KR20150117218A - Protocol for cooperation communication between access points in overlapped basic service set environment - Google Patents

Abstract

Disclosed is a protocol receiving data through cooperative communications between access points in an overlapping basic service set (BSS) environment. In accordance with one aspect of the present invention, a cooperative beamforming communications method may include the steps of: negotiating, by a first access point, a cooperative beamforming transmission with a second access point that has an overlapping BSS area with the first access point; transmitting, by the first access point, a cooperative transmission request frame to the second access point; receiving, by the first access point, a cooperative transmission response frame that the second access point transmitted to the first access point in response to the cooperative transmission request frame; and performing, by the first access point, the cooperative beamforming transmission with the second access point for the duration of the cooperative beamforming transmission determined through the negotiation, when transmission of the CTS is completed and then a predetermined time interval elapses.

Description

[0001] PROTOCOL FOR COOPERATION COMMUNICATION BETWEEN ACCESS POINTS IN OVERLAPPED BASIC SERVICE SET ENVIRONMENT [

The proposed method and apparatus relates to a MAC protocol of a wireless local area network (LAN), and more particularly to a protocol for transmitting data through cooperation between access points (APs) in a superposed BSS will be.

2. Description of the Related Art In recent wireless communication systems, a MIMO technique for transmitting and receiving data using two or more antennas is becoming common. In the wireless LAN, two or more transmit antennas can be used according to the IEEE 802.11n standard. Up to four antennas can be used in IEEE 802.11n and up to eight antennas can be used in IEEE 802.11ac. In addition, when using multiple transmit antennas, data can be transmitted using a transmit beamforming technique to improve signal reception performance. IEEE 802.11ac includes a downlink MU-MIMO technique in which an AP simultaneously transmits a beamformed data frame to a plurality of stations (STAs) in order to use frequency resources more efficiently.

However, as the wireless LAN environment becomes more complicated in recent years, there are many OBSS (Overlapped Basic Service Set) in which a BSS (Basic Service Set), which is a service area occupied by one AP, overlaps with a BSS that is handled by another AP. In such a superposed BSS environment, transmission efficiency may be degraded, and therefore, a method for performing efficient transmission in a superposed BSS environment is required.

According to one aspect, a cooperative beamforming communication method includes negotiating cooperative beamforming transmissions with a second access point having a BSS (Basic Service Set) region superimposed by the first access point with the first access point; Transmitting a CoTx Request frame to the second access point by the first access point; Receiving, by the first access point, a CoTx Response frame sent by the second access point to the first access point in response to the cooperative transmission request frame; And performing cooperative beamforming transmission with the second access point by the first access point during a cooperative beamforming transmission interval determined through the consensus after a predetermined time interval after the cooperative transmission response frame reception is completed .

In one embodiment, the cooperative beamforming communication method may further comprise performing cooperative sounding with the second access point by the first access point. The step of performing the cooperative sounding may include the step of each of the first access point and the second access point obtaining a precoding matrix for use in the cooperative beamforming transmission.

In one embodiment, the duration field of the cooperative transmission request frame and the duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval ends.

In one embodiment, the predetermined time interval may be SIFS.

According to another aspect, a cooperative beamforming communication method includes: agreeing cooperative beamforming transmissions with at least one access point having a BSS region overlapping with the first access point by a first access point; Broadcasting a CoTx Request frame by the first access point; Receiving, by the first access point, a CoTx Response frame sent by the at least one access point to the first access point in response to the cooperative transmission request frame; And performing cooperative beamforming transmission with the at least one access point by the first access point during a cooperative beamforming transmission interval determined through the agreement after the cooperative transmission response frame reception is completed.

In one embodiment, the at least one access point includes a second access point and a third access point, and the step of receiving the cooperative transmission response frame comprises receiving the cooperative transmission response frame from the second access point Receiving a first cooperative transmission response frame; And receiving a second cooperative transmission response frame transmitted by the third access point to the first access point after the second access point transmits the first cooperative transmission response frame to the first access point can do. Wherein the cooperative beamforming communication method further comprises transmitting a CoTx Start frame by the first access point, and wherein performing the cooperative beamforming transmission comprises: And transmitting the beamformed data frame by the first access point, the second access point and the third access point after the transmission is completed.

In one embodiment, the at least one access point includes a second access point and a third access point, and the step of receiving the cooperative transmission response frame comprises receiving the cooperative transmission response frame from the second access point Receiving a first cooperative transmission response frame; Transmitting a CoTx response poll frame to the third access point when receiving the first cooperative transmission response frame from the second access point by the first access point; And receiving a second cooperative transmission response frame transmitted by the third access point to the first access point in response to the cooperative transmission response poll frame. Wherein performing the cooperative beamforming transmission comprises: receiving a beamformed data frame by the first access point, the second access point, and the third access point after receiving the second cooperative transmission response frame, And transmitting the data.

In one embodiment, the method may further comprise performing cooperative sounding between the first access point and the at least one access point. Performing the cooperative sounding may include obtaining a precoding matrix for use by the first access point and the at least one access point, respectively, for the cooperative beamforming transmission.

In one embodiment, the duration field of the cooperative transmission request frame and the duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval ends.

According to another aspect, an access point performing cooperative beamforming communication transmits and receives a frame associated with a cooperative beamforming transmission agreement with at least one other access point having a BSS region overlapping with the access point, Transmitting a CoTx Request frame to at least one other access point and receiving a CoTx Response frame transmitted by the at least one other access point in response to the cooperative transmission request frame A communication unit; And processing the frame associated with the consensus if the frame associated with the consensus is received by the communication unit from the other access point, wherein the frame associated with the consensus is processed, Generating a cooperative transmission request frame to be transmitted to one other access point and transmitting a cooperative beamforming transmission with the other access point during a cooperative beamforming transmission interval determined through the agreement after a predetermined time interval after the cooperative transmission response frame reception is completed And a control unit for controlling the communication unit to perform the communication.

In one embodiment, the control unit may also control the communication unit to perform cooperative sounding with the other access point. Performing cooperative sounding may include obtaining a precoding matrix for use in the cooperative beamforming transmission by the access point.

In one embodiment, the duration field of the cooperative transmission request frame and the duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval ends.

In one embodiment, the predetermined time interval may be SIFS.

According to another aspect, an access point performing cooperative beamforming communication is configured to transmit and receive a frame associated with a cooperative beamforming transmission agreement with at least one other access point having a BSS region overlapping with the access point, A communication unit broadcasting a transmission request frame (CoTx Request frame) and receiving a CoTx Response frame transmitted by the at least one other access point in response to the cooperative transmission request frame; And controlling the communication unit to generate and transmit a frame associated with the agreement to the at least one other access point, and if the frame associated with the agreement is received by the communication unit from the at least one other access point, To perform cooperative beamforming transmission with the at least one other access point during a cooperative beamforming transmission interval determined through the agreement after the cooperative transmission response frame reception is completed, And a control unit for controlling the control unit.

In one embodiment, the at least one other access point comprises a second access point and a third access point, and the communication section also receives a first cooperative transmission response frame transmitted from the second access point, The second access point may receive the second cooperative transmission response frame transmitted from the third access point after transmitting the first cooperative transmission response frame.

In one embodiment, the communication unit also transmits a CoTx Start frame, and the control unit also controls the communication unit to transmit the beamformed data frame after the transmission of the cooperative transmission start frame is completed can do.

In one embodiment, the at least one other access point comprises a second access point and a third access point, and the communication section also receives a first cooperative transmission response frame transmitted from the second access point, And transmits a CoTx response poll frame to the third access point in response to a first cooperative transmission response frame, and transmits a CoTx response poll frame to the third access point in response to the second cooperative transmission response frame And the control unit may also control the communication unit to transmit the beamformed data frame after the reception of the second cooperative transmission response frame is completed.

In one embodiment, the control unit may also control the communication unit to perform cooperative sounding with the other access point. Performing cooperative sounding may include obtaining a precoding matrix for use in the cooperative beamforming transmission by the access point.

In one embodiment, the duration field of the cooperative transmission request frame and the duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval ends.

FIG. 1 schematically shows an environment in which BSSs handled by APs in a wireless LAN are overlapped.
2 is a conceptual diagram illustrating a situation in which transmission efficiency is degraded in an environment in which BSSs managed by APs in a wireless LAN are overlapped.
3 is a flowchart illustrating a method of performing cooperative beamforming transmission between APs according to an embodiment.
4 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment.
FIG. 5 illustrates a structure of a CoTx Request frame according to an embodiment.
FIG. 6 schematically shows an environment in which BSSs handled by APs in the wireless LAN are overlapped.
7 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment.
8 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment.
9 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment.
FIG. 10 schematically shows an environment in which BSSs handled by APs in the wireless LAN are overlapped.
11 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment.

Hereinafter, some embodiments will be described in detail with reference to the accompanying drawings. However, these embodiments are not intended to be limiting or limiting. Like reference symbols in the drawings denote like elements.

While the terms used in the following description have been selected as far as possible from the general terms which are widely used in the present invention while considering the functions of the proposed invention, they may vary depending on the intention or custom of the technician working in the field or the emergence of new technology.

Also, in certain cases, there may be terms chosen arbitrarily by the applicant for the sake of understanding and / or convenience of explanation, in which case the detailed meaning shall be stated in the corresponding description. Therefore, the term used in the following description should be understood based on the meaning of the term, not the name of a simple term, and the contents throughout the specification.

FIG. 1 schematically shows an environment in which BSSs handled by APs in a wireless LAN are overlapped. 1 shows a BSS 121 in charge of the AP 111 and a BSS 122 in charge of the AP 112, respectively. There may be overlapping regions between the BSSs 121 and 122 of the adjacent APs 111 and 112. Here, as shown in FIG. 1, the STA 131 belonging to the BSS 121 and the STA 132 belonging to the BSS 122 can be located in the overlapped area. In this case, when the same frequency channel is used in the BSSs 121 and 122, the APs 111 and 112 and the STAs 131 and 132 can hear all the frames transmitted from each other. Therefore, degradation of transmission efficiency may occur within the overlapping area. A situation in which a decrease in transmission efficiency occurs will be described in more detail below with reference to Fig.

The AP according to an exemplary embodiment may include a control unit and a communication unit. The control unit can generate a frame to be transmitted from the communication unit, and the control unit can process the frame received from the communication unit. The control unit may control the communication unit to perform communication with the communication unit of the STA based on the MIMO scheme, and may determine the STA to perform communication through the communication unit. The control unit may be implemented using an IC chip, a microprocessor, a mini computer, or the like. On the other hand, the communication unit of the AP can perform communication with the communication unit of another AP or the communication unit of the STA. The communication unit may include various communication modules such as an antenna, a comb / modulator, a frequency processing unit, and a filter unit.

2 is a conceptual diagram illustrating a situation in which transmission efficiency is degraded in an environment in which BSSs managed by APs in a wireless LAN are overlapped. When AP1 and AP2 have overlapping BSS regions and STA1 and STA2 exist in the overlapped BSS region, as shown in FIG. 2, the channels of AP2 and STA2 become busy when AP1 transmits a frame. Similarly, when STA1 transmits a frame, the channel of AP2 and STA becomes busy. Also, as shown in FIG. 2, when AP2 transmits a frame, the channels of AP1 and STA1 become busy. Similarly, when STA2 transmits a frame, the channels of AP1 and STA1 become busy. That is, the busy state in which transmission can not be performed is increased compared to an environment in which BSSs are not overlapped, and consequently transmission efficiency may be reduced. In particular, when the Duration field of a frame transmitted from another adjacent BSS is not 0, the network allocation vector (NAV) is set to the value of the Duration field. Therefore, transmission can not be performed until the NAV ends, Can be lowered. Therefore, a method of preventing transmission efficiency from deteriorating in an environment where BSSs are overlapped is required. The proposed method improves the transmission efficiency in the overlapped environment by providing a method by which two or more APs can simultaneously transmit data even in a BSS overlapping environment.

3 is a flow chart illustrating a method for performing cooperative transmit beamforming between APs according to one embodiment.

In step 310, negotiation for cooperative beamforming transmissions may be performed between adjacent APs having overlapping BSS regions. By agreement, an AP participating in cooperative beamforming transmissions, a cooperative beamforming transmission duration, etc. may be determined. In one embodiment, by agreement, it can be determined which AP among the APs participating in the cooperative beamforming transmission will lead the cooperative beamforming transmission. Step 310 may be performed by wired or wireless communication between the APs.

In step 320, a cooperative sounding process for cooperative beamforming transmissions may be performed between APs associated with the consensus (i.e., APs participating in cooperative beamforming transmissions). The cooperative sounding process may include obtaining channel information between a terminal to be transmitted (i.e., a beamformer) and a terminal to be received (i.e., a beamformee) of the cooperative beamforming transmission. In one embodiment, the cooperative sounding process may include obtaining a precoding matrix for use in cooperative beamforming transmissions. The precoding matrix may be configured to eliminate or minimize interference during cooperative beamforming transmission. Step 320 may be performed by wired or wireless communication between the APs.

At step 330, the NAVs of the APs associated with the consensus can be reset and the NAVs of the wireless LAN devices not associated with the consensus can be set. That is, the NAVs of the APs participating in the cooperative beamforming transmission are reset to enable transmission during the cooperative beamforming transmission period, the NAV of the WLAN equipment not participating in the cooperative beamforming transmission is set, It is possible to protect the transmission from being performed. For example, an AP that is responsible for cooperative beamforming transmission among APs participating in cooperative beamforming transmission transmits a cooperative transmission request frame (CoTx Request frame) in which an AP participating in cooperative beamforming transmission is set as a RA (Receiver Address) can do. When an AP that is responsible for cooperative beamforming transmission participates in a cooperative beamforming transmission is set to RA and a Duration field is sent until cooperative beamforming transmission interval is set to cooperative beamforming transmission, The participating APs can reset the NAV and the wireless LAN devices that do not participate in the cooperative beamforming transmission can set the NAV until the cooperative beamforming transmission interval ends. In this way, the APs associated with the consensus are in a state capable of simultaneously performing the cooperative beamforming transmission, and the wireless LAN devices not associated with the consensus may become unable to transmit frames during the cooperative beamforming transmission interval.

In step 340, the APs associated with the agreement can perform cooperative beamforming transmissions during the cooperative beamforming transmission period. The APs associated with the agreement can send the beamformed data to the STAs belonging to the BSS in charge of the agreement. For example, if AP1 and AP2 are associated with an agreement, AP1 may send a beamformed data frame to STA1 and AP2 may transmit a beamformed data frame to STA2. The transmission of the beamformed data frames of AP1 and AP2 may be performed simultaneously during the cooperative beamforming transmission interval. In one embodiment, transmission of the beamformed data frame may be performed by a downlink MU-MIMO technique.

As described above, by providing a cooperative beamforming transmission method in which two or more APs can simultaneously perform beamforming transmission in an overlapping BSS environment, the transmission efficiency in the overlapped BSS environment can be improved.

4 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment.

Referring to FIG. 4, through agreement on cooperative beamforming transmissions, AP1 and AP2 may be determined to participate in cooperative beamforming transmissions. Then, a cooperative sounding process for cooperative beamforming transmission between AP1 and AP2 may be performed. For example, AP1 and AP2 may obtain a precoding matrix for use in cooperative beamforming transmission through a cooperative sounding process. Then AP1, which is responsible for the cooperative beamforming transmission, may send a CoTx Request frame with AP2 set to RA to cause AP2 to reset the NAV. Herein, the Duration field of the cooperative transmission request frame is set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the agreement can set the NAV until the cooperative beamforming transmission interval is ended. Then, the AP2 that has received the cooperative transmission request frame can transmit the cooperative transmission response frame (CoTx Response frame) in which the AP1 is set as the RA to transmit the Ack frame for the cooperative transmission request frame to the AP1. Here, the Duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the consensus may set the NAV until the cooperative beamforming transmission interval ends. AP1 and AP2 may then perform cooperative beamforming transmissions during the cooperative beamforming transmission period. For example, AP1 may transmit a beamformed data frame to STA1 belonging to its own BSS, and at the same time, AP2 may transmit a beamformed data frame to STA2 belonging to its own BSS. In one embodiment, AP1 sends a beamformed data frame to STA1 after a predetermined time interval after reception of the cooperative transmission response frame is completed, and AP2 transmits a beamformed data frame to STA2 after a predetermined time interval after transmission of the cooperative transmission response frame is completed It is possible to transmit the beamformed data frame. Here, the predetermined time interval may be SIFS.

As described above, by providing a cooperative beamforming transmission protocol in which two or more APs can simultaneously perform beamforming transmission in an overlapping BSS environment, the transmission efficiency in the overlapped BSS environment can be improved.

FIG. 5 illustrates a structure of a CoTx Request frame according to an embodiment.

The cooperative transmission request frame includes an FC (Frame Control) field, a Duration field, a RA (Receiver Address) field, a TA (Transmitter Address) field, and a FCS (Frame Check Sequence) field as basic fields constituting the WLAN MAC frame. In one embodiment, the cooperative transmit request frame may include a CoTx control field and a plurality of CoTx AP info fields for cooperative beamforming transmissions. The CoTx control field includes information about how many APs participate in cooperating beamforming transmissions, the time length of the beamformed data frame and the time length of the non-beamformed portion (L-SIG and VHT- SIGA) (information constituting L-LENGTH and VHT-SIGA in the case of VHT PPDU). The number of CoTx AP info fields may be equal to the number of APs participating in cooperative beamforming transmissions. The CoTx AP info field may include information indicating each of the APs participating in cooperating beamforming transmissions. The information indicating each AP participating in the cooperative beamforming transmission may include a BSS ID or information capable of identifying each AP.

FIG. 6 schematically shows an environment in which BSSs handled by APs in the wireless LAN are overlapped. 6 shows the BSS 121 in charge of the AP 111, the BSS 122 in charge of the AP 112 and the BSS 123 in charge of the AP 113, respectively. There may be overlapping areas between the BSSs 121, 122 and 123 of the adjacent APs 111, 112 and 113. 6, the STA 131 belonging to the BSS 121, the STA 132 belonging to the BSS 122 and the BSS 123 belonging to the BSS 122 are included in the area where the three BSSs 121, 122 and 123 overlap each other, The STA 133 belonging to the STA 133 may be located. In this case, when the same frequency channel is used in the BSSs 121, 122, and 123, the APs 111, 112, and 113 and the STAs 131, 132, . Therefore, degradation of transmission efficiency may occur within the overlapping area. Therefore, a method of preventing transmission efficiency from deteriorating in an environment where BSSs are overlapped is required. The proposed method improves the transmission efficiency in the overlapped environment by providing a method by which more than two APs can simultaneously transmit data even in the environment where the BSSs are overlapped.

7 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment. FIG. 7 shows a manner in which APs participating in cooperative beamforming transmission sequentially respond to one CoTx Request frame.

Referring to FIG. 7, through agreement for cooperative beamforming transmissions, AP1, AP2, and AP3 may be determined to participate in cooperative beamforming transmissions. A cooperative sounding procedure for cooperative beamforming transmission between AP1, AP2 and AP3 can then be performed. For example, AP1, AP2, and AP3 may obtain a precoding matrix for use in cooperative beamforming transmissions through a cooperative sounding process. Then, AP1, which is responsible for cooperative beamforming transmission, can transmit a CoTx Request frame with BC set to RA. Herein, the Duration field of the cooperative transmission request frame is set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the agreement can set the NAV until the cooperative beamforming transmission interval is ended. In addition, the first CoTx AP info field of the cooperative transmission request frame includes information indicating AP2, and the second CoTx AP info field of the cooperative transmission request frame may include information indicating AP3. As a result, AP2 and AP3 participating in the cooperative beamforming transmission can reset the NAV. Then, AP2 associated with the first CoTx AP info field may transmit an Ack frame for the cooperative transmission request frame to AP1 by transmitting a cooperative transmission response frame in which AP1 is set as RA. Here, the Duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the consensus may set the NAV until the cooperative beamforming transmission interval ends. Then, AP3 associated with the next CoTx AP info field may transmit an Ack frame for the cooperative transmission request frame to AP1 by transmitting a cooperative transmission response frame in which AP1 is set as RA. Here, the Duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the consensus may set the NAV until the cooperative beamforming transmission interval ends. AP1, AP2, and AP3 may then perform cooperative beamforming transmissions during the cooperative beamforming transmission period. For example, AP1 transmits a beamformed data frame to STA1 belonging to its own BSS, and at the same time AP2 transmits a beamformed data frame to STA2 belonging to its own BSS, At the same time, the AP 3 can transmit the beamformed data frame to the STA 3 belonging to the BSS in charge of itself. In one embodiment, AP1 and AP2 each transmit a beamformed data frame to STA1 and STA2 after a predetermined time interval after reception of the last cooperative transmission response frame is completed, and AP3 associated with the last CoTx AP info field transmits a cooperative transmission response It is possible to transmit the beamformed data frame to STA3 after a predetermined time interval after transmission of the frame is completed. Here, the predetermined time interval may be SIFS.

8 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment. FIG. 8 shows a scheme in which APs participating in cooperative beamforming transmission sequentially respond to one CoTx Request frame. In the embodiment shown in FIG. 8, it may be difficult to determine when to start transmitting a beamformed data frame if either of the APs participating in cooperative beamforming transmissions are not responding or if one of the cooperative transmission response frames is lost have. Therefore, in the embodiment shown in FIG. 8, the AP 1 that is leading the cooperative beamforming transmission can transmit a CoTx Start frame so that the start time of transmission of the beamformed data frame becomes clear. The cooperative transmission start frame may be transmitted after a predetermined time interval after reception of the last cooperative transmission response frame is completed. In one embodiment, AP1 sends a beamformed data frame to STA1 after a predetermined time interval after transmission of the cooperative transmission start frame is completed, and AP2 and AP3 transmit a beamformed data frame after a predetermined time interval after reception of the cooperative transmission start frame is completed Beamformed data frames to STA2 and STA3, respectively. Here, the predetermined time interval may be SIFS.

9 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment. FIG. 9 shows that the AP associated with the first CoTx AP info field of the CoTx Request frame responds immediately after receiving the cooperative transmission request frame, and the APs associated with the remaining CoTx AP info field of the cooperative transmission request frame, Indicates a method of responding after receiving a response poll frame (CoTx response poll frame).

Referring to FIG. 9, through agreement for cooperative beamforming transmissions, AP1, AP2, and AP3 may be determined to participate in cooperative beamforming transmissions. A cooperative sounding procedure for cooperative beamforming transmission between AP1, AP2 and AP3 can then be performed. For example, AP1, AP2, and AP3 may obtain a precoding matrix for use in cooperative beamforming transmissions through a cooperative sounding process. Then, AP1, which is responsible for cooperative beamforming transmission, can transmit a CoTx Request frame with BC set to RA. Herein, the Duration field of the cooperative transmission request frame is set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the agreement can set the NAV until the cooperative beamforming transmission interval is ended. In addition, the first CoTx AP info field of the cooperative transmission request frame includes information indicating AP2, and the second CoTx AP info field of the cooperative transmission request frame may include information indicating AP3. As a result, AP2 and AP3 participating in the cooperative beamforming transmission can reset the NAV. Then, AP2 associated with the first CoTx AP info field may transmit an Ack frame for the cooperative transmission request frame to AP1 by transmitting a cooperative transmission response frame in which AP1 is set as RA. Here, the Duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the consensus may set the NAV until the cooperative beamforming transmission interval ends. AP1, which is responsible for cooperative beamforming transmissions, may then send a CoTx response poll frame with AP3 set to RA associated with the next CoTx AP info field. Subsequently, the AP 3 that has received the cooperative transmission acknowledgment poll frame can transmit the cooperative transmission acknowledgment frame in which the AP 1 is set to RA, thereby transmitting the Ack frame for the cooperative transmission acknowledgment poll frame to the AP 1. Here, the Duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the consensus may set the NAV until the cooperative beamforming transmission interval ends. AP1, AP2, and AP3 may then perform cooperative beamforming transmissions during the cooperative beamforming transmission period. For example, AP1 transmits a beamformed data frame to STA1 belonging to its own BSS, and at the same time AP2 transmits a beamformed data frame to STA2 belonging to its own BSS, At the same time, the AP 3 can transmit the beamformed data frame to the STA 3 belonging to the BSS in charge of itself. In one embodiment, AP1 and AP2 each transmit a beamformed data frame to STA1 and STA2 after a predetermined time interval after reception of the last cooperative transmission response frame is completed, and AP3 associated with the last CoTx AP info field transmits a cooperative transmission response It is possible to transmit the beamformed data frame to STA3 after a predetermined time interval after transmission of the frame is completed. Here, the predetermined time interval may be SIFS.

As described above, by providing a cooperative beamforming transmission protocol in which three or more APs can simultaneously perform beamforming transmission in an overlapping BSS environment, the transmission efficiency in the overlapped BSS environment can be improved.

FIG. 10 schematically shows an environment in which BSSs handled by APs in the wireless LAN are overlapped. 10 shows a BSS 121 in charge of the AP 111 and a BSS 122 in charge of the AP 112, respectively. There may be overlapping regions between the BSSs 121 and 122 of the adjacent APs 111 and 112. Here, as shown in FIG. 10, the STA 131 belonging to the BSS 121 and the STA 132 belonging to the BSS 122 can be located in the area where the BSSs 121 and 122 overlap. Unlike the case of FIG. 1 or 6, in FIG. 10, the APs 111 and 112 are located outside the overlapped BSS region, and the STAs 131 and 132 are located within the overlapped BSS region. In this environment, since the starting point of transmission of the beamformed data frame can not be known using the direct communication between the APs, the STA located in the overlapped BSS region can be used as a relay apparatus.

11 is a conceptual diagram illustrating a protocol for performing cooperative beamforming transmission between APs according to an embodiment. 11 shows a scheme in which APs participating in the cooperative beamforming transmission use STAs located in the overlapped BSS region as relay apparatuses.

Referring to FIG. 11, it can be determined through agreement for cooperative beamforming transmissions that AP1 and AP2 participate in cooperative beamforming transmissions. In one embodiment, AP1 can, by agreement, recognize that AP1 and AP2 are located outside of the overlapping BSS region, and that STA1 belonging to the BSS in charge of which is located within the overlapping BSS region. Then, a cooperative sounding process for cooperative beamforming transmission between AP1 and AP2 may be performed. For example, AP1 and AP2 may obtain a precoding matrix for use in cooperative beamforming transmission through a cooperative sounding process. Subsequently, the AP 1 that is responsible for the cooperative beamforming transmission can transmit a CoTx Request frame in which the relay device STA1 is set to RA. Herein, the Duration field of the cooperative transmission request frame is set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the agreement can set the NAV until the cooperative beamforming transmission interval is ended. Subsequently, the STA1, which has received the cooperative transmission request frame, can transmit a cooperative transmission request frame (CoTx Request frame) in which the BC is set as the RA so that the AP2 can reset the NAV. Subsequently, the AP2 that has received the cooperative transmission request frame can transmit the Ack frame for the cooperative transmission request frame to the STA1 by transmitting the cooperative transmission response frame in which the STA1 is set as the RA. Here, the Duration field of the cooperative transmission response frame may be set until the cooperative beamforming transmission interval is ended, so that the wireless LAN devices not associated with the consensus may set the NAV until the cooperative beamforming transmission interval ends. The STA1 may then transmit a CoTx Start frame after receiving the cooperative transmission response frame from the APs participating in cooperative beamforming transmission. The cooperative transmission start frame may be transmitted after a predetermined time interval after reception of the last cooperative transmission response frame is completed. AP1 and AP2 may then perform cooperative beamforming transmissions during the cooperative beamforming transmission period. For example, AP1 may transmit a beamformed data frame to STA1 belonging to its own BSS, and at the same time, AP2 may transmit a beamformed data frame to STA2 belonging to its own BSS. In one embodiment, AP1 and AP2 may each transmit a beamformed data frame to STA1 and STA2 after a predetermined time interval after reception of the cooperative transmission start frame is completed. Here, the predetermined time interval may be SIFS.

As described above, when APs having overlapping BSS regions are located outside the overlapped BSS region, STAs located in the overlapped BSS region are used as relay apparatuses so that two or more APs simultaneously By providing a cooperative beamforming transmission protocol that can perform beamforming transmission, the transmission efficiency in the overlapping BSS environment can be improved.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA) , A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (20)

Negotiating cooperative beamforming transmissions with a second access point having a BSS (Basic Service Set) region overlapped with the first access point by a first access point;
Transmitting a CoTx Request frame to the second access point by the first access point;
Receiving, by the first access point, a CoTx Response frame sent by the second access point to the first access point in response to the cooperative transmission request frame; And
Performing a cooperative beamforming transmission with the second access point by the first access point during a cooperative beamforming transmission interval determined through the consensus after a predetermined time interval after the cooperative transmission response frame reception is completed
Wherein the cooperative beamforming communication method comprises: The method according to claim 1,
Performing cooperative sounding with the second access point by the first access point
Wherein the cooperative beamforming communication method further comprises: 3. The method of claim 2,
Wherein performing cooperative sounding comprises obtaining a precoding matrix for use by the first access point and the second access point, respectively, for the cooperative beamforming transmission.
Cooperative beamforming communication method. The method according to claim 1,
Wherein the Duration field of the cooperative transmission request frame and the Duration field of the cooperative transmission response frame are set until the cooperative beamforming transmission interval ends. The method according to claim 1,
Wherein the predetermined time interval is SIFS. Negotiating cooperative beamforming transmissions with at least one access point having a BSS region overlapping with the first access point by a first access point;
Broadcasting a CoTx Request frame by the first access point;
Receiving, by the first access point, a CoTx Response frame sent by the at least one access point to the first access point in response to the cooperative transmission request frame; And
Performing cooperative beamforming transmissions with the at least one access point by the first access point during a cooperative beamforming transmission interval determined through the consensus after the cooperative transmission response frame reception is completed
Wherein the cooperative beamforming communication method comprises: The method according to claim 6,
Wherein the at least one access point comprises a second access point and a third access point,
Wherein the step of receiving the cooperative transmission response frame comprises:
Receiving a first cooperative transmission response frame transmitted by the second access point to the first access point; And
Receiving a second cooperative transmission response frame transmitted by the third access point to the first access point after the second access point transmits the first cooperative transmission response frame to the first access point
Wherein the cooperative beamforming communication method comprises: 8. The method of claim 7,
Further comprising transmitting a CoTx Start frame by the first access point,
Wherein performing the cooperative beamforming transmission comprises transmitting a beamformed data frame by the first access point, the second access point, and the third access point after the transmission of the cooperative transmission start frame is completed Including,
Cooperative beamforming communication method. The method according to claim 6,
Wherein the at least one access point comprises a second access point and a third access point,
Wherein the step of receiving the cooperative transmission response frame comprises:
Receiving a first cooperative transmission response frame transmitted by the second access point to the first access point;
Transmitting a CoTx response poll frame to the third access point when receiving the first cooperative transmission response frame from the second access point by the first access point; And
Receiving a second cooperative transmission response frame transmitted by the third access point to the first access point in response to the cooperative transmission response poll frame
Wherein the cooperative beamforming communication method comprises: 10. The method of claim 9,
Wherein performing the cooperative beamforming transmission comprises transmitting a beamformed data frame by the first access point, the second access point, and the third access point after the reception of the second cooperative transmission response frame is completed ≪ / RTI >
Cooperative beamforming communication method. The method according to claim 6,
Performing cooperative sounding between the first access point and the at least one access point
Wherein the cooperative beamforming communication method further comprises: 12. The method of claim 11,
Wherein performing cooperative sounding comprises obtaining a precoding matrix for use in the cooperative beamforming transmission by the first access point and the at least one access point, respectively.
Cooperative beamforming communication method. The method according to claim 6,
Wherein the Duration field of the cooperative transmission request frame and the Duration field of the cooperative transmission response frame are set until the cooperative beamforming transmission interval ends. An access point performing cooperative beamforming communication,
Transmitting and receiving a frame associated with a consensus of cooperative beamforming transmissions with at least one other access point having a BSS region overlapped with the access point and transmitting a CoTx Request frame to the at least one other access point, A communication unit for receiving a CoTx Response frame transmitted by the at least one other access point in response to the cooperative transmission request frame; And
Control the communication unit to generate and transmit a frame associated with the agreement to the other access point and process the frame associated with the agreement if a frame associated with the agreement is received from the other access point to the communication unit; And transmits a cooperative beamforming transmission to the other access point during a cooperative beamforming transmission interval determined through the agreement after a predetermined time interval after the cooperative transmission response frame reception is completed And a control unit
. 15. The method of claim 14,
Wherein the control unit further controls the communication unit to perform cooperative sounding with the other access point,
Access point. 15. The method of claim 14,
Wherein the Duration field of the cooperative transmission request frame and the Duration field of the cooperative transmission response frame are set until the cooperative beamforming transmission interval ends. An access point performing cooperative beamforming communication,
Transmitting and receiving a frame associated with a consensus of cooperative beamforming transmissions with at least one other access point having a BSS region overlapped with the access point, broadcasting a CoTx Request frame, A receiving unit receiving a CoTx Response frame transmitted by another access point in response to the cooperative transmission request frame; And
Control the communication unit to generate and transmit a frame associated with the agreement to the at least one other access point, and if the frame associated with the agreement is received by the communication unit from the at least one other access point, And to perform cooperative beamforming transmission with the at least one other access point during a cooperative beamforming transmission interval determined through the agreement after the cooperative transmission response frame reception is completed, A control unit
. 18. The method of claim 17,
Wherein the at least one other access point comprises a second access point and a third access point,
Wherein the communication unit further receives a first cooperative transmission response frame transmitted from the second access point and transmits the first cooperative transmission response frame to the second access point after transmitting the first cooperative transmission response frame, Receiving a cooperative transmission response frame,
Access point. 19. The method of claim 18,
The communication unit further transmits a cooperative transmission start frame (CoTx Start frame)
Wherein the control unit further controls the communication unit to transmit the beamformed data frame after the transmission of the cooperative transmission start frame is completed,
Access point. 18. The method of claim 17,
Wherein the at least one other access point comprises a second access point and a third access point,
Wherein the communication unit further receives a first cooperative transmission response frame transmitted from the second access point and transmits a CoTx response poll frame to the third access point in response to the first cooperative transmission response frame, And a second cooperative transmission response frame transmitted by the third access point in response to the cooperative transmission response poll frame,
Wherein the control unit further controls the communication unit to transmit the beamformed data frame after the reception of the second cooperative transmission response frame is completed,
Access point.

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