WO2015068968A1 - 무선랜에서 멀티 유저 상향링크 수신 방법 및 장치 - Google Patents
무선랜에서 멀티 유저 상향링크 수신 방법 및 장치 Download PDFInfo
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- WO2015068968A1 WO2015068968A1 PCT/KR2014/009891 KR2014009891W WO2015068968A1 WO 2015068968 A1 WO2015068968 A1 WO 2015068968A1 KR 2014009891 W KR2014009891 W KR 2014009891W WO 2015068968 A1 WO2015068968 A1 WO 2015068968A1
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- uplink transmission
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
- H04W72/1263—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows
- H04W72/1268—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows of uplink data flows
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access, e.g. scheduled or random access
- H04W74/08—Non-scheduled or contention based access, e.g. random access, ALOHA, CSMA [Carrier Sense Multiple Access]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0446—Resources in time domain, e.g. slots or frames
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
- H04L5/001—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT the frequencies being arranged in component carriers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0094—Indication of how sub-channels of the path are allocated
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W56/00—Synchronisation arrangements
- H04W56/0005—Synchronisation arrangements synchronizing of arrival of multiple uplinks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/10—Small scale networks; Flat hierarchical networks
- H04W84/12—WLAN [Wireless Local Area Networks]
Definitions
- the present invention relates to wireless communication, and more particularly, to a method and apparatus for multi-user uplink reception in a WLAN.
- a distributed coordination function may be used as a method for sharing a wireless medium by a plurality of STAs.
- DCF is based on carrier sensing multiple access with collision avoidance (CSMA / CA).
- the STA may transmit a medium access control (MAC) protocol data unit (MPDU) that is about to be transmitted. If it is determined that the medium is in use by a carrier sensing mechanism, the STA may determine the size of a content window (CW) by a random backoff algorithm and perform a backoff procedure. The STA may select a random value in CW to perform a backoff procedure and determine a backoff time based on the selected random value.
- MAC medium access control
- MPDU protocol data unit
- the STA having the shortest backoff time among the plurality of STAs may access the medium and the remaining STAs stop the remaining backoff time and transmission of the STA accessing the medium is completed. You can wait until. After the frame transmission of the STA accessing the medium is completed, the remaining STAs may compete with the remaining backoff time to acquire transmission resources. In this manner, in the conventional WLAN system, one STA performs communication with the AP by occupying the entire transmission resource.
- An object of the present invention is to provide a multi-user uplink reception method in a WLAN.
- Another object of the present invention is to provide an apparatus for performing a multi-user uplink reception method in a WLAN.
- an access point overlaps a downlink physical layer protocol downlink unit (PPDU). Transmitting to the plurality of STAs on the allocated time resource and the AP is uplinked from each of the plurality of STAs on the overlapped time resources through each uplink transmission resource for each of the plurality of STAs in response to the downlink PPDU.
- the method may include receiving each link frame, wherein the downlink PPDU includes a STA identifier field, a resource allocation field, and an uplink transmission opportunity (TXOP) duration field, and the STA identifier field is provided to the plurality of STAs.
- Information on the uplink transmission resource, and the resource allocation field includes information on the uplink transmission resource.
- the duration field may include information for determining a transmission duration of each uplink frame.
- an access point (AP) for receiving each uplink frame from a plurality of STAs in a WLAN is implemented to transmit or receive a radio signal.
- the downlink PPDU may be implemented to receive each uplink frame from each of the plurality of STAs on a superimposed time resource through each uplink transmission resource for each of the plurality of STAs in response to the downlink PPDU.
- the child field includes information on the plurality of STAs, the resource allocation field includes information on each of the uplink transmission resources, and the uplink transmission TXOP duration field determines a transmission duration of each uplink frame. Information may be included.
- An access point may receive uplink data transmitted simultaneously from each of a plurality of STAs through a plurality of spatial streams or a plurality of frequency resources, respectively. Radio resource utilization efficiency may be improved by uplink transmission by the plurality of STAs.
- FIG. 1 is a conceptual diagram illustrating UL MU transmission based on an uplink transmission indication frame according to an embodiment of the present invention.
- FIG. 2 is a conceptual diagram illustrating an uplink transmission indication frame according to an embodiment of the present invention.
- FIG. 3 is a conceptual diagram illustrating UL MU transmission in an NDPA-based sounding procedure according to an embodiment of the present invention.
- FIG. 4 is a conceptual diagram illustrating a UL MU transmission method according to an embodiment of the present invention.
- FIG. 5 is a conceptual diagram illustrating a UL MU transmission method according to an embodiment of the present invention.
- FIG. 6 is a conceptual diagram illustrating a UL MU transmission method according to an embodiment of the present invention.
- FIG. 7 is a conceptual diagram illustrating a downlink PPDU format for UL MU transmission according to an embodiment of the present invention.
- FIG. 8 is a block diagram showing a wireless communication system according to an embodiment of the present invention.
- An access point (AP) operating in a wireless local area network (WLAN) system may transmit data through the same time resource to each of a plurality of stations (STAs). If the transmission from the AP to the STA is called downlink transmission, and the transmission from the STA to the AP is called uplink transmission, the transmission of the AP may be expressed in terms of DL MU transmission (downlink multi-user transmission).
- the transmission of data to the AP by the plurality of STAs on the same time resource may be expressed in terms of UL MU transmission (uplink multi-user transmission).
- UL MU transmission uplink multi-user transmission
- the WLAN system does not support such UL MU transmission.
- the WLAN system cannot support UL MU transmission due to the following limitations.
- synchronization for transmission timing of uplink data transmitted from a plurality of STAs is not supported. For example, it may be assumed that a plurality of STAs transmit uplink data through the same time resource in an existing WLAN system. In the current WLAN system, each of the plurality of STAs does not know transmission timing of uplink data of another STA. Therefore, it is difficult for the AP to receive uplink data on the same time resource from each of the plurality of STAs.
- overlap between frequency resources used for transmitting uplink data by a plurality of STAs may occur. For example, when oscillators of the plurality of STAs are different, frequency offsets may appear differently. If each of a plurality of STAs having different frequency offsets simultaneously performs uplink transmission through different frequency resources, some of frequency regions used by each of the plurality of STAs may overlap.
- the AP may receive signals of different power from each of the plurality of STAs. In this case, a signal arriving at a weak power may be difficult to be detected by the AP relative to a signal arriving at a strong power.
- a UL MU transmission method in which each of the plurality of STAs transmits an uplink frame to the AP depending on the received downlink frame It starts.
- the uplink frame transmission method of the STA may be expressed by the term downlink dependent UL MU transmission. That is, after transmission of a downlink frame by the AP, a plurality of STAs indicated on the basis of the downlink frame may transmit the uplink frame to the AP before another STA attempts contention for uplink transmission. .
- each of a plurality of STAs indicated based on a downlink frame may receive a downlink frame and transmit an uplink frame to the AP after a short inter frame space (SIFS) in order to restrict radio medium allocation to another STA.
- SIFS short inter frame space
- TXOP transmission opportunity for uplink transmission may be configured for each of the plurality of STAs indicated based on the downlink frame.
- Uplink transmission by each of the plurality of STAs may be performed in a frequency domain or a spatial domain.
- different frequency resources may be allocated as uplink transmission resources for each of the plurality of STAs based on orthogonal frequency division multiplexing (OFDMA).
- OFDMA orthogonal frequency division multiplexing
- each of the plurality of STAs When uplink transmission by each of the plurality of STAs is performed on the spatial domain, different spatial streams are allocated to each of the plurality of STAs, so that each of the plurality of STAs may transmit uplink data through different spatial streams.
- the transmission method through these different spatial streams may be represented by the term UL MU MIMO transmission method.
- FIG. 1 is a conceptual diagram illustrating UL MU transmission based on an uplink transmission indication frame according to an embodiment of the present invention.
- each of the plurality of STAs may perform uplink transmission based on the uplink transmission indication frame 100 transmitted by the AP.
- Each of the plurality of STAs may receive the uplink transmission indication frame 100 from the AP and transmit the uplink data frames 110, 120, and 130 to the AP after SIFS.
- an uplink transmission indication frame 100 for indicating transmission of an uplink frame transmitted from each of a plurality of STAs may be transmitted from an AP to each of a plurality of STAs.
- the uplink transmission indication frame 100 may include information for transmission of an uplink frame of each of the plurality of STAs.
- the uplink transmission indication frame 100 may include a STA identifier field, an uplink transmission TXOP duration field, a resource allocation field, and the like.
- the STA identifier field may include information on an identifier for indicating each of a plurality of STAs performing uplink data transmission.
- the uplink transmission TXOP duration field may include information for determining a time resource for transmission of an uplink data frame transmitted by each of the plurality of STAs.
- the uplink transmission TXOP duration field may correspond to information (bit or symbol) and / or data transmission rate (or modulation and coding scheme (MCS)) about the length of an uplink frame that can be transmitted by each of the plurality of STAs. Information may be included.
- the uplink transmission TXOP duration field may include duration information of TXOP allocated for uplink transmission of each of the plurality of STAs. Each of the plurality of STAs may determine an end timing of uplink transmission based on the uplink transmission TXOP duration field.
- the uplink transmission TXOP duration field may also be expressed as a term of an uplink frame length field.
- the resource allocation field may include information on uplink transmission resources (frequency resources or spatial stream resources) to be allocated to each of the plurality of STAs.
- the uplink transmission indication frame 100 may further include an uplink transmission indication field indicating to transmit the uplink frame to the AP to each of the plurality of STAs.
- the above fields are one example of a field included in the uplink transmission indication frame 100 for uplink transmission of a plurality of STAs.
- a format of a specific uplink transmission indication frame 100 will be described later.
- Each of the plurality of STAs may be allocated a specific frequency resource for UL MU OFDMA transmission or a spatial stream for UL MU MIMO transmission based on a resource allocation field of the uplink transmission indication frame 100.
- a plurality of STAs may perform uplink transmission on the same time resource through different frequency resources based on OFDMA.
- the resource allocation field may include information about frequency resources allocated to each of the plurality of STAs.
- the plurality of STAs may perform uplink transmission on the same time resource based on at least one of the plurality of spatial streams for UL MU MIMO transmission.
- the resource allocation field may include information about spatial streams allocated to each of the plurality of STAs.
- uplink transmission of each of the plurality of STAs is as follows.
- each of STA 1 to STA 3 receiving the uplink transmission indication frame 100 may perform uplink transmission on the same time resource through different frequency resources based on UL MU OFDMA.
- Each of the STAs 1 to 3 may transmit the uplink data frames 110, 120, and 130 after SIFS after receiving the uplink transmission indication frame 100.
- Each of STA 1 to STA 3 may be allocated frequency resources for uplink transmission based on the STA identifier field and the resource allocation field included in the uplink transmission indication frame 100. For example, STA 1 to STA 3 may be sequentially indicated based on the STA identifier field. In addition, the frequency resource 1 115, the frequency resource 2 125, and the frequency resource 3 135 may be sequentially indicated based on the resource allocation field.
- each of the STAs 1 to 3 STAs sequentially indicated based on the STA identifier field may have the frequency resource 1 115, the frequency resource 2 125, and the frequency resource 3 135 sequentially indicated based on the resource allocation field.
- STA 1 may transmit uplink data frames 110, 120, and 130 to the AP through frequency resource 1 115, STA 2 through frequency resource 2 125, and STA 3 through frequency resource 3 135. .
- each of STAs 1 to 3 that have received the uplink transmission indication frame 100 may perform uplink transmission on the same time resource through different spatial streams based on UL MU MIMO.
- Each of the STAs 1 to 3 may transmit the uplink data frames 110, 120, and 130 after SIFS after receiving the uplink transmission indication frame 100.
- Each of STA 1 to STA 3 may be allocated a spatial stream for uplink transmission based on the STA identifier field and the resource allocation field included in the uplink transmission indication frame 100. For example, STA 1 to STA 3 may be sequentially indicated based on the STA identifier field. In addition, the spatial stream 1 155, the spatial stream 2 165, and the spatial stream 3 175 may be sequentially indicated based on the resource allocation field.
- each of the STA 1 to STA 3 sequentially indicated based on the STA identifier field may have spatial stream 1 155, spatial stream 2 165, and spatial stream 3 175 sequentially indicated based on the resource allocation field.
- Each can be assigned. That is, STA 1 may transmit uplink data frames 110, 120, and 130 to the AP through spatial stream 1 155, STA 2 through spatial stream 2 165, and STA 3 through spatial stream 3 175. .
- the transmission duration of uplink data frames 110, 120, and 130 transmitted by each of the plurality of STAs at the top of FIG. 1 and the bottom of FIG. 1 may be determined by an uplink transmission TXOP duration field.
- the transmission termination time of the uplink data frames 110, 120, and 130 transmitted by each of the plurality of STAs may be determined by an uplink transmission TXOP duration field.
- the plurality of STAs transmit a transmission end time of an uplink data frame (or an uplink physical layer protocol data unit (PPDU) that carries an uplink data frame) through bit padding or fragmentation. Can be synchronized based on.
- PPDU physical layer protocol data unit
- the AP may transmit the ACK frame 150 in response to the uplink data frames 110, 120, and 130 received from each of the plurality of STAs.
- the AP may receive uplink data frames 110, 120, and 130 from each of the plurality of STAs, and transmit an ACK frame 150 to each of the plurality of STAs after SIFS.
- the AP may transmit the ACK frame 150 to each of the plurality of STAs based on DL MU OFDMA transmission.
- the ACK frame 150 for the uplink data frame 1 110 transmitted through the frequency resource 1 115 by the STA 1 may be transmitted to the STA 1 through the frequency resource 1 115.
- the ACK frame 150 for the uplink data frame 2 120 transmitted through the frequency resource 2 125 by the STA 2 may be transmitted to the STA 2 through the frequency resource 2 125.
- the ACK frame 150 for the uplink data frame 3 130 transmitted by the STA 3 through the frequency resource 3 135 may be transmitted to the STA 3 through the frequency resource 3 135.
- the AP may transmit the ACK frame 150 to each of the plurality of STAs based on DL MU MIMO transmission.
- the ACK frame 150 for the uplink data frame 1 transmitted through the spatial stream 1 155 by the STA 1 may be transmitted to the STA 1 through the spatial stream 1 155.
- the ACK frame 150 for the uplink data frame 2 120 transmitted through the spatial stream 2 165 by the STA 2 may be transmitted to the STA 2 through the spatial stream 2 165.
- the ACK frame 150 for the uplink data frame 3 130 transmitted through the spatial stream 3 175 by the STA 3 may be transmitted to the STA 3 through the spatial stream 3 175.
- an AP successfully receives uplink data frames 110, 120, and 130 transmitted by each of a plurality of STAs.
- the AP may transmit only an ACK frame for the uplink data frame that has been successfully received.
- FIG. 2 is a conceptual diagram illustrating an uplink transmission indication frame according to an embodiment of the present invention.
- FIG. 2 illustrates a resource allocation scheme for each of a plurality of STAs based on a structure of an uplink transmission indication frame and an uplink transmission indication frame.
- the MAC header of the uplink transmission indication frame may include a STA identifier field 200, an uplink transmission TXOP duration field 220, and a resource allocation field 240.
- the STA identifier field 200 may include information on an identifier for indicating each of a plurality of STAs performing uplink data transmission.
- the uplink transmission TXOP duration field 220 may include information about time resources for transmission of an uplink data frame transmitted by each of the plurality of STAs.
- the uplink transmission TXOP duration field 220 includes information on the length of an uplink frame that can be transmitted by each of the plurality of STAs, and information about a data transmission rate (or a modulation and coding scheme (MCS)). can do.
- the uplink transmission TXOP duration field 220 may include duration information of TXOP allocated for uplink transmission of each of the plurality of STAs.
- the resource allocation field 240 may include information on uplink transmission resources (frequency resources or spatial stream resources) to be allocated to each of the plurality of STAs.
- an uplink transmission resource for each of the plurality of STAs may be determined based on a correspondence relationship between the STA identifier field 200 and the resource allocation field 240 included in the uplink transmission indication frame.
- the plurality of bits for the STA identifier field 200 may indicate each of the plurality of STAs in units of a lower bit group.
- the STA identifier field 200 may be 12 bits, and 12 bits may be grouped into four lower bit groups in units of 3 bits.
- Each of the four lower bit groups may indicate a partial association identifier (PAID) of each of the plurality of STAs.
- the lower bit group 1 may indicate an identifier of the STA 1
- the lower bit group 2 may indicate an identifier of the STA 2
- the lower bit group 3 may indicate an identifier of the STA 3
- the lower bit group 4 may indicate an identifier of the STA 4.
- the uplink transmission resources for each of the plurality of STAs sequentially indicated based on the STA identifier field 200 may be sequentially indicated based on the resource allocation field 240.
- the resource allocation field 240 may be 12 bits and 12 bits may be grouped into a lower bit group of 3 bits so that each grouped bit may indicate an uplink transmission resource for each of the plurality of STAs.
- the lower bit group 1 of the resource allocation field 240 is an uplink transmission frequency resource 1 for the STA 1
- the lower bit group 2 is an uplink transmission frequency resource for the STA 2.
- the lower bit group 3 may indicate an uplink transmission frequency resource 3 for the STA 3
- the lower bit group 4 may indicate an uplink transmission frequency resource 4 for the STA 4.
- the lower bit group 1 of the resource allocation field 240 is a spatial stream 1 for the STA 1
- the lower bit group 2 is a spatial stream 2 for the STA 2
- the lower bit group 3 Is a spatial stream 3 for STA 3
- the lower bit group 4 may indicate a spatial stream 4 for STA 4.
- the above method may allocate uplink transmission resources for the plurality of STAs based only on the resource allocation field 240.
- information for transmission of an uplink frame of each of a plurality of STAs is included in a MAC header of an uplink transmission indication frame.
- at least one of information for transmission of an uplink frame may be included in a PHY header or a MAC service data unit (MSDU).
- MSDU MAC service data unit
- FIG. 3 is a conceptual diagram illustrating UL MU transmission in an NDPA-based sounding procedure according to an embodiment of the present invention.
- an uplink feedback method of a plurality of STAs is disclosed in a sounding procedure based on a null data packet announcement (NDPA) frame 300.
- NDPA null data packet announcement
- the AP may transmit an NDPA frame 300 to STA 1 to STA 3 informing transmission of a sounding signal for feedback.
- the AP may transmit the NDP 320 after the SIFS time after the transmission of the NDPA frame 300.
- the NDPA frame 300 and the NDP 320 may be DL MU transmitted by the AP.
- STA 1 to STA 3 may estimate the channel based on the received NDP 320 and transmit feedback information to the AP. At this time, STA 1 to STA 3 may transmit the feedback information UL MU.
- the NDPA frame 300 transmitted by the AP may further include resource allocation information for UL MU transmission of the STA.
- Table 1 below shows fields included in the NDPA frame 300.
- the NDPA frame 300 may add a resource allocation field for UL MU transmission.
- An AID included in each of the n STA information fields may indicate each of a plurality of STAs that are subject to an NDPA sounding procedure.
- the resource allocation field may sequentially associate with each of the plurality of STAs indicated based on the AID included in each of the STA information fields to indicate uplink transmission resources allocated to each of the plurality of STAs. As described above, all bits of the resource allocation field may be grouped into lower bit groups. Each of the grouped lower bit groups may sequentially indicate an uplink transmission resource for an STA corresponding to each of n STA information fields (STA information 1 field, ..., STA information n field).
- a spatial stream allocated to each of a plurality of STAs may be indicated based on n STA information fields and resource allocation fields.
- frequency resources allocated to each of a plurality of STAs may be indicated based on n STA information fields and resource allocation fields.
- a plurality of STAs may be allocated uplink transmission resources based on the NDPA frame 300.
- the plurality of STAs may transmit the compressed beamforming frame 340 to the AP as feedback information through the allocated uplink transmission resource.
- the AP may transmit the NDPA frame 300 and the NDP 320 to STA 1 to STA 3 through various transmission methods (DL MU MIMO, DL MU OFDMA, etc.).
- Each of the STAs 1 to 3 may obtain information about a spatial stream for transmitting the compressed beamforming frame based on the n STA information fields and the resource allocation field of the received NDPA frame 300.
- the STA information 1 to n fields of the NDPA frame 300 may sequentially indicate the STA 1, the STA 2, and the STA 3, and the resource allocation field may sequentially indicate the spatial stream 1, the spatial stream 2, and the spatial stream 3.
- the spatial stream 1 may be allocated to STA 1, the spatial stream 2 to STA 2, and the spatial stream 3 to STA 3.
- STA 1 may transmit the spatial beam 1, STA 2 to the spatial stream 2, STA 3 to the compressed beamforming frame 340 to the AP via the spatial stream 3.
- the AP may transmit the NDPA frame 300 and the NDP 320 to STA 1 to STA 3 through various transmission methods (DL MU MIMO, DL MU OFDMA, etc.).
- Each of the STAs 1 to 3 may acquire information about frequency resources to transmit the compressed beamforming frame 340 based on the n STA information fields and the resource allocation fields of the received NDPA frame 300.
- the STA information 1 to n fields of the NDPA frame 320 may sequentially indicate the STA 1, the STA 2, and the STA 3, and the resource allocation field may sequentially indicate the frequency resource 1, the frequency resource 2, and the frequency resource 3.
- frequency resource 1 may be allocated to STA 1, frequency resource 2 to STA 2, and frequency resource 3 to STA 3.
- STA 1 may transmit a frequency resource 1
- STA 2 may transmit a frequency resource 2
- STA 3 may transmit a compressed beamforming frame 340 to the AP.
- the compressed beamforming frame may include communication state information (SNR) for the allocated uplink transmission resource and a beamforming feedback matrix for beamforming.
- SNR communication state information
- FIG. 4 is a conceptual diagram illustrating a UL MU transmission method according to an embodiment of the present invention.
- FIG. 4 illustrates a method in which an AP transmits a downlink frame based on DL MU transmission and a plurality of STAs transmit a response frame for the downlink frame based on UL MU transmission.
- the AP may transmit a downlink frame (or downlink PPDU) 400 to a plurality of STAs through DL MU transmission.
- the AP may transmit a downlink frame (or downlink PPDU) 400 to the STA based on DL MU MIMO or DL MU OFDMA.
- the AP may allocate resources for uplink transmission of the STA through the MAC header of the downlink frame and / or the PHY header of the PPDU carrying the downlink frame.
- the PHY header may be used as a concept including a physical layer convergence procedure (PLCP) preamble and a PCLP header.
- PLCP physical layer convergence procedure
- the STA identifier field, the resource allocation field may be included in the PHY header of the downlink PPDU, and the uplink transmission TXOP duration field may be included in the MAC header of the downlink frame included in the downlink PPDU.
- the STA may receive the downlink PPDU 400 from the AP and may be allocated an uplink resource for uplink transmission based on the received PHY header of the downlink PPDU 400.
- the PHY header of the downlink PPDU 400 may include information for transmission of an uplink frame of each of the plurality of STAs.
- the signaling (SIG) field of the PHY header may include a STA identifier field, an uplink transmission TXOP duration field, a resource allocation field, etc. as a lower field.
- SIG signaling
- Each of the plurality of STAs may transmit uplink response frames 410, 420, and 430 through uplink resources allocated based on the downlink PPDU 400.
- the plurality of STAs may receive the downlink PPDU 400 from the AP and transmit an uplink frame (or uplink PPDU) 410, 420, 430 to the AP through an allocated uplink resource after SIFS. In this manner, transmission start times of uplink frames (or uplink PPDUs) 410, 420, and 430 transmitted by each of the plurality of STAs may be synchronized.
- the plurality of STAs may determine transmission end times of the uplink frames (or uplink PPDUs) 410, 420, and 430 based on the uplink transmission TXOP duration field included in the PHY header.
- the AP may transmit the downlink PPDU 400 to the STA 1, the STA 2, and the STA 3 through DL MU transmission.
- the AP may allocate frequency resource 1 to STA 1, frequency resource 2 to STA 2, and frequency resource 3 to STA 3 as uplink transmission resources based on the PHY header of the downlink PPDU 400.
- STA 1 is uplink frame 1 410 through frequency resource 1
- STA 2 is uplink frame 2 420 through frequency resource 2
- STA 3 is uplink frame through frequency resource 3 on a common time resource.
- 3 430 may be transmitted to the AP.
- the AP may transmit the downlink PPDU 400 to the STA 1, the STA 2, and the STA 3 through DL MU transmission.
- the AP may allocate the spatial stream 1 to STA 1, the spatial stream 2 to STA 2, and the spatial stream 3 to STA 3 as uplink transmission resources based on the PHY header of the downlink PPDU 400.
- STA 1 through the spatial stream 1 (410) on the common time resources, uplink frame 1, STA 2 through the spatial stream 2 (420) uplink frame 2, STA 3 through the spatial stream 3 (430) Uplink frame 3 may be transmitted to the AP.
- FIG. 5 is a conceptual diagram illustrating a UL MU transmission method according to an embodiment of the present invention.
- an AP transmits a downlink frame (or downlink PPDU) 500 to a plurality of STAs based on a DL MU MIMO transmission, and the plurality of STAs transmits a downlink frame (or downlink PPDU) based on a UL MU transmission.
- a resource for uplink transmission of an STA is allocated through a PHY header of the downlink PPDU 500.
- the conventional WLAN system sequentially transmits a BA (block ACK) frame to each AP for each STA.
- the plurality of STAs may transmit an ACK frame (or block ACK frame) 550 for the downlink PPDU 500 to the AP on the same time resource.
- a transmitting side for example, an AP
- a receiving side for example, STA1, STA2, and STA3
- the transmitting side may transmit an ADDBA request frame, which is a management frame, to the receiving side.
- the ADDBA request frame may request a block ACK agreement for the current TID.
- the ADDBA request frame may transmit information on a block ACK policy type, a transmission buffer size of a transmitting side, a timeout value of a block ACK session, a starting sequence number (SSN), etc. to a receiving side.
- the receiving side receiving the ADDBA request frame may transmit the ADDBA response frame to the transmitting side in response to the ADDBA request frame.
- the ADDBA response frame may include a block ACK agreement state, an ACK policy, a buffer size, and a timeout value.
- the AP may indicate UL MU transmission of the block ACK through the ADDBA request frame when setting the block ACK operation.
- the plurality of STAs may transmit a UL MU block ACK to the AP based on information for transmission of an uplink frame of each of the plurality of STAs included in the PHY header of the downlink PPDU 500.
- FIG. 6 is a conceptual diagram illustrating a UL MU transmission method according to an embodiment of the present invention.
- UL MU when uplink transmission is indicated through a downlink frame (or downlink PPDU) 600, UL MU may be transmitted by a plurality of STAs in addition to the response frame for the downlink frame 600. Can be. In FIG. 6, it is assumed that a resource for uplink transmission of an STA is allocated through a PHY header of the downlink PPDU 600.
- the downlink PPDU 600 transmitted by the AP may include an uplink transmission indicator.
- the uplink transmission indicator may induce transmission of an uplink data frame by a plurality of STAs.
- the downlink PPDU 600 may include information for allocating uplink transmission resources of a plurality of STAs (eg, an STA identifier field, an uplink transmission TXOP duration field, a resource allocation field, and the like).
- the STA may transmit a response frame and an uplink data frame 620 for the downlink PPDU 600 to the AP.
- the STA may use various transmission methods to transmit the response frame and the uplink data frame 620 for the downlink PPDU 600.
- uplink data included in the uplink data frame may be piggybacked in the response frame transmitted by the STA.
- a response frame may be transmitted and a data frame may be transmitted to the AP after SIFS.
- the uplink transmission TXOP duration field of the downlink PPDU 600 transmitted by the AP may include information about the duration of the uplink TXOP for transmission of the response frame and the uplink data frame 620.
- the AP may transmit an ACK frame for uplink data received from the plurality of STAs.
- FIG. 7 is a conceptual diagram illustrating a downlink PPDU format for UL MU transmission according to an embodiment of the present invention.
- a PHY header of a downlink PPDU for UL MU transmission includes information (eg, STA identifier field, uplink transmission TXOP duration field, resource allocation field) for UL MU transmission of a plurality of STAs. It may include.
- the PHY header of the downlink PPDU may include a legacy short training field (L-STF), a legacy long training field (L-LTF), a legacy-signal (L-SIG), and an HE-SIG A.
- L-STF legacy short training field
- L-LTF legacy long training field
- L-SIG legacy-signal
- HE-SIG A high efficiency-signal A
- HE-STF high efficiency-short training field
- HE-LTF high efficiency-long training field
- HE-SIG B high efficiency-signal-B
- the L-STF 300 may include a short training orthogonal frequency division multiplexing symbol.
- the L-STF 300 may be used for frame detection, automatic gain control (AGC), diversity detection, and coarse frequency / time synchronization.
- AGC automatic gain control
- the L-LTF 320 may include a long training orthogonal frequency division multiplexing symbol. L-LTF 320 may be used for fine frequency / time synchronization and channel prediction.
- the L-SIG 340 may be used to transmit control information.
- the L-SIG 340 may include information about a data rate and a data length.
- the HE-SIG A 730 may include information for UL MU transmission of a plurality of STAs.
- the HE-SIG A 730 may include a STA identifier field, an uplink transmission TXOP duration field, and a resource allocation field as subfields.
- the STA identifier field may include information on an identifier for indicating each of a plurality of STAs performing uplink data transmission.
- the resource allocation field may include information on uplink transmission resources (frequency resources or spatial stream resources) to be allocated to each of the plurality of STAs.
- the uplink transmission resources for each of the plurality of STAs sequentially indicated based on the STA identifier field may be sequentially indicated based on the resource allocation field.
- the uplink transmission TXOP duration field may include information about time resources for transmission of an uplink frame (or uplink PPDU) transmitted by each of the plurality of STAs.
- the uplink transmission TXOP duration field may be included in the MAC header of the downlink frame included in the downlink PPDU.
- the HE-SIG-A 730 may also include information for DL MU transmission for the plurality of STAs by the AP.
- the HE-SIG-A 730 may include information on an identifier of an STA to receive a downlink PPDU, information about a downlink resource for receiving a downlink PPDU, information about a transmission duration of the downlink PPDU, and the like. It may include.
- the HE-STF 740 may be used to improve automatic gain control estimation in a MIMO environment or an OFDMA environment.
- the HE-LTF 750 may be used to estimate a channel in a MIMO environment or an OFDMA environment.
- the HE-SIG B 760 may include information about a length MCS (modulation and coding scheme) of a physical layer service data unit (PSDU) for each STA, and tail bits.
- MCS modulation and coding scheme
- PSDU physical layer service data unit
- the size of the IFFT applied to the field after the HE-STF 740 and the HE-STF 740 may be different from the size of the IFFT applied to the field before the HE-STF 740.
- the size of the IFFT applied to the field after the HE-STF 740 and the HE-STF 740 may be four times larger than the size of the IFFT applied to the field before the HE-STF 740.
- the STA may receive the HE-SIG A 730 and may be instructed to receive the downlink PPDU based on the HE-SIG A 730.
- the STA may perform decoding based on the changed FFT size from the field after the HE-STF 740 and the HE-STF 740.
- the STA may stop decoding and configure a network allocation vector (NAV).
- NAV network allocation vector
- the cyclic prefix (CP) of the HE-STF 740 may have a larger size than the CP of another field, and during this CP period, the STA may perform decoding on the downlink PPDU by changing the FFT size.
- the order of fields constituting the format of the PPDU disclosed at the top of FIG. 7 may vary.
- the HE-SIG B 715 of the HE portion may be located immediately after the HE-SIG A 705, as disclosed in the interruption of FIG. 7.
- the STA may decode up to the HE-SIG A 705 and the HE-SIG B 715, receive necessary control information, and make NAV settings.
- the size of the IFFT applied to the field after the HE-STF 725 and the HE-STF 725 may be different from the size of the IFFT applied to the field before the HE-STF 725.
- the STA may receive the HE-SIG A 705 and the HE-SIG B 715.
- the STA may perform decoding on the downlink PPDU by changing the FFT size from the HE-STF 725.
- the STA may configure NAV.
- the downlink PPDU may be transmitted to the STA through different downlink transmission resources (frequency resources or spatial streams).
- the previous field of the HE-SIG B 745 may be transmitted in a duplicated form in each of the different downlink transmission resources on the downlink PPDU.
- the HE-SIG B 745 may be transmitted in encoded form on all transmission resources.
- the field after the HE-SIG B 745 may include individual information for each of the plurality of STAs that receive the downlink PPDU.
- the CRC for each field may be included in the downlink PPDU.
- the CRC for each field may not be included in the downlink PPDU.
- the downlink PPDU format for DL MU transmission can reduce the CRC overhead of the downlink frame by using the HE-SIG B 745 encoded in all transmission resources.
- the AP transmits a downlink PPDU through DL MU OFDMA transmission.
- the STA that receives the downlink PPDU may receive the downlink transmission resource by decoding after receiving the HE-SIG A transmitted through the 20 MHz.
- the STA may receive and decode the HE-SIG B 745 transmitted through the 80 MHz channel and receive the downlink PPDU transmitted through the allocated downlink transmission resource from the field after the HE-SIG-B 745. Can be.
- the downlink PPDU format for DL MU transmission may be encoded based on an IFFT size different from that of the HE-STF 755 and the field after the HE-STF 755. Accordingly, when the STA receives the HE-SIG A 735 and the HE-SIG B 745 and is instructed to receive the downlink PPDU based on the HE-SIG A 735, the STA-STF 755 starts from the HE-STF 755. Decoding of the downlink PPDU may be performed by changing the FFT size.
- FIG. 8 is a block diagram illustrating a wireless device to which an embodiment of the present invention can be applied.
- the wireless device 800 may be an STA that may implement the above-described embodiment and may be an AP 800 or a non-AP station (or STA) 850.
- the AP 800 includes a processor 810, a memory 820, and a radio frequency unit 830.
- the RF unit 830 may be connected to the processor 810 to transmit / receive a radio signal.
- the processor 810 may implement the functions, processes, and / or methods proposed in the present invention.
- the processor 810 may be implemented to perform the operation of the AP according to the embodiment of the present invention described above.
- the processor may perform the operation of the AP disclosed in the embodiment of FIGS. 1 to 7.
- the processor 810 transmits the downlink PPDU to the plurality of STAs on the overlapped time resources, and on the overlapped time resources through each of the uplink transmission resources for each of the plurality of STAs in response to the downlink PPDU. It may be implemented to receive each uplink frame from each of the plurality of STAs.
- the downlink PPDU may include an STA identifier field, a resource allocation field, and an uplink transmission opportunity (TXOP) duration field.
- the STA identifier field includes information on a plurality of STAs
- the resource allocation field includes information on each uplink transmission resource
- the uplink transmission TXOP duration field indicates information for determining a transmission duration of each uplink frame. It may include.
- the STA 850 includes a processor 860, a memory 870, and a radio frequency unit 880.
- the RF unit 880 may be connected to the processor 860 to transmit / receive a radio signal.
- the processor 860 may implement the functions, processes, and / or methods proposed in the present invention.
- the processor 820 may be implemented to perform the operation of the STA according to the above-described embodiment of the present invention.
- the processor may perform an operation of the STA in the embodiment of FIGS. 1 to 7.
- the processor 860 receives a downlink PPDU from an AP and transmits an uplink allocated based on an STA identifier field, a resource allocation field, and an uplink transmission opportunity (TXOP) duration field included in the downlink PPDU.
- An uplink frame may be transmitted through a resource.
- Processors 810 and 860 may include application-specific integrated circuits (ASICs), other chipsets, logic circuits, data processing devices, and / or converters for interconverting baseband signals and wireless signals.
- the memories 820 and 870 may include read-only memory (ROM), random access memory (RAM), flash memory, memory cards, storage media and / or other storage devices.
- the RF unit 830, 880 may include one or more antennas for transmitting and / or receiving a radio signal.
- the above-described technique may be implemented as a module (process, function, etc.) for performing the above-described function.
- the module may be stored in the memory 820, 870 and executed by the processor 810, 860.
- the memories 820 and 1570 may be inside or outside the processors 810 and 860, and may be connected to the processors 810 and 860 by various well-known means.
Abstract
Description
Claims (8)
- 무선랜에서 복수의 STA(station)으로부터 상향링크 프레임 각각을 수신하는 방법에 있어서,
AP(access point)가 하향링크 PPDU(physical layer protocol downlink unit)를 중첩된 시간 자원 상에서 상기 복수의 STA으로 전송하는 단계; 및
상기 AP가 상기 하향링크 PPDU에 대한 응답으로 상기 복수의 STA 각각에 대한 상향링크 전송 자원 각각을 통해 중첩된 시간 자원 상에서 상기 복수의 STA 각각으로부터 상기 상향링크 프레임 각각을 수신하는 단계를 포함하되,
상기 하향링크 PPDU는 STA 식별자 필드, 자원 할당 필드 및 상향링크 전송 TXOP(transmission opportunity) 듀레이션 필드를 포함하고,
상기 STA 식별자 필드는 상기 복수의 STA에 대한 정보를 포함하고,
상기 자원 할당 필드는 상기 상향링크 전송 자원 각각에 대한 정보를 포함하고,
상기 상향링크 전송 TXOP 듀레이션 필드는 상기 상향링크 프레임 각각의 전송 듀레이션을 결정하기 위한 정보를 포함하는 방법. - 제1항에 있어서,
상기 상향링크 전송 자원 각각은 서로 다른 주파수 자원 또는 서로 다른 공간적 스트림 자원이고,
상기 STA 식별자 필드를 구성하는 전체 비트에 포함되는 복수의 하위 그룹 비트 각각은 상기 복수의 STA 각각을 순차적으로 지시하고,
상기 자원 할당 필드를 구성하는 전체 비트에 포함되는 복수의 하위 그룹 비트 각각은 상기 상향링크 전송 자원 각각을 순차적으로 지시하고,
상기 자원 할당 필드를 기반으로 순차적으로 지시된 상기 상향링크 전송 자원 각각은 상기 STA 식별자 필드를 기반으로 순차적으로 지시된 상기 복수의 STA 각각에 대응되는 것을 특징으로 하는 방법. - 제1항에 있어서,
상기 상향링크 프레임 각각은 상기 복수의 STA 각각의 상기 하향링크 PPDU의 수신 후 상기 복수의 STA 각각에 의해 SIFS(short inter-frame space) 이후에 전송되는 것을 특징으로 하는 방법. - 제1항에 있어서,
상기 하향링크 PPDU는 사운딩 절차를 위한 NDPA(null data packet announcement) 프레임을 포함하고,
상기 NDPA 프레임은 상기 STA 식별자 필드, 상기 자원 할당 필드 및 상기 상향링크 전송 TXOP 듀레이션 필드를 포함하고,
상기 상향링크 전송 자원 각각은 서로 다른 주파수 자원 또는 서로 다른 공간적 스트림 자원이고,
상기 상향링크 프레임 각각은 상기 상향링크 전송 자원 각각에 대한 SNR(signal to noise ratio) 정보를 포함하는 것을 특징으로 하는 방법. - 무선랜에서 복수의 STA(station)으로부터 상향링크 프레임 각각을 수신하는 AP(access point)에 있어서, 상기 AP는,
무선 신호를 송신 또는 수신하기 위해 구현되는 RF(radio frequency) 부; 및
상기 RF부와 동작 가능하게(operatively) 연결된 프로세서를 포함하되,
상기 프로세서는 하향링크 PPDU(physical layer protocol downlink unit)를 중첩된 시간 자원 상에서 상기 복수의 STA으로 전송하고,
상기 하향링크 PPDU에 대한 응답으로 상기 복수의 STA 각각에 대한 상향링크 전송 자원 각각을 통해 중첩된 시간 자원 상에서 상기 복수의 STA 각각으로부터 상향링크 프레임 각각을 수신하도록 구현되되,
상기 하향링크 PPDU는 STA 식별자 필드, 자원 할당 필드 및 상향링크 전송 TXOP(transmission opportunity) 듀레이션 필드를 포함하고,
상기 STA 식별자 필드는 상기 복수의 STA에 대한 정보를 포함하고,
상기 자원 할당 필드는 상기 상향링크 전송 자원 각각에 대한 정보를 포함하고,
상기 상향링크 전송 TXOP 듀레이션 필드는 상기 상향링크 프레임 각각의 전송 듀레이션을 결정하기 위한 정보를 포함하는 AP. - 제5항에 있어서,
상기 상향링크 전송 자원 각각은 서로 다른 주파수 자원 또는 서로 다른 공간적 스트림 자원이고,
상기 STA 식별자 필드를 구성하는 전체 비트에 포함되는 복수의 하위 그룹 비트 각각은 상기 복수의 STA 각각을 순차적으로 지시하고,
상기 자원 할당 필드를 구성하는 전체 비트에 포함되는 복수의 하위 그룹 비트 각각은 상기 상향링크 전송 자원 각각을 순차적으로 지시하고,
상기 자원 할당 필드를 기반으로 순차적으로 지시된 상기 상향링크 전송 자원 각각은 상기 STA 식별자 필드를 기반으로 순차적으로 지시된 상기 복수의 STA 각각에 대응되는 것을 특징으로 하는 AP. - 제5항에 있어서,
상기 상향링크 프레임 각각은 상기 복수의 STA 각각의 상기 하향링크 PPDU의 수신 후 상기 복수의 STA 각각에 의해 SIFS(short inter-frame space) 이후에 전송되는 것을 특징으로 하는 AP. - 제5항에 있어서,
상기 하향링크 PPDU는 사운딩 절차를 위한 NDPA(null data packet announcement) 프레임을 포함하고,
상기 NDPA 프레임은 상기 STA 식별자 필드, 상기 자원 할당 필드 및 상기 상향링크 전송 TXOP 듀레이션 필드를 포함하고,
상기 상향링크 전송 자원 각각은 서로 다른 주파수 자원 또는 서로 다른 공간적 스트림 자원이고,
상기 상향링크 프레임 각각은 상기 상향링크 전송 자원 각각에 대한 SNR(signal to noise ratio) 정보를 포함하는 것을 특징으로 하는 AP.
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US15/034,826 US20160278081A1 (en) | 2013-11-07 | 2014-10-21 | Method and device for receiving multiuser uplink in wireless lan |
JP2016528125A JP6262852B2 (ja) | 2013-11-07 | 2014-10-21 | 無線lanにおけるマルチユーザアップリンク受信方法及び装置 |
KR1020167011717A KR20160083868A (ko) | 2013-11-07 | 2014-10-21 | 무선랜에서 멀티 유저 상향링크 수신 방법 및 장치 |
CN201480065742.0A CN105794296A (zh) | 2013-11-07 | 2014-10-21 | 在无线lan中接收多用户上行链路的方法和设备 |
EP14859973.1A EP3068183A4 (en) | 2013-11-07 | 2014-10-21 | Method and device for receiving multiuser uplink in wireless lan |
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JP2016535953A (ja) | 2016-11-17 |
EP3068183A1 (en) | 2016-09-14 |
EP3068183A4 (en) | 2017-06-28 |
CN105794296A (zh) | 2016-07-20 |
KR20160083868A (ko) | 2016-07-12 |
US20160278081A1 (en) | 2016-09-22 |
JP6262852B2 (ja) | 2018-01-17 |
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