KR20100135679A - Method for supporting idle mode in wireless local area network system - Google Patents

Abstract

PURPOSE: A standby mode supporting method in wireless LAN-system is provided to track the location of the terminal in case the terminal moves under operation of standby mode. CONSTITUTION: A terminal transmits a request message for waiting mode start to AP(Access Point)(S200). The terminal starts the standby mode(S220). The AP transmits a paging indication message including traffic arrival information to the terminal(S230). The terminal transmits a request message for waiting mode termination to the AP(S240). The AP transmits a response message about the standby mode termination to the terminal(S250).

Description

How to support standby mode in WLAN system {METHOD FOR SUPPORTING IDLE MODE IN WIRELESS LOCAL AREA NETWORK SYSTEM}

The present invention relates to a standby mode operation method of a terminal in a wireless LAN system.

With the development of information and communication technology, various wireless communication technologies are being developed. Among them, a wireless local area network (WLAN) is a technology for wirelessly accessing the Internet in a home, business, or a specific service providing area using a terminal based on radio frequency technology.

The WLAN system includes a plurality of basic service sets (BSSs), and each BSS includes an access node (AP) and a plurality of terminals. Communication in the BSS is through an access node, and the terminal is connected to the access node to access the network.

Meanwhile, in the general mobile communication field, the terminal operates in a standby mode when there is no call. When the terminal operates in the standby mode, power consumption of the terminal can be reduced by minimizing the remaining procedures except for signaling for confirming the arrival of the call.

However, there is no definition of the standby mode of the terminal in the WLAN system. Therefore, when the terminal moves in the absence of a call in the WLAN system, there is no method of tracking the position of the terminal while reducing the power consumption of the terminal.

An object of the present invention is to provide a standby mode operation method of a terminal in a WLAN system. In particular, when the terminal moves in the standby mode, it is intended to provide an operation method that supports the mobility of the terminal.

In a wireless LAN system according to an aspect of the present invention, the method for operating a standby mode of a terminal transmits a first request message for starting standby mode to a first access node to which the terminal is currently connected, from the first access node. Receiving a first response message for the first request message, and starting the standby mode if the first response message includes acceptance information for starting the standby mode.

In a WLAN system according to an aspect of the present invention, a method in which an access node supports a standby mode of a terminal may include receiving a request message for connecting to the access node from a terminal entering the area of the access node while operating in a standby mode. In step S, if it is determined that an IP (Internet Protocol) handoff is necessary for the terminal, transmitting an IP handoff request message to an IP handoff support device to which the access node is connected, and the IP handoff support device. After performing the IP handoff procedure, establishing a connection with the terminal.

In the WLAN system according to an aspect of the present invention, the IP handoff method of a terminal transmits a request message for connecting to an access node entered during operation in a standby mode, to the access node, the request message from the access node. Receiving a response message, receiving a router broadcast message regarding IP handoff from the access node, and performing an IP handoff using the router broadcast message.

In a WLAN system according to an aspect of the present invention, a method in which an access node supports IP handoff of a terminal receives a request message for connecting to the access node from a terminal entering the area of the access node while operating in a standby mode. Transmitting a response message to the terminal to the terminal, and unicast transmitting a router broadcast message regarding IP handoff to the terminal.

A standby mode operation method of a terminal in a WLAN system is provided. In particular, when the terminal moves in the standby mode, an operation scheme for supporting the mobility of the terminal is provided. Accordingly, the power consumption of the terminal can be reduced to increase the standby time of the terminal.

1 is a block diagram showing the structure of a terminal according to an embodiment of the present invention.
2 is a flowchart illustrating a method of operating a terminal in a standby mode in a WLAN system according to an embodiment of the present invention.
3 is a flowchart illustrating a method of moving to a new AP while a terminal is operating in a standby mode according to an embodiment of the present invention.
4 is a flowchart illustrating a method of moving to a new AP while a terminal is operating in a standby mode according to another embodiment of the present invention.
5 is a flowchart illustrating an IP handoff method of a terminal operating in a standby mode according to an embodiment of the present invention.
6 is a flowchart illustrating an IP handoff method of a terminal operating in a standby mode according to another embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

In the present specification, a terminal is a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment (User Equipment). It may also refer to a user equipment (UE), an access terminal (AT), and the like, and may include all or some functions of a terminal, a mobile station, a mobile terminal, a subscriber station, a portable subscriber station, a user device, an access terminal, and the like. .

In the present specification, an access node (AP) is a base station (BS), a radio access station (Radio Access Station, RAS), a node B (Node B), an advanced node B (evolved NodeB, eNodeB), a transmission and reception base station (Base Transceiver Station, BTS), MMR (Mobile Multihop Relay) -BS, etc. may be referred to, and all or part of the functions of the access node, base station, radio access station, Node B, eNodeB, transmit and receive base station, MMR-BS, etc. It may also include.

1 is a block diagram illustrating a structure of a terminal according to an embodiment of the present invention, and FIG. 2 is a flowchart illustrating a method of operating a terminal in a standby mode in a wireless LAN system according to an embodiment of the present invention.

Referring to FIG. 1, the terminal 100 includes a wireless communication unit 110, a control unit 120, a storage unit 130, an input unit 140, and an output unit 150.

The wireless communication unit 110 performs a wireless communication function of the terminal 100. The wireless communication unit 110 may include an RF unit for transmitting and receiving a radio frequency (RF) signal.

The controller 120 controls the overall operation of the terminal 100. The controller 120 may include a data processor that encodes and modulates a transmitted signal, or demodulates and decodes a received signal.

The storage unit 130 stores a program for the operation of the controller 120 and input / output data.

The input unit 140 receives data or information for controlling the operation of the terminal from the user.

The output unit 150 displays the information processed by the terminal 100 to the user as various types of signals (for example, sound signals and visual signals).

1 and 2, the terminal 100 transmits a request message for starting the standby mode to an AP currently connected to the terminal 100 (S200).

Upon receiving the request message for starting the standby mode from the terminal, the AP transmits a response message for starting the standby mode to the terminal 100 (S210). The response message for the start of the standby mode includes information for accepting or rejecting the standby mode of the terminal. For example, if it is determined that the condition for starting the standby mode is not satisfied, the AP may transmit a response message including information for rejecting the standby mode of the terminal to the terminal.

When the terminal receives the response message including the information to accept the start of the standby mode, the terminal starts the standby mode (S220). The terminal that initiated the standby mode does not receive traffic from the AP. Accordingly, the terminal does not perform an operation related to transmitting and receiving traffic during the standby mode, thereby reducing power consumption.

When traffic arrives from the network with respect to the UE having started the standby mode, the AP transmits a paging indication message including the traffic arrival information to the terminal (S230). The paging indication message may be sent periodically. The period in which the paging indication message is transmitted may be negotiated through a process in which the terminal and the AP exchange a request message for starting the standby mode and a response message for starting the standby mode. The paging indication message may be transmitted through a beacon message or a multicast / broadcast message. In another embodiment, the paging indication message may be transmitted through a flexible multicast service (FMS). Whether the paging indication message is transmitted through the FMS may be included in the request message for starting the standby mode exchanged between the terminal and the AP and the response message for starting the standby mode. By the FMS, the UE and the AP can accurately match a transmission period and a transmission time of the paging indication message. Therefore, the AP may transmit a paging indication message to the terminal in a transmission period longer than the transmission period of the beacon message.

Meanwhile, the paging instruction message includes an identifier for identifying the terminal. The AP may transmit a paging instruction message to one terminal or simultaneously transmit a paging instruction message to a plurality of terminals. When the AP simultaneously transmits a paging instruction message to a plurality of terminals, the paging instruction message may use an address of a group to which the plurality of terminals belong. In order for the paging indication message to simultaneously indicate several terminals, an identifier may be generated by hashing a medium access control (MAC) address of the terminal.

The terminal receiving the paging instruction message from the AP performs an operation for ending the standby mode. That is, the terminal transmits a request message for terminating the standby mode to the AP (S240), and the AP transmits a response message for terminating the standby mode to the terminal (S250). The response message for exiting the standby mode includes acceptance information or rejection information for the standby mode exit request of the terminal. The acceptance information refers to information allowing the terminal to exit the standby mode, and the rejection information refers to information for allowing the terminal to continuously maintain the standby mode. Meanwhile, when the AP simultaneously transmits a paging instruction message to a plurality of terminals, the AP may transmit a response message for ending the standby mode to each terminal. That is, even when a plurality of terminals receiving a paging indication message hashing the MAC address from the AP transmits a request message for terminating the standby mode, the AP determines whether the terminal terminates the standby mode individually and ends the standby mode. Send a response message to the.

As described above, the request message for starting the standby mode and the request message for ending the standby mode are divided, and the response message for starting the standby mode and the response message for ending the standby mode are described as being distinguished. However, the idle mode request message includes information for requesting to start the standby mode or information for requesting to exit the standby mode, and the idle mode response message includes response information for the standby mode start request or It may be configured in a form that includes response information for the standby mode exit request.

Meanwhile, the terminal may move while operating in the standby mode. 3 is a flowchart illustrating a method of moving to a new AP while a terminal is operating in a standby mode according to an embodiment of the present invention. Hereinafter, the previous AP refers to an AP that is already connected when the terminal starts the standby mode, and the new AP refers to an AP that is moved and newly connected while the terminal operates in the standby mode.

Referring to FIG. 3, when the terminal moves to the area of the new AP, the terminal attempts to connect with the new AP. That is, the terminal transmits a reassociation request message to the new AP (S300). The reconnection request message may include the MAC address of the previous AP. The reconnection request message may further include information included in the request message for starting the standby mode transmitted to the previous AP when the terminal is in a connection state with the previous AP. The reconnection request message may include the request information for starting the standby mode included in the FMS request message.

The new AP transmits a request message for releasing resources for the terminal to the previous AP using information included in the reconnection request message received from the terminal (S310). Receiving the request message for the resource release, the previous AP recognizes that the terminal has moved to the new AP, stops the standby mode support for the terminal, and releases the resources allocated to the terminal (S320).

Receiving the resource release request, the previous AP transmits a response message for the resource release request to the new AP (S330). When the terminal moves to transmit a reconnection request message to the new AP and the new AP transmits a resource release request to the previous AP, when the previous AP receives data from the network to the terminal, the previous AP responds to the resource release request. The message may be transmitted by including data destined for the terminal and / or control information indicating termination of the standby mode of the terminal.

Upon receiving the response message for the resource release request from the previous AP, the new AP transmits a reconnection response message to the terminal (S340). When the response message for the resource release request received from the previous AP includes control information for requesting termination of the standby mode of the terminal, the new AP may include information for terminating the standby mode of the terminal in the reconnection response message. . Meanwhile, the reconnection response message includes information corresponding to the reconnection request message. That is, when the reconnection request message includes information included in the standby mode request message, the reconnection response message may include acceptance information included in the standby mode response message. When the reconnection request message includes information included in the FMS request information, the reconnection response message may include response information about the FMS request information.

4 is a flowchart illustrating a method of moving to a new AP while a terminal is operating in a standby mode according to another embodiment of the present invention. Parts overlapping with the contents of FIG. 3 will be omitted.

Referring to FIG. 4, when the terminal moves to the area of the new AP, the terminal attempts to connect with the new AP. That is, the terminal transmits a reassociation request message to the new AP (S400). The new AP transmits a request message for releasing resources for the terminal to the previous AP using information included in the reconnection request message received from the terminal (S410). Upon receiving the request message for resource release, the previous AP recognizes that the corresponding UE has moved to the new AP, stops the standby mode support for the corresponding terminal, and releases the allocated resource for the corresponding terminal (S420).

The new AP transmits the resource release request to the previous AP, and then transmits a reconnection response message to the terminal (S430). Subsequently, when the new AP receives a response message for the resource release request including control information indicating termination of the standby mode of the terminal from the previous AP (S440), the new AP indicates a paging instruction message indicating termination of the standby mode of the terminal. Send to the terminal (S450). The paging indication message may be transmitted using at least one of a beacon message, an FMS, and a separate broadcast message.

The embodiment of FIG. 4 differs from the embodiment of FIG. 3 in that the new AP transmits a reconnection response message to the terminal without waiting for a response message for the resource release request from the previous AP. However, in both embodiments, the reconnection response message may include paging indication information, that is, information indicating termination of the standby mode of the terminal.

Meanwhile, it is necessary to support IP (Internet Protocol) mobility for a terminal operating in a standby mode in a WLAN system. IP mobility can be divided into proxy MIP (Proxy Mobile IP) technology that manages IP mobility in the network and MIP technology that the terminal directly manages IP mobility.

5 is a flowchart illustrating an IP handoff method of a terminal operating in a standby mode according to an embodiment of the present invention. Here, assume that IP mobility is supported according to the proxy MIP technology. According to the proxy MIP technology, one device supporting proxy MIP, for example, a router (hereinafter, referred to as Proxy MIP supporting device) is connected to a plurality of APs. When a terminal moves between a plurality of APs belonging to the same subnet or connected to the same proxy MIP supporting apparatus, IP handoff, which is a handoff occurring in the IP layer, does not occur. However, when a terminal moves between a plurality of APs belonging to different subnets or connected to different proxy MIP supporting devices, IP handoff occurs.

Referring to FIG. 5, when the terminal moves to the area of the new AP, the terminal attempts to connect with the new AP. That is, the terminal transmits a reconnection request message to the new AP (S500). It is assumed that the new AP belongs to a different subnet from the previous AP or is connected to a different proxy MIP support device.

The new AP transmits an IP handoff request message for the UE that has moved to the area of the new AP to the proxy MIP support device (hereinafter referred to as a new proxy MIP support device) to which it is connected (S510), and reconnects to the terminal. The response message is transmitted (S520). In this case, the IP handoff request message may include the MAC address of the previous AP to which the terminal was previously connected, the IP address of the proxy MIP supporting device (hereinafter, referred to as the previous proxy MIP supporting device) to which the previous AP is connected, and the subnet to which the previous AP belongs. Address, the MAC address of the terminal, and the like. Here, the new AP can know the MAC address of the previous AP and the MAC address of the terminal through the reconnection request message received from the terminal. And, the terminal can know the IP address of the previous proxy MIP support device from the previous AP. That is, when the terminal is connected to the previous AP, the IP address of the previous proxy MIP supporting apparatus may be known by using a beacon message, a standby mode response message, a reconnection response message, and a management message received from the previous AP. On the other hand, unlike receiving the IP address of the previous proxy MIP support device from the terminal, the new proxy MIP support device maintains a table relating to the IP address of the proxy MIP support device and obtains the IP address of the previous proxy MIP support device from the table. You may. There is no limitation on how the new proxy MIP supported device obtains the IP address of the old proxy MIP supported device.

The new proxy MIP support device performs an IP handoff operation with the previous proxy MIP support device using the IP address of the previous proxy MIP support device (S530).

6 is a flowchart illustrating an IP handoff method of a terminal operating in a standby mode according to another embodiment of the present invention. Here, it is assumed that a terminal follows the MIP technology that directly supports IP mobility without using a proxy MIP support apparatus. According to the MIP technology, the terminal starts a MIP operation by receiving a broadcast message, for example, a router advertisement from the IP layer. When the terminal operating in the standby mode receives a broadcast message from the IP layer, it consumes unnecessary power. Hereinafter, a method for solving such a problem will be described.

Referring to FIG. 6, the router transmits a router broadcast periodically or aperiodically to connected APs (S600), and the AP stores the received router broadcast (S610).

When the terminal moves to the area of the new AP, it attempts to connect with the new AP. That is, the terminal transmits a reconnection request message to the new AP (S620). The reconnection request message includes the MAC address of the previous AP to which the terminal was previously connected, the subnet address to which the previous AP belongs, the MAC address of the terminal and information for the standby mode. The reconnection request message includes information for requesting the terminal to send a broadcast message necessary for starting the MIP operation to a unicast message, that is, a Directed Multicast Service (DMS) request information. It may further include. For example, the DMS defined in IEEE 802.11 refers to a method of merging a multicast message or a broadcast message with a MAC service data unit transmitted separately for a terminal. Hereinafter, the DMS means not only the meaning defined in IEEE 802.11, but also all services that convert a multicast message or a broadcast message into a unicast message and transmit the same. When the terminal transmits the DMS request information in the reconnection request message, the terminal may receive a router broadcast related to IP mobility from the new AP as a unicast message.

Upon receiving the reconnection request message from the terminal, the new AP transmits a reconnection response message to the terminal (S630). If the new AP determines that the IP handoff is necessary, the new AP may include the DMS accept information in the reconnection response message. If the new AP determines that the IP handoff is not necessary, the new AP may include the DMS rejection information in the reconnection response message.

As described above, the new AP transmits the DMS acceptance information to the terminal only when the DMS request information is received from the terminal. However, the new AP may determine whether to transmit the DMS acceptance information independently according to the new AP.

The new AP unicasts the router broadcast regarding the IP handoff to the terminal (S640). The new AP may store or cache the router broadcast received from the network and unicast the stored router broadcast to the terminal quickly. Although the new AP is shown as unicast transmission of the router broadcast separately from the reconnection response message, the router may be included in the reconnection response message and transmitted.

Upon receiving the reconnection response message including the DMS acceptance information and the router broadcast regarding the IP handoff, the terminal performs an IP handoff procedure (S650). The terminal may perform the IP handoff procedure in the state of operating in the standby mode, or may terminate the standby mode and perform the IP handoff procedure. When the terminal exits the standby mode and performs the IP handoff procedure, the information requesting the termination of the standby mode may be included in the reconnection response message.

When the terminal exits the standby mode and performs the IP handoff procedure, the terminal sends a request message for starting the standby mode to the new AP to resume the standby mode, the new AP responds to the standby mode start to the terminal You can send a message.

The embodiments of the present invention described above are not only implemented through the apparatus and the method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiments of the present invention or a recording medium on which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (18)

In the standby mode operation method of a terminal in a wireless LAN system,
Transmitting a first request message for starting a standby mode to a first access node to which the terminal is currently connected;
Receiving a first response message to the first request message from the first access node, and
Initiating a standby mode if the first response message includes acceptance information for initiating a standby mode. The method of claim 1,
Receiving a paging indication message from the first access node in the standby mode,
Transmitting a second request message for exiting a standby mode to the first access node;
Receiving a second response message for the second request message from the first access node, and
Terminating the standby mode if the second response message includes acceptance information for exiting the standby mode. The method of claim 2,
The paging indication message is received via at least one of a beacon message, a multicast / broadcase message, and a flexible multicast service (FMS). The method of claim 2,
The paging indication message includes a terminal identifier identifying the terminal or a terminal group identifier identifying a group of the terminal. The method of claim 1,
When the terminal moves to an area of the second access node in the standby mode, transmitting a third request message for connecting to the second access node to the second access node, and
Receiving a third response message for the third request message from the second access node. The method of claim 5,
And the third request message includes a medium access control (MAC) address of the first access node. The method of claim 6,
If there is traffic to the terminal, the third response message further comprises paging information indicating termination of the standby mode of the terminal. The method of claim 6,
If there is traffic to the terminal, receiving a paging indication message from the second access node after receiving the third response message. In a method for supporting a standby mode of a terminal in a wireless LAN system,
Receiving a request message for connecting to the access node from a terminal entering the area of the access node while operating in a standby mode;
If it is determined that an IP (Internet Protocol) handoff is necessary for the terminal, transmitting an IP handoff request message to an IP handoff support apparatus to which the access node is connected; and
And performing connection establishment with the terminal after performing an IP handoff procedure of the IP handoff support apparatus. 10. The method of claim 9,
The IP handoff request message includes at least one of a MAC address of the terminal, a MAC address of an existing access node to which the terminal was previously connected, and an IP address of an existing IP handover support apparatus to which the existing access node is connected. How to. The method of claim 10,
The access node obtains the MAC address of the terminal and the MAC address of the existing access node from the request message. In the IP handoff method of a terminal in a wireless LAN system,
Transmitting a request message to the access node to be connected to the access node which has entered during the standby mode;
Receiving a response message to the request message from the access node,
Receiving a router broadcast message regarding IP handoff from the access node, and
Performing IP handoff using the router broadcast message. The method of claim 12,
The request message includes information requesting that the access node convert and transmit a multicast message or broadcast message into a unicast message. The method of claim 13,
The response message includes acceptance information for information requesting to convert and transmit the unicast message;
Receiving the router broadcast message as a unicast message. The method of claim 13,
The request message further includes a MAC address of the terminal and a MAC address of a previous access node to which the terminal was previously connected. In the method of the access node supports the IP handoff of the terminal in a WLAN system,
Receiving a request message for connecting to the access node from a terminal entering the area of the access node while operating in a standby mode;
Transmitting a response message to the terminal to the terminal, and
Unicast sending a router broadcast message relating to IP handoff to the terminal. The method of claim 16,
The request message includes information requesting that the access node convert and transmit a multicast message or broadcast message into a unicast message,
And the response message includes acceptance information for the information requesting to convert and transmit the unicast message. The method of claim 16,
And the access node receives the router broadcast message from a network and stores it in advance.

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