KR20070024251A - System for linking a mobile communicationn network with portable internet network and a method the same - Google Patents

Abstract

A system and a method for interworking between a mobile communication network and a potable Internet network are provided to enable a user, who is using a portable Internet service, to seamlessly use a portable Internet service even though the user gets out of coverage of the portable Internet service. A system for interworking between a mobile communication network(200) and a potable Internet network(400) comprises an IWU(300). The IWU(300) uses a simple IP to allocate an IP address to a mobile terminal(100) by a departure-based service, such as a PPP service, so that the mobile terminal(100) can seamlessly hand off a data packet being transmitted. The IWU(300) implements the interworking between networks by forming tunneling with the mobile communication network(200) or the potable Internet network(400) on the basis of the tunneling protocol according to a request for forwarding a data packet transmitted from the mobile communication network(200) or the potable Internet network(400).

Description

System and method for interworking mobile communication network and mobile internet network {SYSTEM FOR LINKING A MOBILE COMMUNICATIONN NETWORK WITH PORTABLE INTERNET NETWORK AND A METHOD THE SAME}

1 is a conceptual diagram illustrating a system according to an embodiment of the present invention;

2 is a conceptual diagram illustrating a system when the mobile communication network shown in FIG. 1 is a WCDMA network;

3 is a flowchart illustrating an operation process of a system when the mobile communication terminal illustrated in FIG. 2 is moved from a WCDMA network to a portable Internet network.

FIG. 4 is a flowchart illustrating an operation process of a system when the mobile communication terminal illustrated in FIG. 2 moves from a portable Internet network to a WCDMA network.

<Description of Symbols for Main Parts of Drawings>

100: mobile communication terminal 200, 500: mobile communication network

210: data interface 220: WCDMA network

221: GGSN 222: SGSN

223: base station 224, 530: authentication server

225, 520: DHCP server 300: manganese interworking device

400: mobile internet network 410: access point

The present invention includes a network interworking device for interworking a mobile communication network and a portable Internet network by handoff of a mobile communication terminal, and forms a data interface and tunneling of a mobile communication network based on a simple IP service, thereby providing a mobile device. The present invention relates to a system and method for interworking a mobile communication network and a portable internet network so that data flows transmitted and received by a mobile communication terminal moving between a communication network and a portable internet network are not interrupted.

In general, mobile Internet service based on the existing mobile communication network is excellent in terms of coverage and mobility, but high-speed Internet service freely regardless of location due to high service fee, slow transmission speed, substandard quality level, and inconvenient user interface. It is difficult to meet the needs to use. In addition, the wireless LAN service supports high-speed transmission speed but is built on a hot spot-oriented indoor base, which has narrow coverage and many weaknesses such as radio interference due to the characteristics of ISM (Industrial, Scientific, Medical) band. It is difficult to meet user's service quality expectations.

In order to overcome the limitations of the current infrastructure related to mobile communication and wireless LAN, and to provide a low-cost wireless high-speed Internet service on the go, a portable Internet service is available. Such a portable Internet service is a communication service that can access the Internet at a high speed even in a stationary or mobile environment outdoors using a mobile communication terminal, and use necessary information or multimedia contents from the Internet.

However, the mobile Internet service requires enormous costs to expand the service coverage for users of many mobile communication terminals. Therefore, the mobile Internet service is started in the hot spot area of the metropolitan area where the demand for the mobile internet is expected to be high. Gradually, the direction of expanding the service area is possible. In this case, the area of the portable Internet service is limited, which may cause inconvenience to the initial user.

Therefore, as a solution to this problem, a system and algorithm are required to allow a service using an existing mobile communication network that already provides a wide range of service coverage and a service implemented by a portable Internet network provided in a hot spot area. The interworking between different networks is divided into a loosely coupled and a tightly coupled method.

The weak connection method supports different systems interworking with each other by using a mobile IP, and the mobile communication terminal using the mobile IP requires a lot of time in the process of handing off, so that data packets being transmitted are lost during that time. As well as this occurs, when the mobile IP uses the public IP, there was a problem that the IP address to be given to each mobile communication terminal may be insufficient.

In addition, there is a problem in that the mobile IP assigned to each subscriber subscribing to the interworking service between the networks, and additional installation is required accordingly.

In addition, the strong connection method is an algorithm in which an access point of a WLAN or portable Internet system operates like a base station of a mobile communication system, and is advantageous in implementing a service for seamlessly transmitting and receiving data packets even when the mobile terminal is handed off. . However, since the data of all users using the WLAN or portable Internet system must be processed in the core network of the mobile communication system, an additional core network is required. In such a method, the portable Internet network and the mobile communication network are directly connected to each other. There is a problem in that it is necessary to modify the set algorithm of the two systems because it is interlocked.

Therefore, the present invention was created to solve the above problems, an object of the present invention is to provide a mobile communication network and a mobile Internet network interworking device based on a simple IP to implement a service, mobile The present invention provides a system and a method for interworking a mobile communication network and a portable Internet network capable of seamlessly transmitting and receiving data packets by moving a communication terminal between networks.

A system for interworking a mobile communication network and a portable Internet network according to the first aspect of the present invention for achieving the above object is a public Internet of the mobile communication network for the mobile communication terminal to wirelessly transmit and receive the data packet at high speed in a predetermined area. Based on the simple IP in the mobile Internet network and the interworking service to allow the mobile communication terminal to hand off without interrupting the data communication being transmitted, the data interface of the mobile communication network or the access point of the mobile Internet network And a manganese interworking device for transmitting and receiving the data packet between the networks through the formed tunneling.

Preferably, the mobile communication network is characterized in that the synchronous or asynchronous communication network.

Preferably, the mobile communication network dynamically allocates an IP address to the mobile communication terminal in a point-to-point access method using a source-based service including a PPP service so that the mobile communication terminal can move data based on a simple IP. Characterized in that.

Preferably, the portable Internet network includes a DHCP server for dynamically allocating the IP to the mobile communication terminal to hand off.

Preferably, the inter-network interworking device forms a virtual tunnel for transmitting and receiving data packets with the access point by a tunneling protocol when the mobile communication terminal moves from the mobile communication network to the portable internet network.

In addition, a method for interworking a mobile communication network and a portable Internet network according to a second aspect of the present invention for achieving the above object comprises the steps of (a) a mobile communication terminal handoff between the mobile communication network and the portable Internet network, (b) a manganese interworking device provided for interworking with the manganese so as to perform the handoff setting tunneling for a predetermined transmission period of a data packet based on a simple IP; and (c) the mobile communication moving the manganese. And the terminal forwarding the data packet from the previous network through the tunnel created by the tunneling.

Preferably, the step (b) includes (b-1) when the mobile communication terminal moves from the mobile communication network to the portable internet network, the mobile communication terminal accessing an access point of the portable internet network; b-2) the mobile communication terminal receiving authentication for forwarding of the data packet from the authentication server belonging to the mobile communication network through the network interworking device, (b-3) DHCP of the mobile Internet network due to the authentication A server dynamically assigning and setting an IP address for the data packet via the portable Internet network to the mobile communication terminal; and (b-4) by interworking requests of the access point due to the IP address. And forming, by the manganese interworking device, tunneling with the access point by a tunneling protocol. It shall be.

Preferably, the step (b) includes (b-1) when the mobile communication terminal moves from the portable internet network to the mobile communication network, the mobile communication terminal executing a call connection with the mobile communication network, (b 2) establishing, by the call, the PPI session for routing the Internet by the mobile communication terminal; (b-3) the mobile communication terminal is authenticated for interworking with the network based on the PPI session; Requesting a mobile communication network; (b-4) after the authentication is made, forming tunneling by a tunneling protocol between the data interface of the mobile communication network and the network interworking device; and (b-5) the network interworking device is Connecting to an access point of the portable Internet network, and setting an IP address dynamically allocated to the mobile communication terminal by the PPI session. Characterized in that eojineun.

Preferably, in the step (b-1), the mobile communication terminal accesses the authentication server and the home location register of the portable internet network through the inter-network interworking device to authenticate the forwarding of the data packet and the mobile communication terminal. Characterize the location information.

Preferably, the step (b-4) is (b-4a) the mobile communication terminal is connected to the data interface by a link control protocol to authenticate the interworking of the network, (b-4b) the data interface is And forming tunneling by connecting to the manganese interworking device through a tunneling protocol and (b-4c) connecting the manganese interworking device to receive a data packet from the access pointer.

Preferably, the step (c) comprises (c-1) terminating transmission of the tunneling packet transmitted from the data interface of the mobile communication network by the network interworking device to forward the data; and (c-2) the manganese. The companion device converts the tunneling packet into an IP packet and routes the packet to an access point of the portable Internet network.

Preferably, the step (c) includes (c-1) receiving the IP packet routed from the access point of the portable Internet network by the manganese interworking device and (c-2) mounting the IP packet on the tunneling. And transmitting to the data interface of the mobile communication network.

Hereinafter, a preferred embodiment of an interlocking system according to the present invention with reference to the accompanying drawings in more detail.

1 is a conceptual diagram illustrating an interworking system according to an embodiment of the present invention. As shown in FIG. 1, the system for interworking the mobile communication network 200 and the portable Internet network 400 may allow the mobile communication terminal 100 moving the network to handoff data packets without being interrupted. Using a simple IP for allocating a predetermined IP address to the mobile communication terminal 100 by a source-based service such as a PPP service, and forwarding a data packet transmitted from the mobile communication network 200 or the portable Internet network 400. By forming a tunneling with the mobile communication network 200 or the portable Internet network 400 by a tunneling protocol according to the request for, it includes a manganese interworking device 300 for interworking the manganese.

Here, the mobile communication network 200 may be a synchronous scheme such as CDMA 2000-1x, 3x, or an asynchronous scheme such as Wideband Code Division Multiple Access (WCDMA) or GPRS (General Packet Radio Service). Is done. In addition, the mobile communication network 200 may be provided with a heterogeneous mobile communication network 500 which is provided with an IP backbone network and interoperates with each other. In the following, the mobile communication network 200 is limited to the WCDMA network 220 in order to describe the present invention in more detail.

2 is a conceptual diagram illustrating a system when the mobile communication network 200 illustrated in FIG. 1 is a WCDMA network 220. As shown in FIG. 1, the system is dynamically allocated to a mobile communication terminal 100 of a subscriber subscribed to an inter-network interworking service that enables the mobile communication terminal 100 to move handover smoothly. It uses a simple IP that efficiently uses IP resources by providing an IP address, and connects with the data interface 210 of the WCDMA network 220 or the access point 410 of the portable Internet network 400 to perform tunneling by the tunneling protocol. By forming a, the manganese interlock device 300 for interlocking the manganese.

The data interface 210 corresponds to a Gateway GPRS Support Node (GGSN) 221 (WGSDMA) in the WCDMA network 220, and a PDSN (Packet Data Support Node) plays a role in the CDMA 2000 network. When the mobile communication terminal 100 moves from the WCDMA network 220 to the portable internet network 400, the inter-working interworking device 300 is connected to the mobile internet network 400 due to the mobile communication terminal 100. Tunneling is performed to form a virtual tunnel for transmitting and receiving predetermined data information without being influenced by the access point 410 and the tunneling protocol.

The manganese interworking device 300 that has undergone the tunneling process is connected to the GGSN 221 in the WCDMA network 220 to request forwarding of the data packet being transmitted before the mobile communication terminal 100 is handed off. The GGSN 221 transmits the data packet transmitted in response to the request to the mobile communication terminal 100 via the access point 410 via the tunneling.

In addition, the mobile communication terminal 100 is connected to the access point 410 before establishing the tunneling by the network interworking device 300, the home location register and the authentication server 224 belonging to the WCDMA network 220 As a result, the mobile communication terminal 100 forwards the location information before the handoff and the data packet being transmitted and is authenticated to use the network. After the authentication process, the mobile communication terminal 100 dynamically receives an IP address from a DHCP server (DHCP) provided in the WCDMA network 220 (hereinafter referred to as 'DHCP'; Send and receive data packets.

When the mobile communication terminal 100 moves from the portable Internet network 400 to the WCDMA network 220, the inter-working interworking device 300 operates in the WCDMA network 220 interworking due to the mobile communication terminal 100. Tunneling is performed to form a virtual tunnel for transmitting and receiving predetermined data information without being influenced by the GGSN 221 and the tunneling protocol.

The manganese interworking device 300 which has undergone the tunneling process is connected to the access point 410 in the portable Internet network 400, and requests forwarding of the data packet being transmitted before the mobile communication terminal 100 is handed off. The data packet transmitted by the access point 410 in response to the request is transmitted to the mobile communication terminal 100 through the GGSN 221 via the tunneling.

In addition, the mobile communication terminal 100 establishes a call with the WCDMA network 220 before forming tunneling by the network interworking device 300, and uses a Point to point protocol, Hereinafter referred to as 'PPP' session should be established. Accordingly, the mobile communication terminal 100 connects to a Serving GPRS Support Node (SGSN) of the WDCMA network (hereinafter referred to as 'SGSN'; 222) and connects to the GGSN 221 through an interworking device 300 interworking with the mobile. The communication terminal 100 accesses the home location register and the authentication server 530 belonging to the mobile Internet network 400 which is a network before the mobile terminal 100 moves. In this way, the mobile communication terminal 100 is connected to the home location register and the authentication server 530 to establish a call by receiving the location information and authentication of the mobile communication terminal 100 for forwarding data packets.

In addition, based on the set call, a PPP session procedure for transmitting and receiving data packets is performed through a point-to-point protocol. The IP address is dynamically allocated to the mobile communication terminal 100 by IPCP (Internet Protocol Control Protocol) while the PPP connection point is connected to the mobile communication terminal 100.

Furthermore, the above-mentioned tunneling protocol is preferably made of Layer 2 Tunneling Protocol (L2TP) tunneling at the OSI 2 layer.

Hereinafter, with reference to the accompanying drawings will be described in more detail with respect to the operation of the interlock system according to the present invention.

FIG. 3 is a flowchart illustrating an operation process of a system when the mobile communication terminal 100 illustrated in FIG. 2 moves from the WCDMA network 220 to the portable Internet network 400. As shown in FIG. 3, a method for interworking a network between a mobile communication terminal 100 that has been performing data communication in a WCDMA network 220 to a portable Internet network 400 may include moving the mobile communication terminal 100. Data communication interworking with the base station 223 of the WCDMA network 220, which is the entire network, is lost, and a call connection is attempted with the access point 410 serving as the base station in the mobile Internet network 400, which is the mobile network (S100).

In addition, the mobile communication terminal 100 attempts to make a call connection with the access point 410, and a call processing procedure proceeds, and the access point 410 interworks with manganese based on terminal information transmitted from the mobile communication terminal 100. From the home location register and the authentication server 224 of the WCDMA network 220 via the device 300, the location information of the mobile communication terminal 100 and the data packet transmitted and received by the mobile communication terminal 100 in data communication The procedure for receiving authentication for forwarding is in progress (S102).

When the authentication procedure for forwarding the data packet from the home location register and the authentication server 224 is completed, the mobile communication terminal 100 dynamically obtains an IP address from the DHCP server 225 provided in the WCDMA network 220. In step S104, the allocation process is performed in association with the WCDMA network 220 to request forwarding of the data packet.

The access point 410 by the IP address is a virtual tunnel for transmitting a data packet transmitted from the mobile communication terminal 100 of the portable internet network 400 by interworking with the network interworking device 300 by a tunneling protocol. Run the tunneling process to form a. When the tunneling process is completed, the network interworking device 300 interworks with the GGSN 221 belonging to the WCDMA network 220 (S106).

In addition, the network interworking device 300 receives the data packet that the mobile communication terminal 100 is in data communication from the GGSN 221, terminates the movement of the received data packet and the data packet is the virtual The conversion process is performed so that it can be communicated through the tunnel without being influenced by the outside. By the above process, the WCDMA network 220 and the portable Internet network 400 interwork with each other, and the mobile communication terminal 100 is handed off. The mobile communication terminal 100 transmits a data packet that was being transmitted before the movement from the GGSN 221. Forwarding and transmitting and receiving data packets without interruption of data communication during movement (S108).

FIG. 4 is a flowchart illustrating an operation process of a system when the mobile communication terminal 100 illustrated in FIG. 2 moves from the portable Internet network 400 to the WCDMA network 220. As shown in FIG. 4, a method for interworking networks when the mobile communication terminal 100 that has been communicating data in the portable Internet network 400 moves to the WCDMA network 220 is performed by the mobile communication terminal 100. By moving to the network 220, the mobile communication terminal 100 is disconnected from the access pointer of the mobile Internet network 400, which is the network before moving, and wirelessly communicates with the base station 223 belonging to the WCDMA network 220 A process of transmitting and receiving a call signal for establishing a call with the SGSN 222 is performed. The call establishment process is caused by the connection of a radio communication control (RRC) and a wireless communication link between the mobile communication terminal 100 and the SGSN.

In addition, the mobile communication terminal 100 attempts to make a call connection with the SGSN 222 and the mobile Internet which is the network before moving through the manganese interworking device 300 to authenticate the terminal information stored in the mobile communication terminal 100. It is connected to the home location register and the authentication server 530 belonging to the network (400). The procedure for receiving the authentication information for forwarding the location information of the mobile communication terminal 100 from the home location register and the authentication server 530 and the data packet transmitted and received by the mobile communication terminal 100 is in communication When the authentication is confirmed, a call for data communication between the mobile communication terminal 100 is established in the WCDMA network 220 (S200).

A procedure for setting up a PPP session for establishing both points for the mobile communication terminal 100 to perform data communication based on the call is performed. In order to establish the PPP session, when the mobile communication terminal 100 requests an active Packet Data Protocol (hereinafter referred to as 'PDP') for transmitting and receiving data packets to the SGSN 222, the SGSN 222 Send a request to the GGSN 221 to generate, by the packet data protocol, a PDP responsive to the active PDP. Accordingly, the GGSN 221 is an authentication protocol for authenticating the forwarding of the data packet by accessing the home location register and the authentication server 530 belonging to the portable Internet network 400 via the manganese interworking device 300. Requests the operation of RADIUS (Remote Authentication Dial-in User Service).

At the request of the GGSN 221, the home location register and the authentication server 530 transmit a response to the RADIUS to the GGSN 221, and the GGSN 221 is a mobile communication terminal by the authentication server 530 ( The PDP generated by authentication of connection 100 and data packet forwarding is transmitted to the SGSN 222. Accordingly, the PPP session procedure is completed by transmitting the activated PDP to the mobile communication terminal 100 by the SGSN 222 (S202).

After the setting of the PPP session is completed, a tunneling process for interworking with the mobile Internet network 400 by the mobile communication terminal 100 performing data communication in the WCDMA network 220 is performed. In the tunneling process, the mobile communication terminal 100 performs a process of authenticating by establishing a link between the GGSN 221 and the layer due to the Link Control Protocol (LCP), and the GGSN 221 undergoes the authentication process. In cooperation with 300, tunneling is formed to form a virtual tunnel for allowing a data packet to pass through a set point without being influenced by the outside. After the tunneling is formed, the manganese interworking device 300 proceeds with the access point 410 belonging to the portable internet network 400.

After the virtual tunnel is formed by the tunneling, an IP address is dynamically allocated to the mobile communication terminal 100 by IPCP in order to establish a PPP connection with a point for the mobile communication terminal 100 to access (S204). .

The mobile communication terminal 100 for data communication due to the IP address is connected to the access point 410 of the mobile Internet network 400, which is the mobile network, and requests forwarding of the data packet being transmitted before the mobile terminal. The IP packet, which is a data packet routed by the access point 410, is transmitted to the manganese interworking device 300. The manganese interworking device 300 terminates the movement of the received IP packet, forms a tunneling packet for the IP packet, and executes a process of transmitting the IP packet to the GGSN 221 through a virtual tunnel. Accordingly, the mobile communication terminal 100 can receive a data packet transmitted in cooperation with the portable Internet network 400 from the GGSN (221) (S206).

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. You will understand that you can.

Accordingly, in the present invention, by providing a manganese interworking device for implementing a service for interworking a mobile communication network and a portable internet network based on a simple IP, a user using a portable internet capable of transmitting and receiving data packets at high speed is portable. The service can be provided seamlessly even if the user is out of the Internet service area, so that the user can not only improve user convenience, but also contribute to the proliferation of portable Internet services, and also provide a portable Internet network for service continuity to areas where high-speed data transmission is not required. It is possible to prevent overlapping investment to expand the network, and the interworking between networks enables the service user to receive various application services provided by each network.

Claims (18)

In the system for transmitting and receiving data packets between different mobile communication networks, A mobile Internet network interworking with the public Internet of the mobile communication network in order to wirelessly transmit and receive the data packet at a high speed in a predetermined area; And Based on the simple IP in the interworking service to allow the mobile communication terminal to handoff without interrupting the data communication being transmitted, the network-to-network communication is performed through tunneling formed with the data interface of the mobile communication network or the access point of the portable Internet network. A system for interworking with a mobile communication network and a portable Internet network, characterized in that it comprises a network interworking device for transmitting and receiving data packets. The method of claim 1, wherein the mobile communication network, A system for interworking with a mobile communication network and a portable Internet network, characterized in that the communication network of the synchronous or asynchronous method. The method of claim 2, wherein the asynchronous communication network, A system for interworking a mobile communication network and a portable Internet network, characterized in that the WCDMA network. The method of claim 1, wherein the mobile communication network, Dynamically allocating an IP address to the mobile communication terminal in a point-to-point connection method using a point-to-point protocol (PPP) service, such as a point-to-point protocol (PPP) service, so that the mobile communication terminal can move data based on a simple IP A system for interworking between a mobile communication network and a portable internet network. According to claim 1, The manganese interlock device, When the mobile communication terminal moves from the mobile communication network to the portable internet network, a virtual tunnel for transmitting and receiving data packets with the access point by a tunneling protocol is formed for interworking between the mobile communication network and the portable internet network. system. The method of claim 5, wherein the manganese interlock device, Terminating transmission of the tunneling packet transmitted from the data interface by the tunneling protocol, and transmitting the IP packet for the tunneling packet to an access point of the portable internet network. System. According to claim 1, The manganese interlock device, When the mobile communication terminal moves from the portable Internet network to the mobile communication network, the mobile communication network and the portable Internet network interworking to form a virtual tunnel for transmitting and receiving the data interface and the data packet by a tunneling protocol System. The method of claim 7, wherein the manganese interlock device, And receiving the IP packet routed from the access point by the mobile communication terminal through tunneling and transmitting the IP packet to the data interface. The method of claim 5 or 7, wherein the tunneling protocol, A system for interworking with a mobile communication network and a portable Internet network, characterized in that the L2TP (Layer 2 Tunneling Protocol) tunneling in the OSI 2 layer. According to claim 1, The manganese interlock device, When the mobile communication terminal is handed off, the mobile communication network and the mobile Internet network interworking system, characterized in that for transmitting the information about the network to which the mobile communication terminal moves to the previous network.  The method of claim 1, wherein the data interface, GGSN (Gateway GPRS Support Node) or PDSN (Packet Data Support Node) characterized in that the system for interworking with a mobile communication network and a mobile Internet network. In a method for transmitting and receiving data packets in conjunction with a mobile communication network and a portable Internet network, (a) handing off a mobile communication terminal between the mobile communication network and the portable Internet network; (b) setting a tunneling for a certain transmission period of a data packet by a manganese interworking device provided for interworking with the manganese to make the handoff based on a simple IP; And (c) forwarding the data packet from a previous network through a tunnel generated by the tunneling, by the mobile communication terminal moving the network between the mobile communication network and the portable Internet network. Way. The method of claim 12, wherein step (b) comprises: (b-1) when the mobile communication terminal moves from the mobile communication network to the portable internet network, connecting the mobile communication terminal to an access point of the portable internet network; (b-2) receiving, by the mobile communication terminal, authentication for forwarding of the data packet from an authentication server belonging to the mobile communication network through the inter-network interworking device; (b-3) dynamically assigning and setting an IP address to the mobile communication terminal for allowing the data packet to pass through the portable Internet network by a DHCP server of the portable Internet network due to the authentication; And (b-4) by the manganese interworking device forming a tunneling with the access point by a tunneling protocol by a manganese interworking request of the access point due to the IP address. How to work together. The method of claim 12, wherein step (b) comprises: (b-1) when the mobile communication terminal moves from the portable Internet network to the mobile communication network, executing the call connection with the mobile communication network; (b-2) establishing, by the call, the PPI session for routing the Internet by the mobile communication terminal; (b-3) requesting, by the mobile communication terminal, the mobile communication network for authentication for interworking between networks based on the PPP session; (b-4) after the authentication is performed, forming tunneling by a tunneling protocol between the data interface of the mobile communication network and the interworking device between the network; And (b-5) wherein the network interworking device is connected to an access point of the portable Internet network, and the IP address dynamically assigned to the mobile communication terminal is set by the PPP session. Method for interworking of portable internet network. The method of claim 14, wherein step (b-1), The mobile communication terminal is connected to the authentication server and the home location register of the portable Internet network through the inter-network interworking device to verify the authentication of the forwarding of the data packet and the location information of the mobile communication terminal Method for interworking with mobile internet network. The method of claim 14, wherein (b-4) is, (b-4a) the mobile communication terminal being connected to the data interface by a link control protocol to authenticate network interworking; (b-4b) the data interface connecting with the network interworking device by the tunneling protocol to form tunneling; And (b-4c) connecting by the network interworking device to receive a data packet from the access pointer. The method of claim 12, wherein step (c) comprises: (c-1) terminating transmission of the tunneling packet transmitted from the data interface of the mobile communication network by the network interworking device to forward the data; And and (c-2) converting the tunneling packet into an IP packet and routing the tunneling packet to an access point of the portable internet network by the network interworking device. The method of claim 12, wherein step (c) comprises: (c-1) receiving the IP packet routed from an access point of the portable Internet network by the network interworking device; And (c-2) mounting the IP packet in the tunneling and transmitting the IP packet to a data interface of the mobile communication network.

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