KR20170116545A - A wireless communication method and a wireless communication terminal - Google Patents

Abstract

The present invention relates to a device, a system and a wireless LAN communication method for a wireless LAN, and a wireless LAN communication apparatus and method capable of maximizing the efficiency of a multi-user environment of a next generation wireless LAN system can be provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wireless LAN communication method,

The present invention relates to a wireless LAN communication method and a wireless LAN communication terminal, and more particularly, to a wireless LAN communication apparatus and method capable of maximizing efficiency of a multi-user environment of a next generation wireless LAN system.

The next generation wireless LAN system can be designed to have functions such as multi-user enhancement, multi-user uplink transmission, and OFDMA random access in 802.11ac.

The present invention aims to provide techniques necessary for applying the above-described functions to a wireless LAN system.

According to an embodiment of the present invention, an apparatus, system, and wireless LAN communication method for a wireless LAN can be provided.

Embodiments of the present invention include adapter techniques that enable new technologies to be applied to a wireless LAN system, thereby maximizing the efficiency of a multi-user environment of a next-generation wireless LAN system.

1 is a diagram illustrating a multi-user uplink transmission procedure according to an embodiment of the present invention.
2 is a diagram illustrating a format of an ACK according to an embodiment of the present invention.
3 is a diagram illustrating an ACK format of a multi-user uplink transmission according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating an example of a case where only some terminals transmit BA in multi-user uplink transmission according to an embodiment of the present invention.
5 is a diagram illustrating an example of transmission of only a part of TIDs in a multi-user uplink transmission according to an embodiment of the present invention.
FIG. 6 is a diagram illustrating an example in which a multi-user uplink transmission according to an exemplary embodiment of the present invention is not performed by a CS.
FIG. 7 is a diagram illustrating an example in which a multi-user uplink transmission according to an embodiment of the present invention is unconditionally performed without performing CS.
FIG. 8 is a diagram illustrating an example in which a multi-user uplink transmission according to an exemplary embodiment of the present invention selectively transmits padding by a CS.
FIG. 9 is a diagram illustrating an example of including an ACK in a trigger frame when concatenating Trigger frames according to an embodiment of the present invention.
10 is a diagram illustrating an example of including ACK information in a trigger frame according to an embodiment of the present invention.
FIG. 11 is a diagram illustrating a form including Trigger information in the Multi-STA-BA according to an embodiment of the present invention.

In the case where the data transmitted upward in the multi-user transmission is transmitted without error as a whole, or when an error occurs only in some RUs, the ACK message can be effectively reduced by constructing and transmitting an ACK message through the Group ID.

If channel sensing (CS) is performed in the trigger frame and the uplink transmission is instructed, the transmission can not be performed when the channel is Busy. When the length of the uplink PPDU is short, the AP does not send CS but sends it unconditionally. If the length of the uplink PPDU allocated by the AP is long but the length of the PPDU to be transmitted is as short as the ACK, if the result of the CS is Busy, the short transmission is performed without padding. If the result of the CS is idle, And transmits the generated packet.

When a multiuser uplink transmission is performed and a packet is concatenated, ACK and Trigger information may be transmitted together. The ACK format may include Trigger information and may include ACK information in the Trigger format.

How to reduce multiuser ACK length through Group ACK

According to an exemplary embodiment of the present invention, as shown in FIG. 1, the multi-user uplink transmission includes a time point when a plurality of users can transmit data upwards through a trigger frame, allocates resources, The AP transmits the data and informs the error status of the transmitted data through ACK. In the multi-user uplink transmission, since a plurality of terminals or one terminal transmits a plurality of traffic (TID), an ACK must multiplex and transmit contents of a plurality of transmission entities. One example of the ACK is a Multi-STA Block ACK, in which the BA Information portion is repeatedly multiplexed by the number of terminals (STAs) or TIDs to which Block ACK / ACK should be transmitted. Depending on the state of the channel, all the data transmitted by multiple users using a subchannel resource unit (RU) in the 20 MHz channel may be transmitted without error or many errors may be transmitted. When all the uplink data transmitted to the subchannel divided in the 20 MHz unit is received without any error, as shown in FIG. 2, all terminals transmitted at 20 MHz using the Group AID are allowed to receive the corresponding ACK information, And informs that the data of all terminals participating in the transmission are correctly received. The Group AID may be defined by using either a broadcast AID or an unused AID.

If a part of the multi-user data transmitted to the subchannel has an error, it should be notified using the Multi-STA Block ACK as shown in FIG. The ID in the MAC header of this message shall be received by all terminals participating in transmission using Group AID. As shown in FIG. 4, after the Block Ack information for the failed STAs (AID # 5 and # 7) is listed and transmitted in the present embodiment, all other terminals participating in the transmission by the Group AID are acknowledged as ACK type = 1, ACK). Since the terminal that received the error has already received the error information, it ignores this information even if ACK is received at the last Group AID. Implicitly, ACK transmission to the last Group AID is omitted, so that it is possible to inform the transmission indirectly other than the terminal that transmitted the error information as the Block ACK information.

Even when the same terminal transmits a plurality of traffic uplinks, only the TIDs in which an error has occurred can be informed by transmitting an ACK to a Group TID (1111 in the present invention) that the Block ACK is transmitted and the remaining TIDs are transmitted without error. As described above, ACKs of all traffic (TID) in which the error of the same terminal (AID) does not occur can be implicitly known without being transmitted. That is, only the BA of the errored TID is listed and transmitted. If all the TID values are used and Group TID can not be defined, an ACK can be transmitted using Group AID.

In case of multi-user (AID) and multi-traffic (TID) uplink transmission, the MAC AID of the Header uses Group AID and the error information for the individual AID and the individual TID in the BA Information, which is the Block ACK repetition portion, And the remaining UEs and TIDs transmit an ACK to the group AID to inform them that they have received the error without error. As described above, the ACK may be omitted as the last Group AID to inform implicitly.

How to send ACK to Busy channel in multi-user uplink transmission

According to an exemplary embodiment of the present invention, the multi-user transmission may occur in the downward direction and the upward direction as shown in FIG. 6, and the uplink resource allocation information may be transmitted when the downlink data is transmitted in the trigger frame. In the trigger frame, there exists a CS Required bit indicating whether the channel to be transmitted is idle or carrier sensing (CS) in order to transmit uplink data. When the CS bit is set to 1, it is necessary to check whether the channel is used and decide whether or not to transmit the channel. Since there is a condition that the length of the packet to be transmitted upstream should be the same as the length of the PPDU indicated by the TF, padding is performed except for the data to be transmitted so that the packet is the same length as the packet to be transmitted to another RU. The embodiment of FIG. 6 shows an example in which the STA2 does not perform transmission because the CS result channel is busy. CS is set to be 1 when the length of the PPDU to be allocated upwards exceeds a certain length. In case of ACK, the length of the PPDU is usually long because of short padding, but when another UL packet and ACK are to be transmitted together as in this embodiment, the padding is long. In the case of a multi-user uplink transmission of a short-length PPDU such as an ACK, the AP sets the CS required bit to 0 so that the UE can unconditionally transmit an ACK without a CS. ACK can interfere with other users, but because it is important data, it is to transmit unconditionally without CS.

In case of BA / ACK, the AP may set the CS required bit to 0 so that it is a long ACK packet padded and unconditionally transmitted without CS, as in STA2 of FIG. 7. In this case, STA2 can give interference to another user, which is a hidden node of the AP.

8 shows a case where only the BA / ACK of STA2 is triggered as an uplink transmission packet in the same situation. Since the total length of the PPDU is long, the AP sets the CS required bit to 1 and the STA knows that the CS result channel is busy. In this case, only short-length ACKs are transmitted without padding. In this way, regardless of whether or not the AP instructs the STA to transmit a CS packet, if the packet is to be transmitted upward even though the resultant channel is CS, information indicating CS busy is included in the uplink transmission. The CS busy indication may be displayed in the preamble section or may be displayed in the MAC header of the packet. Upon receiving a packet including such a display, the AP can recognize that the packet is not padded. If the uplink PPDU to be transmitted is a packet to be padded or the length is the same as the indicated PPDU, the CS busy indication is set and when it is transmitted, the AP uses the trigger frame transmission CS request can be set and transmitted.

How to send ACK through Trigger Frame

According to an embodiment of the present invention, there is a Trigger Frame Cascade, which is a bit for indicating the presence or absence of a trigger frame in a Trigger Frame (TF), as shown in FIG. In this case, if the AP needs to simultaneously transmit the uplink multi-user data and the multi-user uplink transmission resource allocation trigger frame, a Trigger Frame and a Multi-STA Block ACK BA + trigger combined with the M-BA + trigger. The M-BA + trigger may be a form that includes ACK information in the trigger frame or a form that includes trigger information in the Multi-STA-BA.

10 is a diagram illustrating a case where ACK information is included in the Trigger frame according to an embodiment of the present invention. The Trigger frame includes ACK bitmap information indicating whether a packet transmitted from each subchannel (RU) of the previous uplink transmission failed. The ACK bitmap information can be entered in the common info or in the Per User Info section by defining the AID for the ACK. For ACK AID, for example, an unused 2047 can be used as an AID including ACK information. In the Trigger information, Per user information of the corresponding part should be decoded by all the STAs participating in the previous uplink transmission. The ACK bitmap consists of a maximum of 9 bits, which is the maximum number of RUs that can be allocated in a 20 MHz channel. Bits are mapped to RU number and 1: 1. If the corresponding bit is set to 0, it indicates that the packet transmitted to the corresponding RU in the previous uplink transmission is received without error. If the corresponding bit is set to 1, the packet is transmitted from the previous uplink to the corresponding RU Which indicates that an error has occurred in the packet. Per user info can be used to indicate the uplink data transmission status by AID. In this case, it may include bits indicating AID and one bit indicating ACK / NACK. In case of notifying up-data transmission status per AID by Per user info, it also transmits the next up-link resource allocation (RU) information of the corresponding AID. NACK, the uplink resource allocation information is not included. Or NACK without an ACK / NACK bit, it may indicate that the NACK is not included in the Per user info for the corresponding UE. When it is instructed to set NACK for each transport channel or each UE, it is necessary to inform which MPDU has caused an error by Block ACK. Since the size of the trigger frame can not be limited, the last multi-STA Block Including Block ACK information of all UEs in which a NACK has occurred.

FIG. 11 is a diagram illustrating a form including Trigger information in the Multi-STA-BA according to an embodiment of the present invention. In this embodiment, the A-control of the MAC header of the Multi-STA Block ACK includes Trigger information and can be transmitted. However, since only an RU for one STA can be assigned, a separate method as in the embodiment of FIG. It can also be used. It can be used as a trigger starting sequence indicating that the trigger information is included in the BA information by using reserved bits and 9 bits of BA Control. The Trigger Starting sequence is a parameter that indicates from which BA information the Trigger information is from. In the embodiment, since the Trigger Starting sequence is set to 10, the first 9 pieces of BA information indicate the ACK and the Trigger information is included from the 10th.

Claims (1)

DEVICE, SYSTEM, AND WLAN COMMUNICATION METHOD FOR WIRELESS LAN.

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