KR20130143128A - Radio frame transmitting method and device - Google Patents

Abstract

The present invention discloses a method of transmitting a radio frame, wherein a channel measurement frame NDP is transmitted to a receiving side, and the channel measurement frame NPD includes at least two VHT long training fields (VHT-LTF), and the VHT long training fields (VHT-). The maximum number of LTFs) is determined according to the number of VHT long training fields (VHT-LTF) that can be supported by at least one receiving side. At the same time the invention also discloses a radio frame transmission apparatus. Through the scheme according to the present invention, the ratio of the number of VHT-LTFs in the channel measurement frame is more reasonable and the characteristics of the receiver are better reflected.

Description

Radio frame transmission method and apparatus {RADIO FRAME TRANSMITTING METHOD AND DEVICE}

TECHNICAL FIELD The present invention relates to the field of wireless communication technologies, and more particularly, to a method and apparatus for transmitting a radio frame.

Wireless Local Area Networks (WLANs) apply wireless communication technology to connect computer devices to form a network system that enables mutual communication and resource sharing. The essence of the wireless local area network is to replace the wired cable connection method with the wireless connection method, thereby implementing the wireless interconnection between the computer and the network, thereby making the network construction and the mobility of the terminal more flexible.

The Institute for Electrical and Electronic Engineers (IEEE) 802.11 is currently one of the mainstream technologies in wireless local area networks, and its protocols primarily specify the specifications of the physical layer (PHY) and media access control (MAC) layers. As mobile technology advances and people's demand for wireless networks increases, the physical layer technology specification has evolved in an ever-increasing way, from 801.11 to 802.11b, then to 802.11a / g, to next 802.11n, It has been through the evolution process up to 802.11ac. Advances in practical physics have ranged from direct-sequence spread spectrum to orthogonal frequency division multiplexing (OFDM), the introduction of multiple antenna technology in IEEE802.11n, and large bandwidth and multi-user multi-input / output in IEEE802.11ac. (MU-MIMO: Multi-User Multiple Input Multiple Output) was introduced.

According to the current IEEE802.11ac system standard, when a receiver needs to feed back channel information to a sender, the sender sends a feedback request frame (NDPA: Null Data Packet Announcement) and a channel measurement frame (NDP: Null Data Packet) to the receiver. By transmitting, the STA (corresponding to the receiving side) corresponding to the address of the station (STA) information field in the NDPA is requested to feed back channel information.

Here, the channel measurement frame NDP format includes a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), and a VHT signal A field (VHT-SIG-) as shown in FIG. A), VHT short training sequence (VHT-STF), VHT long training field (VHT-LTF) and VHT signal B field (VHT-SIG-B).

In the prior art, a method and apparatus for determining a maximum value of the number of VHT-LTFs in the channel measurement frame NDP have not yet been presented.

SUMMARY OF THE INVENTION The main technical problem to be solved by the present invention is to provide a radio frame transmission method and apparatus capable of determining the maximum quantity of the VHT long training field (VHT-LTF) in the channel measurement frame NDP.

The present invention for solving the above technical problem provides a method for transmitting a radio frame includes the step of transmitting a channel measurement frame NDP to the receiving side, but at least two VHT long training field (VHT) in the channel measurement frame NPD -LTF) and the maximum number of VHT-long training fields (VHT-LTF) is determined according to the number of VHT-long training fields (VHT-LTF) that can be supported by at least one receiving side.

In addition, the maximum quantity of the VHT long training field (VHT-LTF) is determined according to the quantity of the VHT long training field (VHT-LTF) that can be supported by at least one receiving side. Is the number of transmit antennas of the feedback matrix indicated by the capability field of the receiving side, or the maximum supportable number of dimensions of channel measurement of the receiving side, or the smaller of the two.

In addition, the maximum quantity of the VHT long training field (VHT-LTF) is determined according to the quantity of the VHT long training field (VHT-LTF) that can be supported by at least one receiving side. The quantity is the minimum of the quantities of the VHT Long Training Field (VHT-LTF) that can be supported by each receiving party.

In addition, in this method, the number of VHT long training fields (VHT-LTF) that can be supported by each receiving side is determined by the number of transmitting antennas of the feedback matrix indicated by the capability field of the receiving side or channel measurement of the receiving side. The maximum possible number of dimensions or the smaller of the two is further included.

The method further includes the step of setting the quantity of the VHT long training field (VHT-LTF) included in the channel measurement frame NDP to be equal to the Nsts indicated by the VHT signal A field (VHT-SIG-A). do.

The channel measurement frame NDP may include a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), a VHT signal A field (VHT-SIG-A), and a VHT short training sequence. (VHT-STF), at least two VHT long training fields (VHT-LTF).

The present invention also provides a radio frame transmitting apparatus, wherein the transmitting apparatus is configured to transmit a channel measuring frame NDP to a receiving side, wherein the channel measuring frame NPD includes at least two VHT long training fields (VHT-LTF). The maximum quantity of the VHT long training field VHT-LTF is determined according to the quantity of the VHT long training field VHT-LTF that can be supported by at least one receiving side.

Further, for a single receiving side, the maximum quantity is either the number of transmit antennas of the feedback matrix indicated by the capability field of the receiving side or the maximum number of supportable dimensions of channel measurement of the receiving side or the smaller of the two.

In addition, in the case of a plurality of receivers, the maximum quantity is the minimum value among the quantities of the VHT long training field (VHT-LTF) that can be supported by each receiver, and the VHT long training field (VHT-) supported by each receiver. The quantity of LTF) is either the number of transmit antennas of the feedback matrix indicated by the capability field of the receiving side or the maximum number of supported dimensions of channel measurement of the receiving side or the smaller of the two.

The channel measurement frame NDP may include a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), a VHT signal A field (VHT-SIG-A), and a VHT short training sequence. (VHT-STF), at least two VHT long training fields (VHT-LTF).

Advantageous effects of the present invention are as follows. According to the radio frame transmission method and apparatus according to the present invention, the channel measurement frame is determined by determining the maximum quantity of the VHT-LTF in the channel measurement frame to be transmitted according to the quantity of the VHT long training field (VHT-LTF) supported by the receiver. The number of VHT-LTFs in the receiver is more reasonable and reflects the characteristics of the receiver better.

In the method and apparatus for transmitting a radio frame according to the present invention, the channel measurement frame NDP includes a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), and a VHT signal A field (VHT- SIG-A), VHT short training sequence (VHT-STF), and at least two VHT long training fields (VHT-LTF). Since the channel measurement frame of the method and apparatus of the present invention has no VHT signal B field (VHT-SIG-B) compared to the prior art, the pilot overhead of transmitting the channel measurement frame NDP when the channel measurement frame NDP is transmitted to the receiving side is eliminated. Reduce

1 is an exemplary configuration diagram of a conventional channel measurement frame NDP.
2 is a diagram illustrating a configuration of a channel measurement frame NDP according to an embodiment of the present invention.

The present invention will be described in more detail with reference to the accompanying drawings in detail as follows.

As shown in FIG. 1, the channel measurement frame NDP in the protocol includes an L-STF, a short training sequence (S-STF), a signal field (L-SIG), a VHT signal A field (VHT-SIG-A), and a VHT short training. A sequence VHT-STF, a VHT long training field VHT-LTF, and a VHT signal B field VHT-SIG-B.

As shown in FIG. 2 to reduce pilot overhead, the present invention provides a method and apparatus for transmitting a radio frame configured to transmit a channel measurement frame NDP to a receiving side. In the transmission method and apparatus according to the present invention, a new channel measurement frame NDP frame configuration is applied. The channel measurement frame NDP includes a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), a VHT signal A field (VHT-SIG-A), and a VHT short training sequence (VHT). -STF), consisting of at least two VHT long training fields (VHT-LTF).

As can be seen, the frame configuration of the present invention has one major difference in that VHT-SIG-B (VHT signal B field) is omitted compared to the prior art. The conventional VHT-SIG-B (VHT signal B field) includes four parts of data length (Length), data modulation and coding scheme (MCS), reserved bits and tail bits (Tail). The data length (Length) is defined by the NDP transmission parameter vector table in the protocol and limits the data length to zero in the NDP transmission parameter vector table.

For the modulation and coding scheme (MCS), reserved bits and tail bits (Tail) of the data, the present invention is designed to be indicated in the VHT signal A field. The following table shows the contents indicated by VHT-SIG-A.

As can be seen, the contents of the VHT-SIG-B (VHT signal B field) have already been indicated in the transmission parameter vector table TXVECTOR and VHT signal A field. Therefore, the present invention not only guarantees the implementation of the existing function of the VHT-SIG-B (VHT signal B field) but also can reduce the pilot overhead required for NDP transmission, thereby performing channel measurement using the NDP of the present invention. In this case, the data transmission speed can be improved.

Regardless of the configuration of the existing channel measurement frame NDP or the configuration of the channel measurement frame NDP presented in the present invention, all have a VHT long training field (VHT-LTF). The transmission method and apparatus of the present invention also set the maximum quantity of the VHT long training field before transmitting the channel measurement frame NDP.

The maximum value of the number of VHT Long Training Fields (VHT-LTF) included in the channel measurement frame NDP is determined according to the number of VHT Long Training Fields (VHT-LTF) supported by at least one receiver.

Here, in the case of a single receiving side, the maximum value is either the number of transmit antennas of the feedback matrix indicated by the capability field of the corresponding receiving side or the maximum number of supportable dimensions of channel measurement of the receiving side or the smaller of the two.

For example, if there is only station STA1 on the receiving side and the number of transmit antennas in the feedback matrix indicated by the capability field of station STA1 is 4 and the maximum number of supported dimensions of channel measurement of that station is 8, the maximum value of the quantity of VHT-LTF Is set to 4 or 8 or the smaller of the two.

For two or more receivers, the threshold is the minimum of the quantity of VHT-LTFs supported on each receiver. The quantity of the supportable VHT long training field (VHT-LTF) on each receiving side is either the number of transmit antennas in the feedback matrix indicated by the capability field on the receiving side, or the maximum number of supportable dimensions of channel measurement on the receiving side, or both. Small value.

For example, if the receiving side is two stations, each of STA1 and STA2 and STA1 can support simultaneous measurement of VHT-LTF of four NDPs and STA2 can support measurement of VHT-LTF of eight NDPs, The threshold value of VHT-LTF of NDP is 4.

In the case of a plurality of receivers, the maximum value of the VHT-LTF quantity in the channel measurement frame NDP transmitted is the minimum value among the quantities of supportable VHT-LTFs of each receiver. That is, the number of VHT-LTFs transmitted does not exceed the number of VHT-LTFs that can be supported by either receiver. If the maximum quantity is not set, the number of transmitted VHT-LTFs may be 8 or only 4 of the VHT-LTFs that can be supported by either receiver may occur. Resulting in increased pilot overhead. On the other hand, a separate algorithm for processing the remaining four VHT-LTFs is required, which increases the complexity of the transmission method and apparatus.

After the setting of the threshold value, the quantity of the VHT long training field (VHT-LTF) included in the channel measurement frame NDP and the VHT signal A field (VHT-SIG-A) under the premise of not exceeding the threshold value. Set the indicated Nsts to be the same.

The above-mentioned content is only a detailed description of the present invention in connection with specific embodiments, and should not be regarded as a specific embodiment of the present invention. Those skilled in the art to which the present invention pertains may further carry out various simple deductions or replacements on the assumption that they do not depart from the spirit of the present invention, and all of them should be regarded as belonging to the protection scope of the present invention.

Claims (10)

Transmitting the channel measurement frame NDP to a receiving side;
The channel measurement frame NPD includes at least two VHT long training fields (VHT-LTF), and the maximum quantity of the VHT long training fields (VHT-LTF) is supported by at least one receiving side. -LTF) is confirmed according to the quantity
Wireless frame transmission method, characterized in that. The method according to claim 1,
The maximum quantity of the VHT long training field (VHT-LTF) is determined according to the quantity of the VHT long training field (VHT-LTF) which can be supported by at least one receiving side. The number of transmit antennas of the feedback matrix indicated by the capability field of the receiving side or the maximum number of supportable dimensions of the channel measurement of the receiving side or the smaller of the two
Wireless frame transmission method, characterized in that. The method according to claim 1,
The maximum quantity of the VHT long training field (VHT-LTF) is determined according to the quantity of the VHT long training field (VHT-LTF) that can be supported by at least one receiving side. That is, the minimum of the quantities of the VHT Long Training Field (VHT-LTF) that can be supported by each receiving party.
Wireless frame transmission method, characterized in that. The method according to claim 3,
The quantity of the VHT Long Training Field (VHT-LTF) that can be supported by each receiving party is either the number of transmit antennas of the feedback matrix indicated by the receiving field's capability field or the maximum number of supported dimensions of channel measurement at the receiving side or two. Is the smaller of
Wireless frame transmission method, characterized in that. The method according to any one of claims 1 to 4,
The quantity of the VHT long training field VHT-LTF included in the channel measurement frame NDP is further set to be equal to Nsts indicated by the VHT signal A field VHT-SIG-A.
Wireless frame transmission method, characterized in that. The method according to any one of claims 1 to 4,
The channel measurement frame NDP includes a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), a VHT signal A field (VHT-SIG-A), and a VHT short training sequence (VHT). -STF), consisting of at least two VHT long training fields (VHT-LTF)
Wireless frame transmission method, characterized in that. Send a channel measurement frame NDP to the receiving end,
The channel measurement frame NPD includes at least two VHT long training fields (VHT-LTF), and the maximum quantity of the VHT long training fields (VHT-LTF) is supported by at least one receiving side. -LTF) is confirmed according to the quantity
Wireless frame transmitting apparatus, characterized in that. The method of claim 7,
In the case of a single receiving side, the maximum quantity is either the number of transmit antennas in the feedback matrix indicated by the capability field of the receiving side or the maximum number of supportable dimensions of channel measurement on the receiving side or the smaller of the two.
Wireless frame transmitting apparatus, characterized in that. The method of claim 7,
In the case of a plurality of receivers, the maximum quantity is a minimum value among the quantities of the VHT long training field (VHT-LTF) supported by each receiver, and the VHT long training field (VHT-LTF) supported by each receiver. Is the number of transmit antennas in the feedback matrix indicated by the capability field of the receiving side, or the maximum number of supported dimensions of channel measurement on the receiving side, or the smaller of the two.
Wireless frame transmitting apparatus, characterized in that. The method according to any one of claims 7 to 9,
The channel measurement frame NDP includes a long training sequence (L-STF), a short training sequence (S-STF), a signal field (L-SIG), a VHT signal A field (VHT-SIG-A), and a VHT short training sequence (VHT). -STF), consisting of at least two VHT long training fields (VHT-LTF)
Wireless frame transmitting apparatus, characterized in that.

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