KR20020023918A - Method for hand-off using beacon message in based wireless LAN - Google Patents

Abstract

PURPOSE: A fast hand-off method using a beacon message based on a wireless LAN(Local Area Network) is provided to minimize the loss of user data and perform a fast hand-off by previously obtaining the beacon message including information to a new network under IPv6 environment based on the wireless LAN and mobile IPv6 environment. CONSTITUTION: In case that a user terminal moves to a new network, a current access router and a hand-off object access router periodically transmit a beacon message including power strength measurement information and prefix information to the user terminal(S101,S102). The user terminal receives the beacon message, periodically compares a power strength of the current access router and a power strength of the hand-off object access router, and judges whether a hand-off is performed(S103). If it is judged as the hand-off, an address is generated for a routing with the hand-off object access router using prefix information and the hand-off is performed using the generated address.

Description

Fast handoff method using beacon message based on WLAN {Method for hand-off using beacon message in based wireless LAN}

The present invention relates to a fast hand-off using a beacon message in a wireless LAN, and more particularly, to a new network in which a terminal is moved in a WLAN-based IPv6 and mobile IPv6 environment. The present invention relates to a fast handoff method using a beacon message on a WLAN, which minimizes loss of user data and obtains a fast handoff by acquiring a beacon message including information about a preamble.

In general, wireless LAN is a technology that is replaced with a wireless environment that is easy to install and move from a hub to a subscriber end when building a network.

Wireless LAN has an advantage that it is possible to build a network within a relatively faster time than wired LAN because electromagnetic waves are used from the access point equipment to the terminal equipment instead of laying the wire by wire (cable). It also has the advantage of being able to communicate on the go using laptops and PC cards without staying in a fixed desktop environment.

It is a world that wireless LAN dreams of building, building, or freely networking by members within buildings. There are various applications, and the most basic application is to build a cableless infrastructure network using a wireless LAN.

The wireless LAN is evaluated as a suitable solution for the construction of an existing network using a cable or a temporary office environment, which is inappropriate to use a cable. Installing wireless LANs on university campuses, classrooms, conference rooms, etc., provides a wireless access environment that allows notebook users to move freely and access the network. It is also connected to public networks through base stations installed in airports, train stations, and shopping centers. You can also connect your home PC and peripherals over a wireless LAN. In an industrial environment, such as assembly at a factory, automation of manufacturing processes, manufacturing plants, and large warehouses, wireless networks are often used.

Meanwhile, in the "Fast Hand-off for Mobile IPv6" document defined by the IETF, the binding update (defined in the Mobile IPv6 document) is registered in order to register the information of the mobile device to the Home Agent of Mobile IPv6 when the device moves to another network. Binding Update) message and the fast binding update message defined in the fast handoff draft.

1 is a block diagram of a general WLAN network for Internet access using a WLAN.

Here, reference numeral 10 denotes the Internet, reference numeral 20 denotes a router, reference numerals 31, 32, and 33 denote an access router, and reference numeral 40 denotes a notebook terminal MN.

In this configuration, when the user terminal 40 moves out of the current WLAN AP area (for example, 31) to another AP area (for example, 33), the terminal 40 is an existing access router 31. ) And determine the handoff by measuring the power strength of the access router 33 in the new area, and if determined to be handoff, obtain layer 3 information about the access router 33 in the new area to obtain final handoff. Perform a handoff.

The procedure of handoff processing is performed as a decision on the handoff in the flowchart defined in the IETF draft "Fast Handoff for Mobile IPv6" standard document is shown in FIG.

FIG. 2 only considers matters for Layer 3 handoff.

Here, reference numeral 40 denotes a notebook terminal MN which is a user terminal, reference numeral 31 denotes an access router currently in service, and reference numeral 33 denotes an access router to be handed off.

First, in step S11, the user terminal 40 transmits a message (RtSolPr) for notifying the handoff to the access router 31 that is currently in service, and the current access router 31 that receives this receives the user terminal (in step S12). 40) and transmits a paging message (PrRtAdv).

Thereafter, in step S103, a message HI indicating a handoff is transmitted from the current access router 31 to the handoff target access router 33, and the handoff target access router 33 receiving the message is sent in step S104. The response is transmitted to the current access router 31.

Next, in step S15, the user terminal 40 transmits the registration information (F-BU) of the terminal to the current access router 31, and the current access router 31 receiving the received information is sent to the user terminal (step S16). 40) and a response message (F-BACK) to the handoff target access router 33.

The current access router 31 transmits the packet transmitted from the user terminal 40 to the handoff target access router 33 in step S17 after transmitting the response message (forward packet), and the user terminal in step S18. 40 transmits a message (F-NA) indicating that the handoff is complete to the handoff target access router 33.

Thereafter, the user terminal 40 and the handoff target access point 33 directly transmit and receive a packet in step S19.

That is, as noted, the IETF "Fast Handoff for Mobile IPv6" draft defines a Proxy Router Advertisement message as a message that can transmit information about a new network to the terminal when the terminal moves.

However, this message is used to determine the handoff decision of the terminal in the network. In the WLAN based network, since the UE determines the handoff, there is a problem in that the Proxy Router Advertisement message defined in the IETF fast handoff draft cannot be used.

In addition, the Router Solicitation Proxy message defined in the draft defines a message used when the UE delivers a decision on handoff to the network. When the message is applied to the WLAN-based network, since the UE does not have a message for transmitting information on Layer 3 of the new network for determining and determining a handoff time, a high-speed handoff is impossible.

That is, in a WLAN-based environment, when the terminal moves to a new access point, the terminal determines that the terminal has moved to the new access point area by measuring the strengths of the WLAN beacon signals of the existing access point and the new access point.

In other words, since the terminal processes two signals and messages in layer 3 and layer 2, there is a problem in that data loss occurs for the existing connection.

Accordingly, the present invention has been proposed to solve various problems occurring in the conventional WLAN-based handoff as described above.

An object of the present invention is to obtain a beacon message including information on a new network to which a terminal is moved in a WLAN-based IPv6 and mobile IPv6 environment in advance to minimize loss of user data and to perform fast handoff. The present invention provides a fast handoff method using a beacon message.

The present invention for achieving this object,

It defines one beacon message including layer 2 and layer 3 information and provides it to be used efficiently for handoff decision and handoff processing when the terminal moves to a new network, preventing data loss and efficient handoff. It is to be done.

According to the present invention according to the technical idea as described above, "a fast handoff method using a beacon message based on a wireless LAN",

In the handoff method of a WLAN-based communication system consisting of a user terminal, a current access router currently in service, an access router to be handed off,

When the user terminal moves to a new network, periodically transmitting a beacon message including power strength measurement information and prefix information from the current access router and the handoff target access router to the user terminal;

At the user terminal receiving the beacon message, periodically comparing the power strength of the current access router with the power strength of the access router to be handed off, and determining whether to handoff by the magnitude;

If it is determined that the handoff is determined as a handoff, generating an address for routing to the handoff target access router using the prefix information, and performing the handoff using the same.

In the above, the beacon message,

Source MAC address information, which is the MAC address of the access point transmitting the beacon message, destination MAC address information, which is the broadcast MAC address, length information of the entire MAC message, parameter information for measuring the power strength in the WLAN, beacon message type information, the network And a message including IPv6 prefix information of the network and IPv6 prefix length information of the network.

1 is a general wireless network configuration for accessing the Internet using a wireless LAN,

2 is a flowchart illustrating a handoff method defined in an IETF draft standard document based on a conventional WLAN;

3 is a flowchart illustrating a fast handoff method using a beacon message in a WLAN based on the present invention.

<Explanation of symbols for main parts of the drawings>

31 ..... Current Access Router

33 ..... Handoff Destination Access Router

40 ..... User terminal (MN)

Hereinafter, described in detail with reference to the accompanying drawings, preferred embodiments of the present invention according to the technical spirit as described above.

3 is a flowchart illustrating a fast handoff method using a beacon message in a WLAN based on the present invention.

Here, reference numeral 40 denotes a notebook terminal MN which is a user terminal, reference numeral 31 denotes an access router currently in service, and reference numeral 33 denotes an access router to be handed off.

As shown in the figure, when the user terminal 40 moves to a new network, a beacon message including power strength measurement information and prefix information from the current access router 31 to the user terminal 40 (Beacon) Transmitting (S101); Transmitting a beacon message (Beacon) including power strength measurement information and prefix information from the handoff target access router (33) to the user terminal (40); The user terminal 40 compares the power strength of the current access router 31 with the power strength of the handoff target access router 33 to determine whether the handoff is large or small, and if determined to be handoff, the prefix. In step S103, an address for routing with the access router to be handed off is generated using the information, and a message RtSolPr for informing the handoff is transmitted to the currently serving access router 31.

In addition, a step (S104) of transmitting a paging message (PrRtAdv) from the current access router (31) receiving the message to the user terminal (40); Transmitting (S105) a message (HI) informing that the handoff is from the current access router (31) to the handoff target access router (33); Transmitting the response to the current access router 31 by the handoff target access router 33 receiving the message (S106); Transmitting registration information (F-BU) of the terminal from the user terminal 40 to the current access router 31 (S107); The current access router (31) transmitting a response message (F-BACK) to the user terminal (40) and the handoff target access router (S108); Transmitting the packet transmitted from the user terminal (40) to the handoff target access router (33) after transmitting the response message from the current access router (S109); Transmitting a message (F-NA) informing that the handoff is completed from the user terminal (40) to the handoff target access router (S110); The user terminal 40 and the handoff target access pointer 33 include a step of directly transmitting and receiving a packet (S111).

In the fast handoff method using the beacon message based on the wireless LAN according to the present invention, first, when the user terminal 40 moves to a new network, the access router 31 currently serving in step S101 periodically performs the above. A beacon message (Beacon) message including power strength measurement information and prefix information is transmitted to the user terminal 40.

In addition, when the user terminal 40 moves to a new network in step S102, the beacon message including power strength measurement information and prefix information to the user terminal 40 periodically ( Beacon) send a message.

Here, the beacon message may include source MAC address information, which is the MAC address of the access point transmitting the beacon message, destination MAC address information, which is the broadcast MAC address, length information of the entire MAC message, parameter information for measuring the power strength in the WLAN, and the beacon. The message includes message type information, network IPv6 prefix information, and network IPv6 prefix length information.

The user terminal 40 receiving the beacon message compares the power strength of the current access router 31 with the power strength of the handoff target access router 33 in step S103, and as a result, the current access router ( If the power strength of 31) is lower than that of the handoff target access router 33, it is determined as handoff, and the address for routing with the handoff target access router 33 is determined using the prefix information. It generates and transmits a message (RtSolPr) indicating the handoff to the current access router (31).

Upon receiving this, the current access router 31 transmits a paging message PrRtAdv to the user terminal 40 in step S104, and hands the target access router 33 from the current access router 31 to the handoff target access router 33 in step S105. The message HI indicating that the message is off is transmitted, and the handoff target access router 33 transmits a response to the current access router 31 in step S106.

Next, in step S107, the user terminal 40 transmits the registration information (F-BU) of the terminal to the current access router 31, and the current access router 31 that receives the received user terminal (in step S108) 40) and a response message (F-BACK) to the handoff target access router 33.

The current access router 31 transmits the packet transmitted from the user terminal 40 to the handoff target access router 33 in step S109 after transmitting the response message (forward packet), and the user terminal in step S110. 40 transmits a message (F-NA) indicating that the handoff is complete to the handoff target access router 33.

Thereafter, the user terminal 40 and the handoff target access pointer 33 directly transmit and receive a packet in step S111.

That is, in the present invention, when a terminal moves to an area of another access point in a WLAN-based Mobile IPv6 network, prefix information on the network, MAC information for power strength measurement, and higher message type in the terminal for handoff is performed. A beacon message including the information of the AP is generated and transmitted periodically.

The terminal periodically receives the beacon message defined in the present invention, and if the power strength for each message reception is received and a beacon message having a different prefix is received, the power strength of the beacon message of the current network and the beacon delivered in the new network. The power strength of the message is compared to make a handoff decision. When the terminal determines the handoff, the terminal generates a new IPv6 address CoA using the network prefix and performs the handoff process.

According to the present invention described above, the "high speed handoff method using a beacon message based on wireless LAN", the advantage of ensuring the mobility of the user in the access network using the wireless LAN and related technologies, and facilitates the fast handoff have.

In addition, since high-speed handoff is possible, there is an advantage in that the data loss problem that occurs when the terminal receives and processes two signals as in the prior art can be fundamentally solved.

In addition, there is an advantage that can be used as a technology for user and service mobility in a wireless access network in the future mobile communication network.

In addition, there is an advantage that the mobility providing technology according to the present invention can be applied to an access network using a wireless technology other than the wireless LAN.

Claims (2)

In the handoff method of a WLAN-based communication system consisting of a user terminal, a current access router currently in service, an access router to be handed off, When the user terminal moves to a new network, periodically transmitting a beacon message including power strength measurement information and prefix information from the current access router and the handoff target access router to the user terminal; At the user terminal receiving the beacon message, periodically comparing the power strength of the current access router with the power strength of the access router to be handed off, and determining whether to handoff by the magnitude; If it is determined that the handoff is determined to be a handoff, generating an address for routing to the handoff target access router using the prefix information, and performing the handoff using the WLAN based on the WLAN Fast handoff method using beacon messages. The method of claim 1, wherein the beacon message, Source MAC address information, which is the MAC address of the access point transmitting the beacon message, destination MAC address information, which is the broadcast MAC address, length information of the entire MAC message, parameter information for measuring the power strength in the WLAN, beacon message type information, the network Fast handoff method using a beacon message on a wireless LAN, characterized in that the message including the IPv6 prefix information, IPv6 prefix length information of the network.