Antenna port determining method and terminal side device

Abstract

An embodiment of this application provides an antenna port determining method. In a process of determining, based on QCL information and indication information that is used to determine an antenna port number, an antenna port on which downlink data is scheduled, antenna port group information is further introduced, so that the antenna port can be more accurately determined.

Claims

1. An antenna port determining method, performed by a terminal side device, the method comprising: receiving downlink control information, wherein the downlink control information comprises quasi-colocation (QCL) information and indication information wherein the indication information is used by the terminal side device to determine an antenna port number of a first antenna port on which downlink data is scheduled, and the QCL information indicates that there is a QCL relationship between the first antenna port and a second antenna port; receiving antenna port group information, wherein the antenna port group information is used by the terminal side device to determine at least one antenna port group, and the at least one antenna port group comprises the first antenna port; and determining the first antenna port based on the QCL information, the indication information, and the antenna port group information.

2. The antenna port determining method according to claim 1, wherein the antenna port group information comprises an identifier of at least one code division multiplexing (CDM) group or at least one demodulation reference signal (DMRS) antenna port number, the at least one antenna port group is at least one DMRS group, and there is a QCL relationship between antenna ports in each of the at least one antenna port group.

3. The antenna port determining method according to claim 2, wherein there are at least two CDM groups and two DMRS groups, a first DMRS group in the two DMRS groups comprises at least one antenna port in at least one of the at least two CDM groups, and a second DMRS group in the two DMRS groups comprises at least one antenna port in another CDM group in the two CDM groups.

4. The antenna port determining method according to claim 3, wherein in a case of transmission with one codeword, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is allowed to be greater than 1.

5. The antenna port determining method according to claim 3, wherein in a case of transmission with two codewords, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword corresponds to the second DMRS group.

6. A terminal side device, comprising a memory having program instructions and a processor, wherein the program instructions are executed by the processor to cause the terminal side device to perform operations comprising: receiving downlink control information, wherein the downlink control information comprises quasi-colocation (QCL) information and indication information, and wherein the indication information is used to determine an antenna port number of a first antenna port on which downlink data is scheduled, and the QCL information indicates that there is a QCL relationship between the first antenna port and a second antenna port; receiving antenna port group information, wherein the antenna port group information is used to determine at least one antenna port group, and the at least one antenna port group comprises the first antenna port; and determining the first antenna port based on the QCL information, the indication information, and the antenna port group information.

7. The terminal side device according to claim 6, wherein the antenna port group information comprises an identifier of at least one code division multiplexing (CDM) group or at least one demodulation reference signal (DMRS) antenna port number, the at least one antenna port group is at least one DMRS group, and there is a QCL relationship between antenna ports in each of the at least one antenna port group.

8. The terminal side device according to claim 7, wherein there are at least two CDM groups and two DMRS groups, a first DMRS group in the two DMRS groups comprises at least one antenna port in at least one of the at least two CDM groups, and a second DMRS group in the two DMRS groups comprises at least one antenna port in another CDM group in the two CDM groups.

9. The terminal side device according to claim 8, wherein in a case of transmission with one codeword, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is allowed to be greater than 1.

10. The terminal side device according to claim 8, wherein in a case of transmission with two codewords, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword corresponds to the second DMRS group.

11. An antenna port determining method, performed by a network side device, the method comprising: sending downlink control information, wherein the downlink control information comprises quasi-colocation (QCL) information and indication information, wherein the indication information provides for determining an antenna port number of a first antenna port on which downlink data is scheduled, and the QCL information indicates that there is a QCL relationship between the first antenna port and a second antenna port; and sending antenna port group information, wherein the antenna port group information provides for determining at least one antenna port group, the at least one antenna port group comprises the first antenna port, and the QCL information, the indication information, and the antenna port group information provide for determining the first antenna port.

12. The antenna port determining method according to claim 11, wherein the antenna port group information comprises an identifier of at least one code division multiplexing (CDM) group or at least one demodulation reference signal (DMRS) antenna port number, the at least one antenna port group is the at least one DMRS group, and there is a QCL relationship between antenna ports in each of the at least one antenna port group.

13. The antenna port determining method according to claim 12, wherein there are at least two CDM groups and two DMRS groups, a first DMRS group in the two DMRS groups comprises at least one antenna port in at least one of the at least two CDM groups, and a second DMRS group in the two DMRS groups comprises at least one antenna port in another CDM group in the two CDM groups.

14. The antenna port determining method according to claim 13, wherein in a case of transmission with one codeword, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is allowed to be greater than 1.

15. The antenna port determining method according to claim 13, wherein in a case of transmission with two codewords, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword corresponds to the second DMRS group.

16. A network side device, comprising a memory having program instructions and a processor; wherein the program instructions are executed by the processor to cause the network side device to: determine quasi-colocation (QCL) information, indication information that provides for determining an antenna port number of a first antenna port on which downlink data is scheduled, and antenna port group information, wherein the QCL information indicates that there is a QCL relationship between a first antenna port and a second antenna port, the antenna port group information provides for determining at least one antenna port group, and the at least one antenna port group comprises the first antenna port; and send downlink control information and the antenna port group information, wherein the downlink control information comprises the QCL information and the indication information, and the QCL information, the indication information, and the antenna port group information are provide for determining the first antenna port.

17. The network side device according to claim 16, wherein the antenna port group information comprises an identifier of at least one code division multiplexing (CDM) group or at least one demodulation reference signal (DMRS) antenna port number, the at least one antenna port group is the at least one DMRS group, and there is a QCL relationship between antenna ports in each of the at least one antenna port group.

18. The network side device according to claim 17, wherein there are at least two CDM groups and two DMRS groups, a first DMRS group in the two DMRS groups comprises at least one antenna port in at least one of the at least two CDM groups, and a second DMRS group in the two DMRS groups comprises at least one antenna port in another CDM group in the two CDM groups.

19. The network side device according to claim 18, wherein in a case of transmission with one codeword, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is allowed to be greater than 1.

20. The network side device according to claim 18, wherein in a case of transmission with two codewords, an absolute value of a difference between a quantity of layers of the at least one antenna port comprised in the first DMRS group and a quantity of layers of the at least one antenna port comprised in the second DMRS group is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword corresponds to the second DMRS group.

Description

DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a schematic architectural diagram of a wireless communications system according to an embodiment of this application;

(2) FIG. 2 is a schematic diagram of information exchange in a wireless communications system according to an embodiment of this application;

(3) FIG. 3 is a schematic flowchart of an antenna port determining method according to an embodiment of this application;

(4) FIG. 4 is a schematic diagram of a unit structure of a terminal side device according to an embodiment of this application;

(5) FIG. 5 is a schematic diagram of a unit structure of a network side device according to an embodiment of this application; and

(6) FIG. 6 is a schematic diagram of another hardware structure of a terminal side device or a network side device according to an embodiment of this application.

DESCRIPTION OF EMBODIMENTS

(7) A wireless communications system shown in FIG. 1 includes a network side device and a terminal side device. The network side device may be a base station, for example, an evolved NodeB (evolved node B, eNB) in a long term evolution (LTE) system, a next generation NodeB (next generation node B, gNB) in a new radio (New Radio, NR) system, a wireless local area network access point, or transmission reception points (TRP) such as remote radio units (RRU) in these devices, to provide an access service in a licensed spectrum or an access service in an unlicensed spectrum for the terminal side device. A terminal side device includes user equipment (UE), and is a device providing voice and/or data connectivity for a user, for example, a hand-held device, a vehicle-mounted device, or the like that has a wireless connection function. A common hand-held device includes a mobile phone, a tablet computer, a notebook computer, a palmtop computer, a mobile internet device (MID), or a wearable device such as a smartwatch, a smart band, and a pedometer.

(8) The network side device may be used as an independent device, or may be split into different devices based on protocol layers. For example, after being split based on the protocol layers, the network side device may include one control unit (CU) and at least one distributed unit (DU). The CU is configured to implement functions of the network side device at a PDCP layer, an RRC layer, and protocol layers above the RRC layer, and the DU is configured to implement functions of the network side device at an RLC layer, a MAC layer, and a PHY layer. A person skilled in the art may understand that, in the following implementations, the functions of the network side device at the PDCP layer, the RRC layer, or the protocol layer above the RRC layer may be performed by the CU, and the functions of the network side device at the RLC layer, the MAC layer, or the PHY layer are performed by the at least one DU.

(9) The wireless communications system shown in FIG. 1 may be a wireless communications system such as an NR system (which is also referred to as a 5G system), an LTE system, a long term evolution-advanced (advanced long term evolution, LTE-A) system, or an evolved long term evolution (eLTE) system.

(10) In embodiments of this application, from a perspective of physical implementation, the network side device may be the base station, the wireless local area network access point, or the remote radio unit, or may be a chip or a circuit system in the base station, the wireless local area network access point, or the remote radio unit, and the terminal side device may be the user equipment, or a chip or a circuit system in the user equipment.

(11) In a 5G system, an antenna port is defined to have the following characteristic: On a same antenna port, a channel on which a signal is transmitted may be inferred from a channel on which another signal is transmitted. Therefore, a channel state of a channel (which is alternatively referred to as a channel state of the antenna port) over which data on the antenna port is transmitted on another frequency domain resource or another time domain symbol may be inferred based on a channel over which a reference signal on the antenna port is transmitted on some time domain symbols or some frequency domain resources. Further, to enable the terminal side device to correctly receive data, generally, there is a QCL relationship between a plurality of antenna ports of a same network side device. When a large-scale property of a channel over which a signal on an antenna port is transmitted may be inferred from a channel over which a signal on another antenna port is transmitted, the two antenna ports are defined as ports having the QCL relationship. The large-scale property herein includes at least one of the following properties: a Doppler frequency shift, a Doppler spread, an average delay, a delay spread, and spatial reception. In other words, in a process of obtaining a channel state of an antenna port through performing channel estimation based on a reference signal transmitted on the antenna port, the terminal side device may infer, based on a large-scale property of another antenna port that has the QCL relationship and on which a reference signal is transmitted, a large-scale property of the antenna port on which the reference signal is transmitted, to determine the channel state of the antenna port.

(12) Two or three code division multiplexing (CDM) groups are defined for the 5G system. Each CDM group includes a plurality of DMRS antenna ports that correspond to same time-frequency resources and that can be used to transmit a DMRS in a downlink. The DMRS antenna ports may be distinguished by using different orthogonal codes. The network side device may notify the terminal side device of a quantity of the CDM groups. For example, in a current 5G system, the terminal side device determines the quantity of CDM groups based on a downlink DMRS configuration type (DL-DMRS-config-type) parameter in a received RRC message. When the downlink DMRS configuration type parameter is equal to 1, the quantity of CDM groups is 2. When the downlink DMRS configuration type parameter is equal to 2, the quantity of CDM groups is 3. In the 5G system, there is a QCL relationship between any two DMRS antenna ports in each CDM group. For example, when there are two CDM groups, DMRS antenna ports included in a first CDM group are {1000, 1001, 1004, 1005}, and DMRS antenna ports included in a second CDM group are {1002, 1003, 1006, 1007}. According to the foregoing description of the CDM groups, the DMRS antenna ports {1000, 1001, 1004, 1005} correspond to a group of same time-frequency resources and are distinguished by using different orthogonal codes, and the DMRS antenna ports {1002, 1003, 1006, 1007} correspond to another group of same time-frequency resources and are distinguished by using different orthogonal codes. When there are three CDM groups, DMRS antenna ports included in a first CDM group are {1000, 1001, 1006, 1007}, DMRS antenna ports included in a second CDM group are {1002, 1003, 1008, 1009}, and DMRS antenna ports included in a third CDM group are {1004, 1005, 1010, 1011}.

(13) Further, the 5G system may support two DMRS groups. The first DMRS group includes at least one DMRS antenna port in one of the CDM groups, and the second DMRS group includes at least one DMRS antenna port in another CDM group. When there are two CDM groups, there is one combination of the two DMRS groups: The first DMRS group includes at least one DMRS antenna port in one CDM group, and the DMRS group includes at least one DMRS antenna port in the other CDM group.

(14) When there are three CDM groups, there are six combinations of the two DMRS groups. (1) The first DMRS group includes at least one DMRS antenna port in the first CDM group, and the second DMRS group includes at least one DMRS antenna port in the second CDM group. (2) The first DMRS group includes at least one DMRS antenna port in the first CDM group, and the second DMRS group includes at least one DMRS antenna port in the third CDM group. (3) The first DMRS group includes at least one DMRS antenna port in the second CDM group, and the second DMRS group includes at least one DMRS antenna port in the third CDM group. (4) The first DMRS group includes at least one DMRS antenna port in the first CDM group, and the second DMRS group includes at least one DMRS antenna port in the second CDM group and at least one DMRS antenna port in the third CDM group. (5) The first DMRS group includes at least one DMRS antenna port in the first CDM group and at least one DMRS antenna port in the second CDM group, and the second DMRS group includes at least one DMRS antenna port in the third CDM group. (6) The first DMRS group includes at least one DMRS antenna port in the first CDM group and at least one DMRS antenna port in the third CDM group, and the second DMRS group includes at least one DMRS antenna port in the second CDM group.

(15) In FIG. 1, for example, in non-coherent joint transmission (NCJT) transmission, different network side devices (a network side device 1 and a network side device 2) may send, on same time-frequency resources in a same carrier, data at different multiple-input multiple-output (MIMO) layers to the terminal side device. Data from different network side devices passes through different channels, that is, undergoes different large-scale fading characteristics. Therefore, there is a QCL relationship between a first antenna port (for example, on which a DMRS 1 is transmitted) and a second antenna port (for example, on which a CSI-RS 1 is transmitted) of the network side device 1, there is a QCL relationship between a third antenna port (for example, on which a DMRS 2 is transmitted) and a fourth antenna port (for example, on which a CSI-RS 2 is transmitted) of the network side device 2, and there is no QCL relationship between the antenna ports of the network side device 1 and the antenna ports of the network side device 2. When receiving information (an implicit indication or an explicit indication) used to determine the NCJT transmission, the terminal side device determines that current transmission is the NCJT transmission. The explicit indication directly indicates the NCJT transmission in the information (for example, the information is an identifier of the NCJT transmission). The implicit indication may indicate at least two pieces of QCL information by using a 2-bit PDSCH resource mapping and quasi-colocation indicator (PDSCH RE mapping and quasi-co-location indicator, PQI) in downlink control information in a current 3GPP LTE standard, and 2-bit transmission control indicator (TCI) information in downlink control information in NR, to determine the NCJT transmission. In this case, the terminal side device may receive the data sent from different network side devices on the same time-frequency resources in the same carrier.

(16) In a specific implementation process, a network side device currently accessed by the terminal side device may configure a plurality of pieces of QCL information for the terminal side device by using an RRC layer message. The terminal may determine, based on at least one piece of QCL information that is indicated by downlink control information and that is in the plurality of pieces of QCL information and indication information that is in the downlink control information and that is used to determine an antenna port number (for ease of description, referred to as indication information for short below), an antenna port number of a reference signal antenna port (for example, an antenna port number of a DMRS antenna port) on which downlink data of the downlink control information is scheduled. However, because there may be a very large quantity of antenna ports, there are also a relatively large bit quantity of the indication information that is in the downlink control information and that is used to specifically indicate the antenna port number of the reference signal antenna port on which the downlink data of the downlink control information is scheduled. Consequently, the antenna port may not be accurately determined, and signaling overheads are relatively high.

(17) A first embodiment of this application provides an antenna port determining method. In a case of transmission with one codeword and a case of transmission with two codewords, a port number of an antenna port (such as a DMRS antenna port) in different combination manners of two DMRS groups is determined by using indication information included in downlink control information and at least one piece of QCL information indicated by the downlink control information.

(18) It should be noted that a physical layer of a 5G system supports simultaneous processing of a maximum of two channels of data, and the two channels of data are usually referred to as two codewords.

(19) A first embodiment of this application is applicable to a single-user multiple-input multiple-output (SU-MIMO) scenario, and is further applicable to a two-user multi-user multiple-input multiple-output (MU-MIMO) scenario.

(20) The antenna port determining method provided in the first embodiment of this application includes the following content: A terminal side device receives downlink control information from a network side device, where the downlink control information includes QCL information and indication information that is used to determine an antenna port number of a first antenna port on which downlink data is scheduled, and the QCL information indicates that there is a QCL relationship between a first antenna port and a second antenna port of the network side device. The terminal side device determines the first antenna port in the case of transmission with one codeword or transmission with two codewords based on the indication information and the QCL information.

(21) Optionally, before sending the downlink control information, the network side device may determine the indication information based on the first antenna port on which the downlink data is scheduled.

(22) Optionally, there is at least one piece of the QCL information included in the downlink control information. When there are at least two pieces of QCL information, the terminal side device may determine that current transmission is NCJT transmission. When there is one piece of QCL information, current transmission is not NCJT transmission.

(23) Optionally, the indication information is further used to determine at least one (one, two, or more) of a quantity of front-load symbols of the first antenna port and a quantity of code division multiplexing CDM groups corresponding to the first antenna port for rate matching.

(24) The rate matching means that data bits on a transmission channel between a MAC layer and a PHY layer are repeatedly sent or punctured (that is, repeating and redundant bits are removed), to achieve a required bit rate. The first antenna port corresponds to CDM groups during rate matching. During rate matching, the scheduled downlink data is not mapped to a resource location corresponding to an antenna port included in the CDM groups.

(25) The quantity of front-load symbols is a quantity of time domain symbols occupied by one antenna port.

(26) In the embodiments of this application, an example in which the first antenna port is a DMRS antenna port on which the downlink data is scheduled is used for description. In the NCJT transmission mode (for example, when the downlink control information indicates that there are at least two pieces of QCL information), the first antenna port includes at least one DMRS antenna port in a first DMRS group and at least one DMRS antenna port in a second DMRS group.

(27) In an example, FIG. 2 is a schematic diagram of information exchange in a wireless communications system. After the terminal side device establishes an initial connection to a network side device 1 based on a random access procedure, a network side device 1 and the terminal side device may establish a radio bearer (RB) by exchanging an RRC message. When the network side device 1 has downlink data to be sent to the terminal side device, it may be determined whether the network side device 1 and another network side device can perform the NCJT transmission for the terminal side device. If the network side device 1 and the another network side device can perform the NCJT transmission for the terminal side device, the network side device 1 determines a configuration of the NCJT transmission through negotiation with the another network side device, and sends the configuration of the NCJT transmission to the terminal side device by using downlink control information in a specific format. In addition, because the terminal side device detects the downlink control information at regular intervals, the terminal side device learns of a resource location of the scheduled downlink data and other possible configurations. In a detection, the terminal side device detects the configuration of the NCJT transmission in the downlink control information in the specific format (for example, TCI in the downlink control information includes at least two pieces of QCL information, and the downlink control information includes indication information used to determine antenna port numbers of DMRS antenna ports on which the downlink data is scheduled). The terminal side device determines, based on the QCL information and the indication information, antenna port numbers of the DMRS antenna ports on which the downlink data is scheduled. Further, the terminal side device receives a DMRS on the DMRS antenna ports corresponding to the DMRS antenna port numbers, performs channel estimation based on the DMRS, and receives the downlink data based on a channel estimation result.

(28) The following specifically describes how the terminal side device determines, in the NCJT transmission mode by using table lookup, the DMRS antenna ports on which the downlink data is scheduled. In addition, to more accurately determine the DMRS antenna ports on which the downlink data is scheduled, the terminal side device further receives a downlink DMRS configuration type parameter and a downlink DMRS maximum length parameter from the network side device. For example, the terminal side may obtain the downlink DMRS configuration type parameter and the downlink DMRS maximum length parameter through receiving a higher layer message (such as an RRC message), to determine the required antenna ports.

(29) (1) SU-MIMO Scenario

(30) (1-1) The downlink DMRS configuration type parameter is equal to 1 (that is, there are two CDM groups), and there are two DMRS groups. Antenna ports included in a first CDM group in the two CDM groups are {1000, 1001, 1004, 1005}, and antenna ports included in a second CDM group are {1002, 1003, 1006, 1007}. The first DMRS group in the two DMRS groups includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group. In the case of transmission with one codeword, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is allowed to be greater than 1. In the case of two codewords, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword in the two codewords corresponds to the second DMRS group.

(31) (1-1a) If the downlink DMRS configuration type parameter is equal to 1, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 1, the terminal side device determines, based on Table 1, the DMRS antenna ports on which the downlink data is scheduled (in this case, transmission with one codeword is supported).

(32) For example, the terminal side device establishes a connection to a network side device, and receives a plurality of pieces of QCL information configured by the network side device based on the RRC message. The terminal side device learns, based on the detected at least two pieces of QCL information (the at least two pieces of QCL information are included in the plurality of pieces of configured QCL information) indicated by the TCI included in the downlink control information, that current transmission is the NCJT transmission. If the RRC message received by the terminal side device further indicates that the downlink DMRS configuration type parameter is equal to 1, and that the downlink DMRS maximum length parameter is equal to 1, the terminal side device uses Table 1.

(33) Then, the terminal side device may learn, from Table 1 based on a value 3 of the indication information that is used to determine the antenna port numbers and that is in the downlink control information, that the DMRS antenna ports are the port 1000 in the first DMRS group and the ports 1002, 1003, and 1006 in the second DMRS group.

(34) (1-1b) If the downlink DMRS configuration type parameter is equal to 1, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 2, the terminal side device determines, based on Table 2, the DMRS antenna ports on which the downlink data is scheduled.

(35) For example, the terminal side device establishes a connection to a network side device, and receives a plurality of pieces of QCL information configured by the network side device based on the RRC message. The terminal side device learns, based on the detected at least two pieces of QCL information (the at least two pieces of QCL information are included in the plurality of pieces of configured QCL information) indicated by the TCI included in the downlink control information, that current transmission is the NCJT transmission. If the RRC message received by the terminal side device further indicates that the downlink DMRS configuration type parameter is equal to 1, and that the downlink DMRS maximum length parameter is equal to 2, the terminal side device uses Table 2.

(36) Then, the terminal side device may learn, from Table 2 based on a value 0 of the indication information in the downlink control information, that in the case of transmission with one codeword, DMRS antenna ports on which a DMRS is currently transmitted are the port 0 in the first DMRS group and the port 1002 in the second DMRS group, and in the case of transmission with two codewords, DMRS antenna ports on which a DMRS is currently transmitted are the ports 1000 and 1001 in the first DMRS group and the ports 1002, 1003, and 1006 in the second DMRS group.

(37) TABLE-US-00001 TABLE 1 DMRS antenna port (1000 + a DMRS port number), a downlink DMRS configuration type (DL-DMRS-config-type) = 1, and a downlink DMRS maximum length (DL-DMRS-max-len) = 1 One codeword: Codeword 0 is enabled (enabled) Codeword 1 is disabled (disabled) Quantity of code division DMRS multiplexing CDM groups port Indication information during rate matching number (value) in downlink (Number of DMRS CDM (DMRS control information group(s) without data) ports) 0 2 0; 2 1 2 0; 2, 3 2 2 0, 1; 2 3 2 0; 2, 3, 6 4 2 0, 1; 2, 3 5 2 0, 1, 4; 2 6 Reserved Reserved

(38) TABLE-US-00002 TABLE 2 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 1, and a downlink DMRS maximum length (DL-DMRS-max-len) = 2 One codeword: Codeword 0 is enabled Two codewords: Codeword 1 is disabled Codeword 0 is enabled Quantity of Codeword 1 is enabled Indication Quantity of code front-load Indication Quantity of code information division symbols information in division (value) in multiplexing CDM DMRS (Number of downlink multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load control groups during rate port front-load information matching number symbols) information matching number symbols 0 2 0; 2 1 0 2 0, 1; 2, 3, 6 2 1 2 0; 2, 3 1 1 2 0, 1, 4; 2, 3 2 2 2 0, 1; 2 1 2 2 0, 1, 4; 2, 3, 2 6 3 2 0; 2, 3, 6 1 3 2 0, 1, 4; 2, 3, 2 6, 7 4 2 0, 1; 2, 3 1 4 2 0, 1, 4, 5; 2, 2 3, 6 5 2 0, 1, 4; 2 1 5 2 0, 1, 4, 5; 2, 2 3, 6, 7 6-7 Reserved Reserved Reserved 6-7 Reserved Reserved Reserved

(39) (1-2) The downlink DMRS configuration type parameter is equal to 2 (that is, there are three CDM groups), and there are still two DMRS groups. In this case, antenna ports included in a first CDM group are {1000, 1001, 1006, 1007}, antenna ports included in a second CDM group are {1002, 1003, 1008, 1009}, and antenna ports included in a third CDM group are {1004, 1005, 1010, 1011}. In the case of transmission with one codeword, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is allowed to be greater than 1. In the case of two codewords, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is not greater than 1.

(40) The two DMRS groups may have six combination manners: The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group and at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the third CDM group, and the second DMRS group includes at least one antenna port in the second CDM group.

(41) (1-2a) If the downlink DMRS configuration type parameter is equal to 2, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 1, the terminal side device determines, based on Table 3, the DMRS antenna ports on which the downlink data is scheduled.

(42) For example, the terminal side device establishes a connection to a network side device, and receives a plurality of pieces of QCL information configured by the network side device based on the RRC message. The terminal side device learns, based on the detected at least two pieces of QCL information (the at least two pieces of QCL information are included in the plurality of pieces of configured QCL information) indicated by the TCI included in the downlink control information, that current transmission is the NCJT transmission. If the RRC message received by the terminal side device further indicates that the downlink DMRS configuration type parameter is equal to 2, and that the downlink DMRS maximum length parameter is equal to 1, the terminal side device uses Table 3.

(43) Then, the terminal side device may learn, from Table 3 based on a value 3 of the indication information in the downlink control information, that in the case of transmission with one codeword, DMRS antenna ports on which a DMRS is currently transmitted are the port 1000 in the first DMRS group and the ports 1002, 1003, and 1008 in the second DMRS group, and in the case of transmission with two codewords, DMRS antenna ports on which a DMRS is currently transmitted are the ports 1000, 1001, and 1006 in the first DMRS group and the ports 1002, 1003, and 1008 in the second DMRS group.

(44) (1-2b) If the downlink DMRS configuration type parameter is equal to 2, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 2, the terminal side device determines, based on Table 4, the DMRS antenna ports on which a DMRS is currently transmitted.

(45) For example, the terminal side device establishes a connection to a network side device, and receives a plurality of pieces of QCL information configured by the network side device based on the RRC message. The terminal side device learns, based on the detected at least two pieces of QCL information (the at least two pieces of QCL information are included in the plurality of pieces of configured QCL information) indicated by the TCI included in the downlink control information, that current transmission is the NCJT transmission. If the RRC message received by the terminal side device further indicates that the downlink DMRS configuration type parameter is equal to 2, and that the downlink DMRS maximum length parameter is equal to 2, the terminal side device uses Table 4.

(46) Then, the terminal side may learn, from Table 4 based on a value 5 of the indication information in the downlink control information, that in the case of transmission with one codeword, DMRS antenna ports on which a DMRS is currently transmitted are the ports 1000, 1001, and 1006 in the first DMRS group and the port 1002 in the DMRS group, and in the case of transmission with two codewords, DMRS antenna ports on which a DMRS is currently transmitted are the ports 1000, 1001, 1006, and 1007 in the first DMRS group and the ports 1002, 1003, 1008, and 1009 in the second DMRS group.

(47) TABLE-US-00003 TABLE 3 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, and a downlink DMRS maximum length (DL-DMRS-max-len) = 1 One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing DMRS downlink CDM groups DMRS downlink CDM groups antenna control during rate port control during rate port information matching number information matching number 0 2 0; 2 0 2 0, 1; 2, 3, 8 1 2 0; 2, 3 1 2 0, 1, 6; 2, 3 2 2 0, 1; 2 2 2 0, 1, 6; 2, 3, 8 3 2 0; 2, 3, 8 3 2 0, 1, 6; 2, 3, 8, 9 4 2 0, 1; 2, 3 4 2 0, 1, 6, 7; 2, 3, 8 5 2 0, 1, 6; 2 5 2 0, 1, 6, 7; 2, 3, 8, 9 6 3 0; 4 6 3 0, 1; 4, 5, 10 7 3 0; 4, 5 7 3 0, 1, 6; 4, 5 8 3 0, 1; 4 8 3 0, 1, 6; 4, 5, 10 9 3 0; 4, 5, 9 3 0, 1, 6; 4, 10 5, 10, 11 10 3 0, 1; 4, 5 10 3 0, 1, 6, 7; 4, 5, 10 11 3 0, 1, 6; 4 11 3 0, 1, 6, 7; 4, 5, 10, 11 12 3 2; 4 12 3 2, 3; 4, 5, 10 13 3 2; 4, 5 13 3 2, 3, 8; 4, 5 14 3 2, 3; 4 14 3 2, 3, 8; 4, 5, 10 15 3 2; 4, 5, 15 3 2, 3, 8, 9; 10 4, 5, 10 16 3 2, 3; 4, 5 16 3 2, 3, 8; 4, 5, 10, 11 17 3 2, 3, 8; 4 17 3 2, 3, 8, 9; 4, 5, 10, 11 18 3 0; 2 18 3 0, 1; 2, 3, 4 19 3 0; 2, 3 19 3 0, 1, 6; 2, 3 20 3 0, 1; 2 20 3 0, 1, 6; 2, 3, 4 21 3 0; 2, 3, 4 21 3 0, 1, 6; 2, 3, 4, 5 22 3 0, 1; 2, 3 22 3 0, 1, 6, 7; 2, 3, 4 23 3 0, 1, 6; 2 23 3 0, 1, 6, 7; 2, 3, 4, 5 24 3 0; 2 24 3 0, 1; 2, 3, 8 25 3 0; 2, 3 25 3 0, 1, 4; 2, 3 26 3 0, 1; 2 26 3 0, 1, 4; 2, 3, 8 27 3 0; 2, 3, 8 27 3 0, 1, 4; 2, 3, 8, 9 28 3 0, 1; 2, 3 28 3 0, 1, 4, 5; 2, 3, 8 29 3 0, 1, 4; 2 29 3 0, 1, 4, 5; 2, 3, 8, 9 30 3 0; 4 30 3 0, 1; 4, 5, 10 31 3 0; 4, 5 31 3 0, 1, 2; 4, 5 32 3 0, 1; 4 32 3 0, 1, 2; 4, 5, 10 33 3 0; 4, 5, 33 3 0, 1, 2; 4, 10 5, 10, 11 34 3 0, 1; 4, 5 34 3 0, 1, 2, 3; 4, 5, 10 35 3 0, 1, 2; 4 35 3 0, 1, 2, 3; 4, 5, 10, 11 36-63 Reserved Reserved 36-63 Reserved Reserved

(48) TABLE-US-00004 TABLE 4 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, and a downlink DMRS maximum length (DL-DMRS-max-len) = 2 One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 2 0; 2 1 0 2 0, 1; 2, 3, 8 2 1 2 0; 2, 3 1 1 2 0, 1, 6; 2, 3 2 2 2 0, 1; 2 1 2 2 0, 1, 6; 2, 3, 8 2 3 2 0; 2, 3, 8 1 3 2 0, 1, 6; 2, 3, 8, 9 2 4 2 0, 1; 2, 3 1 4 2 0, 1, 6, 7; 2, 3, 8 2 5 2 0, 1, 6; 2 1 5 2 0, 1, 6, 7; 2, 3, 8, 9 2 6 3 0; 4 1 6 3 0, 1; 4, 5, 10 2 7 3 0; 4, 5 1 7 3 0, 1, 6; 4, 5 2 8 3 0, 1; 4 1 8 3 0, 1, 6; 4, 5, 10 2 9 3 0; 4, 5, 10 1 9 3 0, 1, 6; 4, 5, 10, 11 2 10 3 0, 1; 4, 5 1 10 3 0, 1, 6, 7; 4, 5, 10 2 11 3 0, 1, 6; 4 1 11 3 0, 1, 6, 7; 4, 5, 10, 11 2 12 3 2; 4 1 12 3 2, 3; 4, 5, 10 2 13 3 2; 4, 5 1 13 3 2, 3, 8; 4, 5 2 14 3 2, 3; 4 1 14 3 2, 3, 8; 4, 5, 10 2 15 3 2; 4, 5, 10 1 15 3 2, 3, 8, 9; 4, 5, 10 2 16 3 2, 3; 4, 5 1 16 3 2, 3, 8; 4, 5, 10, 11 2 17 3 2, 3, 8; 4 1 17 3 2, 3, 8, 9; 4, 5, 10, 11 2 18 3 0; 2 1 18 3 0, 1; 2, 3, 4 2 19 3 0; 2, 3 1 19 3 0, 1, 6; 2, 3 2 20 3 0, 1; 2 1 20 3 0, 1, 6; 2, 3, 4 2 21 3 0; 2, 3, 4 1 21 3 0, 1, 6; 2, 3, 4, 5 2 22 3 0, 1; 2, 3 1 22 3 0, 1, 6, 7; 2, 3, 4 2 23 3 0, 1, 6; 2 1 23 3 0, 1, 6, 7; 2, 3, 4, 5 2 24 3 0; 2 1 24 3 0, 1; 2, 3, 8 2 25 3 0; 2, 3 1 25 3 0, 1, 4; 2, 3 2 26 3 0, 1; 2 1 26 3 0, 1, 4; 2, 3, 8 2 27 3 0; 2, 3, 8 1 27 3 0, 1, 4; 2, 3, 8, 9 2 28 3 0, 1; 2, 3 1 28 3 0, 1, 4, 5; 2, 3, 8 2 29 3 0, 1, 4; 2 1 29 3 0, 1, 4, 5; 2, 3, 8, 9 2 30 3 0; 4 1 30 3 0, 1; 4, 5, 10 2 31 3 0; 4, 5 1 31 3 0, 1, 2; 4, 5 2 32 3 0, 1; 4 1 32 3 0, 1, 2; 4, 5, 10 2 33 3 0; 4, 5, 10 1 33 3 0, 1, 2; 4, 5, 10, 11 2 34 3 0, 1; 4, 5 1 34 3 0, 1, 2, 3; 4, 5, 10 2 35 3 0, 1, 2; 4 1 35 3 0, 1, 2, 3; 4, 5, 10, 11 2 36-63 Reserved Reserved Reserved 36-63 Reserved Reserved Reserved

(49) (2) MU-MIMO Scenario

(50) To support MU-MIMO transmission, a network side device may schedule at least two terminal side devices on a same time-frequency resource. In this case, DMRSs sent to the at least two terminal sides are orthogonal or quasi-orthogonal.

(51) A terminal side device 1 establishes a connection to a network side device, and receives a plurality of pieces of QCL information, the downlink DMRS configuration type parameter, and the downlink DMRS maximum length parameter that are configured by the network side device for the terminal side device 1 based on the RRC message. The terminal side device 2 establishes a connection with the network side device, and receives a plurality of pieces of QCL information configured by the network side device for the terminal side device 2 based on the RRC message. When determining to perform the NCJT transmission in an MU-MIMO scenario, the network side device sends downlink control information 1 to the terminal side device 1. The downlink control information 1 indicates at least two pieces of QCL information in the plurality of pieces of QCL information configured for the terminal side device 1, so that the terminal side device 1 learns that current transmission is the NCJT transmission. The terminal side device 1 determines a table for usage based on the downlink DMRS configuration type parameter and the downlink DMRS maximum length parameter that are configured for the terminal side device 1, and then determines, based on a specific value of indication information in the downlink control information 1, DMRS antenna ports on which the downlink data is scheduled. Similarly, the network side device further sends downlink control information 2 to the terminal side device 2. The downlink control information 2 indicates at least two pieces of QCL information in the plurality of pieces of QCL information configured for the terminal side device 2, so that the terminal side device 2 learns that current transmission is the NCJT transmission. The terminal side device 2 determines a table for usage based on the downlink DMRS configuration type parameter and the downlink DMRS maximum length parameter that are configured for the terminal side device 2, and then determines, based on a specific value of indication information in the downlink control information 2, DMRS antenna ports on which the downlink data is scheduled.

(52) In the NCJT transmission mode, the network side device may enable, based on the downlink DMRS configuration type parameter and the downlink DMRS maximum length parameter, the terminal side device 1 and the terminal side device 2 to search for the required antenna ports by using a same table. In this case, the specific value of the indication information in the downlink control information 1 is different from the specific value of the indication information in the downlink control information 2, so that the terminal side device 1 and the terminal side device 2 use antenna ports corresponding to different rows in the same table.

(53) In an example, for a same Table 5, the indication information in the downlink control information 1 is 0, and the DMRS antenna ports on which downlink data of the terminal side device 1 is located are {1000, 1002}. To enable the network side device to support MU-MIMO, the indication information in the downlink control information 2 is 1, and the DMRS ports on which downlink data of the terminal side device 2 is located are {1001, 1003}. The DMRS antenna ports {1000, 1001} are from a same CDM group, occupy same time-frequency resources, and are distinguished by using orthogonal codes. The DMRS antenna ports {1002, 1003} are from another same CDM group, occupy same time-frequency resources, and are distinguished by using orthogonal codes.

(54) (2-1) The downlink DMRS configuration type parameter is equal to 1 (that is, there are two CDM groups), and there are two DMRS groups. Antenna ports included in a first CDM group in the two CDM groups are {1000, 1001, 1004, 1005}, and antenna ports included in a second CDM group are {1002, 1003, 1006, 1007}. The first DMRS group in the two DMRS groups includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group. In the case of transmission with one codeword, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is allowed to be greater than 1. In the case of two codewords, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword in the two codewords corresponds to the second DMRS group.

(55) (2-1a) If the downlink DMRS configuration type parameter is equal to 1, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 1, the terminal side device determines, based on Table 5, the DMRS antenna ports on which a DMRS is currently transmitted (in this case, transmission with one codeword is supported).

(56) (2-1b) If the downlink DMRS configuration type parameter is equal to 1, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 2, the terminal side device determines, based on Table 6, the DMRS antenna ports on which a DMRS is currently transmitted.

(57) TABLE-US-00005 TABLE 5 DMRS antenna port (1000 + a DMRS port number), a downlink DMRS configuration type (DL-DMRS-config-type) = 1, and a downlink DMRS maximum length (DL-DMRS-max-len) = 1 One codeword: Codeword 0 is enabled (enabled) Codeword 1 is disabled (disabled) Indication information Quantity of code division DMRS (value) in downlink multiplexing CDM groups port control information during rate matching number 0 2 0; 2 1 2 1; 3 2 2 0; 2, 3 3 2 1; 6, 7 4 2 0, 1; 2 5 2 4, 5; 3 6 2 0; 2, 3, 6 7 2 0, 1; 2, 3 8 2 4, 5; 6, 7 9 2 0, 1, 4; 2 10-15 Reserved Reserved

(58) TABLE-US-00006 TABLE 6 DMRS antenna port (1000 + a DMRS port number), a downlink DMRS configuration type (DL-DMRS-config-type) = 1, and a downlink DMRS maximum length (DL-DMRS-max-len) = 2 One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code DMRS Indication Quantity of code DMRS information division port information division port (value) in multiplexing CDM number Quantity of (value) in multiplexing CDM number Quantity of downlink control groups during rate (DMRS front-load downlink control groups during rate (DMRS front-load information matching ports) symbols information matching ports) symbols 0 2 0; 2 1 0 2 0, 1; 2, 3, 6 2 1 2 1; 3 1 1 2 0, 1, 4; 2, 3 2 2 2 0; 2, 3 1 2 2 0, 1, 4; 2, 3, 6 2 3 2 1; 6, 7 1 3 2 0, 1, 4; 2, 3, 6, 7 2 4 2 0, 1; 2 1 4 2 0, 1, 4, 5; 2, 3, 6 2 5 2 4, 5; 3 1 5 2 0, 1, 4, 5; 2, 3, 6, 7 2 6 2 0; 2, 3, 6 1 6-7 Reserved Reserved Reserved 7 2 0, 1; 2, 3 1 8 2 4, 5; 6, 7 1 9 2 0, 1, 4; 2 1 10-15 Reserved Reserved Reserved

(59) (2-2) The downlink DMRS configuration type parameter is equal to 2 (that is, there are three CDM groups), and there are still two DMRS groups. In this case, antenna ports included in a first CDM group are {1000, 1001, 1006, 1007}, antenna ports included in a second CDM group are {1002, 1003, 1008, 1009}, and antenna ports included in a third CDM group are {1004, 1005, 1010, 1011}. In the case of transmission with one codeword, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is allowed to be greater than 1. In the case of two codewords, an absolute value of a difference between a quantity of layers of each antenna port included in the two DMRS groups is not greater than 1.

(60) The two DMRS groups may have six selection manners: The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group and at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the third CDM group, and the second DMRS group includes at least one antenna port in the second CDM group.

(61) (2-2a) If the downlink DMRS configuration type parameter is equal to 2, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 1, the terminal side device determines, based on Table 7, the DMRS antenna ports on which a DMRS is currently transmitted.

(62) For example, the terminal side device learns, based on the at least two pieces of QCL information indicated by the TCI included in the downlink control information, that current transmission is the NCJT transmission. A value indicated by the downlink control information received by the terminal side device is 3, so that it can be learned from Table 7 that in the case of transmission with one codeword, the DMRS antenna ports on which the DMRS is currently transmitted are the port 1001 in the first DMRS group and the ports 1008 and 1009 in the second DMRS group, and in the case of transmission with two codewords, the DMRS antenna ports on which the DMRS is currently transmitted are the ports 1000, 1001, and 1006 in the first DMRS group and the ports 1002, 1003, 1008, and 1009 in the second DMRS group.

(63) (2-2b) If the downlink DMRS configuration type parameter is equal to 2, and the downlink DMRS maximum length parameter received by the terminal side device is equal to 2, the terminal side device determines, based on Table 8, the DMRS antenna ports on which a DMRS is currently transmitted.

(64) For example, the terminal side device learns, based on the at least two pieces of QCL information indicated by the TCI included in the downlink control information, that current transmission is the NCJT transmission. A value indicated by the downlink control information received by the terminal side is 5, so that it can be learned from Table 4 that in the case of transmission with one codeword, the DMRS antenna ports on which the DMRS is currently transmitted are the ports 1006 and 1007 in the first DMRS group and the port 1003 in the second DMRS group, and in the case of transmission with two codewords, the DMRS antenna ports on which the DMRS is currently transmitted are the ports 1000, 1001, 1006, and 1007 in the first DMRS group and the ports 1002, 1003, 1008, and 1009 in the second DMRS group.

(65) TABLE-US-00007 TABLE 7 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, and a downlink DMRS maximum length (DL-DMRS-max-len) = 1 One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 2 0; 2 0 2 0, 1; 2, 3, 8 1 2 1; 3 1 2 0, 1, 6; 2, 3 2 2 0; 2, 3 2 2 0, 1, 6; 2, 3, 8 3 2 1; 8, 9 3 2 0, 1, 6; 2, 3, 8, 9 4 2 0, 1; 2 4 2 0, 1, 6, 7; 2, 3, 8 5 2 6, 7; 3 5 2 0, 1, 6, 7; 2, 3, 8, 9 6 2 0; 2, 3, 8 6 3 0, 1; 4, 5, 10 7 2 0, 1; 2, 3 7 3 0, 1, 6; 4, 5 8 2 6, 7; 8, 9 8 3 0, 1, 6; 4, 5, 10 9 2 0, 1, 6; 2 9 3 0, 1, 6; 4, 5, 10, 11 10 3 0; 4 10 3 0, 1, 6, 7; 4, 5, 10 11 3 1; 5 11 3 0, 1, 6, 7; 4, 5, 10, 11 12 3 0; 4, 5 12 3 2, 3; 4, 5, 10 13 3 1; 10, 11 13 3 2, 3, 8; 4, 5 14 3 0, 1; 4 14 3 2, 3, 8; 4, 5, 10 15 3 6, 7; 5 15 3 2, 3, 8, 9; 4, 5, 10 16 3 0; 4, 5, 16 3 2, 3, 8; 4, 10 5, 10, 11 17 3 0, 1; 4, 5 17 3 2, 3, 8, 9; 4, 5, 10, 11 18 3 6, 7; 10, 18 3 0, 1; 2, 3, 11 4 19 3 0, 1, 6; 4 19 3 6, 7; 5, 8, 9 20 3 2; 4 20 3 0, 1, 6; 2, 3 21 3 3; 5 21 3 0, 1, 6; 2, 3, 4 22 3 2; 4, 5 22 3 0, 1, 6; 2, 3, 4, 5 23 3 3; 10, 11 23 3 0, 1, 6, 7; 2, 3, 4 24 3 2, 3; 4 24 3 0, 1, 6, 7; 2, 3, 4, 5 25 3 8, 9; 5 25 3 0, 1; 2, 3, 8 26 3 2; 4, 5, 26 3 0, 1, 4; 2, 10 3 27 3 2, 3; 4, 5 27 3 5, 6, 7; 8, 9 28 3 8, 9; 10, 28 3 0, 1, 4; 2, 11 3, 8 29 3 2, 3, 8; 4 29 3 0, 1, 4; 2, 3, 8, 9 30 3 0; 2 30 3 0, 1, 4, 5; 2, 3, 8 31 3 1; 3 31 3 0, 1, 4, 5; 2, 3, 8, 9 32 3 0; 2, 3 32 3 0, 1; 4, 5, 10 33 3 1; 4, 5 33 3 0, 1, 2; 4, 5 34 3 0, 1; 2 34 3 3, 6, 7; 10, 11 35 3 6, 7; 3 35 3 0, 1, 2; 4, 5, 10 36 3 0; 2, 3, 4 36 3 0, 1, 2; 4, 5, 10, 11 37 3 1; 5, 8, 9 37 3 0, 1, 2, 3; 4, 5, 10 38 3 0, 1; 2, 3 38 3 0, 1, 2, 3; 4, 5, 10, 11 39 3 6, 7; 4, 5 39-63 Reserved Reserved 40 3 0, 1, 6; 2 41 3 0; 2 42 3 1; 3 43 3 0; 2, 3 44 3 1; 8, 9 45 3 0, 1; 2 46 3 4, 5; 3 47 3 0; 2, 3, 8 48 3 0, 1; 2, 3 49 3 4, 5; 8, 9 50 3 0, 1, 4; 2 51 3 5, 6, 7; 3 52 3 0; 4 53 3 1; 5 54 3 0; 4, 5 55 3 1; 10, 11 56 3 0, 1; 4 57 3 2, 3; 5 58 0; 4, 5, 10 59 3 0, 1; 4, 5 60 3 2, 3; 10, 11 61 3 0, 1, 2; 4 62 3 3, 6, 7; 5 63 Reserved Reserved

(66) TABLE-US-00008 TABLE 8 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, and a downlink DMRS maximum length (DL-DMRS-max-len) = 2 One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 2 0; 2 1 0 2 0, 1; 2, 3, 8 2 1 2 1; 3 1 1 2 0, 1, 6; 2, 3 2 2 2 0; 2, 3 1 2 2 0, 1, 6; 2, 3, 8 2 3 2 1; 8, 9 1 3 2 0, 1, 6; 2, 3, 8, 9 2 4 2 0, 1; 2 1 4 2 0, 1, 6, 7; 2, 3, 8 2 5 2 6, 7; 3 1 5 2 0, 1, 6, 7; 2, 3, 8, 9 2 6 2 0; 2, 3, 8 1 6 3 0, 1; 4, 5, 10 2 7 2 0, 1; 2, 3 1 7 3 0, 1, 6; 4, 5 2 8 2 6, 7; 8, 9 1 8 3 0, 1, 6; 4, 5, 10 2 9 2 0, 1, 6; 2 1 9 3 0, 1, 6; 4, 5, 10, 11 2 10 3 0; 4 1 10 3 0, 1, 6, 7; 4, 5, 10 2 11 3 1; 5 1 11 3 0, 1, 6, 7; 4, 5, 10, 11 2 12 3 0; 4, 5 1 12 3 2, 3; 4, 5, 10 2 13 3 1; 10, 11 1 13 3 2, 3, 8; 4, 5 2 14 3 0, 1; 4 1 14 3 2, 3, 8; 4, 5, 10 2 15 3 6, 7; 5 1 15 3 2, 3, 8, 9; 4, 5, 10 2 16 3 0; 4, 5, 10 1 16 3 2, 3, 8; 4, 5, 10, 11 2 17 3 0, 1; 4, 5 1 17 3 2, 3, 8, 9; 4, 5, 10, 11 2 18 3 6, 7; 10, 11 1 18 3 0, 1; 2, 3, 4 2 19 3 0, 1, 6; 4 1 19 3 6, 7; 5, 8, 9 2 20 3 2; 4 1 20 3 0, 1, 6; 2, 3 2 21 3 3; 5 1 21 3 0, 1, 6; 2, 3, 4 2 22 3 2; 4, 5 1 22 3 0, 1, 6; 2, 3, 4, 5 2 23 3 3; 10, 11 1 23 3 0, 1, 6, 7; 2, 3, 4 2 24 3 2, 3; 4 1 24 3 0, 1, 6, 7; 2, 3, 4, 5 2 25 3 8, 9; 5 1 25 3 0, 1; 2, 3, 8 2 26 3 2; 4, 5, 10 1 26 3 0, 1, 4; 2, 3 2 27 3 2, 3; 4, 5 1 27 3 5, 6, 7; 8, 9 2 28 3 8, 9; 10, 11 1 28 3 0, 1, 4; 2, 3, 8 2 29 3 2, 3, 8; 4 1 29 3 0, 1, 4; 2, 3, 8, 9 2 30 3 0; 2 1 30 3 0, 1, 4, 5; 2, 3, 8 2 31 3 1; 3 1 31 3 0, 1, 4, 5; 2, 3, 8, 9 2 32 3 0; 2, 3 1 32 3 0, 1; 4, 5, 10 2 33 3 1; 4, 5 1 33 3 0, 1, 2; 4, 5 2 34 3 0, 1; 2 1 34 3 3, 6, 7; 10, 11 2 35 3 6, 7; 3 1 35 3 0, 1, 2; 4, 5, 10 2 36 3 0; 2, 3, 4 1 36 3 0, 1, 2; 4, 5, 10, 11 2 37 3 1; 5, 8, 9 1 37 3 0, 1, 2, 3; 4, 5, 10 2 38 3 0, 1; 2, 3 1 38 3 0, 1, 2, 3; 4, 5, 10, 11 2 39 3 6, 7; 4, 5 1 39-63 Reserved Reserved Reserved 40 3 0, 1, 6; 2 1 41 3 0; 2 1 42 3 1; 3 1 43 3 0; 2, 3 1 44 3 1; 8, 9 1 45 3 0, 1; 2 1 46 3 4, 5; 3 1 47 3 0; 2, 3, 8 1 48 3 0, 1; 2, 3 1 49 3 4, 5; 8, 9 1 50 3 0, 1, 4; 2 1 51 3 5, 6, 7; 3 1 52 3 0; 4 1 53 3 1; 5 1 54 3 0; 4, 5 1 55 3 1; 10, 11 1 56 3 0, 1; 4 1 57 3 2, 3; 5 1 58 3 0; 4, 5, 10 1 59 3 0, 1; 4, 5 1 60 3 2, 3; 10, 11 1 61 3 0, 1, 2; 4 1 62 3 3, 6, 7; 5 1 63 Reserved Reserved Reserved

(67) By applying the technical solution provided in the first embodiment, the following bit usage analysis table may be obtained. It can be learned from the analysis table that, when the DMRS ports on which the downlink data is scheduled is determined by using different CDM combination manners that is of the two DMRS groups and that corresponds to the indication information in the downlink control information, the antenna ports can be accurately determined, and bit overheads are reduced in general. In addition, the technical solution provided in the first embodiment may be applied to the MU-MIMO, thereby improving scalability of the entire communications system.

(68) TABLE-US-00009 Quantity of bits used by indication information in downlink control information Solution of a Prior art first embodiment SU- DL-DMRS- DL-DMRS-max-len = 1 4 3 MIMO config-type = 1 DL-DMRS-max-len = 2 6 DL-DMRS- DL-DMRS-max-len = 1 5 6 config-type = 2 DL-DMRS-max-len = 2 6 MU- DL-DMRS- DL-DMRS-max-len = 1 Not 4 MIMO config-type = 1 DL-DMRS-max-len = 2 supported DL-DMRS- DL-DMRS-max-len = 1 6 config-type = 2 DL-DMRS-max-len = 2

(69) Based on the first embodiment, a second embodiment of this application provides an antenna port determining method. Antenna port group information is introduced, so that the terminal side device can determine, based on QCL information in downlink control information, indication information in the downlink control information, and the antenna port group information, the antenna port on which the downlink data is scheduled.

(70) FIG. 3 is a schematic flowchart of an antenna port determining method, including the following content.

(71) 301: The terminal side device receives downlink control information sent by a network side device, where the downlink control information includes the QCL information and the indication information that is used to determine an antenna port number of the first antenna port, and the QCL information indicates that there is a quasi-colocation QCL relationship between the first antenna port and a second antenna port.

(72) The QCL information may specifically indicate that there is the QCL relationship between large-scale properties of the first antenna port and the second antenna port, so that the terminal side device can perform channel estimation based on the large-scale properties of the second antenna port, to further receive data sent by the network side device.

(73) The QCL relationship includes four types, and may be configured based on a higher layer message (for example, an RRC message):

(74) (1) QCL relationship type A: a Doppler frequency shift, a Doppler spread, an average delay, and a delay spread; (2) QCL relationship type B: a Doppler frequency shift and a Doppler spread; (3) QCL relationship type C: an average delay and a Doppler spread; (4) QCL relationship type D: spatial reception.

(75) Optionally, the first antenna port is a DMRS antenna port, and the second antenna port is at least one of a channel state information reference signal (CSI-RS) antenna port, a synchronization signal block (SS block), a phase tracking reference signal antenna port, and a tracking reference signal (TRS) antenna port. According to a definition of QCL, when channel estimation is performed on a DMRS antenna port, a large-scale property of the DMRS antenna port may be inferred based on a large-scale property of at least one of a CSI-RS antenna port, a synchronization signal block, a phase tracking reference signal antenna port, and a tracking reference signal that have the QCL relationship (which may be specifically one of the foregoing four QCL relationship types) with the DMRS antenna port.

(76) 302: The network side device determines the antenna port group information, and sends the antenna port group information to the terminal side device, where the antenna port group information is used to determine at least one antenna port group.

(77) There is a QCL relationship between antenna ports in each of the at least one antenna port group.

(78) The at least two antenna port groups determined based on the antenna port group information include the first antenna port, and optionally, further include the second antenna port.

(79) Optionally, the antenna port group information may be carried in a higher layer message (for example, the RRC message) and sent by the network side device to the terminal side device. For details, refer to the schematic diagram of information exchange shown in FIG. 2.

(80) Optionally, if the antenna port group information includes an identifier of at least one CDM group or a port number of at least one DMRS antenna port, the at least one antenna port group determined based on the antenna port group information is the at least one DMRS group. To be specific, the terminal side device determines the at least one CDM group based on the identifier of the at least one CDM group, and then determines the at least one DMRS group based on the at least one CDM group. Alternatively, the terminal side device determines the at least one DMRS group based on the port number of the at least one DMRS antenna port. In this case, the terminal side device may pre-store an identifier of each CDM group or a port number of each DMRS antenna port.

(81) Optionally, the antenna port group information may alternatively include the at least one CDM group or the at least one DMRS group. The terminal side device directly determines the at least one DMRS group directly based on the at least one CDM group. In this case, the terminal side device may not need to store the identifier of each CDM group.

(82) Generally, a quantity of the CDM groups or the at least one DMRS antenna port indicated in the antenna port group information is at least two, and there are also at least two DMRS groups determined based on the antenna port group information.

(83) When the antenna port group information includes identifiers of at least two CDM groups or the two CDM groups and two DMRS groups. A first DMRS group in the two DMRS groups includes at least one antenna port in at least one of the at least two CDM groups, and a second DMRS group in the two DMRS groups includes at least one antenna port in another CDM group in the two CDM groups.

(84) Further, in a case of transmission with one codeword, an absolute value of a difference between a quantity of layers of the at least one antenna port included in the first DMRS group and a quantity of layers of the at least one antenna port included in the second DMRS group is greater than 1.

(85) Further, in a case of transmission with two codewords, an absolute value of a difference between a quantity of layers of the at least one antenna port included in the first DMRS group and a quantity of layers of the at least one antenna port included in the second DMRS group is not greater than 1, a first codeword in the two codewords corresponds to the first DMRS group, and a second codeword corresponds to the second DMRS group.

(86) 303: The terminal side device determines the first antenna port based on the QCL information, the downlink control information, and the antenna port group information.

(87) By using the first antenna port determined in 303, the terminal side device may further receive a reference signal on the first antenna port, to perform channel estimation and correctly receive data.

(88) For ease of understanding, the following uses an example in which the first antenna port is a DMRS antenna port to describe possible implementations in 303 in different application scenarios. In these scenarios, in addition to the QCL information, the downlink control information, and the antenna port group information that are obtained from the network side device, the terminal side device may further receive a downlink DMRS configuration type parameter and a downlink DMRS maximum length parameter (DL-DMRS-max-len) from the network side device, to determine the DMRS antenna port on which a DMRS is currently transmitted.

(89) A second embodiment of this application further provides an antenna port determining method. The method is based on the first embodiment, and further optimizes the tables in the SU-MIMO and MU-MIMO scenarios in the first embodiment. In the first embodiment, the quantities of bits of the downlink control information in the SU-MIMO scenario are 3 and 6, and the quantities of bits of the downlink control information in the MU-MIMO scenario are 4 and 6. In the second embodiment, the tables in the SU-MIMO and the MU-MIMO scenarios are split into a plurality of sub-tables, and a specific subtable for usage is determined based on the antenna port group information, thereby further reducing signaling overheads of the downlink control information.

(90) (3) SU-MIMO Scenario

(91) When the downlink DMRS configuration type is equal to 1, there are two CDM groups. In this case, Table 1 and Table 2 in the first embodiment are not split.

(92) When the downlink DMRS configuration type is equal to 2, there are three CDM groups, and there are two DMRS groups. Antenna ports included in a first CDM group are {1000, 1001, 1006, 1007}, antenna ports included in a second CDM group are {1002, 1003, 1008, 1009}, and antenna ports included in a third CDM group are {1004, 1005, 1010, 1011}. The two DMRS groups may have six selection manners: The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group and at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the third CDM group, and the second DMRS group includes at least one antenna port in the second CDM group.

(93) Table 3 may be split into six subtables, as shown in Table 3-1 to Table 3-6. Table 4 may also be split into six subtables, as shown in Table 4-1 to Table 4-6. After the splitting, signaling overheads may be further reduced from six bits used by the indication information in the downlink control information in Table 3 and Table 4 to three bits.

(94) The terminal side device establishes a connection to a network side device, and receives a plurality of pieces of QCL information configured by the network side device based on the RRC message. The terminal side device learns, based on the detected at least two pieces of QCL information (the at least two pieces of QCL information are included in the plurality of pieces of configured QCL information) indicated by TCI included in the downlink control information, that current transmission is NCJT transmission. If the RRC message received by the terminal side device further indicates the downlink DMRS configuration type parameter, the downlink DMRS maximum length parameter, and the antenna port group information, a subtable for usage is specifically determined. Then, the terminal side device determines, based on a specific value of the indication information in the downlink control information, DMRS antenna ports on which the downlink data is scheduled.

(95) For example, when the downlink control information indicates the at least two pieces of QCL information, the terminal side device may determine that the current transmission is the NCJT transmission. The terminal side device then determines, based on the antenna port group information, that the first DMRS group includes at least one antenna port in the first CDM group, the second DMRS group includes at least one antenna port in the second CDM group, the downlink DMRS configuration type parameter (DL-DMRS-config-type) received from the higher layer message is equal to 2, and the downlink DMRS maximum length (DL-DMRS-max-len) received from the higher layer message is equal to 1. In this case, Table 3-1 is used. Then, DMRS ports corresponding to a row in Table 3-1 are determined based on the specific value of the indication information in the downlink control information. For example, when the specific value is 0, in the case of transmission with one codeword, the DMRS antenna ports on which the downlink data is scheduled are the port 1000 in the first DMRS group and the port 1002 in the second DMRS group.

(96) TABLE-US-00010 TABLE 3-1 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 2 0; 2 0 2 0, 1; 2, 3, 8 1 2 0; 2, 3 1 2 0, 1, 6; 2, 3 2 2 0, 1; 2 2 2 0, 1, 6; 2, 3, 8 3 2 0; 2, 3, 8 3 2 0, 1, 6; 2, 3, 8, 9 4 2 0, 1; 2, 3 4 2 0, 1, 6, 7; 2, 3, 8 5 2 0, 1, 6; 2 5 2 0, 1, 6, 7; 2, 3, 8, 9 6-7 Reserved Reserved 6 Reserved Reserved

(97) TABLE-US-00011 TABLE 3-2 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 2 0; 4 0 2 0, 1; 4, 5, 10 1 2 0; 4, 5 1 2 0, 1, 6; 4, 5 2 2 0, 1; 4 2 2 0, 1, 6; 4, 5, 10 3 2 0; 4, 5, 10 3 2 0, 1, 6; 4, 5, 10, 11 4 2 0, 1; 4, 5 4 2 0, 1, 6, 7; 4, 5, 10 5 2 0, 1, 6; 4 5 2 0, 1, 6, 7; 4, 5, 10, 11 6-7 Reserved Reserved 6 Reserved Reserved

(98) TABLE-US-00012 TABLE 3-3 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a second CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing DMRS downlink CDM groups DMRS downlink CDM groups antenna control during rate port control during rate port information matching number information matching number 0 2 2; 4 0 2 2, 3; 4, 5, 10 1 2 2; 4, 5 1 2 2, 3, 8; 4, 5 2 2 2, 3; 4 2 2 2, 3, 8; 4, 5, 10 3 2 2; 4, 5, 10 3 2 2, 3, 8, 9; 4, 5, 10 4 2 2, 3; 4, 5 4 2 2, 3, 8; 4, 5, 10, 11 5 2 2, 3, 8; 4 5 2 2, 3, 8, 9; 4, 5, 10, 11 6-7 Reserved Reserved 6 Reserved Reserved

(99) TABLE-US-00013 TABLE 3-4 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second COM group and at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 2 0; 2 0 2 0, 1; 2, 3, 4 1 2 0; 2, 3 1 2 0, 1, 6; 2, 3 2 2 0, 1; 3 2 2 0, 1, 6; 2, 3, 4 3 2 0; 2, 3, 4 3 2 0, 1, 6; 2, 3, 4, 5 4 2 0, 1; 2, 3 4 2 0, 1, 6, 7; 2, 3, 4 5 2 0, 1, 6; 2 5 2 0, 1, 6, 7; 2, 3, 4, 5 6-7 Reserved Reserved 6 Reserved Reserved

(100) TABLE-US-00014 TABLE 3-5 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group and at least one antenna port in a third CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 2 0; 2 0 2 0, 1; 2, 3, 8 1 2 0; 2, 3 1 2 0, 1, 4; 2, 3 2 2 0, 1; 2 2 2 0, 1, 4; 2, 3, 8 3 2 0; 2, 3, 8 3 2 0, 1, 4; 2, 3, 8, 9 4 2 0, 1; 2, 3 4 2 0, 1, 4, 5; 2, 3, 8 5 2 0, 1, 4; 2 5 2 0, 1, 4, 5; 2, 3, 8, 9 6-7 Reserved Reserved 6 Reserved Reserved

(101) TABLE-US-00015 TABLE 3-6 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group and at least one antenna port in a second CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 1 0; 4 0 2 0, 1; 4, 5, 10 1 1 0; 4, 5 1 2 0, 1, 2; 4, 5 2 1 0, 1; 4 2 2 0, 1, 2; 4, 5, 10 3 2 0; 4, 5, 10 3 2 0, 1, 2; 4, 5, 10, 11 4 2 0, 1; 4, 5 4 2 0, 1, 2, 3; 4, 5, 10 5 2 0, 1, 2; 4 5 2 0, 1, 2, 3; 4, 5, 10, 11 6-7 Reserved Reserved 6 Reserved Reserved

(102) TABLE-US-00016 TABLE 4-1 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is disabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 2 0; 2 2 0 2 0, 1; 2, 3, 8 2 1 2 0; 2, 3 2 1 2 0, 1, 6; 2, 3 2 2 2 0, 1; 2 2 2 2 0, 1, 6; 2, 3, 8 2 3 2 0; 2, 3, 8 2 3 2 0, 1, 6; 2, 3, 8, 9 2 4 2 0, 1; 2, 3 2 4 2 0, 1, 6, 7; 2, 3, 8 2 5 2 0, 1, 6; 2 2 5 2 0, 1, 6, 7; 2, 3, 8, 9 2 6-7 Reserved Reserved Reserved 6 Reserved Reserved Reserved

(103) TABLE-US-00017 TABLE 4-2 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: One codeword: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is disabled Indication Quantity of code DMRS Indication Quantity of code DMRS information division antenna port information division antenna port (value) in multiplexing CDM number Quantity of (value) in multiplexing CDM number Quantity of downlink control groups during rate (DMRS front-load downlink control groups during rate (DMRS front-load information matching ports) symbols information matching ports) symbols 0 2 0; 4 2 0 2 0, 1; 4, 5, 10 2 1 2 0; 4, 5 2 1 2 0, 1, 6; 4, 5 2 2 2 0, 1; 4 2 2 2 0, 1, 6; 4, 5, 10 2 3 2 0; 4, 5, 10 2 3 2 0, 1, 6; 4, 5, 10, 11 2 4 2 0, 1; 4, 5 2 4 2 0, 1, 6, 7; 4, 5, 10 2 5 2 0, 1, 6; 4 2 5 2 0, 1, 6, 7; 4, 5, 10, 11 2 6-7 Reserved Reserved Reserved 6 Reserved Reserved Reserved

(104) TABLE-US-00018 TABLE 4-3 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a second CDM group,and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is disabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 2 2; 4 2 0 2 2, 3; 4, 5, 10 2 1 2 2; 4, 5 2 1 2 2, 3, 8; 4, 5 2 2 2 2, 3; 4 2 2 2 2, 3, 8; 4, 5, 10 2 3 2 2; 4, 5, 10 2 3 2 2, 3, 8, 9; 4, 5, 10 2 4 2 2, 3; 4, 5 2 4 2 2, 3, 8; 4, 5, 10, 11 2 5 2 2, 3, 8; 4 2 5 2 2, 3, 8, 9; 4, 5, 10, 11 2 6-7 Reserved Reserved Reserved 6 Reserved Reserved Reserved

(105) TABLE-US-00019 TABLE 4-4 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second CDM group and at least one antenna port group in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is disabled Indication Quantity of code Indication Quantity of code information division DMRS information division (value) in multiplexing CDM antenna Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 2 0; 2 1 0 2 0, 1; 2, 3, 4 2 1 2 0; 2, 3 1 1 2 0, 1, 6; 2, 3 2 2 2 0, 1; 3 1 2 2 0, 1, 6; 2, 3, 4 2 3 2 0; 2, 3, 4 1 3 2 0, 1, 6; 2, 3, 4, 5 2 4 2 0, 1; 2, 3 1 4 2 0, 1, 6, 7; 2, 3, 4 2 5 2 0, 1, 6; 2 1 5 2 0, 1, 6, 7; 2, 3, 4, 5 2 6-7 Reserved Reserved Reserved 6 Reserved Reserved Reserved

(106) TABLE-US-00020 TABLE 4-5 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, at least one antenna port in a third CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is disabled Indication Quantity of code DMRS Indication Quantity of code DMRS information division antenna port information division antenna port (value) in multiplexing CDM number Quantity of (value) in multiplexing CDM number Quantity of downlink control groups during rate (DMRS front-load downlink control groups during rate (DMRS front-load information matching ports) symbols information matching ports) symbols 0 2 0; 2 2 0 2 0, 1; 2, 3, 8 2 1 2 0; 2, 3 2 1 2 0, 1, 4; 2, 3 2 2 2 0, 1; 2 2 2 2 0, 1, 4; 2, 3, 8 2 3 2 0; 2, 3, 8 2 3 2 0, 1, 4; 2, 3, 8, 9 2 4 2 0, 1; 2, 3 2 4 2 0, 1, 4, 5; 2, 3, 8 2 5 2 0, 1, 4; 2 2 5 2 0, 1, 4, 5; 2, 3, 8, 9 2 6-7 Reserved Reserved Reserved 6 Reserved Reserved Reserved

(107) TABLE-US-00021 TABLE 4-6 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group and at least one antenna port in a second CDM group, and a second DMRS group indudes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is disabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 1 0; 4 1 0 2 0, 1; 4, 5, 10 2 1 1 0; 4, 5 1 1 2 0, 1, 2; 4, 5 2 2 1 0, 1; 4 1 2 2 0, 1, 2; 4, 5, 10 2 3 2 0; 4, 5, 10 1 3 2 0, 1, 2; 4, 5, 10, 11 2 4 2 0, 1; 4, 5 1 4 2 0, 1, 2, 3; 4, 5, 10 2 5 2 0, 1, 2; 4 1 5 2 0, 1, 2, 3; 4, 5, 10, 11 2 6-7 Reserved Reserved Reserved 6 Reserved Reserved Reserved

(108) (4) MU-MIMO Scenario

(109) To support MU-MIMO transmission, a network side device may schedule at least two terminal side devices on a same time-frequency resource. In this case, DMRSs sent to the at least two terminal sides are orthogonal or quasi-orthogonal.

(110) When the downlink DMRS configuration type is equal to 1, there are two CDM groups. In this case, Table 5 and Table 6 in the first embodiment are not split.

(111) When the downlink DMRS configuration type is equal to 2, there are three CDM groups, and there are two DMRS groups. Antenna ports included in a first CDM group are {1000, 1001, 1006, 1007}, antenna ports included in a second CDM group are {1002, 1003, 1008, 1009}, and antenna ports included in a third CDM group are {1004, 1005, 1010, 1011}. The two DMRS groups may have six selection manners: The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group, and the second DMRS group includes at least one antenna port in the second CDM group and at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the second CDM group, and the second DMRS group includes at least one antenna port in the third CDM group; The first DMRS group includes at least one antenna port in the first CDM group and at least one antenna port in the third CDM group, and the second DMRS group includes at least one antenna port in the second CDM group.

(112) Table 7 may be split into six subtables, as shown in Table 7-1 to Table 7-6. Table 8 may also be split into six subtables, as shown in Table 8-1 to Table 8-6. After the splitting, signaling overheads may be further reduced from six bits used by the indication information in the downlink control information in Table 7 and Table 8 to four bits.

(113) In an example, a terminal side device 1 establishes a connection to a network side device, and receives a plurality of pieces of QCL information, the downlink DMRS configuration type parameter, the downlink DMRS maximum length parameter, and the antenna port group information that are configured by the network side device for the terminal side device 1 based on the RRC message. The terminal side device 2 establishes a connection to the network side device, and receives a plurality of pieces of QCL information configured by the network side device for the terminal side device 2 based on the RRC message. When determining to perform NCJT transmission in an MU-MIMO scenario, the network side device sends downlink control information 1 to the terminal side device 1. The downlink control information 1 indicates at least two pieces of QCL information in the plurality of pieces of QCL information configured for the terminal side device 1, so that the terminal side device 1 learns that current transmission is the NCJT transmission. The terminal side device 1 determines a subtable for usage based on the downlink DMRS configuration type parameter, the downlink DMRS maximum length parameter, and the antenna port group information that are configured for the terminal side device 1, and then determines, based on a specific value of indication information in the downlink control information 1 in the subtable, DMRS antenna ports on which the downlink data is scheduled. Similarly, the network side device further sends downlink control information 2 to the terminal side device 2. The downlink control information 2 indicates at least two pieces of QCL information in the plurality of pieces of QCL information configured for the terminal side device 2, so that the terminal side device 2 learns that current transmission is the NCJT transmission. The terminal side device 2 determines a subtable for usage based on the downlink DMRS configuration type parameter, the downlink DMRS maximum length parameter, and the antenna port group information that are configured for the terminal side device 2, and then determines, based on a specific value of indication information in the downlink control information 2 in the subtable, DMRS antenna ports on which the downlink data is scheduled.

(114) In the NCJT transmission mode, the network side device may enable, based on the downlink DMRS configuration type parameter and the downlink DMRS maximum length parameter, the terminal side device 1 and the terminal side device 2 to search for the required antenna ports by using a same table. In this case, the specific value of the indication information in the downlink control information 1 is different from the specific value of the indication information in the downlink control information 2, so that the terminal side device 1 and the terminal side device 2 use antenna ports corresponding to different rows in the same table.

(115) TABLE-US-00022 TABLE 7-1 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 2 0; 2 0 2 0, 1; 2, 3, 8 1 2 1; 3 1 2 0, 1, 6; 2, 3 2 2 0; 2, 3 2 2 0, 1, 6; 2, 3, 8 3 2 1; 8, 9 3 2 0, 1, 6; 2, 3, 8, 9 4 2 0, 1; 2 4 2 0, 1, 6, 7; 2, 3, 8 5 2 6, 7; 3 5 2 0, 1, 6, 7; 2, 3, 8, 9 6 2 0; 2, 3, 8 6-15 Reserved Reserved 7 2 0, 1; 2, 3 8 2 6, 7; 8, 9 9 2 0, 1, 6; 2 10-15 Reserved Reserved

(116) TABLE-US-00023 TABLE 7-2 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 3 0; 4 0 3 0, 1; 4, 5, 10 1 3 1; 5 1 3 0, 1, 6; 4, 5 2 3 0; 4, 5 2 3 0, 1, 6; 4, 5, 10 3 3 1; 10, 11 3 3 0, 1, 6; 4, 5, 10, 11 4 3 0, 1; 4 4 3 0, 1, 6, 7; 4, 5, 10 5 3 6, 7; 5 5 3 0, 1, 6, 7; 4, 5, 10, 11 6 3 0; 4, 5, 10 6-15 Reserved Reserved 7 3 0, 1; 4, 5 8 6, 7; 10, 11 9 3 0, 1, 6; 4 10-15 Reserved Reserved

(117) TABLE-US-00024 TABLE 7-3 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a second CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 3 2; 4 0 3 2, 3; 4, 5, 10 1 3 3; 5 1 3 2, 3, 8; 4, 5 2 3 2; 4, 5 2 3 2, 3, 8; 4, 5, 10 3 3 3; 10, 11 3 3 2, 3, 8, 9; 4, 5, 10 4 3 2, 3; 4 4 3 2, 3, 8; 4, 5, 10, 11 5 3 8, 9; 5 5 3 2, 3, 8, 9; 4, 5, 10, 11 6 3 2; 4, 5, 10 6-15 Reserved Reserved 7 2, 3; 4, 5 8 3 8, 9; 10, 11 9 3 2, 3, 8; 4 10-15 Reserved Reserved

(118) TABLE-US-00025 TABLE 7-4 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group and at least one antenna port in a second CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 3 0; 2 0 3 0, 1; 2, 3, 4 1 3 1; 3 1 3 6, 7; 5, 8, 9 2 3 0; 2, 3 2 3 0, 1, 6; 2, 3 3 3 1; 4, 5 3 3 0, 1, 6; 2, 3, 4 4 3 0, 1; 2 4 3 0, 1, 6; 2, 3, 4, 5 5 3 6, 7; 3 5 3 0, 1, 6, 7; 2, 3, 4 6 3 0; 2, 3, 4 6 3 0, 1, 6, 7; 2, 3, 4, 5 7 3 1; 5, 8, 9 7-15 Reserved Reserved 8 3 0, 1; 2, 3 9 3 6, 7; 4, 5 10 3 0, 1, 6; 2 11-15 Reserved Reserved

(119) TABLE-US-00026 TABLE 7-5 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a second CDM group, and a second DMRS group includes at least one antenna port in a first CDM group and at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of Indication Quantity of information code division information code division (value) in multiplexing (value) in multiplexing downlink CDM groups DMRS downlink CDM groups DMRS control during rate port control during rate port information matching number information matching number 0 3 0; 2 0 3 0, 1; 2, 3, 8 1 3 1; 3 1 3 0, 1, 4; 2, 3 2 3 0; 2, 3 2 3 5, 6, 7; 8, 9 3 3 1; 8, 9 3 3 0, 1, 4; 2, 3, 8 4 3 0, 1; 2 4 3 0, 1, 4; 2, 3, 8, 9 5 3 4, 5; 3 5 3 0, 1, 4, 5; 2, 3, 8 6 3 0; 2, 3, 8 6 3 0, 1, 4, 5; 2, 3, 8, 9 7 3 0, 1; 2, 3 7-15 Reserved Reserved 8 3 4, 5; 8, 9 9 0, 1, 4; 2 10 3 5, 6, 7; 3 11-15 Reserved Reserved

(120) TABLE-US-00027 TABLE 7-6 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 1, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a third CDM group, and a second DMRS group includes at least one antenna port in a first CDM group and at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of DMRS Indication Quantity of DMRS information code division antenna information code division antenna (value) in multiplexing port (value) in multiplexing port downlink CDM groups number downlink CDM groups number control during rate (DMRS control during rate (DMRS information matching ports) information matching ports) 0 3 0; 4 0 3 0, 1; 4, 5, 10 1 3 1; 5 1 3 0, 1, 2; 4, 5 2 3 0; 4, 5 2 3 3, 6, 7; 10, 11 3 3 1; 10, 11 3 3 0, 1, 2; 4, 5, 10 4 3 0, 1; 4 4 3 0, 1, 2; 4, 5, 10, 11 5 3 2, 3; 5 5 3 0, 1, 2, 3; 4, 5, 10 6 3 0; 4, 5, 10 6 3 0, 1, 2, 3; 4, 5, 10, 11 7 0, 1; 4, 5 7-15 Reserved Reserved 8 3 2, 3; 10, 11 9 3 0, 1, 2; 4 10 3 3, 6, 7; 5 11-15 Reserved Reserved

(121) TABLE-US-00028 TABLE 8-1 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 2 0; 2 1 0 2 0, 1; 2, 3, 8 2 1 2 1; 3 1 1 2 0, 1, 6; 2, 3 2 2 2 0; 2, 3 1 2 2 0, 1, 6; 2, 3, 8 2 3 2 1; 8, 9 1 3 2 0, 1, 6; 2, 3, 8, 9 2 4 2 0, 1; 2 1 4 2 0, 1, 6, 7; 2, 3, 8 2 5 2 6, 7; 3 1 5 2 0, 1, 6, 7; 2, 3, 8, 9 2 6 2 0; 2, 3, 8 1 6-15 Reserved Reserved Reserved 7 2 0, 1; 2, 3 1 8 2 6, 7; 8, 9 1 9 2 0, 1, 6; 2 1 10-15 Reserved Reserved Reserved

(122) TABLE-US-00029 TABLE 8-2 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 3 0; 4 1 0 3 0, 1; 4, 5, 10 2 1 3 1; 5 1 1 3 0, 1, 6; 4, 5 2 2 3 0; 4, 5 1 2 3 0, 1, 6; 4, 5, 10 2 3 3 1; 10, 11 1 3 3 0, 1, 6; 4, 5, 10, 11 2 4 3 0, 1; 4 1 4 3 0, 1, 6, 7; 4, 5, 10 2 5 3 6, 7; 5 1 5 3 0, 1, 6, 7; 4, 5, 10, 11 2 6 3 0; 4, 5, 10 1 6-15 Reserved Reserved Reserved 7 3 0, 1; 4, 5 1 8 3 6, 7; 10, 11 1 9 3 0, 1, 6; 4 1 10-15 Reserved Reserved Reserved

(123) TABLE-US-00030 TABLE 8-3 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a second CDM group, and a second DMRS group includes at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 3 2; 4 1 0 3 2, 3; 4, 5, 10 2 1 3 3; 5 1 1 3 2, 3, 8; 4, 5 2 2 3 2; 4, 5 1 2 3 2, 3, 8; 4, 5, 10 2 3 3 3; 10, 11 1 3 3 2, 3, 8, 9; 4, 5, 10 2 4 3 2, 3; 4 1 4 3 2, 3, 8; 4, 5, 10, 11 2 5 3 8, 9; 5 1 5 3 2, 3, 8, 9; 4, 5, 10, 11 2 6 3 2; 4, 5, 10 1 6-15 Reserved Reserved Reserved 7 3 2, 3; 4, 5 1 8 3 8, 9; 10, 11 1 9 3 2, 3, 8; 4 1 10-15 Reserved Reserved Reserved

(124) TABLE-US-00031 TABLE 8-4 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a first CDM group, and a second DMRS group includes at least one antenna port in a second CDM group and at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 3 0; 2 1 0 3 0, 1; 2, 3, 4 2 1 3 1; 3 1 1 3 6, 7; 5, 8, 9 2 2 3 0; 2, 3 1 2 3 0, 1, 6; 2, 3 2 3 3 1; 4, 5 1 3 3 0, 1, 6; 2, 3, 4 2 4 3 0, 1; 2 1 4 3 0, 1, 6; 2, 3, 4, 5 2 5 3 6, 7; 3 1 5 3 0, 1, 6, 7; 2, 3, 4 2 6 3 0; 2, 3, 4 1 6 3 0, 1, 6, 7; 2, 3, 4, 5 2 7 3 1; 5, 8, 9 1 7-15 Reserved Reserved Reserved 8 3 0, 1; 2, 3 1 9 3 6, 7; 4, 5 1 10 3 0, 1, 6; 2 1 11-15 Reserved Reserved Reserved

(125) TABLE-US-00032 TABLE 8-5 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based on antenna port group information includes at least one antenna port in a second DM group, and a second DMRS group includes at least one antenna port in a first CDM group and at least one antenna port in a third CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 3 0; 2 1 0 3 0, 1; 2, 3, 8 2 1 3 1; 3 1 1 3 0, 1, 4; 2, 3 2 2 3 0; 2, 3 1 2 3 5, 6, 7; 8, 9 2 3 3 1; 8, 9 1 3 3 0, 1, 4; 2, 3, 8 2 4 3 0, 1; 2 1 4 3 0, 1, 4; 2, 3, 8, 9 2 5 3 4, 5; 3 1 5 3 0, 1, 4, 5; 2, 3, 8 2 6 3 0; 2, 3, 8 1 6 3 0, 1, 4, 5; 2, 3, 8, 9 2 7 3 0, 1; 2, 3 1 7-15 Reserved Reserved Reserved 8 3 4, 5; 8, 9 1 9 3 0, 1, 4; 2 1 10 3 5, 6, 7; 3 1 11-15 Reserved Reserved Reserved

(126) TABLE-US-00033 TABLE 8-6 Antenna port (1000 + a DMRS port number), a downlink DMRS configuration type parameter (DL-DMRS-config-type) = 2, a downlink DMRS maximum length (DL-DMRS-max-len) = 2, and a first DMRS group determined based oh antenna port group information includes at least one antenna port in a third CDM group, and a second DMRS group includes at least one antenna port in a first CDM group and at least one antenna port in a second CDM group (the information may be directly indicated in an RRC message) One codeword: Two codewords: Codeword 0 is enabled Codeword 0 is enabled Codeword 1 is disabled Codeword 1 is enabled Indication Quantity of code Indication Quantity of code information division information division (value) in multiplexing CDM DMRS Quantity of (value) in multiplexing CDM DMRS Quantity of downlink control groups during rate port front-load downlink control groups during rate port front-load information matching number symbols information matching number symbols 0 3 0; 4 1 0 3 0, 1; 4, 5, 10 2 1 3 1; 5 1 1 3 0, 1, 2; 4, 5 2 2 3 0; 4, 5 1 2 3 3, 6, 7; 10, 11 2 3 3 1; 10, 11 1 3 3 0, 1, 2; 4, 5, 10 2 4 3 0, 1; 4 1 4 3 0, 1, 2; 4, 5, 10, 11 2 5 3 2, 3; 5 1 5 3 0, 1, 2, 3; 4, 5, 10 2 6 3 0; 4, 5, 10 1 6 3 0, 1, 2, 3; 4, 5, 10, 11 2 7 3 0, 1; 4, 5 1 7-15 Reserved Reserved Reserved 8 3 2, 3; 10, 11 1 9 3 0, 1, 2; 4 1 10 3 3, 6, 7; 5 1 11-15 Reserved Reserved Reserved

(127) By applying the technical solution provided in the second embodiment, the following bit usage analysis table may be obtained. It can be learned from the analysis table that the terminal side device further determines, based on the received antenna port group information and different antenna port groups, the DMRS ports on which the downlink data is scheduled, to further reduce signaling overheads.

(128) TABLE-US-00034 Quantity of bits used by indication information in downlink control information First Second Prior art embodiment embodiment SU- DL-DMRS- DL-DMRS-max-len = 1 4 3 3 MIMO config-type = 1 DL-DMRS-max-len = 2 6 DL-DMRS- DL-DMRS-max-len = 1 5 6 3 config-type = 2 DL-DMRS-max-len = 2 6 MU- DL-DMRS- DL-DMRS-max-len = 1 Not 4 4 MIMO config-type = 1 DL-DMRS-max-len = 2 supported DL-DMRS- DL-DMRS-max-len = 1 6 4 config-type = 2 DL-DMRS-max-len = 2

(129) A third embodiment of this application provides a terminal side device 400. FIG. 4 is a schematic structural diagram of the terminal side device. The terminal side device 400 includes a receiving unit 401 and a processing unit 402.

(130) The terminal side device 400 provided in the third embodiment of this application may be the terminal side device in the first embodiment or the second embodiment, and performs the method performed by the terminal side device. Specifically, the receiving unit 401 is configured to perform a receiving action of the terminal side device in the first embodiment or the second embodiment, and the processing unit 402 is configured to perform processing actions such as determining of the terminal side device in the first embodiment or the second embodiment. For details, refer to content described in the first embodiment or the second embodiment.

(131) A third embodiment of this application further provides a network side device 500. FIG. 5 is a schematic structural diagram of the network side device. The network side device 500 includes a sending unit 501 and a processing unit 502. The network side device 500 may be the network side device in the first embodiment or the second embodiment, and performs the method performed by the network side device. Specifically, the sending unit 501 is configured to perform a sending action of the network side device in the first embodiment or the second embodiment, and the processing unit 502 is configured to perform processing actions such as determining of the network side device in the first embodiment or the second embodiment. For details, refer to content described in the first embodiment or the second embodiment.

(132) In specific hardware implementation, FIG. 6 is a schematic diagram of a general-purpose hardware structure of a terminal side device and the network side device. A function of a receiving unit may be specifically implemented by a receiver 601, a function of a processing unit may be specifically implemented by a processor 602, and a function of a sending unit may be specifically implemented by a transmitter 606. The hardware structure may further include various electronic circuits, for example, a bus 603, a memory 604, and a communications interface 605. The memory 604 may include instruction code. When the instruction code is invoked by the processor 602, the instruction code is used to implement a function of the terminal side device in the first embodiment or the second embodiment. The instruction code may include code used for RRC layer functions, code used for MAC layer functions, and code used for PHY layer functions. Optionally, the memory 604 may be integrated into the processor 602, or may be independent of the processor 602.

(133) The communications interface 605 may be a wired communications interface, a wireless communications interface, or a combination thereof. The wired communications interface may be, for example, an Ethernet interface. The Ethernet interface may be an optical interface, an electrical interface, or a combination thereof. The wireless communications interface may be a wireless local area network interface.

(134) The bus may be a peripheral component interconnect (PCI) standard bus, an extended industry standard architecture (EISA) bus, or the like. The bus may be classified into an address bus, a data bus, a control bus, and the like.

(135) A person skilled in the art should understand that the embodiments of this application may be provided as a method, a system, or a computer program product. Therefore, this application may use a form of hardware only embodiments, software only embodiments, or embodiments with a combination of software and hardware. Moreover, this application may use a form of a computer program product that is implemented on one or more computer-usable storage media (including but not limited to a magnetic disk storage, a CD-ROM, an optical memory, and the like) that include computer-usable program code.

(136) This application is described with reference to the flowcharts and/or block diagrams of the method, the apparatus (system), and the computer program product according to the embodiments of this application. It should be understood that computer program instructions may be used to implement each procedure and/or each block in the flowcharts and/or the block diagrams and a combination of a procedure and/or a block in the flowcharts and/or the block diagrams. These computer program instructions may be provided for a processor of a general-purpose computer, a special-purpose computer, an embedded processor, or another programmable data processing device to generate a machine, so that the instructions executed by the processor of the computer or the another programmable data processing device generate an apparatus for implementing a specific function in one or more procedures in the flowcharts and/or in one or more blocks in the block diagrams.

(137) These computer program instructions may alternatively be stored in a computer-readable memory that can indicate a computer or another programmable data processing device to work in a specific manner, so that the instructions stored in the computer-readable memory generate an artifact that includes an instruction apparatus. The instruction apparatus implements a specific function in one or more procedures in the flowcharts and/or in one or more blocks in the block diagrams.

(138) These computer program instructions may alternatively be loaded onto a computer or another programmable data processing device, so that a series of operations and steps are performed on the computer or the another programmable device, thereby generating computer-implemented processing. Therefore, the instructions executed on the computer or another programmable device provide steps for implementing a specific function in one or more procedures in the flowcharts and/or in one or more blocks in the block diagrams.