KR101088399B1 - METHOD FOR HANDOVER BETWEEN PROXY MOBILE IPv6 DOMAINS - Google Patents

Abstract

A handover method is disclosed. The handover method includes the steps of performing a handover in a proxy mobile IP version 6 domain for a mobile terminal, predicting the movement of the mobile terminal based on the performed handover in the domain, wherein the movement of the mobile terminal is an external proxy If it is predicted to move to the mobile IP version 6 domain, transferring the information of the mobile terminal to the external proxy mobile IP version 6 domain, and when the mobile terminal accesses the external proxy mobile IP version 6 domain, the previously delivered mobile terminal And performing a handover between the proxy mobile IP version 6 domain and the external proxy mobile IP version 6 domain using the information of.

Handover, Domain, PMIPv6, WiBro, WiBro

Description

Handover method between proxy mobile IP version 6 domains {METHOD FOR HANDOVER BETWEEN PROXY MOBILE IPv6 DOMAINS}

The present invention relates to a handover method between proxy mobile IP version 6 domains. More specifically, the service disconnection time can be minimized during handover between domains by predicting the movement of the mobile terminal and performing a handover between domains in advance. The present invention relates to a handover method between proxy mobile IP version 6 domains.

Recently, due to the development of wireless communication technology and high performance and miniaturization of portable terminals, there is an increasing demand for providing a high speed and efficient multimedia application service in a mobile environment. In particular, there is a growing interest in supporting real-time traffic information and various mobile multimedia application services in a high speed mobile vehicle environment.

Recently, research on the wireless broadband (WiBro) system has been actively conducted in Korea, but the research on the application of the WiBro system for supporting the multimedia application service considering the vehicle environment has been insufficient.

In particular, considering the characteristics of a vehicle moving at high speed over a large area, not only L2 mobility but also L3 mobility for supporting handover between domains within a single domain must be supported. Mobility through convergence of the WiBro system and L3 mobility management technology Research on management skills was required.

In this regard, the Internet Engineering Task Force (IETF) proposed a host-based Mobile IP Version 6 (MIPv6), but the Mobile IP Version 6 (MIPv6) has a long handover delay, packet loss, and It is not widely used due to waste of link resources and terminal cost increase due to MIPv6 stack addition.

On the other hand, in order to solve the problems of the mobile IP version 6 (MIPv6) as described above, standardization for Proxy Mobile IPv6 (PMIPv6), a network-based mobility management technology is in progress. Proxy mobile IP version 6 (PMIPv6) is a technology that performs mobility-related functions such as location registration and tunneling functions performed by a mobile node (MN) in mobile IP version 6 (MIPv6). Handover in the Mobile IP Version 6 (MIPv6) domain is as shown in FIG. 1.

However, Proxy Mobile IP Version 6 (PMIPv6) did not provide global mobility unlike Mobile IP Version 6 (MIPv6), considering only local mobility between Mobile Access Gateways (MAGs) within a domain.

Accordingly, recently, a scheme for providing power mobility using a hierarchical handover scheme using a mobile IP version 6 (MIPv6) and an extension of a proxy mobile IP version 6 (PMIPv6) protocol has been proposed. Specifically, the hierarchical handover scheme using mobile IP version 6 (MIPv6) performs a handover between domains using a proxy mobile IP version 6 (PMIPv6) protocol, and uses a mobile IP version 6 (MIPv6) between domains. This is a method for performing handover. However, this method requires that the mobile terminal (MN) additionally includes the mobile IP version 6 (PMIPv6) protocol stack, and because the mobile IP version 6 (MIPv6) and proxy mobile IP version (PMIPv6) protocols operate independently, Due to the long registration procedure of the mobile IP version 6 (MIPv6) during handover, there was a problem that a long service disconnection occurred.

In addition, the inter-domain handover scheme through the extension of the proxy mobile IP version 6 (PMIPv6) protocol uses an interworking procedure between the LMA of the home domain and the LMA of the external domain, as shown in FIG. There is a problem in that a long handover delay occurs in that authentication and location registration of the terminal 10 should be performed. In addition, there remains a problem to be solved, such as a method for sharing authentication information of the mobile terminal 10 and a method for locating a home domain.

Accordingly, an object of the present invention is to provide a handover method between proxy mobile IP version 6 domains in which service disconnection time can be minimized when handover between domains is performed by predicting movement of a mobile terminal and performing handover between domains in advance. There is.

The handover method according to the present invention for achieving the above object, the step of performing a handover in the proxy mobile IP version 6 domain for a mobile terminal, based on the handover in the performed domain, the mobile terminal Predicting the movement of the. If the movement of the mobile terminal is predicted to move to an external proxy mobile IP version 6 domain, transferring information of the mobile terminal to the external proxy mobile IP version 6 domain; and, to the external proxy mobile IP version 6 domain. When the mobile terminal is connected, performing a handover between the proxy mobile IP version 6 domain and the external proxy mobile IP version 6 domain by using the information of the previously transmitted mobile terminal.

In this case, when the external proxy mobile IP version 6 domain receives the information of the mobile terminal, it is preferable to perform the authentication and location registration procedure for the mobile terminal in advance.

Meanwhile, the information of the mobile terminal is preferably at least one of authentication information and a profile of the mobile terminal.

On the other hand, the predicting may include moving the mobile terminal when the mobile terminal performs a handover to an access point adjacent to the external proxy mobile IP version 6 domain among a plurality of access points in the proxy mobile IP version 6 domain. It is desirable to predict this move to the external proxy mobile IP version 6 domain.

In this case, the plurality of access points may include an entry access point that first performs handover with the mobile terminal, an exit access point adjacent to the external proxy mobile IP version 6 domain, and an intermediate point between the entry access point and the exit access point. And an intermediate access point disposed in the predicting step, wherein the predicting step comprises: when the mobile terminal hands over to the entry access point, the intermediate access point, and the exit access point, the movement of the mobile terminal is an external proxy mobile. Preferred by migration to IP version 6 domains.

Meanwhile, the proxy mobile IP version 6 domain includes a relay MAG directly connected to the external proxy mobile IP version 6 domain, and the predicting and delivering are preferably performed in the relay MAG.

On the other hand, the mobile terminal is preferably a WiBro terminal device.

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

3 is a diagram schematically illustrating a connection relationship between proxy mobile IP version 6 domains.

Referring to FIG. 3, the proxy mobile IP version 6 (PMIPv6) domain according to the present embodiment includes a plurality of MAGs 101, 102, 103, a policy server (Policy Server (PS)) 111, a local mobility agent (LMA), and the like. 121).

The MAGs 101, 102, 103 are connected to a plurality of access points, and when the mobile terminal 10 accesses the MAGs 101, 102, 103 through the access point, it communicates with the policy server 111 to move. The authentication procedure of the terminal 10 may be performed. In addition, the MAGs 101, 102, and 103 may exchange the LMA 121 with a Proxy Binding Update (PBU) / Proxy Binding Acknowledge (PBA) message and register the location of the mobile terminal 10. In this case, the LMA 121 allocates a Home Network Prefix (HNP) to be used by the mobile terminal 10 in the proxy mobile IP version 6 (PMIPv6) domain, and the MAGs 101, 102, and 103 assign the MN based on the assigned HNP. The Router Advertisement (RA) message may be delivered to the RA. Here, the mobile terminal 10 may be a wireless device such as a laptop, a mobile phone, a PMP, or an MP3 supporting Wibro.

At least one of the plurality of MAGs 101, 102, and 103 may be used as a relay MAG. The relay MAG 101 is a device that transmits information of the mobile terminal 10 to an external domain when the mobile terminal 10 detects that the mobile terminal 10 is to be moved to the external network while performing a function of a general MAG.

Specifically, the relay MAG 101 may predict the movement of the mobile terminal based on handover in the domain of the mobile terminal. More specifically, the relay MAG 101 moves the mobile terminal 10 when the mobile terminal 10 performs a handover to an access point 23 adjacent to an external proxy mobile IP version 6 domain among internal access points. It can be expected that this is a move to an external proxy mobile IP version 6 domain.

In addition, the relay MAG 101, when the mobile terminal is handed over to the entry access point 21, the intermediate access point 22, the exit access point 23, the movement of the mobile terminal 10 is external This can be predicted by moving to a proxy mobile IP version 6 domain. Here, the relay MAG 101 includes a plurality of access points, the entry access point 21 is an access point where the mobile terminal first performs a handover with the current domain, and the exit access point 23 is an external proxy mobile IP version. An access point adjacent to six domains, and the intermediate access point 22 is an access point disposed in the middle of the entry access point 21 and the exit access point 23. In FIG. 3, three groups are distinguished as access points. However, in an implementation, the access points may be distinguished into two groups, and four or more groups may be distinguished and implemented. And, preferably, the access point is disposed along the road on which the vehicle travels.

In addition, when the relay MAG 101 is predicted to move to the external proxy mobile IP version 6 domain, the relay MAG 101 may transmit information of the mobile terminal 10 to the external proxy mobile IP version 6 domain. Specifically, if it is determined that the mobile terminal moves to the entry access point 21, the intermediate access point 22, and the exit access point 23 and moves to the external proxy mobile IP version 6 domain, authentication information of the mobile terminal and Profile information can be passed to an external proxy mobile IP version 6 domain. In this case, the external proxy mobile IP version 6 domain may perform an authentication and location registration procedure for the mobile terminal 10 based on the received information of the mobile terminal 10.

Meanwhile, the relay MAG 101 may be a MAG of each of the home proxy mobile IP version 6 domain and the external proxy mobile IP version 6 domain. Specifically, when the relay MAG 101 is directly connected to each of the home proxy mobile IP version 6 domain and the external proxy mobile IP version 6 domain, handover between the relay MAG 101 and the MAG 104 of the external proxy mobile IP version 6 is performed. May be performed in a handover manner within a domain. This will be described later with reference to FIG. 6.

The policy server 111 performs authentication on the mobile terminal 10. In detail, the policy server 111 may perform an authentication procedure for the mobile terminal 10 at the request of the MAGs 101, 102, and 103.

The LMA 121 registers a location for the mobile terminal 10. Specifically, the LMA 121 may register a location of the mobile terminal 10 by exchanging MAGs 101, 102, and 103 with a Proxy Binding Updata (PBU) / Proxy Binding Acknowlege (PBA) message.

In addition, the external proxy mobile IP version 6 (PMIPv6) domain may also include a plurality of MAGs 101, 104, 105, a policy server 112, and an LMA 122, and the operation of each component is the same as described above. Detailed description will be omitted.

In the illustrated example, the relay MAG 101 is shown only for the embodiment directly connected to the external domain, but the relay MAG 101 may be implemented in a form connected to the external domain via the Internet network or another network.

4 is a flowchart illustrating a handover method between PMIPv6 domains according to the present embodiment.

Referring to FIG. 4, first, when the mobile terminal 10 is connected in the relay MAG 101 (S410), the MAG 101 communicates with the LMA 121 to perform location registration of the mobile terminal 10. Can be.

When the mobile terminal 10 moves and a handover is performed in the proxy mobile IP version 6 domain for the mobile terminal 10 (S420), the mobile terminal 10 moves based on the performed handover in the domain. It can be predicted (S430). Specifically, when the mobile terminal 10 performs a handover to an access point adjacent to the external proxy mobile IP version domain among a plurality of access points in the proxy mobile IP version 6 domain, the mobile terminal 10 moves the mobile terminal to the external proxy mobile IP version 6. It can be expected to be a move to a domain.

More specifically, in the cell configuration as shown in FIG. 3, the mobile terminal handovers to the entry access point 21, the intermediate access point 22, and the exit access point 23 through the steps as shown in FIG. 5. In one case, the movement of the mobile terminal 10 may be predicted as the movement to the external proxy mobile IP version domain.

If it is predicted that the mobile terminal 10 moves to the external proxy mobile IP version 6 domain, the mobile terminal 10 may transmit information of the mobile terminal to the external proxy mobile IP version 6 domain (S440). Specifically, when the mobile terminal 10 sequentially connects to the entry access point 21, the intermediate access point 22, and the exit access point 23, the relay MAG 101 authenticates the mobile terminal 10. Information and profiles can be delivered to external proxy mobile IP version 6 domains. In this case, the external proxy mobile IP version 6 domain may perform the authentication and location registration procedure of the mobile terminal in advance by using the received authentication information and profile of the mobile terminal 10.

When the mobile terminal 10 continues to move and accesses the MAG 104 in the external proxy mobile IP version 6 domain, handover between domains for the mobile terminal 10 is performed (S450). Specifically, the external proxy mobile IP version 6 domain may perform handover to the mobile terminal 10 by using the information of the mobile terminal 10 previously received from the MAG 101 of the proxy mobile IP version 6 domain. have. At this time, the authentication and location registration procedure of the mobile terminal 10 has been performed in advance, only the message delivery delay in the external proxy mobile IP version 6 domain occurs during the handover between the domains, the service for the terminal device 10 The break time can be minimized. A detailed handover process will be described later with reference to FIG. 6.

6 is a flowchart illustrating a handover method between domains according to the present embodiment.

Referring to FIG. 6, the relay MAG 101 to which the mobile terminal 10 is connected detects the movement of the mobile terminal 10 through the access point-based mobility prediction described above, and advances the external proxy mobile IP version 6 ( Complete the authentication and location registration procedures with the Policy Server (fPS) 112, fLMA 122 of the PMIPv6) domain. In this case, even while the relay MAG 101 performs a handover with the fLMA 122, the mobile terminal 10 may receive a packet through the existing hLMA 121-iMAG 101 tunnel. In other words, the service is not disconnected because the link is not disconnected.

When the mobile terminal 10 moves to the external proxy mobile IP version 6 (PMIPv6) domain, the relay MAG 101 performs a handover procedure in the domain from the relay MAG 101 to the fMAG 104. Specifically, the relay MAG may be a MAG of each of the home proxy mobile IP version 6 and the external proxy mobile IP version 6 domains as described above, so that the handover between the relay MAG 101 and the fMAG 104 is a handover in the domain. It may be performed in the form. In addition, since the fPS 112 and the fLMA 122 have authentication information and a profile of the mobile terminal 10, the handover can be performed without a message exchange procedure between domains that cause a long handover delay.

7 and 8 are diagrams for explaining the handover between the conventional PMIPv6 domain and the handover delay between the PMIPv6 domain according to the present embodiment.

In general, the handover delay is composed of a mobile terminal's movement detection, mobile terminal's authentication, location registration, and packet delivery through tunneling, and can be expressed as follows.

Here, T _L2 is a time required for the mobile terminal to connect to the wireless access network and L2 after the movement. Specifically, it is the time when the mobile terminal 10 completes the connection with the access point in the external proxy mobile IP version 6 domain, and the access point notifies the MAG in the external proxy mobile IP version 6 domain.

In addition, D _AAA is a time required for authentication of the mobile terminal, D _PBU is a time required for location registration of the mobile terminal, and T _Forwarding is delivery of tunneled packets.

Referring to FIG. 7, when the handover delay between PMIPv6 domains is examined, when a terminal device (MN) accesses an external network, an authentication procedure is performed with a domain authentication server and a LMA and location registration procedure are performed. Therefore, the authentication delay (D _AAA ) and the location registration delay (D _PBU ) that occur when using the conventional PMIPv6 domain can be expressed as follows.

Here, T _LAQ and T _LAP denote a message transmission delay for authentication in a domain, and T _GAQ and T _GAP denote a message transmission delay for authentication between domains. T _LPBU and T _LPBA denote a delay of transmitting a location registration message within a domain, and T _GPBU and T _GPBA denote a delay of transmitting a location registered message between domains.

And, the forwarding time (T _Forwarding ) of the tunneled packet can be represented as T _RA since the time required for MAG to receive the PBU and send the RA. Therefore, the handover delay between domains of the conventional PMIPv6 may be represented as follows.

Meanwhile, referring to FIG. 8, the delay of handover between domains according to the present embodiment is examined. Since the present embodiment performs the authentication and location registration procedure with the domain in advance, the mobile terminal 10 is actually moved to the external domain. After this move, only message delivery delays occur within the domain. Therefore, the handover delay between domains according to the present embodiment can be expressed as follows.

FIG. 9 is a diagram showing a conventional PMIPv6 scheme and experimental results of a handover delay change in this embodiment. This results in the equation 5 and the equation _{(6) T LAQ, T LAP} , T LPBU, assumed the T _LPBA to 10ms by the delay in the _{domain, T GAQ, T GAP, T} GPBU, T GPBA domain It is supposed to change according to the handover delay of the liver.

10 is a view showing the experimental results of the handover method according to the present embodiment.

In order to evaluate the performance of the handover method according to the present embodiment, the parameters used are shown in Table 1 below. In the experiment, the moving vehicle was set to move from hMAG1 102 to fMAG2 105 at a speed of 54 km / h (= 15 m / s), and hMAG1 (102), hMAG2 (103), hMAG2 (103) and iMAG ( 101), handover is performed in the domain between fMAG1 104 and fMAG2 105, and handover between domains is performed between iMAG 101 and fMAG1 104. The access points (APs) connected to the MAGs 101, 102, 102, 104, and 105 have a radius of about 1 km, the wireless access network technology uses WiBro, and the service used uses CBR traffic having a transmission rate of 1.6 Mbps per second. It was.

Wireless technology WiBro AP radius About 1km UDP traffic (interpacket interval) CBR (0.005 sec) UDP packet size 1024 byte Vehicle moving speed 15 ms / s (= 54 kim / h) Experiment time 2400 seconds (= 40 minutes)

Referring to FIG. 10, the conventional PMIPv6 scheme and the handover method according to the present embodiment have a handover delay of about 40-50 ms in a domain, and are shorter than about 150 ms, which is a maximum service disconnection time for providing a multimedia service. It can be seen that the delay. However, in the case of handover between domains, the conventional handover scheme between PMIPv6 domains has a long handover delay of about 280 ms. This is because an authentication and location registration procedure of the mobile terminal 10 is performed after the handover to the fMAG1 104. In contrast, the handover method between domains according to the present embodiment can be confirmed to have about 50 ms or less similarly to the handover delay in the domain. That is, the service disconnection time of the handover method according to the present embodiment satisfies the service disconnection time of 150 ms or less for supporting the real-time service and the streaming service.

Accordingly, the handoff scheme according to the present embodiment predicts the mobility of the mobile terminal and forwards the information of the mobile terminal to an external proxy mobile IP version 6 domain, thereby reducing service disconnection time when performing handover between domains. It can be minimized. The handover method as shown in FIG. 4 may be executed on the relay MAG 101 shown in FIG. 3, and other connection relationships may also be executed on the same MAG.

Although preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

1 is a diagram illustrating a handover procedure in a PMIPv6 domain;

2 is a diagram illustrating a handover procedure between a conventional PMIPv6 domain;

3 is a diagram schematically illustrating a connection relationship between proxy mobile IP version 6 domains;

4 is a flowchart illustrating a handover method between PMIPv6 domains according to the present embodiment;

5 is a flowchart for describing a detailed operation of the prediction step of FIG. 4;

6 is a flowchart illustrating a handover method between domains according to the present embodiment;

7 is a view for explaining a handover delay between a conventional PMIPv6 domain,

8 is a view for explaining a handover delay between PMIPv6 domains according to the present embodiment, and

9 and 10 are diagrams showing experimental results of the handover method according to the present embodiment.

Claims (7)

In the handover method between proxy mobile IP version 6 (PMIPv6) domain, Performing a handover in the proxy mobile IP version 6 domain for a mobile terminal; Predicting movement of the mobile terminal based on the handover in the performed domain; If the movement of the mobile terminal is predicted to move to an external proxy mobile IP version 6 domain, transferring information of the mobile terminal to the external proxy mobile IP version 6 domain; And When the mobile terminal accesses the external proxy mobile IP version 6 domain, performing a handover between the proxy mobile IP version 6 domain and the external proxy mobile IP version 6 domain by using the transmitted information of the mobile terminal; Including; The predicting step, When the mobile terminal performs a handover to an access point adjacent to the external proxy mobile IP version 6 domain among a plurality of access points in the proxy mobile IP version 6 domain, the movement of the mobile terminal is performed by an external proxy mobile IP version 6 domain. Handover method characterized in that predicted by the movement to. The method of claim 1, The external proxy mobile IP version 6 domain, when the information of the mobile terminal is received, handover method characterized in that for performing the authentication and location registration procedure for the mobile terminal in advance. The method of claim 1, And the information of the mobile terminal is at least one of authentication information and a profile of the mobile terminal. delete The method of claim 1, The plurality of access points, An entry access point that first performed a handover with the mobile terminal, an exit access point adjacent to the external proxy mobile IP version 6 domain, and an intermediate access point disposed between the entry access point and the exit access point, The predicting may include estimating the movement of the mobile terminal to the external proxy mobile IP version 6 domain when the mobile terminal hands over to the entry access point, the intermediate access point, and the exit access point. Handover method, characterized in that. The method of claim 1, The proxy mobile IP version 6 domain includes a relay MAG directly connected to the external proxy mobile IP version 6 domain, The predicting and forwarding steps are performed in the relay MAG. The method according to any one of claims 1, 2, 3, 5 and 6, The mobile terminal, Hand over method characterized in that the WiBro terminal device.

Images