KR100790469B1 - The method for handoff without packet loss in vertical handoff environment between different network, and mobile communication device for the same - Google Patents

Abstract

A handoff method for no packet loss in a vertical handoff environment between heterogeneous networks and a mobile node device for the same are provided to prevent a packet loss due to a network change in a vertical handoff between heterogeneous networks by receiving all the data packets forwarded to a previous communication channel. Moving from the coverage of the first network to the coverage of the second network, an MN(Mobile Node) attempts a connection with a new FA(Foreign Agent) while maintaining a communication channel with an old FA(S301-S304). The MN transmits an MIP(Mobile IP) registration request message to the new FA(S305). In this case, data packets from a CN(Correspondent Node) are forwarded to the old FA through a HA(Home Agent). As the MN is still maintaining the communication channel with the old FA, the data packets forwarded to the old FA are all delivered to the MN without any packet loss(S306). The new FA forwards the MIP registration request message to the HA(S307). The HA forwards an MIP registration reply message to the MN through the old FA(S308). Receiving the MIP registration reply message, the MN releases the communication channel with the old FA(S309).

Description

The method for handoff without packet loss in vertical handoff environment between different networks, and mobile communication device for the same}

1 is a diagram for explaining handoff between heterogeneous networks.

2 is a diagram illustrating packet loss occurring in a conventional heterogeneous handoff procedure.

3 is a flowchart illustrating a handoff method for packet loss in a vertical handoff environment between heterogeneous networks according to the present invention.

4 is a block diagram illustrating a configuration of a mobile terminal device according to the present invention.

* Explanation of symbols on the main parts of the drawing

101: mobile node (MN)

104: FA (old Foreign Agent) before handoff

105: new foreign agent after handoff

106: Home Agent

107: Correspondence Node (CN)

The present invention relates to a handoff method for packet loss in a vertical handoff environment between heterogeneous networks and a mobile terminal device for the same. More specifically, the packet loss due to the network change is not generated during vertical handoff between heterogeneous networks. The present invention relates to a handoff method capable of providing a network service without a network, and a mobile terminal device for the same.

The Internet Engineering Task Force (IETF) Working Group, an international standardization organization, has standardized Mobile IP to ensure IP connectivity of mobile nodes (MNs). Mobile IP is a protocol that guarantees seamless service of IP sessions through handoff between heterogeneous networks even when a terminal moves out of the current network area to another network area by supporting handoff between IP networks.

1 is a diagram for explaining handoff between heterogeneous networks.

Referring to FIG. 1, when a mobile node (MN) 101 in the A network region 102 moves to the B network region 103, an existing FA (old foreign agent, hereinafter “oFA”) is referred to. 104 is handed off to the new FA (new Foreign Agent, hereinafter 'nFA') 105, the oFA 104 is the Home Agent (HA) 106 to MIP (Mobile IP) After the registration procedure, subsequent data packets are delivered to the mobile station (MN) 101 through the nFA 105.

However, in this handoff procedure between heterogeneous networks, the HA 106 transmits a data packet to an existing oFA 104 during the time until the MN 101 receives a MIP registration completion message from the HA 106. In this case, since the mobile terminal (MN) 101 has already moved to the B network area 103 and the communication channel with the oFA 104 is released, this causes packet loss, which is described with reference to FIG. 2. In more detail as follows.

2 is a diagram illustrating packet loss occurring in a conventional heterogeneous handoff procedure.

First, when the mobile terminal (MN) 101 is connected to the oFA 104 of the A network area 102 as in step S201, the mobile terminal (MN) 101 is generated from the counterpart node CN in step S203. The received data packet via HA 106 and oFA 104.

Then, as the mobile terminal (MN) 101 moves to the B network area 103 at step S205, the communication channel with the oFA 104 is released, and the mobile terminal (MN) 101 is connected to the B network at step S207. An attempt is made to connect with the nFA 105 in the region 103 to form a communication channel.

Next, when the mobile terminal (MN) 101 transmits a MIP registration request message to the nFA 105 in step S209, the nFA 105 forwards the MIP registration request to the home agent (HA) 106 in step S211. In step S213, the HA 106 delivers a MIP Registration Reply message to the mobile terminal (MN) 101 through the nFA 105.

However, as in step S210, the data packet generated from the counterpart node CN before receiving the MIP registration complete message from the HA 106 is transferred to the existing oFA 104, i.e., registration to the new nFA 105 is performed. Until the completion of the data packet is transmitted to the existing oFA (104), the mobile terminal (MN) 101 and oFA (104) is already in a communication channel is released because of this packet loss occurs.

In other words, when a user receiving a video service through a network moves and needs to use a different type of network, vertical handoff is performed between heterogeneous networks, so that the video service is seamlessly used during the vertical handoff. In order to prevent such packet loss in the pre-registration handoff scheme, a scheme is required.

Accordingly, an object of the present invention is to provide a handoff method capable of providing a seamless service by preventing packet loss due to vertical handoff between heterogeneous networks, and a mobile terminal apparatus for the same.

In order to achieve the above object, a handoff method for packet loss in a vertical handoff environment between heterogeneous networks according to the present invention includes: (a) communicating with an old foreign agent (oFA) before the handoff during vertical handoff between heterogeneous networks; Establishing a communication channel with the new foreign agent (nFA) after the handoff while maintaining a channel; (b) a mobile IP (MIP) registration request message through a communication channel with the new foreign agent (nFA) after the handoff; Transmitting to the home agent (HA), (c) delivering a MIP registration completion message to the mobile terminal through an old foreign agent (oFA) communication channel before the handoff, and (d) at the mobile terminal. Receiving the MIP registration complete message to release an old foreign agent (oFA) communication channel prior to the handoff; and (e) receiving a MIP registration complete message from the counterpart node through the new foreign agent (nFA) communication channel after the handoff. In that it comprises the step of providing the data packet to the mobile station it is characterized.

On the other hand, in order to achieve the above object, the mobile terminal device according to the present invention, the connection management unit for forming a communication channel with the nFA after the handoff while maintaining a communication channel with the oFA before the handoff during vertical handoff between heterogeneous networks A packet control unit for transmitting and receiving data packets through an oFA communication channel before the handoff or an nFA communication channel after the handoff under control of the access management unit, and a MIP management unit performing a MIP registration procedure under the control of the connection management unit; When the MIP registration completion message is received through the oFA communication channel before the handoff, the access manager releases the oFA communication channel before the handoff and transmits and receives the data packet through the nFA communication channel after the handoff. And controlling the control unit.

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

3 is a flowchart illustrating a handoff method for packet loss in a vertical handoff environment between heterogeneous networks according to the present invention.

For convenience of description, when the mobile terminal (MN) 101 moves out of the A network area 102 to the B network area 103 in the network system as shown in FIG. 1, the new nFA 105 is changed from the existing oFA 104. As an example, vertical handoff is performed between heterogeneous networks.

Referring to FIG. 3, first, when the mobile terminal (MN) 101 is connected to the oFA 104 to form a communication channel as in step S301, the mobile terminal (MN) 101 is a counterpart node as in step S302. The data packet generated from the (CN) is received via the oFA 104 via the HA 106.

Then, as in step S303, even if the mobile terminal (MN) 101 moves to the B network area 103, the communication channel with the oFA 104 is maintained.

Next, in step S304, the mobile terminal (MN) 101 attempts to connect with the nFA 105 while maintaining the communication channel with the oFA 104 to form a communication channel.

Next, in step S305, the mobile terminal (MN) 101 sends a MIP registration request message to the nFA 105.

At this time, since the communication channel between the mobile station (MN) 101 and the oFA 104 is maintained as in step S306, data packets from the counterpart node CN are transferred to the oFA 104 through the HA 106. It is delivered to the mobile terminal (MN) 101, and thus no packet loss occurs.

Next, in step S307, the nFA 105 forwards the MIP registration request to the HA 106, and in step S308, the HA 106 sends a MIP registration reply message through the oFA 104 to the mobile terminal (MN). To 101).

Next, the mobile terminal (MN) 101 receiving the MIP registration complete message in step S309 releases the communication channel with the oFA 104.

When such vertical handoff between heterogeneous networks is completed, the mobile terminal (MN) 101 receives data packets from the counterpart node CN through the HA 106 and the nFA 105 as in step S310. .

As described above, the MIP registration complete message generated in the HA 106 is transmitted through the communication channel before handoff while maintaining both network communication channels before and after handoff during vertical handoff between heterogeneous networks. When the mobile terminal (MN) 101 receives the MIP registration complete message, it releases the communication channel before the handoff, thereby receiving all the packets transmitted to the communication channel before the handoff. Accordingly, packet loss due to vertical handoff between heterogeneous networks is not generated.

Hereinafter, an example of a mobile terminal apparatus performing handoff without packet loss in a vertical handoff environment between heterogeneous networks according to the above-described embodiment of the present invention will be described.

4 is a block diagram illustrating a configuration of a mobile terminal device according to the present invention.

As shown in FIG. 4, the mobile terminal device according to the present invention includes a connection manager 401, a packet controller 403, and a MIP manager 405. The mobile terminal device is a wireless Internet as shown in FIG. 1. It is preferable that the terminal device, such as a mobile phone, PDA, notebook computer capable of free movement between heterogeneous networks in the environment.

The connection manager 401 connects and releases a communication channel with each network, and the packet controller 403 is a network before handoff or a network after handoff under the control of the connection manager 401. Performs the function of sending and receiving data packets.

The MIP manager 405 performs a MIP registration procedure under the control of the access manager 401 and transmits a MIP registration result to the access manager 401.

That is, the mobile terminal device according to the present invention maintains both network communication channels before and after handoff through the connection management unit 401 at the time of vertical handoff between heterogeneous networks, and via the packet control unit 403 for both network communication channels. It is configured to receive all data packets transmitted to the communication channel before the handoff by transmitting and receiving a data packet from the MIP management unit 405, and releases the communication channel before the handoff when the MIP registration completion message is received. Accordingly, even when vertical handoff between heterogeneous networks is performed, seamless service may be provided.

So far, the present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention belongs may be embodied in a modified form without departing from the essential characteristics of the present invention. You will understand. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

As described above, according to the present invention, since all the data packets delivered to the communication channel before the handoff can be received as compared with the conventional pre-registration handoff scheme, packet loss due to network change during vertical handoff between heterogeneous networks is reduced. There is an effect that it is possible to provide a seamless service is not generated.

Claims (7)

(a) forming a communication channel with a new foreign agent (nFA) after the handoff while maintaining a communication channel with an old foreign agent (oFA) before the handoff during vertical handoff between heterogeneous networks; (b) transmitting a Mobile IP (MIP) registration request message to a home agent (HA) through a communication channel with the nFA after the handoff; (c) delivering, at the HA, a MIP registration complete message to a mobile terminal through an oFA communication channel before the handoff; (d) receiving the MIP registration complete message at the mobile terminal to release the oFA communication channel before the handoff; And (e) providing a packet of data from a counterpart node to the mobile terminal through the nFA communication channel after the handoff to handoff for packet loss in a vertical handoff environment between heterogeneous networks. delete The method of claim 1, wherein in step (d), And before the MIP registration complete message is received, providing a packet of data from a counterpart node to the mobile terminal through an oFA communication channel prior to the handoff. Handoff method. A connection manager configured to form a communication channel with the nFA after the handoff while maintaining a communication channel with the oFA before the handoff during a vertical handoff between heterogeneous networks; A packet control unit for transmitting and receiving data packets through an oFA communication channel before the handoff or an nFA communication channel after the handoff according to the control of the connection manager; And Includes a MIP management unit for performing a MIP registration procedure under the control of the access management unit, The connection management unit, When the MIP registration completion message is received through the oFA communication channel before the handoff, the packet control unit is controlled to release and transmit the data packet through the nFA communication channel after the handoff after releasing the oFA communication channel before the handoff. A mobile terminal device. delete The method of claim 4, wherein the connection management unit, And before the MIP registration complete message is received, controlling the packet controller to transmit and receive a data packet through an oFA communication channel before the handoff. The mobile terminal device of claim 4, wherein the mobile terminal device comprises at least one of a mobile phone, a PDA, and a notebook computer.

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