KR100893059B1 - Method for providing packet service while hand-over between different kinds networks and mobile communication terminal for the same - Google Patents

Abstract

A packet service method in the handover between heterogeneous networks and a mobile communication terminal therefor are provided to prevent the service from being interrupted although an IP address is changed due to the change of a connection network. A communication control module firstly assigns a virtual IP(Internet Protocol) to a terminal(S301). When an application module requests packet data transmission/reception with a traffic server by using the virtual IP(S313-a), the communication control module converts the corresponding virtual IP into an IP_A(S313-b) to communicate with the traffic server(S313-c). The communication control module receives packets next to the previously received packet(S325-b,S325-c).

Description

Method for Providing Packet Service While Hand-Over Between Different Kinds Networks and Mobile Communication Terminal for the Same}

The present invention relates to a handover between heterogeneous networks, and more particularly, to a packet service method for heterogeneous network handover for providing a seamless packet service when a handover occurs to a second mobile communication network while performing a packet service in a first mobile communication network. And it relates to a mobile communication terminal for this.

In order to perform handover between heterogeneous networks, many modifications of a system and a terminal are required, and for this, a system and a terminal conforming to international standards are essential.

In particular, when a base station is changed or a network is changed, handover is possible only through a network interface. Therefore, handover between heterogeneous networks is inevitably complicated. In case of packet service, a delay occurs in the process of performing a heterogeneous network handover. Changes the IP, resulting in service interruption.

In fact, when a mobile communication terminal receiving a packet service is moved from network A to network B, all packet services received from network A are disconnected, and after moving to network B, the mobile station must send a packet call again. Will receive. After that, the user presses the packet call attempt button again to connect the service to the network B. In this case, the continuity of the packet service cannot be guaranteed.

Therefore, even if the IP address is changed, it is necessary to prevent the service from being disconnected. When using the proposed handover method, there is a problem of implementing a separate node for handover such as a mobile IP server. Proposal of is required.

Accordingly, the present invention is to solve the above-mentioned disadvantages and problems of the prior art, in the case of handover between heterogeneous networks, it is possible to re-send the packet service without the network interface, even if the IP address is changed due to the change of the access network An object of the present invention is to provide a packet service method and a mobile communication terminal for heterogeneous network handover to prevent disconnection.

Particularly, the present invention enables packet service to be performed during heterogeneous network handover based on terminal software regardless of international standard standard, and thus does not require a separate handover node without service disconnection. An object of the present invention is to provide a mobile communication terminal.

The present invention for achieving the above object is an application module for executing an application using a packet data network, a communication module having a plurality of modems and the mobility, session management and communication interface between the application module and the communication module A packet service method for heterogeneous network handover in a mobile communication terminal including a communication control module, comprising: a first step of the communication control module allocating a virtual IP to a terminal; A second step of the application module requesting packet data connection to the communication control module using the virtual IP assigned to the terminal; A third step of the communication control module assigning a first IP from the first mobile communication network by connecting a session to the first mobile communication network through a first mobile communication network access modem of the communication module; When the application module requests packet data to a specific traffic server by using the virtual IP, the communication control module converts the virtual IP into the first IP and delivers the packet to the corresponding traffic server through the first mobile communication network. Transmitting a packet data received from the traffic server to the application module; When the handover to the second mobile communication network is determined according to the movement of the terminal or the change of the wireless environment, the communication control module connects the session to the second mobile communication network through the second mobile communication network access modem of the communication module to connect the session. A second step of allocating a second IP from a second mobile communication network and storing the last frame number received from the traffic server; When the application module requests the traffic server to take over packet data based on the stored frame number using the virtual IP, the communication control module converts the virtual IP into the second IP to generate the second IP. Transmitting to a corresponding traffic server through a mobile communication network to receive packet data from the next frame of the last received frame from the traffic server to the application module; It provides a packet service method for heterogeneous network handover including a.

The fifth step may include: determining, by the communication control module, a handover by measuring a wireless environment; The communication control module maintains the connection of the first mobile communication network, drives the second mobile communication network connection modem of the communication module to request connection to the second mobile communication network, and informs the application module of the handover preparation. Steps; Storing the frame number last received by the application module from the traffic server; It may include.

In this case, the fifth step may include: reporting the completion of the connection to the second mobile communication network by the communication control module when the connection to the second mobile communication network is completed; It may further include.

Further, in the fourth step, the communication control module converts the virtual IP and the first IP in real time between the application module and the communication module, so that the application module using the virtual IP uses the first IP. By using the packet data service can be provided.

Similarly, in the sixth step, the communication control module converts the virtual IP and the second IP in real time between the application module and the communication module, so that an application module using the virtual IP uses the second IP. By using the packet data service can be provided.

Another object of the present invention is to provide an application module for executing an application using a packet data network, a communication module having a plurality of modems, and mobility, session management, and communication interface between the application module and the communication module. A packet service method for heterogeneous network handover in a mobile communication terminal including a communication control module, the communication control module connecting a session to a first mobile communication network through a first mobile communication network connection modem of the communication module and A first step of assigning a first IP from a first mobile communication network; When the application module requests packet data to a specific traffic server using the first IP, the communication control module transfers the packet data received from the traffic server to the application module through the first mobile communication network. Steps; When the handover to the second mobile communication network is determined according to the movement of the terminal or the change of the wireless environment, the communication control module connects the session to the second mobile communication network through the second mobile communication network access modem of the communication module to connect the session. A second step of allocating a second IP from a second mobile communication network and storing the last frame number received from the traffic server; A fourth step of the application module requesting to take over packet data based on the stored frame number to the traffic server using the first IP; After the communication control module converts the first IP into a second IP allocated from the second mobile communication network, the communication control module transmits a request for inheriting the packet data to the corresponding traffic server through the second mobile communication network, and then, from the traffic server. A fifth step of receiving packet data from the next frame of the last received frame and delivering the packet data to the application module; It provides a packet service method for heterogeneous network handover including a.

In this case, the third step may include: determining, by the communication control module, a handover by measuring a wireless environment; The communication control module maintains the connection of the first mobile communication network, drives the second mobile communication network connection modem of the communication module to request connection to the second mobile communication network, and informs the application module that the handover is ready. Step W; Storing the frame number last received by the application module from the traffic server; It may include.

The third step may further include: reporting completion of connection to the second mobile communication network by the communication control module when the connection to the second mobile communication network is completed; It may further include.

In the fifth step, the communication control module converts the first IP and the second IP in real time between the application module and the communication module, so that the application module using the first IP uses the second IP. By using the packet data service can be provided.

Another object of the present invention is to provide a mobile communication terminal for providing a seamless packet service when an IP address changes due to heterogeneous network handover, and executes an application using a packet data network. An application module for providing a packet service using a fixed IP regardless of a change in an IP address to follow; A communication module having a modem for accessing a plurality of mobile communication networks and receiving packet data from a traffic server using an IP allocated in an actual mobile communication network; And responsible for mobility, session management, and communication interface between the application module and the modem, and performs an real-time conversion between a fixed IP used in the application module and an IP allocated in an actual mobile communication network, thereby using an application module using the fixed IP. A communication control module configured to receive a packet data service using a communication module using an IP allocated in an actual mobile communication network; It provides a mobile communication terminal comprising a.

In this case, the application module receives the packet data from a specific traffic server through the first mobile communication network, and if a handover is determined from the first mobile communication network to the second mobile communication network while performing packet service, the application module determines the first mobile communication network. It is preferable to store the frame number last received from the traffic server through, and request handover of the packet data to the traffic server based on the stored frame number when the handover is completed.

The communication control module may include: a mobility management module configured to manage mobility of the terminal, determine whether to handover according to a predetermined criterion, and manage a session connection state; A session management module for performing session establishment and release under the control of the mobility management module; A TCP / IP layer for processing a protocol for providing a packet data service; A device driver that controls each modem of the communication module and performs real-time conversion between a fixed IP used in the application module and an IP allocated in an actual mobile communication network; It may include.

In this case, the device driver may allocate a virtual IP as a fixed IP to be used by the mobile communication terminal and perform real-time conversion between the virtual IP and the IP allocated in the actual mobile communication network.

In addition, the device driver may use the initially allocated IP as a fixed IP in the actual mobile communication network.

Another object of the present invention for achieving the above object is a mobile communication terminal for providing a seamless packet service upon IP address change due to heterogeneous network handover, and executes an application using a packet data network, and is internally allocated by the terminal. An application module for providing a packet service using a virtual IP; A communication module having a modem for accessing a plurality of mobile communication networks and receiving packet data from a traffic server using an IP allocated in an actual mobile communication network; And responsible for mobility, session management, and communication interfaces between the application module and the modem, assigning a virtual IP to a terminal, and performing real-time conversion between a virtual IP used in the application module and an IP allocated in an actual mobile communication network. A communication control module for allowing an application module using the virtual IP to receive a packet data service using a communication module using an IP allocated in an actual mobile communication network; It provides a mobile communication terminal comprising a.

The communication control module may include: a mobility management module configured to manage mobility of a terminal, determine whether to handover according to a predetermined criterion, and manage a session connection state; A session management module for performing session establishment and release under the control of the mobility management module; A TCP / IP layer for processing a protocol for providing a packet data service; A device driver for controlling each modem of the communication module, assigning a virtual IP to a terminal, and performing real-time conversion between a virtual IP used in the application module and an IP allocated in an actual mobile communication network; It may include.

Therefore, according to the packet service method and the mobile communication terminal for heterogeneous network handover according to the present invention, it is possible to re-send the packet service without inter-network interface during the heterogeneous network handover, even if the IP address is changed due to the change of the access network. It has the effect of not being disconnected.

In addition, according to the present invention, since packet service is performed during handover between heterogeneous networks based on terminal software, not only a separate handover node implementation is required, but also a seamless service can be provided without changing an international standard. There is an advantage that it can.

Details of the above object and technical configuration of the present invention and the resulting effects thereof will be more clearly understood from the following detailed description based on the accompanying drawings.

First, Figure 1 is a network configuration for explaining the present invention.

The present invention relates to the operation of the mobile communication terminal 100 to solve the call disconnection problem that occurs in the case of packet handover, the terminal during the communication with the traffic server 200 by accessing the IP network through the first mobile communication network When the terminal 100 performs a handover to the second mobile communication network according to the movement of the mobile terminal or the change of the wireless environment, even if the second mobile communication network allocates a new IP address, the application in the terminal 100 has the old IP address. By using it as it is to be able to take over the packet data received from the traffic server 200.

Looking at the configuration and operation of the mobile communication terminal 100 of the present invention for this purpose as follows.

As shown, the mobile communication terminal 100 of the present invention includes an application module 110 for executing an application using a packet data network, a communication control module 120 for performing mobility and session management, and a plurality of modems. It is configured to include a communication module 130.

The application module 110 uses a fixed IP irrespective of the change of the access network, and if the session is connected to the second mobile communication network again after disconnection with the first mobile communication network, the next part of the data received through the first mobile communication network From the second mobile communication network has a resumption function to be able to take over, for this purpose, if the handover is determined, the frame number of the last received packet, and after the handover is completed, the packet to the traffic server 200 It transmits the frame number of the next packet to be received upon request.

The communication control module 120 is a module for internally allocating a virtual IP to a terminal so that the application module 110 can use a fixed virtual IP regardless of an access network change. The mobility management module 121 and a session management module 122, the TCP / IP layer 123, and the device driver 124.

The mobility management module 121 manages mobility of the terminal, determines whether to handover based on a predetermined criterion such as signal strength, and manages a session connection state.

In addition, when the handover from the first mobile communication network to the second mobile communication network is determined, the mobility management module 121 notifies the application module 110 that the handover is ready, and the application module 110 of the packet received last. The frame number is memorized, and when the handover is completed, the connection completion report is reported so that the application module 110 performs the inheritance function.

The session management module 122 is responsible for performing session establishment and release according to the request of the mobility management module 121.

The TCP / IP layer 123 is a layer for processing a protocol for providing a packet data service. The TCP / IP layer 123 uses a general protocol used in a packet data network as it is, and is not limited to the TCP / IP protocol.

The device driver 124 controls each modem of the communication module 130, allocates a virtual IP to the terminal, and performs a real-time conversion between the virtual IP used in the application module 110 and the IP allocated in the actual mobile communication network. It plays a role.

That is, in the present invention, the device driver 124, even if the IP is changed due to the change of the access network, the application module 110 can provide a packet data service using the existing IP as it is without recognizing the fact of the IP change. For this, even if the IP is changed, the application module 110 does not provide the changed IP, and performs IP conversion on its own to control the modem.

Meanwhile, in the present invention, the virtual IP refers to an IP that can be fixedly used in the application module 110 regardless of the change of the access network, and the device driver 124 can allocate the virtual IP at the time of booting the terminal, and at the first network connection. You can also use the assigned IP as a virtual IP.

The communication module 130 includes two or more mobile communication network access modems for accessing a plurality of mobile communication networks, and receives packet data from the traffic server 200 using an IP assigned in an actual mobile communication network to control the communication control module 120. It serves to provide to the application module 110 through.

The operation of the mobile communication terminal 100 will be described with reference to FIGS. 3 and 4 as follows.

3 is a flowchart sequentially illustrating a packet service method for handover between heterogeneous networks according to an embodiment of the present invention, and illustrates an operation between the mobile communication terminal 100 and a mobile communication network and a traffic server.

As shown, the communication control module 120 first allocates a virtual IP to the terminal internally (S301). This embodiment is a case of allocating a virtual IP separate from the real IP allocated by the mobile communication network. When using the allocated IP as the virtual IP at the time of initial network access, step S301 may be omitted.

Next, when the application module 110 requests a mobile communication network (packet data network) connection using the virtual IP (S303), the communication control module 120 is a network A (first mobile communication network) of the communication module 130 A network connection is requested by the access modem (S305), and the modem connects the session to the A network and receives IP_A (S307) and transmits it to the communication control module 120 (S309).

The communication control module 120 stores the mapping relationship between the corresponding IP_A and the virtual IP, reports that the connection is completed to the application module 110 (S311), and then the application module 110 uses the virtual IP to traffic the server. When requesting packet data transmission / reception with 200 (S313-a), the communication control module 120 converts the corresponding virtual IP into IP_A in the middle (S313-b) and communicates with the traffic server 200 using IP_A. (S313-c).

Then, if the handover is determined according to the radio environment measurement result (S315), the communication control module 120 requests the B network connection to the B network (second mobile communication network) connection modem of the communication module 130 (S317). Then, the modem connects the session to the B network and receives IP_B (S319) and transmits it to the communication control module 120 (S321).

At this time, if the handover is determined, the communication control module 120 may inform the application module 110 of the handover preparation (S317-1), in which case the application module 110 receives the last received frame number or the next. It stores the frame number to request (S317-2) and waits until the handover is completed. If the communication control module 120 does not inform the handover preparation fact, the application module 110 may repeatedly request the packet data until the handover is completed.

Next, when the connection to the B network is completed, when the communication control module 120 reports that the connection is completed to the application module 110 (S323), the application module 110 receives the frame to receive using the inherit function. The packet request message including the number is transmitted to the communication control module 120 using the virtual IP (S325-a), and the communication control module 120 converts the virtual IP to IP_B (S325-b) and then the traffic server. In step 200, the first packet is received from the next packet of the previously received packet (S325-c).

On the other hand, although not shown in the drawing, when the session connection to the B network is completed and communication with the traffic server through the B network is resumed, the communication control module 120 releases the session with the A network.

As described above, in the present invention, the application module 110 uses the virtual IP even if the access network is changed, and converts the virtual IP into the real IP in the communication control module 120 so that the packet service can be provided.

Finally, FIG. 4 is a flowchart illustrating an operation of an application in a packet service method for heterogeneous network handover according to an embodiment of the present invention.

As shown, the application module 110 of the present invention provides a packet data service through the first mobile communication network using a virtual IP (S401).

After the handover to the second mobile communication network is determined (S403), the application module 110 stores the next frame number to be requested (S405), and buffers the data until the handover is completed (S407).

Subsequently, when the handover is completed (S409), the application module 110 uses the virtual IP that was previously used, regardless of the newly assigned IP address in the second mobile communication network, to start data from the frame number stored in step S405. Take over (S411) allows the user to be provided with a seamless service.

At this time, in order for the application module 110 to use the virtual IP, the communication control module 120 performs an operation of converting the virtual IP into a newly allocated IP.

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above should be understood as illustrative and not restrictive in all aspects. Should be. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

The present invention described above can be applied to a mobile communication terminal providing a packet data service through a mobile communication network or an application provided in a mobile communication terminal to provide a packet network based service, and in particular, an IP assigned to a terminal according to heterogeneous network handover. Even if the address is changed, it can be used to allow an application in the terminal to provide a service without interruption.

1 is a network diagram for explaining the present invention,

2 is a block diagram of a mobile communication terminal according to an embodiment of the present invention;

3 is a flowchart sequentially illustrating a packet service method for heterogeneous network handover according to an embodiment of the present invention;

4 is a flowchart illustrating an operation of an application in a packet service method for heterogeneous network handover according to an embodiment of the present invention.

Claims (16)

In the mobile communication terminal comprising an application module for executing an application using a packet data network, a communication module having a plurality of modems and a communication control module for mobility, session management and communication interface between the application module and the communication module As a packet service method for heterogeneous manganese handover of A first step of the communication control module assigning a virtual IP to a terminal; A second step of the application module requesting packet data connection to the communication control module using the virtual IP assigned to the terminal; A third step of the communication control module assigning a first IP from the first mobile communication network by connecting a session to the first mobile communication network through a first mobile communication network access modem of the communication module; When the application module requests packet data to a specific traffic server by using the virtual IP, the communication control module converts the virtual IP into the first IP and delivers the packet to the corresponding traffic server through the first mobile communication network. Transmitting a packet data received from the traffic server to the application module; When the handover to the second mobile communication network is determined according to the movement of the terminal or the change of the wireless environment, the communication control module connects the session to the second mobile communication network through the second mobile communication network access modem of the communication module to connect the session. A second step of allocating a second IP from a second mobile communication network and storing the last frame number received from the traffic server; When the application module requests the traffic server to take over packet data based on the stored frame number using the virtual IP, the communication control module converts the virtual IP into the second IP to generate the second IP. Transmitting to a corresponding traffic server through a mobile communication network to receive packet data from the next frame of the last received frame from the traffic server to the application module; Packet service method for heterogeneous manganese handover including a. The method of claim 1, The fifth step, Determining, by the communication control module, a handover by measuring a wireless environment; The communication control module maintains the connection of the first mobile communication network, drives the second mobile communication network connection modem of the communication module to request connection to the second mobile communication network, and informs the application module that the handover is ready. Steps; Storing the frame number last received by the application module from the traffic server; Packet service method for heterogeneous manganese handover, comprising a. The method of claim 2, The fifth step, Reporting, by the communication control module, that the connection to the second mobile communication network is completed to the application module when the second mobile communication network connection is completed; Packet service method for heterogeneous manganese handover further comprising a. The method according to any one of claims 1 to 3, In the fourth step, The communication control module converts the virtual IP and the first IP in real time between the application module and the communication module, and an application module using the virtual IP provides a packet data service using the communication module using the first IP. Packet service method for heterogeneous manganese handover, characterized in that to receive. The method according to any one of claims 1 to 3, In the sixth step, The communication control module converts the virtual IP and the second IP in real time between the application module and the communication module, and an application module using the virtual IP provides a packet data service using the communication module using the second IP. Packet service method for heterogeneous manganese handover, characterized in that to receive. In the mobile communication terminal comprising an application module for executing an application using a packet data network, a communication module having a plurality of modems and a communication control module for mobility, session management and communication interface between the application module and the communication module As a packet service method for heterogeneous manganese handover of A first step of the communication control module assigning a first IP from the first mobile communication network by connecting a session to the first mobile communication network through a first mobile communication network access modem of the communication module; When the application module requests packet data to a specific traffic server using the first IP, the communication control module transfers the packet data received from the traffic server to the application module through the first mobile communication network. Steps; When the handover to the second mobile communication network is determined according to the movement of the terminal or the change of the wireless environment, the communication control module connects the session to the second mobile communication network through the second mobile communication network access modem of the communication module to connect the second mobile communication network. A second step of allocating a second IP from a second mobile communication network and storing the last frame number received from the traffic server; A fourth step of the application module requesting to take over packet data based on the stored frame number to the traffic server using the first IP; After the communication control module converts the first IP into a second IP allocated from the second mobile communication network, the communication control module transmits a request for inheriting the packet data to the corresponding traffic server through the second mobile communication network, and then, from the traffic server. A fifth step of receiving packet data from the next frame of the last received frame and delivering the packet data to the application module; Packet service method for heterogeneous manganese handover including a. The method of claim 6, The third step, Determining, by the communication control module, a handover by measuring a wireless environment; The communication control module maintains the connection of the first mobile communication network, drives the second mobile communication network connection modem of the communication module to request connection to the second mobile communication network, and informs the application module that the handover is ready. Steps; Storing the frame number last received by the application module from the traffic server; Packet service method for heterogeneous manganese handover, comprising a. The method of claim 7, wherein The third step, Reporting, by the communication control module, that the connection to the second mobile communication network is completed to the application module when the second mobile communication network connection is completed; Packet service method for heterogeneous manganese handover further comprising a. The method according to any one of claims 6 to 8, In the fifth step, The communication control module converts the first IP and the second IP in real time between the application module and the communication module, so that an application module using the first IP uses a communication module using the second IP. Packet service method for heterogeneous manganese handover, characterized in that to be provided. A mobile communication terminal for providing a seamless packet service when changing an IP address according to heterogeneous network handover, An application module for executing an application using a packet data network and providing a packet service using a fixed IP regardless of a change in an IP address resulting from handover between heterogeneous networks; A communication module having a modem for accessing a plurality of mobile communication networks and receiving packet data from a traffic server using an IP assigned in an actual mobile communication network; And It is responsible for mobility, session management and communication interface between the application module and the modem, and performs the real-time conversion between the fixed IP used in the application module and the IP assigned in the real mobile communication network, the application module using the fixed IP is actually A communication control module configured to receive a packet data service using a communication module using an allocated IP in the mobile communication network; Mobile communication terminal comprising a. The method of claim 10, The application module, When handover is determined from the first mobile communication network to the second mobile communication network while receiving packet data from a specific traffic server through the first mobile communication network and performing a packet service, the mobile station finally receives the traffic data from the traffic server through the first mobile communication network. And storing the received frame number, and when the handover is completed, requesting the traffic server to take over the packet data based on the stored frame number. The method according to claim 10 or 11, wherein The communication control module, A mobility management module for managing mobility of the terminal, determining handover according to a predetermined criterion, and managing a session connection state; A session management module for performing session establishment and release under the control of the mobility management module; A TCP / IP layer for processing a protocol for providing a packet data service; A device driver that controls each modem of the communication module and performs real-time conversion between a fixed IP used in the application module and an IP allocated in an actual mobile communication network; Mobile communication terminal comprising a. The method of claim 12, The device driver, And assigning a virtual IP as a fixed IP to be used by the mobile communication terminal and performing real-time conversion between the virtual IP and the IP allocated in the actual mobile communication network. The method of claim 12, The device driver, A mobile communication terminal characterized by using an initially allocated IP as a fixed IP in an actual mobile communication network. A mobile communication terminal for providing a seamless packet service when changing an IP address according to heterogeneous network handover, An application module for executing an application using a packet data network and providing a packet service using a virtual IP allocated internally by a terminal; A communication module having a modem for accessing a plurality of mobile communication networks and receiving packet data from a traffic server using an IP allocated in an actual mobile communication network; And It is in charge of mobility, session management and communication interface between the application module and the modem, assigns a virtual IP to the terminal, performs a real-time conversion between the virtual IP used in the application module and the IP assigned in the real mobile communication network, A communication control module for allowing an application module using a virtual IP to receive a packet data service using a communication module using an IP allocated in an actual mobile communication network; Mobile communication terminal comprising a. The method of claim 15, The communication control module, A mobility management module for managing mobility of the terminal, determining handover according to a predetermined criterion, and managing a session connection state; A session management module for performing session establishment and release under the control of the mobility management module; A TCP / IP layer for processing a protocol for providing a packet data service; A device driver for controlling each modem of the communication module, assigning a virtual IP to a terminal, and performing real-time conversion between a virtual IP used in the application module and an IP allocated in an actual mobile communication network; Mobile communication terminal comprising a.

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