KR101207666B1 - method for transmitting information in wireless LAN network - Google Patents

Abstract

The present invention relates to a method for transmitting information in a mobile terminal of a wireless LAN network, and more particularly, a network interworking with a wireless LAN network when the mobile terminal accesses a wireless LAN (802.11, Wi-Fi) network. The present invention relates to a method for delivering information of an EMID (EMM MAC ID) server provided by a server to a mobile terminal. The communication method according to the present invention is an operation of requesting transmission of the specific data in a network entity for acquiring and allocating specific data and an access point (AP) communicating through a distribution system (DS). Receiving a request message including a frame indicating a message from the mobile terminal; Transmitting a remote request message to the network entity, wherein the remote request message is generated by encapsulating a frame indicating the request operation; Receiving a remote response message for the remote request message, the remote response message being generated by encapsulating a frame including the specific data; And releasing the encapsulation for the remote response message, and transmitting a frame including the specific data to the mobile terminal.

WLAN, interlocking, beacons, interlocking information, EMID

Description

Method for transmitting information in wireless LAN network

1 is a structure of a frame used in a wireless LAN (IEEE 802.11, Wi-Fi).

FIG. 2 is a diagram illustrating an example of a management frame used in a wireless LAN.

3 is a diagram illustrating components of a management frame body used in a wireless LAN system.

4 is a diagram illustrating a network configuration of a wireless LAN according to the prior art.

FIG. 5 is a diagram illustrating a communication environment in which coverages of several APs overlap.

6 is a diagram illustrating an example of an interworking procedure between a WLAN and 3GPP according to the prior art.

7 is a diagram illustrating a series of procedures that a mobile terminal requests and acquires interworking information according to the prior art.

8 is a diagram illustrating an example of a periodic transmission method of NMB and NDB.

9 is a flowchart illustrating a method of communicating between two APs through a DS.

10 is an example of a structure of a WLAN network for effectively managing interworking information.

11 illustrates the interworking information broker request IE.

12 is a diagram illustrating an example of the interworking information broker IE (IE).

13 illustrates another example of the interworking information broker IE (IE).

14 shows an example of the EMID server IE.

15 illustrates an example of an interworking information request IE (IE).

16 illustrates an example of an interworking information response IE.

17 shows an example of the interworking information request action frame.

18 shows an example of an interworking information response action frame.

19 shows an example of an EMID Request action frame.

20 illustrates an example of an EMID response action frame.

21 is a flowchart illustrating a communication method with an interworking information broker according to the present embodiment.

22 shows another example of a procedure flow diagram according to the present invention.

The present invention relates to a method for transmitting information in a mobile terminal of a wireless LAN network, and more particularly, a network interworking with a wireless LAN network when the mobile terminal accesses a wireless LAN (802.11, Wi-Fi) network. The present invention relates to a method for delivering information of an EMID provided from an ESS MAC ID (EMID) server to a mobile terminal.

Hereinafter, a frame structure used in a WLAN according to the prior art will be described. 1 is a structure of a frame used in a wireless LAN (IEEE 802.11, Wi-Fi).

FIG. 2 is a diagram illustrating an example of a management frame used in a wireless LAN. The management frame includes various information in a frame body. Tables 1 to 3 show beacon frames, probe request frames, and probe response frames included in the frame body of the management frame. The beacon frame, the probe request frame, and the probe response frame are examples of the management frame.

3 is a diagram illustrating components of a management frame body used in a wireless LAN system. An element of the management frame body includes a fixed area and an information element area. Within the management frame, a fixed-lenth mandatory frame body components are defined as the fixed area, the variable length mandatory frame body components and all optional frames. Optional frame body components are defined as the information element. (a) shows the fixed area, (b) shows the information element and (c) shows an SSID element which is an example of the information element.

Hereinafter, a conventional remote request broker (RRB) will be described.

As a component of a WLAN Access Point (AP), a Remote Request Broker (RRB) exists in a system management entity (SME) of the AP. The RRB enables communication between APs existing in the same mobility domain. In other words, between the APs having the same Mobility Domain ID is supported through the DS in a logical connection structure through the DS. The RRB generates a remote request / response frame or relays a message between the current AP and the next candidate AP.

The operation of the prior art device is described below.

1. General Configuration of Wireless LAN (IEEE802.11)

Wireless LAN refers to a wireless terminal such as a PDA or laptop equipped with a wireless LAN card using an Access Point (abbreviated as 'AP') device corresponding to a hub of a wired LAN. (LAN) A network environment that provides services. In simple terms, it can be thought of as a system in which a wired section between a hub and a user terminal is replaced with a wireless section between an AP and a network interface card (NIC) (for example, a wireless LAN card) in an existing Ethernet system. The wireless LAN has the advantage of easy relocation of the terminal, no need to wire the wireless terminal, easy construction and expansion of the network, and communication on the move. However, the wireless LAN has a relatively low transmission rate and a wireless channel. Due to the characteristics, signal quality is unstable and signal interference may occur.

4 is a diagram illustrating a network configuration of a wireless LAN according to the prior art. As shown, the network type of the wireless LAN is classified into two types depending on whether the AP includes the AP. The form that includes the AP is called an infrastructure network, and the form that does not include an AP is called an ad-hoc network. In addition, a service area provided by one AP is referred to as a basic service area (BSA), and refers to a wireless terminal connected to the AP including the AP and is referred to as a basic service set (BSS). This is called SS (Station Service) when the wireless terminal is connected to the AP and serviced. The SS also includes a service for transmitting and receiving wireless terminals in the ad-hoc network. As shown, the service areas BSAs may overlap each other. Two or more APs may interwork with each other to allow a wireless terminal connected to each AP to communicate with a wireless terminal connected to another AP. In this case, the connection of APs is called a distribution system (DS), and a service provided through the DS is called a distribution system service (DSS). In addition, the area in which the DSS can be provided is called an Extended Service Area (ESA), and all wireless terminals and APs provided with the DSS in the ESA are called an Extended Service Set (ESS).

As shown in Table 5, there are nine categories of services defined in IEEE 802.11 standard.

a) Authentication d) Deassociation g) Privacy b) Association e) Distribution h) Reassociation c) Deauthentication f) Integration i) MSDU delivery

The Authentication service and Deauthentication service are related to user authentication, and the Association service, Deassociation, and Reassociation service are related to a wireless terminal connected to an AP. The reassociation service is used when the wireless terminal changes the BSS in the ESS or changes the currently connected state. The distribution service is a conceptual service that allows a wireless terminal connected to one AP to communicate with a wireless terminal connected to another AP through a DS. Integration services are used to connect to an IEEE 802.11 LAN and a collective LAN, whether wired or wireless.

The items of each service are changed through the setting of the DS. Privacy service is about security and uses WEP (Wired Equivalent Privacy) protocol. The MAC Service Data Unit (MSDU) delivery service is used to transfer user data. Table 6 below divides the service items into two service categories described above.

SS (Station Service) DSS (Distribution System Service) a) Authentication
b) Deauthentication
c) Privacy
d) MSDU delivery a) Association
b) Deassociation
c) Distribution
d) Integration
e) reassociation

The WLAN AP performs various functions such as a hub of a wired LAN, a bridge function, a home gateway function, an automatic fall-back function, and a roaming function. The Bridge function enables communication between two distant buildings using a directional high gain external antenna. The Home Gateway function allows a home network information communication device to access an external network using a wireless LAN AP. The automatic fall-back function is a function of reducing the transmission rate from 11 Mbps to 5.5 Mbps, 2 Mbps, or 1 Mbps when the channel condition worsens due to the distance between the AP and the wireless terminal. If the high speed transmission at 11Mbps is performed even though the channel condition is not good, the transmission speed is lowered properly because the loss due to retransmission is greater. Basic roaming functions are available between the BSSs.

2. Typical example of WLAN network

FIG. 5 is a diagram illustrating a communication environment in which coverages of several APs overlap. If 802.11 technology is activated and hand-off is supported within the same ESS, the environment as shown in FIG. 5 may be a typical 802.11 network. In the illustrated network, when a STA (Station, WLAN UE) performs a passive scan receiving a beacon packet, the STA is a beacon packet from two or more APs belonging to the same AN. When the AP is transmitted, and the AP includes information of a subscription service provider network (SSPN) (or AN) belonging to the beacon packet, the STA may combine two or more packets. It becomes possible.

3. Wireless LAN and 3GPP Interworking

The interworking between WLAN and cellular (3GPP) is largely divided into the scanning procedure for detecting the WLAN network, the authentication procedure with the WLAN network, the cellular network detection procedure, and the authentication procedure with the cellular network. Cellular network detection and preemptive procedures are performed as part of the authentication process with the cellular network.

3.1 Wireless LAN Scanning Procedure

In the WLAN, a name for the WLAN network is provided as an SSID information element. A WLAN UE detects available wireless networks through the scanning procedure. The scanning procedure is divided into two types.

i) Passive scanning: a method of receiving information by receiving a beacon broadcasting in a network

ii) Active scanning: a method of obtaining desired information by requesting desired information from the WLAN terminal to a network

3.2 Authentication with Wireless LAN

The authentication process is performed through an authentication management frame. In the case of a wireless terminal and an AP supporting 802.11i, an 802.1x-based authentication process is additionally performed after performing an association procedure.

3.3 Cellular Network Discovery Procedure

The network detection procedure provides the WLAN UE with a list of supported Public Land Mobile Networks (PLMNs) needed to perform a manual selection procedure. Authentication, Authorization and Accounting).

3.4 Cellular Authentication Procedure

Authentication with the cellular network is divided into EAP-AKA (Extensible Authentication Protocol-Authentication and Key Agreement) and EAP-SIM (Extensible Authentication Protocol-Subscriber Identity Module).

6 is a diagram illustrating an example of an interworking procedure between a WLAN and 3GPP according to the prior art. 6 is only a diagram illustrating an interworking procedure between the wireless LAN and the cellular communication network, the wireless LAN system may be linked to a cellular communication network (eg, 3GPP2, etc.) other than 3GPP. The WLAN terminal performs passive scanning (S601) or active scanning (S602, S603) to detect the WLAN network. The wireless LAN network is selected according to the scanning result (S604). In order to deliver a message in a distribution system (DS), a distribution service needs to know which AP is accessible to a specific terminal, which is performed as an association procedure (S605 and S606). The WLAN mobile terminal performs various authentication methods according to an authentication method for performing an authentication procedure with the WLAN network. The examples shown in this embodiment are Open System Authentication (S607, S608) and shared key authentication (S609 to S612) methods. The WLAN mobile terminal must perform an authentication procedure (S613 to S623) with the 3GPP network to use the 3GPP network over the WLAN network. In this embodiment, the mobile terminal and the communication network support the EAP-SIM. give.

4. How to transfer interworking information

In the wireless LAN network, a method for transmitting interworking information on a network interworking with a wireless LAN network includes a method of broadcasting by a beacon and a response from the AP by a request of a WLAN mobile terminal. There is a way to respond.

4.1 Interworking Information Broadcast by Beacon

Hereinafter, a conventional beacon is divided into two types using the concept of layered beacon. That is, beacons are classified into two types, NMB (Network Maintenance Beacon) and NDB (Network Discovery Beacon) including the interworking information.

Network Maintenance Beacon (NMB): Indicates a conventional Beacon message.

Network Discovery Beacon (NDB): Represents a beacon message including the interworking information in a conventional NMB.

4.2 Transferring interlocking information by request of terminal

If the WLAN UE does not receive the NDB, the WLAN UE requests the interworking information to the WLAN network through a probe request message. If the WLAN network holds the interworking information, the WLAN network immediately transmits the interworking information to the mobile terminal through a probe response message. In addition, when the wireless LAN network does not hold the interworking information, the interworking information is obtained from a network interworking with the wireless LAN network by a predetermined procedure.

7 is a diagram illustrating a series of procedures that a mobile terminal requests and acquires interworking information according to the prior art. The mobile terminal requests an AP to provide the interworking information (IE1, IE2, etc.) through the probe request message (S710). When the AP cannot provide the interworking information, when the interworking information is again transmitted in the probe response message (ComeBackDelay) and an ID (Query ID) for identifying the request for the interworking information is included. The transfer to the mobile terminal (S720). The AP obtains the interworking information requested by the terminal from the interworking network (S730, S740). The mobile terminal sends the Probe Request message again at a time scheduled to return, that is, a time for transmitting the interworking information again (ComeBackDelay). At this time, the request including the Query ID received through the step S720 (S750). Since the Query ID is included and requested, there is no need to display the interworking information again. The AP transmits information obtained from the interworking network to the mobile terminal (S760).

8 is a diagram illustrating an example of a periodic transmission method of NMB and NDB. The AP determines at what time the NDB will be sent and sends the NDB at the appropriate time. In the example, it is assumed that the NDB period in which the NDB is transmitted is 4, and the NDB is transmitted in every fourth beacon period.

9 is a flowchart illustrating a method of communicating between two APs through a DS. The two APs are connected through the same DS. In FIG. 9, each AP includes a MAC Layer Management Entity (MLME) and the RRB. A mobile station (Station: STA) transmits an action frame to the current AP (S901). The current AP encapsulates the received motion frame into a Remote Request frame, and looks at a target TAP address (address of an AP to which the motion frame should be transmitted) included in the motion frame. A destination address of an Ethernet frame is set as the target TAP address and transmitted (S902). The target TAP receives the remote request frame, decapsulates an action frame (FT action request) encapsulated in the frame, and decapsulates the released operation. Pass the frame to where it is needed. The procedure for the transmission to the necessary place is not shown separately as will be apparent to those skilled in the art. The target TAP transmits a response message. That is, the target TAP encapsulates an action frame (FT action response) to be sent in a remote response frame when the response message is transmitted to the mobile terminal through the DS. The AP is transmitted to the current AP, that is, the AP that has transmitted the remote request frame (S903). The current AP receiving the remote response frame decapsulates to obtain the action frame and transmits it to the mobile terminal through wireless communication (S904).

The mobile terminal may additionally transmit an operation frame according to the operation frame to the current AP (S905), and this procedure corresponds to S901. The current AP may encapsulate the operation frame and transmit the encapsulation frame to the target TAP (S906). The AP may receive a response message to release the encapsulation (S907), and the procedure corresponds to the steps S902 and S903. In operation S908, the operation frame in which the encapsulation is released may be transmitted to the mobile terminal.

In the prior art, only the present AP acquires the interworking information and delivers the interworking information to the mobile terminal. That is, in acquiring the interworking information requested by the mobile terminal, each AP obtained the information in any arbitrary method that cannot be defined with any entity of the network having the interworking information. Performing such a task has a problem of increasing the throughput of data that the AP must process.

The present invention has been proposed to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a method for efficiently processing various information such as interworking information while reducing the throughput of data processed by an access point (AP). I would suggest.

Summary of the Invention

The communication method according to the present invention is an operation of requesting transmission of the specific data in a network entity for acquiring and allocating specific data and an access point (AP) communicating through a distribution system (DS). Receiving a request message including a frame indicating a message from the mobile terminal; Transmitting a remote request message to the network entity, wherein the remote request message is generated by encapsulating a frame indicating the request operation; Receiving a remote response message for the remote request message, the remote response message being generated by encapsulating a frame including the specific data; And releasing the encapsulation for the remote response message to transmit a frame including the specific data to the mobile terminal.

According to an aspect of the present invention, a communication method includes a network entity for obtaining and allocating specific data and an access point (AP) for communicating through a distribution system (DS). Obtaining information about the network entity from the access point; Transmitting a request message including a frame indicating an operation of requesting transmission of the specific data to the access pointer; And releasing the encapsulation for the remote response message to transmit a frame including the specific data to the mobile terminal.

Work of invention Example

The construction, operation and effects of the present invention will be embodied by one preferred embodiment of the present invention described below.

1. Structure of Wireless LAN Network for Managing Interworking Information

10 is an example of a structure of a WLAN network for effectively managing interworking information. In the example of FIG. 10, there is at least one interworking information broker in each distribution system (DS). As shown, the interworking information intermediary interworking information with other subscription service provider network (SSPN), for example roaming (e.g. roaming) availability, billing information, support services (Voice over IP, IMS) , Push to talk, etc.) That is, the interworking information broker is a subject that obtains various information, that is, interworking information, from a specific SSPN. The interworking information intermediary indicates a subject obtaining the interworking information, and the present invention is not limited to the name. In addition, the interworking information relay may be implemented as an independent device or as a function included in other network entities. That is, a function of acquiring the interworking information may be added to a specific AP to perform the function of the interworking information intermediary, or a separate server may perform the function of the interworking information intermediary. However, in order to accommodate the scheme proposed by the present invention, it is necessary to support a structure and a function for enabling communication over a DS. An interworking controller located in a specific SSPN includes all entities for interworking in the SSPN. That is, the interworking information relay communicates with the interworking information controller provided in the specific SSPN to obtain interworking information from a specific SSPN, and the interworking information controller may be implemented in various ways within the specific SSPN. As shown, one or more interworking information brokers are included in one DS.

An ESS MAC Identifier (EMID) server is an entity that allocates an EMID to a mobile terminal and has the same structure as when replacing an interworking information broker of FIG. 10 with an EMID server. The EMID server represents a subject for allocating an EMID to a mobile terminal, and the present invention is not limited to the above name. In addition, the EMID server may be implemented as a separate device, or may be implemented as a function included in other network entities. That is, an EMID distribution function may be added to a specific AP to perform the EMID server function, or a separate server may perform the function of the EMID server, and may be implemented in an entity such as the EMID server and the interworking information broker. It may be. However, in order to accommodate the method proposed in the present invention, the EMID server must support a structure and a function for enabling communication on a DS.

2. An example of WLAN (IEEE 802.11) management frames proposed in this embodiment.

Hereinafter, an example of a WLAN (IEEE 802.11) management frame proposed for acquiring the interworking information or obtaining the EMID will be described according to the present embodiment.

2.1 Probe Request Message

Table 7 below shows information elements included in a probe request message used in this embodiment. The probe request message adds an Interworking Information Broker Request IE to enable the mobile terminal to obtain information about the interworking information broker.

Order Information Notes One SSID 2 Supported rates 3 Interworking Information Broker Request Information Element (IE) The Interworking Information Broker Request IE (Informatino Element) is transmitted when requesting information of an interworking information broker (Interworking Information Broker) existing in the DS. The mobile terminal includes the SSPN ID of the desired network and transmits it to the IE to acquire information of the corresponding SSPN for which the mobile terminal desires interworking information among interworking information brokers interworking with a specific AP. Information about a specific interworking information intermediary can be informed through a probe response message proposed below.

2.2 Probe Response Message

Table 8 below shows information elements included in a probe response message used in this embodiment.

When a request for information on an interworking information broker entity is received from a specific mobile terminal, information about an interworking information broker entity that can be communicated through a current AP and a DS is received. Response) is informed via message. That is, the current AP communicating with the mobile terminal provides the mobile terminal with information about an interworking information intermediary located in the DS where the current AP is located through the probe response message.

Order Information Notes One Timestamp 2 Beacon interval 3 Capability information 4 SSID 5 Supported rates 6 FH Parameter Set 7 DS Parameter Set 8 CF Parameter Set 9 IBSS Parameter Set 10 Interworking Information Broker IE The current AP includes information on an Interworking Information Broker that can communicate through a DS (DS including the current AP).

2.3 Beacon Messages

Table 9 below shows a beacon message used in this embodiment.

Information on the interworking information relay may be periodically broadcast through the beacon message. As described above, when there is another interworking entity corresponding to the interworking information intermediary, it is more preferable to periodically broadcast the information about the interworking entity through the beacon. If the information on the interworking information broker is broadcasted through the beacon message, the mobile terminal located in the coverage of a specific AP is connected to the interworking information broker before accessing the network. Information about can be obtained. By using the beacon message as described above, the mobile terminal according to the present embodiment is advantageous in that it is not necessary to transmit the information request message for the interworking information broker to obtain information on the interworking information broker. Has an effect.

The beacon message may broadcast information about the EMID server together with the information about the interworking information intermediary. The ESS MAC Identifier (EMID) is an identifier assigned to the mobile terminal and is provided by the EMID server. The EMID is an identifier corresponding to a conventional MAC address. The MAC address, which is a physical address of Ethernet, is generally 48 bits long and has been used for the designation of a sender and an address at the head of the data frame of the MAC layer. Since the MAC address is assigned to a specific device, there is a problem that a mobile path of a specific mobile terminal may be exposed through the MAC address, and an EMID corresponding to the MAC address has been proposed. The EMID is provided from an EMID server, and the EMID is variably provided, so that the mobile terminal may be provided with an identifier of a MAC layer that is more secure than the MAC address.

Order Information Notes One Timestamp 2 Beacon interval 3 Capability information 4 SSID 5 Supported rates 6 FH Parameter Set 7 DS Parameter Set 8 CF Parameter Set 9 IBSS Parameter Set 10 TIM 11 Interworking Information Broker The AP currently contains information from the Interworking Information Broker that the AP can communicate with. 12 EMID Servers IE Server Information Element (IE) Information on the EMID server that the AP can communicate with via DS is included.

4. Interworking Information action frame

Category values, MIH Information elements, Action field, and Status code field for the newly defined Interworking Information action frame for interworking information request / response are as follows.

Category values Name Value See-sub field Fast BSS Transition 6 7.4.6 Interworking Information 7 Reserved 8-127

Interworking Information action field values Action field value Description 0 Reserved One Interworking Information Request 2 Interworking Information Response 3-255 Reserved

Status code field Status code Meaning 0 successful One Unspecified Failure .... .......... 54 Invalid PMKID 55 Invalid EAPKIE 56 Invalid Interworking Information Action Frame 57 57-65535 Reserved

5. An example of specific implementation of the information elements described above

11 illustrates the interworking information broker request IE. The mobile terminal transmits the SSPN IDs to the interworking information relay request IE. Receiving the interworking information broker request IE, the AP responds with at least one interworking information broker information that can obtain information from these SSPNs.

The following is a description of the parameters included in the interworking information broker request IE (IE) shown in FIG.

-SSPN ID: This is an identifier for identifying the SSPN and enumerates IDs of SSPNs desired by the UE. The ID can be expressed in the form of a realm, or in the form of a number determined by a globally unique identifier.

12 is a diagram illustrating an example of the interworking information broker IE (IE). The following is a description of each parameter of the interworking information broker IE shown in FIG.

Result: Represents a response to the Interworking Information Broker Request requested by the mobile station. 0x00: Success, 0x01: 1st requested broker does n’t exist, 0x02: 2nd requested broker does n’t exist, 0x03: 3rd request broker does n’t exist,. 0xFF: No Available Broker

That is, the result regarding whether the requested intermediary (interlocking information intermediary) is available through the Result parameter can be notified.

-Broker MAC Address: The Broker MAC Address in charge of interworking information on the requested SSPN. The broker MAC Address is listed in the same order as requested except for the unavailable broker notified as a Result. That is, an address or identifier of a MAC layer capable of identifying an intermediary of interworking information for obtaining interworking information from a specific SSPN may be notified through the parameter.

13 illustrates another example of the interworking information broker IE. The following is a description of the Broker Capability parameter of the interworking information intermediary IE shown in FIG.

Broker Type: 0b001: Interworking Information Broker, 0b010: EMID Server, 0b011: Interworking Information Broker & EMID Server combined.

The broker type is determined according to the function of the intermediary. According to an embodiment of the present invention, the mobile terminal receives the interlocking information from the interlocking information intermediary receiving the interlocking information from the EMID server or obtaining the interlocking information from a specific SSPN. In addition, as described above, the interworking information relay and the EMID server may be implemented in various forms. Accordingly, the interworking information broker and the EMID server may be configured in the same network entity, and the network entity may be a specific AP. Therefore, the type of the broker represented by the Broker Capability parameter may correspond only to the interworking information intermediary, only the EMID server, or the interworking information intermediary and the EMID server.

# of Indicated Broker: Indicates the number of brokers or servers of the type indicated in the Broker Type.

FIG. 14 shows an example of the EMID server IE. The AP communicating with the mobile terminal informs the mobile terminal of the MAC address of the EMID server (Server) that can communicate with the current AP in the DS.

15 illustrates an example of an interworking information request IE (IE). The interworking information request IE may be included in an interworking information operation frame described below.

16 illustrates an example of an interworking information response IE. The interworking information response IE may be included in an interworking information operation frame described below.

5. Interworking Action Frame

The interlocking information operation frame will be described below. Hereinafter, a linkage information request action frame among a plurality of linkage information action frames used in the present embodiment will be described.

17 shows an example of the interworking information request action frame. The following is a description of each parameter shown in FIG.

Category: Category value for the Interworking Information Action Frame. The Category is set to 7 (Interworking Information).

Action: The action parameter is set to 1 when requesting interworking information.

STA Address: It is set as a MAC address of a station (STA).

Destination Address: It is set to the MAC address of the interworking information broker, which can hold or obtain interworking information. The interworking information intermediary can be obtained through the beacon message proposed in this embodiment. In addition, it can be obtained through the exchange of the probe request message and the probe response message proposed in this embodiment.

Interworking Information Request IE: includes the Interworking Information Request IE for requesting interworking information to be acquired. The interworking information request IE may be implemented as shown in FIG. 15.

Hereinafter, the interworking information response action frame among the plurality of interworking information action frames used in the present embodiment will be described. 18 shows an example of an interworking information response action frame.

 The following is a description of each parameter shown in FIG.

Category: Category value for the Interworking Information Action Frame. The Category is set to 7 (Interworking Information).

Action: The action parameter is set to 2 when responding to interworking information.

STA Address: The STA address in the Interworking Information Request Action Frame is inserted into the MAC Address of the UE.

-Destination Address: Set to MAC address of responding Interworking Information Broker.

Interworking Information Response IE: includes an Interworking Information Response IE including the interworking information requested by the terminal. The interworking information response IE may be implemented as an example of FIG. 16.

7. Layer 2 temporary address allocation of the terminal using the action frame

7.1 Hereinafter, a method of using the above-described interworking information action frame for allocating a layer 2 temporary address of the terminal will be described.

As described above, in the BSS and the ESS, a temporary two layer address (EMID) may be allocated to be used instead of the actual MAC address of the terminal for the frame exchange between the terminal and the AP. To this end, an example of an EMID IE that may be included in the interworking information action frame is shown.

Name Element ID Length (Byte) Value EMID TBD 6 The ESS MAC Identifier (EMID) is temporarily assigned on the ESS.

The terminal and the AP include the EMID IE after the interworking information request IE (FIG. 15) or the interworking information request IE (FIG. 16) of FIG. A procedure of allocating a temporary layer 2 address of the terminal may be performed.

7.2 Assigning Temporary Addresses Using Separate Action Frames

Hereinafter, a method of allocating the second-layer temporary address using a separate action frame instead of the above-described interworking information action frame to allocate the second-layer temporary address of the terminal will be described. do.

7.2.1 EMID action frame

Hereinafter, Category values, MIH Information elements, Action field, and Status code field for EMID Allocation action frame newly defined for interworking information request / response are as follows.

Category values Name Value See-sub field Fast BSS Transition 6 7.4.6 Interworking Information 7 EMID 8 Reserved 9-127

EMID action field values Action field value Description 0 Reserved One EMID Request 2 EMID Response 3-255 Reserved

Status code field Status code Meaning 0 successful One Unspecified Failure 2-53 ...... 54 Invalid PMKID 55 Invalid EAPKIE 56 Invalid Interworking Information Action Frame 57 Invalid EMID Action Frame 58-65535 Reserved

7.2.2 Example of implementation for an EMID Action Frame

19 shows an example of an EMID Request action frame. Hereinafter, each parameter illustrated in FIG. 19 will be described.

-Category: Category value for the EMID Action Frame, which is set to 8 (EMID).

-Action: Set to 1 for EMID Request.

-STA Address: The MAC address of the terminal is given an EMID randomly assigned by the AP or the MAC address of the actual terminal.

-Destination Address: The MAC address of the EMID server or EMID Broker that allocates and manages the EMID. It is obtained through the beacon message.

EMID IE: Contains the EMID of the previously allocated terminal. If there is no previously assigned EMID, it is omitted.

20 illustrates an example of an EMID response action frame. Hereinafter, each parameter illustrated in FIG. 20 will be described.

-Category: Category value for the EMID Action Frame, which is set to 8 (EMID).

-Action: Set to 2 for EMID Request.

-STA Address: The STA address in the EMID Request Action Frame is inserted into the MAC address of the terminal.

-Destination Address: MAC Address of the responding EMID server or EMID Broker

EMID IE: Contains an EMID allocated to the terminal.

Hereinafter, a method of obtaining the interworking information or the EMID using the above-described message and frame will be described.

21 is a flowchart illustrating a communication method with an interworking information broker according to the present embodiment.

To access the WLAN mobile terminal, the AP may broadcast information on an interworking information broker in a DS with which the AP can communicate through a beacon message according to the present embodiment. As described above, the broadcast information may include information including address information of the EMID server along with information including address information of the interworking information broker. The information of the interworking information broker and the information of the EMID server may be transmitted to different IEs, or both may be displayed in the IE and transmitted (S211).

The mobile terminal which has not obtained the information through the beacon message requests the information of the interworking information broker through the probe request message according to the present embodiment. Since the mobile terminal transmits the SSPN ID corresponding to the interworking information to be obtained, the AP receiving the probe request message can obtain interworking information on the SSPN ID. Broker) only needs to transmit the address information (S212). In this case, the mobile station transmits address information on the interworking information intermediary capable of obtaining interworking information on the SSPN ID requested by the mobile terminal. In addition, when the SSPN ID is not included in the request of the mobile terminal, all address information for all interworking information intermediaries is transmitted (S213).

The mobile terminal obtaining the address of the interworking information broker through the procedures of S211 or S212 to S213 requests interworking information by including the address information of the interworking information broker (Interworking Information Broker Request IE). The interworking information request action frame is transmitted to the AP (S214).

The AP transmits a remote request frame to an interworking information broker included in the interworking information request action frame, which is received from the mobile terminal in the remote request frame. The interworking information request operation frame is encapsulated (S215). The interworking information broker receiving the remote request frame transmits a remote response frame to the AP including the interworking information requested by the mobile terminal (S216). An interworking information response action frame is encapsulated in the remote response frame. The AP decapsulates the remote response frame and extracts the information information response action frame. The interworking information response action frame is transmitted to the mobile terminal that has transmitted the interworking information request action frame (S217).

The mobile terminal may obtain an EMID by performing a procedure corresponding to S218 to S221. In order for the mobile terminal to request an EMID allocation from an EMID server to obtain an EMID, a destination parameter of the EMID request action frame according to the present embodiment is set to an EMID server address (the beacon according to the present embodiment). Beacon) or an EMID server address obtained through a probe request / response message) and transmits it to the current AP (S218). As described above, the EMID server and the interworking information intermediary may be implemented in various forms, and the interworking information intermediary may perform the function of the EMID server. In order to deliver the received EMID request action frame to the EMID server, the encapsulation is delivered in a remote request frame (S219). The EMID server generates an EMID response action frame according to the present embodiment to allocate an EMID, encapsulates it in the remote response frame, and delivers the remote request frame to the AP that transmitted the remote request frame. (S220). Receiving the remote response frame, the AP decapsulates, extracts an EMID response action frame, and transfers it to the mobile terminal corresponding to the STA address in the operation frame (S221).

The mobile terminal may request interworking information while acquiring an EMID by performing procedures S222 to S225 corresponding to S214 to S217. In this case, the function of the EMID server and the network entity performing the function of the interworking information broker should have the same MAC address.

22 shows another example of a procedure flow diagram according to the present invention. When the interworking information relay or the EMID allocation server acquires the interworking information or allocates the EMID, it may occur that the interworking information or the EMID which has been requested to be acquired to the mobile terminal cannot be immediately provided. In this case, the embodiment of FIG. 22 describes a method of notifying the mobile station of transmitting the interworking information or EMID after a specific time in this case, and transmitting an identifier (Query ID) for the request of the mobile terminal. . In the embodiment of FIG. 22, the procedure of S2204 to S2211 below is an example of applying the communication method of FIG. 7. In addition, in the embodiment of FIG. 22, the procedures of S2212 to S2217 below transmit information when the AP notifies the mobile terminal even if the mobile terminal does not transmit a separate request message at the time of retransmission notified by the AP. This is an example. In addition, in the embodiment of FIG. 22, the procedure of S2218 to S2225 is an example of applying the communication method of FIG. 7 when obtaining the EMID.

To access the WLAN mobile terminal, the AP may broadcast information on an interworking information broker in a DS with which the AP can communicate through a beacon message according to the present embodiment. As described above, the broadcast information may include information including address information of the EMID server along with information including address information of the interworking information broker. The information of the interworking information broker and the information of the EMID server may be transmitted to different IEs, or both may be displayed in the IE and transmitted (S2201).

The mobile terminal which has not obtained the information through the beacon message requests the information of the interworking information broker through the probe request message according to the present embodiment. Since the mobile terminal transmits the SSPN ID corresponding to the interworking information to be obtained, the AP receiving the probe request message can obtain interworking information on the SSPN ID. Broker only needs to transmit the address information (S2202). In this case, the mobile station transmits address information on the interworking information intermediary capable of obtaining interworking information on the SSPN ID requested by the mobile terminal. In addition, when the SSPN ID is not included in the request of the mobile terminal, all address information for all interworking information intermediaries is transmitted (S2203).

The mobile terminal obtaining the address of the interworking information broker through the procedure of S2201 or S2202 to S2203 requests interworking information by including the address information of the interworking information broker (Interworking Information Broker Request IE). The interworking information request action frame is transmitted to an AP (S2204). The AP transmits a remote request frame to an interworking information broker included in the interworking information request action frame, which is received from the mobile terminal in the remote request frame. The interworking information request operation frame is encapsulated (S2205). When the interworking information broker, which has received the remote request frame, cannot provide the interworking information, when the interworking information request should be transmitted again (ComeBackDelay) and for identifying the request for the interworking information. The remote response frame encapsulating the interworking information response action frame including the ID (QueryID) is transmitted to the AP (S2206). The AP decapsulates the remote response frame, extracts the information information response action frame, and includes an interworking information response action frame including ComebackDelay and QueryID. Frame) is transmitted to the mobile terminal that has transmitted the Interworking Information Request Action frame (S2207).

The interworking information request action frame is sent again at a time when the mobile terminal is supposed to request interworking information, that is, a time (ComeBackDelay) to transmit interworking information again. In this case, the request includes the Query ID received through step S2207 (S2208). Since the Query ID is included and requested, there is no need to display the interworking information again.

The AP transmits a remote request frame in which the interworking information request action frame is encapsulated to an interworking information broker included in the interworking information request action frame. (S2209). The interworking information broker, which receives the remote request frame, encapsulates an interworking information response action frame including interworking information previously requested by the mobile terminal through a QueryID. The frame is transmitted to the AP (S2210). The AP decapsulates the remote response frame and extracts the information information response action frame. The interworking information response action frame is transmitted to the mobile terminal that has transmitted the interworking information request action frame (S2211).

When the interworking information intermediary cannot provide the interworking information, the mobile terminal may perform interworking information by performing the S2212 to S2217 procedures corresponding to the S2201 to S2211 procedures.

The mobile terminal obtaining the address of the interworking information broker through the procedure of S2201 or S2202 to S2203 requests interworking information by including the address information of the interworking information broker (Interworking Information Broker Request IE). The interworking information request action frame is transmitted to the AP (S2212). The AP transmits a remote request frame to an interworking information broker included in the interworking information request action frame, which is received from the mobile terminal in the remote request frame. The interworking information request operation frame is encapsulated (S2213). When the interworking information broker receiving the remote request frame cannot provide the interworking information, when the interworking information is transmitted (ComeBackDelay) and an ID for identifying the request for the interworking information (QueryID) In step S2214, the remote response frame encapsulating the interworking information response action frame including the encapsulation information response operation frame is transmitted to the AP. The AP decapsulates the remote response frame, extracts the information information response action frame, and includes an interworking information response action frame including ComebackDelay and QueryID. Frame) is transmitted to the mobile terminal that has transmitted the interworking information request action frame (S2215).

The interworking information broker includes a remote response frame encapsulating an interworking information response action frame including a QueryID and interworking information previously requested by the mobile terminal according to a time (ComeBackDelay) to be transmitted by the interworking information. Transmission to the AP (S2216). The AP decapsulates the remote response frame and extracts the information information response action frame. The AP transmits an interworking information response action frame including a QueryID to the mobile terminal that has transmitted the interworking information request action frame (S2217). The mobile terminal transmits to ComeBackDelay. The interworking information response operation frame transmitted according to the reception is received to obtain interworking information.

If the EMID allocation server cannot immediately perform the EMID allocation, the mobile terminal may perform the EMID allocation procedure by performing the S2218 to S2225 procedures corresponding to the S2204 to S2211 or S2212 to S2217 procedures. Set a destination parameter of the EMID Request Action frame to an EMID server address (EMID server address obtained through the Beacon message or Probe request / response message according to the present embodiment). And transmits to the current AP (S2218). As described above, the EMID server and the interworking information intermediary may be implemented in various forms, and the interworking information intermediary may perform the function of the EMID server. In order to deliver the received EMID request action frame to the EMID server, the encapsulation is transmitted to a remote request frame (S2219). EMID operation including an ID (QueryID) for identifying the EMID allocation request and when to send an EMID allocation request again when the EMID server that has received the remote request frame cannot immediately make an EMID allocation. The remote response frame encapsulating the response operation frame is transmitted to the AP (S2220). The AP decapsulates the remote response frame, extracts the EMID response action frame, and EMIDs an EMID response action frame including ComebackDelay and QueryID. A request action frame is transmitted to the mobile terminal that has transmitted the request action frame (S2221). The mobile station sends the EMID Request Action Frame again at a scheduled time for requesting EMID allocation, that is, a time (ComeBackDelay) for transmitting EMID allocation information again. In this case, the request includes the Query ID received through step S2221 (S2222). The AP transmits a remote request frame in which the EMID request action frame is encapsulated to an EMID server included in the EMID Request Action Frame (S2209). The EMID server receiving the remote request frame transmits a remote response frame encapsulating an EMID response action frame including an EMID previously requested by the mobile terminal through a QueryID to the AP (S2222). . The AP decapsulates the remote response frame and extracts the EMID response action frame. The EMID Response Action Frame is transmitted to the mobile terminal that has transmitted the EMID Request Action frame (S2223).

In addition, the mobile terminal may be assigned an EMID by omitting the S2223 and S2224 procedures from the EMID allocation server in a similar manner to performing the S2212 to S2217 procedures.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Accordingly, the above detailed description should not be construed as limited in every respect and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

Through the present invention, the Interworking Information Broker in the DS can reduce the throughput performed by each AP by acquiring and transmitting interworking information. This has the effect of enabling communication with the Interworking Information Broker. In addition, there is an effect that the mobile terminal can be assigned an EMID from the EMID server through the management message by transmitting the presence of the EMID server as layer information. In addition, when the Interworking Inforamtion Broker and the EMID server use the same MAC address, the interworking information and the EMID can be simultaneously allocated with one message transmission and reception.

Claims (17)

In a method of receiving information from an interworking information intermediary for obtaining interworking information in a wireless LAN network including an access point (AP) communicating through a distribution system (DS), Receiving a request message including a frame indicating an operation for requesting transmission of data related to the interworking information from the terminal; In response to a request message from the terminal, transmitting a remote request message to the interworking information intermediary; Receiving a remote response message to the remote request message; In response to a remote response message from the interworking information intermediary, transmitting an initial response message to the terminal, and if the interworking information cannot be completely transmitted, including a ComeBackDelay to transmit the initial response message; ; Receiving a request message received from the terminal after a time corresponding to the comeback delay, and transmitting a corresponding response message to the terminal , ≪ / RTI & The information related to the interworking information is transmitted in a beacon message transmitted in the wireless LAN network. delete delete delete delete delete delete The method of claim 1, Receiving a request message requesting information about the interworking information intermediary; And Transmitting a response message notifying information about the interworking information intermediary To be made more including Information transmission method in a wireless LAN network characterized by. delete delete delete delete delete delete delete delete In the WLAN entity receiving information from the interworking information intermediary to obtain interworking information, Receiving a request message including a frame indicating an operation for requesting transmission of data related to the interworking information from the terminal; In response to the request message from the terminal, transmitting a remote request message to the interworking information intermediary, Receive a remote response message to the remote request message, In response to the remote response message from the interworking information intermediary, if the first response message is transmitted to the terminal, if the interworking information can not be completely transmitted include a Comeback Delay (ComeBackDelay) to transmit the first response message, Receiving a request message received from the terminal after a time corresponding to the comeback delay, and transmitting a corresponding response message to the terminal, And a controller configured to receive a beacon message including information related to the interworking information. WiFi entity.

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