KR101052125B1 - Method and apparatus for supporting transmission diversity - Google Patents

Abstract

According to an aspect of the present invention, a transmission diversity support method for improving reception performance in a static communication environment or a low-speed mobile environment includes a precoding matrix selected from a set of precoding matrices composed of a plurality of different precoding matrices. Applying a (Precoding Matrix) to the data stream and transmitting to the terminal through a plurality of transmit antennas; Determining whether to change the selected precoding matrix according to a hybrid automatic request (HARQ) feedback received from the terminal; If it is determined that the selected precoding matrix is to be changed, changing the selected precoding matrix to another precoding matrix of the set of precoding matrices; And applying the modified precoding matrix to the data stream and transmitting it to the terminal through the plurality of transmit antennas.

HARQ, Antenna, Multiple, Precoding, Permutation

Description

Method and Apparatus for Transmission Diversity {Method and Apparatus for Supporting Transmission Diversity}

The present invention relates to a wireless communication system, and more particularly, to a transmission diversity support method.

In a wireless communication system, an automatic repeat request (ARQ) technique may be applied as one of techniques for providing high quality wireless data by correcting an error of transmitted data, and to overcome channel degradation in such an ARQ technique. By combining the error correction channel coding scheme, a hybrid automatic repeat request (HARQ) scheme, which aims to increase stability and performance of a wireless communication system, can be applied.

When the complex automatic retransmission scheme is applied to a wireless communication system, if the communication environment is a static environment or a low speed mobile environment, that is, a low fading environment, the channel coherence time is greater than a predetermined frame period, and thus the channel state is poor. If so, retransmissions after the first transmission as well as the first transmission will have to experience the same channel condition. Therefore, the number of retransmissions for the successful decoding increases, which inevitably reduces the throughput of the wireless communication system.

In order to solve this problem, a method of combining the HARQ technique and the antenna diversity technique has been proposed.

Such antenna diversity techniques include an antenna grouping technique, an antenna selection technique, and a closed loop MIMO technique. However, the antenna grouping and antenna selection techniques require not only the feedback from the receiver, but also a larger number of antennas than the number of MIMO streams, and the closed loop MIMO technique requires the feedback of channel conditions from the receiver. There is this.

Therefore, an efficient method for improving reception performance in a static environment or a low speed mobile environment is required.

Disclosure of Invention The present invention has been made in view of the above-described problems, and it is a technical object of the present invention to provide a transmission diversity support method and apparatus for further improving reception performance in a static environment or a low speed mobile environment.

Another object of the present invention is to provide a transmission diversity support method and apparatus for improving HARQ gain by changing a precoding matrix to be applied to each data stream according to HARQ feedback received from a terminal without additional feedback. .

According to an aspect of the present invention, there is provided a method for supporting diversity in a data stream by applying a precoding matrix selected from a precoding matrix set consisting of a plurality of different precoding matrices to a data stream. Transmitting to a terminal through a transmission antenna of the; Determining whether to change the selected precoding matrix according to a hybrid automatic request (HARQ) feedback received from the terminal; If it is determined that the selected precoding matrix is to be changed, changing the selected precoding matrix to another precoding matrix of the set of precoding matrices; And applying the modified precoding matrix to the data stream and transmitting it to the terminal through the plurality of transmit antennas.

In accordance with another aspect of the present invention, a transmission diversity support method includes applying a first precoding matrix including a permutation matrix and a phase delay matrix to a data stream to a terminal through a plurality of transmit antennas. Transmitting; Calculating a ratio of HARQ ACKs among HARQ feedbacks received from the terminal; And when the ratio of the HARQ ACK is less than or equal to a threshold, applying a second precoding matrix to which the at least one of the permutation matrix and the phase delay matrix of the first precoding matrix is changed to the data stream through the plurality of transmit antennas. And transmitting to the terminal.

In accordance with still another aspect of the present invention, there is provided a transmission diversity support apparatus, including: a demultiplexer for demultiplexing data to be transmitted to a terminal into data streams corresponding to the number of transmission antennas; A channel encoder for performing channel encoding and modulation on the data stream; Select a precoding matrix from a precoding matrix set consisting of a plurality of different precoding matrices, precode the channel coded and modulated data stream with the selected precoding matrix, and select the precoding matrix according to the HARQ feedback received from the terminal A precoder to change a precoding matrix to another precoding matrix of the set of precoding matrices and to precode the channel encoded and modulated data stream with the other precoding matrix; A precoding matrix change determination unit that determines whether to change the selected precoding matrix to the other precoding matrix according to HARQ feedback received from the terminal; And a transmission processor for transmitting the precoded data stream to the terminal.

In accordance with still another aspect of the present invention, there is provided a transmission diversity support apparatus comprising: a demultiplexer for demultiplexing data to be transmitted to a terminal into data streams corresponding to the number of transmission antennas; A channel encoder for performing channel encoding and modulation on the data stream; Precoding the channel coded and modulated data stream with a first precoding matrix consisting of a permutation matrix and a phase delay matrix, and if the ratio of HARQ ACKs among HARQ feedbacks received from the terminal is less than or equal to a threshold, the first precoding A precoder for precoding the channel coded and modulated data stream with a second precoding matrix in which at least one of a permutation matrix and a phase delay matrix of the matrix is modified; A precoding matrix change determination unit for calculating the HARQ ACK ratio and determining whether the calculated HARQ ACK ratio is less than or equal to a threshold to determine whether to change the first precoding matrix to a second precoding matrix; And a transmission processor for transmitting the precoded data stream to the terminal through a plurality of transmission antennas.

According to the present invention, it is possible to improve the data reception rate in a static environment or a low speed mobile communication environment, thereby improving the reliability of the system.

Further, according to the present invention, the precoding matrix to be applied to each stream can be changed only by the HARQ feedback received from the terminal without additional feedback, thereby reducing the number of HARQ retransmissions and improving the HARQ gain.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram of an apparatus for transmitting data using transmit diversity according to an embodiment of the present invention. The apparatus 100 for transmitting data according to the present invention is included in a hybrid automatic request (HARQ) system to which MIMO (Multi Input Multi Output) is applied. As shown in FIG. 1, the demultiplexer 110 is shown. ), A plurality of channel encoding and modulation units 120a to 120n, a memory 130, a precoder 140, a precoding matrix change determination unit 150, and a transmission processor 160.

First, the demultiplexer 110 receives data to be transmitted to a terminal from an upper layer and demultiplexes it into multiple parallel streams as many as the number of transmit antennas 170.

The channel encoding and modulating units 120a to 120n encode and modulate a stream corresponding to each transmission antenna, and output the encoded and modulated streams to the precoder 150 to be described later.

Next, the memory 130 stores a precoding matrix set composed of a plurality of different precoding matrices to be applied to the data stream to be transmitted to the terminal. In an embodiment, the set of precoding matrices stored in the memory 130 may be configured with at least a number of precoding matrices corresponding to the maximum number of HARQ retransmissions. For example, when the maximum number of HARQ retransmissions is eight, the precoding matrix set may consist of eight or more precoding matrices.

As such, configuring the precoding matrix set with more than the number of precoding matrices corresponding to the maximum number of HARQ retransmissions is to variously change the precoding matrix to be applied to the data stream whenever retransmission is performed when retransmitting the data stream. to be.

On the other hand, each of the precoding matrices of the precoding matrix set may be assigned an identifier in the order to be applied to the data stream when transmitting or retransmitting the data stream. For example, the identifier of the precoding matrix to be applied at the first transmission of the data stream is 1, the identifier of the precoding matrix to be applied at the first retransmission of the data stream is 2, and the identifier of the precoding matrix to be applied at the second retransmission of the data stream is As in 3, each precoding matrix is assigned an identifier according to the application order thereof.

Each of these precoding matrices may be configured using a permutation matrix for changing a transmission antenna to which a corresponding data stream is transmitted and a phase delay matrix for delaying a phase of the corresponding data stream. In detail, each precoding matrix may be defined as a product of a permutation matrix and a phase delay matrix.

In this case, the permutation matrix may be a unit matrix whose size is determined according to the number of transmit / receive antennas or a matrix obtained by shifting each row of the unit matrix in the column direction. For example, assuming 2 * 2MIMO, the permutation matrix shifts each row of a 2 * 2 unit matrix as shown in Equation 1 below or a 2 * 2 unit matrix as shown in Equation 2 to one another. It can be a matrix.

Meanwhile, each of the precoding matrices included in the precoding matrix set may be generated while variously changing at least one of the permutation matrix and the phase delay matrix constituting the specific precoding matrix included in the precoding matrix set.

For example, the permutation matrix constituting the specific precoding matrix is variously changed, the phase delay matrix constituting the specific precoding matrix is variously changed, or the permutation matrix and phase delay matrix constituting the specific precoding matrix. By varying all of them, we can generate various types of precoding matrices.

Precoder 140 selects a precoding matrix from a set of precoding matrices stored in memory 140 and applies the selected precoding matrix to each data stream. In this case, the precoding matrix to be applied to each data stream is identically selected, but a different precoding matrix may be selected for each burst including each data stream.

In addition, when the precoding matrix is changed by the precoding matrix change determination unit 150 to be described later, the precoder 140 converts the selected precoding matrix into another precoding of the precoding matrix set stored in the memory 130. We change it to a matrix and apply the modified precoding matrix to each data stream.

In one embodiment, the precoder 140 changes the selected precoding matrix to another precoding matrix, and corresponds to the next identifier of the identifier of the selected precoding matrix among the precoding matrices included in the precoding matrix set. You can change it to a precoding matrix. For example, when the identifier of the selected precoding matrix is 1, the selected precoding matrix may be changed to a precoding matrix having the identifier 2.

As described above, the precoding matrix may be defined as a product of the permutation matrix and the phase delay matrix. The precoding matrix for each HARQ transmission is represented by Equation 3 below by the precoder 140. .

는 k번째 HARQ 전송시의 입력 데이터 스트림을 의미하고, k는 HARQ 재전송 횟수를 의미하는 것으로서 0부터 최대 재전송 회수 사이의 값으로 설정된다. 또한,

는 프리코딩 행렬을 구성하는 N_tⅹN_t의 퍼뮤테이션 행렬을 의미하며,

는 프리코딩 행렬을 구성하는 N_tⅹN_s의 위상 지연 행렬을 의미한다.In Equation 3,

Denotes an input data stream during k-th HARQ transmission, and k denotes the number of HARQ retransmissions, and is set to a value between 0 and the maximum number of retransmissions. Also,

Means a permutation matrix of N _{t t} ⅹN constituting the precoding matrix, and

Denotes a phase delay matrix of N _t ⅹ N _s constituting the precoding matrix.

Next, the precoding matrix change determination unit 150 receives the HARQ feedback received from the terminal, determines whether to change the precoding matrix selected by the above-described precoder 140 according to the received HARQ feedback and the result It provides to the precoder 140 described above.

In detail, the precoding matrix change determination unit 150 calculates a ratio of HARQ ACKs among HARQ feedbacks transmitted for a predetermined time from the terminal, and determines whether or not the calculated HARQ ACK ratio is less than or equal to the threshold. It is determined that the precoding matrix is changed to another precoding matrix of the precoding matrix set. In this case, the ratio of HARQ ACK means the ratio of the HARQ feedback transmitted from the terminal for a predetermined time, that is, the sum of the number of HARQ ACK and the number of HARQ NACK and the number of HARQ ACK.

For example, if the number of HARQ NACK of the HARQ feedback received during 10 frames was three and the number of HARQ ACK is seven HARQ ACK ratio is 0.7. In this case, assuming that the threshold is set to 0.9, since the HARQ ACK ratio is less than or equal to the threshold, the precoding matrix change determination unit 150 determines that the selected precoding matrix is changed to another precoding matrix.

As described above, the HARQ ACK ratio transmitted from the terminal for a predetermined time is less than or equal to the threshold indicates that the data stream transmitted to the terminal is not correctly received. By changing the precoding matrix to be applied to the stream, the data stream can be transmitted to the terminal through a channel environment different from that of the previously transmitted channel.

In the above-described embodiment, the precoding matrix change determination unit 150 has been described as determining the change of the precoding matrix when the ratio of the HARQ ACK of the HARQ feedback transmitted for a predetermined time from the terminal is less than or equal to the threshold. In an example, the precoding matrix change determination unit 150 may determine that the selected precoding matrix is changed to another precoding matrix when the ratio of the HARQ ACK among the predetermined number of HARQ feedbacks transmitted from the terminal is less than or equal to the threshold.

For example, when 100 HARQ feedbacks are transmitted from the UE, a ratio of HARQ ACKs is calculated among 100 HARQ feedbacks, and it is determined whether the calculated HARQ ACK ratio is less than or equal to a threshold.

On the other hand, if the precoding matrix change determination unit 150 maintains the calculated HARQ ACK ratio for more than a predetermined threshold for a predetermined time, the precoder 140 by providing the result to the above-described precoder 140, By storing the identifier of the precoding matrix applied to the corresponding data stream at that time, when the terminal reenters, the precoding matrix corresponding to the previously stored identifier is determined as the precoding matrix to be applied to the data stream to be transmitted to the corresponding terminal. To help.

As described above, in the present invention, when the terminal re-enters by storing the identifier of the precoding matrix applied when the HARQ ACK ratio is maintained above the threshold for a predetermined time, the precoding matrix corresponding to the stored identifier is transmitted to the terminal. Since it is possible to directly determine the precoding matrix to be applied to the data stream to be applied, it is possible to reduce the time required to determine the precoding matrix.

Next, the transmission processor 160 converts the precoded data streams provided from the precoder 140 into an OFDM or OFDMA symbol through an inverse fast fourier transform (IFFT) operation. Thereafter, the transmission processor 160 converts the data stream converted into an OFDM or OFDMA symbol into an analog signal, converts the data stream into an RF band signal, and transmits the converted data stream to the terminal through the transmission antenna 170.

In the above-described embodiment, any one of the precoding matrices is selected from the precoding matrix set consisting of a plurality of different precoding matrices for transmission of the data stream, and applied to the data stream, and the HARQ ACK received from the terminal. If the ratio is less than or equal to the threshold, the selected precoding matrix is described as being changed to another precoding matrix of the precoding matrix set and applied to the corresponding data stream.

However, in the modified embodiment, without pre-configuring a precoding matrix set consisting of a plurality of precoding matrices, the precoder 140 adds a first precoding matrix composed of a permutation matrix and a phase delay matrix to the data stream. Apply and send. Meanwhile, the precoding matrix change determination unit 150 calculates a ratio of HARQ ACK received from the terminal, and determines that the first precoding matrix is changed when the HARQ ACK ratio is less than or equal to a threshold, and the result is converted to the precoder 140. to provide.

Thereafter, the precoder 140 may apply the second precoding matrix obtained by variously changing at least one of the permutation matrix and the phase delay matrix constituting the first precoding matrix to the corresponding data stream.

For example, as shown in FIG. 2, when the rate of HARQ ACK was less than the threshold value when retransmitting the corresponding data stream, the phase delay matrix W0 of the first precoding matrix originally intended to be applied is changed to the phase delay matrix W1. The second precoding matrix is applied to the corresponding data stream.

Accordingly, in this case, unlike the precoder illustrated in FIG. 1, the precoder 140 applies a first precoding matrix including a permutation matrix and a phase delay matrix to a data stream of a corresponding frame, and transmits the corresponding frame. If the ratio of HARQ ACK among HARQ feedbacks received from the terminal is less than or equal to a threshold value, and it is determined by the precoding matrix change determining unit 150 to change the first precoding matrix, the permutation matrix and phase of the first precoding matrix are determined. A function of applying a second precoding matrix in which at least one of the delay matrices is changed is applied to a data stream of a corresponding frame.

Also, unlike the memory illustrated in FIG. 1, the memory may store various types of permutation matrix and phase delay matrix instead of the precoding matrix set.

Since the functions of the demultiplexer, the channel encoding and modulation unit, and the transmission processor, which are other components except for the precoder and the memory, have the same functions as those shown in FIG. 1, detailed description thereof will be omitted.

In the above-described example, only the example of changing the phase delay matrix may be changed, but only the permutation matrix may be changed, or both the phase delay matrix and the permutation matrix may be changed.

Hereinafter, with reference to FIG. 3, a data transmission method using transmission diversity according to the present invention will be described.

3 is a flowchart illustrating a data transmission method using transmission diversity according to an embodiment of the present invention.

As shown, first, data received from an upper layer is divided into streams to be transmitted through each transmit antenna (S300).

Thereafter, channel encoding and modulation are performed on the data stream to be transmitted for each antenna (S310).

Next, a precoding matrix to be applied to each data stream is selected from a precoding matrix set composed of a plurality of different precoding matrices (S320). In one embodiment, all of the precoding matrices to be applied to each data stream may be identically selected, but may be differently selected for each data stream.

On the other hand, the precoding matrix set may be composed of more than the number of precoding matrices corresponding to the maximum number of HARQ retransmission, each precoding matrix constituting the precoding matrix set is assigned an identifier according to the order to apply to the data stream There may be.

This precoding matrix may be defined as a product of a permutation matrix that can change the transmit antenna to which the data stream is transmitted and a phase delay matrix that can delay the phase of the data stream, and each included in the precoding matrix set. The precoding matrices can be generated by varying at least one of the permutation matrix and the phase delay matrix of the particular precoding matrix.

At this time, the permutation matrix may be a unit matrix whose size is determined according to the number of transmit / receive antennas as described above, or a matrix obtained by shifting each row of the unit matrix in the column direction.

Next, each data stream is precoded by the precoding matrix selected in S320 and transmitted to the terminal (S330).

Thereafter, the ratio of the HARQ ACK of the predetermined number of HARQ feedback received from the terminal is calculated, or the ratio of the HARQ ACK of the HARQ feedback received from the terminal for a predetermined time is calculated (S340).

Thereafter, it is determined whether the calculated HARQ ACK ratio is less than or equal to the threshold value (S350), and if it is less than or equal to the threshold value, the precoding matrix selected in S320 is changed to another precoding matrix included in the precoding matrix set (S360). According to an embodiment, the other precoding matrix may be a precoding matrix corresponding to the next identifier of the identifier of the precoding matrix selected in S320.

Subsequently, another precoding matrix changed in S360 is applied to each data stream and transmitted to the terminal through a plurality of transmit / receive antennas (S370).

In the above-described embodiment, any one of the precoding matrices is selected from the precoding matrix set consisting of a plurality of different precoding matrices for transmission of the data stream, and applied to the data stream, and the HARQ ACK received from the terminal. If the ratio is less than or equal to the threshold, it is described that the selected precoding matrix is changed to another precoding matrix and applied to the corresponding data stream.

However, in the modified embodiment, the first precoding matrix including the permutation matrix and the phase delay matrix is applied to the data stream and transmitted. When the ratio of HARQ ACK received from the UE is less than or equal to the threshold, the first precoding matrix is changed. The second precoding matrix obtained by variously changing at least one of the constituting permutation matrix and the phase delay matrix may be applied to the corresponding data stream and transmitted to the terminal.

The above-described transmission diversity support method is implemented in the form of program instructions that can be executed by various computer means, and can be recorded in a computer-readable recording medium.

On the other hand, those skilled in the art will understand that the present invention described above can be implemented in other specific forms without changing the technical spirit or essential features.

Therefore, it is to be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

1 is a schematic block diagram of a data transmission apparatus according to an embodiment of the present invention.

2 is a diagram illustrating a process of applying a second precoding matrix generated while changing a phase delay matrix to a data stream according to an embodiment of the present invention.

3 is a flowchart showing a data transmission method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

110: demultiplexer 120a to 120n: channel encoding and modulating unit

130; Memory 140: Precoder

150: precoding matrix change determination unit 160: transmission processing unit

Claims (24)

Applying a precoding matrix selected from a precoding matrix set composed of a plurality of different precoding matrices to a data stream and transmitting the precoding matrix to a terminal through a plurality of transmit antennas; Determining whether to change the selected precoding matrix according to a hybrid automatic request (HARQ) feedback received from the terminal; If it is determined that the selected precoding matrix is to be changed, changing the selected precoding matrix to another precoding matrix of the set of precoding matrices; And Applying the modified precoding matrix to the data stream and transmitting the modified precoding matrix to the terminal through the plurality of transmit antennas; In the step of determining whether to change the precoding matrix, the ratio of HARQ ACK of the HARQ feedback transmitted from the terminal for a predetermined time is less than the threshold, or the ratio of HARQ ACK of the predetermined number of HARQ feedback transmitted from the terminal is less than the threshold If it is determined that the selected precoding matrix is to be changed. delete delete The method of claim 1, The precoding matrices of the set of precoding matrices are determined using a product of a permutation matrix for changing the antenna to which the data stream is to be transmitted and a phase delay matrix for delaying the phase of the data stream. Transmission diversity support method. 5. The method of claim 4, Each of the precoding matrices included in the set of precoding matrices is generated by changing at least one of a permutation matrix and a phase delay matrix of a specific precoding matrix. 5. The method of claim 4, The permutation matrix is a transmission matrix support method, characterized in that the identity matrix (size) is determined according to the number of transmit and receive antennas or a matrix by shifting each row of the unit matrix in the column direction. The method of claim 1, The precoding matrix set comprises a number of precoding matrices or more corresponding to the maximum number of HARQ retransmissions. The method of claim 1, The precoding matrices of the precoding matrix set are assigned an identifier according to the order to be applied to the data stream. The method of claim 8, wherein in the changing of the precoding matrix, And converting the selected precoding matrix into a precoding matrix corresponding to a next identifier of an identifier of the selected precoding matrix among precoding matrices included in the set of precoding matrices. Applying a first precoding matrix consisting of a permutation matrix and a phase delay matrix to a data stream and transmitting the same to a terminal through a plurality of transmit antennas; Calculating a ratio of HARQ ACKs among HARQ feedbacks received from the terminal; And When the ratio of the HARQ ACK is less than or equal to a threshold, a second precoding matrix obtained by changing at least one of a permutation matrix and a phase delay matrix of the first precoding matrix is applied to the data stream to transmit the data through the plurality of transmit antennas. Transmit diversity support method comprising the step of transmitting to the terminal. The method of claim 10, The HARQ ACK rate is the HARQ ACK rate of the HARQ feedback transmitted from the terminal for a predetermined period, or the transmission diversity support method, characterized in that the HARQ ACK rate of a predetermined number of HARQ feedback transmitted from the terminal. The method of claim 10, If the HARQ ACK ratio is maintained above the threshold for a predetermined time, the transmission diversity support method characterized in that the first precoding matrix to determine the precoding matrix to be applied to the data stream to be transmitted to the terminal re-entry . A demultiplexer which demultiplexes data to be transmitted to the terminal into data streams corresponding to the number of transmit antennas; A channel encoder for performing channel encoding and modulation on the data stream; Select a precoding matrix from a precoding matrix set consisting of a plurality of different precoding matrices, precode the channel coded and modulated data stream with the selected precoding matrix, and select the precoding matrix according to the HARQ feedback received from the terminal A precoder to change a precoding matrix to another precoding matrix of the set of precoding matrices and to precode the channel encoded and modulated data stream with the other precoding matrix; A precoding matrix change determination unit that determines whether to change the selected precoding matrix to the other precoding matrix according to HARQ feedback received from the terminal; And A transmission processor configured to transmit and transmit the precoded data stream to the terminal; The precoding matrix change determination unit, when the ratio of the HARQ ACK of the HARQ feedback transmitted from the terminal for a predetermined period or less, or the ratio of the HARQ ACK of a predetermined number of HARQ feedback transmitted from the terminal is below the threshold; And determining that the selected precoding matrix is changed to the other precoding matrix. delete The method of claim 13, If it is determined by the precoding matrix change determination unit that the HARQ ACK ratio is maintained above the threshold for a predetermined time, And the precoder determines the selected precoding matrix as a precoding matrix to be applied to a data stream to be transmitted to a re-entry terminal. The method of claim 13, The precoding matrices of the set of precoding matrices are determined using a product of a permutation matrix for changing the antenna to which each data stream is to be transmitted and a phase delay matrix for delaying the phase of the data stream. Diversity support device. The method of claim 16, And each precoding matrix of the set of precoding matrices is generated by changing at least one of a permutation matrix and a phase delay matrix of a particular precoding matrix. The method of claim 16, The permutation matrix is a transmission diversity support apparatus, characterized in that the unit matrix is a size determined according to the number of transmit and receive antennas or a matrix by shifting each row of the unit matrix in the column direction. The method of claim 13, The precoding matrix set is composed of a number of precoding matrices or more corresponding to the maximum number of HARQ retransmissions. The method of claim 13, Transcoding diversity support apparatus, characterized in that the precoding matrices of the precoding matrix set are assigned an identifier according to the order to be applied to the data stream. 21. The method of claim 20, And the precoder changes the selected precoding matrix to a precoding matrix corresponding to a next identifier of the identifier of the selected precoding matrix. A demultiplexer which demultiplexes data to be transmitted to the terminal into data streams corresponding to the number of transmit antennas; A channel encoder for performing channel encoding and modulation on the data stream; Precoding the channel coded and modulated data stream with a first precoding matrix consisting of a permutation matrix and a phase delay matrix, and if the ratio of HARQ ACKs among HARQ feedbacks received from the terminal is less than or equal to a threshold, the first precoding A precoder for precoding the channel encoded and modulated data stream into a second precoding matrix in which at least one of a permutation matrix and a phase delay matrix of the matrix is modified; A precoding matrix change determination unit for calculating the HARQ ACK ratio and determining whether the calculated HARQ ACK ratio is less than or equal to a threshold to determine whether to change the first precoding matrix to a second precoding matrix; And And a transmission processor for transmitting the precoded data stream to the terminal through a plurality of transmission antennas. The method of claim 22, The HARQ ACK rate is a transmission diversity support apparatus, characterized in that the HARQ ACK rate of HARQ feedback transmitted from the terminal for a predetermined period or HARQ ACK rate of a predetermined number of HARQ feedback transmitted from the terminal. The method of claim 22, If it is determined by the precoding matrix change determination unit that the HARQ ACK ratio is maintained above the threshold for a predetermined time, And the precoder determines the first precoding matrix as a precoding matrix to be applied to a data stream to be transmitted to a terminal to reenter.

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