KR100690820B1 - Power save method for wireless lan ad-hoc network - Google Patents

Abstract

According to the present invention, when there is no data to be transmitted to another node after broadcasting a beacon, the wireless LAN can reduce power consumption unnecessarily by switching a node to a sleep mode during a beacon interval except for an ATIM window. A method for storing power in an ad hoc network, the method comprising: transmitting a beacon message for synchronizing with another node at a specific node, and determining whether to transmit or receive data with the other node; Switching a specific node to a sleep mode when there is no data transmission / reception with another node and an ATIM window period ends; The sleep mode is performed during a period other than an ATIM window interval among the beacon intervals, which is a period of the beacon message, and then the specific node is switched to an idle mode at the start of the next beacon interval. There is an effect to reduce the power consumption.

Description

Power saving method of WLAN ad hoc network {POWER SAVE METHOD FOR WIRELESS LAN AD-HOC NETWORK}

1a to 1b is a view showing the structure of a typical wireless LAN.

2 is a power level display for the case of data transmission and reception between nodes in a WLAN ad hoc network.

3 is a power level display for a case where no data transmission and reception between nodes occurs in a conventional WLAN ad hoc network.

Figure 4 is a flow chart of an embodiment of a power storage method of a WLAN ad hoc network according to the present invention.

5 is a power level display for the case where data transmission and reception between nodes does not occur according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for storing power in a WLAN ad hoc network. In particular, when there is no data to be transmitted to another node after broadcasting a beacon, the node is put into a sleep mode during a beacon interval except for an ATIM window. The present invention relates to a power storage method of a WLAN ad hoc network that can reduce unnecessary power consumption by switching.

In general, wireless networking communication can be divided into an infrastructure networking mode based on an access point and an ad hoc networking mode, which is a temporary network configuration of 1: 1 or 1: N.

The infrastructure networking mode is configured for use similar to the existing wired LAN in a certain area such as an office or a home as shown in FIG. 1A, and wirelessly communicates with an access point, which is a wired / wireless connection relay device, to the Ethernet. It is to configure a plurality of wireless stations (Station) capable of.

On the other hand, the ad hoc networking mode is composed of a terminal equipped with a wireless LAN, that is, only a wireless station, as shown in FIG. 1B. Therefore, communication is performed only between wireless stations, not connected to an external network. You will use it when you configure your network.

FIG. 2 illustrates power levels for each node in a case where data communication between nodes is performed in a WLAN ad hoc network.

Referring to FIG. 2, the node A broadcasts a beacon, which is a message for synchronizing with the node B, to the node B, and if there is data to be transmitted to the node B, the data to be transmitted in an Announcement Traffic Indication Message (ATIM) message. It broadcasts the information (destination, data size, etc.) to Node B.

When the Node B receives the ATIM message, it transmits an acknowledgment signal (ACK) to the Node A. The process up to this point is performed during the ATIM window period.

Here, the ATIM (Notification Traffic Indication Message) is used to inform that a buffered frame exists when using an 802.11 network in an ad hoc mode, and the ATIM window is a section in which a beacon and an ATIM message can be sent.

When the ATIM window ends, the node A transmits data to the node B until the beacon interval after that ends, and when the node B receives the data, it transmits an acknowledgment signal (ACK) to the node A. . Here, the beacon period refers to a period of sending a beacon message for synchronization, and the actual data transmission and reception is performed in the section except the ATIM window section of the beacon interval.

As can be seen in Figure 2, when data transmission and reception between the nodes it can be seen that the power level (idle mode) is constant in the beacon period of the two nodes.

On the other hand, FIG. 3 shows power levels for each node when data transmission and reception are not performed between two nodes (Node A and Node B).

Referring to FIG. 3, a beacon for synchronizing at node A is broadcasted to node B to synchronize with node B, and since there is no data to be transmitted from node A to node B, ATIM messages are not exchanged during the ATIM window.

Node B enters a sleep mode to reduce power consumption during the remaining beacon period since there is no data to transmit or receive after the ATIM window ends.

Node A has no data to transmit or receive, but because it broadcasts a beacon, it switches to idle mode. In other words, it consumes power in the idle mode.

However, as described above, according to the existing 802.11 WLAN specification (spec), even though there is no data to transmit and receive to other nodes in the ad hoc network, Node A maintains an idle state other than the sleep mode for the remaining beacon period. . Therefore, Node A has a problem that unnecessary power is consumed.

Accordingly, the present invention has been made to solve the above-mentioned conventional problem. If there is no data to be transmitted from the node broadcasting the beacon to another node, the node is put into the sleep mode for the remaining time of the beacon interval except for the ATIM window. It is an object of the present invention to provide a power storage method of a WLAN ad hoc network that can reduce unnecessary power consumption by switching.

The present invention for achieving the above object comprises the steps of transmitting a beacon (beacon) message for synchronizing with the other node in a specific node, and determining whether to send and receive data with the other node; Switching a specific node to a sleep mode when there is no data transmission / reception with another node and an ATIM window period ends; And performing the sleep mode during a period except for an ATIM window period in a beacon interval, which is a period of the beacon message, and then switching the specific node to an idle mode at the start of the next beacon interval. .

In addition, the sleep mode is performed during the interval except for the ATIM window interval of the beacon interval (beacon interval), which is a period for sending a beacon message for inter-node synchronization, and then the specific node is switched to the idle mode at the start of the beacon interval. It is done.

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

First, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, in the following description, numerous specific details such as specific processing flows are shown to provide a more general understanding of the present invention, and it is understood that the present invention may be practiced without these specific details. It will be obvious to them.

Figure 4 shows an embodiment of a power storage method of a WLAN ad hoc network according to the present invention, when the transmission and reception of the ATIM message is not performed during the ATIM window period, the node mode in the beacon period except the ATIM window sleep mode You can see that the switch to.

That is, determining whether the ATIM message is transmitted or received during the Announcement Traffic Indication Message (ATIM) window section, and if there is no transmission or reception of the ATIM message during the ATIM window section, the node in the beacon section except the ATIM window. Switching to the sleep mode. Of course, the above processes are repeated each time the beacon interval starts anew.

The operation of the present invention will now be described with reference to FIG.

Broadcasts a beacon for synchronizing with another node (e.g., Node B) during the ATIM window period (1) at node A in idle state. The case where there is data for broadcasting the beacon at Node A and transmitting to Node B has been described in the prior art section and thus will be omitted in the detailed description of the present invention.

On the other hand, if there is no data to be transmitted from node A to node B, that is, if there is no ATIM message transmitted to node B during the ATIM window period (①) of node A, the ATIM window period is determined by determining whether the ATIM window period has expired. When the expiration expires, the power mode in the remaining beacon interval (②), which is a section in which actual data is transmitted and received, may be switched to a sleep mode, thereby reducing power consumption in the idle mode.

When the beacon period ends, the mode of the node is switched back to the idle mode, and the process is repeated.

Although the section 2 of node A is shown in the sleep mode, it may be switched to the idle mode a predetermined time before the beacon period ends in the sleep mode depending on the situation, which may vary depending on the hardware configuration of each node.

Of course, when the node B also does not receive an ATIM message from the node A during the ATIM window period, the node B switches the mode of the node B from the idle mode to the sleep mode after the ATIM window period ends.

As described above, the present invention changes the mode of the node to the sleep mode from the end of the ATIM window section to the end of the beacon section when there is no data to be transmitted even if the node broadcasts the beacon in the ATIM window section. There is an advantage that can reduce unnecessary power consumption by the mode.

As described in detail above, in the present invention, when there is no data to be transmitted from the node broadcasting the beacon to another node, the node is put into the sleep mode for the remaining time of the beacon interval except for the ATIM window, thereby reducing unnecessary power consumption. There is an effect that can be reduced.

Claims (3)

Transmitting a beacon message for synchronizing with another node in a specific node, and determining whether to transmit or receive data with the other node; Switching a specific node to a sleep mode when there is no data transmission / reception with another node and an ATIM window period ends; And performing the sleep mode during a period excluding an ATIM window interval in a beacon interval, which is a period of the beacon message, and then switching the specific node to an idle mode at the start of the next beacon interval. How to save power in a WLAN ad hoc network. The power storage of the WLAN ad hoc network according to claim 1, wherein the transmission / reception of data with the other node is determined as whether to transmit or receive an ATIM message including data information to be transmitted or received in the ATIM window section. Way. delete

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