KR20140057908A - Method and apparatus for perfroming sector sweeping in a wireless communication system - Google Patents

Abstract

A method for performing sector sweeping in a wireless communication system according to present invention comprises: determining whether a station (STA) to perform communication is detected by performing, by an access point (AP), first sector sweeping; determining whether an STA location changes by performing second sector sweeping when an STA is detected; and increasing a sector sweeping cycle, and transmitting information on the increased sector sweeping cycle when the STA location does not change.

Description

Field of the Invention [0001] The present invention relates to a method and apparatus for performing sector sweeping in a wireless communication system,

The present invention relates to a method and apparatus for performing sector sweeping in a wireless communication system.

Recently, wireless communication has been widely used and the frequency band that can be used has become insufficient, and millimeter wave (mmwave), which is mainly used for military use, is now emerging as a radio wave for next generation wireless communication. IEEE 802.11ad, one of the standards related to the mmwave, has been proposed to achieve multi-gigabit LAN standardization using a channel bandwidth of up to 2.5 GHz in the unlicensed band 60 GHz band.

According to the IEEE 802.11ad standard, a data transmission rate as high as 10 times (for example, 7 Gbps) can be obtained compared with the IEEE 802.11n standard. Therefore, in a communication system based on IEEE 802.11ad, transmission of wireless high-resolution video and audio data, a portable terminal through an access point (AP) such as a conventional wireless LAN service, and the Internet connection of a notebook computer can be performed.

On the other hand, the mmwave is highly directional due to the characteristics of the 60 GHz band. Accordingly, the beam forming technique is used in the mmwave communication system, and the AP and the station (STA) perform a sector sweeping process for a predetermined time interval to determine the optimal channel direction between them .

The sector sweeping process is performed each time a beacon signal is transmitted. However, in the mmwave communication system, there is not much movement of the AP and the STA, and performing the sector sweeping process in the STA every time the AP transmits a beacon signal results in unnecessary power consumption of the STA. Accordingly, there is a need for a method for solving the problem that the battery usage time of the STA is reduced due to the sector sweeping process.

The present invention proposes a method and apparatus for performing sector sweeping in a wireless communication system.

The present invention proposes a method and apparatus for reducing the amount of power consumed by an AP and an STA by reducing a sector sweeping operation performed in a wireless communication system.

A first method proposed by the present invention is a method comprising: A method for performing a sector sweep of an access point (AP) in a wireless communication system, the method comprising the steps of: determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected; Determining whether the position of the STA is changed by performing a second sector sweep when the STA is detected; increasing a sector sweep period when the position of the STA is not changed; And transmitting the information to the STA.

A second method proposed by the present invention is a method comprising: A method for performing a sector sweep by a mobile station (STA) in a wireless communication system, comprising the steps of: determining whether information on a sector sweep period is received from an access point (AP) Changing the sector sweeping period based on the information on the sector sweeping period when the information on the sector sweeping period is received, and performing sector sweeping according to the changed sector sweeping period.

A third method proposed by the present invention is a method comprising: A method for performing a sector sweep of an access point (AP) in a wireless communication system, the method comprising the steps of: determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected; Determining whether the position of the STA is changed by performing a second sector sweep when the STA is detected; and transmitting a message indicating that the third sector sweeping need not be performed when the position of the STA is not changed. To the STA.

A fourth method proposed by the present invention is a method comprising: A method for performing a sector sweep by a terminal (STA) in a wireless communication system, the method comprising the steps of: determining whether a message indicating that sector sweeping does not need to be performed in the STA is received from an access point Performing a sector sweeping when a message indicating that the sector sweeping need not be performed is received; and when the message requesting to perform the sector sweeping is received from the AP, .

A fifth method proposed by the present invention is a method comprising: A method for performing a sector sweep of an access point (AP) in a wireless communication system, the method comprising the steps of: determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected; Determining if the position of the STA is changed by performing a second sector sweep when the STA is detected; and if the position of the STA is not changed, And transmitting a message to the STA instructing the STA to perform the third sector sweep in a direction corresponding to the sector selected by the STA.

A sixth method proposed by the present invention is a method for generating a color image by: A method for performing a sector sweep by a mobile station (STA) in a wireless communication system, the method comprising: performing a first sector sweep; and performing a second sector sweep, Determining whether a message instructing to perform a third sector sweep is received in a direction corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the M sectors, And performing the third sector sweep in a direction corresponding to the sector selected by the STA according to the first sector sweep.

A seventh method proposed by the present invention is a method comprising: A method for performing a sector sweep of an access point (AP) in a wireless communication system, the method comprising the steps of: determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected; And performing a second sector sweep when the STA is detected, wherein the second sector sweeping is performed based on whether or not the motion of the STA is out of a predetermined range, And is performed in a direction corresponding to a sector selected by the STA according to one sector sweep.

An eighth method proposed by the present invention comprises: A method for performing a sector sweep by a mobile station (STA) in a wireless communication system, the method comprising: performing first sector sweep; measuring movement of the STA after performing a second sector sweep; If the movement of the STA does not deviate from a preset range, a third sector sweeping is performed in a direction corresponding to the sector selected by the STA according to the first sector sweep among M transmission sectors of an access point (AP) .

The first apparatus proposed in the present invention comprises: (STA) for performing communication by performing a first sector sweep in an access point (AP) in a wireless communication system, and when the STA is detected, A control unit for determining whether the position of the STA is changed by performing sweeping and increasing a sector sweeping period when the position of the STA is not changed; and a transmitter for transmitting information on the increased sector sweeping period to the STA .

The second apparatus proposed by the present invention comprises: A method for determining whether or not information on a sector sweeping period is received from an access point (AP) in a terminal (STA) in a wireless communication system is determined, and when information on the sector sweeping period is received, A controller for changing a sector sweep period based on information on the sweep period and performing sector sweep according to the changed sector sweep period; and a receiver for receiving information on the sector sweep period.

The third apparatus proposed by the present invention comprises: (STA) for performing communication by performing a first sector sweep in an access point (AP) in a wireless communication system, and when the STA is detected, And a transmitter for transmitting to the STA a message indicating that the third sector sweeping need not be performed when the position of the STA is not changed do.

The fourth device proposed by the present invention comprises: (STA) in a wireless communication system determines whether a message indicating that a sector sweeping need not be performed in the STA is received from an access point (AP), and when the sector sweeping is performed And performing a sector sweep when a message requesting to perform the sector sweep is received from the AP without performing the sector sweeping when a message indicating that there is no need to perform sector sweeping is received, And a receiver for receiving a message requesting to perform the sector sweeping.

The fifth apparatus proposed by the present invention comprises: (STA) for performing communication by performing a first sector sweep in an access point (AP) in a wireless communication system, and when the STA is detected, And a controller for determining whether the position of the STA has been changed by performing sweeping on the sector selected by the STA according to the first sector sweep of the M transmission sectors of the AP, To the STA, a message instructing to perform the third sector sweeping in the direction of the first sector sweep.

The sixth apparatus proposed by the present invention comprises: There is provided a method for performing a sector sweep by a terminal (STA) in a wireless communication system, the method comprising: performing a first sector sweep; Sector sweeping in a direction corresponding to a sector selected by the STA according to the first sector sweep of the first sector when the message is received, A controller for performing the third sector sweeping in a direction corresponding to a sector selected by the STA according to sweeping; and a receiver for receiving the message.

The seventh apparatus proposed by the present invention comprises: (STA) for performing communication by performing a first sector sweep in an access point (AP) in a wireless communication system, and when the STA is detected, Wherein the second sector sweeping is performed by the STA in accordance with the first sector sweeping among the M transmission sectors of the AP based on whether movement of the STA is out of a predetermined range, Sector is performed in a direction corresponding to the sector.

The eighth apparatus proposed by the present invention comprises: A mobile station (STA) in a wireless communication system performs a first sector sweep, performs a second sector sweep, measures motion of the STA, and moves the STA in a predetermined range The controller performs a third sector sweep in a direction corresponding to a sector selected by the STA according to the first sector sweep among M transmission sectors of an access point (AP).

In the present invention, if the location of the STA is not changed, the number of times the sector sweeping process is performed in the STA can be reduced by increasing the sector sweeping period. In the present invention, the sector sweeping process performed in the STA can be omitted, and the sector sweeping process can be performed in only a specific direction depending on whether the position of the STA is changed. Accordingly, the present invention can save the power of the AP and the STA, and can increase the usable time of the STA.

1 is a diagram showing a frame structure of a general beacon period,
2 is a diagram illustrating a sector sweeping process between an AP and a STA,
3 is a flowchart showing a sector sweeping process of an AP according to the first embodiment of the present invention.
4 is a flowchart illustrating a sector sweeping process of the STA according to the first embodiment of the present invention.
5 is a flowchart illustrating a sector sweeping process of an AP according to a second embodiment of the present invention.
6 is a flowchart illustrating a sector sweeping process of the STA according to the second embodiment of the present invention.
FIG. 7 is a flowchart illustrating a sector sweeping process of an AP according to a third embodiment of the present invention;
8 is a flowchart illustrating a sector sweeping process of the STA according to the third embodiment of the present invention.
9 is a diagram illustrating an RSS performing direction of an STA according to a third embodiment of the present invention;
10 is a flowchart showing a sector sweeping process of an AP according to the fourth embodiment of the present invention;
11 is a flowchart showing a sector sweeping process of the STA according to the fourth embodiment of the present invention.
12 is a diagram illustrating an RSS performing direction of an STA according to a fourth embodiment of the present invention;
13 is a block diagram of an AP according to an embodiment of the present invention;
14 is a block diagram of a STA according to an embodiment of the present invention;

Hereinafter, the operation principle of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

The present invention provides a method and apparatus in a wireless communication system. In particular, the present invention reduces sector sweeping operations performed during a beam forming process between an access point (AP) and a station (STA) to reduce the amount of power consumed by the AP and the STA And to provide a method and an apparatus for reducing the size of the display. The AP may be, for example, a wireless router, a set-top box connected to an IP TV or the like, and the STA may be a cellular phone, a notebook, and a tablet PC. In the embodiment of the present invention, the wireless communication system is a wireless communication system based on IEEE 802.11ad, but the wireless communication system may be a wireless communication system based on another communication standard.

In order to facilitate understanding of the present invention, a general beamforming training process will be described with reference to FIGS. 1 and 2. FIG. The beamforming training process may be performed during predefined access periods within a beacon interval, and the frame structure of the beacon period may be configured as shown in FIG.

1 is a diagram showing a frame structure of a general beacon period.

Referring to FIG. 1, the beacon period 100 includes a beacon header interval (BHI) 102 and a data transmission interval (DTI) 104. The BHI 102 includes a Beacon Transmission Interval (BTI) 106 in which one or more beacon signals are transmitted, an Association Beam Forming Training (A-BFT) 106 in which the STA performs beamforming training with the AP, (108), and an Announcement Transmission Interval (ATI) (110) where the AP provides an access opportunity to the STA. The DTI 104 is a section in which inter-STA frame exchange is performed, and includes a contention-based access period (CBAP) 1 112, a service period (SP) 1 114, 116) and CBAP 2 (118).

During the BTI 106, the AP performs an Initiator Sector Sweep (ISS) process and the STA performs a Responder Sector Sweep (RSS) process during the A-BFT 108. Hereinafter, the ISS and the RSS process will be described in detail with reference to FIG.

2 is a diagram illustrating a sector sweeping process between an AP and an STA.

Referring to FIG. 2, a sector level sweep process (hereinafter referred to as a 'sector sweep process') 200 may be performed for beamforming training. The sector sweep process 200 includes an ISS process 210 and an RSS process 220. First, in the ISS procedure 210, the AP transmits sector sweep frames (beacon frames) to STAs in M transmit sectors corresponding to all of the M transmit beam directions during the BTI 106. The sector sweep frame may include a sector identifier (ID) and an antenna ID corresponding to each of the M transmission sectors.

Then, the STA receives the sector sweep frame corresponding to each of the M transmit sectors in the quasi-Omni direction, and detects one of the received sector sweep frames having the largest received signal strength. Then, the STA generates a sector sweep frame including a sector ID and an antenna ID corresponding to the detected sector sweep frame, and performs an RSS process 220 of transmitting the generated sector sweep frame to the AP.

Specifically, the STA transmits the sector sweep frame to the AP in each of N transmission sectors corresponding to all N transmission beam directions during the A-BFT 108 during which the RSS process 220 is performed. Then, the AP receives a sector sweep frame corresponding to each of the N transmission sectors in a quasi-Omni direction, and detects one of the received sector sweep frames having the largest received signal strength.

The AP generates a sector sweep feedback frame including a sector ID and an antenna ID corresponding to the detected sector sweep frame, and transmits the generated sector sweep feedback frame to the STA. At this time, the sector sweep feedback frame may be transmitted using the corresponding antenna in the transmission sector of the AP selected by the STA.

When receiving the sector sweep feedback frame, the STA transmits a sector sweep ACK frame (hereinafter, referred to as a sector sweep response frame) to the AP in response thereto. The sector sweep response frame may be transmitted using a corresponding antenna in a transmission sector of the STA selected by the AP, and may include a sector ID and an antenna ID corresponding to the sector selected by the STA.

Through the above process, the AP transmits a beamforming signal in the transmission sector selected by the STA, and the STA can transmit the beamforming signal in the transmission sector selected by the AP.

Table 1 below shows the sector sweep (response) frame transmitted in the ISS and RSS processes.

In Table 1, a frame control field includes information on a frame version and a frame type. And the Duration field contains information on the required time to transmit the sector sweep frame until the CDOWN value becomes zero. Here, the CDOWN value represents the number of sector sweep remaining DBand beacon frames and the number of sector sweep frames. The Receiving STA Address (RA) field contains the MAC address of the sector sweep receiving STA, and the Transmitting STA Address (TA) field contains the MAC address of the sector sweep transmitting STA. And the FCS field includes a frame check sequence.

The SSW (sector sweep) field includes Direction, CDOWN, sector ID, antenna ID, DMG antenna ID, and RXSS length field as shown in Table 2 below.

The Direction field is set to 0 if the frame was transmitted by a beamforming initiator and set to 1 if the frame was transmitted by a beamforming responder. And the CDOWN field includes information on the number of remaining beacon frames or the number of remaining sector sweep frames. The sector ID and the directional multi-gigabit (DMG) antenna ID include a sector ID and an antenna ID corresponding to the corresponding sector sweep frame. And the RXSS length field includes a value representing the length of the received sector sweep by the number of sector sweep frames.

In Table 1, the SSW feedback field can be defined as shown in the following Tables 3 and 4.

Table 3 above shows the SSW feedback field transmitted as part of the ISS. In Table 3, the Total Sectors in ISS field of the ISS includes information on the total number of sectors used by the initiator during the ISS. The Poll required field indicates a field for requesting communication with a non-PCP / AP.

Table 4 above shows SSW feedback fields that are not transmitted as part of the ISS. In Table 4, the sector select field includes the ID of the best sector (the sector in which the sector sweep frame is received with the highest quality) detected during the sector sweeping process. And the DMG antenna selection field includes an antenna ID corresponding to the best sector. The SNR report field includes information on the SNR value detected in the best sector (the SNR value for the highest quality sector sweep frame), and the Poll required field includes a field for requesting communication with the AP .

As described above, a general sector sweeping process is performed in the AP and the STA whenever a beacon frame is transmitted. However, since there is not much movement of the AP and the STA, there is a problem that unnecessary power is consumed in the STA when the sector sweeping process is performed every time a beacon frame is transmitted. In order to solve such a problem, the following four embodiments are proposed in the present invention.

In the first embodiment of the present invention, it is proposed to reduce the number of times the sector sweeping process is performed in the STA. In the second embodiment of the present invention, In the third embodiment of the present invention, a method of performing an RSS process in a selected direction in a previous sector sweeping process when the position of the STA is not changed is proposed. The fourth embodiment of the present invention proposes a method of reducing the power consumption of the STA by determining the direction in which the RSS process is performed depending on whether the movement of the STA measured using the internal sensor of the STA is out of a preset range do.

In the first to fourth embodiments of the present invention, in order to determine whether the position of the STA is changed in the AP, the values of the sector ID field and the DMG antenna ID field of Table 2 and the values of the sector selection field and the DMG antenna selection field of Table 4 Value can be used. For convenience of explanation, the four field values will be referred to as sector information and antenna information in the following description.

Hereinafter, the first to fourth embodiments of the present invention will be described in detail.

3 is a flowchart illustrating a sector sweeping process of an AP according to the first embodiment of the present invention.

Referring to FIG. 3, in step 300, the AP performs a sector sweep process. Here, the AP may transmit a sector sweep frame to the STA in each of all M transmit sectors. In step 302, the AP determines whether an STA has been found based on the result of the sector sweeping process.

If the STA is found, the AP proceeds to step 304. If the STA is found, the AP proceeds to step 304. In step 304, And performs a sweeping process.

In step 306, the AP determines whether the STA is found again in the first sector as a result of the sector sweeping process performed during the next BTI. The fact that the STA has been found in the first sector means that the position of the STA has not been changed. Therefore, the AP determines whether the position of the STA is changed based on the sector information and the antenna information included in the sector sweep response frame.

That is, the AP transmits sector information and antenna information of the sector sweep response frame received in the sector sweep process performed in operation 300, and sector information and antenna information of the sector sweep response frame received in the sector sweep operation performed in operation 306 It is determined whether or not the location of the STA is changed based on whether or not the STA is the same. The AP determines that the position of the STA is not changed (the STA is found in the first sector) when the corresponding information is the same, and when the corresponding information is not identical, the position of the STA is changed The STA is not found in the sector).

If the STA is found in the first sector, the AP proceeds to step 308 and increases the sector sweep period. Here, the AP may increase the sector sweeping period according to a predetermined unit or may increase the sector sweeping period at an arbitrary period. However, since it is not desirable to increase the sector sweeping period indefinitely, the AP determines in step 310 whether the increased period is less than the maximum period.

If the increased period is equal to or greater than the maximum period, the AP proceeds to step 322 and performs a sector sweeping process at a previously used period. If the increased period is smaller than the maximum period, the AP proceeds to step 312 and transmits information on the increased period to the STA. In step 314, the AP performs the sector sweeping process at the increased period.

In step 316, the AP determines whether the STA is found in the first sector after performing the sector sweeping process at the increased period. If the STA is found in the first sector, the AP determines that the location of the STA has not been changed again, and increments the sector sweep period in step 308. [

If the STA is not found in the first sector, the AP proceeds to step 318 and changes the sector sweeping period to a previously used period (for example, an initial set period). In step 320, And performs a sweeping process.

Next, the operation of the STA according to the first embodiment of the present invention will be described with reference to FIG.

4 is a flowchart illustrating a sector sweeping process of the STA according to the first embodiment of the present invention.

Referring to FIG. 4, in step 400, the STA performs a sector sweep process. During the sector sweeping process, the STA includes sector information, antenna information, and the like corresponding to one of the sector sweep frames received from the AP and having the largest received signal strength in the sector sweep response frame, and transmits the sector sweep response frame to the AP.

In step 402, the STA determines whether information on the sector sweeping period is received from the AP. If the information about the sector sweeping period is not received, the STA proceeds to step 408 and performs a sector sweeping process at a previous used period.

When the information on the sector sweeping period is received, the STA changes the sector sweeping period according to the received information in step 404. In step 406, the STA performs a sector sweeping process according to the changed sector sweep period.

As described above, according to the first embodiment of the present invention, when the location of the STA is not changed, the number of times the sector sweeping process is performed in the STA can be reduced by increasing the sector sweeping period. That is, in the first embodiment of the present invention, the sector sweeping process is not performed during the BTI in the STA by increasing the sector sweeping period, so that the power consumed by the STA can be reduced by the number of times that the sector sweeping process is not performed do.

Meanwhile, in the first embodiment of the present invention, the AP may not transmit a beacon frame during the corresponding BTI as the sector sweep period is increased. Instead, the AP performs another operation to increase communication throughput such as data transmission / reception with the STA It is also possible.

Next, the sector sweeping process according to the second embodiment of the present invention will be described. The second embodiment of the present invention proposes a method of omitting the sector sweeping process of the STA on the assumption that the AP is connected to the wired power network.

5 is a flowchart illustrating a sector sweeping process of an AP according to the second embodiment of the present invention.

Referring to FIG. 5, in step 500, the AP performs a sector sweep process. At this time, the AP can transmit the sector sweep frame to the STA in each of all the M transmission sectors. In step 502, the AP determines whether an STA has been found based on the result of the sector sweep process.

If the STA is found, the AP performs a sector sweeping process again, and if the STA is found, the AP detects a first sector in which the STA is found among the M transmission sectors. In step 504, the AP performs a sector sweep process starting from the first sector in which the STA is found during the next BTI.

In step 506, the AP determines whether the STA is found again in the first sector as a result of the sector sweeping process performed during the next BTI. Here, the AP may determine whether the STA is found again in the first sector by determining whether the location of the STA has been changed. The location change of the STA may be determined based on the sector information and the antenna information of the sector sweep response frame received by the sector sweeping process of steps 500 and 504.

If the STA is found in the first sector, the AP transmits a message to the STA indicating that the transmission of the sector sweep response frame is unnecessary, and does not need to perform the RSS process at the current time. In step 508, the AP changes the RSS performance period and transmits information on the changed RSS performance period to the STA. Here, the information on the changed RSS performance period may include information on a period during which the RSS process is performed and a period during which the sector sweep response frame is transmitted. The information on the changed RSS performance period may be included in, for example, a MAC management frame and a reserved field in a corresponding sector sweep frame.

When the information on the changed RSS performance period is transmitted, the AP proceeds to step 510 and receives a sector sweep response frame according to the changed RSS performance period. In step 512, the AP determines whether the STA is found in the first sector. If the STA is found in the first sector, the AP determines that the location of the STA has not been changed, and proceeds to step 510.

If the STA is not found in the first sector, the AP determines that the location of the STA has been changed. In step 514, the AP performs an RSS process and transmits an RSS performance request message requesting transmission of a sector sweep response frame STA. In step 516, the AP receives the sector sweep response frame according to the RSS process from the STA.

Next, the operation of the STA according to the second embodiment of the present invention will be described with reference to FIG.

6 is a flowchart illustrating a sector sweeping process of the STA according to the second embodiment of the present invention.

Referring to FIG. 6, in step 400, the STA performs a sector sweep process. At this time, the STA includes sector information and antenna information corresponding to one of the sector sweep frames received from the AP having the largest received signal strength in the sector sweep response frame, and transmits the sector sweep response frame to the AP.

In step 602, the STA determines whether information on the RSS performance period is received from the AP. If the information on the RSS performance period is not received in step 604, the STA proceeds to step 612 where it performs an RSS process at a previous RSS performance period and transmits a sector sweep response frame.

In step 604, the STA proceeds to step 606 in which information on the RSS performance period is received from the AP. The STA may receive a message indicating that it is unnecessary to perform the RSS process at the current time and transmit the sector sweep response frame when receiving information on the RSS performance period from the AP. Accordingly, the STA may not perform the RSS process and the transmission operation of the sector sweep response frame when the information on the RSS performance period is received.

In step 606, the STA performs an RSS process according to an RSS performance period based on the received RSS performance period information. Since the RSS execution period has a longer period than the previously used RSS execution period, the RSS process performed in the STA is reduced.

In step 608, the STA determines whether an RSS performance request message requesting to perform the RSS process is received. If the RSS performance request message is not received, the STA returns to step 606. When receiving the RSS performance request message, the STA proceeds to step 610 and transmits the sector sweep response frame to the AP by performing the RSS process.

As described above, according to the second embodiment of the present invention, it is possible to reduce the number of times the RSS process is performed in the STA, thereby reducing the power of the STA. Meanwhile, in the second embodiment of the present invention, the AP can continuously perform the sector sweep process even if the STA does not transmit the sector sweep response frame without performing the RSS process. Unlike the first embodiment of the present invention, the AP continues to perform the sector sweeping process because the AP needs to detect a new STA to communicate with the AP.

In the third embodiment of the present invention, a method of performing an RSS process in a selected direction in a previous sector sweeping process when the position of the STA is not changed is proposed.

7 is a flowchart illustrating a sector sweeping process of an AP according to the third embodiment of the present invention.

Referring to FIG. 7, in step 700, the AP performs a sector sweep process. Here, the AP may transmit a sector sweep frame to the STA in each of all M transmit sectors. In step 702, the AP determines whether a STA has been found based on the result of the sector sweeping process. If the STA is found, the AP transmits a sector feedback frame to the STA in step 704 and receives a sector sweep response frame from the STA.

The AP re-executes the sector sweeping process in step 706 and determines whether the STA has moved in step 708. [ Here, the AP may determine whether the STA has moved by comparing the sector information and the antenna information included in the sector sweep response frame before and after the sector sweeping process.

If the STA moves the location, the AP proceeds to step 716 and performs the sector sweeping process again. If the STA does not move the location, the AP proceeds to step 710 and changes the RSS performance period. The AP transmits information on the changed RSS performance period to the STA. Here, the information on the changed RSS performance period may include information on the period during which the RSS process is performed and the period during which the sector sweep response frame is transmitted. Information on the changed RSS performance period may be included in, for example, a MAC management frame and a reserved field in a corresponding sector sweep frame.

The AP receives the sector sweep frame during the RSS process performed corresponding to the optimal reception direction of the STA according to the changed sector sweep period in step 712. [ In step 714, the AP receives a sector sweep response frame to determine whether the STA has moved.

Next, the operation of the STA according to the third embodiment of the present invention will be described with reference to FIG.

8 is a flowchart illustrating a sector sweeping process of the STA according to the third embodiment of the present invention.

Referring to FIG. 8, in step 800, the STA performs a sector sweep process. In step 802, the STA receives a sector sweep frame from the AP and transmits a sector sweep response frame to the AP. The STA resumes the sector sweeping process in step 804 and determines whether information on the RSS performance period is received from the AP in step 806. Here, the information on the changed RSS performance period may include information on the period during which the RSS process is performed and the period during which the sector sweep response frame is transmitted. Information on the changed RSS performance period may be included in, for example, a MAC management frame and a reserved field in a corresponding sector sweep frame.

If the information about the RSS execution period is not received in step 808, the STA proceeds to step 814 and performs the RSS process according to the RSS execution period previously used. If the information on the RSS performance period is received in step 808, the STA proceeds to step 810 and performs an RSS process corresponding to the optimal reception direction of the STA according to an RSS performance period based on the received information do. In step 812, the STA transmits a sector sweep response frame to the AP.

The optimum reception direction of the STA indicates a direction corresponding to the AP transmission sector (best sector) selected by the STA in the sector sweeping process performed previously. The information on the RSS execution period is information transmitted to perform the RSS process at a longer period when the position of the STA is not changed. Therefore, according to the third embodiment of the present invention, when the position of the STA is not moved, the RSS process can be prevented from being performed in all directions unnecessarily.

 Specifically, according to the third embodiment of the present invention, when performing the sector sweeping process for the first time, both the AP and the STA perform the sector sweeping process in all directions (sectors) as shown in FIG. 9A, The sector sweeping process may be performed in a direction corresponding to the AP transmission sector selected in the previous sector sweeping process as shown in FIG. 9 (b).

Next, the sector sweeping process according to the fourth embodiment of the present invention will be described. The fourth embodiment of the present invention proposes a method for reducing the power consumption of the STA by determining the direction in which the RSS process is performed depending on whether the measured position of the STA is changed using the internal sensor of the STA.

10 is a flowchart illustrating a sector sweeping process of an AP according to the fourth embodiment of the present invention.

Referring to FIG. 10, in step 1000, the AP performs a sector sweep process. Here, the AP may transmit a sector sweep frame to the STA in each of all M transmit sectors. In step 1002, the AP determines whether a STA has been found based on the result of the sector sweeping process.

If the STA is found, the AP performs a sector sweeping process again. If the STA is found, the AP proceeds to step 1004 and transmits a sector feedback frame to the STA and receives a sector sweep response frame from the STA. In step 1006, the AP re-executes the sector sweeping process. In step 1008, the AP performs a sector sweeping process according to the movement of the STA.

Next, the operation of the STA according to the fourth embodiment of the present invention will be described with reference to FIG.

11 is a flowchart illustrating a sector sweeping process of the STA according to the fourth embodiment of the present invention.

Referring to FIG. 11, in step 1100, the STA performs a sector sweep process. In step 1102, the STA receives a sector sweep frame from the AP and transmits a sector sweep response frame to the AP. The STA resumes the sector sweeping process in step 1104 and measures the movement of the STA in step 1106. [ The movement of the STA can be measured through an internal motion sensor of the STA such as a gyro sensor and a geomagnetic sensor.

In step 1108, the STA determines whether the movement of the STA is within a predetermined range. The STA determines that the position of the STA is not changed when the movement of the STA is within a preset range. In step 1110, the STA performs RSS in an existing direction. Herein, the existing direction indicates a direction corresponding to the AP transmission sector (best sector) selected by the STA in the previous sector sweeping process.

Meanwhile, the STA determines that the position of the STA is changed when the motion of the STA is not within a preset range, that is, when the movement of the STA is out of a preset range. In step 1112, the STA performs a sector sweeping process. In step 1114, the STA determines whether a sector sweeping result is changed. The sector sweeping result includes information on a best sector selected by the AP and the STA.

If the sector sweeping result is not changed, the STA proceeds to step 1110 and performs an RSS process in an existing direction. If the sector sweeping result is changed, the STA proceeds to step 1116 and performs an RSS process in a new direction. Here, the new direction indicates a direction corresponding to the best sector newly selected by the AP and the STA.

According to the fourth embodiment of the present invention, when the STA does not move (the position of the STA is not changed), the STA performs an RSS process in an existing direction as shown in FIG. 12 (a) Can be performed. When the STA moves (when the position of the STA is changed), the STA can perform the RSS process in a new direction different from the existing direction as shown in FIG. 12 (b). Therefore, the STA does not need to perform the RSS process in all directions, so that power consumption can be reduced.

Next, the internal structure of the AP and the STA according to the embodiment of the present invention will be described.

13 is a block diagram of an AP according to an embodiment of the present invention.

13, the AP includes a controller 1300, a transmitter 1302, a receiver 1304, and a memory 1306.

The transmitting unit 1302 and the receiving unit 1304 perform communication with the STA. For example, the transmitter 1302 may include a channel encoder for performing channel encoding on data to be transmitted to the STA, such as noise, interference, fading, etc., and a modulator for modulating channel encoded data And transmits the modulated data through a plurality of antennas.

The receiver 1304 includes a demodulator for demodulating data received from the STA through a plurality of antennas, a channel decoder for channel decoding the demodulated signal, and the like, and restores the received data to original data.

The memory 1306 stores various information generated according to the operation of the AP, signals transmitted and received, and the like. The controller 1300 controls the overall operation of the AP by controlling the transmitter 1302, the receiver 1304, and the memory 1306. In particular, the controller 1300 controls the components to perform the operation of the AP according to the first to fourth embodiments of the present invention.

14 is a block diagram of a STA according to an embodiment of the present invention.

Referring to FIG. 14, the STA includes a controller 1400, a transmitter 1402, a receiver 1404, and a memory 1406.

The transmitter 1402 and the receiver 1404 communicate with the AP. For example, the transmitter 1402 may include a channel encoder for performing channel encoding on data to be transmitted to the access point (AP) to reduce the influence of channels such as noise, interference, fading, etc., and a modulator for modulating channel encoded data And transmits the modulated data through a plurality of antennas.

The receiver 1404 includes a demodulator for demodulating data received from the AP through a plurality of antennas, a channel decoder for channel decoding the demodulated signal, and the like, and restores the received data to original data.

The memory 1406 stores various information generated according to the operation of the STA, signals transmitted and received, and the like. The controller 1400 controls the overall operation of the STA by controlling the transmitter 1402, the receiver 1404, and the memory 1406. Particularly, the controller 1400 controls the components to perform operations of the STA according to the first to fourth embodiments of the present invention described above.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

Claims (28)

A method for an access point (AP) in a wireless communication system to perform sector sweeping,
Determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected;
Performing a second sector sweep when the STA is detected to determine whether the location of the STA has changed;
And increasing the sector sweeping period if the location of the STA is unchanged, and transmitting information on the increased sector sweeping period to the STA.
The method according to claim 1,
The process of determining whether the location of the STA has been changed comprises:
Comparing the first sector information received from the STA according to the first sector sweep and the second sector information received from the STA according to the second sector sweep;
And determining whether the location of the STA is changed based on the result of the comparison.
3. The method of claim 2,
The first sector information includes a sector identifier (ID) and an antenna ID corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the AP,
Wherein the second sector information includes a sector ID and an antenna ID corresponding to a sector selected by the STA according to the second sector sweep among M transmission sectors of the AP.
The method according to claim 1,
Performing a third sector sweep according to the increased sector sweep period;
Determining whether the location of the STA is changed as a result of performing the third sector sweep;
Changing the increased sector sweep period to an initial sector sweep period if the location of the STA is not changed;
And increasing the sector sweep period again if the location of the STA is changed.
A method for a sector (STA) performing a sector sweep in a wireless communication system,
Determining whether information on a sector sweeping period is received from an access point (AP)
Changing a sector sweeping period based on the information on the sector sweeping period when information on the sector sweeping period is received;
And performing a sector sweep according to the changed sector sweep period.
6. The method of claim 5,
Wherein the information on the sector sweep period is received when the location of the STA is unchanged and includes information on a sector sweep period that is greater than a previously used sector sweep period.
A method for an access point (AP) in a wireless communication system to perform sector sweeping,
Determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected;
Performing a second sector sweep when the STA is detected to determine whether the location of the STA has changed;
And transmitting to the STA a message indicating that no third sector sweeping need be performed if the location of the STA is unchanged.
8. The method of claim 7,
The process of determining whether the location of the STA has been changed comprises:
Comparing the first sector information received from the STA according to the first sector sweep and the second sector information received from the STA according to the second sector sweep;
And determining whether the location of the STA is changed based on the result of the comparison.
9. The method of claim 8,
The first sector information includes a sector identifier (ID) and an antenna ID corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the AP,
Wherein the second sector information includes a sector ID and an antenna ID corresponding to a sector selected by the STA according to the second sector sweep among M transmission sectors of the AP.
9. The method of claim 8,
Performing a fourth sector sweep to determine whether the location of the STA has changed;
And transmitting, to the STA, a message requesting to perform the third sector sweep when the position of the STA is changed.
A method for a sector (STA) performing a sector sweep in a wireless communication system,
Determining whether a message indicating that sector sweeping need not be performed in the STA is received from an access point (AP)
Performing no sector sweeping when a message indicating that the sector sweeping need not be performed is received;
And performing the sector sweep when a message requesting to perform the sector sweep is received from the AP.
12. The method of claim 11,
Wherein a message indicating that the sector sweeping need not be performed is received when the position of the STA is unchanged and a message requesting to perform the sector sweeping is received when the location of the STA is changed. How to Perform Sweeping.
A method for an access point (AP) in a wireless communication system to perform sector sweeping,
Determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected;
Performing a second sector sweep when the STA is detected to determine whether the location of the STA has changed;
If the position of the STA is not changed, a message instructing to perform a third sector sweep in a direction corresponding to a sector selected by the STA according to the first sector sweep among M transmission sectors of the AP is transmitted to the STA And transmitting the sector sweep.
14. The method of claim 13,
The process of determining whether the location of the STA has been changed comprises:
Comparing the first sector information received from the STA according to the first sector sweep and the second sector information received from the STA according to the second sector sweep;
And determining whether the location of the STA is changed based on the result of the comparison.
15. The method of claim 14,
The first sector information includes a sector identifier (ID) and an antenna ID corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the AP,
Wherein the second sector information includes a sector ID and an antenna ID corresponding to a sector selected by the STA according to the second sector sweep among M transmission sectors of the AP.
A method for a sector (STA) performing a sector sweep in a wireless communication system,
Performing a first sector sweep,
Performs a third sector sweep in a direction corresponding to a sector selected by the STA according to the first sector sweep among the M transmission sectors of the AP from an access point (AP) according to the execution of the second sector sweep Determining whether or not a message instructing to do so is received;
And if the message is received, performing the third sector sweep in a direction corresponding to a sector selected by the STA according to the first sector sweep.
A method for an access point (AP) in a wireless communication system to perform sector sweeping,
Determining whether a terminal (STA) for performing communication by performing a first sector sweep is detected;
And performing a second sector sweep when the STA is detected,
The second sector sweeping is performed in a direction corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the AP based on whether movement of the STA is out of a predetermined range. .
19. The method of claim 18,
Wherein the movement of the STA is measured based on a motion measurement sensor included in the STA.
A method for a sector (STA) performing a sector sweep in a wireless communication system,
Performing a first sector sweep,
Measuring a motion of the STA after performing a second sector sweep;
If the movement of the STA does not deviate from a preset range, a third sector sweeping is performed in a direction corresponding to the sector selected by the STA according to the first sector sweep among M transmission sectors of an access point (AP) And performing a sector sweep.
20. The method of claim 19,
Wherein the movement of the STA is measured based on a motion measurement sensor included in the STA.
In an access point (AP) in a wireless communication system,
It is determined whether or not a terminal (STA) for performing communication by performing the first sector sweep is detected. If the STA is detected, a second sector sweep is performed to determine whether the position of the STA is changed A controller for increasing a sector sweeping period when the position of the STA is not changed,
And transmitting the information on the increased sector sweep period to the STA.
A terminal (STA) in a wireless communication system,
The method includes determining whether or not information on a sector sweeping period is received from an access point (AP), and when information on the sector sweeping period is received, changing a sector sweeping period based on the information on the sector sweeping period And performing a sector sweep according to the changed sector sweep period,
And a receiver for receiving information on the sector sweep period.
In an access point (AP) in a wireless communication system,
It is determined whether a terminal (STA) for performing communication by performing the first sector sweep is detected. If the STA is detected, a second sector sweep is performed to determine whether the position of the STA is changed A control unit,
And sending a message to the STA indicating that no third sector sweeping need be performed if the location of the STA has not changed.
A terminal (STA) in a wireless communication system,
The method comprising: determining whether a message indicating that sector sweeping need not be performed in the STA is received from an access point (AP); if a message indicating that the sector sweeping need not be performed is received, A controller for performing the sector sweep when a message requesting to perform the sector sweep is received from the AP without performing sector sweeping;
And a receiver for receiving a message indicating that the sector sweeping need not be performed and a message requesting to perform the sector sweeping.
In an access point (AP) in a wireless communication system,
It is determined whether a terminal (STA) for performing communication by performing the first sector sweep is detected. If the STA is detected, a second sector sweep is performed to determine whether the position of the STA is changed A control unit,
If the position of the STA is not changed, a message instructing to perform a third sector sweep in a direction corresponding to a sector selected by the STA according to the first sector sweep among M transmission sectors of the AP is transmitted to the STA To the AP.
A method for a sector (STA) performing a sector sweep in a wireless communication system,
Performs a first sector sweep, and performs a first sector sweep from an access point (AP) according to the second sector sweeping, in a direction corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the AP , And determines whether a message indicating that a third sector sweep is to be performed is received. If the message is received, the third sector sweeping is performed in a direction corresponding to a sector selected by the STA according to the first sector sweep ,
And a receiver for receiving the message.
In an access point (AP) in a wireless communication system,
And a controller for performing a first sector sweep to determine whether a terminal (STA) for performing communication is detected and performing a second sector sweep when the STA is detected,
The second sector sweeping is performed in a direction corresponding to a sector selected by the STA according to the first sector sweeping among M transmission sectors of the AP based on whether movement of the STA is out of a predetermined range. AP.
A terminal (STA) in a wireless communication system,
The first sector sweep, the second sector sweep, and the movement of the STA are measured. If the movement of the STA does not deviate from the predetermined range, the M sectors of the access point (AP) And performing a third sector sweep in a direction corresponding to a sector selected by the STA according to the first sector sweep of the transmission sectors.

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