receives a service permission message by requesting a service from the base station (S21 and S22), the mobile terminal transmits data in a packet according to the terminal standard according to the service requested by the user (S24).

The base station selects and assigns an IP address corresponding to the service requested from the mobile communication terminal. Then, the IP address and ID of the mobile communication terminal allocated to the IP mapping table are stored. IP addresses are divided into several classes according to the data rates of services provided to mobile terminals, and IP addresses belonging to classes for high-speed data services are connected to video servers with fixed routing tunneling to enable high-speed data services. do.

Selecting an IP address from the base station is a process of selecting an IP address suitable for a mobile communication terminal among IP addresses divided by classes, and assigning an IP address at a base station is a process of allocating an IP address and a port from a selected class.

FIG. 3 is an exemplary view showing information update of an IP mapping table performed when a mobile communication terminal requests a high speed data service according to the present invention, and with reference thereto, information updating of an IP mapping table according to selection and assignment of an IP address will be described. Is as follows

Assume that there are two service classes in the IP mapping table, one class 40 supporting high speed data service and the other class 50 supporting general data service.

When three terminals with mobile terminal IDs 019-111-0000, 019-222-0000, and 019-333-0000 request high-speed data services, the base station determines the high-speed data service according to the services required by these three terminals. Assign mobile terminal ID to the class.

When the base station first allocates the IP address, the base station allocates the IP address in the order of requests (41 to 43). After allocating the own IP address, sharing with other IP addresses starts.

At this time, the IP address is allocated in a round-robin manner or a weight-round-robin manner. Referring to the IP mapping table illustrated in FIG. 3, it can be seen that the IP address is allocated in a round-robin manner.

If a high speed data service request is received from the mobile terminal in this state, the IP address of 166.104.56.34 is shared. Then, new IP address allocation information is added to the IP mapping table (44).

When the connection with the mobile terminal is lost, the base station deletes the corresponding information from the IP mapping table.

After the selection and allocation of the IP address as described above, the base station transmits data in a packet according to the terminal standard according to the service requested by the user and receives the requested data from the base station. same.

4 is a diagram illustrating a data packet transmitted and received between a mobile communication terminal and a base station according to the present invention. As shown in FIG. 4, when the mobile communication terminal 10 transmits data, the base station 20 refers to an IP mapping table. The IP header and the destination IP address according to the service request are included in the IP header and transmitted to the IP network 30 (S41 and S42).

In addition, when the IP packet is received from the IP network 30, the base station 20 refers to the IP mapping table to configure the packet structure suitable for the wireless environment in the mobile communication terminal 10 corresponding to the IP address included in the header of the IP packet. And converts the data to S43 and S44.

In accordance with the data transmission and reception operation, the mobile communication terminal provides a communication service such as wireless Internet to a user by using a TCP / IP service through a base station.

Subsequently, when the user stops using the service as described above, the mobile communication terminal requests the service to be terminated so that the base station deletes the information on the allocated IP address from the IP mapping table.

The base station updates the IP mapping table to terminate the service for the mobile communication terminal.

As described in detail above, the present invention does not require a high-speed processor because it is composed only of fixed routing tunneling, not an encryption scheme such as IPSec, and thus, differentiated services are possible.

In addition, since TCP / IP communication is not performed between the mobile communication terminal and the base station, the overhead of the existing TCP / IP header is reduced, and the transmission is possible in a packet form suitable for a wireless space.

In addition, since the mobile communication terminal does not use the IP address, it is difficult to access the IP from the outside and is transmitted only by the state recorded in the IP mapping table, thereby preventing data transmission from the outside to the mobile communication terminal. Therefore, there is an effect that can prevent spam attacks that are a problem on the Internet these days.

Lastly, since the mobile communication terminal does not directly communicate with the IP, TCP / IP communication is possible regardless of the IP version.

Claims (3)

When the mobile communication terminal requests a TCP / IP service, determining, by the base station, a level suitable for the quality of service according to the service request, and selecting and allocating an IP address; The base station updates the IP mapping table while allocating the IP address, converts the data received from the mobile communication terminal into IP packets, and transmits the response-on data to the corresponding mobile communication terminal by referring to the IP mapping table. Transmitting; And deleting the IP address assigned by the base station from the IP mapping table when a service termination request is received from the mobile communication terminal. The method of claim 1, wherein the updating of the information in the IP mapping table comprises: selecting a service class by determining a type of data service requested by a mobile communication terminal, and allocating a reserved IP address in a request order; Sharing the already assigned IP address by changing a port number when the allocated IP address is finished; And deleting the corresponding information from the IP mapping table when the connection with the mobile terminal is disconnected. The IP network of claim 1, wherein the base station transmits and receives data to and from the mobile communication terminal, the IP network includes an IP address and a destination IP address according to a service request in an IP header when the mobile communication terminal transmits data. Transmitting to; When the IP packet is received from the IP network, the IP packet is converted into a packet structure suitable for a wireless environment to the mobile communication terminal corresponding to the IP address included in the IP packet header by referring to the IP mapping table. IP management method of mobile communication system.