KR101559799B1 - The method for performing CoMP operation and transmitting feedback information in wireless communication system - Google Patents

Abstract

A method for efficiently performing a CoMP operation in a wireless communication system and a feedback information transmission method are disclosed. The UE can transmit additional information in addition to PMI information to be restricted and / or recommended for neighboring cells, noise and interference distribution information for remaining cells not performing CoMP operation. Based on the received information, the neighboring cell can efficiently determine the rank of the PMI to limit and / or recommend. The UE may normalize and transmit the CSI feedback information when transmitting the CSI feedback information to the serving base station.

Multi-cell, channel state information

Description

[0001] The present invention relates to a CoMP operation and a feedback information transmission method in a wireless communication system,

The present invention relates to a wireless communication system, and more particularly, to a method for performing a CoMP operation in a wireless communication system.

A Coordinated Multi-Point (CoMP) system (hereinafter referred to as a CoMP system) is a system that applies improved multiple-input multiple-output (MIMO) transmission in a multi-cell environment to improve user throughput System. The CoMP system can reduce inter-cell interference in a multi-cell environment. With the CoMP system, a UE can receive data jointly from a multi-cell base station.

Also, each base station can simultaneously support one or more UEs (UE 1, UE 2, ..., UE K) using the same radio frequency resource (Same Radio Frequency Resource) to improve the performance of the system. In addition, the BS may perform a Space Division Multiple Access (SDMA) method based on channel state information (CSI) between the BS and the MS.

The CoMP scheme can be divided into cooperative MIMO (Co-MIMO) joint processing (Joint Processing) and cooperative scheduling scheme / beamforming scheme (CS / CB) through data sharing .

1 is a diagram conceptually showing CoMP of an existing intra base station (intra eNB) and inter base station (inter eNB).

Referring to FIG. 1, intra-base stations 110 and 120 and inter-base stations 130 exist in a multi-cell environment. In LTE (Long Term Evolution), an intra base station consists of several cells (or sectors). The cells belonging to the base station to which the specific terminal belongs are related to the specific terminal and the intra base stations 110 and 120. That is, the cells sharing the same cell as the cell to which the UE belongs are the cells corresponding to the intra base stations 110 and 120, and the cells belonging to the other base stations are the cells corresponding to the inter base station 130. In this way, cells based on the same base station as a specific terminal receive and transmit information (e.g., data and channel state information (CSI)) through an x2 interface, And information can be exchanged between the cells through the backhaul 140 and the like.

1, a single-cell MIMO user 150 in a single cell communicates with one serving base station in one cell (sector), and a multi-cell MIMO user 160 located at a cell boundary communicates with multiple cells May communicate with multiple serving base stations.

Hereinafter, a spatial channel matrix to be used as feedback information will be briefly described.

Where H (i, k) is a spatial channel _{matrix, h r, t (i,} k) is element, Nr receiving antennas of the channel matrix H (i, k), Nt the number of transmitting antennas, r indicates a receiving antenna. T denotes an index of a transmission antenna, i denotes an index of an OFDM (or SC-FDMA) symbol, and k denotes an index of a subcarrier.

는 채널 행렬 H(i,k)의 요소(element)로서, i번째 심볼 및 k번째 부반송파상에서의 r번째 채널 상태 및 t번째 안테나를 의미한다.

Is an element of the channel matrix H (i, k), which means the i-th symbol and the r-th channel state on the k-th subcarrier and the t-th antenna.

In addition, a spatial channel covariance matrix that can be used in the present invention will be briefly described. The spatial channel covariance matrix can be represented by the symbol R.

이고, 여기서 H는 공간 채널 행렬을, R은 공간 채널 공분산 행렬을 의미한다. E[]는 평균(mean)을 의미하며, i는 심볼 인덱스, k는 주파수 인덱스를 의미한다.

, Where H denotes a spatial channel matrix and R denotes a spatial channel covariance matrix. E [] denotes mean, i denotes a symbol index, and k denotes a frequency index.

Singular Value Decomposition (SVD) is one of the most important methods for decomposing a rectangular matrix and is a technique widely used in signal processing and statistics. The singular value decomposition is a generalization of the spectral theory of a matrix to an arbitrary rectangular matrix. Using the spectral theory, an orthogonal square matrix can be decomposed into a diagonal matrix with an eigenvalue as a basis. Suppose that matrix H is an m × m matrix of real or complex elements. At this time, the matrix H can be expressed as a product of three matrices as follows.

이다. 이와 같이 세 행렬의 곱으로 나타내는 것을 특이값 분해라고 한다. 특이값 분해는 직교 정사각행렬만을 분해할 수 있는 고유값 분해보다 훨씬 일반적인 행렬을 다룰 수 있다. 이러한 특이값 분해와 고유값 분해 서로 관련되어 있다.Where U and V represent unitary matrices and Σ is an m × n diagonal matrix containing singular values that are not negative. The singular value

to be. The product of these three matrices is called singular value decomposition. Singular value decomposition can deal with a much more general matrix than eigenvalue decomposition, which can only decompose an orthonormal square matrix. These singular value decomposition and eigenvalue decomposition are related to each other.

When the matrix H is a Hermitian matrix with positive positive numbers, all eigenvalues of H are nonnegative real numbers. At this time, the singular value and singular vector of H are all non-negative real numbers of H eigenvalues. The singular value and singular vector of H are equal to the eigenvalues and eigenvectors of H.

Eigen Value Decomposition (EVD) can be expressed as follows.

Here, the eigenvalues may be λ _{1, ..,} λ _r .

Up to now, as the UE transmits only the PMI value as the feedback information, it has been difficult to determine the rank of the PMI values in the base station. Therefore, there is a problem that efficiency and accuracy are poor in performing CoMP operation due to the PMI ranking problem.

SUMMARY OF THE INVENTION The present invention provides a method of performing a CoMP operation and a feedback information transmission method in a wireless communication system.

According to another aspect of the present invention, there is provided a terminal apparatus for performing a CoMP operation and transmitting feedback information in a wireless communication system.

According to another aspect of the present invention, there is provided a base station apparatus for performing a CoMP operation in a wireless communication system.

The technical problems to be solved by the present invention are not limited to the technical problems and other technical problems which are not mentioned can be understood by those skilled in the art from the following description.

According to another aspect of the present invention, there is provided a method for transmitting CoMP feedback information according to the present invention, the method comprising: transmitting, to a serving BS, a PMI (Precoding Matrix Index) set for limiting or recommending a specific neighboring cell And a step of comparing the strength or the interference level of the signal calculated by applying the PMI set to the specific neighbor cell and the intensity or the interference level of the signal calculated when the PMI set information is not applied To the serving base station, a signal strength gain value or an interference level gain value, which is a gain value,

According to another aspect of the present invention, there is provided a method for transmitting CoMP feedback information, the method including measuring a noise and an interference variance corresponding to a signal strength or an interference level using a reference signal received from one or more adjacent cells And noise and interference distribution information including the measured noise and interference variance values and Precoding Matrix Index (PMI) information for limiting or recommending a specific neighbor cell for performing the CoMP operation to the serving BS .

According to another aspect of the present invention, there is provided a terminal apparatus including a measurement module for measuring a noise and an interference variance value including a signal strength or an interference level using a reference signal received from one or more adjacent cells, , Noise and interference distribution information including the measured noise and interference dispersion value, and PMI (Precoding Matrix Index) information for limiting or recommending a specific neighboring cell performing the CoMP operation to the serving BS Module.

According to the present invention, the terminal and the base station can perform the CoMP operation more efficiently.

The effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description will be.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description, together with the accompanying drawings, is intended to illustrate exemplary embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, those skilled in the art will appreciate that the present invention may be practiced without these specific details. For example, the following detailed description is based on the assumption that the mobile communication system is a 3GPP LTE system, but it is applicable to any other mobile communication system except for the specific aspects of 3GPP LTE.

In some instances, well-known structures and devices may be omitted or may be shown in block diagram form, centering on the core functionality of each structure and device, to avoid obscuring the concepts of the present invention. In the following description, the same components are denoted by the same reference numerals throughout the specification.

In the following description, it is assumed that a terminal (or a user equipment) collectively refers to a mobile stationary or stationary user equipment such as a UE (User Equipment) and an MS (Mobile Station). It is also assumed that the base station collectively refers to any node of a network end that communicates with a terminal such as a Node B, an eNode B, and a base station.

In a mobile communication system, a user equipment can receive information from a base station through a downlink, and the terminal can also transmit information through an uplink. The information transmitted or received by the terminal includes data and various control information, and various physical channels exist depending on the type of information transmitted or received by the terminal.

2 is a view for explaining physical channels used in a 3rd Generation Partnership Project (3GPP) LTE (Long Term Evolution) system, which is an example of a mobile communication system, and a general signal transmission method using the same.

The terminal which is turned on again when power is turned off or the terminal which has newly entered the cell performs an initial cell search operation such as synchronizing with the base station in step S201. To this end, the UE receives a Primary Synchronization Channel (P-SCH) and a Secondary Synchronization Channel (S-SCH) from a base station and synchronizes with the base station and acquires information such as a cell ID can do. Then, the terminal can receive the physical broadcast channel from the base station and acquire the in-cell broadcast information. Meanwhile, the UE can receive the downlink reference signal (DL RS) in the initial cell search step to check the downlink channel state.

Upon completion of the initial cell search, the UE receives a physical downlink control channel (PDCCH) and a physical downlink control channel (PDSCH) according to the physical downlink control channel information in step S202, Specific system information can be obtained.

On the other hand, if the base station is initially connected or there is no radio resource for signal transmission, the mobile station can perform a random access procedure such as steps S203 to S206. To this end, the UE transmits a specific sequence as a preamble through a Physical Random Access Channel (PRACH) (S203), and receives a response message for the random access on the PDCCH and the corresponding PDSCH (S204). In case of a contention-based random access except for handover, a contention resolution procedure such as transmission of additional PRACH (S205) and reception of PDCCH / PDSCH (S206) may be performed thereafter.

The UE having performed the procedure described above transmits PDCCH / PDSCH reception (S207) and physical uplink shared channel (PUSCH) / physical uplink control channel (PUCCH) as a general uplink / downlink signal transmission procedure. Physical Uplink Control Channel) transmission (S208). At this time, the control information transmitted by the terminal to the base station through the uplink or received by the terminal from the base station includes a downlink / uplink ACK / NACK signal, a channel quality indicator (CQI) A coding matrix index (PMI), a rank indicator (RI), and the like. In the 3GPP LTE system, the UE can transmit control information such as CQI, PMI, and RI through a PUSCH and / or a PUCCH.

The term base station used in the present invention may be referred to as a cell or a sector when used in a regional concept. The serving base station (or cell) can be viewed as a base station (or cell) that provides a primary service to the terminal and can perform transmission and reception of control information on a coordinated multiple transmission point. In this sense, the serving base station (or cell) may be referred to as an anchor base station (or anchor cell). The serving base station can transmit various information received from the mobile station to a neighboring base station (cell). Likewise, an adjacent base station can be referred to as a neighboring cell when used as a local concept. One CoMP set refers to a set of cells performing a CoMP operation.

When the CoMP method is used in a multi-cell environment, the communication performance of the cell boundary terminal can be improved. This CoMP scheme includes collaborative MIMO joint processing (JP) through data sharing, cooperative scheduling / beamforming (CS / CB) to reduce inter-cell interference such as worst companion and best companion, Method. Here, the worst companion scheme reports a PMI having the greatest interference to cells performing CoMP to the serving BS, so that the corresponding cells can remove inter-cell interference using PMIs other than the corresponding PMI to be. The best companion method is a method of reducing inter-cell interference by using the corresponding PMI by reporting the least interfering PMI to the cells performing CoMP.

In order to efficiently perform the CoMP operation method, it is necessary to define measurement information (measurement information) measuring interference level (or intensity of a signal) for neighboring cells and feedback information to be transmitted to a serving base station have. That is, an efficient CoMP operation can be performed by defining the overall operation procedure mediated by the measurement procedure of the UE and the CoMP Active Set in the CoMP operation. Here, the CoMP active set refers to a set of transmission points for serving a specific terminal and actually carrying out CoMP transmission.

In a CoMP operation mode, when the UE operates in a cooperative scheduling and a beamforming (CS / CB) scheme, the UE performs restriction and / or recommendation on a neighboring cell (CoMP neighbor cell) PMI information desired to be transmitted to the serving BS. When a plurality of UEs perform CoMP operation, if there is a large amount of PMI information that they wish to limit and / or recommend for a CoMP neighbor cell, the corresponding CoMP neighbor cell selects PMIs that can be restricted and / . Accordingly, the CoMP neighboring cell requested for the PMI restriction and / or recommendation of the UE can determine the ranking of the PMI to limit and / or recommend. In this way, the CoMP neighbor cell can determine the ranking of PMIs to limit and / or recommend using the received limit and / or recommended PMI information. However, it is not desirable to determine the PMI for the PMI restriction and / or recommendation request using only the PMI information received by the CoMP neighbor cell.

Thus, the present invention proposes a method to help a CoMP neighbor cell efficiently determine PMI rankings. As one of the proposed methods, the UE can consider not only the PMI information but also a method of transmitting additional information to the serving BS performing the CoMP operation. The UE can transmit this additional information in the case of 1) configuring the CoMP set and 2) in the case of transmitting the PMI information during the CoMP operation.

First, a method of transmitting additional information by the UE during the CoMP set configuration will be described.

The CoMP set may be configured based on measurement information such as the interference level (or signal strength) measured by the UE with respect to the neighboring cell. The CoMP set configuration is advantageous in that the CoMP set configuration can be flexibly configured by configuring the CoMP set for the adjacent cells directly affecting the actual UE based on the UE measurement. The UE can perform measurement of the interference level and the like with respect to the adjacent cell based on the neighbor cell list. Such a UE can receive a neighbor cell list from a serving base station in advance for CoMP set configuration. Alternatively, the UE can directly form a neighbor cell list by measuring the neighbor cell.

The measurement information on the interference level (or signal strength) measured by the UE for the adjacent cell for the CoMP set configuration can be represented by various types of values. Examples of these various types of values include Reference Signal Received Power (RSRP), Reference Signal Received Quality (RSRQ), Reference Signal Strength Indicator (RSSI), Propagation Carrier interference plus noise ratio (CINR) values for adjacent cells measured when a neighbor cell uses a good PMI or a bad PMI, A signal to interference plus noise ratio (SINR) value, a CINR value or a SINR value measured when a neighboring cell does not use a good PMI or a bad PMI (bad PMI), a previously measured CINR value, An improved CINR value or an SINR value for a serving cell that indicates how the channel state of the serving cell is improved by comparing the difference with the SINR value or the like. In particular, an improved CINR value or a SINR value can help determine the PMI rank in the neighboring cell. If the UE does not use a good PMI recommended by the UE in the adjacent cell or does not use a bad PMI (bad PMI), the UE must perform the measurement before the CINR value or the SINR value is limited and / A value corresponding to the difference between the measured CINR value and the SINR value may be generated and transmitted to the base station. Neighboring cells that have received this information from the serving base station may be able to determine the PMI rank because they can grasp the degree of improvement of the channel state based on the difference value of the CINR value or the SINR value.

As described above, in the LTE system, the UE can measure the channel quality state between itself and the cell using the improved CINR value or the SINR value corresponding to the power of the pilot signal, the RSRP, and the like. Here, the reference signal reception power refers to a linear average of the power allocated to the resource element to which the cell-specific reference signal is allocated within the considered measurement frequency bandwidth. The power of each resource element on the resource block may be determined from the energy received from the effective interval of the symbol except for the cyclic prefix (CP). The reference signal reception power can be applied to the UE in both the RRC_idle state and the RRC_connected state. Also, when receiver diversity is used by the terminal, the reported value will be equal to the linear average of the power values of all diversity branches.

The UE may transmit the various types of measurement values described above to the serving BS in addition to the PMI information that the UE desires to restrict and / or recommend for the CoMP neighbor cell. Meanwhile, the UE can transmit the various types of measurement values, which are additionally transmitted when the CoMP set is configured, to the serving base station while performing the CoMP operation, and again perform the measurement of the interference level and the like on the CoMP neighbor cell during the CoMP operation, To the serving base station.

Based on the measurement of the adjacent cell of the UE (for example, the reference signal reception power measurement), the UE can report the information necessary for configuring the CoMP set to the serving BS. The information reported to the serving base station may include the cell ID information of the neighboring cell together with one or more of the measurement values of the adjacent cell. When the UE directly forms a neighbor cell list, the UE can directly increase the measured cell ID information of the neighbor cell.

When the serving base station provides a list of neighbor cells in advance to the terminal, the terminal transmits an RSRP value or the like measured for the corresponding cell in the order of the predefined cell ID, or transmits an index corresponding to the cell ID To the serving base station. Alternatively, the UE can sort the index information corresponding to the cell ID in order of the interference level, and transmit the index and the interference level, which is a measurement value corresponding to the index, to the serving BS.

The serving BS can receive PMI information and interference level information that the UE desires to restrict and / or recommend for the CoMP neighbor cell from the UE. The serving base station may transmit the received PMI information and interference level information to the CoMP neighbor cell. The CoMP neighboring cell that received this information can determine the PMI to limit and / or recommend using the PMI information and the interference level information that the UE desires to restrict and / or recommend, and determine PMI ranking information for the determined PMIs Can be generated. At this time, the CoMP neighboring cell may determine the PMI to limit and / or recommend with only PMI counting without interference level information. That is, the PMI ranking can be determined based on the limit and / or the recommended number of PMIs for CoMP specific neighbor cells. However, if the number of UEs performing CoMP is small, or if the number of PMIs requesting restriction and / or recommendation for a CoMP neighbor cell is the same, there is a fear that the criteria for selecting a PMI may become ambiguous. Nevertheless, the CoMP neighbor cell can reduce the overhead burden of transmitting additional feedback information to the UE and the BS by determining the PMI that has received the most restriction and / or recommendation request.

The PMI information and the additional information are transmitted during the CoMP operation.

When a CoMP set is configured or a CoMP operation is performed without configuring a CoMP set, the UE may select a PMI to restrict and / or recommend to the neighboring cell that is interfering with and transmit the selected PMI to the serving BS. When the UE transmits the PMI to perform the cooperative scheduling scheme while performing the CoMP operation, the serving BS can resolve the problem of determining the PMI rank using the interference level information received from the UE in the CoMP set configuration. That is, when the UE uses the interference level information on the neighbor cell measured in the CoMP set configuration, only the PMI information about the neighbor cells can be transmitted to the serving BS during the CoMP operation. In this case, the PMI ranking problem can be solved with a small feedback overhead.

Meanwhile, the UE may transmit interference level information and the like in addition to the PMI information on the CoMP neighbor cells during the CoMP operation. In case of the interference level information reported in the CoMP set configuration (if the CoMP system does not constitute the CoMP set), the interference level that varies with time may not be accurately reflected. Therefore, the terminal can solve this problem by transmitting the PMI information and the interference level information together. At this time, the terminal may transmit the PMI information and the interference level information in the same transmission period or in different transmission periods.

Additional transmitted interference level information may be represented by various types of measurement values. This may be the same as the measured values measured by the terminal for the neighboring cell in the CoMP set configuration. For example, the reference signal received power (RSRP), the reference signal received quality (RSRQ), the reference signal strength indicator (RSSI) Carrier interference plus noise ratio (CINR) values for adjacent cells measured when a neighbor cell uses a good PMI or a bad PMI, A signal to interference plus noise ratio (SINR) value, a CINR value or a SINR value measured when a neighboring cell does not use a good PMI or a bad PMI (bad PMI), a previously measured CINR value, An improved CINR value or an SINR value for a serving cell that indicates how the channel state of the serving cell is improved by comparing the difference with the SINR value or the like. In particular, an improved CINR value or a SINR value can help determine the PMI rank in the neighboring cell. The UE measures the measured CINR value or SINR value and / or the recommended PMI when the UE uses good PMI recommended by the UE or does not use a bad PMI (bad PMI) A value corresponding to the difference between the CINR value and the SINR value can be measured and generated and transmitted to the base station. Neighboring cells that have received this information from the serving base station may be able to determine the PMI rank because they can grasp the degree of improvement of the channel state based on the difference value of the CINR value or the SINR value. In this manner, the UE can measure the interference level difference between the case where the PMI set reported to the adjacent cell is applied to the neighbor cell and the case where the PMI set is not applied to the neighboring cell, and report to the serving BS.

A method of transmitting PMI information and noise plus interference variance information in addition to a method of transmitting PMI information and interference level information (or related information) during a CoMP operation may be considered. That is, in order to help the CoMP neighbor cell to determine the PMI ranking, the UE transmits noise and interference distribution information together with the PMI information, so that the CoMP neighbor cell can efficiently select PMIs to restrict and / or recommend, Can be determined.

Hereinafter, a method of transmitting PMI information and noise and interference distribution information to a serving BS as a feedback information transmission method will be described. First, the definition of feedback information to be measured and transmitted by the UE will be described.

는 단말이 서빙 셀에 대해 선택한 PMI,

는 단말이 서빙 셀에 대해 측정한 잡음 및 간섭 분산(서빙 셀 신호의 세기를 의미할 수 있음),

는 단말이 CoMP 동작을 수행하는 각 인접 셀에 대해 제한 및/또는 추천하기를 원하 는 PMI,

는 CoMP 동작을 수행하지 않는 나머지 셀에 대한 잡음 및 간섭 분산,

는 CoMP 동작을 수행하는 각 인접 셀에서 제한 및/또는 추천 PMI가 적용되었을 때에 해당 인접 셀의 잡음 및 간섭 분산(해당 인접 셀의 신호의 세기 또는 간섭의 세기),

는 CoMP 동작을 수행하는 각 인접 셀에서 제한 및/또는 추천하는 PMI가 적용되었을 때와 적용되지 않을 경우의 해당 인접 셀의 잡음 및 간섭 분산 변화량(해당 인접 셀의 신호의 세기의 변화량 또는 간섭의 세기의 변화량)이다. 그리고

은 CoMP 동작을 수행하는 각 인접 셀에 대해 제한 PMI가 적용되었을 때의 해당 인접 셀의 잡음 및 간섭 분산,

은 각 CoMP 동작을 수행하는 인접 셀에 대해 추천 PMI가 적용되었을 때의 해당 인접 셀의 잡음 및 간섭 분산,

,...,

은 CoMP 동작을 수행하는 각 인접 셀에 대해 제한 PMI가 적용되었을 때와 적용되지 않을 때의 차이값(해당 인접 셀의 잡음 및 간섭 분산 변화량)이고,

,...,

은 각 CoMP 동작을 수행하는 인접 셀에 대해 추천 PMI가 적용되었을 때와 적용되지 않을 때의 차이값(해당 인접 셀의 잡음 및 간섭 분산 변화량)이고,

은 각 CoMP 동작을 수행하는 인접 셀에서 제한 및/또는 추천 PMI가 적용되었을 때에 단말이 측정할 수 있는 전체 셀에 대한 잡음 및 간섭 분산값이고,

은 각 CoMP 동작을 수행하는 해당 인접 셀에서 제한 및/또는 추천 PMI가 적용되었을 때와 적용되지 않았을 때에 단말이 측정할 수 있는 전체 셀에 대한 잡음 및 간섭 분산의 변화량을 말한다. 이하에서 보다 구체적으로 단말이 서빙 기지국으로 전송하는 잡음 및 간섭 분산값의 형태에 따라 구분되는 피드백 정보 전송 예들을 설명할 것이다.

The PMI selected by the UE for the serving cell,

(Which may mean the strength of the serving cell signal), the noise and interference variance measured for the serving cell by the UE,

A PMI that the UE desires to limit and / or recommend for each neighbor cell performing the CoMP operation,

The noise and interference distribution for the remaining cells not performing the CoMP operation,

(The intensity or intensity of the signal strength of the neighboring cell) of the neighboring cell when the limit and / or the recommended PMI is applied in each neighboring cell performing the CoMP operation,

Is the noise and interference variance change amount of the adjacent cell when the limit and / or the recommended PMI is applied in each neighboring cell performing the CoMP operation, and when the PMI is not applied (the change amount of the signal intensity of the neighboring cell or the intensity . And

The noise and interference distribution of the adjacent cell when the restricted PMI is applied to each adjacent cell performing the CoMP operation,

The noise and interference distribution of the adjacent cell when the recommended PMI is applied to the adjacent cell performing each CoMP operation,

, ...,

Is a difference value (a change amount of noise and interference dispersion of a corresponding adjacent cell) when the constrained PMI is applied to each adjacent cell performing the CoMP operation and when the restricted PMI is applied,

, ...,

Is the difference value (the noise and interference variance change of the corresponding neighbor cell) when the recommended PMI is applied to the adjacent cell performing each CoMP operation and when the recommended PMI is not applied,

Is a noise and interference variance value for all cells that can be measured by the UE when the limit and / or the recommended PMI is applied in the adjacent cell performing each CoMP operation,

Refers to the amount of change in noise and interference distribution over all cells that can be measured by the UE when the limit and / or recommendation PMI is applied to the corresponding neighbor cell performing each CoMP operation and when the recommendation PMI is not applied. Hereinafter, examples of transmission of feedback information classified according to the types of noise and interference variance values transmitted from the UE to the serving BS will be described.

As a first noise and interference distribution information transmission method, a UE located at a cell boundary transmits PMI information to restrict and / or recommend CoMP neighbor cells performing a CoMP operation to a serving base station, Noise and interference distribution information on the cell can be additionally transmitted.

에 추가하여, CoMP 인접 셀에 제한 또는 추천 PMI가 적용되었을 때의 잡음 및 간섭 분산값

을 추가로 전송할 수 있다(여기서 N은 CoMP 동작을 수행하는 셀 들 중 간섭을 주고 있는 셀의 인덱스를 의미).

값은 특정 CoMP 인접 셀에 국한된 잡음 및 간섭 분산값이다. 이 잡음 및 간섭 분산값에 기초하여 상기 특정 CoMP 인접 셀에 제한 또는 추천 PMI가 적용되었을 때와 적용되지 않았을 때의 잡음 및 간섭 분산 변화량을

와 같이 표현할 수 있다. 즉, 단말은 제한 및/또는 추천하는 PMI,

,

(또는

)을 서빙 기지국에 전송 하거나, 또는 제한 및/또는 추천하는 PMI,

,

및

모두를 전송할 수 있다.A method for transmitting different noise and interference diversity information, the method comprising: receiving, by a UE, PMI information that it wishes to restrict and / or recommend for CoMP neighbor cells, noise and interference distribution

, The noise and interference variance value when the restricted or recommended PMI is applied to the CoMP neighbor cell

(Where N denotes an index of a cell which is performing interference among the cells performing the CoMP operation).

The value is the noise and interference variance value localized to a particular CoMP neighbor cell. The noise and interference variance change amounts when the limit or recommended PMI is applied to the specific CoMP neighbor cell and when the recommended PMI is not applied to the specific CoMP neighbor cell based on the noise and interference variance value

Can be expressed as That is, the terminal may limit and / or recommend PMI,

,

(or

) To the serving base station, or restricts and / or recommends PMI,

,

And

All can be transmitted.

에 덧붙여, 특정 CoMP 인접 셀에 제한 PMI가 적용되었을 때의 잡음 및 간섭 분산값

와 추천하는 PMI가 적용되었을 때의 잡음 및 간섭 분산값

을 추가로 서빙 기지국에 전송할 수 있다. 또는, 단말은 서빙 기지국으로

와

값의 차이값인

을 전송할 수도 있다. 또는, 단말이 제한 및/또는 추천하는 PMI,

,

,

및

정보 모두를 서빙 기지국에 전송할 수도 있다. As another method, the UE may limit the cells for performing the CoMP operation and / or the noise and interference dispersion values for the remaining cells that do not perform the recommended PMI and CoMP operations

, The noise and interference variance value when the restricted PMI is applied to a specific CoMP neighbor cell

And the noise and interference variance value when the recommended PMI is applied

To the serving base station. Alternatively, the terminal may transmit

Wow

The value of the difference

Lt; / RTI > Alternatively, the PMI, which the terminal restricts and / or recommends,

,

,

And

Information to the serving base station.

에 덧붙여, 특정 CoMP 인접 셀에 대해 제한 또는 추천하는 PMI가 적용되었을 때의 전체 잡음 및 간섭 분산값

또는 상기

와 특정 CoMP 인접 셀에 대해 제한 또는 추천하는 PMI가 적용하기 전의 CoMP 동작을 수행하는 전체 셀에 대한 잡음 및 간섭 분산값과의 차이값인

을 서빙 기지국 으로 전송할 수 있다. 즉, 단말은

또는

값을 추가적으로 서빙 기지국에 전송할 수 있다. 여기서

값은 특정 CoMP 인접 셀에 국한된 잡음 및 간섭 분산 값이 아니라 단말에 영향을 미치는 전체 셀에 대한 잡음 및 간섭 분산값의 변화량을 의미한다. As another noise and interference distribution information transmission method, a UE performs a PMI for a CoMP operation and / or a recommendation and / or recommendation for a CoMP operation, and a noise and interference distribution

In addition to the total noise and interference variance value when a limited or recommended PMI is applied to a specific CoMP neighbor cell

Or

And a difference value between noise and interference dispersion values for all cells performing CoMP operation before the limit or recommended PMI is applied to a specific CoMP neighbor cell.

To the serving base station. That is,

or

Value to the serving base station. here

Value is not a noise and interference dispersion value localized to a specific CoMP neighbor cell but a variation amount of noise and interference dispersion value for all cells affecting the UE.

및 CoMP 동작을 수행하지 않는 나머지 셀에 대한 잡음 및 간섭 분산

에 추가하여

을 서빙 기지국으로 전송할 수 있다. 또는 단말은 특정 CoMP 인접 셀들에 대해 제한 및/또는 추천하는 PMI 정보와 CINR값인

,

를 전송할 수 있다. 이를 수신한 기지국은 협력 스케줄링/빔포밍을 수행할 때에 PMI 정보,

및

값에 기반하여

와 같이 CINR을 계산할 수 있다. 조인트 프로세싱을 수행할 시에는

와 같이 CINR을 계산할 수 있다. 이러한 전송 방법에 의하여, 단말은 서빙 기지국으로 전송하는 피드백 정보량을 감소시킬 수 있다. 또한, 단말이 제한 또는/및 추천하는 PMI가 적용되었을 때와 적용되지 않았을 때의 잡음 및 간섭 분산 변화량

을 이용해서 서빙 기지국으로 CINR 값을 보낼 수도 있다. 즉, 단말은 제한 및/또는 추천하는 PMI,

및

을 서빙 기지국에 전송할 수 있다. 또는, 단말이 제한 또는/및 추천하는 PMI,

,

및

을 서빙 기지국에 전송할 수 있다. As another noise and interference distribution information transmission method, a UE may limit and / or recommend recommended PMI for cells performing CoMP operation, noise and interference dispersion value of a serving cell

And noise and interference distribution for the remaining cells not performing CoMP operation

In addition to

To the serving base station. Alternatively, the UE may limit and / or recommend PMI information and CINR values for specific CoMP neighbor cells

,

Can be transmitted. Upon receiving cooperative scheduling / beamforming, the base station receives PMI information,

And

Based on the value

CINR can be calculated as shown in Fig. When performing joint processing,

CINR can be calculated as shown in Fig. With this transmission method, the UE can reduce the amount of feedback information to be transmitted to the serving BS. In addition, the noise and interference variance change when the terminal applies and / or recommended PMI is applied and not applied

May be used to send the CINR value to the serving base station. That is, the terminal may limit and / or recommend PMI,

And

To the serving base station. Alternatively, the PMI, which the terminal restricts and / or recommends,

,

And

To the serving base station.

에 기초하여, CoMP 동작을 수행하는 CoMP 인접 셀에 대한 정보를 추가적으로 전송할 수도 있다. 즉, 단말은 CoMP 동작을 수행하는 인접 셀에 대한 간섭 레벨 정보를 추가적으로 서빙 기지국으로 전송할 수 있다. 단말이 다중 셀의 신호 세기를 측정하는 때에 서빙 셀과 인접 셀 간에 참조심볼 자원 요소(reference symbol resource element)와 데이터 자원 요소의 충돌 등으로 인해 CoMP 동작을 수행하지 않는 인접 셀에 대한 잡음 및 간섭 분산값에 해당하는 값을 측정하여 구하기 어려울 수 있다. 따라서 단일 셀 동작에서 피드백 정보 전송을 위해 측정한 값들을 그대로 이용하여 다중 셀에서 CoMP 동작에서 피드백 전송을 함으로써, 다중 셀 기반으로 확장할 수 있으며 보다 효율적으로 피드백 정보를 전송할 수 있다. 결과적으로, 다중 셀 기반하에서 CoMP 인접 셀에 대한 간섭 레벨 측정에 따른 오버헤드, 피드백 정보 전송에 따른 오버헤드를 상당히 줄일 수 있다. As another noise and interference distribution information transmission method (Option 6), a CQI value transmitted from a UE to a base station in a single cell operation

The information about the CoMP neighboring cell performing the CoMP operation may be additionally transmitted. That is, the UE can additionally transmit the interference level information on the neighboring cell performing the CoMP operation to the serving BS. When the UE measures the signal strength of multiple cells, noise and interference distribution for neighboring cells that do not perform CoMP operation due to collision of reference symbol resource element and data resource element between the serving cell and neighboring cells It may be difficult to measure the value corresponding to the value. Therefore, by using the measured values for the feedback information transmission in the single cell operation, the feedback can be transmitted in the CoMP operation in the multi-cells, so that the feedback information can be transmitted more efficiently. As a result, it is possible to considerably reduce the overhead due to the measurement of the interference level for the CoMP neighbor cell under the multi-cell basis and the overhead due to the transmission of the feedback information.

값에 서빙 셀의 신호의 세기로 정규화된 인접 셀의 신호의 세기

를 추가로 전송할 수 있다. 이를 통해 협력 스케줄링/빔포밍(CS/CB) 방식뿐만 아니라, 조인트 프로세싱(JP) 방식도 원활하게 수행할 수 있다.As an example, the UE may calculate a CQI value for a serving cell in a single cell basis

The value of the signal strength of the adjacent cell normalized by the strength of the signal of the serving cell

Can be further transmitted. Thus, not only the cooperative scheduling / beamforming (CS / CB) method but also the joint processing (JP) method can be performed smoothly.

The above-described noise and interference distribution information transmission method is merely illustrative. The UE may combine the noise and interference distribution information in various forms and feed back various types of measured channel state information to the serving base station.

Table 1 below is a table illustrating measurement information values measured from neighboring cells for the UE to transmit to the serving base station.

The value measured for the serving cell The value to be measured for neighboring cells performing CoMP operation The value measured for the remaining cells that do not perform CoMP operation Option 1

,

(선택적임)

,

(Optional)

Option 2-1

,

(Optional)

or

Option 2-2

,

(Optional)

And

Option 3-1

,

(Optional)

(

) or (

, ...,

, ...,

)

Option 3-2

,

(Optional)

(

) And (

, ...,

, ...,

)

Option 4-1

,

(Optional)

or

Option 4-2

,

(Optional)

And

Option 5-1

,

or

Option 5-2

,

And

Option 6

The measurement information transmission shown in Table 1 is merely an example, and the UE can combine the measured various measured values into various forms and feed back to the serving base station.

3 is a diagram for explaining a concept that a terminal and a base station perform CoMP operation according to the present invention.

로 표현 가능하다. 단말이 셀 B에 대해 제한하기를 원하는 PMI인 W₂를 전송하고자 할 때, 셀 B가 W₂를 제한했을 때의 잡음 및 간섭 분산값인

를 함께 전송할 수 있다. 또는, 단말은 서빙 기지국으로 셀 B가 W₂를 제한하지 않았을 때의 잡음 및 간섭 분산값과 제한했을 때의 값과의 차이값인

을 추가적으로 보낼 수도 있다. 이때, 셀 B에 제한 PMI가 적용되었을 때의 잡음 및 간섭 분산값은

로, 추천 PMI가 적용되었을 때의 잡음 및 간섭 분산값은

로 나타낼 수 있고, 그 차이값은

로 나타낼 수 있다. 또한, 셀 B에 제한 또는 추천 PMI가 적용되었을 때의 전체 셀(셀 A 내지 셀 I)의 잡음 및 간섭 분산 값의 변화량을

로 나타낼 수 있다. There are nine neighboring cells (Cell A to Cell I) in a cell located at a cell boundary, and three of the neighboring cells (Cell A, Cell B, and Cell C) are cooperative scheduling / beamforming or PMI restriction and / Suppose you are involved in referrals. Consider a case where a cell boundary terminal belonging to cell A is interfered with from cell B and cell C, respectively, and that it is desired to restrict W ₂ and W ₃ in PMI for cell B and cell C, respectively. Here, the noise and interference dispersion values generated from the remaining six cells (cell D to cell I) that do not perform the CoMP operation are

. When the UE desires to transmit W ₂ , which is the PMI desired to be limited to the cell B, the noise and interference dispersion value when the cell B limits W ₂

Can be transmitted together. Alternatively, the UE determines whether the difference between the noise and interference dispersion values when the cell B does not restrict W ₂ to the serving base station and the difference between the noise and interference dispersion values

May be additionally sent. At this time, the noise and interference variance value when the restricted PMI is applied to the cell B

, The noise and interference variance values when the recommended PMI is applied are

, And the difference value is represented by

. Further, the amount of change in the noise and interference dispersion values of all the cells (cells A to I) when the limit or the recommended PMI is applied to the cell B is

.

에 추가하여, 셀 B가 W₂를 제한했을 때의 잡음 및 간섭 분산값

및/또는 제한 PMI에 따른 잡음 및 간섭 분산값의 변화량인

을 더 포함하여 서빙 기지국으로 전송할 수 있다. 또한, 단말은 셀 B에 대하여 제한하고자 하는 PMI인 W_{2 ,} 및

외에

,

,

및

중에서 하나 이상의 값을 선택해서 함께 서빙 기지국으로 전송할 수 있다. The UE can transmit various types of measured values together with the PMI information to the serving BS in various combinations. For example, the terminal cell of PMI W _2, and does not perform the CoMP operation noise from the remaining six cells, and interference variance value to be limiting to the B

, The noise and the interference dispersion value when the cell B limits W ₂

And / or a change in the noise and interference variance value according to the limited PMI

To the serving base station. In addition, the terminal may determine that W _{2 ,} which is the PMI to be restricted for cell B _, and

In addition to

,

,

And

And transmits the selected value to the serving base station.

에 추가하여, 셀 C가 W₃를 제한했을 때의 잡음 및 간섭 분산값

또는 제한 PMI인 W₃ 에 따른 잡음 및 간섭 분산값의 변화량인

을 전송할 수 있다. 또한, 단말은 셀 C에 대하여 제한하고자 하는 PMI인 W_{3 ,} 및

에 추가하여

중 하나 이상의 값을 선택해서 함께 서빙 기지국으로 전송할 수 있다.Similarly, in the case of the cell C, the terminal calculates W ₃ , which is the PMI to be limited for the cell C, and the noise and interference dispersion value

, The noise and the interference dispersion value when the cell C limits W ₃

Or limited PMI W ₃ The variation of noise and interference dispersion value

Lt; / RTI > In addition, the terminal has a PMI W ₃ to be restricted to the cell C _, and

In addition to

And transmit the selected value to the serving base station.

을 구할 수 있고, 이는 PMI 순위 결정 문제를 해결하고 효율적인 협력 스케줄링/빔포밍 동작을 가능하게 해준다. Based on the noise and interference variance value, the base station receiving this information may limit and / or recommend the PMI to be recommended,

, Which solves the PMI ranking problem and enables efficient cooperative scheduling / beamforming operations.

The UE may normalize and transmit the CSI feedback information when transmitting the CSI feedback information to the serving base station.

The UE may report to the serving BS the recommended transmission characteristics (e.g., CQI, PMI, RI) and other channel state information (CSI). Generally, the CSI feedback method includes a quantization CSI feedback method and an analogue CSI feedback method. Regardless of the type of the CSI feedback scheme, the CSI reported by the UE to the serving cell includes a spatial channel matrix H (hereinafter referred to as 'channel matrix H' or 'matrix H') or a spatial channel covariance matrix R Quot; covariance matrix R " or " matrix R ", etc.). That is, the UE can transmit the spatial channel matrix H or the spatial channel covariance matrix R information as CSI feedback information to the serving base station, and the noise variance information (for example, , Interference level) can be additionally transmitted. That is, the UE may transmit a noise plus interference variance to the serving BS together with the spatial channel matrix H or the spatial channel covariance matrix R.

In this manner, the terminal can normalize and transmit the CSI so as to transmit the CSI more accurately and efficiently. This normalization method may be performed on a component basis of the channel matrix H and / or the covariance matrix R, or on a column-by-column vector. The vector normalization in units of columns will be described below.

The normalization of the vector unit can be performed using the maximum value among the norm values of each column of the matrix. The noise and interference variance as well as the channel matrix H and / or the covariance matrix R can be normalized with the column having the maximum norm value. After normalization, each column can be transmitted in two ways.

First, the UE can send a weight factor of norm values of each column normalized with the CSI feedback information to the serving BS. The BS and the UE share a codebook corresponding to one norm value (for example, norm = 1), and the serving BS receives the phase information through the channel matrix H and / or the covariance matrix R received from the UE And the size of the constellation can be known through the weight coefficient of the norm value of each column received from the terminal. The weighting coefficient value may be transmitted as it is or may be transmitted in units of a previously quantized value. Also, it can be expressed by only the amount of change of the corresponding value based on the weighting coefficient 1.

Second, the base station and the terminal have codebooks corresponding to a plurality of norm values in advance, and not only the phase information but also the size information on the constellation through the channel matrix H and / or the covariance matrix R transmitted by the terminal Can be obtained. The more the number of predefined codebooks, the more accurate estimation is possible.

A case where the UE transmits the normalized channel matrix H and / or the covariance matrix R will be described by way of example. Assume a 4x4 MIMO system with four transmit antennas at the base station and four receive antennas at the terminal. The UE can transmit the 4x4 channel matrix H represented by Equation (1) to the serving BS.

라고 가 정하자. 채널 행렬 H는 행렬의 각 열의 놈 값 중 최대값인 첫 번째 열의 놈 값인 2로 정규화될 수 있다. 이렇게 정규화된 각 열의 놈 값은 각각 1, 0.5, 0.5, 0.25가 되며, 단말은 1이 아닌 놈 값에 대한 가중 계수를 서빙 기지국에 전달할 수 있다.Here, the values of the norms of the respective columns are

Let 's say. The channel matrix H can be normalized to 2, which is the norm value of the first column, which is the maximum value among the norm values of each column of the matrix. The normalized norm values of each column are 1, 0.5, 0.5, and 0.25, respectively, and the UE can transmit the weighting factors for non-1 norm values to the serving base station.

,

,

,

와 같이 4가지 놈 값에 대한 코드북이 있다고 가정하자. 우선 채널 행렬 H를 열의 놈 값들 중 가장 큰 놈 값으로 정규화를 수행할 수 있다. 상기 수학식 1의 예에서, 정규화 이후 첫 번째 열은

중 한 값에 매핑되고, 2, 3 번째 열은 각각

,

중 한 값에 각각 매핑될 수 있다. 마찬가지로, 4번째 열은

중 한 값에 매핑될 수 있다. 매핑 이후에는 단말은 해당 인덱스를 서빙 기지국으로 피드백해 줄 수 있다. In addition to a method in which a terminal transmits a weighting factor to a serving base station, a terminal matrix and a base station can know a channel matrix value by mapping a value corresponding to a codebook corresponding to various norm values in advance. E.g,

,

,

,

Assume that there is a codebook for four bomb values as shown in Fig. The channel matrix H can be normalized to the largest norm value among the column values of the column. In the example of Equation (1), the first column after normalization is

, And the second and third columns are mapped to one of

,

Respectively. ≪ RTI ID = 0.0 > Similarly, the fourth column

Lt; / RTI > After the mapping, the UE can feedback the index to the serving BS.

The present invention can be extended to transmitting noise and interference variance values due to the channel matrix H or covariance matrix R of each of a plurality of base stations and other base stations. Here, the normalization may be performed using the largest one of the columns of all the channel matrices, or the largest one of the columns of all the covariance matrices.

4 is a diagram showing a configuration of a preferred embodiment of a terminal device according to the present invention.

4, a terminal device capable of performing a CoMP operation in a wireless communication system includes a processor 410, a memory unit 420, a transmission module 430, and a reception module 440.

Processor 410 includes a measurement module 411 as a module. The measurement module 411 may measure the interference level, noise, and interference variance using the reference signal received from one or more neighboring cells.

The memory unit 420 may store various kinds of information received from the base station and the values measured by the measurement module 411 for a predetermined period of time. The memory unit 420 may be replaced with another component such as a buffer (not shown).

Transmission module 430 transmits the interference level information or noise and interference distribution information measured by the measurement module 411 and Precoding Matrix Index (PMI) information for limiting or recommending a specific neighbor cell performing the CoMP operation To the serving base station.

The receiving module 440 receives various signals and data such as control information and data from the serving base station.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The foregoing description of the preferred embodiments of the invention disclosed herein has been presented to enable any person skilled in the art to make and use the present invention. Although the present invention has been fully described by way of example with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. For example, those skilled in the art can utilize each of the configurations described in the above-described embodiments in a manner of mutually combining them.

Accordingly, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 1 conceptually shows CoMP between an intra-base station (intra eNB) and an inter-base station (inter eNB)

2 is a view for explaining physical channels used in a 3rd Generation Partnership Project (3GPP) LTE (Long Term Evolution) system, which is an example of a mobile communication system, and a general signal transmission method using them;

3 is a diagram for explaining a concept that a terminal and a base station perform a CoMP operation according to the present invention,

4 is a diagram showing a configuration of a preferred embodiment of a terminal device according to the present invention.

Claims (16)

A method for transmitting feedback information in a wireless communication system in which at least one base station performs Coordinated Multi-Point (CoMP) operation, Transmitting Precoding Matrix Index (PMI) set information for limiting or recommending a specific neighbor cell performing the CoMP operation to a serving BS; And Which is a value corresponding to a difference between an interference level of the signal calculated by applying the PMI set to the specific neighbor cell and an intensity or an interference level of the signal calculated when the PMI set information is not applied, Value or an interference level gain value to the serving base station. The method according to claim 1, The signal strength or interference level may be determined based on a Signal to Interference plus Noise Ratio (SINR) value, a reference signal received power (RSRP), a reference signal received quality (RSRQ) Wherein the value of the CoMP feedback information is expressed by a value of a signal strength indicator (RSSI), a propagation delay (PD), and a Carrier to Interference plus Noise Ratio (CINR) value. A method for transmitting feedback information in a wireless communication system performing Coordinated Multi-Point (CoMP) operation, Measuring a noise and interference variance corresponding to a signal strength or an interference level using a reference signal received from one or more adjacent cells; And And transmitting the noise and interference distribution information including the measured noise and interference variance value and the Precoding Matrix Index (PMI) information for limiting or recommending a specific neighboring cell that performs the CoMP operation to the serving BS And transmitting the CoMP feedback information. The method of claim 3, The noise and interference distribution information may be a difference value between the noise and interference variance value in the case where the PMI that is desired to be limited or recommended and the noise and interference variance value in the case where it is not applied The first noise and the interference distribution information corresponding to the first noise and the interference distribution information. The method of claim 3, Wherein the noise and interference distribution information further includes second noise and interference distribution information corresponding to a noise and interference dispersion value for a cell that does not perform the CoMP operation. 6. The method of claim 5, Wherein the noise and interference distribution information further includes third noise and interference distribution information corresponding to a value calculated by applying the limited or recommended PMI information to the specific neighboring cell. 6. The method of claim 5, The noise and interference variance information includes fourth noise and interference variance information that is a difference between a noise and interference variance value before applying the limited or recommended PMI information to the specific neighboring cell and a noise and interference variance value when applied, And transmitting the CoMP feedback information. 6. The method of claim 5, The noise and interference distribution information includes a noise and interference dispersion value calculated by applying the PMI desired to be limited to the specific neighboring cell and a noise and interference dispersion value calculated by applying the PMI desired to be recommended 5 < / RTI > noise and interference variance information. 6. The method of claim 5, The noise and interference distribution information includes a noise and an interference dispersion value calculated by applying a PMI that is desired to be limited to the specific neighboring cell and a value corresponding to a difference between noise and interference dispersion values calculated by applying a PMI that is desired to be recommended And sixth noise and interference distribution information of the CoMP feedback information. 6. The method of claim 5, Wherein the noise and interference distribution information further includes seventh noise and interference distribution information corresponding to the noise and interference dispersion values calculated by applying the limited or recommended PMI information to all cells performing the CoMP operation, Information transmission method. 6. The method of claim 5, Wherein the noise and interference distribution information includes at least one of a noise and an interference dispersion value for all cells performing the CoMP operation before applying the received PMI to the specific neighbor cell and a noise and interference dispersion value And the eighth noise and dispersion information. 6. The method of claim 5, Wherein the noise and interference variance information further includes noise and variance value information for a serving cell. 13. The method of claim 12, The noise and interference variance information may be calculated by applying a noise and interference variance value for a cell that does not perform the CoMP operation or a limited or recommended PMI information to the specific neighbor cell together with the noise and dispersion value for the serving cell Further comprising information of a value indicated using a noise and interference variance value. 13. The method of claim 12, The noise and interference variance information may include noise and variance values for the serving cell and a noise and interference variance value for a cell that does not perform the CoMP operation or a noise and interference variance value for applying the received PMI to the specific neighboring cell Value and a value corresponding to a difference between a noise and a variance value calculated by applying the value to the CoMP feedback information. A method for a base station performing a CoMP operation in a wireless communication system, Receiving precoding matrix index (PMI) information that the terminal desires to limit or recommend to the base station and noise and interference distribution information including the strength or interference level of the signal for one or more adjacent cells measured by the terminal ; And Generating PMI ranking information for limiting or recommending to the terminal based on the received PMI information and the noise and interference distribution information. A terminal apparatus for transmitting feedback information in a wireless communication system performing Coordinated Multi-Point (CoMP) operation, A measurement module for measuring a noise and interference variance value including a signal intensity or an interference level using a reference signal received from one or more adjacent cells; And A transmission module for transmitting noise and interference distribution information including the measured noise and interference dispersion value and Precoding Matrix Index (PMI) information for limiting or recommending a specific neighboring cell performing the CoMP operation to a serving BS .

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