KR100691447B1 - Receiving mode controlling method of wireless lan station - Google Patents

Abstract

A receiving mode control method of a wireless LAN(Local Area Network) station is provided to be capable of dynamically controlling a beacon listen interval of the wireless LAN station according to the number of packets and the size of data to be received from an AP(Access Point), thus power consumption of the station is reduced. Wireless LAN stations transmit beacon listen intervals to an AP(S31). The AP transmit beacons to the wireless LAN stations at the received beacon listen intervals(S32). If data to be transmitted to the stations exists, the AP includes information on the number of packets and the size of the data in the beacons, and sends the beacons to the stations(S34). The stations perceive the information on the number of the packets and the size of the data, and determine a point of time for entering the next power-saving mode according to the number of the packets and the size of the data to be received(S35).

Description

Receiving mode control method of wireless LAN station {RECEIVING MODE CONTROLLING METHOD OF WIRELESS LAN STATION}

1 is a diagram illustrating a typical WLAN environment.

2 is a timing diagram illustrating an operation mode and a beacon reception period of a conventional WLAN station.

3 is a flowchart illustrating a method of controlling a reception mode of a WLAN station according to the present invention.

4 is a flowchart illustrating a step of resetting a beacon listening period in a method of controlling a reception mode of a WLAN station according to the present invention.

* Explanation of symbols for main parts of drawings *

10: Internet 11: Access Point

12a, 12b: WLAN Station

The present invention relates to a method of controlling a reception mode of a WLAN station that can reduce power consumption of a station in a WLAN. More specifically, the beacon of a WLAN station according to the size and number of packets to be received from an access point. The present invention relates to a method for controlling a reception mode of a WLAN station, which can reduce power consumption of the WLAN station by dynamically resetting the listening period.

Recently, Wireless Local Area Network (WLAN), which is attracting attention as the next generation wired / wireless integrated technology, is emerging as a key issue in the next communication market, and the development of WLAN technology is expected to bring about qualitative changes in the IT industry. In particular, the wireless LAN is a mobile terminal such as a notebook computer and a PDA (Personal Digital Assistant) in the form of a terminal, and the area and range of using the wireless LAN are diversified and widened.

1 is a diagram illustrating a typical WLAN environment.

Referring to FIG. 1, a typical WLAN includes an Access Point (AP) 11 connected to the Internet 10 in a wired manner, and a WLAN station such as a notebook 12a, a PDA 12b, or the like may be used. Wireless communication with the access point 11 is performed. In such a WLAN environment, the access point 11 is a device that connects a wired LAN to a WLAN so that users who use the WLAN stations 12a and 12b can freely use the Internet 10. Typically, the access point 11 operates in a range of 20 to 30 m in an indoor environment and 100 to 150 m in an outdoor environment. That is, the access point 11 is within a radius of 100 to 150 m from the installation position of the wireless LAN stations 12a and 12b or the access point 11 used within a building located within a radius of 20 to 30 m from the installation position. Wirelessly connected to the wireless LAN station 12a, 12b used outside the building of the can provide Internet services.

In such a wireless LAN environment, since the wireless LAN stations 12a and 12b are mainly used as portable devices such as the notebook 12a and the PDA 12b, the wireless LAN stations 12a and 12b reduce the power consumed by the wireless LAN stations 12a and 12b, thereby reducing the battery power. Increasing uptime is essential for efficient WLAN operation. Conventionally, a periodic beacon is transmitted from the access point 11 to the WLAN station 12a, 12b, and the WLAN station 12a, 12b wakes up in the power saving mode to receive the beacon, and receives the beacon. After entering the power saving mode again.

2 is a timing diagram illustrating an operation mode and a beacon reception period of a conventional WLAN station.

As shown in FIG. 2, the access point transmits a periodic beacon 21 to the WLAN station. The period P1 of this beacon 21 transmission can be arbitrarily set and is usually set to 100 ms. The WLAN station operates in two modes, a power saving mode and an active mode. The active mode is a state where the WLAN station is awake, and the WLAN station can transmit or receive data. In the power saving mode, the WLAN station cannot transmit or receive data and consumes very little power. In general, the transition from the power saving mode to the active mode is called wakeup.

Conventionally, in order to receive a beacon, the WLAN station switches from a power saving mode to an active mode before receiving a beacon, receives a beacon, analyzes information on the received beacon, checks whether there is data to receive, and then there is no data to receive. In this case, power consumption is reduced by performing an operation of transferring the response to the access point to the power saving mode again. That is, when there is no data to be received at the WLAN station, the WLAN station performs a periodic operation of waking up at a period substantially the same as the transmission period P1 of the beacon 21 (P2). In general, the wakeup period of the WLAN station is referred to as a beacon listen interval.

However, the conventional WLAN station has a problem in that unnecessary power consumption occurs by waking up at frequent intervals even when there is no data to be received.

The present invention has been made to solve the above-described problems of the prior art, the object of which is to wirelessly control the beacon listening period of the WLAN station according to the size and number of packets to be received from the access point, The present invention provides a method for controlling a reception mode of a WLAN station, which can reduce power consumption of the station.

The present invention as a technical configuration for achieving the above object,

Transmitting a beacon listening period from the WLAN station to the access point;

Transmitting a beacon from the access point to the WLAN station according to the beacon listening period;

If there is data to be transmitted to the WLAN station at the access point, transmitting from the access point to the WLAN station a beacon including information on the size of the data and the number of packets to be transmitted; And

Resetting the beacon listening period by analyzing information on the size of the data to be transmitted and the number of packets included in the beacon, and transmitting the reset beacon listening period to the station;

It provides a reception mode control method of a WLAN station comprising a.

In a preferred embodiment, the step of transmitting the reset beacon listening period, the information on the size and number of packets previously received at the WLAN station and the information on the data size and number of packets included in the currently received beacon Analyzing a pattern for receiving data, resetting the beacon listening period according to the pattern for receiving the data, and transmitting the reset beacon listening period to an access point.

In a preferred embodiment, the step of transmitting a beacon from the access point to the WLAN station including information on the size and the number of packets to transmit, the information on the size and the number of packets to be transmitted in the beacon frame This step defines and creates a new field.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art.

3 is a flowchart illustrating a method of controlling a reception mode of a WLAN station according to the present invention.

1 and 3, a method of controlling a reception mode of a WLAN station according to the present invention first transmits a beacon listen interval from a WLAN station 12a and 12b to an access point 11. (S31). The wireless LAN stations 12a and 12b may use the wireless LAN service provided from the access point 11 by connecting to the access point 11 through an association process. In this case, the WLAN stations 12a and 12b transmit a period of switching from a power saving mode to an active mode, that is, a beacon listening period, to the access point 11 to receive the beacons. In the first connection, a preset beacon listening period (for example, 100 ms) is transmitted, and then the beacon listening period is appropriately changed and transmitted to the access point 11 according to the present invention.

Subsequently, the access point 11 transmits the beacons to the WLAN stations 12a and 12b according to the beacon listening period received from the WLAN stations 12a and 12b (S32).

In this case, when there is no data to be transmitted from the access point 11 to the WLAN stations 12a and 12b, the beacon includes information indicating that there is no data to be transmitted, and the WLAN stations 12a and 12b include After analyzing the received beacons and confirming that there is no data to be received from the access point 11, the WLAN stations 12a and 12b switch from the active mode to the power saving mode and maintain the power saving mode until the next beacon listening cycle. do.

On the other hand, if there is data to be transmitted to the WLAN stations 12a and 12b in the access point 11, the access point 11 depends on the size of the data to be transmitted to the WLAN stations 12a and 12b and the number of packets. The information on the beacon is included and transmitted to the WLAN stations 12a and 12b (S34). In one embodiment of the present invention, a new field is defined in the beacon frame including information on the size and number of packets to be transmitted, and the information on the size and number of packets to be transmitted is stored in this new field. It is preferable.

Since the TIM field of a beacon used in the related art stores only information related to the presence or absence of data to be transmitted, it does not store information about the size of the data and the number of packets. In contrast, since the present invention includes information on the size and the number of packets to be transmitted through the newly defined field in the beacon, the WLAN stations 12a and 12b use the newly defined field to determine the size and the number of packets through the newly defined field. It is possible to obtain information about, and it can be used to reset the beacon listening period.

Subsequently, the WLAN stations 12a and 12b grasp information on the size of the data to be received and the number of packets included in the beacon, and determine when to enter the next power saving mode according to the size and the number of packets to be received. (S35). That is, the information about the size of the data to be received and the number of packets included in the beacon is determined and the beacon listening period is reset accordingly. The WLAN stations 12a and 12b receive data from the access point 11, and transmit the reset beacon listening period to the access point 11 before the data reception ends and switches to the power saving mode. According to the reset beacon listening period, the access point 11 resets the transmission period of the beacon and transmits the beacon to the WLAN stations 12a and 12b.

When the WLAN station 12a or 12b obtains information on the size and packet number of data to be received through the beacon and resets the beacon listening period, information on previously received data may be used together. This is shown in more detail in FIG. 4.

4 is a flowchart illustrating a step of resetting a beacon listening period in a method of controlling a reception mode of a WLAN station according to the present invention.

As shown in FIG. 4, the WLAN stations 12a and 12b receive data by analyzing information on the size and number of packets previously received and information on the data size and number of packets included in the currently received beacon. Analyze the pattern for (S41). The pattern may be the amount of data received by the WLAN stations 12a and 12b, the number of packets and the period of receiving the data, and the time required to receive the data.

Subsequently, the WLAN stations 12a and 12b reset the beacon listening period according to the pattern for receiving the data (S42). For example, the WLAN station 12a or 12b may obtain an average period of receiving data from the access point 11, and may reset the time slightly smaller than this average period to a new beacon listening period in consideration of the time margin.

Subsequently, the WLAN stations 12a and 12b retransmit to the reset beacon listening period access point (S43), and the access point transmits the beacons to the WLAN stations 12a and 12b according to the newly set beacon listening period.

As described above, according to the present invention, since the WLAN station may appropriately reset the beacon listening period according to the size of the data and the number of packets, unnecessary wakeup may be omitted, thereby reducing power consumption.

As described above, according to the present invention, by dynamically resetting the beacon listening period of the WLAN station according to the size and number of packets to be received from the access point, unnecessary wake-up operation of the WLAN station is omitted and There is an effect that can reduce the power consumption of the WLAN station.

Claims (3)

Transmitting a beacon listening period from the WLAN station to the access point; Transmitting a beacon from the access point to the WLAN station according to the beacon listening period; If there is data to be transmitted to the WLAN station at the access point, transmitting from the access point to the WLAN station a beacon including information on the size of the data and the number of packets to be transmitted; And Analyzing a pattern for data reception by analyzing information on the size and number of packets previously received by the WLAN station and information on the size and number of packets included in the currently received beacon; Resetting a beacon listening period according to the pattern for the data reception at the WLAN station; And And transmitting the reset beacon listening period to an access point. delete The method of claim 1, The step of transmitting a beacon from the access point to the WLAN station including information on the size and number of packets to transmit, And defining a new field including information on the size of the data and the number of packets to be transmitted in a beacon frame.

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