KR20060029069A - A method for roaming between subnets in a wireless lan environment - Google Patents

Abstract

The present invention relates to a roaming method between subnets for minimizing packet loss in a WLAN environment. The inter-subnet roaming method in a wireless LAN environment according to the present invention, in the inter-subnet roaming method of a wireless terminal in a wireless LAN environment, a) location information and channel transmission output information of an access point (AP) installed in the subnet to which the wireless terminal belongs; Storing the data in a distributed system; b) storing the transmission radius of the AP in the distributed system according to the transmission power of the AP; c) searching for an AP adjacent to a currently connected AP when the wireless terminal moves to another subnet; d) determining whether there is an AP belonging to a subnet different from a subnet to which the wireless terminal belongs among adjacent APs; e) if there is an AP belonging to another subnet, transmitting wireless terminal information to a WLAN switch installed in another subnet; And f) processing roaming between subnets through tunneling with a wireless LAN switch to which the wireless terminal is initially connected. According to the present invention, when roaming occurs between subnets in a wireless LAN environment, the wireless terminal may search for a subnet in which a wireless terminal may move, and transmit the information of the wireless terminal to a wireless LAN switch installed in the corresponding subnet in advance. Minimize latency in roaming.

WLAN, roaming, WLAN switch, access point, distributed system

Description

Roaming between subnets in a wireless LAN environment {A method for roaming between subnets in a wireless LAN environment}

1 is a block diagram of a WLAN system to which an embodiment of the present invention is applied.

2 is a diagram illustrating each module of a WLAN switch and a distributed system for roaming between subnets in a WLAN environment according to an embodiment of the present invention.

3 is a flowchart illustrating a roaming operation between subnets in a WLAN environment according to an embodiment of the present invention.

The present invention relates to a method for roaming between subnets in a WLAN environment, and more particularly, to a method for roaming between subnets for minimizing packet loss in a WLAN environment.

Traditional wireless LAN was a simple configuration such as access point (AP) and wireless LAN card.However, as wireless LAN has recently spread beyond the vertical market to the enterprise market, security, roaming, and mobility support for secure use of wireless LAN are required. It is becoming.

In this need, the AP began to evolve into a smart AP equipped with various functions such as security, roaming, and mobility, and beyond the steps of the smart AP, a security gateway family appeared and began to promote the use of secure WLAN. Subsequently, a switch-based wireless LAN switch having almost all functions that can be supported in a wired network has been recently introduced to construct a network-based wireless network.

The WLAN switch easily manages numerous access point (AP) management, which was a problem of existing WLAN users, and supports various functions such as providing a secure VPN-based security function and providing seamless access according to frequent movement.

These WLAN switches are network devices that integrate 802.11 wireless environments into Ethernet switches to enable centralized security, mobility, network management and access policy enforcement.

Meanwhile, the WLAN AP is one client, and the WLAN switch includes a server function in the client. If the wired switch supports only an existing Ethernet environment, the WLAN switch may integrate and support wired and wireless. Therefore, a wireless LAN switch has emerged in the recent IT environment in which wired and wireless integration is accelerated.

On the other hand, until recently, the first generation technology and limited standards of WLAN have limited practical roaming of users. In other words, even if all APs are purchased from the same vendor, roaming is possible only in the coverage area of the vendor, and if the user changes the subnet, the user is disconnected and has to reconnect to the network. To solve this problem is to redesign the WLAN so that users do not cross the border of the subnet, but this is not unreasonable and not realistic.                         

Therefore, the above-described WLAN switch supports users to seamlessly roam while seamlessly roaming in different wireless technologies, subnets, and buildings, as well as AP, and guarantees true mobility. In addition, the WLAN switch, which is easy to integrate with the existing infrastructure, provides management advantages such as efficient management and analysis of an increasing number of APs, as well as minimizing the need for configuration work and maintenance for each AP.

On the other hand, in order to implement a wireless LAN, a NIC (a laptop or a desktop wireless LAN card) is required. An access point is a device used to connect a wired LAN (connected with a hub or switch) and a wireless LAN, and provides data transmission and buffering functions. An access point supports hundreds of users and can be used for several kilometers.

In addition, roaming technology, which is emerging as a challenge for wireless LANs, originates from different IP subnets depending on where access points are installed in the wireless LAN architecture. Currently, when a wireless LAN user moves to an IP subnet different from his own, it cannot communicate with each other. However, several companies are attempting to solve this roaming problem using IP subnet roaming software. This allows the IP subnet roaming client to detect and notify the IP subnet roaming server to maintain the connection when the user moves to an area different from his IP address subnet.

Conventionally, when a wireless terminal moves in a wireless LAN environment, when a wireless terminal moves from a wireless LAN switch of a subnet to which the wireless terminal is initially connected to a wireless LAN switch of another subnet, the wireless terminal notifies the distributed system of its location. The distributed system provides tunneling between the first wireless LAN switch and the first wireless LAN switch by providing information about the first wireless LAN switch to which the wireless terminal has first been connected to the wireless LAN switch to which the wireless terminal has moved. Pass the data.

However, there is a problem in that a packet delay may occur when roaming between subnets due to a transmission delay in the process of providing the IP information initially assigned by the wireless terminal.

An object of the present invention for solving the above problems is to provide a roaming method between subnets in a wireless LAN environment that can minimize roaming time between subnets by transmitting information of the wireless terminal in advance to the WLAN switch to which the AP is connected. will be.

As a means for achieving the above object, the inter-subnet roaming method in a wireless LAN environment according to the present invention, the inter-subnet roaming method of a wireless terminal in a wireless LAN environment,

In a roaming method between subnets of a wireless terminal in a wireless LAN environment,

a) storing location information and channel transmission output information of an access point (AP) installed in a subnet to which the wireless terminal belongs to a distributed system;

b) storing the transmission radius of the AP in the distributed system according to the transmission power of the AP;

c) searching for an AP adjacent to a currently connected AP when the wireless terminal moves to another subnet;

d) determining whether there is an AP belonging to a subnet different from the subnet to which the wireless terminal belongs among the adjacent APs;

e) if there is an AP belonging to the other subnet, transmitting wireless terminal information to a WLAN switch installed in the other subnet; And

f) processing roaming between subnets through tunneling with a wireless LAN switch to which the wireless terminal is initially connected;

There is a feature consisting of.

In addition, the roaming method between subnets in a WLAN environment according to the present invention may further include g) repeating steps a) to f) when the wireless terminal maintains a connection.

In this case, the wireless terminal information is characterized in that the information on the medium access control (MAC) address, Internet Protocol (IP) address, currently connected AP or the corresponding subnet information.

The wireless terminal information may be stored in a wireless terminal information table in the distributed system.

In the step c), the circumference corresponding to the transmission area of the AP currently connected to the transmission area of the AP and the transmission area of each AP using the position and transmission power of the AP of the distributed system and the radio wave transmission radius of the AP corresponding to the transmission power of the AP. It is characterized by calculating whether there is an adjacent or intersecting circumference between the corresponding circumferences, and if there is an adjacent or intersecting circumference, search by the adjacent AP.

Here, the transmission area of each AP is registered in the AP information table of the distributed system.

Here, in step e), if the moving subnet is not predicted in advance, the distributed system is characterized by transmitting the information of the wireless terminal to the corresponding WLAN switch when the wireless terminal moves.

Therefore, according to the present invention, when roaming occurs between subnets in a wireless LAN environment, the wireless terminal may search for a subnet in which a wireless terminal may move and transmit information of the wireless terminal to a wireless LAN switch installed in the corresponding subnet in advance. This can minimize latency in roaming between subnets.

Hereinafter, a roaming method between subnets in a WLAN environment according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, roaming has a dictionary meaning of 'hemeda wandering'. In other words, in the case of mobile phones, continuous communication is possible even when moving. The reason is that the user is not aware, but the relay station is constantly changing, so if the AP is installed everywhere, the user can communicate regardless of where he is. For example, in the WLAN, if the ESSIDs match, data communication can be continuously performed even when moving.

According to an embodiment of the present invention, when a movement between subnets occurs in an environment in which a voice or data service is provided while moving and building a wireless LAN, a MAC having a media access control (MAC) address of a terminal may be predicted by predicting a subnet that may be moved in advance. In order to provide an IP (Internet Protocol) address to the WLAN switch and to provide the WLAN service without packet loss with an already assigned IP address, the current wireless terminal is connected using information on the location and transmission distance of the AP. If an AP and an adjacent AP belong to different subnets, the information of the wireless terminal is transmitted to the WLAN switch to which the AP is connected in advance.

Meanwhile, FIG. 1 is a configuration diagram of a wireless LAN system to which an embodiment of the present invention is applied. The wireless LAN system includes a first subnet 100, a second subnet 200, a workgroup switch 300, and a distributed system 400. And a router 500 and the like, and communication is performed through the Internet 600. The first and second subnets 100 and 200 include wireless terminals 110a, 110b, 210a and 210b, access points 120a, 120b, 220a and 220b and wireless LAN switches 130 and 230, respectively. can do.

The subnet (100, 200) is a shortened word for a subnetwork, and refers to a network that belongs to a certain institution but can be recognized as a separate part. In general, a subnet can represent all computers within an area, a building, or the same local area network. An organization's network divided into multiple subnets can be connected to the Internet with a single shared network address. If there is no subnet, the organization will have multiple Internet connections, one for each physically separate subnetwork, which can waste a limited amount of Internet addresses.                     

The wireless terminal (110a, 110b, 210a, 210b) is a device having a MAC interface and a physical layer interface suitable for a wireless medium, such as a wireless LAN card, wireless LAN USB type, wireless LAN PCI type, for example, generally PC A device for transmitting and receiving data by installing a wireless LAN access card.

The WLAN access points 120a, 120b, 220a, and 220b basically have a terminal function, and are WLAN devices that allow access to the distributed system 400. Each WLAN terminal in one cell ( It provides a frame association function between 110a, 110b, 210a, and 210b or between each cell. In addition, the WLAN access points 120a, 120b, 220a, and 220b provide a connection function between the wireless terminals 110a, 110b, 210a, and 210b and the wired LAN. That is, the wireless terminals 110a, 110b, 210a, and 210b perform IPX / IP routing and bridging functions between wired LANs.

The workgroup switch 300 is a switch hub equipped with a function of allowing a faster transmission to several application transmissions in a function of a general switch hub, and has a video processing function and a multimedia processing function.

The router 500 switch is a device including a routing function of a router in a function of the workgroup switch 300, and is a device that allows an IP system to connect an incorrect IP band.

When the wireless terminals 110a and 110b move in the wireless LAN environment, the wireless terminals 110a and 110b move from the wireless LAN switch 130 of the subnet to which the wireless terminals 110a and 110b are initially connected to the wireless LAN switch 230 of the other subnet. In this case, the wireless terminals 110a and 110b inform the distribution system 400 that their location has moved, and the distribution system 400 moves the wireless LAN switch 230 to which the wireless terminals 110a and 110b have moved. ) By providing the information about the wireless LAN switch 130 that is connected to the first time other than the IP granted by the wireless terminal (110a, 110b) for the first time, the first wireless LAN switch 130 and the wireless LAN switch 230 moved Tunneling is formed between them to pass data.

However, in the process of providing the IP information initially granted by the wireless terminals 110a and 110b, a transmission delay may occur and packet loss may occur when roaming between subnets, so that the WLAN switch 230 may move in advance. By transmitting MAC addresses and IP addresses of the wireless terminals 110a and 110b, delay time for roaming between subnets of the WLAN can be minimized.

In addition, when the wireless terminal (110a, 110b) moves in a wireless LAN environment, the wireless terminal is moved to another AP via the AP adjacent to the currently connected AP. Therefore, when the wireless terminals 110a and 110b move at present, the AP which is likely to be connected next becomes an AP adjacent to the AP to which the wireless terminal is currently connected.

In addition, the next portable subnet is likely to move to another subnet when the AP to which the currently connected AP and the adjacent AP belong to different subnets. Therefore, if the wireless terminal quickly retrieves information of an AP adjacent to the currently connected AP, the AP can predict the next subnet to be moved, and the MAC address and IP of the wireless terminal in the WLAN switch installed in the corresponding subnet. When the address is transmitted in advance, when the wireless terminal moves to another subnet, the wireless LAN switch of the corresponding subnet recognizes the MAC information of the wireless terminal and transmits roaming through tunneling of data using the corresponding IP information. This minimizes the delay and allows the data transfer to continue.

In a WLAN environment according to an embodiment of the present invention, a WLAN switch is installed for each subnet, and within the same subnet, an AP connects through an internal port or a separate hub of the same WLAN switch. In one LAN environment, the distributed system is built centrally to integrate and manage information on WLAN switch, WLAN AP, and wireless terminal.

Meanwhile, FIG. 2 is a diagram illustrating each module of a WLAN switch and a distributed system for roaming between subnets in a WLAN environment according to an exemplary embodiment of the present invention, and shows main functional modules of the WLAN switch and the distributed system.

Referring to FIG. 2, the WLAN switch 130 according to an exemplary embodiment of the present invention includes an inter-subnet roaming processing module 131 and mobile wireless terminal information 132. The distributed system 400 includes a neighbor AP and And a subnet search module 410, an AP information table 420, and a wireless terminal information table 430. The wireless terminal information is transmitted to the WLAN switch 130 according to the neighbor subnet search.

When roaming between subnets of a WLAN according to an embodiment of the present invention, the corresponding subnet, IP address, and MAC address are managed for all the WLAN switches 130 installed in the storage device of the distributed system, and the WLAN APs 120a, For 120b), it is assumed that the corresponding subnet, the IP address, the MAC address, the installation location of the AP and the transmission output information are managed, and information about the transmission distance according to the transmission output information of each AP 120a and 120b is stored.

In addition, the input device of the distributed system 400, when the wireless terminal (110a, 110b) is connected to a specific AP (120a, 120b), the MAC address, IP address, access to the wireless terminal (110a, 110b) APs 120a and 120b connected to the wireless terminals 110a and 110b according to the information of the wireless terminals 110a and 110b by receiving information of an AP, a corresponding subnet, and the like using a central processing unit (not shown). ), And if the adjacent AP belongs to a subnet different from the subnet to which the current wireless terminal belongs, it determines the WLAN switch 130 installed in the corresponding subnet, and uses the output device as a wireless LAN. It is assumed that the switch 130 performs a function of transmitting information of the wireless terminal.

Meanwhile, FIG. 3 is a flowchart illustrating roaming operation between subnets in a WLAN environment according to an embodiment of the present invention.

1 to 3, in a WLAN inter-roaming method according to an embodiment of the present invention, first, wireless terminals 110a, 110b, 210a, and 210b are APs 120a, 120b, 220a, and 220b. (S301), when the wireless terminal (110a, 110b, 210a, 210b) is connected to the AP (120a, 120b, 220a, 220b) of the wireless terminal (110a, 110b, 210a, 210b) The MAC address, IP address, and information on the currently connected AP (120a, 120b, 220a, 220b) is stored in the wireless terminal information table 430 of the distributed system 400 (S302).

Thereafter, an AP adjacent to the APs 120a, 120b, 220a, and 220b connected to the wireless terminals 110a, 110b, 210a, and 210b is searched for (S303). The search for the adjacent AP is performed by the AP 120a corresponding to the position and transmission output of the APs 120a, 120b, 220a, and 220b of the distributed system 400 and the transmission power of the APs 120a, 120b, 220a, and 220b. It is registered in the AP information table 420 of the distributed system 400 and the circumference corresponding to the transmission area of the AP 120a, 120b, 220a, 220b currently connected using the radio wave transmission radius of 120b, 220a, 220b. It calculates whether there is an adjacent or intersecting circumference between the circumferences corresponding to the transmission region of each AP, and if there is an adjacent or intersecting circumference, the neighbor AP is searched.

Next, if the AP searched for by the adjacent AP belongs to a different subnet from the subnet to which the current wireless terminal belongs, it is determined that an AP belonging to another subnet exists (S304), and the information about the wireless terminal is stored in the WLAN switch of the corresponding subnet. It transmits (S305) and maintains information until the radio terminal moves (S306).

If there is no AP belonging to the other subnet, information is maintained until the wireless terminal moves.

Next, when the wireless terminal is moved to another subnet (S307), the movement to the corresponding subnet is predicted in advance to check whether the information on the wireless terminal is stored (S308), if stored in advance, the WLAN switch Roam between subnets using.

If the moving subnet is not predicted in advance, the distributed system 400 transmits the information of the wireless terminal to the corresponding wireless LAN switch at the time when the wireless terminal is moved (S309), after which the first wireless LAN switch Process subnet roaming with (S310). In this case, even when the corresponding wireless terminal information is not previously stored in the wireless LAN switch of the subnet to which the wireless terminal is moved, roaming between subnets can be performed to minimize delays between roaming between subnets.

Thereafter, when the wireless terminal continues to maintain the connection (S311), the above-described steps S302 to S310 are repeated.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

According to the present invention, when roaming occurs between subnets in a wireless LAN environment, the wireless terminal may search for a subnet in which a wireless terminal may move, and transmit the information of the wireless terminal to a wireless LAN switch installed in the corresponding subnet in advance. Minimize latency in roaming.

Claims (8)

In a roaming method between subnets of a wireless terminal in a wireless LAN environment, a) storing location information and channel transmission output information of an access point (AP) installed in a subnet to which the wireless terminal belongs to a distributed system; b) storing the transmission radius of the AP in the distributed system according to the transmission power of the AP; c) searching for an AP adjacent to the currently connected AP when the wireless terminal moves to another subnet; d) determining whether there is an AP belonging to a subnet different from the subnet to which the wireless terminal belongs among the adjacent APs; e) if there is an AP belonging to the other subnet, transmitting wireless terminal information to a WLAN switch installed in the other subnet; And f) processing roaming between subnets through tunneling with a wireless LAN switch to which the wireless terminal is initially connected; Roaming method between subnets comprising a. The method of claim 1, g) repeating steps a) to f) when the wireless terminal maintains a connection. Roaming method between subnets further comprising. The method of claim 1, The wireless terminal information is a roaming method between subnets, characterized in that the information about the medium access control (MAC) address, Internet Protocol (IP) address, AP currently connected or corresponding subnet information. The method of claim 3, And the wireless terminal information is stored in a wireless terminal information table in the distributed system. The method of claim 1, Step c) corresponds to the circumference corresponding to the transmission area of the AP currently connected and the transmission area of each AP using the AP's position and transmission power and the radio wave transmission radius of the AP corresponding to the transmission power of the AP. Computing whether there is an adjacent or intersecting circumference between the circumference, and if there is an adjacent or intersecting circumference roaming between subnets characterized in that the search for the adjacent AP. The method of claim 5, The transmission area of each AP is roaming between subnets, characterized in that registered in the AP information table of the distributed system. The method of claim 1, In the step e), when the moving subnet is not predicted in advance, the distributed system roams between subnets, characterized in that to transmit the information of the wireless terminal to the corresponding WLAN switch when the wireless terminal moves. A recording medium having recorded thereon a computer program for implementing the method of claim 1.

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