Patent Document

CROSS-REFERENCE TO RELATED APPLICATION 
       [0001]    This application is a continuation of International Application No. PCT/CN2013/091224, filed on Dec. 31, 2013, which is incorporated herein by reference in its entirety. 
     
    
     TECHNICAL FIELD 
       [0002]    The present disclosure relates to the communications field, and in particular, to a method for acquiring channel information, an apparatus, and a system. 
       BACKGROUND 
       [0003]    It was proposed at the 34 th  Conference of the Long Term Evolution (LTE) Advanced Standardization Subgroup that, to further improve a total throughput rate and an average throughput rate that are of cell users, there is a need to specially conduct research on advanced radio interface technologies for 4 th  Generation (4G) systems (Advanced Radio Interface TechnologIes for 4G SysTems, (ARTIST4G)). A dynamic three-dimensional (3D) beamforming technology and a 3D multi-antenna technology are key technologies for improving a throughput rate of cell-edge users and a total throughput rate and an average throughput rate that are of cell users, and attract great attention from the industry. 
         [0004]    In an existing active antenna system, 3D beamforming may be performed. Refer to  FIG. 1  (crosswise arranged antennas are dual-polarized antennas (there are two polarization directions at positive 45 degrees and at negative 45 degrees), and antennas arranged in parallel are co-polarized antennas (there is only one polarization direction)). One form in the active antenna system is a two-dimensional (2D) planar antenna array, and the antenna array have both a horizontal dimension and a vertical dimension. By sending pilot signals, a base station obtains channel state information of the 2D antenna array that is fed back by a terminal, so that a beam aims at a target user in 3D space, signal receive power is further increased, a signal to interference plus noise ratio is increased, and a throughput of the entire system is further improved. 
         [0005]    In a process of implementing the foregoing 3D beamforming technology, the inventor finds that in the prior art, a relatively large quantity of antennas provided in an antenna array causes an increase in pilot signal overheads. 
       SUMMARY 
       [0006]    Embodiments of the present disclosure provide a method for acquiring channel information, an apparatus, and a system, which can reduce overhead of pilot signals. 
         [0007]    To achieve the foregoing objective, the following technical solutions are adopted in the embodiments of the present disclosure. 
         [0008]    According to a first aspect, a method for acquiring channel information is provided, including mapping, by a base station, first preset antennas in an antenna array to pilot signals; sending the pilot signals and the antenna configuration information to a terminal, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas; and receiving channel state information of the second preset antennas that is fed back by the terminal; where the first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0009]    With reference to the first aspect, in a first possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas include at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. 
         [0010]    With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner, the first preset antennas further include the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0011]    With reference to the first possible implementation manner of the first aspect, in a third possible implementation manner, the first preset antennas further include there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0012]    With reference to the first possible implementation manner of the first aspect, in a fourth possible implementation manner, the first preset antennas further include the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0013]    With reference to the first possible implementation manner of the first aspect, in a fifth possible implementation manner, the first preset antennas further include there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0014]    With reference to the first possible implementation manner of the first aspect, in a sixth possible implementation manner, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0015]    With reference to the first possible implementation manner of the first aspect, in a seventh possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0016]    With reference to the first possible implementation manner of the first aspect, in an eighth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0017]    With reference to the first possible implementation manner of the first aspect, in a ninth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0018]    With reference to the first possible implementation manner of the first aspect, in a tenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0019]    With reference to the first aspect, in an eleventh possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. 
         [0020]    With reference to the eleventh possible implementation manner of the first aspect, in a twelfth possible implementation manner, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0021]    With reference to the eleventh possible implementation manner of the first aspect, in a thirteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0022]    With reference to the eleventh possible implementation manner of the first aspect, in a fourteenth possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0023]    With reference to the eleventh possible implementation manner of the first aspect, in a fifteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0024]    With reference to the first aspect and the first to the fifteenth possible implementation manners of the first aspect, in a sixteenth possible implementation manner, when the second preset antennas include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the second preset antennas. 
         [0025]    With reference to the first aspect and the first to the fifteenth possible implementation manners of the first aspect, in a seventeenth possible implementation manner, when the second preset antennas do not include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0026]    With reference to the first aspect or any one of possible implementation manners of the first aspect, in an eighteenth possible implementation manner, the antenna configuration information includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0027]    According to a second aspect, an acquisition method for acquiring channel information is provided, including acquiring, by a terminal, pilot signals and the antenna configuration information that are sent by a base station, where the pilot signals are pilot signals to which first preset antennas in an antenna array are mapped, and the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas; obtaining, by the terminal, channel state information of the second preset antennas by means of calculation according to the pilot signals and the antenna configuration information; and sending, by the terminal, the channel state information of the second preset antennas to the base station; where the first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0028]    With reference to the second aspect, in a first possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. 
         [0029]    With reference to the first possible implementation manner of the second aspect, in a second possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0030]    With reference to the first possible implementation manner of the second aspect, in a third possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0031]    With reference to the first possible implementation manner of the second aspect, in a fourth possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0032]    With reference to the first possible implementation manner of the second aspect, in a fifth possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0033]    With reference to the first possible implementation manner of the second aspect, in a sixth possible implementation manner, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0034]    With reference to the first possible implementation manner of the second aspect, in a seventh possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0035]    With reference to the first possible implementation manner of the second aspect, in an eighth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0036]    With reference to the first possible implementation manner of the second aspect, in a ninth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0037]    With reference to the first possible implementation manner of the second aspect, in a tenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0038]    With reference to the second aspect, in an eleventh possible implementation manner, when the first antenna array is a co-polarized antenna array, the preset quantity of antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. 
         [0039]    With reference to the eleventh possible implementation manner of the second aspect, in a twelfth possible implementation manner, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0040]    With reference to the eleventh possible implementation manner of the second aspect, in a thirteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0041]    With reference to the eleventh possible implementation manner of the second aspect, in a fourteenth possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0042]    With reference to the eleventh possible implementation manner of the second aspect, in a sixteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0043]    With reference to the second aspect or any one of the first to the sixteenth possible implementation manners of the second aspect, in a seventeenth possible implementation manner, when the second preset antennas include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the second preset antennas. 
         [0044]    With reference to the second aspect or any one of the first to the sixteenth possible implementation manners of the second aspect, in an eighteenth possible implementation manner, when the second preset antennas do not include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0045]    With reference to the second aspect or any one of the first to the eighteenth possible implementation manners of the second aspect, in a nineteenth possible implementation manner, the antenna configuration information further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0046]    With reference to the second aspect or any one of the first to the nineteenth possible implementation manners of the second aspect, in a twentieth possible implementation manner, the calculating, by the terminal, channel state information of the antenna array according to the pilot signals and the antenna configuration information includes acquiring a channel matrix corresponding to the first preset antennas from the pilot signals; acquiring a position relationship between the first preset antennas and the second preset antennas from the antenna configuration information; and performing an interpolation operation according to the channel matrix corresponding to the first preset antennas and the position relationship between the first preset antennas and the second preset antennas, to obtain the channel state information of the second preset antennas. 
         [0047]    With reference to the second aspect or any one of the first to the twentieth possible implementation manners of the second aspect, in a twenty-first possible implementation manner, the sending the channel state information of the second preset antennas to the base station includes sending, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas. 
         [0048]    With reference to the second aspect or any one of the first to the twentieth possible implementation manners of the second aspect, in a twenty-second possible implementation manner, the sending the channel state information of the second preset antennas to the base station includes sending, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas, and sending, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0049]    With reference to the second aspect or any one of the first to the twentieth possible implementation manners of the second aspect, in a twenty-third possible implementation manner, the sending the channel state information of the second preset antennas to the base station includes sending, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a channel quality indicator of the second preset antennas, and sending, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or sending, to the base station, rank information of the second preset antennas, a precoding matrix indicator of the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and sending, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or sending, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and sending, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0050]    According to a third aspect, a base station is provided, including a mapping unit configured to map first preset antennas in an antenna array to pilot signals; a sending unit configured to send, to a terminal, the pilot signals mapped by the mapping unit and the antenna configuration information, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas; and a receiving unit configured to receive channel state information of the second preset antennas that is fed back by the terminal; where the first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0051]    With reference to the third aspect, in a first possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas of the mapping unit include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. 
         [0052]    With reference to the first possible implementation manner of the third aspect, in a second possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0053]    With reference to the first possible implementation manner of the third aspect, in a third possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0054]    With reference to the first possible implementation manner of the third aspect, in a fourth possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0055]    With reference to the first possible implementation manner of the third aspect, in a fifth possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0056]    With reference to the first possible implementation manner of the third aspect, in a sixth possible implementation manner, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0057]    With reference to the first possible implementation manner of the third aspect, in a seventh possible implementation manner, the first preset antennas further include embodiments where include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0058]    With reference to the first possible implementation manner of the third aspect, in an eighth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0059]    With reference to the first possible implementation manner of the third aspect, in a ninth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0060]    With reference to the first possible implementation manner of the third aspect, in a tenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0061]    With reference to the third aspect, in an eleventh possible implementation manner, when the antenna array is a co-polarized antenna array, when the first antenna array is a co-polarized antenna array, the preset quantity of antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. 
         [0062]    With reference to the eleventh possible implementation manner of the third aspect, in a twelfth possible implementation manner, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0063]    With reference to the eleventh possible implementation manner of the third aspect, in a thirteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0064]    With reference to the eleventh possible implementation manner of the third aspect, in a fourteenth possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0065]    With reference to the eleventh possible implementation manner of the third aspect, in a fifteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0066]    With reference to the third aspect and the first to the fifteenth possible implementation manners of the third aspect, in a sixteenth possible implementation manner, when the second preset antennas include the first preset antennas, the antenna configuration information sent by the sending unit includes pattern information of the first preset antennas in the second preset antennas. 
         [0067]    With reference to the third aspect and the first to the fifteenth possible implementation manners of the third aspect, in a seventeenth possible implementation manner, when the second preset antennas do not include the first preset antennas, the antenna configuration information sent by the sending unit includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0068]    With reference to the third aspect or any one of possible implementation manners of the third aspect, in an eighteenth possible implementation manner, the antenna configuration information sent by the sending unit further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0069]    According to a fourth aspect, a terminal is provided, including a receiving unit configured to receive pilot signals and the antenna configuration information that are sent by a base station, where the pilot signals are pilot signals to which first preset antennas in an antenna array are mapped, and the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas; an acquiring unit configured to obtain channel state information of the second preset antennas by means of calculation according to the pilot signals and the antenna configuration information that are received by the receiving unit; and a sending unit configured to send, to the base station, the channel state information of the second preset antennas that is acquired by the acquiring unit; where the first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0070]    With reference to the fourth aspect, in a first possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. 
         [0071]    With reference to the first possible implementation manner of the fourth aspect, in a second possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0072]    With reference to the first possible implementation manner of the fourth aspect, in a third possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0073]    With reference to the first possible implementation manner of the fourth aspect, in a fourth possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0074]    With reference to the first possible implementation manner of the fourth aspect, in a fifth possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0075]    With reference to the first possible implementation manner of the fourth aspect, in a sixth possible implementation manner, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0076]    With reference to the first possible implementation manner of the fourth aspect, in a seventh possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0077]    With reference to the first possible implementation manner of the fourth aspect, in an eighth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0078]    With reference to the first possible implementation manner of the fourth aspect, in a ninth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0079]    With reference to the first possible implementation manner of the fourth aspect, in a tenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0080]    With reference to the fourth aspect, in an eleventh possible implementation manner, when the first antenna array is a co-polarized antenna array, the preset quantity of antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. 
         [0081]    With reference to the eleventh possible implementation manner of the fourth aspect, in a twelfth possible implementation manner, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0082]    With reference to the eleventh possible implementation manner of the fourth aspect, in a thirteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0083]    With reference to the eleventh possible implementation manner of the fourth aspect, in a fourteenth possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0084]    With reference to the eleventh possible implementation manner of the fourth aspect, in a sixteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0085]    With reference to the fourth aspect or any one of the first to the sixteenth possible implementation manners of the fourth aspect, in a seventeenth possible implementation manner, when the second preset antennas include the first preset antennas, the antenna configuration information received by the receiving unit includes pattern information of the first preset antennas in the second preset antennas. 
         [0086]    With reference to the fourth aspect or any one of the first to the sixteenth possible implementation manners of the fourth aspect, in an eighteenth possible implementation manner, when the second preset antennas do not include the first preset antennas, the antenna configuration information received by the receiving unit includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0087]    With reference to the fourth aspect or any one of the first to the eighteenth possible implementation manners of the fourth aspect, in a nineteenth possible implementation manner, the antenna configuration information received by the receiving unit further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0088]    With reference to the fourth aspect or any one of the first to the nineteenth possible implementation manners of the fourth aspect, in a twentieth possible implementation manner, the acquiring unit includes a first acquiring subunit configured to acquire a channel matrix corresponding to the first preset antennas from the pilot signals; a second acquiring subunit configured to acquire a position relationship between the first preset antennas and the second preset antennas from the antenna configuration information; and an operation subunit configured to perform an interpolation operation according to the channel matrix that is corresponding to the first preset antennas and is acquired by the first acquiring subunit and the position relationship that is between the first preset antennas and the second preset antennas and is acquired by the second acquiring subunit, to obtain the channel state information of the second preset antennas. 
         [0089]    With reference to the fourth aspect or any one of the first to the twentieth possible implementation manners of the fourth aspect, in a twenty-first possible implementation manner, the sending unit is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas. 
         [0090]    With reference to the fourth aspect or any one of the first to the twentieth possible implementation manners of the fourth aspect, in a twenty-second possible implementation manner, the sending unit is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0091]    With reference to the fourth aspect or any one of the first to the twentieth possible implementation manners of the fourth aspect, in a twenty-third possible implementation manner, the sending unit is configured to send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a channel quality indicator of the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or send, to the base station, rank information of the second preset antennas, a precoding matrix indicator of the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0092]    According to a fifth aspect, a base station is provided, including a processor, a receiver, a transmitter, a memory, and a bus, where the processor, the receiver, the transmitter, and the memory are connected to each other using the bus, and the memory is configured to store data to be processed by the processor; the processor is configured to map first preset antennas in an antenna array to pilot signals; the transmitter is configured to send the pilot signals and the antenna configuration information to a terminal, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas; and the receiver is configured to receive channel state information of the second preset antennas that is fed back by the terminal; where the first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0093]    With reference to the fifth aspect, in a first possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. 
         [0094]    With reference to the first possible implementation manner of the fifth aspect, in a second possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0095]    With reference to the first possible implementation manner of the fifth aspect, in a third possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0096]    With reference to the first possible implementation manner of the fifth aspect, in a fourth possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0097]    With reference to the first possible implementation manner of the fifth aspect, in a fifth possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0098]    With reference to the first possible implementation manner of the fifth aspect, in a sixth possible implementation manner, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0099]    With reference to the first possible implementation manner of the fifth aspect, in a seventh possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0100]    With reference to the first possible implementation manner of the fifth aspect, in an eighth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0101]    With reference to the first possible implementation manner of the fifth aspect, in a ninth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0102]    With reference to the first possible implementation manner of the fifth aspect, in a tenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0103]    With reference to the fifth aspect, in an eleventh possible implementation manner, when the antenna array is a co-polarized antenna array, when the first antenna array is a co-polarized antenna array, the preset quantity of antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. 
         [0104]    With reference to the eleventh possible implementation manner of the fifth aspect, in a twelfth possible implementation manner, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0105]    With reference to the eleventh possible implementation manner of the fifth aspect, in a thirteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0106]    With reference to the eleventh possible implementation manner of the fifth aspect, in a fourteenth possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0107]    With reference to the eleventh possible implementation manner of the fifth aspect, in a fifteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0108]    With reference to the fifth aspect and the first to the fifteenth possible implementation manners of the fifth aspect, in a sixteenth possible implementation manner, when the second preset antennas include the first preset antennas, the antenna configuration information sent by the transmitter includes pattern information of the first preset antennas in the second preset antennas. 
         [0109]    With reference to the fifth aspect and the first to the fifteenth possible implementation manners of the fifth aspect, in a seventeenth possible implementation manner, when the second preset antennas do not include the first preset antennas, the antenna configuration information sent by the transmitter includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0110]    With reference to the fifth aspect or any one of possible implementation manners of the fifth aspect, in an eighteenth possible implementation manner, the antenna configuration information sent by the transmitter further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0111]    According to a sixth aspect, a terminal is provided, including a processor, a receiver, a transmitter, a memory, and a bus, where the processor, the receiver, the transmitter, and the memory are connected to each other using the bus, and the memory is configured to store data to be processed by the processor; the receiver is configured to receive pilot signals and the antenna configuration information that are sent by a base station, where the pilot signals are pilot signals to which first preset antennas in an antenna array are mapped, and the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas; the processor is configured to obtain channel state information of the second preset antennas by means of calculation according to the pilot signals and the antenna configuration information; and the transmitter is configured to send the channel state information of the second preset antennas to the base station; where the first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0112]    With reference to the sixth aspect, in a first possible implementation manner, when the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. 
         [0113]    With reference to the first possible implementation manner of the sixth aspect, in a second possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0114]    With reference to the first possible implementation manner of the sixth aspect, in a third possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0115]    With reference to the first possible implementation manner of the sixth aspect, in a fourth possible implementation manner, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0116]    With reference to the first possible implementation manner of the sixth aspect, in a fifth possible implementation manner, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0117]    With reference to the first possible implementation manner of the sixth aspect, in a sixth possible implementation manner, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0118]    With reference to the first possible implementation manner of the sixth aspect, in a seventh possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0119]    With reference to the first possible implementation manner of the sixth aspect, in an eighth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0120]    With reference to the first possible implementation manner of the sixth aspect, in a ninth possible implementation manner, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0121]    With reference to the first possible implementation manner of the sixth aspect, in a tenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0122]    With reference to the sixth aspect, in an eleventh possible implementation manner, when the first antenna array is a co-polarized antenna array, the preset quantity of antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. 
         [0123]    With reference to the eleventh possible implementation manner of the sixth aspect, in a twelfth possible implementation manner, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0124]    With reference to the eleventh possible implementation manner of the sixth aspect, in a thirteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0125]    With reference to the eleventh possible implementation manner of the sixth aspect, in a fourteenth possible implementation manner, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0126]    With reference to the eleventh possible implementation manner of the sixth aspect, in a sixteenth possible implementation manner, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0127]    With reference to the sixth aspect or any one of the first to the sixteenth possible implementation manners of the sixth aspect, in a seventeenth possible implementation manner, when the second preset antennas include the first preset antennas, the antenna configuration information received by the receiver includes pattern information of the first preset antennas in the second preset antennas. 
         [0128]    With reference to the sixth aspect or any one of the first to the sixteenth possible implementation manners of the sixth aspect, in an eighteenth possible implementation manner, when the second preset antennas do not include the first preset antennas, the antenna configuration information received by the receiver includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0129]    With reference to the sixth aspect or any one of the first to the eighteenth possible implementation manners of the sixth aspect, in a nineteenth possible implementation manner, the antenna configuration information received by the receiver further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0130]    With reference to the sixth aspect or any one of the first to the nineteenth possible implementation manners of the sixth aspect, in a twentieth possible implementation manner, the processor is configured to acquire a channel matrix corresponding to the first preset antennas from the pilot signals; acquire a position relationship between the first preset antennas and the second preset antennas from the antenna configuration information; and perform an interpolation operation according to the channel matrix corresponding to the first preset antennas and the position relationship between the first preset antennas and the second preset antennas, to obtain the channel state information of the second preset antennas. 
         [0131]    With reference to the sixth aspect or any one of the first to the twentieth possible implementation manners of the sixth aspect, in a twenty-first possible implementation manner, the transmitter is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas. 
         [0132]    With reference to the sixth aspect or any one of the first to the twentieth possible implementation manners of the sixth aspect, in a twenty-second possible implementation manner, the sending the channel state information of the second preset antennas to the transmitter is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0133]    With reference to the sixth aspect or any one of the first to the twentieth possible implementation manners of the sixth aspect, in a twenty-third possible implementation manner, the sending the channel state information of the second preset antennas to the transmitter is configured to send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a channel quality indicator of the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or send, to the base station, rank information of the second preset antennas, a precoding matrix indicator of the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0134]    According to a seventh aspect, a communications system is provided, including a terminal and a base station that communicate with each other, where the base station is the base station described in the third aspect, and the terminal is the terminal described in the fourth aspect; or the base station is the base station described in the fifth aspect, and the terminal is the terminal described in the sixth aspect. 
         [0135]    In the foregoing solutions for acquiring channel information, a base station selects first preset antennas from an antenna array, maps the first preset antennas to pilot signals, and sends the pilot signals and the antenna configuration information to the terminal, and the terminal acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information, and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
     
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         [0136]    To describe the technical solutions in the embodiments of the present disclosure and in the prior art more clearly, the following briefly introduces the accompanying drawings required for describing the embodiments and the prior art. 
           [0137]      FIG. 1  is a schematic diagram of an antenna array provided in the prior art; 
           [0138]      FIG. 2  is a schematic flowchart of a method for acquiring channel information according to an embodiment of the present disclosure; 
           [0139]      FIG. 3  is a schematic diagram of an antenna array mapping method according to an embodiment of the present disclosure; 
           [0140]      FIG. 4  is a schematic flowchart of a method for acquiring channel information according to another embodiment of the present disclosure; 
           [0141]      FIG. 5  is a schematic flowchart of a method for acquiring channel information according to still another embodiment of the present disclosure; 
           [0142]      FIG. 6  is a schematic diagram of an antenna selection method according to an embodiment of the present disclosure; 
           [0143]      FIG. 7  is a schematic diagram of another antenna selection method according to an embodiment of the present disclosure; 
           [0144]      FIG. 8  is a schematic diagram of still another antenna selection method according to an embodiment of the present disclosure; 
           [0145]      FIG. 9  is a schematic diagram of yet another antenna selection method according to an embodiment of the present disclosure; 
           [0146]      FIG. 10  is a schematic diagram of another antenna selection method according to an embodiment of the present disclosure; 
           [0147]      FIG. 11  is a schematic diagram of still another antenna selection method according to an embodiment of the present disclosure; 
           [0148]      FIG. 12  is a schematic diagram of yet another antenna selection method according to an embodiment of the present disclosure; 
           [0149]      FIG. 13  is a schematic diagram of another antenna selection method according to an embodiment of the present disclosure; 
           [0150]      FIG. 14  is a schematic diagram of still another antenna selection method according to an embodiment of the present disclosure; 
           [0151]      FIG. 15  is a schematic diagram of yet another antenna selection method according to an embodiment of the present disclosure; 
           [0152]      FIG. 16  is a schematic diagram of another antenna selection method according to an embodiment of the present disclosure; 
           [0153]      FIG. 17  is a schematic diagram of still another antenna selection method according to an embodiment of the present disclosure; 
           [0154]      FIG. 18  is a schematic diagram of yet another antenna selection method according to an embodiment of the present disclosure; 
           [0155]      FIG. 19  is a schematic diagram of another antenna selection method according to an embodiment of the present disclosure; 
           [0156]      FIG. 20  is a schematic diagram of still another antenna selection method according to an embodiment of the present disclosure; 
           [0157]      FIG. 21  is a schematic structural diagram of a base station according to an embodiment of the present disclosure; 
           [0158]      FIG. 22  is a schematic structural diagram of a terminal according to an embodiment of the present disclosure; 
           [0159]      FIG. 23  is a schematic structural diagram of a base station according to another embodiment of the present disclosure; 
           [0160]      FIG. 24  is a schematic structural diagram of a terminal according to another embodiment of the present disclosure; and 
           [0161]      FIG. 25  is a schematic diagram of a system for acquiring channel information according to an embodiment of the present disclosure. 
       
    
    
     DESCRIPTION OF EMBODIMENTS 
       [0162]    The following clearly describes the technical solutions in the embodiments of the present disclosure with reference to the accompanying drawings in the embodiments of the present disclosure. The described embodiments are merely some but not all of the embodiments of the present disclosure. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present disclosure without creative efforts shall fall within the protection scope of the present disclosure. 
         [0163]    Referring to  FIG. 2 , an embodiment of the present disclosure provides a method for acquiring channel information by a base station, including the following steps. 
         [0164]    Step  101 . The base station maps first preset antennas in an antenna array to pilot signals. 
         [0165]    The first preset antennas may be preset by the base station, or a terminal may feed back setting information of the first preset antennas to the base station, or the base station sends setting information of the first preset antennas to a terminal. 
         [0166]    A quantity of first preset antennas is less than a quantity of all antennas or a second preset quantity of antennas in the antenna array. Mapping a preset quantity of antennas to pilot signals needs to be performed using a physical resource block  2 . Referring to  FIG. 3 , an antenna array in  FIG. 3  is a dual-polarized antenna array and includes 32 antennas (L1, L2, . . . , and L32) in total. A physical resource block  2  in  FIG. 3  can be divided into multiple physical resource units, where information about each antenna may be mapped to a corresponding physical resource unit. A number on each physical resource unit in  FIG. 3  represents a corresponding antenna, and these physical resource units can implement antenna mapping, and can also implement data transmission. When the base station is mapping antennas to pilot signals, if all the antennas in the antenna array are selected, a large quantity of physical resource units are occupied. In this case, a quantity of physical resource units for data transmission becomes smaller, which causes deterioration of data transmission performance of the base station. In this embodiment of the present disclosure, some antennas in the antenna array are selected for mapping, so that relatively fewer physical resource units are occupied, which reduces impact on the data transmission performance of the base station. 
         [0167]    When the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. That at least two antennas are not in a same row may a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns, and that at least two antennas are in different polarization directions may reflect a difference in signal transmission with antennas in different polarization directions. 
         [0168]    Optionally, when the antenna is a co-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns. 
         [0169]    Step  102 . The base station sends the pilot signals and antenna configuration information to a terminal, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas. 
         [0170]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0171]    The terminal may obtain a position relationship between the first preset antennas and the second preset antennas according to the configuration information, and can perform an interpolation operation according to the position relationship, to obtain channel state information of the second preset antennas. 
         [0172]    When the second preset antennas include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the second preset antennas. 
         [0173]    Optionally, when the second preset antennas do not include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0174]    Further, the antenna configuration information further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0175]    The configuration information carries the interval between the antennas or the correlation coefficients between the antennas, so that the terminal can obtain the channel state information of the second preset antennas more exactly. 
         [0176]    Step  103 . The base station receives channel state information of the second preset antennas that is fed back by the terminal. 
         [0177]    The base station can configure corresponding transmit antennas for the terminal according to the received channel state information of the second preset antennas. 
         [0178]    In the foregoing embodiment, a base station selects first preset antennas from an antenna array, maps the first preset antennas to pilot signals, and sends the pilot signals and the antenna configuration information to the terminal, and the terminal acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information, and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0179]    Referring to  FIG. 4 , an embodiment of the present disclosure provides a method for acquiring channel information by a terminal, including the following steps. 
         [0180]    Step  201 . The terminal acquires pilot signals and antenna configuration information that are sent by a base station, where the pilot signals are pilot signals to which first preset antennas in an antenna array are mapped, and the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas. 
         [0181]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0182]    The terminal may obtain a position relationship between the first preset antennas and the second preset antennas according to the configuration information, and can perform an interpolation operation according to the position relationship, to obtain channel state information of the second preset antennas. 
         [0183]    When the second preset antennas include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the second preset antennas. 
         [0184]    Optionally, when the second preset antennas do not include the first preset antennas, the antenna configuration information includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0185]    Further, the antenna configuration information further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0186]    The configuration information carries the interval between the antennas or the correlation coefficients between the antennas, so that the terminal can obtain the channel state information of the second preset antennas more exactly. 
         [0187]    Step  202 . The terminal obtains channel state information of the second preset antennas by means of calculation according to the pilot signals and the antenna configuration information. 
         [0188]    The terminal acquires a channel matrix corresponding to the first preset antennas from the pilot signals, acquires the position relationship between the first preset antennas and the second preset antennas from the antenna configuration information, and performs an interpolation operation according to the channel matrix corresponding to the first preset antennas and the position relationship between the first preset antennas and the second preset antennas, to obtain the channel state information of the second preset antennas. 
         [0189]    Channel state information of an antenna includes rank information, a precoding matrix indicator, and a channel quality indicator that are of the antenna. 
         [0190]    Step  203 . The terminal sends the channel state information of the second preset antennas to the base station. 
         [0191]    The terminal sends, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas. 
         [0192]    Optionally, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas are sent to the base station, and rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas are sent to the base station. In this case, the channel state information of the first preset antennas can be acquired exactly. 
         [0193]    Optionally, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a channel quality indicator of the second preset antennas are sent to the base station, and rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas are sent to the base station; or rank information of the second preset antennas, a precoding matrix indicator of the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas are sent to the base station, and rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas are sent to the base station; or rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas are sent to the base station, and rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas are sent to the base station. 
         [0194]    The base station can obtain the precoding matrix indicator of the second preset antennas using the foregoing structure of the differential codebook of the precoding matrix indicators of the first preset antennas and the second preset antennas. Likewise, the base station can obtain the channel quality indicator of the second preset antennas using the foregoing differential channel quality indicator of the first preset antennas and the second preset antennas. The structure of the differential codebook of the precoding matrix indicators of the first preset antennas and the second preset antennas and the differential channel quality indicator of the first preset antennas and the second preset antennas occupy relatively fewer resources; therefore, in this case, pilot overheads can be reduced. 
         [0195]    In the foregoing embodiment, a terminal receives pilot signals to which first preset antennas are mapped, where the first preset antennas are selected by a base station from an antenna array; also receives the antenna configuration information; acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information; and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0196]    Referring to  FIG. 5 , an embodiment of the present disclosure provides a method for acquiring channel information, including the following steps. 
         [0197]    Step  301 . A base station maps first preset antennas in an antenna array to pilot signals. 
         [0198]    The first preset antennas may be preset by the base station, or a terminal may feed back setting information of the first preset antennas to the base station, or the base station sends setting information of the first preset antennas to a terminal. 
         [0199]    When the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns, and that at least two antennas are in different polarization directions may reflect a difference in signal transmission with antennas in different polarization directions. 
         [0200]    Referring to  FIG. 6 , two solid lines represent first preset antennas, and dotted lines represent antennas except the first preset antennas. The two selected antennas can reflect a difference in signal transmission with antennas in different rows, a difference in signal transmission with antennas in different columns, and a difference in signal transmission with antennas in different polarization directions. An interpolation operation is performed according to the differences in signal transmission in the foregoing three directions and with reference to antenna configuration information, so that channel state information of second preset antennas can be obtained. 
         [0201]    Further, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. Referring to  FIG. 7 , two cases of this method are included (these two cases are numbered as P3-1 and P3-2). Solid lines represent first preset antennas, and dotted lines represent antennas except the first preset antennas, which is not described again for subsequent antenna selection figures. In the method corresponding to  FIG. 7 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0202]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. Referring to  FIG. 8 , two cases of this method are included (these two cases are numbered as P3-3 and P3-4). In the method corresponding to  FIG. 8 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation, and reduce a quantity of antennas mapped by the base station compared with the method corresponding to  FIG. 7 , thereby reducing pilot overheads. 
         [0203]    Further optionally, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. Referring to  FIG. 9 , two cases of this method are included (these two cases are numbered as P3-5 and P3-6). In the method corresponding to  FIG. 9 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0204]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. Referring to  FIG. 10 , six cases of this method are included (these six cases are numbered as P3-7, P3-8, P3-9, P3-10, P3-11, and P3-12). In the method corresponding to  FIG. 10 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation, and reduce a quantity of antennas mapped by the base station compared with the method corresponding to  FIG. 9 , thereby reducing pilot overheads. 
         [0205]    Further optionally, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. Refer to  FIG. 11  (one case is numbered as P3-13). In this method, the first preset antennas are distributed at corners, and the channel state information of the second preset antennas may be obtained using an interpolation algorithm in an interpolation operation, where precision of the interpolation algorithm is high. 
         [0206]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. Referring to  FIG. 12 , three cases of this method are included (these three cases are numbered as P3-14, P3-15, and P3-16). In the method corresponding to  FIG. 12 , in this method, the first preset antennas are distributed at corners, and the channel state information of the second preset antennas may be obtained using an interpolation algorithm in an interpolation operation. Precision of the interpolation algorithm is high, and a quantity of antennas mapped by the base station is reduced compared with the method corresponding to  FIG. 11 , thereby reducing pilot overheads. 
         [0207]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. Refer to  FIG. 13  (one case is numbered as P3-17). In a method corresponding to  FIG. 13 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0208]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. Refer to  FIG. 14  (these two cases are numbered as P3-18 and P3-19). In a method corresponding to  FIG. 14 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0209]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. Refer to  FIG. 15  (these two cases are numbered as P3-20 and P3-21). In a method corresponding to  FIG. 15 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with antennas in different columns may be sampled, which can improve precision of an interpolation operation, and reduce a quantity of antennas mapped by the base station compared with the method corresponding to  FIG. 14 , thereby reducing pilot overheads. 
         [0210]    Certainly, alternatively, a quantity and an arrangement manner that are of preset antennas in the foregoing dual-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in three directions: rows, columns, and polarization directions. 
         [0211]    Optionally, when the antenna is a co-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns. 
         [0212]    Referring to  FIG. 16 , a difference in signal transmission with antennas in different rows and a difference in signal transmission with antennas in different columns can be reflected. An interpolation operation is performed according to the differences in signal transmission in the foregoing two directions and with reference to antenna configuration information, so that channel state information of second preset antennas can be obtained. 
         [0213]    Further, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. Referring to  FIG. 17 , two cases of this method are included (these two cases are numbered as P3-22 and P3-23). In the method corresponding to  FIG. 17 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0214]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. Referring to  FIG. 18 , two cases of this method are included (these two cases are numbered as P3-24 and P3-25). In the selection method corresponding to  FIG. 18 , a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0215]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. Refer to  FIG. 19  (one case is numbered as P3-26). In this method, the first preset antennas are distributed at corners, and the channel state information of the second preset antennas may be obtained using an interpolation algorithm in an interpolation operation, where precision of the interpolation algorithm is high. 
         [0216]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. Refer to  FIG. 20  (one case is numbered as P3-27). In this selection method, a difference in signal transmission with multiple antennas in different rows and a difference in signal transmission with multiple antennas in different columns may be sampled, which can improve precision of an interpolation operation. 
         [0217]    Certainly, alternatively, a quantity and an arrangement manner that are of antennas in the foregoing co-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in two directions: rows and columns. 
         [0218]      302 . The base station sends the pilot signals and antenna configuration information to a terminal, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas. 
         [0219]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0220]    The antenna configuration information sent by the base station is already described in detail in step  102 , and is not described herein again. 
         [0221]      303 . The terminal acquires the pilot signals and the antenna configuration information that are sent by the base station, where the pilot signals are pilot signals to which the first preset antennas in the antenna array are mapped, and the antenna configuration information includes the pattern information of the first preset antennas and the pattern information of the second preset antennas. 
         [0222]      304 . The terminal acquires a channel matrix corresponding to the first preset antennas from the pilot signals. 
         [0223]      305 . The terminal acquires a position relationship between the first preset antennas and the second preset antennas from the antenna configuration information. 
         [0224]      306 . The terminal performs an interpolation operation according to the channel matrix corresponding to the first preset antennas and the position relationship between the first preset antennas and the second preset antennas, to obtain channel state information of the second preset antennas. 
         [0225]      307 . The terminal sends the channel state information of the second preset antennas to the base station. 
         [0226]    A manner of sending the channel state information of the second preset antennas is already described in detail in step  203 , and is not described herein again. 
         [0227]      308 . The base station receives the channel state information of the antenna array that is fed back by the terminal. 
         [0228]    The base station can configure corresponding transmit antennas for the terminal according to the received channel state information of the second preset antennas. 
         [0229]    In the foregoing embodiment, a base station selects first preset antennas from an antenna array, maps the first preset antennas to pilot signals, and sends the pilot signals and the antenna configuration information to the terminal, and the terminal acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information, and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0230]    Referring to  FIG. 21 , an embodiment of the present disclosure provides a base station  400 , and the base station  400  is used to implement acquisition of channel state information, and includes a mapping unit  401 , a sending unit  402 , and a receiving unit  403 . 
         [0231]    The mapping unit  401  is configured to map first preset antennas in an antenna array to pilot signals. 
         [0232]    The first preset antennas may be preset by the base station, or a terminal may feed back setting information of the first preset antennas to the base station, or the base station sends setting information of the first preset antennas to a terminal. 
         [0233]    When the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns, and that at least two antennas are in different polarization directions may reflect a difference in signal transmission with antennas in different polarization directions. An interpolation operation is performed according to the differences in signal transmission in the foregoing three directions and with reference to antenna configuration information, so that channel state information of second preset antennas can be obtained. 
         [0234]    Further, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0235]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0236]    Further optionally, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0237]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0238]    Further optionally, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0239]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0240]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0241]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0242]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0243]    Certainly, alternatively, a quantity and an arrangement manner that are of preset antennas in the foregoing dual-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in three directions: rows, columns, and polarization directions. 
         [0244]    Optionally, when the antenna is a co-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns. An interpolation operation is performed according to the differences in signal transmission in the foregoing two directions and with reference to antenna configuration information, so that channel state information of second preset antennas can be obtained. 
         [0245]    Further, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0246]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0247]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0248]    Further optionally, the first preset antennas further include embodiments where the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0249]    Certainly, alternatively, a quantity and an arrangement manner that are of antennas in the foregoing co-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in two directions: rows and columns. 
         [0250]    The sending unit  402  is configured to send, to the terminal, the pilot signals mapped by the mapping unit  401  and the antenna configuration information, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of the second preset antennas. 
         [0251]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0252]    When the second preset antennas include the first preset antennas, the antenna configuration information sent by the sending unit  402  includes pattern information of the first preset antennas in the second preset antennas. 
         [0253]    Optionally, when the second preset antennas do not include the first preset antennas, the antenna configuration information sent by the sending unit  402  includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0254]    Further, the antenna configuration information sent by the sending unit  402  further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0255]    The configuration information carries the interval between the antennas or the correlation coefficients between the antennas, so that the terminal can obtain the channel state information of the second preset antennas more exactly. 
         [0256]    The receiving unit  403  is configured to receive the channel state information of the second preset antennas that is fed back by the terminal. 
         [0257]    The base station can configure corresponding transmit antennas for the terminal according to the received channel state information of the second preset antennas. 
         [0258]    In the foregoing embodiment, the base station selects first preset antennas from an antenna array, maps the first preset antennas to pilot signals, and sends the pilot signals and the antenna configuration information to the terminal, and the terminal acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information, and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0259]    Referring to  FIG. 22 , an embodiment of the present disclosure provides a terminal  500 , and the terminal  500  is used to implement acquisition of channel state information, and includes a receiving unit  501  and an acquiring unit  502 . 
         [0260]    The receiving unit  501  is configured to receive pilot signals and antenna configuration information that are sent by a base station, where the pilot signals are pilot signals to which first preset antennas in an antenna array are mapped, and the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas. 
         [0261]    The first preset antennas may be preset by the base station, or the terminal may feed back setting information of the first preset antennas to the base station, or the base station sends setting information of the first preset antennas to the terminal. 
         [0262]    When the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns, and that at least two antennas are in different polarization directions may reflect a difference in signal transmission with antennas in different polarization directions. An interpolation operation is performed according to the differences in signal transmission in the foregoing three directions and with reference to the antenna configuration information, so that channel state information of the second preset antennas can be obtained. 
         [0263]    Further, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0264]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0265]    Further optionally, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0266]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0267]    Further optionally, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0268]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0269]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0270]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0271]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0272]    Certainly, alternatively, a quantity and an arrangement manner that are of preset antennas in the foregoing dual-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in three directions: rows, columns, and polarization directions. 
         [0273]    Optionally, when the antenna is a co-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns. An interpolation operation is performed according to the differences in signal transmission in the foregoing two directions and with reference to the antenna configuration information, so that channel state information of the second preset antennas can be obtained. 
         [0274]    Further, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0275]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0276]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0277]    Further optionally, the first preset antennas further include embodiments where the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0278]    Certainly, alternatively, a quantity and an arrangement manner that are of antennas in the foregoing co-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in two directions: rows and columns. 
         [0279]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0280]    The terminal may obtain a position relationship between the first preset antennas and the second preset antennas according to the configuration information, and can perform an interpolation operation according to the position relationship, to obtain the channel state information of the second preset antennas. 
         [0281]    When the second preset antennas include the first preset antennas, the antenna configuration information received by the receiving unit  501  includes pattern information of the first preset antennas in the second preset antennas. 
         [0282]    Optionally, when the second preset antennas do not include the first preset antennas, the antenna configuration information received by the receiving unit  501  includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0283]    Further, the antenna configuration information received by the receiving unit  501  further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0284]    The configuration information carries the interval between the antennas or the correlation coefficients between the antennas, so that the terminal can obtain the channel state information of the second preset antennas more exactly. 
         [0285]    The acquiring unit  502  obtains the channel state information of the second preset antennas by means of calculation according to the pilot signals and the antenna configuration information that are received by the receiving unit  501 . 
         [0286]    Optionally, the acquiring unit  502  includes a first acquiring subunit  502 - 1  configured to acquire a channel matrix corresponding to the first preset antennas from the pilot signals; a second acquiring subunit  502 - 2  configured to acquire the position relationship between the first preset antennas and the second preset antennas from the antenna configuration information; and an operation subunit  502 - 3  configured to perform an interpolation operation according to the channel matrix that is corresponding to the first preset antennas and is acquired by the first acquiring subunit and the position relationship that is between the first preset antennas and the second preset antennas and is acquired by the second acquiring subunit, to obtain the channel state information of the second preset antennas. 
         [0287]    Channel state information of an antenna includes rank information, a precoding matrix indicator, and a channel quality indicator that are of the antenna. 
         [0288]    Further, the terminal  500  further includes a sending unit  503 , sends, to the base station, the channel state information of the second preset antennas that is acquired by the acquiring unit  502 . 
         [0289]    The sending unit  503  is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas. 
         [0290]    Optionally, the sending unit  503  is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. In this case, the channel state information of the first preset antennas can be acquired exactly. 
         [0291]    Optionally, the sending unit  503  is configured to send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a channel quality indicator of the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or the sending unit  503  is configured to send, to the base station, rank information of the second preset antennas, a precoding matrix indicator of the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or the sending unit  503  is configured to send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0292]    The base station can obtain the precoding matrix indicator of the second preset antennas using the foregoing structure of the differential codebook of the precoding matrix indicators of the first preset antennas and the second preset antennas. Likewise, the base station can obtain the channel quality indicator of the second preset antennas using the foregoing differential channel quality indicator of the first preset antennas and the second preset antennas. The structure of the differential codebook of the precoding matrix indicators of the first preset antennas and the second preset antennas and the differential channel quality indicator of the first preset antennas and the second preset antennas occupy relatively fewer resources; therefore, in this case, pilot overheads can be reduced. 
         [0293]    In the foregoing embodiment, the terminal receives pilot signals to which first preset antennas are mapped, where the first preset antennas are selected by a base station from an antenna array; also receives the antenna configuration information; acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information; and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0294]    Referring to  FIG. 23 , an embodiment of the present disclosure provides a base station  600 , including a processor  601 , a receiver  602 , a transmitter  603 , a memory  604 , and a bus  605 , where the processor  601 , the receiver  602 , and the transmitter  603  are connected using the bus  605 , and the memory  604  is configured to store data to be processed by the processor  601 . 
         [0295]    The bus  605  may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended Industry Standard Architecture (EISA) bus, or the like. The bus  605  may be an address bus, a data bus, a control bus, or the like by category. For ease of denotation, the bus  605  is represented using only one thick line in  FIG. 23 , which, however, does not indicate that there is only one bus or only one type of bus. 
         [0296]    The memory  604  is configured to store executable program code, where the program code includes a computer operation instruction. The memory  604  may include a high-speed random access memory (RAM), and may further include a non-volatile memory, such as at least one magnetic disk memory. 
         [0297]    The processor  601  may be a central processing unit (CPU) or an application-specific integrated circuit (ASIC), or is configured as one or more integrated circuits that implement this embodiment of the present disclosure. 
         [0298]    The processor is configured to map first preset antennas in an antenna array to pilot signals. 
         [0299]    The first preset antennas may be preset by the base station, or a terminal may feed back setting information of the first preset antennas to the base station, or the base station sends setting information of the first preset antennas to a terminal. 
         [0300]    When the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns, and that at least two antennas are in different polarization directions may reflect a difference in signal transmission with antennas in different polarization directions. An interpolation operation is performed according to the differences in signal transmission in the foregoing three directions and with reference to antenna configuration information, so that channel state information of second preset antennas can be obtained. 
         [0301]    Further, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0302]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0303]    Further optionally, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0304]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0305]    Further optionally, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0306]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0307]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0308]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0309]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0310]    Certainly, alternatively, a quantity and an arrangement manner that are of preset antennas in the foregoing dual-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in three directions: rows, columns, and polarization directions. 
         [0311]    Optionally, when the antenna is a co-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns. An interpolation operation is performed according to the differences in signal transmission in the foregoing two directions and with reference to antenna configuration information, so that channel state information of second preset antennas can be obtained. 
         [0312]    Further, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0313]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0314]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0315]    Further optionally, the first preset antennas further include embodiments where the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0316]    Certainly, alternatively, a quantity and an arrangement manner that are of antennas in the foregoing co-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in two directions: rows and columns. 
         [0317]    The transmitter  603  is configured to send the pilot signals and the antenna configuration information to the terminal, where the antenna configuration information includes pattern information of the first preset antennas and pattern information of the second preset antennas. 
         [0318]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0319]    When the second preset antennas include the first preset antennas, the antenna configuration information sent by the transmitter  603  includes pattern information of the first preset antennas in the second preset antennas. 
         [0320]    Optionally, when the second preset antennas do not include the first preset antennas, the antenna configuration information sent by the transmitter  603  includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0321]    Further, the antenna configuration information sent by the transmitter  603  further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0322]    The configuration information carries the interval between the antennas or the correlation coefficients between the antennas, so that the terminal can obtain the channel state information of the second preset antennas more exactly. 
         [0323]    The receiver  602  is configured to receive the channel state information of the second preset antennas that is fed back by the terminal. 
         [0324]    The base station can configure corresponding transmit antennas for the terminal according to the received channel state information of the second preset antennas. 
         [0325]    In the foregoing embodiment, the base station selects first preset antennas from an antenna array, maps the first preset antennas to pilot signals, and sends the pilot signals and the antenna configuration information to the terminal, and the terminal acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information, and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0326]    Referring to  FIG. 24 , an embodiment of the present disclosure provides a terminal  700 , including a processor  701 , a receiver  702 , a transmitter  703 , a memory  704 , and a bus  705 , where the processor  701 , the receiver  702 , and the transmitter  703  are connected using the bus  705 , and the memory  704  is configured to store data to be processed by the processor  701 . 
         [0327]    The bus  705  may be an ISA bus, a PCI bus, an EISA bus, or the like. The bus  705  may be an address bus, a data bus, a control bus, or the like by category. For ease of denotation, the bus  705  is represented using only one thick line in  FIG. 24 , which, however, does not indicate that there is only one bus or only one type of bus. 
         [0328]    The memory  704  is configured to store executable program code, where the program code includes a computer operation instruction. The memory  704  may include a high-speed RAM memory, and may further include a non-volatile memory, such as at least one magnetic disk memory. 
         [0329]    The processor  701  may be a CPU or an ASIC, or is configured as one or more integrated circuits that implement this embodiment of the present disclosure. 
         [0330]    The receiver  702  is configured to receive pilot signals and antenna configuration information that are sent by a base station, where the pilot signals are pilot signals to which first preset antennas in an antenna array are mapped, and the antenna configuration information includes pattern information of the first preset antennas and pattern information of second preset antennas. 
         [0331]    The first preset antennas may be preset by the base station, or the terminal may feed back setting information of the first preset antennas to the base station, or the base station sends setting information of the first preset antennas to the terminal. 
         [0332]    When the antenna array is a dual-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, at least two antennas are not in a same column, and at least two antennas are in different polarization directions. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns, and that at least two antennas are in different polarization directions may reflect a difference in signal transmission with antennas in different polarization directions. An interpolation operation is performed according to the differences in signal transmission in the foregoing three directions and with reference to the antenna configuration information, so that channel state information of the second preset antennas can be obtained. 
         [0333]    Further, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, and all the antenna pairs are in different rows and different columns. 
         [0334]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, a difference between quantities of antennas in two polarization directions cannot exceed 1, and all the antennas are in different rows and different columns. 
         [0335]    Further optionally, the first preset antennas further include embodiments where the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of rows between antenna pairs in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antenna pairs in every two adjacent columns that include antennas are not in a same row; or the antennas are in pairs, antennas in each pair are in a same row and a same column, there is an interval of a same quantity of columns between antenna pairs in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antenna pairs in every two adjacent rows that include antennas are not in a same column. 
         [0336]    Further optionally, the first preset antennas further include embodiments where there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of rows between antennas in a same column, the antennas in the same column are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an antenna in only one polarization direction in a same row and a same column, there is an interval of a same quantity of columns between antennas in a same row, the antennas in the same row are sequentially in alternate polarization directions or are in a same polarization direction, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0337]    Further optionally, the first preset antennas further include embodiments where antennas at each of four corners of the antenna array that includes the first preset antennas are in pairs. 
         [0338]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas, and quantities of antennas in two polarization directions are the same. 
         [0339]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and there is an interval of a same quantity of rows between antennas in the other polarization direction in the column. 
         [0340]    Further optionally, the first preset antennas further include embodiments where only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of columns between antennas in one polarization direction in the row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or only one pair of antennas exists, antennas in the pair are in a same row and a same column, there is an interval of a same quantity of rows between antennas in one polarization direction in the column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0341]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one polarization direction in a same row, and a column in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of rows; or there is an interval of a same quantity of rows between antennas in one polarization direction in a same column, and a row in which any one of the antennas in the polarization direction is located includes antennas in the other polarization direction at an equal interval of a same quantity of columns. 
         [0342]    Certainly, alternatively, a quantity and an arrangement manner that are of preset antennas in the foregoing dual-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in three directions: rows, columns, and polarization directions. 
         [0343]    Optionally, when the antenna is a co-polarized antenna array, the first preset antennas include embodiments where at least two antennas are not in a same row, and at least two antennas are not in a same column. That at least two antennas are not in a same row may reflect a difference in signal transmission with antennas in different rows. Likewise, that at least two antennas are not in a same column may reflect a difference in signal transmission with antennas in different columns. An interpolation operation is performed according to the differences in signal transmission in the foregoing two directions and with reference to the antenna configuration information, so that channel state information of the second preset antennas can be obtained. 
         [0344]    Further, the first preset antennas further include embodiments where all the antennas are in different rows and different columns. 
         [0345]    Further optionally, the first preset antennas further include embodiments where there is an interval of a same quantity of rows between antennas in a same column, there is an interval of a same quantity of columns between every two adjacent columns that include antennas, and antennas in every two adjacent columns that include the antennas are not in a same row; or there is an interval of a same quantity of columns between antennas in a same row, there is an interval of a same quantity of rows between every two adjacent rows that include antennas, and antennas in every two adjacent rows that include the antennas are not in a same column. 
         [0346]    Further optionally, the first preset antennas further include embodiments where there is one antenna at each of four corners of the antenna array that includes the first preset antennas. 
         [0347]    Further optionally, the first preset antennas further include embodiments where the first preset antennas further include embodiments where there is an interval of a same quantity of columns between antennas in one row, and a column in which any one of the antennas in the row is located includes antennas at an equal row interval. 
         [0348]    Certainly, alternatively, a quantity and an arrangement manner that are of antennas in the foregoing co-polarized antenna array may vary. Selected first preset antennas belong to the scope of the present disclosure provided that the selected first preset antennas are different in two directions: rows and columns. 
         [0349]    The first preset antennas and the second preset antennas are in the same antenna array, and the first preset antennas are different from the second preset antennas. 
         [0350]    The terminal may obtain a position relationship between the first preset antennas and the second preset antennas according to the configuration information, and can perform an interpolation operation according to the position relationship, to obtain the channel state information of the second preset antennas. 
         [0351]    When the second preset antennas include the first preset antennas, the antenna configuration information received by the receiver  702  includes pattern information of the first preset antennas in the second preset antennas. 
         [0352]    Optionally, when the second preset antennas do not include the first preset antennas, the antenna configuration information received by the receiver  702  includes pattern information of the first preset antennas in the antenna array; and pattern information of the second preset antennas in the antenna array. 
         [0353]    Further, the antenna configuration information received by the receiver  702  further includes at least one of an interval between antennas and correlation coefficients between the antennas. 
         [0354]    The configuration information carries the interval between the antennas or the correlation coefficients between the antennas, so that the terminal can obtain the channel state information of the second preset antennas more exactly. 
         [0355]    The processor  701  is configured to obtain the channel state information of the second preset antennas by means of calculation according to the pilot signals and the antenna configuration information that are received by the receiver  702 . 
         [0356]    Optionally, the processor  701  is configured to acquire a channel matrix corresponding to the first preset antennas from the pilot signals; acquire the position relationship between the first preset antennas and the second preset antennas from the antenna configuration information; and perform an interpolation operation according to the channel matrix corresponding to the first preset antennas and the position relationship between the first preset antennas and the second preset antennas, to obtain the channel state information of the second preset antennas. 
         [0357]    Channel state information of an antenna includes rank information, a precoding matrix indicator, and a channel quality indicator that are of the antenna. 
         [0358]    The transmitter  703  is configured to send the channel state information of the second preset antennas to the base station. 
         [0359]    The transmitter  703  is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas. 
         [0360]    Optionally, the transmitter  703  is configured to send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. In this case, the channel state information of the first preset antennas can be acquired exactly. 
         [0361]    Optionally, the transmitter  703  is configured to send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a channel quality indicator of the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or the transmitter  703  is configured to send, to the base station, rank information of the second preset antennas, a precoding matrix indicator of the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, a precoding matrix indicator, and a channel quality indicator that are of the first preset antennas; or the transmitter  703  is configured to send, to the base station, rank information of the second preset antennas, a structure of a differential codebook of precoding matrix indicators of the first preset antennas and the second preset antennas, and a differential channel quality indicator of the first preset antennas and the second preset antennas, and send, to the base station, rank information, the precoding matrix indicator, and a channel quality indicator that are of the first preset antennas. 
         [0362]    The base station can obtain the precoding matrix indicator of the second preset antennas using the foregoing structure of the differential codebook of the precoding matrix indicators of the first preset antennas and the second preset antennas. Likewise, the base station can obtain the channel quality indicator of the second preset antennas using the foregoing differential channel quality indicator of the first preset antennas and the second preset antennas. The structure of the differential codebook of the precoding matrix indicators of the first preset antennas and the second preset antennas and the differential channel quality indicator of the first preset antennas and the second preset antennas occupy relatively fewer resources; therefore, in this case, pilot overheads can be reduced. 
         [0363]    In the foregoing embodiment, the terminal receives pilot signals to which first preset antennas are mapped, where the first preset antennas are selected by a base station from an antenna array; also receives the antenna configuration information; acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information; and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0364]    Referring to  FIG. 25 , an embodiment of the present disclosure provides a communications system, and the communications system is used to implement acquisition of channel information, and includes a base station  801  and a terminal  802  that can communicate with each other. The base station  801  is either of base stations described in the embodiment corresponding to  FIG. 21  or  FIG. 23 , and the terminal  802  is either of terminals described in the embodiment corresponding to  FIG. 22  or  FIG. 24 ; therefore, structures of the base station  801  and the terminal  802  are not described herein again. 
         [0365]    In the foregoing system embodiment, a base station selects some antennas from an antenna array, and maps the some antennas to pilot signals, a terminal receives the antenna configuration information and pattern information of the antenna array, and the terminal acquires channel state information of the antenna array from received information. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0366]    In the foregoing embodiment, a base station selects first preset antennas from an antenna array, maps the first preset antennas to pilot signals, and sends the pilot signals and the antenna configuration information to the terminal, and the terminal acquires channel state information of second preset antennas according to the pilot signals and the antenna configuration information, and feeds back the channel state information of the second preset antennas to the base station. In this case, mapping, by the base station, all antennas in the antenna array to pilot signals is avoided, which reduces pilot overheads. 
         [0367]    The foregoing descriptions are merely specific embodiments of the present disclosure, but are not intended to limit the protection scope of the present disclosure. Any variation or replacement readily figured out by a person skilled in the art within the technical scope disclosed in the present disclosure shall fall within the protection scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Technology Category: h