KR20150001219A - Method and Apparatus for Providing Power Saving Mode - Google Patents

Abstract

The present invention relates to a method and an apparatus for providing a power saving mode and, more specifically, to a method and an apparatus for providing a power saving mode, capable of reducing power consumption by determining, by a wireless network device, whether entering a power saving mode is possible based on a predetermined condition, generating a virtual frame based on the determination result, broadcasting the virtual frame, and operating in the power saving mode during standby time included in the virtual frame after broadcasting the virtual frame.

Description

METHOD AND APPARATUS FOR PROVIDING POWER SAVING MODE [0001]

This embodiment relates to a method and apparatus for providing a power saving mode.

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

Recently, AP (Access Point) that supports Wi-Fi provides Internet service such as a laptop computer, a game machine, a smart phone, a tablet PC, and an audio device to access a wireless network.

Meanwhile, the AP outputs a beacon message based on a predetermined output period, thereby providing AP information to the terminal. Such a terminal searches for a beacon message by searching for a compatible wireless network to access the wireless network, i.e., searching. Thereafter, the terminal accesses the wireless network provided by the AP based on the received beacon message. On the other hand, the AP must continuously output a beacon message so that the terminal can access the AP, and even if there is no terminal connected thereto, there is a problem that power consumption is continuously required.

In this embodiment, the wireless network device determines whether or not the wireless network device can enter the power save mode based on predetermined conditions, generates and broadcasts a virtual frame based on the determination result, broadcasts the virtual frame, The primary purpose is to reduce the power consumed by operating in sleep mode during the latency involved.

In addition, the wireless network device generates the virtual frame by applying the RTS frame and the CTS frame which are already used, thereby driving the power saving mode without adding a new technology, thereby reducing the power consumption of the wireless network device and maximizing the use time There is a main purpose in doing so.

The present embodiment is characterized by including a power saving mode checking unit for determining whether or not the power saving mode can be entered based on preset conditions; A virtual frame generation unit for generating and broadcasting at least one virtual frame among a virtual transmission ready frame and a virtual transmission ready frame based on a result obtained from the power saving mode confirmation unit; A power saving mode driving unit that broadcasts the virtual frame and then operates in the power saving mode; And a normal mode switching unit for switching the power saving mode to a normal mode after a waiting time included in the virtual frame has elapsed.

According to another aspect of the present invention, there is provided a method of operating a wireless network device in a power saving mode, the method comprising: a grasping process of determining whether or not the power saving mode can be entered based on a predetermined condition; And generating and broadcasting at least one virtual frame of a virtual transmission ready frame and a virtual transmission ready frame based on a result of the grasping process; Broadcasting the virtual frame and operating in the power save mode; And switching the power saving mode to the normal mode after the waiting time included in the virtual frame has elapsed.

As described above, according to the present embodiment, the wireless network device determines whether or not it can enter the power save mode based on predetermined conditions, generates and broadcasts a virtual frame based on the determination result, and broadcasts the virtual frame There is an effect that power consumption can be reduced by operating in the power saving mode during the waiting time included in the virtual frame after casting.

In addition, the wireless network device can operate the power saving mode without adding a new technology by generating a virtual frame by applying the RTS frame and the CTS frame which are being used, thereby reducing the power consumption of the wireless network device, Can be maximized.

1 is a diagram illustrating a wireless network system for providing a power save mode according to the present embodiment.
2 is a block diagram schematically showing a wireless network device providing a power saving mode according to the present embodiment.
3 is a diagram for explaining a process of switching the wireless network device to the power save mode according to the present embodiment.
4 is an exemplary view illustrating a power saving mode provided in a wireless network device according to the present embodiment.
5 is a flowchart illustrating a method of operating a wireless network device in a power saving mode according to the present embodiment.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings.

FIG. 1 is a diagram illustrating a wireless network system 100 for providing a power save mode according to the present embodiment.

The wireless network system 100 according to the present embodiment includes a wireless network device 110 and first to Nth stations 120, 130 and 140. In this embodiment, the wireless network system 100 includes only the wireless network device 110 and the first to Nth stations 120, 130, and 140, but the present invention is not limited thereto.

The wireless network device 110 supports an IEEE 802.11 Access Point (AP) mode so that the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 can share one Internet line Device. That is, the wireless network device 110 converts a wired Internet signal received from an Internet service provider (ISP) into a wireless signal, and outputs the wireless signal, thereby implementing a wireless network environment. In the meantime, although the present embodiment specifies that the wireless network device 110 supports the IEEE 802.11 AP mode, the present invention is not limited thereto, and may perform a station function of receiving a wireless LAN signal. Meanwhile, the first to Nth stations 120, 130, and 140 are connected to the wireless network device 110 to access the wireless network, and wirelessly transmit and receive data using the connected wireless network.

Meanwhile, the wireless network device 110 periodically broadcasts a beacon message including information on the wireless network based on a predetermined beacon period. Here, the beacon message means a message having a predetermined period that notifies the existence of the corresponding wireless network device 110 to a station in which the wireless network device 110 exists, and allows the wireless network device 110 to participate in the mutual communication. The beacon period means a period in which a beacon message is broadcast. At this time, the beacon message includes at least one of a Mac Address, channel information of a wireless network, Service Set Identifier (SSID) information, Beacon Interval, Time Stamp information, and Capability Information . That is, the wireless network device 110 broadcasts a beacon message including information on the wireless network based on the predetermined beacon period, so that a nearby station can detect the wireless network. At this time, the station selects a wireless network to be connected based on the broadcast beacon message and transmits a connection request signal to the wireless network device providing the wireless network.

In addition, the wireless network device 110 determines whether or not it is possible to enter the power saving mode based on predetermined conditions. Meanwhile, the wireless network device 110 determines whether or not it is possible to enter the power saving mode based on at least one of a condition of arrival of a preset time, a battery remaining amount, and existence of transmission / reception data. That is, the wireless network device 110 determines whether there is a station associated with the wireless network device 110, and if there is no station connected to the wireless network device 110, It is recognized that it has occurred. At this time, the wireless network device 110 determines that it is possible to enter the power saving mode.

When the first to Nth stations 120, 130, and 140 are connected to the wireless network device 110, the wireless network device 110 is connected to the wireless network device 110 for a predetermined period of time Whether or not transmission / reception data is generated from the first to Nth stations 120, 130, and 140. At this time, if the wireless network device 110 recognizes that the transmission / reception data is not generated for a preset time, it determines that the wireless network device 110 can enter the power saving mode.

The wireless network device 110 may determine that the wireless network device 110 can enter the power saving mode when the remaining amount of the battery of the wireless network device 110 is less than a predetermined range, It can be judged that it is possible to enter.

On the other hand, in the present embodiment, although it is specified that the wireless network device 110 grasps whether or not it can enter the power saving mode based on at least one of whether a predetermined time arrives, a remaining battery level, and the presence or absence of transmission / reception data, But is not limited to.

In addition, the wireless network device 110 generates and broadcasts at least one virtual frame among the virtual transmission ready frame and the virtual transmission ready frame based on whether the wireless network device 110 can enter the power saving mode. That is, the wireless network device 110 generates a virtual frame when it is determined that the user can enter the power saving mode based on preset conditions. The first to Nth stations 120, 130, and 140, which are connected to the wireless network device 110, transmit information corresponding to a predetermined wait time to the wireless network device 110, When recognizing a virtual frame, it is determined that another station is transmitting or receiving data, and transmission / reception of data is restricted during a predetermined waiting time. Accordingly, the wireless network device 110 according to the present embodiment can operate in the power saving mode for a predetermined waiting time.

Meanwhile, the waiting time included in the virtual frame may be set to be shorter than the beacon period, or may be set to be independent of the beacon period. That is, if the wait time is set to be shorter than the beacon period, the wireless network device 110 may periodically broadcast a beacon message and operate the sleep mode within the beacon period based on the wait time have. On the other hand, since the waiting time is set regardless of the beacon period, the wireless network device 110 may operate in the power saving mode regardless of the beacon period.

Meanwhile, the wireless network device 110 according to the present embodiment can generate a request to send (RTS) frame in a virtual transmission ready frame and generate a clear to send (CTS) frame in a virtual transmittable frame. But is not limited thereto. The wireless network provided from the wireless network device 110 is based on the IEEE 802.11 standard. Accordingly, the wireless network device 110 can exchange the RTS frame or the CTS frame according to the IEEE 802.11 standard. For example, any one of the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 (hereinafter, referred to as the first station 120) And transmits the RTS frame to the wireless network device 110 as a destination of the data frame. At this time, the stations 130 and 140 other than the first station 120 can receive the RTS frame because they are under radio wave environments in which they can perform a carrier sense with the first station 120. On the other hand, the wireless network device 110 returns the CTS frame to the first station 120 after receiving the RTS frame. Similarly, other stations 130 and 140 may also receive CTS frames. Meanwhile, the RTS frame and the CTS frame are preset with a waiting period, which means a scheduled period of using the line of the wireless network. The stations 130 and 140 other than the first station 120 recognize the RTS or CTS frame The transmission and reception of data is restricted during the waiting time.

That is, the wireless network device 110 according to the present embodiment can provide a power saving mode without adding a new technology by applying the RTS frame or the CTS frame technique, which has been used to provide a power saving mode. For example, when it is determined that the transmission / reception data is not generated, the wireless network device 110 generates and broadcasts a virtual RTS frame or a CTS frame to the first to Nth stations 120, 130 and 140 for a waiting period of time. In addition, the wireless network device 110 can reduce the power consumed continuously by being driven in the power saving mode during the waiting time. In the present embodiment, the wireless network device 110 generates an RTS frame in a virtual transmission preparation frame and generates a CTS frame in a virtual transmission ready frame. However, the present invention is not limited to this and the wireless network device 110 may be connected to the wireless network device 110 If the first to Nth stations 120, 130 and 140 can restrict data transmission / reception, any frame can be generated.

In addition, the wireless network device 110 broadcasts a virtual frame, and then operates in a predetermined power saving mode. That is, the wireless network device 110 broadcasts a virtual frame, thereby limiting the data transmission / reception of the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 for a predetermined waiting time And operates in a power saving mode for a predetermined waiting time.

At this time, the wireless network device 110 switches the power of the corresponding wireless network device 110 to the off state during the standby time according to the power saving mode, and operates to switch the power supply to the on state after the waiting time has elapsed. In addition, the wireless network device 110 may be operable to switch the wireless signal generating function to the off state during the standby time according to the power saving mode, and to switch the wireless signal generating function back to the on state after the waiting time has elapsed. Meanwhile, in the present embodiment, while the wireless network device 110 is in the power saving mode, the power of the wireless network device 110 is switched to the off state or the wireless signal generating function is switched off, .

Meanwhile, the wait time included in the virtual frame may be set to be shorter than the time of the beacon period. In this case, the wireless network device 110 may set the sleep mode within the beacon period based on the wait time included in the virtual frame Can be operated at least once. That is, the wireless network device 110 can operate the power saving mode once or repeatedly within the beacon period based on the waiting time. A detailed description thereof will be given later with reference to FIG.

On the other hand, the wireless network device 110 switches the power saving mode to the normal mode after the waiting time included in the virtual frame has elapsed. That is, the wireless network device 110 maintains the power saving mode for the waiting time and switches the power saving mode to the normal mode after the waiting time has elapsed. At this time, the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 may also transmit and receive data after a lapse of a waiting time.

The first to Nth stations 120, 130, and 140 are connected to the wireless network device 110 to connect to the wireless network provided by the wireless network device 110, and transmit and receive data wirelessly using the connected wireless network do. 1, the first to Nth stations 120, 130 and 140 perform a station function for receiving a wireless LAN signal from the outside. However, the present invention is not limited to this, and similarly to the wireless network device 110, (Access Point) function that provides an access point (AP).

Also, the first to Nth stations 120, 130, and 140 recognize a beacon message broadcasted from the wireless network device 110 and grasp information on a wireless network included in the beacon message. Then, the first to Nth stations 120, 130, and 140 select a wireless network to be connected based on the beacon message and transmit a connection request signal to the wireless network device providing the wireless network.

The first to Nth stations 120, 130 and 140 synchronize time with the wireless network device 110 based on the beacon period included in the beacon message when they are connected to the wireless network device 110. [ That is, the first to Nth stations 120, 130, and 140 operate in the power saving mode during the beacon period by synchronizing the time with the wireless network device 110, thereby reducing power consumption.

In addition, when the first to Nth stations 120, 130, and 140 recognize a virtual frame broadcasted from the wireless network device 110, transmission and reception of data are restricted during the waiting time included in the virtual frame. Accordingly, the first to Nth stations 120, 130, and 140 operate in a standby state without transmitting and receiving data, even if there is data to be transmitted or received during the waiting time. Then, the first to Nth stations 120, 130, and 140 may transmit and receive data after the waiting time has elapsed.

2 is a block diagram schematically illustrating a wireless network device 110 providing a power saving mode according to the present embodiment.

The wireless network device 110 providing the power saving mode according to the present embodiment includes a beacon message output unit 200, a power saving mode checking unit 210, a virtual frame generating unit 220, a power saving mode driving unit 230, And a switching unit 240. The components of the wireless network device 110 are not necessarily limited thereto. For example, the wireless network device 110 may further include a data storage unit (not shown) that can store the data when the data can not be transmitted.

The beacon message output unit 200 periodically broadcasts a beacon message including information on a wireless network provided by the wireless network device 110 based on a predetermined beacon period. At this time, the beacon message includes at least one of a Mac Address, channel information of the wireless network, SSID information, beacon period, time stamp information, and support capability information. That is, the beacon message output unit 200 broadcasts a beacon message including information on the wireless network based on the predetermined beacon period, so that a nearby station can detect the wireless network. At this time, the station selects a wireless network to be connected based on the broadcast beacon message and transmits a connection request signal to the wireless network device providing the wireless network.

The power saving mode determining unit 210 determines whether or not the power saving mode can be entered based on predetermined conditions. On the other hand, the power saving mode verifying unit 210 determines whether or not it is possible to enter the power saving mode based on at least one of a condition of arrival of a preset time, a battery remaining amount, and existence of transmission / reception data. That is, if the station connected to the wireless network device 110 does not exist, the power saving mode determining unit 210 determines whether or not there is a station connected to the wireless network device 110, It is recognized that it has not occurred. At this time, the power saving mode determining unit 210 determines that it is possible to enter the power saving mode.

When the first to Nth stations 120, 130, and 140 are connected to the wireless network device 110, the power saving mode determining unit 210 determines whether the wireless network device 110 is connected to the wireless network device 110 Reception data is generated from the first to Nth stations 120, 130, and 140, respectively. At this time, when the power saving mode determining unit 210 recognizes that the transmission / reception data is not generated for a predetermined time, it determines that the power saving mode can be entered.

The power saving mode determining unit 210 may determine that the power saving mode can be entered when the remaining amount of the battery of the wireless network device 110 is equal to or less than a preset range, Mode can be determined to be possible. On the other hand, the determination result from the power saving mode verifying unit 210 is transmitted to the virtual frame generating unit 220.

The virtual frame generation unit 220 generates and broadcasts at least one virtual frame among the virtual transmission ready frame and the virtual transmission ready frame based on the determination result from the power saving mode determination unit 210. [ That is, the virtual frame generation unit 220 generates a virtual frame when recognizing that it is possible to enter the power saving mode based on the determination result, which is determined by the power saving mode determination unit 210. The first to Nth stations 120, 130, and 140, which are connected to the wireless network device 110, transmit the virtual frame generated by the wireless network device 110 to the corresponding When recognizing a virtual frame, it is determined that another station is transmitting or receiving data, and transmission / reception of data is restricted during a predetermined waiting time. Accordingly, the wireless network device 110 according to the present embodiment can operate in the power saving mode for a predetermined waiting time.

Meanwhile, the waiting time included in the virtual frame may be set to be shorter than the beacon period, or may be set to be independent of the beacon period. That is, if the wait time is set to be shorter than the beacon period, the wireless network device 110 may periodically broadcast a beacon message and operate the sleep mode within the beacon period based on the wait time have. On the other hand, since the waiting time is set regardless of the beacon period, the wireless network device 110 may operate in the power saving mode regardless of the beacon period.

Meanwhile, the virtual frame generation unit 220 according to the present embodiment can generate an RTS frame with a virtual transmission ready frame and generate a CTS frame with a virtual transmission ready frame, but the present invention is not limited thereto. That is, in the method of generating a virtual frame, the virtual frame generation unit 220 according to the present embodiment applies the previously used RTS frame or CTS frame technology so that the wireless network device 110 does not add a new technology To operate in a power saving mode.

The power saving mode driving unit 230 broadcasts a virtual frame and then operates in a predetermined power saving mode. That is, the power saving mode driving unit 230 limits the data transmission / reception of the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 for a predetermined waiting time by broadcasting a virtual frame, And operates in a power saving mode for a predetermined waiting time.

At this time, the power saving mode driving unit 230 switches the power of the corresponding wireless network device 110 to the off state during the standby time according to the power saving mode, and operates to switch the power supply to the on state after the waiting time has elapsed. In addition, the power saving mode driving unit 230 may switch the wireless signal generating function to the off state during the standby time according to the power saving mode, and to switch the wireless signal generating function back to the on state after the waiting time has elapsed.

Meanwhile, when the standby time included in the virtual frame is set to be shorter than the time of the beacon period, the power saving mode driving unit 230 may operate the power saving mode at least once within the beacon period. That is, the power saving mode driving unit 230 may operate the power saving mode once or repeatedly within the beacon period based on the waiting time.

The normal mode switching unit 240 switches the power saving mode to the normal mode after the waiting time included in the virtual frame has elapsed. That is, the normal mode switching unit 240 maintains the power saving mode for the waiting time and switches the power saving mode to the normal mode after the waiting time has elapsed.

3 is a diagram for explaining a process of switching the wireless network device 110 to the power saving mode according to the present embodiment. 3, the wireless network device 110 is designated as an AP and the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 are designated as STAs.

In FIG. 3, the sleep mode included in the virtual frame is set to have a shorter time than the beacon period, and the power saving mode operates in the beacon period. However, the present invention is not limited thereto. That is, the waiting time is set independently of the time of the beacon period, so that the power saving mode may be operated regardless of the beacon period.

As shown in FIG. 3, the wireless network device 110 according to the present embodiment determines whether or not it is possible to enter the power saving mode based on predetermined conditions during a period of a beacon message. Meanwhile, the wireless network device 110 determines whether or not it is possible to enter the power saving mode based on at least one of a condition of arrival of a preset time, a battery remaining amount, and existence of transmission / reception data.

Thereafter, when it is determined that the wireless network device 110 can enter the power saving mode, the wireless network device 110 generates and broadcasts a virtual RTS frame or a virtual CTS frame. At this time, the generated virtual RTS frame or virtual CTS frame includes information on a predetermined waiting time. Meanwhile, in FIG. 3, the wireless network device 110 specifies that the RTS frame or the CTS frame is generated as a virtual frame, but the present invention is not limited thereto. In addition, the wireless network device 110 can perform both an uploading process and a downloading process, and can generate an RTS frame or a CTS frame.

Meanwhile, when receiving a virtual RTS frame or a virtual CTS frame, the first to Nth stations 120, 130 and 140 determine that data is being transmitted or received from another station, and restrict transmission / reception of data during a predetermined waiting time .

Meanwhile, the wireless network device 110 broadcasts a virtual frame, and then operates in a power saving mode for a waiting time included in an RTS frame or a virtual CTS frame. That is, the wireless network device 110 operates to switch the power of the corresponding wireless network device 110 to the off state during the standby time according to the power saving mode, and to switch the power to the on state after the waiting time has elapsed. In addition, the wireless network device 110 may be operable to switch the wireless signal generating function to the off state during the standby time according to the power saving mode, and to switch the wireless signal generating function back to the on state after the waiting time has elapsed. Thereafter, the wireless network device 110 switches to the normal mode after a preset waiting time.

4 is an exemplary diagram illustrating a power saving mode provided in the wireless network device 110 according to the present embodiment. 4, the wireless network device 110 is designated as an AP and the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 are designated as STAs.

In FIG. 4, the standby time included in the virtual frame is set to be shorter than the beacon period, and the power saving mode operates in the beacon period. However, the present invention is not limited thereto. That is, the waiting time is set independently of the time of the beacon period, so that the power saving mode may be operated regardless of the beacon period.

FIG. 4A is an exemplary view illustrating a first embodiment of a power saving mode provided in the wireless network device 110 according to the present embodiment. Meanwhile, although FIG. 4A specifies that the wireless network device 110 generates an RTS frame or a CTS frame in a virtual frame, it is not limited thereto.

As shown in FIG. 4A, the wireless network device 110 according to the present embodiment determines whether or not it is possible to enter the power saving mode during a period of the beacon message. Thereafter, when it is determined that the wireless network device 110 can enter the power saving mode, the wireless network device 110 generates and broadcasts a virtual RTS frame or a virtual CTS frame. At this time, the generated virtual RTS frame or virtual CTS frame includes information on a predetermined waiting time. Meanwhile, the waiting time included in the virtual frame may be set to be shorter than the beacon period, or may be set to be independent of the beacon period.

In FIG. 4A, the wait time is set to be shorter than the beacon period, and the beacon period is assumed to be 100 msec and the wait time to be 50 msec.

Meanwhile, the wireless network device 110 may operate the power save mode at least once within the beacon period based on the waiting time included in the virtual frame. That is, the wireless network device 110 can operate the power saving mode once or repeatedly within the beacon period based on the waiting time. For example, in FIG. 4A, the beacon cycle is illustrated as 100 msec, and the standby time is illustrated as 50 msec, so that the power saving mode can be operated once within the beacon period. In this case, the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 are limited to transmit / receive data for a time of 50 msec, and the wireless network device 110 transmits / The power saving mode is operated. Thereafter, the wireless network device 110 is switched from the power saving mode to the normal mode after a lapse of 50 msec.

4B is an exemplary view illustrating a second embodiment of a power saving mode provided in the wireless network device 110 according to the present embodiment. Meanwhile, although FIG. 4B specifies that the wireless network device 110 generates an RTS frame or a CTS frame in a virtual frame, it is not limited thereto.

The method of generating the virtual RTS frame or the virtual CTS frame by the wireless network device 110 shown in FIG. 4B is the same as that shown in FIG. 4A, and a detailed description thereof will be omitted. In FIG. 4B, it is assumed that the beacon period is 100 msec and the wait time is 20 msec. In this case, the wireless network device 110 can operate the power saving mode once or repeatedly within the beacon period based on the waiting time.

That is, the wireless network device 110 broadcasts the virtual frame, and then is driven in the power saving mode for 20 msec within the beacon period. At this time, since the beacon period of the wireless network device 110 is set to 100 msec, the power saving mode may be operated once for the corresponding time, and the power saving mode is operated for 20 msec. After switching to the normal mode, The power saving mode may be repeatedly operated by switching the power saving mode to the normal mode.

When the power saving mode is repeatedly operated, the wireless network device 110 re-determines whether transmission / reception data is generated after switching to the normal mode, and re-establishes a virtual RTS frame or a virtual CTS frame based on the transmission / But it is not necessarily limited to this, and it may be switched to the power saving mode again after a predetermined time has elapsed. At this time, the preset time may be a waiting time or a time selected from the user, and is not limited to a specific time.

5 is a flowchart illustrating a method of operating the wireless network device 110 according to the present exemplary embodiment in a power saving mode.

As shown in FIG. 5, the process of the wireless network device 110 operating in the power saving mode according to the present embodiment first determines whether the wireless network device 110 can enter the power saving mode based on predetermined conditions (S500).

Meanwhile, the wireless network device 110 determines whether or not it is possible to enter the power saving mode based on at least one of a condition of arrival of a preset time, a battery remaining amount, and existence of transmission / reception data. That is, the wireless network device 110 determines whether there is a station associated with the wireless network device 110, and if there is no station connected to the wireless network device 110, It is recognized that it has occurred. At this time, the wireless network device 110 determines that it is possible to enter the power saving mode.

When the first to Nth stations 120, 130, and 140 are connected to the wireless network device 110, the wireless network device 110 is connected to the wireless network device 110 for a predetermined period of time Whether or not transmission / reception data is generated from the first to Nth stations 120, 130, and 140. At this time, if the wireless network device 110 recognizes that the transmission / reception data is not generated for a preset time, it determines that the wireless network device 110 can enter the power saving mode.

The wireless network device 110 may determine that the wireless network device 110 can enter the power saving mode when the remaining amount of the battery of the wireless network device 110 is less than a predetermined range, As shown in FIG.

If the wireless network device 110 recognizes that it is possible to enter the power saving mode based on the determination result of step S500 (S510), the wireless network device 110 generates at least one virtual frame of the virtual transmission ready frame and the virtual transfer ready frame, (S520). The first to Nth stations 120, 130, and 140, which are connected to the wireless network device 110, transmit information corresponding to a predetermined wait time to the wireless network device 110, When recognizing a virtual frame, it is determined that another station is transmitting or receiving data, and transmission / reception of data is restricted during a predetermined waiting time. Accordingly, the wireless network device 110 according to the present embodiment can operate in the power saving mode for a predetermined waiting time. Meanwhile, the waiting time included in the virtual frame may be set to be shorter than the beacon period, or may be set independently of the beacon period.

Meanwhile, the wireless network device 110 according to the present embodiment can generate an RTS frame in a virtual transmission ready frame and generate a CTS frame in a virtual transmission ready frame. That is, in the method of generating a virtual frame, the wireless network device 110 according to the present embodiment may be configured so as to provide a power save mode without adding a new technology by applying an RTS frame or a CTS frame technique, do. In this embodiment, the wireless network device 110 specifies that the RTS frame is generated in the virtual transmission ready frame and the CTS frame is generated in the virtual transmission ready frame, but the present invention is not limited to this, and the wireless network device 110 may be connected to the wireless network device 110 Any frame can be used as long as it can restrict data transmission / reception by the first to Nth stations 120, 130 and 140.

After broadcasting the virtual frame, the wireless network device 110 operates in a predetermined power saving mode (S530). That is, the wireless network device 110 limits the data transmission / reception of the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 for a preset waiting time by broadcasting a virtual frame, And operates in a power saving mode for a predetermined waiting time.

At this time, the wireless network device 110 switches the power of the corresponding wireless network device 110 to the off state during the standby time according to the power saving mode, and operates to switch the power supply to the on state after the waiting time has elapsed. In addition, the wireless network device 110 may be operable to switch the wireless signal generating function to the off state during the standby time according to the power saving mode, and to switch the wireless signal generating function back to the on state after the waiting time has elapsed.

On the other hand, when the waiting time included in the virtual frame is set to have a time shorter than the time of the beacon period, the wireless network device 110 sets the power saving mode in the beacon period based on the waiting time included in the virtual frame at least once . That is, the wireless network device 110 can operate the power saving mode once or repeatedly within the beacon period based on the waiting time.

After the waiting time included in the virtual frame has elapsed, the wireless network device 110 switches the power saving mode to the normal mode (S540). That is, the wireless network device 110 maintains the power saving mode for the waiting time and switches the power saving mode to the normal mode after the waiting time has elapsed. At this time, the first to Nth stations 120, 130, and 140 connected to the wireless network device 110 can also transmit and receive data after the waiting time has elapsed.

5, it is described that steps S500 to S540 are sequentially executed. However, this is merely illustrative of the technical idea of an embodiment of the present invention, and it is to be understood that the present invention is not limited to the above- Those skilled in the art will understand that various changes and modifications may be made to those skilled in the art without departing from the essential characteristics of one embodiment of the present invention or by executing one or more of steps S500 through S540 in parallel 5, it is not limited to the time-series order.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: wireless network system 110: wireless network device
120: first station 130: second station
140: Nth station 200: Beacon message output unit
210: power save mode confirmation unit 220: virtual frame generation unit
230: power saving mode driving unit 240: normal mode switching unit

Claims (16)

A power saving mode identifying unit for determining whether or not the power saving mode can be entered based on predetermined conditions;
A virtual frame generation unit for generating and broadcasting at least one virtual frame among a virtual transmission ready frame and a virtual transmission ready frame based on a result obtained from the power saving mode confirmation unit;
A power saving mode driving unit that broadcasts the virtual frame and then operates in the power saving mode; And
A normal mode switching unit for switching the power saving mode to a normal mode after a waiting time included in the virtual frame has elapsed,
The wireless network device comprising: The method according to claim 1,
Wherein the power saving mode check unit determines whether or not the power saving mode can be entered based on at least one of a condition of arrival of a predetermined time, a battery remaining amount, and existence of transmission / reception data. 3. The method of claim 2,
Wherein the power saving mode determining unit recognizes that the transmission / reception data is not generated when a station that is connected is not present, and determines that the power saving mode can be entered. 3. The method of claim 2,
Wherein the power saving mode determining unit determines that the power saving mode can be entered when the connected station recognizes that the transmission / reception data is not generated for a preset time. 3. The method of claim 2,
Wherein the power saving mode determining unit determines that the power saving mode can be entered when the remaining amount of the battery is less than a predetermined range. The method according to claim 1,
Wherein the virtual frame generation unit generates and broadcasts the virtual frame when it is determined that the user can enter the power save mode. The method according to claim 1,
And a beacon message output unit for broadcasting a beacon message including information on the wireless network based on the predetermined beacon period,
Wherein the power saving mode driving unit operates the power saving mode at least once within the beacon period based on the waiting time. 8. The method of claim 7,
Wherein the waiting time is shorter than the time of the beacon period. 8. The method of claim 7,
Wherein the power saving mode driving unit repeatedly operates the power saving mode during the standby time within the beacon period. The method according to claim 1,
Wherein the virtual transmission ready frame is an RTS (Request to Send) frame and the virtual transmittable frame is a Clear to Send (CTS) frame. The method according to claim 1,
Wherein the power saving mode driving unit switches the power supply to the on state after turning off the power for the standby time according to the power saving mode or turns off the wireless signal generating function during the standby time and then turns on the power. A method of operating a wireless network device in a power saving mode,
A grasping process for grasping whether or not it is possible to enter the power saving mode based on a predetermined condition;
And generating and broadcasting at least one virtual frame of a virtual transmission ready frame and a virtual transmission ready frame based on a result of the grasping process;
Broadcasting the virtual frame and operating in the power save mode; And
A process of switching the power saving mode to the normal mode after the waiting time included in the virtual frame has elapsed
Wherein the power saving mode operating method comprises: 13. The method of claim 12,
Wherein the determination step determines whether or not the user can enter the power saving mode based on at least one of a condition of arrival of a predetermined time, a remaining battery level, and presence / absence of transmission / reception data. 13. The method of claim 12,
Wherein the generation step generates the virtual frame and broadcasts the virtual frame when it is determined that the power saving mode can be entered by the grasping process. 13. The method of claim 12,
Wherein the operation of the power saving mode operates the power saving mode at least once within a predetermined beacon period based on the waiting time. 13. The method of claim 12,
Wherein the step of driving the power saving mode switches the power source to the on state after turning off the power for the waiting time according to the power saving mode or turns off the power for generating the radio signal during the standby time, Mode operation method.

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