KR100590762B1 - Internet network system based IPv6 and method for detecting movement of mobile node in the same - Google Patents

Abstract

An IPv6-based internet network system and a method for detecting movement of a mobile node in the internet network system are disclosed. The IPv6 based Internet network system according to the present invention provides a mobile node, a home agent for managing access point information of the mobile node, an access router located in an area where the mobile node can communicate with the mobile node, and wireless communication between the mobile node and the access router or home agent. It includes an access point that sends the subnet identifier set in the link layer beacon to send to the mobile node by setting the subnet identifier that distinguishes the subnet to which it belongs to the mobile node, and the mobile node uses the subnet identifier transmitted from the access point. It detects its own subnet movement and sets up a new access router. As such, by setting a subnet identifier for distinguishing subnets in an access point, and placing a subnet identifier in a link layer beacon transmitted from the access point to the mobile node, the mobile node can quickly detect whether to move to another subnet. Accordingly, the handover time of the mobile node is shortened and packets lost during the handover time can be minimized.

Description

IP6-based Internet network system and a method for detecting movement of a mobile node in the Internet network system {Internet network system based IPv6 and method for detecting movement of mobile node in the same}

1 is a view schematically showing an IPv6-based IPv6-based Internet network system.

FIG. 2 is a diagram illustrating a protocol stack of mobile IPv6 in FIG. 1.

FIG. 3 is a flowchart illustrating a conventional method of detecting a movement when the mobile node 200 moves to another subnet in FIG. 1.

4 is a flowchart illustrating an embodiment of a method for detecting a movement of a mobile node according to the present invention in the IPv6 based Internet network system shown in FIG.

The present invention relates to an Internet Protocol Version 6 (IPv6) based Internet network system, and more particularly, to an IPv6-based Internet network system and method for quickly detecting that a mobile node has been moved when a mobile node moves to another subnet. will be.

1 is a diagram schematically showing an IPv6-based Internet network system.

As shown in FIG. 1, an IPv6-based internet network system includes an access router 300 and an access point having a home agent function for managing attachment point information of the mobile node of the mobile node 200. 600, 601, 602, access routers 400, 401, mobile node 200, and counter node 500. The access points 600 to 602 support wireless communication between the mobile node 200 and the access routers 400 and 401 or the home agent 300.

The mobile node 200 receives a home address (HoA) from the home agent 300 and communicates with the counterpart node 500. When the mobile node 200 moves to another subnet, the mobile node 200 performs a binding process informing the home agent 300 of a newly assigned new address (CoA: Care-of Address). Through this binding process, a bidirectional tunnel 120 is established between the home agent 300 and the access router 400 of the subnet to which the mobile node 200 belongs. The partner node 500 does not recognize the movement of the mobile node 200 and sends data to the home address. The home agent 300 is the mobile node 200 and the relative node 500 through the bidirectional tunnel 120. Enable data communication between them.

The mobile node 200 communicates with the counterpart node 500 through the bidirectional tunnel 120 and performs a binding process for notifying the counterpart node 500 of the newly assigned address (CoA), not through the bidirectional tunnel 120. It can directly communicate with the other node 500 by the optimum route 130 without.

The handover 110 detects that the mobile node 200 has moved its subnet, performs the two-way tunneling to establish the two-way tunnel, and the route optimization process to establish the optimal route, so that the mobile node 200 and the relative node 500 It is a process that allows communication without interruption between).

FIG. 2 is a diagram illustrating a protocol stack of mobile IPv6 in FIG. 1.

As shown in FIG. 2, the mobile node 200 and the counter node 500 are mobile terminals, and the protocol stack includes a physical layer, a link layer, IPv6, TCP / UDP, and an application layer. The MIPv6 protocol is provided for mobility services. It is mounted.

The home agent 300 is composed of a general IPv6 router protocol stack, a physical layer, a link layer, IPv6, a routing protocol, and is equipped with a MIPv6 protocol for a home agent function.

The access routers 400 and 401 are composed of a physical layer, a link layer, IPv6, and a routing protocol, which are general IPv6 router protocol stacks.

FIG. 3 is a flowchart illustrating a conventional method of detecting a movement when the mobile node 200 moves to another subnet in FIG. 1.

Referring to FIG. 3, the process of detecting the movement of the subnet of the mobile node 200 by the mobile node 200 predicts that the mobile node 200 has moved in the network layer (step 410), and the accessibility of the current access router. Check (step 420), check the suitability of the current CoA (step 430) and determine a new access router (step 440).

In detail, the mobile node 200 receives a trigger for predicting movement in the link layer (operation 411), receives a new RA message different from the Router Advertisment (RA) message currently received from the router (operation 412). If the existing RA message reception rate drops (step 413), a network layer movement that indicates that the mobile node 200 moves to another subnet is predicted (step 414).

 If it is predicted that the mobile node 200 has moved in the network layer, a neighbor solicitation (NS) message is sent to the current access router (step 421) to check the accessibility of the current router (step 421), and a timer is set (step 422). ). If a NA (Neighbor Advertisment) message is not received from the current access router and the timer expires (step 423), the number of NS messages sent (NS_SEND) is increased (step 424), and the NS message is returned to the current access router. (Step 421). If there is no response even after sending the NS message three times (step 425), the mobile node 200 determines that the current access router is inaccessible (step 426) and proceeds to step 440 in which a new access router is selected. .

 Meanwhile, if the NA message is received after sending the NS message but before the timer expires (step 427), it is determined whether the NA message is a solicited NA message for the NS message transmitted in step 421 ( Step 428). In step 428, if the received NA message is not the requested NA message, the process proceeds to step 423 and waits for the timer to expire, and if the requested NA message, determines whether the source address is a link local address (step 429). In step 429, if the source address is not the link local address, the current router may be accessed, that is, the mobile node 200 determines that the mobile node 200 has not moved (step 431). Proceed to step 430 to check the suitability of the CoA.

In step 429, if the source address of the requested NA message is a link local address, an RS message is sent to the current access router (step 432) and an RA is received (step 433). It is determined whether the received RA message is the requested RA message for the RS message transmitted in step 432 (step 433). If the received RA message is the requested RA message in step 433, the prefix of the current CoA is compared with the prefix carried in the received RA message (step 435). In step 435, if the prefix of the current CoA and the prefix included in the received RA message are the same, it is determined that the current router is accessible (step 431). If different, the process proceeds to step 440 of selecting a new access router. Here, access to the current router means that the mobile node 200 has not moved the subnet.

If it is determined in step 420 that the mobile node 200 cannot access the current access router, the mobile node 200 multicasts a router solicitation (RS) message to all access routers (step 441). When the requested RA message for the RS message multicasted in step 441 is received (steps 442 to 443), an access router that has sent the requested RA message is set as a new access router (step 444). Meanwhile, if the prefix of the current CoA and the prefix carried in the received RA message are different in step 430, a new access router is set using the prefix information carried in the received RA message (step 444).

As described above, conventionally, many steps are taken to determine a new access router by foreseeing that a mobile node has moved at the network layer. Therefore, until the mobile node 200 detects the subnet movement and accesses the new subnet, that is, the handover time of the mobile node becomes long, and the packet loss also increases during this handover time.

An object of the present invention is to provide an IPv6-based Internet network system that minimizes packet loss during handover because the handover time is shortened through fast movement detection of the mobile node.

Another object of the present invention is to provide a method for detecting movement of a mobile node in the IPv6 based Internet network system.

Another object of the present invention is to provide a recording medium recorded with a program code executable by a computer on the movement detection method of the mobile node.

In order to achieve the above object, an IPv6-based Internet network system according to the present invention includes a mobile node, a home agent for managing access point information of the mobile node, an access router and a mobile node and an access router or home located in an area capable of communicating with the mobile node. It supports wireless communication between agents and includes an access point that carries the subnet identifier set in the link layer beacon to transmit to the mobile node by setting a subnet identifier that distinguishes the subnet to which it belongs, and the mobile node is transmitted from the access point. It is desirable to detect your own subnet movement and set up a new access router via the subnet identifier.

In order to achieve the above-mentioned other problem, a mobile node, a home agent managing access point information of the mobile node, an access router located in an area capable of communicating with the mobile node, and IPv6 supporting wireless communication between the mobile node and the access router or home agent In a method for detecting a movement of a mobile node according to the present invention in a based Internet network system, a subnet movement is detected in steps (a) and (a) of detecting whether a subnet is moved using a subnet identifier carried in a link layer beacon received from an access point. If detected, it is preferable to include the step (b) of setting up a new access router.

Hereinafter, an IPv6-based Internet network system and a method of detecting a movement of a mobile node in the Internet network system according to the present invention will be described with reference to the accompanying drawings.

First, referring to FIG. 1, each of the access points 600 to 602 of the IPv6-based Internet network system according to the present invention sets a subnet identifier for distinguishing subnets, and transmits a link layer beacon to the mobile node 200. Send the subnet identifier to (Beacon). The mobile node 200 may detect that it has moved a subnet through a subnet identifier carried in a link layer beacon transmitted from an access point. It is also possible to set up a new access router via the received subnet identifier.

4 is a flowchart illustrating an embodiment of a method for detecting a movement of a mobile node according to the present invention in the IPv6 based Internet network system shown in FIG.

1 and 4, the movement detection process of the mobile node according to the present invention will be described in detail.

The mobile node 200 detects whether the mobile node 200 moves through the subnet by determining a subnet identifier carried in the link layer beacon received from the currently accessed access point 600 or 601 (step 510). As described above, in the IPv6-based Internet network system according to the present invention, the access points 600 to 602 set subnet identifiers for distinguishing subnets, and transmit the subnets to link layer beacons transmitted to the mobile node 200. Send an identifier.

Specifically, when the mobile node 200 receives the link layer beacon from the access point 600 or 601 (step 511), it compares whether the subnet identifier possessed by the mobile node 200 and the subnet identifier carried in the beacon are the same. (Step 412). In step 412, if the subnet identifier possessed by the mobile node 200 and the subnet identifier carried in the beacon are the same, the mobile node 200 determines that the subnet has not moved. However, if the subnet identifiers are different from each other, the mobile node 200 determines that the subnet has moved.

If it is determined in step 510 that the mobile node 200 has moved the subnet, it sets a new access router (step 520).

In detail, the mobile node 200 multicasts an RS message to all access routers (operation 521). When the RA message is received from the access routers (step 522), the mobile node 200 determines whether the received RA message is a requested RA message for the RS message multicasted in step 521 (step 523). . If it is not the requested RA message in step 523, the mobile node 200 repeats steps 521 to 523, and if the requested RA message, the mobile node 200 accesses a new access router that has transmitted the requested RA message. Set to a router (step 524).

As described above, in the IPv6-based Internet network and the IPv6-based Internet network according to the present invention, the movement detection method of a mobile node sets a subnet identifier for distinguishing subnets in an access point, and transmits the information to a mobile node from the access point. By sending the subnet identifier to the link layer beacon, the mobile node can quickly detect whether the subnet has moved. In other words, since the handover time of the mobile node is shortened, packets lost during the handover time can be minimized.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, which are also implemented in the form of a carrier wave (for example, transmission over the Internet). It also includes. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

The best embodiments have been disclosed in the drawings and specification above. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, in the IPv6-based Internet network and the method for detecting the movement of a mobile node in the Internet network, a link layer beacon for setting a subnet identifier for distinguishing subnets from an access point, and transmitting from the access point to the mobile node By sending the subnet identifier to the mobile node, the mobile node can quickly detect whether the subnet has moved. Accordingly, the handover time of the mobile node is shortened and packets lost during the handover time can be minimized.

Claims (6)

Mobile node; A home agent for managing access point information of the mobile node; An access router located in an area where the mobile node can communicate with the mobile node; And An access point that supports wireless communication between the mobile node and the access router or the home agent, and sets a subnet identifier for distinguishing a subnet to which the mobile node belongs and sends the set subnet identifier to a link layer beacon transmitted to the mobile node. Including, The mobile node detects its own subnet movement through a subnet identifier transmitted from the access point and establishes a new access router. The method of claim 1, wherein the mobile node An IPv6-based Internet network system, characterized in that it detects the movement of the subnet if the subnet identifier it owns and the subnet identifier carried in the link layer beacon is different. A mobile node, a home agent for managing access point information of the mobile node, An access router located in an area in which communication with the mobile node is possible; In the IPv6 based Internet network system including an access point for supporting wireless communication between the mobile node and the access router or the home agent, the mobile node movement detection method, (a) detecting whether a subnet moves by using a subnet identifier loaded on a link layer beacon received from the access point; And (b) if the movement of the subnet is detected in step (a), setting a new access router. The method of claim 3, wherein step (a) (a1) receiving a link layer beacon from the access point; And (a2) comparing the subnet identifier possessed by the mobile node with the subnet identifier carried on the received link layer beacon, and determining whether the subnet has moved if different from each other. The method of claim 3, wherein step (b) (b1) multicasting a Router Solicitation (RS) message to all access routers; (b2) receiving a Router Advertisment (RA) message; (b3) determining whether the received RA message is the requested RA message for the RS message multicasted in the step (b1); And and (b4) setting, as the new access router, an access router which has transmitted the requested RA message for the RS message multicasted in the step (b1). A mobile node, a home agent managing access point information of the mobile node, an access router located in an area in which communication with the mobile node is possible, and an access point supporting wireless communication between the mobile node and the access router or the home agent In an IPv6-based Internet network system, (a) detecting whether a subnet moves by using a subnet identifier loaded on a link layer beacon received from the access point; And (b) a recording medium recorded with a program code executable in a computer, the step of setting a new access router when a subnet movement is detected in step (a).

Images