KR100947605B1 - Method for sensing network based on handover of mobile IPv6 - Google Patents

Abstract

The present invention relates to a network detection method in mobile IPv6 handover. According to the present invention, when a mobile terminal connected to an access point included in a communication network is handed over, layer 3 of the mobile terminal receives information of a new subnet detected by layer 2 of the mobile terminal using medium independent handover. It is possible to provide a fast and efficient handover method by reducing the time required for the access router detection process included in the subnet to be moved.

Mobile terminal, correspondence terminal, media independent handover, access router, IPv6

Description

Method for sensing network based on handover of mobile IPv6}

The present invention relates to a network detection method in mobile IPv6 handover, and to efficiently perform handover by receiving information of a subnet detected by layer 2 of the mobile terminal using media independent handover in layer 3 of the mobile terminal. The present invention relates to a network detection method.

Internet Protocol Version 6 (IPv6) is a new addressing scheme that addresses the shortcomings of IPv4, the current IP addressing scheme, and provides 128-bit IP addresses. IPv6 has many advantages over IPv4, such as the number of addresses that can be assigned to each node, speeding up the network, and providing high quality services through specific packet recognition.

When a specific mobile terminal is handed over in a plurality of subnets included in an IPv6-based communication network, the neighbor discovery protocol detects the movement of the mobile terminal and receives access router information of the subnet to which the mobile terminal is to be moved. -Of-Address, CoA). The mobile terminal can continuously communicate with the corresponding terminal by performing a binding process with the home agent using the assigned new auxiliary address.

However, it may take a long time to receive the access router information of the subnet to be moved to be assigned a new auxiliary address, and to perform a binding process with the home agent. If the handover takes a long time, a lot of packets are lost and real-time quality of service such as voice or video may be degraded.

Accordingly, an object of the present invention is to provide a mobile IPv6 handover that can reduce the time required for handover by receiving a subnet information to be moved using a medium independent handover function and performing a router detection process of the handover in advance. Provides a network detection method.

In order to achieve the above object, a network sensing method in a mobile IPv6 handover according to the present invention is a communication network including a plurality of nodes and a plurality of subnets to which the nodes are connected. Detecting the access router at layer 2 of the mobile terminal, receiving layer 3 information of the access router sensed by layer 2 of the mobile terminal through media independent handover, and Layer 3 receiving information of the subnet to be moved from the detected access router through media independent handover, and handing over the mobile terminal at layer 2 of the mobile terminal according to the received subnet information Making; Characterized in that it comprises a.

According to the present invention, upon detecting a new subnet in layer 2 of the mobile terminal, by receiving the access router information included in the new subnet in layer 3 of the mobile terminal by the media independent handover function, and performing layer 2 handover, In the case of handover, the time required for access router detection and information reception can be reduced.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

1 is a diagram illustrating an operation of mobility IPv6 using a network detection method in mobility IPv6 handover according to an embodiment of the present invention. In the network sensing method according to the present embodiment, the mobile terminal 10 to be handed over 60, the corresponding terminal 20 to communicate with the mobile terminal 10, and the mobile terminal 10 or the corresponding terminal 20 are connected. Access Points (Access Points, 30, 32, 34) are included.

In addition, in the network sensing method according to the present embodiment, the home agent 40 managing the access point 30 connected before the mobile terminal 10 is handed over 60, and the mobile terminal 10 is handed over ( 60, an access router 50 and 55 managing the access point 32 and the access point 34 to which the corresponding terminal 20 is connected, and the home agent 40 and the access router 50, respectively. 55 includes a communication network 100 to which it is connected. In this embodiment, it is assumed that the mobile terminal 10 is handed over from the first subnet 70 managed by the home agent 40 to the second subnet 80.

The mobile terminal 10 is an access point of an access point 30 and a terminal connected to the communication network 100 through the home agent 40, and a computer, PDA, or mobile terminal is connected to the access point 30. It may be a point. The mobile terminal 10 receives a home address (HoA) from the home agent 40 to communicate with the corresponding terminal 20 through the communication network 100, and the communication network 100 may be an internet network.

When the mobile terminal 10 moves from the first subnet 70 to which the mobile terminal 10 is connected to the second subnet 80, the mobile terminal 10 receives the received information from the access router 50 of the second subnet 80. According to the information of the second subnet 80, a new care-of-address (CoA) is set. As the set auxiliary address is transmitted to the home agent 40, the mobile terminal 10 may communicate with the corresponding terminal 20 through the home agent 40. The home agent 40 receiving the auxiliary address is connected to the access router 50 of the second subnet 80.

When the home agent 40 is connected to the access router 50 of the second subnet 80 and the mobile terminal 10 is handed over, the corresponding terminal 20 does not recognize the movement of the mobile terminal 10 and thus the home address. Even when sending the data through the home agent 40, the mobile terminal 10 may receive the data transmitted by the corresponding terminal 20. In addition, the mobile terminal 10 may communicate with the corresponding terminal 20 through the home agent 40 even before the binding process of transmitting the auxiliary address allocated from the access router 50 to the corresponding terminal 20 is completed. Can be.

The mobile terminal 10 may directly communicate with the corresponding terminal 20 without passing through the home agent 40 by transmitting the assigned auxiliary address to the corresponding terminal 20 through the home agent 40. When the mobile terminal 10 moves, it constantly communicates with the corresponding terminal 20 through the home agent 40, and receives the auxiliary address assigned from the access router 50 of the second subnet 80. By performing the binding by transmitting the information, the handover can be efficiently performed without interruption of communication.

2 is a flowchart provided to explain a network sensing method in mobility IPv6 handover according to an embodiment of the present invention. Referring to FIG. 2, the network sensing method according to the present embodiment starts by detecting the access router 50 of the second subnet 80 to be moved in Layer 2 of the mobile terminal 10 (S200).

The mobile terminal 10 is a point where the access point 30 is connected to a terminal such as a mobile phone, a computer, or a PDA, and can move from the first subnet 70 to the second subnet 80. When the mobile terminal 10 moves away from the first subnet 70 and moves to the second subnet 80, the layer 2 of the mobile terminal 10 includes an access router included in the second subnet 80 ( Receive a probe response signal or beacon signal from layer 2 of FIG.

The probe response signal is a signal transmitted by the access router 50 with respect to a probe request signal transmitted by layer 2 of the mobile terminal 10, and the beacon signal is a signal periodically transmitted by the access router 50. Upon receiving the probe response signal or the beacon signal and detecting the access router 50 of the second subnet 80, the layer 3 of the mobile terminal 10 moves through the media independent handover (MIH) function. Information on the second subnet 80 including the access router 50 detected by the layer 2 of the terminal 10 is received (S210).

The media independent handover function provides an information exchange service between layers in order to provide efficient handover between an upper layer corresponding to layer 3 or more and a lower layer below layer 2. In the present embodiment, the layer 3 of the mobile terminal 10 recognizes the access router 50 sensed by the layer 2 of the mobile terminal through the medium independent handover function, and thus, the second sub including the detected access router 50. Receive information of net 80.

When receiving the information of the second subnet 80 in the layer 3, the mobile terminal 10 sets the auxiliary address according to the received information (S220). When the auxiliary address is set, layer 2 of the mobile terminal 10 performs a handover by disconnecting the first subnet 70 and connecting the second subnet 80 and the mobile terminal 10. (S230). The handover in step S230 is a process of transmitting the auxiliary address set according to the information of the subnet received by the mobile terminal 10 to the home agent 40. When the handover of step S230 is completed, by communicating with the corresponding terminal 20 through the home agent 40, it is possible to continuously communicate with the corresponding terminal 20 without the communication disconnection due to the movement of the subnet.

When the handover is completed in the layer 2 of the mobile terminal 10, the handover of the layer 2 is detected using the media independent handover function in the layer 3 of the mobile terminal 10 (S240). By detecting the handover of the layer 2 using the media independent handover function, a faster sensing is possible than detecting the movement of the mobile terminal 10 by the neighbor sensing protocol. Layer 3 of the mobile terminal 10 may perform the optimized handover by receiving information on the second subnet 80 through medium independent handover.

When the third handover of the second terminal is sensed by the third layer of the mobile terminal 10, the mobile terminal 10 transmits the auxiliary address set in the second subnet 80 to the corresponding terminal 20 through the home agent 40. Transmit (S250). When the corresponding terminal 20 receives the auxiliary address of the mobile terminal 10, the access router 50 of the second subnet 80 and the access router of the third subnet 90 to which the corresponding terminal 20 is connected. The 55 is connected so that the mobile terminal 10 and the corresponding terminal 20 can directly communicate with each other without passing through the home agent 40 (S260).

3 is a diagram illustrating a handover operation of mobility IPv6 according to an embodiment of the present invention. Referring to FIG. 3, when a movement is detected, the mobile terminal 10 transmits a router request message 300 to the access router 50 of the second subnet 80. The access router 50 receiving the router request message 300 of the mobile terminal 10 transmits the router advertisement message 310 to the mobile terminal 10. The router advertisement message 310 includes information of the second subnet 80.

The mobile terminal 10 sets an auxiliary address by using the information of the second subnet 80 included in the received router advertisement message 310. The mobile terminal 10 transmits the neighbor request message 320 including the configured auxiliary address to the access router 50 of the second subnet 80 to determine whether there is a duplicate address in the configured auxiliary address. If there is no response from the access router 50 to the neighbor request message 320, the mobile terminal 10 determines that there is no address overlapping with the configured secondary address.

When the auxiliary address setting without duplicate addresses is completed, the mobile terminal 10 includes a home address for identifying the mobile terminal 10 and a binding update message 330 including a secondary address set for the second subnet 80. ) Is sent to the home agent 40. The home agent 40 identifies the mobile terminal 10 by using the home address included in the binding update message 330 and registers an auxiliary address.

When the home agent 40 registers the auxiliary address and transmits the binding response message 340 to the mobile terminal 10, tunneling is formed between the mobile terminal 10, the home agent 40, and the corresponding terminal 20. . The mobile terminal 10 may receive the packet 350 transmitted from the corresponding terminal 20 through the home agent 40 even when not directly connected to the corresponding terminal 20.

When the binding with the home agent 40 is completed, the mobile terminal 10 transmits a binding update message 330 to the corresponding terminal 20. The corresponding terminal 20 performs route optimization with the mobile terminal 10 using the home address and the auxiliary address of the mobile terminal 10 included in the binding update message 330. When the route optimization is completed, the mobile terminal 10 may transmit and receive a packet 360 directly with the corresponding terminal 20 without passing through the home agent 40.

4 is a stack structure diagram of a media independent handover function applied to mobility IPv6 handover according to an embodiment of the present invention. Referring to FIG. 4, the media independent handover function 400 according to the present embodiment provides a service for exchanging information between the upper layer 410 and the lower layer 420 to perform an efficient handover.

The upper layer 410 includes IP, mobile IP, SIP, etc. corresponding to layer 3 or more. The upper layer 410 includes a network layer, a transport layer, a presentation layer, an application layer, and the like, and the routers managing the respective subnets 70, 80, and 90 operate in the network layer. The lower layer 420 includes a physical layer corresponding to layer 1, a data link layer corresponding to layer 2, and a network bridge and the like operate at layer 2.

The media independent handover function 400 connects the information services 430 and 435 to obtain information necessary for handover from a server of the communication network 100, and transmits a command to the lower layer 420 from the upper layer 410. Command services 440 and 445 for determining a state, and event services 450 and 455 for notifying a higher layer of changes in characteristics, states, or qualities of lower layers, and the like.

Information services 430 and 435 are information about homogeneous or heterogeneous networks within a certain geographic area. In addition to the media independent handover function of the terminal, the media independent handover function of the network may provide the information services 430 and 435. An information service includes various information elements, which are necessary elements for making an efficient handover decision.

The command services 440 and 445 are commands transmitted from the upper layer 410 to the lower layer 420 in order for the upper layer 410 to determine the link state and adjust the optimized operation. Command services 440 and 445 include a link command and a medium independent handover command.

The link command and the media independent handover command may be divided into a local command 440 and a remote command 445 according to the area to be transmitted again. Local MIH command (Local MIH Command) is generated in the upper layer 410 is transmitted to the media independent handover function (400). The local link command 445 is generated by the media independent handover function 400 and forwarded to the lower layer 420 to coordinate the lower layer 420 entity. The remote media independent handover command is a command that originates in the upper layer 410 and is delivered to the remote equivalent stack, and the remote link instruction occurs in the media independent handover function 400 and the lower layer 420 in the remote equivalent stack. The command passed to.

Event services 450 and 455 are information delivered from layer 2 to higher layers, which may receive this information by a registration procedure. The upper layer 410 including the mobility management protocol may receive layer 2 information such as handover occurring soon or handover has been performed to predict the handover and assist the handover.

The event services 450 and 455 are provided from the media independent handover event (MIH Event 450) propagated from the media independent handover function 400 to the upper layer 410, and the entity in which the event in the lower layer 420 has occurred. Typically includes a link event (455) terminated in the media independent handover function (400). The media independent handover event 450 and the link event 455 may be further classified into two types according to propagation regions. When an event occurs in the local stack and is delivered to the local media independent handover function 400 or higher layer 410, it is called a local event and the event is sent to a remote media independent handover function 400. Is called Remote Events.

5A, 5B and 6 are operation diagrams provided to explain a network sensing method in mobile IPv6 handover according to an embodiment of the present invention. 5A and 5B, the network detection method according to the present embodiment includes a network detection method according to a decrease in signal sensitivity of the mobile terminal 10 and a network detection method according to a beacon signal transmitted from the access routers 50 and 55. It includes.

As shown in FIG. 5A, the network sensing method according to the signal sensitivity decreases in step 500a by detecting that the signal with the home agent 40 is low in the layer 2 11 of the mobile terminal 10. When the degradation of the signal sensitivity is detected, the probe request signal is transmitted from the layer 2 (11) of the mobile terminal 10 to an access router of a neighboring subnet (510a). In this embodiment, the access router managing the second subnet 80 as the mobile terminal 10 moves from the first subnet 70 managed by the home agent 40 to the second subnet 80. Assume that a probe request signal is sent to (50).

If it is determined that the probe request signal is received at the layer 2 51 of the access router 50 of the second subnet 80 and connectable with the mobile terminal 10, the layer 2 51 of the access router 50 is determined. The probe response signal is transmitted to the mobile terminal 10 (520a). The layer 2 (11) of the mobile terminal 10 having received the probe response signal transmits the media independent handover primitives Link_Detected.ind (530a) and MIH_Link_Detected.ind (530b) to the layer 3 (13), and the layer 3 13 detects a link with the second subnet 80.

Layer 3 (13) of the mobile terminal (10) having detected the link with the second subnet (80) requests the media independent handover function (12) to access router 50 information of the second subnet (80). MIH_Get_Information.req, which is a primitive, is transmitted (550a). The medium independent handover function 12 transmits the MIH_Get_Information request frame to the medium independent handover function 52 included in the access router 50 of the second subnet 80 (560a).

The media independent handover function 52 of the access router 50 transmits a MIH_Get_Information response frame including information of the second subnet 80 to the media independent handover function 12 of the mobile terminal 10 (570a). ). Accordingly, the mobile terminal 10 may receive link information included in layer 2 of the second subnet 80 to be moved and subnet information of the layer 3 before performing the handover.

Upon receiving the MIH_Get_Information response frame, the media independent handover function 12 of the mobile terminal 10 transmits a MIH_Get_Information.resp primitive containing information of the received second subnet 80 to layer 3 (13). . Therefore, before performing the handover, it is possible to receive layer 3 link information of the second subnet 80 as well as layer 2 link information according to link detection with the second subnet 80.

The mobile terminal 10 sets the auxiliary address according to the received information of the second subnet 80 and transmits the set auxiliary address to the home agent 40 to perform the binding process. When the binding process is completed, the mobile terminal 10 may communicate with the corresponding terminal 20 through the home agent 40 even before handing over to the second subnet 80.

Referring to FIG. 5B, the mobile terminal 10 may detect a network by receiving a beacon signal transmitted from layer 2 (41, 51) of the router 40, 50 managing each subnet 70, 80. FIG. Can be. Layer 2 (11) of the mobile terminal 10 receives a beacon signal transmitted from each subnet (70, 80) and detects a link with each subnet (70, 80).

Beacon signal 1 500b transmitted from the home agent 40 of the first subnet 70 and beacon signal 2 510b transmitted from the access writer 50 of the second subnet 80 are received and beacons are received. If signal 2 510b is detected to have a higher strength, mobile terminal 10 recognizes that it has detected a new link. Upon detecting a new link, layer 2 (11) of mobile terminal 10 sends Link_Detected.ind (520b) and MIH_Link_Detected.ind (530b) to layer 3 (13) via medium independent handover function (12). .

Layer 3 (13), which recognizes the new link detection through Link_Detected.ind (520b) and MIH_Link_Detected.ind (530b), is media independent of the access router 50 of the second subnet 80 to form a new link. The MIH_Get_Information request frame is transmitted to the handover function 52 (550b) to request information of the second subnet 80. When the media independent handover function 52 of the access router 50 transmits the MIH_Get_Information response frame to the MIH_Get_Information request frame (560b), the media independent handover function 12 of the mobile terminal 10 generates the MIH_Get_Information.resp primitive. The second subnet 80 information included in the MIH_Get_Information response frame is transmitted to the layer 3 (13). Through the above process, the layer 3 13 of the mobile terminal 10 may receive layer 3 information of the second subnet 80 before handover.

Referring to FIG. 6, in the handover method using the network detection method in the mobility IPv6 handover according to the present embodiment, access of the second subnet 80 to be handed over at the layer 2 11 of the mobile terminal 10 is performed. 600 begins with receiving a beacon signal or probe response signal from the router 50. Upon receiving the beacon signal or the probe response signal, the layer 2 11 of the mobile terminal 10 detects a new link with the second subnet 80 in the layer 3 13 through MIH_Ling_Detected.ind, which is a media independent handover primitive. Inform 610 that it has been done.

When the new link is detected at the layer 3 (13), the media independent handover function 12 of the mobile terminal 10 is activated by the media independent handover function of the access router 50 of the newly detected second subnet 80. 52) information of the second subnet 80 is received (620) by transmitting and receiving a MIH_Get_Information primitive. The mobile terminal 10 may set an auxiliary address by using the information of the second subnet 80 included in the MIH_Get_Information primitive received by the media independent handover function 12 of the mobile terminal 10.

 Upon receiving the information of the second subnet 80, the layer 2 (11) of the mobile terminal 10 transmits MIH_Link_GoingDown.ind to the layer 3 (13), so that the link with the first subnet 70 being connected is established. Inform 630 that it will be disconnected. The MIH_Link_GoingDown may be transmitted from the layer 2 (11) to the layer 3 (13) through the event services (450, 455) provided by the media independent handover function (12).

When the link between the mobile terminal 10 and the first subnet 70 is disconnected, the layer 2 (11) of the mobile terminal 10 and the layer 2 (41) of the first subnet 70 are each layer 3 ( MIH_Link_Down.ind is transmitted to 13 and 43 to notify the link break between the mobile terminal 10 and the first subnet 70 (640 and 650). MIH_Link_Down.ind may be transmitted through the event services 450 and 455 provided by the media independent handover function 12 and 42.

Upon detecting a link disconnection with the first subnet 70, the mobile terminal 10 performs a handover at layer 2 11 (660) to connect with the access router 50 of the second subnet 80. Connected. When the handover is completed, MIH_Link_Up.ind is transmitted from the second layer 80 of the mobile terminal 10 to the third layer 13 to inform that the second subnet 80 and the new link are connected. MIH_Link_Up.ind may be transmitted to Layer 3 (13) via the event services 450, 455 of the media independent handover function 12, similar to MIH_Link_Down.ind.

Layer 3 (13), which detects that the second subnet 80 is connected to the new subnet, transmits a binding update message to the home agent 40 (680). The binding update message includes the auxiliary address and the home address set by the mobile terminal 10, and the home agent 40 may identify the moving position of the mobile terminal 10 through the binding update message.

If the home agent 40 transmits the binding response message for the binding update message to the mobile terminal 10 (690), the mobile terminal 10, even if the handover is not completed in the layer 3 (13), the home agent 40 It may communicate with the corresponding terminal 20 through). According to the above process, the process of finding the access router 50 of the second subnet 80 to be handed over before the binding process (680, 690) between the mobile terminal 10 and the home agent 40 is completed Since it is omitted, efficient movement detection is possible in an early time.

While the preferred embodiments of the present invention have been shown and described, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention, without departing from the spirit of the invention as claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is an operation diagram of mobility IPv6 using a network detection method in mobility IPv6 handover according to an embodiment of the present invention;

2 is a flowchart provided to explain a network sensing method in mobility IPv6 handover according to an embodiment of the present invention;

3 is a handover operation diagram of mobility IPv6 according to an embodiment of the present invention;

4 is a stack structure diagram of a media independent handover function applied to mobility IPv6 handover according to an embodiment of the present invention; and

5 and 6 are operation diagrams provided to explain a network detection method in mobility IPv6 handover according to an embodiment of the present invention.

Detailed description of the main parts of the drawing

10: mobile terminal 20: corresponding terminal

30, 32, 34: access point 40: home agent

50, 52: access router 100: communication network

Claims (9)

In a communication network including a plurality of terminals and a plurality of subnets connected to the terminal, Detecting, at layer 2 of the mobile terminal, an access router included in a subnet to which the mobile terminal intends to move; Receiving, by layer 3 of the mobile terminal, information on an access router detected by layer 2 of the mobile terminal through media independent handover; Layer 3 of the mobile terminal receiving information of the subnet to be moved from the detected access router through medium independent handover; And Handing over the mobile terminal at layer 2 of the mobile terminal according to the received subnet information; Network detection method in mobility IPv6 handover, comprising the. The method of claim 1, Layer 2 of the mobile terminal detects an access router included in the subnet to be moved by receiving a beacon signal; Network detection method in mobility IPv6 handover, characterized in that further comprises. The method of claim 1, Layer 2 of the mobile terminal, transmitting a probe request signal when a link signal becomes low; Network detection method in mobility IPv6 handover, characterized in that further comprises. The method of claim 3, wherein Receiving an probe response signal for the probe request signal and detecting an access router included in a subnet that transmits the probe response signal; Network detection method in mobility IPv6 handover, characterized in that further comprises. The method of claim 1, Configuring a care-of-address (CoA) according to the received information of the subnet; Network detection method in mobility IPv6 handover, characterized in that further comprises. The method of claim 5, And transmitting the auxiliary address to an access router of a subnet to which the mobile station is to move to check for duplication of the auxiliary address. The method of claim 1, If the layer 3 of the mobile terminal detects the handover of the layer 2 of the mobile terminal through medium independent handover, transmitting the auxiliary address assigned to the mobile terminal to a home agent; Network detection method in mobility IPv6 handover, characterized in that further comprises. The method of claim 7, wherein When the home agent receives the auxiliary address, communicating with a corresponding terminal through the home agent; Network detection method in mobility IPv6 handover, characterized in that further comprises. The method of claim 7, wherein When the home agent receives the auxiliary address, transmitting the auxiliary address to the corresponding terminal through the home agent; Network detection method in mobility IPv6 handover, characterized in that further comprises.

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