Signal Transmission Method and Apparatus

1 . A signal transmission method, comprising: generating, by a sending device, a sequence of demodulation reference signals, wherein the demodulation reference signals comprises information to estimate a channel state of a first channel; and mapping, by the sending device, the sequence of the demodulation reference signals to time-frequency resource of the demodulation reference signals for sending, wherein the time-frequency resource comprises frequency-domain resources corresponding to a first code division multiplexing (CDM) group, and the frequency-domain resources corresponding to the first CDM group are non-contiguous and equally spaced; a first physical resource block (PRB) in the frequency-domain resources corresponding to the first CDM group comprises a first group of subcarriers and a second group of subcarriers; and the first group of subcarriers and the second group of subcarriers each comprise two subcarriers, the first group of subcarriers corresponds to a first group of orthogonal cover codes (OCCs), the second group of subcarriers corresponds to a second group of OCCs, and the first group of OCCs is orthogonal to the second group of OCCs. 2 . The method according to claim 1 , wherein a configuration information table of the demodulation reference signals comprises a correspondence between a demodulation reference signal port index, a CDM group frequency-domain offset, and an OCC, the OCC comprises a frequency-domain OCC and a time-domain OCC, and the frequency-domain OCC comprises a first group of OCCs and a second group of OCCs. 3 . The method according to claim 1 , wherein a configuration information table of the demodulation reference signals comprises a first configuration information table and a second configuration information table; the first configuration information table comprises a correspondence between a demodulation reference signal port index, a CDM group frequency-domain offset, and an OCC, and the OCC comprises a frequency-domain OCC and a time-domain OCC; and the second configuration information table comprises a correspondence between a demodulation reference signal port index, a CDM group frequency-domain offset, and an OCC, the OCC comprises a frequency-domain OCC and a time-domain OCC, the frequency-domain OCC of the second configuration information table comprises a first group of OCCs and a second group of OCCs, and the demodulation reference signal port indexes comprised in the second configuration information table and the first configuration information table are different. 4 . The method according to claim 2 , wherein the mapping, by the sending device, the sequence of the demodulation reference signals to time-frequency resource of the demodulation reference signals comprises: obtaining, by the sending device based on the configuration information table, a CDM group frequency-domain offset, a frequency-domain OCC, and a time-domain OCC that correspond to a first resource element RE (k, l), wherein the first RE (k, l) has a subcarrier index of k and a symbol index of l in the time-frequency resource; and obtaining, based on the CDM group frequency-domain offset, the frequency-domain OCC, and the time-domain OCC, data α ˜ k,l p ˜ j , μ of the sequence of the demodulation reference signals mapped to the first RE (k, l), wherein the data α ˜ k,l p ˜ j , μ mapped to the first RE (k, l) satisfies: α ˜ k,l p ˜ j , μ   =   W f k ′   +   2t W t l ′ r 2n   +   k ′ k   =   4n   +   2k ′   +   Δ k ′   =   0,   1 t   =   mod n,   2 l   =   l ¯   +   l ′ n   =   0,   1,   ⋯ j   =   0,   1,   ⋯ ,   v   −   1 wherein W f (k′ + 2t) is a frequency-domain OCC, W t (l′) is a time-domain OCC, and r(2n + k′) is an initial sequence of the demodulation reference signals; and Δ is a CDM group frequency-domain offset, ɭ is an index of a start symbol of the demodulation reference signal, l′ is a symbol offset of the demodulation reference signals, and v is a quantity of transmission layers, wherein when t=0, the frequency-domain OCC is a first group of OCCs; and when t=1, the frequency-domain OCC is a second group of OCCs. 5 . A signal transmission method, comprising: generating, by a sending device, a sequence of demodulation reference signals, wherein the demodulation reference signals comprises information to estimate a channel state of a first channel; and mapping, by the sending device, the sequence of the demodulation reference signals to time-frequency resource of the demodulation reference signals for sending, wherein the time-frequency resource comprises a frequency-domain resource corresponding to a first port of a demodulation reference signal in a first code division multiplexing CDM group and a frequency-domain resource corresponding to a second port of the demodulation reference signal, the frequency-domain resource corresponding to the first port is the same as the frequency-domain resource corresponding to the second port, the frequency-domain resource corresponding to the first port and the frequency-domain resource corresponding to the second port are non-contiguous and equally spaced, a first physical resource block PRB in the frequency-domain resource corresponding to the first port and the frequency-domain resource corresponding to the second port comprises at least two subcarrier groups, each of the at least two subcarrier groups comprises two subcarriers, and the at least two subcarrier groups comprise a first subcarrier group and a second subcarrier group, or comprise a first subcarrier group, a second subcarrier group, and a third subcarrier group; and orthogonal cover codes OCCs used on resource element REs corresponding to all subcarriers in the at least two subcarrier groups for the frequency-domain resource corresponding to the first port form a first OCC code sequence, and OCC codes used on the REs corresponding to all the subcarriers in the at least two subcarrier groups for the frequency-domain resource corresponding to the second port form a second OCC code sequence; and for the frequency-domain resource corresponding to the first port or the second port, OCC codes used on the REs corresponding to two subcarriers in the first subcarrier group form a third OCC code sequence, and OCC codes used on REs corresponding to two subcarriers in the second subcarrier group form a fourth OCC code sequence, wherein the second OCC code sequence is obtained by performing cyclic shift based on the first OCC code sequence, and the third OCC code sequence is different from the fourth OCC code sequence. 6 . The method according to claim 5 , wherein a configuration information table of the demodulation reference signals comprises a correspondence between a demodulation reference signal port index, a CDM group frequency-domain offset, an OCC, and a cyclic shift factor, wherein the OCC comprises a frequency-domain OCC and a time-domain OCC; and the method further comprises: obtaining, by the sending device based on the configuration information table, a frequency-domain OCC, a time-domain OCC, and a cyclic shift factor that correspond to a demodulation reference signal port index, and performing cyclic shift on the obtained frequency-domain OCC and the obtained time-domain OCC based on the obtained cyclic shift factor. 7 . The method according to