Reference Signal Transmission Method and Apparatus

What is claimed is: 1 . A method, comprising: receiving reference signal resource configuration information sent by a base station, wherein the reference signal resource configuration information comprises antenna port quantity information and a resource configuration index; determining a reference signal configuration from a reference signal configuration set according to the antenna port quantity information and the resource configuration index, wherein the reference signal configuration is used to indicates position information of resource elements (RE) that are used to send reference signals on antenna ports in an antenna port set, the reference signal configuration set comprises the reference signal configuration, and an antenna port set corresponding to the reference signal configuration comprises a plurality of antenna port subsets, wherein an RE that is used to send a reference signal on an antenna port in a first antenna port subset is located in a first resource block (RB) pair, an RE that is used to send a reference signal on an antenna port in a second antenna port subset is located in a second RB pair, and the first RB pair is different from the second RB pair; obtaining, according to the determined reference signal configuration, positions of the REs that are used to send a reference signal on the antenna ports in the antenna port set; and receiving the reference signal according to the positions of the REs. 2 . The method according to claim 1 , wherein the first RB pair and the second RB pair are separately located at different frequency domain positions in a same subframe or located in a same subband of different subframes. 3 . The method according to claim 1 , wherein a resource element group used by the first antenna port subset in the first RB pair is REG i 1 , and a resource element group used by the second antenna port subset in the second RB pair is REG i 2 , wherein REG i 1 ∈ A, REG i 2 ∈ A, and i 1 ≠i 2 ; the set is A={REG i |i=0,1, . . . , M−1}, M≧2, i 1 ,i 2 ∈ {0, . . . , M−1}, wherein i i and i 2 are indexes of the resource element groups (REGs) used in the first RB pair and the second RB pair respectively; and each resource element group in the set A represents a set of position triplets (k′,l′,n s mod2)of resource elements (RE)s in an RB pair that are used to send reference signals, relative to the RB pair in which the resource elements REs are located, wherein k′ represents an index of a subcarrier of the resource element RE, in the RB pair in which the RE is located, l′ represents an index of an orthogonal frequency division multiplexing (OFDM) symbol of the resource element, in the RB pair in which the resource element is located, n s represents an index of a timeslot to which the resource element belongs, mod represents a modulo operation, and n s mod 2 represents a computed value resulting from a modulo 2 operation on n s . 4 . The method according to claim 3 , wherein the reference signal configuration set comprises a second reference signal configuration, an antenna port set corresponding to the second reference signal configuration comprises the first antenna port subset and the second antenna port subset, a resource element group used by the first antenna port subset in the first RB pair is REG j 1 , and a resource element group used by the second antenna port subset in the second RB pair is REG j 2 , wherein REG j 1 ∈ A, REG j 2 ∈ A, j 1 ≠j 2 , j 1 ,j 2 − {0,1, . . . , M−1}, and i 1 ,i 2 , j 1 and j 2 meet one or more of the following relationships: j 1 =(i 1 +n)mod M, j 2 =(i 2 +n)mod M, and j 1 =j 2 , j 2 =i 1 wherein n represents a shift whose value is an integer. 5 . The method according to claim 3 , wherein when a cyclic prefix (CP) is a normal CP, the resource element group set A comprises two or more of the following resource element groups: REG 0 NCP ={(9,5,0), (9,6,0), (8,5,0), (8,6,0), (3,5,0), (3,6,0), (2,5,0), (2,6,0)}; REG 1 NCP ={(11,2,1), (11,3,1), (10,2,1), (10,3,1), (5,2,1), (5,3,1), (4,2,1), (4,3,1)}; REG 2 NCP ={(9,2,1), (9,3,1), (8,2,1), (8,3,1), (3,2,1), (3,3,1), (2,2,1), (2,3,1)}; REG 3 NCP ={(7,2,1), (7,3,1), (6,2,1), (6,3,1), (1,2,1), (1,3,1), (0,2,1), (0,3,1)}; an REG 4 NCP ={(9,5,1), (9,6,1), (8,5,1), (8,6,1), (3,5,1), (3,6,1), (2,5,1), (2,6,1)}. 6 . A method, comprising: sending reference signal resource configuration information to a user apparatus, wherein the reference signal resource configuration information comprises antenna port quantity information and a resource configuration index, and the antenna port quantity information and the resource configuration index are used to indicate a reference signal configuration in a reference signal configuration set, wherein the reference signal configuration is used to indicate position information of resource elements (REs) that are used to send reference signals on antenna ports in an antenna port set, the reference signal configuration set comprises at least one first reference signal configuration, and an antenna port set corresponding to the first reference signal configuration comprises two antenna port subsets, wherein an RE that is used to send a reference signal on an antenna port in a first antenna port subset is located in a first resource block (RB) pair, an RE that is used to send a reference signal on an antenna port in a second antenna port subset is located in a second RB pair, and the first RB pair is different from the second RB pair; determining, according to the reference signal configuration indicated by the reference signal resource configuration information, positions of the resource elements (REs) that are used to send a reference signal on the antenna ports in the antenna port set corresponding to the reference signal configuration; and sending the reference signal to the user apparatus at the positions. 7 . The method according to claim 6 , wherein the first RB pair and the second RB pair are separately located at different frequency domain positions in a same subframe or located in a same subband of different subframes. 8 . The method according to claim 6 , wherein a resource element group used by the first antenna port subset in the first RB pair is REG i 1 , and a resource element group used by the second antenna port subset in the second RB pair is REG i 2 , wherein REG i 1 ∈ A, REG i 2 ∈ A, and i 1 ≠i 2 ; the set is A={REG i |i=0,1, . . . , M−1}, M≧2, i 1 i 2 ∈ {0, . . . , M−1}, wherein i i and i 2 are indexes of the resource element groups (REGs) used in the two RB pairs respectively; and each resource element group in the set A represents a set of position triplets (k′,l′,n s mod 2) of REs in an RB pair that are used to send reference signals, relative to the RB pair in which the REs are located, wherein k′ represents an index of a subcarrier of the RE, in the RB pair in which the RE is located, l′ represents an index of an orthogonal frequency division multiplexing (OFDM) symbol of the resource element, in the RB pair in which the resource element is located, n s represents an index of a timeslot to which the resource element belongs, mod represents a modulo operation, and n s mod 2 represents a computed value resulting from a modulo 2 operation on n s . 9 . The method according to claim 8 , wherein the reference signal configuration set comprises a second reference signal configuration, an antenna port set corresponding to the second reference signal configuration comprises the first antenna port subset and the second antenna port subset, a resource element group used by the first antenna port subset in the first RB pair is REG j 1 , and a resource element group used by the