KR101020242B1 - A receiving device of a terminal, a transmitting device of a base station and a receiving signal combining method - Google Patents

Abstract

The present invention relates to a receiving apparatus of a terminal, a transmitting apparatus of a base station, and a receiving signal combining method.

The present invention relates to a receiving apparatus and a transmitting apparatus which consider not only channel information but also components of a quantization codebook for determining a transmission precoding matrix or a reception coupling matrix. Therefore, since the quantization is performed in consideration of not only the channel state information but also components of the codebook, the number of received signals can be increased and the quantization error can be reduced. In addition, it is possible to implement a reception device and a transmission device of a terminal that can maximize reception power and improve signal-to-noise ratio (SNR).

Multi-antenna transmit / receive, MIMO, quantization, feedback

Description

Mobile terminal and base station in MIMO system and method for combining receive signals

The present invention relates to a receiving apparatus of a terminal, a transmitting apparatus of a base station, and a receiving signal combining method.

Multiple Input Multiple Output (MIMO) system is a Single Input Single Output (SISO) system in which a signal transmitted from a transmitter reaches a receiver through a single path. It is an improvement. In the MIMO system, in order to implement various transmission and reception paths, a plurality of antennas are used in hardware, and different time delays are applied to each of the plurality of paths so that one transmission signal can reach the receiver at different timings. .

Recently, a MIMO technique (hereinafter referred to as a "multi-user MIMO technique") has been proposed in which a base station spatially separates a transmission signal and simultaneously transmits different signals to each of a plurality of mobile terminals in the same frequency band. In order to perform the multi-user MIMO scheme, the mobile terminal and the base station operate as follows.

The mobile terminal estimates channel state information (CSI) with the base station based on the signal received from the base station, and transmits the estimated channel state information to the base station as feedback information. The base station selects two or more mobile terminals to provide services simultaneously through spatial division based on the channel state information received from the mobile terminal, and transmits a precoded signal based on the channel state information to the selected mobile terminal. .

 At this time, the mobile station quantizes the channel state information and transmits it to the base station due to the limitation of the channel band. To this end, the mobile terminal includes a codebook for quantization of channel state information. The codebook includes a plurality of codewords and quantizes the channel state information with a codeword that is closest to the measured channel state information among the codewords included in the codebook.

However, the conventional multi-user MIMO technique has a problem in that it is difficult to reduce the quantization error generated when the mobile terminal performs quantization. If the quantization error is large, orthogonality is good between quantized channels of two different mobile terminals among mobile stations located in the service area of the same base station, but the channels of two mobile terminals are not orthogonal to each other. May occur. In this case, each of the two mobile terminals has a large performance loss due to large interference received from signals transmitted from the base station to other mobile terminals, and a method for improving the performance of the multi-user MIMO technique by reducing the quantization error is urgently needed.

Accordingly, the present invention provides a receiving apparatus of a terminal and a transmitting apparatus of a base station and a method of combining received signals using the same, which can reduce a quantization error.

In order to achieve the technical problem of the present invention, a receiving apparatus including a plurality of second antennas, transmitting and receiving a signal to and from a base station including a plurality of first antennas, which is a feature of the present invention,

A channel state estimator for obtaining channel state information by estimating channel states between the plurality of first antennas and a second antenna based on the signal received from the base station; A codebook storage unit for storing a codebook including a plurality of codewords for channel states; And a weight matrix generator for generating a weight matrix for the channel state based on a performance index, the codebook, and the obtained channel state information, and delivering quantized feedback information about the generated weight matrix to the base station.

In another aspect of the present invention for achieving the technical problem of the present invention, a transmission device for transmitting and receiving a signal with a terminal including a plurality of first antennas, the plurality of second antennas,

A codebook storage unit configured to output a transmission precoding matrix based on feedback information input to the plurality of second antennas, wherein the feedback information includes a codeword for precoder selection calculated by the terminal; And a transmission signal precoding unit configured to generate a transmission signal using the output transmission precoding matrix and the source signal to be transmitted to the terminal.

In another aspect of the present invention, there is provided a method for transmitting and receiving a signal to and from a base station including a plurality of first antennas, and including a plurality of second antennas. ,

Obtaining channel state information from a channel connected with the base station; Calculating a weight matrix based on channel state information, performance index and quantization information, wherein the quantization information is either a codeword for channel state information or a codeword for transmission precoding matrix selection; And generating a vector signal using the received signal received from the base station and the weight matrix.

According to an aspect of the present invention, since quantization is performed in consideration of not only channel state information but also components of a codebook, the number of received signals can be increased while reducing the quantization error.

In addition, by maximizing the reception power, the receiver and the transmitter of the terminal capable of improving the signal-to-noise ratio (SNR) can be implemented.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “module”, etc. described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. have.

In the present specification, a terminal is a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment (User Equipment). It may also refer to a user equipment (UE), an access terminal (AT), and the like, and may include all or some functions of a mobile terminal, a subscriber station, a portable subscriber station, a user device, and the like.

In the present specification, a base station (BS) is an access point (AP), a radio access station (Radio Access Station, RAS), a Node B (Node B), a base transceiver station (Base Transceiver Station, BTS), MMR ( Mobile Multihop Relay) -BS and the like, and may include all or part of functions such as an access point, a radio access station, a Node B, a base transceiver station, and an MMR-BS.

Hereinafter, a terminal and a base station of a multi-antenna transmission and reception system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a MIMO transmission and reception system according to an embodiment of the present invention.

1 illustrates an example of one terminal 20 of a plurality of terminals for transmitting and receiving a signal with a base station 10 of a MIMO transmission / reception system.

Referring to FIG. 1, the terminal 20 measures channel state information based on a signal received from the base station 10. And the feedback information according to the measured channel state information is transmitted to the base station 10. The base station 10 transmits a signal to the terminal 20 by forming a beam pattern to reduce the quantization error or maximize the reception power of the reception antenna based on the feedback information from the terminal 20.

Here, the reception device 200 located in the terminal 20 and the transmission device 100 located in the base station 10 will be described in detail with reference to FIGS. 2 and 3.

2 is a structural diagram of a transmitting apparatus and a receiving apparatus according to a first embodiment of the present invention, and FIG. 3 is a structural diagram of a transmitting apparatus and a receiving apparatus according to a second embodiment of the present invention.

2 and 3, it is assumed that the transmitting apparatus 100 includes M antennas and the receiving apparatus 200 includes N antennas. In addition, it is assumed that the number of independent information symbols is R, and at least R symbols are required for demodulation in the reception apparatus 200. At this time, M, N, R means a plurality of natural numbers.

First, referring to FIG. 2, FIG. 2 illustrates a system in which the receiver 200 quantizes channel state information and feeds it back to the transmitter. As shown in FIG. 2, the reception device 200 includes a multiple antenna unit 210 and a reception signal processor 220. In addition, the transmission apparatus 100 includes a multiple antenna unit 120 and a transmission signal processing unit 110.

Each of the multiple antenna units 210 and 120 included in the reception device 200 and the transmission device 100 includes at least two antennas. That is, the transmitting apparatus 100 includes M antennas 120-1 to 120 -M, and the receiving apparatus 200 includes N antennas 210-1 to 210 -N.

The multiple antenna unit 210 of the reception device 200 transmits the reception signal r received from the transmission device 100 to the reception signal processing unit 220 through the antenna. Then, the feedback signal received from the reception signal processor 220 is transmitted to the base station 10.

The multiple antenna unit 120 of the transmitting device 100 transmits a signal (for example, a pilot signal) for channel estimation or the like from the receiving device 200 so that the receiving device 200 can estimate the channel state. The quantized optimal codeword index is received over a feedback channel. In addition, the transmission signal to be transmitted to the receiving device 200 is quantized and transmitted.

Next, the reception apparatus 200 will be described. The reception signal processor 220 stores the reception signal combiner 221, the weight matrix generator 224, the channel state estimator 225, the demodulator 222, and the codebook storage. A portion 223 is included.

)을 저장한다. 이때 코드북을 구성하는 코드워드 는 1 × M 차원의 행 벡터(row vector)이다. The codebook storage unit 223 is a codebook (Codebook) used to quantize the channel state information (H) for the channel state obtained by the channel state estimation unit 225 (

Save). At this time, the codeword constituting the codebook Is a row vector of 1 x M dimension.

The channel state estimator 225 obtains channel state information H through channel estimation and transmits the channel state information H to the weight matrix generator 224. In order for the channel state estimator 225 to estimate the channel state, before the channel state estimator 225 receives the reception signal r from the transmitter 100, a separate signal (eg, a signal transmitted by the transmitter 100 so that the channel state can be estimated) can be estimated. For example, the channel state information (H) is obtained by estimating the channel state using a pilot signal. A method of estimating a channel state is already known, and a description of a specific method will be omitted in an embodiment of the present invention.

)를 송신 장치(100)로 피드백한다. The weight matrix generator 224 is an optimal weight matrix for combining the received signal r in consideration of the channel state information H received from the channel state estimator 225, a codebook to be described below, and a performance index. A weighting matrix WRX is calculated and transmitted to the received signal combiner 221. Then, after quantizing the weight matrix WRX into one codeword in the codebook, an optimal codeword index for the channel state (

) Is fed back to the transmission apparatus 100.

The reception signal combiner 221 receives an M × 1 dimension received signal r input from the multiple antenna unit 210 and an R × N dimension weight matrix W _RX generated by the weight matrix generator 224. The combination generates a vector signal y having an R × 1 dimension and then transmits the same to the demodulator 222. Where R is the number of independent information symbols beamformed and transmitted from the base station 10 at the same time.

The demodulator 222 demodulates a vector signal y input from the received signal combiner 221 and transmits the demodulated vector signal y to a signal processor (not shown) inside the terminal 20.

Next, the transmission apparatus 100 will be described. The transmission apparatus 100 includes a transmission signal processing unit 110 in addition to the multiple antenna unit 120 described above, and the transmission signal processing unit 110 includes a codebook storage unit 113. , A precoding matrix calculation unit 112 and a transmission signal precoding unit 111.

)로부터 채널 상태에 대한 코드워드

를 출력한다.The codebook storage unit 113 stores the same codebook as the codebook stored in the codebook storage unit 223 located in the receiving device 200. The optimal codeword index fed back from the receiver 200 (

Codeword for channel status from

.

를 이용하여, 수신 장치(200)로 전송할 신호를 프리코딩하기 위해 사용하는 송신 프리코딩 행렬(Precoding matrix)(W_TX)을 계산한다. 코드워드를 이용하여 프리코딩 행렬을 계산하는 방법은 이미 알려진 사항으로, 본 발명의 실시예에서는 상세한 설명을 생략하기로 한다.The precoding matrix calculator 112 codewords for the channel state output from the codebook storage 113.

Calculate a transmission precoding matrix (W _TX ) used to precode a signal to be transmitted to the reception apparatus 200 using. A method of calculating a precoding matrix using a codeword is already known, and detailed descriptions thereof will be omitted in embodiments of the present invention.

The transmission signal precoding unit 111 generates a transmission signal x using the transmission precoding matrix W _TX calculated from the precoding matrix calculation unit 112 and a source signal to be transmitted to the reception apparatus 200. The generated transmission signal x is transmitted to the reception device 200 through the multiple antenna unit 120.

A method of combining received signals using the components of the reception apparatus 200 and the transmission apparatus 100 described above will be described in detail with reference to FIG. 4.

4 is a flowchart illustrating a signal combining method according to a first embodiment of the present invention.

As shown in FIG. 4, first, the reception channel state estimator 225 obtains channel state information H from a signal transmitted from the transmission apparatus 100 (S100). The weight matrix generator 224 then combines the received signal r in consideration of the channel state information obtained from the channel state estimator 225, the codebook stored in the codebook storage 223, and the performance index. The optimal weight matrix W _RX is calculated (S110).

Here, the figure of merit may use various figures of merit according to the channel condition or the environment of the system. In the embodiment of the present invention, two cases are shown as examples. In addition, the performance index may be applied by selecting one performance index when constructing the system, or may be selectively used according to a situation by inputting various performance indexes into the system.

)들은 1 × M의 열 벡터가 된다. 여기서 코드북은 송신 장치(100)와 수신 장치(200)의 코드북 저장부(223)에 각각 동일하게 저장되어 있다.In this case, it is assumed that the number of antennas of the transmitting device 100 and the receiving device 200 is M (> 1) and N (> 1), respectively, and the number of independent information symbols is R = 1. The codewords that make up the codebook (

) Becomes a column vector of 1 x M. Here, the codebooks are stored in the codebook storage unit 223 of the transmitter 100 and the receiver 200 in the same manner.

The two cases of the above-mentioned performance indexes can be divided into minimizing the quantization error and maximizing the reception power. First, if the performance index is to minimize the quantization error, the weight matrix (W _RX ) of the codeword index q and 1 × N order is determined by the following equation (1).

는 코드워드 행렬의 켤레수의 행과 열을 변환(conjugate transpose)하여 생성되는 행렬이고, W는 가중치 행렬(W_RX)을 결정하기 위한 변수이다. here

Is a matrix generated by conjugate transpose of rows and columns of the codeword matrix, and W is a variable for determining the weight matrix W _RX .

를 최대로 하는 코드워드 인덱스(q)와 W를 각각 최적의 코드워드 인덱스(

)와 가중치 행렬(W_RX)로 결정한다는 것을 의미한다. In more detail with reference to Equation 1, the weight matrix generator 224 is a codeword index q from 0 to Q-1.

The maximum codeword index (q) and W are each optimized codeword index (

) And the weight matrix W _RX .

)와 가중치 행렬(W_RX)로 결정된다.That is, substituting the codeword index q = 0 into Equation 1 in the codebook stored in the codebook storage unit 223 yields W corresponding to q = 0. Substituting q = Q-1 into Equation 1 in this manner, W corresponding to q = Q-1 is obtained, and Q pairs of codeword indexes q and W values are obtained ([q = 0, W ], [q = 1, W],…, [q = Q-1, W]). Then, the codeword index q representing the largest value among the obtained Q values and the corresponding W are the optimal codeword indexes (

) And the weight matrix W _RX .

)를 생성한다.As described above, when the figure of merit maximizes the received power in addition to minimizing the quantization error, the weight matrix generator 224 may use the weight matrix W _RX and the optimal codeword as shown in Equation 2 below. index(

)

가 가장 큰 값이 되도록 하는 코드워드 인덱스 q와 W를 구하여, 이를 각각 최적화된 코드워드 인덱스(

)와 가중치 행렬(W_RX)로 결정한다.Equation 2 as described in Equation 1

Find the codeword indices q and W so that is the largest value, and calculate the optimized codeword indices (

) And the weight matrix W _RX .

)는 다중 안테나부(210)로 출력되어 피드백 채널을 통해 송신 장치(100)로 전달된다(S120).As described above, in order to minimize the quantization error in the weight matrix generator 224 or to maximize the reception power, the weight matrix W _RX calculated using Equation 1 or Equation 2 may be selected in the received signal combiner 221. Used for combining with the received signal. In addition, an optimal codeword index whose weight matrix is quantized into one codeword (

) Is output to the multiple antenna unit 210 and transmitted to the transmitting device 100 through a feedback channel (S120).

)만을 나타내었다. 그러나, 스케줄링(scheduling), 적응 변조 등 상위 제어 기능을 위해서 단말(20)은 기지국(10)으로부터 수신한 수신 신호(r)의 신호대 잡음비를 계산하고, 계산한 신호대 잡음비 값을 피드백 채널을 통해 기지국(10)으로 전송할 수도 있다.For reference, in FIG. 2, in order to focus on the codebook, an optimal codeword index (

) Only. However, for higher control functions such as scheduling and adaptive modulation, the terminal 20 calculates a signal-to-noise ratio of the received signal r received from the base station 10, and calculates the signal-to-noise ratio value through the feedback channel. It may also transmit to (10).

)를 통해 코드북 저장부(113)에서 동등 채널 행렬(Equivalent channel matrix) 즉, 채널 상태에 대한 코드워드

를 추정한다(S130). 그리고, 프리코딩 행렬 계산부(112)는 추정된 코드워드 인덱스를 바탕으로 송신 프리코딩 행렬(W_TX)를 계산한다(S140). 이렇게 생성된 송신 프리코딩 행렬(W_TX)는 송신 신호 프리코딩부(111)에서 수신 장치(200)로 전송할 소스 신호와 함께 송신 신호(x)로 생성된다(S150).In the transmitting device 100, the optimal codeword index received from the receiving device 200 (

Codeword for the equivalent channel matrix, that is, the channel state, in the codebook storage unit 113

Estimate (S130). The precoding matrix calculator 112 calculates a transmission precoding matrix W _TX based on the estimated codeword index (S140). The transmission precoding matrix W _TX generated as described above is generated as a transmission signal x together with a source signal to be transmitted from the transmission signal precoding unit 111 to the reception apparatus 200 (S150).

Next, a transmitter and a receiver according to a second embodiment of the present invention will be described with reference to FIG. 3. In addition, the signal combining method will be described with reference to FIG. 5.

3 is a structural diagram of a transmitting apparatus and a receiving apparatus according to a second embodiment of the present invention, and FIG. 5 is a flowchart of a signal combining method according to a second embodiment of the present invention.

First, FIG. 3 relates to an apparatus for calculating a precoding matrix to be used by the transmitting apparatus 100 using channel state information, and feeding back the calculated value to the transmitting apparatus 100.

As shown in FIG. 3, the reception device 200 according to the second embodiment of the present invention includes a multiple antenna unit 230 and a reception signal processor 240. In addition, the transmitting apparatus 100 includes a multiple antenna unit 140 and a transmission signal processing unit 130.

The multiple antenna units 230 and 140 included in the receiver 200 and the transmitter 100 respectively have at least two antennas, that is, the transmitter 100 receives M antennas and the receiver 200 receives N antennas. It includes.

The multiple antenna unit 230 of the reception device 200 transmits the reception signal r received from the transmission device 100 to the reception signal processing unit 240 through the antenna. Then, the feedback signal received from the reception signal processor 240 is transmitted to the base station 10.

The multiple antenna unit 140 of the transmitting device 100 transmits a signal (for example, a pilot signal) for channel estimation or the like from the receiving device 200 so that the receiving device 200 can estimate the channel state. The quantized optimal codeword index is received over a feedback channel. In addition, the transmission signal to be transmitted to the receiving device 200 is quantized and transmitted.

Next, the reception apparatus 200 will be described first. The reception signal processor 240 may include a reception signal combiner 241, a weight matrix generator 244, a channel state estimator 245, a demodulator 242, and a codebook. A storage unit 243 is included.

)을 저장한다. 이때 코드북은 채널 상태 추정부(245)에서 획득된 채널 상태 정보를 이용하여 프리코딩 행렬을 계산할 때 사용되는 코드워드의 집합들로 이루어져 있으며, 코드워드

는 M × 1 차원의 열 벡터(column vector)이다. Codebook storage unit 243 is a codebook (Codebook) (

Save). In this case, the codebook consists of a set of codewords used when calculating the precoding matrix using the channel state information obtained by the channel state estimator 245.

Is a column vector of M × 1 dimension.

The channel state estimator 245 obtains the channel state information H estimated through channel estimation or transmits the estimated channel state information H to the weight matrix generator 244. A method of estimating a channel state is already known, and a description of a specific method will be omitted in an embodiment of the present invention.

The received signal combiner 241 receives the received signal r of the M × 1 dimension input from the multiple antenna unit 230 and the R × N dimension weight matrix W _RX generated by the weight matrix generator 244. The combination generates a vector signal y having an R × 1 dimension, and then transmits the same to the demodulator 242. Where R is the number of independent information symbols beamformed and transmitted from the base station 10 at the same time.

The demodulator 242 demodulates the vector signal y input from the received signal combiner 241 and transmits the demodulated vector signal y to a signal processor (not shown) inside the terminal 20.

)를 송신 장치(100)로 피드백한다(S210). The weight matrix generator 244 combines the received signal r in consideration of the channel state information H acquired by the channel state estimator 245, the codeword received from the codebook storage 243, and a performance index. An optimal weighting matrix W _RX is calculated for S200. Then, the calculated weight matrix W _RX is transmitted to the reception signal combiner 241, and an optimal codeword index for precoder selection (

) Is fed back to the transmitting apparatus 100 (S210).

) 역시 현재 채널 상태와 코드북 구성 요소 및 성능 지수에 따라 달라진다. 상기 도 2에서 언급한 바와 같이 도 3의 제2 실시예에서도 성능 지수는 양자화 오차를 최소화 하는 것과 수신 전력을 최대화 하는 것으로 구분할 수 있다. In this case, the calculated optimal weight matrix and the optimal codeword index (quantized)

) Also depends on current channel conditions, codebook components and performance indices. As mentioned in FIG. 2, in the second embodiment of FIG. 3, the performance index may be classified into minimizing the quantization error and maximizing the reception power.

)와 수신 신호 결합을 위한 1 × N 차의 가중치 행렬 W_RX는 다음 수학식 3과 같이 결정된다.First, if the number of antennas of the receiving apparatus 200 and the transmitting apparatus 100 is N (> 1), M (> 1), respectively, the number of independent received signals R = 1 and the figure of merit minimizes the quantization error, Codeword index of

) And the weight matrix W _RX of the 1 × N order for combining the received signal are determined by Equation 3 below.

On the other hand, if the performance index is to maximize the received power, the weight matrix W _RX is determined as in Equation 4 below.

)가 생성되면, 가중치 행렬 생성부(244)는 최적의 코드워드 인덱스(

)를 다중 안테나부(230)를 통해 피드백 신호로 송신 장치(100)에 전송한다.An optimal codeword index for precoder selection through Equation 3 or Equation 4

) Is generated, the weight matrix generator 244 generates an optimal codeword index (

) Is transmitted to the transmitter 100 as a feedback signal through the multiple antenna unit 230.

When the multi-antenna unit 140 of the transmitting device 100 receives the optimal codeword received through the multi-antenna unit 230 of the receiving device 200, the multi-antenna unit 140 of the transmitting device 100 transmits to the transmission signal processing unit 130 of the transmitting device 100. To pass. The transmission signal processing unit 130 includes a codebook storage unit 132 and a transmission signal precoding unit 131.

The codebook storage unit 132 checks the transmission precoding matrix for the optimal codeword (S220). At this time, since the optimal codeword transmitted to the codebook storage unit 132 is already calculated as a codeword for precoding matrix selection in the reception apparatus 200 and transmitted to the transmission apparatus 100, the transmission apparatus 100 2 may directly select a precoding matrix without a procedure of calculating a separate precoding matrix as shown in FIG. 2.

The transmission signal precoding unit 131 generates a transmission signal using the transmission precoding matrix that the codebook storage unit 132 finds and transmits, and a source signal to be transmitted to the reception apparatus 200 (S230). The transmission signal generated by the transmission signal precoding unit 131 is transmitted to the receiving apparatus 200 through the multiple antenna unit 140.

In the exemplary embodiment of the present invention described with reference to FIGS. 2 and 3, the case where the number of independent signals is R = 1 has been described. In this case, in a system for feeding back channel state information as shown in FIG. 2, the codewords in the codebook are 1 × M order row vectors. In a system for feeding back a transmission precoding matrix as shown in FIG. It becomes a column vector.

In this case, when the number of independent signals is generalized to R ≧ 1, the codeword size becomes a matrix of the order R × M and the order M × R for each of FIGS. 2 and 3. Even when the number of independent signals is generalized, the transmitter and the receiver according to the embodiments of the present invention shown in FIGS. 2 and 3 can be applied.

The embodiments of the present invention described above are not only implemented by the apparatus and method but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded, The embodiments can be easily implemented by those skilled in the art from the description of the embodiments described above.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is an exemplary view schematically showing a MIMO transmission and reception system according to an embodiment of the present invention.

2 is a structural diagram of a transmitter and a receiver according to the first embodiment of the present invention.

3 is a structural diagram of a transmitter and a receiver according to a second embodiment of the present invention.

4 is a flowchart illustrating a signal combining method according to a first embodiment of the present invention.

5 is a flowchart illustrating a signal combining method according to a second embodiment of the present invention.

Claims (10)

In the receiving device for transmitting and receiving a signal to and from a base station including a plurality of first antenna, a plurality of second antenna, A channel state estimator for estimating a channel state between the plurality of first antennas and a second antenna based on a signal received from the base station, and obtaining channel state information about the channel state; A codebook storage unit for storing a codebook including a plurality of codewords for channel states; And A weight matrix generator for generating a weight matrix for the channel state based on the performance index, the codebook and the channel state information obtained by the channel state estimator, and delivering quantized feedback information about the generated weight matrix to the base station. Receiving device comprising a. The method of claim 1, A multiple antenna unit including the plurality of second antennas to transmit and receive a signal to and from the base station; A received signal combiner configured to generate a vector signal based on the received signal received from the base station and the weight matrix; And A demodulator for demodulating the vector signal generated by the received signal combiner; Receiving device further comprising. The method of claim 1, The codebook storage unit, And a first codebook including a plurality of first codewords for a transmission precoding matrix used in the base station. The method of claim 3, The weight matrix generator, A reception device for generating a first weight matrix for the transmission precoding matrix based on a performance index, the first codebook and the channel state information, and delivering quantized feedback information for the generated first weight matrix to the base station. . In the transmitting device for transmitting and receiving a signal to and from a terminal including a plurality of first antenna, a plurality of second antenna, Feedback information input to the plurality of second antennas and generated based on a weight matrix calculated in consideration of channel state information, codebook, and performance index between the first and second antennas, wherein the feedback information is the A codebook storage unit for outputting a transmission precoding matrix based on a codeword for precoder selection calculated at a terminal; And A transmission signal precoding unit configured to generate a transmission signal using the output transmission precoding matrix and the source signal to be transmitted to the terminal Transmission device comprising a. The method of claim 5, The codebook storage unit may include a codeword of a channel state between the feedback information and the first antenna and the second antenna. A precoding matrix calculator for calculating a transmission precoding matrix based on the codeword for the channel state and transferring the transmission precoding matrix to the transmission signal precoding unit Transmission device further comprising. In the method for transmitting and receiving signals to and from a base station including a plurality of first antennas, the receiving device including a plurality of second antennas combine the received signal, Acquiring channel state information between the first antenna and the first antenna from a channel connected with the base station; Calculating a weight matrix based on channel state information, performance index and quantization information, wherein the quantization information is either a codeword for channel state information or a codeword for transmission precoding matrix selection; And Generating a vector signal using the received signal received from the base station and the weight matrix Received signal combining method comprising a. The method of claim 7, wherein Generating the vector signal, Delivering a codeword obtained by quantizing the calculated weight matrix, wherein the codeword is one of a codeword for a channel state and a codeword for precoding matrix selection; Receive signal combining method further comprising. The method of claim 8, The codeword is a codeword for a channel state, the base station receives the codeword, and the received signal combining method Calculating a transmission precoding matrix based on the codeword; Generating a transmission signal using the calculated transmission precoding matrix and a source signal to be transmitted to the receiving device Receive signal combining method further comprising. 10. The method of claim 9, If the codeword is a codeword for precoding matrix selection, Confirming a transmission precoding matrix for the received codeword from a codebook storage unit in the base station; And Generating a transmission signal using the checked transmission precoding and a source signal to be transmitted to the receiving device Receive signal combining method further comprising.

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