KR20200046530A - WLAN awake configuration device and its method - Google Patents

Abstract

The present invention relates to a wireless LAN terminal awake setting apparatus and a method thereof, which efficiently control the power of a wireless transceiving unit of the wireless LAN terminal, and control a transition cycle of an awake state and a dose state to control the power of the wireless transceiving unit of the wireless LAN terminal, thereby saving power of the wireless LAN terminal. According to the present invention, the wireless LAN terminal awake setting apparatus comprises a wireless LAN terminal which receives a wireless LAN service from a wireless LAN access point (AP).

Description

Wireless LAN terminal awake configuration device and its method

The present invention relates to a wireless LAN terminal awake setting apparatus and method, in detail, to control the power of the wireless transceiver to communicate with the wireless LAN AP in the wireless LAN terminal. That is, the present invention relates to a wireless LAN terminal awake setting apparatus and method capable of saving power of a wireless LAN by supplying power to a wireless transmitter and receiver at regular intervals.

Recently, as the spread of mobile devices has expanded, wireless LAN technology capable of providing fast wireless Internet services to them has attracted much attention. Wireless LAN technology is a technology that enables mobile devices such as smartphones, smart pads, laptop computers, portable multimedia players, embedded devices, etc. to access the Internet wirelessly from a home, business, or specific service area based on wireless communication technology at a short distance. to be.

In 802.11ax, which is a next-generation wireless LAN standard after 802.11ac and 802.11ad, discussions are continuing to provide high-efficiency and high-performance wireless LAN communication technology in a high-density environment.

That is, in a next-generation wireless LAN environment, high-frequency / high-efficiency communication must be provided in the presence of a high-density station and an access point (AP), and various technologies are required to implement this.

In addition, in order to extend the battery life of mobile devices equipped with a wireless LAN while simultaneously developing technologies to increase the speed and efficiency of the wireless LAN, and to mount wireless LANs in devices operating based on very limited strategic sources, such as batteries, Research on efficient WLAN power saving techniques has been continued.

As an example, Korean Patent Publication No. 10-2018-0011722 proposed a method for a WLAN terminal to scan and track beacons of a WLAN AP and to limit power.

However, even in this case, since the WLAN terminal must periodically wake up, power of the WLAN terminal is wasted.

Republic of Korea Patent Publication No. 10-2018-0011722 (2018.02.02.)

An object of the present invention is to provide a wireless LAN terminal awake setting apparatus and method for efficiently controlling the power of the wireless transceiver of the wireless LAN terminal.

The present invention provides a wireless LAN terminal awake setting apparatus and method for controlling a transition period of an awake state and a doze state to control the power of the wireless transceiver of the wireless LAN terminal to save power of the wireless LAN terminal There is another purpose to provide.

The wireless LAN terminal awake setting device according to the present invention may include a wireless LAN terminal receiving wireless LAN service from a wireless LAN AP.

Here, the wireless LAN terminal may include a wireless transmitting / receiving unit performing wireless transmission and reception with a wireless LAN AP, a power supply unit supplying power to the wireless transmitting / receiving unit, and a control unit controlling the power supply unit to control power supplied to the wireless transmission / reception unit. .

In addition, the control unit may control any one of an activation mode that controls power to be supplied to the wireless transceiver and a power saving mode that controls power to be supplied only when necessary.

Here, in the activation mode, it may be characterized in that the cloth is always in an awake state capable of transmitting and receiving.

In addition, in the power saving mode, it is possible to transition to the awake state only when transmitting and receiving, and thereafter to the doze state in which power is not supplied to the wireless transmitting and receiving unit.

Here, the transition from the dose state to the awake state may be transitioned at regular intervals.

In addition, the transition from the dose state to the awake state may determine the period in proportion to the previous transition period for a period of time.

Here, the transition from the dose state to the awake state may determine the period of the WLAN terminal in proportion to the transition period of the WLAN AP and another WLAN terminal receiving the WLAN service from the other WLAN AP.

In addition, the transition from the doze state to the awake state may decrease the period below a certain value when the provision of the wireless LAN service is changed from the wireless LAN AP to another wireless LAN AP.

A method for setting a WLAN terminal awake according to another embodiment of the present invention may include a step of transmitting and receiving a wireless LAN signal in which the wireless LAN terminal receives a wireless LAN service from a wireless LAN AP.

Here, the wireless LAN terminal may include a wireless transmitting / receiving unit performing wireless transmission and reception with a wireless LAN AP, a power supply unit supplying power to the wireless transmitting / receiving unit, and a control unit controlling the power supply unit to control power supplied to the wireless transmission / reception unit. .

In addition, the control unit may control any one of an activation mode that controls power to be supplied to the wireless transceiver and a power saving mode that controls power to be supplied only when necessary.

Here, in the activation mode, it may be characterized in that the cloth is always in an awake state capable of transmitting and receiving.

In addition, in the power saving mode, it is possible to transition to the awake state only when transmitting and receiving, and thereafter to the doze state in which power is not supplied to the wireless transmitting and receiving unit.

Here, the transition from the dose state to the awake state may be transitioned at regular intervals.

In addition, the transition from the dose state to the awake state may determine the period in proportion to the previous transition period for a period of time.

Here, the transition from the dose state to the awake state may determine the period of the WLAN terminal in proportion to the transition period of the WLAN AP and another WLAN terminal receiving the WLAN service from the other WLAN AP.

In addition, the transition from the doze state to the awake state may decrease the period below a certain value when the provision of the wireless LAN service is changed from the wireless LAN AP to another wireless LAN AP.

The wireless LAN terminal awake setting apparatus and method according to the present invention has the advantage of efficiently controlling the power of the wireless transceiver of the wireless LAN terminal.

In addition, the wireless LAN terminal awake setting apparatus and method according to the present invention is to control the power of the wireless transceiver of the wireless LAN terminal awake (awake) and doze (doze) transition cycle of the control state of the wireless LAN terminal It has the advantage of saving power.

1 is a configuration diagram showing a wireless LAN terminal awake setting device according to an embodiment of the present invention.
FIG. 2 is a configuration diagram showing in detail the WLAN terminal of FIG. 1.
FIG. 3 is a configuration diagram showing switching between an activation mode and a power saving mode for controlling the power of the wireless transceiver of FIG. 2.
FIG. 4 is a network when the WLAN terminal of FIG. 1 transitions from a WLAN AP to another WLAN AP.
5 is a flowchart illustrating a method for setting a WLAN terminal awake according to an embodiment of the present invention.

A specific embodiment for carrying out the present invention will be described with reference to the accompanying drawings.

The present invention can be applied to various changes and can have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. This is not intended to limit the present invention to specific embodiments, and can be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Hereinafter, a wireless LAN terminal awake setting apparatus and method according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram showing a WLAN terminal awake setting device according to an embodiment of the present invention, FIGS. 2 to 4 are detailed configuration diagrams and networks for explaining FIG. 1 in detail.

Hereinafter, a wireless LAN terminal awake setting apparatus according to an embodiment of the present invention may be described with reference to FIGS. 1 to 4.

First, referring to FIG. 1, a wireless LAN terminal awake setting device according to an embodiment of the present invention includes a wireless LAN terminal 200 receiving wireless LAN service from the wireless LAN AP 100.

At this time, the wireless LAN terminal 200 may control the power of the wireless transceiver 220 to be described later in order to operate at low power, and by setting a cycle for controlling the power, efficiently power the wireless LAN terminal 200 It has the advantage of saving.

2 is a configuration diagram showing in detail the wireless LAN terminal 200 of FIG. 1.

As can be seen in FIG. 2, the wireless LAN terminal 200 includes a wireless transmitting / receiving unit 220 performing wireless transmission and reception with the wireless LAN AP 100, and a power supply unit 210 supplying power to the wireless transmitting / receiving unit 220. ), And a control unit 230 controlling the power supply unit 210 to control the power supplied to the wireless transmission / reception unit 220.

That is, the control unit 230 controls the power supply unit 210 to control the power supplied to the wireless transmission / reception unit 220, thereby saving power consumed by the wireless LAN terminal 200.

FIG. 3 is a configuration diagram showing switching between an activation mode (S210) and a power saving mode (S220) for controlling the power of the wireless transceiver 220 of FIG. 2.

As can be seen in Figure 3, the control unit 230 is always in the active mode (S210) to control the power to be supplied to the wireless transceiver 220 and power saving mode (S220) to control the power to be supplied only when necessary. You can control either.

Here, in the activation mode (S210), it can be characterized in that it is always transitioned to an awake state capable of transmitting and receiving.

In addition, in the power saving mode (S220), it is possible to transition to the awake state only when transmitting and receiving, and thereafter to the doze state in which power is not supplied to the wireless transceiver 220.

Here, the transition from the dose state to the awake state may be transitioned at regular intervals.

In addition, the transition from the dose state to the awake state may determine the period in proportion to the previous transition period for a period of time.

Here, the transition from the doze state to the awake state is proportional to the transition period of the wireless LAN AP 100 and another wireless LAN terminal 400 receiving wireless LAN service from the other wireless LAN AP 300. The period of 200 may be determined.

That is, the method of transitioning to the awake state can be used in a periodic manner, and in this case, the cycle may be reset in proportion to the recent awake cycle, and the cycle may be based on statistics such as hourly, daily, and weekly. You can also reset it.

In addition, when the awake cycle of the other wireless LAN terminal 400 is slow in the surrounding wireless environment, the awake cycle of the wireless LAN terminal 200 may be slowed to save power of the wireless transceiver 220. There is this.

On the other hand, the reception of the awake cycle of the other wireless LAN terminal 400 in the wireless LAN terminal 200 may be implemented through the other wireless LAN AP 300 and the wireless LAN AP 100. It is not limited.

FIG. 4 is a network when the WLAN terminal 200 of FIG. 1 transitions from the WLAN AP 100 to another WLAN AP 300.

As can be seen in Figure 4, the transition from the dose state to the awake state cycles below a certain value when the provision of the wireless LAN service is changed from the wireless LAN AP 100 to another wireless LAN AP 300. Can decrease.

That is, when the wireless LAN terminal 200 moves from the wireless LAN AP 100 to another wireless LAN AP 300, location registration is required, so that the awake cycle can be accelerated so that the wireless LAN terminal 200 can quickly adapt to the network. There is an advantage.

5 is a flowchart illustrating a method for setting a WLAN terminal awake according to an embodiment of the present invention.

As can be seen in Figure 5, the WLAN terminal awake setting method comprises a step (S100) of the wireless LAN terminal 200 is provided with a wireless LAN service from the wireless LAN AP (100).

Here, the wireless LAN terminal 200 is a wireless transmission / reception unit 220 that performs wireless transmission and reception with the wireless LAN AP 100, a power supply unit 210 that supplies power to the wireless transmission / reception unit 220, and a power supply unit 210. It may include a control unit 230 for controlling the power supplied to the wireless transmitting and receiving unit 220 by controlling the.

In addition, the control unit 230 may control either the step S210 of controlling power to be supplied to the wireless transceiver 220 at all times or the step S220 of controlling power to be supplied only when necessary.

Here, in the activation mode (S210), it can be characterized in that it is always transitioned to an awake state capable of transmitting and receiving.

In addition, in the power saving mode (S220), it is possible to transition to the awake state only when transmitting and receiving, and thereafter to the doze state in which power is not supplied to the wireless transceiver 220.

Here, the transition from the dose state to the awake state may be transitioned at regular intervals.

In addition, the transition from the dose state to the awake state may determine the period in proportion to the previous transition period for a period of time.

Here, the transition from the doze state to the awake state is proportional to the transition period of the wireless LAN AP 100 and another wireless LAN terminal 400 receiving wireless LAN service from the other wireless LAN AP 300. The period of 200 may be determined.

In addition, the transition from the doze state to the awake state may decrease the period below a certain value when the provision of the wireless LAN service is changed from the wireless LAN AP 100 to another wireless LAN AP 300.

That is, the method of transitioning to the awake state can be used in a periodic manner, and in this case, the cycle may be reset in proportion to the recent awake cycle, and the cycle may be based on statistics such as hourly, daily, and weekly. You can also reset it.

In addition, when the awake cycle of the other wireless LAN terminal 400 is high in the surrounding wireless environment, the awake cycle of the wireless LAN terminal 200 may be increased, thereby effectively saving power of the wireless transmission / reception unit 220. There are advantages.

Meanwhile, when the wireless LAN terminal 200 moves from the wireless LAN AP 100 to another wireless LAN AP 300, location registration is required, so the awake cycle can be accelerated so that the wireless LAN terminal 200 can quickly adapt to the network. There is an advantage.

As described above, the wireless LAN terminal awake setting device and method has an advantage of efficiently controlling the power of the wireless transmitting and receiving unit of the wireless LAN terminal, and awake controlling the power of the wireless transmitting and receiving unit of the wireless LAN terminal. There is an advantage of saving power of the wireless LAN terminal by controlling the transition cycle of the state and the doze state.

What has been described above includes examples of one or more embodiments. Of course, rather than describing all possible combinations of components or methods for the purpose of describing the above-described embodiments, those skilled in the art can recognize that many additional combinations and substitutions of various embodiments are possible. Accordingly, the described embodiments are intended to cover all alternatives, modifications and variations that are within the spirit and scope of the appended claims.

Claims (18)

Wireless LAN terminal awake setting device comprising a; wireless LAN terminal receiving a wireless LAN service from the wireless LAN AP. According to claim 1,
The wireless LAN terminal,
A wireless transceiver that wirelessly transmits and receives the wireless LAN AP;
A power supply unit supplying power to the wireless transmission / reception unit; And
And a control unit controlling the power supply unit to control power supplied to the wireless transmission / reception unit. According to claim 2,
The control unit, a wireless LAN terminal awake setting device, characterized in that for controlling one of the power-saving mode for controlling so that power is supplied only when necessary, and an activation mode for controlling power to be always supplied to the wireless transceiver. According to claim 3,
In the activation mode, the wireless LAN terminal awake setting device, characterized in that the transition to the awake (awake) state capable of always transmitting and receiving. According to claim 3,
In the power saving mode, the wireless LAN terminal awake setting device, characterized in that the transition to the awake state only when transmitting and receiving, and then to a doze (doze) state in which power is not supplied to the wireless transceiver. The method of claim 5,
A wireless LAN terminal awake setting device, characterized in that the transition from the dose state to the awake state transitions at regular intervals. The method of claim 6,
The transition from the dose state to the awake state, the wireless LAN terminal awake setting device, characterized in that for determining a period in proportion to the previous transition period. The method of claim 6,
The transition from the dose state to the awake state determines the period of the WLAN terminal in proportion to the transition period of another WLAN terminal receiving wireless LAN service from the WLAN AP and another WLAN AP. Wireless LAN terminal awake setting device, characterized in that. The method of claim 6,
Transition from the doze state to the awake state, when the provision of the wireless LAN service is changed from the wireless LAN AP to another wireless LAN AP, the wireless LAN terminal language characterized in that the period is reduced to a certain value or less. Wake setting device. A WLAN terminal awakening method comprising: a wireless LAN signal receiving and receiving step of receiving a wireless LAN service from a wireless LAN AP. The method of claim 10,
The wireless LAN terminal,
A wireless transceiver that wirelessly transmits and receives the wireless LAN AP;
A power supply unit supplying power to the wireless transmission / reception unit; And
And a control unit controlling the power supply unit to control power supplied to the wireless transmission / reception unit. The method of claim 11,
The control unit, a wireless LAN terminal awake setting method characterized in that it controls one of the power-saving mode to control the power to be supplied only when necessary, and an activation mode to always control the power supply to the wireless transceiver. The method of claim 12,
In the activation mode, the wireless LAN terminal awake setting method, characterized in that the transition to the awake (awake) state capable of always transmitting and receiving. The method of claim 12,
In the power saving mode, the wireless LAN terminal awake setting method characterized in that the transition to the awake state only when transmitting and receiving, and then to a doze (doze) state in which power is not supplied to the wireless transceiver. The method of claim 14,
A method for setting a WLAN terminal awakening, characterized in that the transition from the dose state to the awake state transitions at regular intervals. The method of claim 15,
The transition from the dose state to the awake state, the wireless LAN terminal awake setting method, characterized in that for determining a period in proportion to the previous transition period. The method of claim 15,
The transition from the dose state to the awake state determines the period of the WLAN terminal in proportion to the transition period of another WLAN terminal receiving wireless LAN service from the WLAN AP and another WLAN AP. Wireless LAN terminal awake setting method, characterized in that. The method of claim 15,
Transition from the doze state to the awake state, when the provision of the wireless LAN service is changed from the wireless LAN AP to another wireless LAN AP, the wireless LAN terminal language characterized in that the period is reduced to a certain value or less. How to set the wake.

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