CN110149707B - Physical uplink control channel sending method, physical uplink control channel receiving method and related equipment - Google Patents

Abstract

The embodiment of the invention provides a Physical Uplink Control Channel (PUCCH) sending method, a Physical Uplink Control Channel (PUCCH) receiving method and related equipment, wherein the PUCCH sending method comprises the following steps: the terminal equipment determines N1 pieces of feedback information; the N1 pieces of feedback information correspond to N1 downlink time units; the terminal equipment determines Physical Uplink Control Channel (PUCCH) resources and N2 bits according to the N1 pieces of feedback information; the PUCCH resource and N2 bits jointly indicate the combined state of N3 pieces of feedback information, N1, N2, and N3 are positive integers, and N3 is less than or equal to N1; the terminal device sends N2 bits carried on the PUCCH resource to the network device. By implementing the embodiment of the invention, when the DC terminal can send the uplink signal on the NR carrier wave, the ACK/NACK of the downlink data received in all downlink subframes in the LTE mode can be fed back at the same time, and the reliability of the communication system is improved.

Description

Physical uplink control channel sending method, receiving method and related equipment

technical field

The present invention relates to the field of communication technologies, and in particular, to a method for sending a physical uplink control channel, a method for receiving, and related equipment.

Background technique

During the development and evolution of a wireless communication system, a 5G New Radio Interface (NR) system and a Long Term Evolution (Long Term Evolution, LTE) system can be deployed in a frequency band below 6 GHz at the same time. A terminal working in the NR and LTE dual connectivity (DC) mode only sends uplink signals on one frequency point at the same time, so that the terminal cannot use the LTE uplink subframe that overlaps with the NR uplink time slot. /slot to send a signal. Specifically, as shown in Figure 1, a terminal working in DC mode needs to send the acknowledgment (Acknowledgment, ACK)/negative acknowledgment (Negative Acknowledgment) of the NR system in the time slots marked "U" and "S" on the NR carrier , NACK), so that signals cannot be sent on the LTE subframes marked "1", "2", "6", and "7", which will affect the uplink performance of LTE. At the same time, since the terminal in the LTE mode adopts the N-4 ACK/NACK feedback timing, that is, the terminal feeds back the ACK/NACK of the downlink data received in the downlink subframe numbered N-4 in the uplink subframe numbered N. In the situation shown in FIG. 1 , the terminal cannot send uplink signals on subframes “6” and “7” on the LTE uplink (Uplink, UL) carrier, so the terminal cannot perform the LTE downlink corresponding to the ACK/NACK. The downlink signals received on the "2" and "3" subframes of the channel (Downlink, DL) are fed back, which will seriously affect the downlink performance of the LTE. Therefore, for a DC terminal, when the terminal sends an uplink signal on the NR carrier, the terminal cannot feed back the ACK/NACK of the downlink data received in all downlink subframes in the LTE mode.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide a method for sending a physical uplink control channel, a method for receiving PUCCH, and related equipment, which can enable a DC terminal to send uplink signals on an NR carrier, and at the same time, feedback the received signals in all downlink subframes in the LTE mode. ACK/NACK of the downlink data.

In a first aspect, an embodiment of the present invention provides a method for sending a physical uplink control channel PUCCH, including:

The terminal device determines N1 pieces of feedback information; the N1 pieces of feedback information correspond to N1 downlink time units;

The terminal device determines physical uplink control channel PUCCH resources and N2 bits according to the N1 pieces of feedback information; the PUCCH resources and N2 bits jointly indicate the combined state of the N3 pieces of feedback information, and the N1, N2 and N3 are positive Integer, the N3 is less than or equal to N1;

The terminal device carries the N2 bits on the PUCCH resource and sends the N2 bits to the network device.

By implementing the embodiments of the present invention, when the DC terminal sends the uplink signal on the NR carrier, it can feed back the ACK/NACK of the downlink data received in all downlink subframes in the LTE mode at the same time.

In a possible implementation, the N1 is equal to 5;

The PUCCH resource and the N2 bits jointly indicate any one of the following 16 combination states of the N3 pieces of feedback information:

The N3=5, the combined state of the N3 pieces of feedback information is: confirm response ACK, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, Y, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX, Y, or the N3 pieces of feedback information The combined state of is Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

Implementing the embodiments of the present invention can enable the DC terminal to send the ACK/NACK of the downlink data received in five downlink subframes to the network device on a certain uplink subframe, ensuring that when the DC terminal sends the uplink signal on the NR carrier, the DC terminal can Feedback ACK/NACK of downlink data received in all downlink subframes in LTE mode to improve LTE downlink performance.

In a possible implementation, the N1 is equal to 6;

The PUCCH resource and the N2 bits jointly indicate any one of the following 16 combination states of the N3 pieces of feedback information:

The N3=6, the combined state of the N3 pieces of feedback information is: acknowledgment ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, discontinuous transmission DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX , Y, or the combined state of the N3 pieces of feedback information is Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

Implementing the embodiments of the present invention enables the DC terminal to send ACK/NACK of downlink data received in six downlink subframes to the network device on a certain uplink subframe, ensuring that when the DC terminal sends the uplink signal on the NR carrier, the DC terminal can Feedback ACK/NACK of downlink data received in all downlink subframes in LTE mode to improve LTE downlink performance.

In a possible implementation manner, each of the 16 types of combination states of the N3 pieces of feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

In a possible implementation manner, in the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the order of the N3 downlink time units corresponding to the N3 pieces of feedback information; or,

In the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the downlink allocation indication DAI information corresponding to the N3 pieces of feedback information;

The DAI information is carried by the downlink control information DCI, the DCI corresponds to the data received by the terminal device in the downlink time unit, and the N3 pieces of feedback information correspond to the terminal device received in the N3 downlink time units The data.

By implementing the embodiment of the present invention, the N3 pieces of feedback information can be sorted, and the corresponding relationship between the feedback information and the downlink subframe can be determined.

In a possible implementation manner, the terminal device simultaneously accesses the new air interface NR and the Long Term Evolution LTE, and the downlink time unit is the time unit of the LTE.

In a possible implementation manner, the downlink time unit is a time unit of the same cell.

In a second aspect, an embodiment of the present invention provides a method for receiving a physical uplink control channel PUCCH, including:

The network device receives N2 bits on the physical uplink control channel PUCCH resource; the PUCCH resource and the N2 bits are determined by the terminal device according to N1 pieces of feedback information, and the N1 pieces of feedback information correspond to N1 downlink time units;

The network device determines the combination state of the N3 pieces of feedback information according to the PUCCH resource and the N2 bits; the N1, N2, and N3 are positive integers, and the N3 is less than or equal to N1.

In a possible implementation, the N1 is equal to 5;

Determining, by the network device, the combination state of the N3 pieces of feedback information according to the PUCCH resources and the N2 bits includes: the network device determining the following 16 combinations of the N3 pieces of feedback information according to the PUCCH resources and the N2 bits Either of the states:

The N3=5, the combined state of the N3 pieces of feedback information is: confirm response ACK, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, Y, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX, Y, or the N3 pieces of feedback information The combined state of is Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

In a possible implementation, the N1 is equal to 6;

Determining, by the network device, the combination state of the N3 pieces of feedback information according to the PUCCH resources and the N2 bits includes: the network device determining the following 16 combinations of the N3 pieces of feedback information according to the PUCCH resources and the N2 bits Either of the states:

The N3=6, the combined state of the N3 pieces of feedback information is: acknowledgment ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, discontinuous transmission DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX , Y, or the combined state of the N3 pieces of feedback information is Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

In a possible implementation manner, each of the 16 types of combination states of the N3 pieces of feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

In a possible implementation manner, in the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the order of the N3 downlink time units corresponding to the N3 pieces of feedback information; or,

In the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the downlink allocation indication DAI information corresponding to the N3 pieces of feedback information;

The DAI information is carried by the downlink control information DCI, the DCI corresponds to the data received by the terminal device in the downlink time unit, and the N3 pieces of feedback information correspond to the terminal device received in the N3 downlink time units The data.

In a possible implementation manner, the terminal device simultaneously accesses the new air interface NR and the Long Term Evolution LTE, and the downlink time unit is the time unit of the LTE.

In a possible implementation manner, the downlink time unit is a time unit of the same cell.

In a third aspect, an embodiment of the present invention provides a terminal device, including:

a first determination unit, used for determining N1 pieces of feedback information; the N1 pieces of feedback information correspond to N1 downlink time units; a second determination unit, used for determining physical uplink control channel PUCCH resources and N2 pieces of physical uplink control channel according to the N1 pieces of feedback information bit; the PUCCH resource and N2 bits jointly indicate the combined state of the N3 pieces of feedback information, the N1, N2 and N3 are positive integers, and the N3 is less than or equal to N1;

A sending unit, configured to carry the N2 bits on the PUCCH resource and send the N2 bits to a network device.

In a possible implementation, the N1 is equal to 5;

The PUCCH resource and the N2 bits jointly indicate any one of the following 16 combination states of the N3 pieces of feedback information:

The N3=5, the combined state of the N3 pieces of feedback information is: confirm response ACK, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, Y, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX, Y, or the N3 pieces of feedback information The combined state of is Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

In a possible implementation, the N1 is equal to 6;

The PUCCH resource and the N2 bits jointly indicate any one of the following 16 combination states of the N3 pieces of feedback information:

The N3=6, the combined state of the N3 pieces of feedback information is: acknowledgment ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, discontinuous transmission DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX , Y, or the combined state of the N3 pieces of feedback information is Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

In a possible implementation manner, each of the 16 types of combination states of the N3 pieces of feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

In a possible implementation manner, in the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the order of the N3 downlink time units corresponding to the N3 pieces of feedback information; or,

In the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the downlink allocation indication DAI information corresponding to the N3 pieces of feedback information;

The DAI information is carried by the downlink control information DCI, the DCI corresponds to the data received by the terminal device in the downlink time unit, and the N3 pieces of feedback information correspond to the terminal device received in the N3 downlink time units The data.

In a possible implementation manner, the terminal device simultaneously accesses the new air interface NR and the Long Term Evolution LTE, and the downlink time unit is the time unit of the LTE.

In a possible implementation manner, the downlink time unit is a time unit of the same cell.

In a fourth aspect, an embodiment of the present invention provides a network device, including:

a receiving unit, configured to receive N2 bits on the physical uplink control channel PUCCH resource; the PUCCH resource and the N2 bits are determined by the terminal device according to N1 pieces of feedback information, and the N1 pieces of feedback information correspond to N1 downlink time units ;

The third determining unit is configured to determine the combination state of the N3 pieces of feedback information according to the PUCCH resource and the N2 bits; the N1, N2, and N3 are positive integers, and the N3 is less than or equal to N1.

In a possible implementation, the N1 is equal to 5;

The third determining unit is configured to determine any one of the following 16 combination states of the N3 pieces of feedback information according to the PUCCH resource and the N2 bits:

The N3=5, the combined state of the N3 pieces of feedback information is: confirm response ACK, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

The N3=4, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, ACK, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: ACK, Y, Y; or,

The N3=3, the combined state of the N3 pieces of feedback information is: Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX, Y, or the N3 pieces of feedback information The combined state of is Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

In a possible implementation, the N1 is equal to 6;

The third determining unit is configured to determine any one of the following 16 combination states of the N3 pieces of feedback information according to the PUCCH resource and the N2 bits:

The N3=6, the combined state of the N3 pieces of feedback information is: acknowledgment ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, discontinuous transmission DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y; or,

The N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

The N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y; or,

The N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX , Y, or the combined state of the N3 pieces of feedback information is Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

In a possible implementation manner, each of the 16 types of combination states of the N3 pieces of feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

In a possible implementation manner, in the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the order of the N3 downlink time units corresponding to the N3 pieces of feedback information; or,

In the combined state of the N3 pieces of feedback information, the arrangement order of the N3 pieces of feedback information is determined by the downlink allocation indication DAI information corresponding to the N3 pieces of feedback information;

The DAI information is carried by the downlink control information DCI, the DCI corresponds to the data received by the terminal device in the downlink time unit, and the N3 pieces of feedback information correspond to the terminal device received in the N3 downlink time units The data.

In a possible implementation manner, the terminal device simultaneously accesses the new air interface NR and the Long Term Evolution LTE, and the downlink time unit is the time unit of the LTE.

In a possible implementation manner, the downlink time unit is a time unit of the same cell.

In a fifth aspect, an embodiment of the present invention provides a terminal device, including: a processor, a transceiver, and a memory;

The processor, the transceiver and the memory are interconnected, wherein the memory is used to store a computer program including program instructions, the processor is configured to invoke the program instructions, execute The method provided by the first aspect or any implementation manner of the first aspect of the embodiments of the present invention.

In a sixth aspect, an embodiment of the present invention provides a network device, including: a processor, a transceiver, and a memory;

The processor, the transceiver and the memory are interconnected, wherein the memory is used to store a computer program including program instructions, the processor is configured to invoke the program instructions, execute The method provided by the second aspect or any implementation manner of the second aspect in the embodiments of the present invention.

In a seventh aspect, an embodiment of the present invention provides a communication system, characterized in that it includes a terminal device and a network device; wherein the terminal device is configured to execute the first aspect or any one of the first aspects of the embodiments of the present invention The method provided by the implementation manner, the network device is configured to execute the method provided by the second aspect or any one of the implementation manners of the second aspect of the embodiments of the present invention.

In an eighth aspect, an embodiment of the present invention provides a computer-readable storage medium, where the computer-readable storage medium stores a computer program, and the computer program includes program instructions that, when executed by a processor, cause all The processor executes the first aspect or any implementation manner of the first aspect of the embodiments of the present invention; or, when the program instructions are executed by the processor, the program instructions cause the processor to execute the second aspect or the second aspect of the embodiments of the present invention. A method provided by any one implementation of the aspect.

It can be seen that the embodiments of the present invention provide a method for sending a physical uplink control channel, a method for receiving a physical uplink control channel, and a related device, which can determine N1 pieces of feedback information, and determine the physical uplink control channel PUCCH resources and N2 pieces of physical uplink control channel according to the above N1 pieces of feedback information. bit; the above-mentioned N2 bits are carried on the above-mentioned PUCCH resource and sent to the network device, so that when the DC terminal can send the uplink signal on the NR carrier, it can also feed back the ACK of the downlink data received in all downlink subframes in the LTE mode. /NACK.

Description of drawings

In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the accompanying drawings required in the embodiments will be briefly introduced below.

1 is a schematic diagram of subframe allocation of a terminal operating in a DC mode in the prior art;

FIG. 2 is a schematic structural diagram of a communication system according to an embodiment of the present invention;

3 is a flowchart of a method for sending a physical uplink control channel PUCCH according to an embodiment of the present invention;

4 is a schematic diagram of the correspondence between a combination state of feedback information, PUCCH resources and N2 bits according to an embodiment of the present invention;

5 is a schematic diagram of a corresponding relationship between another combination state of feedback information, PUCCH resources and N2 bits provided by an embodiment of the present invention;

FIG. 6 is a schematic diagram of the correspondence between another combination state of feedback information, PUCCH resources and N2 bits according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a corresponding relationship between another combination state of feedback information, PUCCH resources and N2 bits according to an embodiment of the present invention;

8 is a flowchart of a method for receiving a physical uplink control channel PUCCH according to an embodiment of the present invention;

9 is a flowchart of a physical uplink control channel PUCCH interaction method provided by an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a terminal device according to an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of a network device according to an embodiment of the present invention;

FIG. 12 is a schematic structural diagram of another terminal device according to an embodiment of the present invention;

FIG. 13 is a schematic structural diagram of another network device according to an embodiment of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The terms "first", "second", "third" and the like in the description and claims of the present invention and the above drawings are used to distinguish different objects, rather than to describe a specific order. Furthermore, the terms "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion. For example, a process, method, system, product or device comprising a series of steps or units is not limited to the listed steps or units, but optionally also includes unlisted steps or units, or optionally also includes For other steps or units inherent to these processes, methods, products or devices.

An embodiment of the present invention provides a communication system. As shown in FIG. 2 , the communication system includes: a terminal device 10 and a network device 20 , and the terminal device 10 and the network device 20 can communicate. Specifically, the network device 20 may send downlink data to the terminal device 10 , and the terminal device 10 may feed back the ACK/NACK of the received downlink data to the network device 20 uplink.

The network device 20 may be, for example, a base station (eNodeB, eNB); in the fifth-generation communication technology (5th-Generation, 5G), the network device may be a base station (gNB) suitable for NR; in communication systems of other technologies , the network device may also have other names, which are not listed here. The terminal device 10 can be, for example, a mobile phone, a tablet computer, a notebook computer, a handheld computer, a mobile Internet device (Mobile Internet Device, MID), a wearable device (such as a smart watch (such as an iWatch, etc.), a smart bracelet, a pedometer, etc.) ,and many more.

Next, a method for sending a physical uplink control channel PUCCH provided by an embodiment of the present invention is introduced with reference to the communication system shown in FIG. 2 . As shown in FIG. 3 , the PUCCH sending method may at least include the following steps:

S301: Determine N1 pieces of feedback information.

Specifically, the above-mentioned N1 pieces of feedback information correspond to N1 downlink time units, and the time units may be, but are not limited to, subframes, time slots, and the like. In the embodiment of the present invention, the time unit is a subframe as an example for description. The feedback information is used to indicate the status of downlink data received by the terminal device 10 in a certain downlink subframe. Therefore, one feedback information corresponds to one downlink time unit. The state of the feedback information includes any one of the following: ACK, NACK, discontinuous transmission (Discontinuous Transmission, DTX), and NACK/DTX (represented by Y subsequently). Among them, ACK means that the received downlink data is correct; NACK means that the received downlink data is incorrect; DTX means that the downlink data is not received; NACK/DTX(Y) means that the received downlink data is incorrect or no downlink data is received.

S302: Determine physical uplink control channel PUCCH resources and N2 bits according to the N1 pieces of feedback information.

Specifically, the PUCCH resource and N2 bits jointly indicate the combined state of the N3 pieces of feedback information, N1, N2, and N3 are positive integers, and N3 is less than or equal to N1. Wherein, N2=2.

It can be known that in the LTE system, there is a PUCCH ACK/NACK feedback method, that is, the PUCCH format 1b method based on channel selection, which is referred to as 1BCS (1B Channel Selection, 1B Channel Selection). ) mode, the 1BCS mode uses the 2-bit (bit) information carried by the PUCCH format 1b, and selects one of several specific PUCCH resources to indicate the ACK/NACK information to be sent. Therefore, a specific PUCCH resource and N2 bits can jointly indicate the combined state of the N3 pieces of feedback information. Wherein, the above-mentioned combined state is composed of the state of each feedback information. For example, N3=3, the combined state is formed by combining three states of feedback information. N3 is less than or equal to N1, that is, the PUCCH resource determined according to the N1 pieces of feedback information and the N2 bits may jointly indicate the combined state of the N1 pieces of feedback information, or may jointly indicate the combined state of part of the N1 pieces of feedback information.

S303: The N2 bits are carried on the PUCCH resource and sent to the network device.

Specifically, the terminal device 10 uses the above-mentioned PUCCH resource, carries the above-mentioned N2 bits on the above-mentioned PUCCH resource, and sends the data to the network device 20 . In order to enable the network device 20 to determine the combined state of the above PUCCH resource and the N3 pieces of feedback information jointly indicated by the above-mentioned N2 bits after receiving the above-mentioned N2 bits on the above-mentioned PUCCH resource, and then determine whether to perform data processing according to the state of each feedback information. Retransmission improves the reliability of data transmission.

Implementing the embodiments of the present invention enables the DC terminal to feed back ACK/NACK of downlink data received in all downlink subframes in the LTE mode when sending uplink signals on the NR carrier, thereby improving the performance of the communication system.

In a possible embodiment, N1=5. Furthermore, there are 4 alternative PUCCH resources, and N2=2. It can be seen that N2=2, which means that there are 4 cases of these 2 bits, namely 11, 10, 01, 00, plus 4 alternative PUCCH resources, there can be 4*4=16 combinations, Therefore, different combinations of PUCCH resources and N2 bits can jointly indicate a maximum of 16 combinations of N3 pieces of feedback information. It should be noted that a specific PUCCH resource and N2 bits may jointly indicate a combined state of N3 pieces of feedback information. The above-mentioned PUCCH resource and N2 bits jointly indicate any one of the following 16 combinations of N3 pieces of feedback information:

The first type: N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK.

The second type: N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK.

The third type: N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK.

The fourth type: N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK.

The fifth type: N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y.

The sixth type: N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y.

Type 7: N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y.

The eighth type: N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y.

The ninth type: N3=4, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y.

The tenth type: N3=4, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y.

The eleventh type: N3=4, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y.

The twelfth type: N3=4, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, Y.

The thirteenth type: N3=3, the combined state of the N3 pieces of feedback information is: ACK, ACK, Y.

The 14th type: N3=3, the combined state of the N3 pieces of feedback information is: Y, ACK, Y.

The fifteenth type: N3=3, the combined state of the N3 pieces of feedback information is: ACK, Y, Y.

The 16th type: N3=3, the combined state of N3 feedback information is: Y, Y, Y, and not DTX, DTX, Y, or the combined state of N3 feedback information is Y, Y, Y and not DTX , DTX, DTX.

It can be known that when N3=3, and the combined state of the N3 pieces of feedback information is DTX, DTX, Y or DTX, DTX, DTX, the terminal device 10 does not send the ACK/NACK feedback information to the network device 20, that is, the terminal device 10 No PUCCH resource is selected and N2 bits are not sent to the network device 20 .

In another possible embodiment, each of the above 16 combination states of the N3 pieces of feedback information is jointly indicated by one PUCCH resource and N2 bits. It can be known from the description in the previous embodiment that there are 16 different combinations of PUCCH resources and N2 bits, and a specific combination of PUCCH resources and N2 bits corresponds to a specific combination state of N3 pieces of feedback information. Specifically, the specific corresponding relationship between the different combination states of the N3 pieces of feedback information and the PUCCH resources and the N2 bits is shown in FIG. 4 .

代表PUCCH资源1、

代表PUCCH资源2、

代表PUCCH资源3、

代表PUCCH资源4。in,

Represents PUCCH resource 1,

Represents PUCCH resource 2,

Represents PUCCH resource 3,

Represents PUCCH resource 4.

It should be noted that the corresponding relationship between the combination state of the above N3 pieces of feedback information, PUCCH resources and N2 bits is not limited to the relationship shown in FIG. It can be configured to the terminal device 10 and the network device 20 . However, the selection of the PUCCH resources needs to be selected from the PUCCH resources indicated in the downlink control information (Downlink Control Information, DCI) of the downlink data delivered by the network device 20 to the terminal device 10 . It is assumed that when N3=3, the three pieces of feedback information feed back the status of downlink data received in downlink subframes 2, 3, and 4, respectively. The PUCCH resource is indicated as resource 1 in the downlink control information corresponding to the downlink data received in the above downlink subframe 2; the PUCCH resource is indicated as resource 2 in the downlink control information corresponding to the downlink data received in the above downlink subframe 3; The downlink control information corresponding to the downlink data received in the downlink subframe 4 indicates that the PUCCH resource is resource 3, then the selection of the PUCCH resource at this time should be selected from resource 1, resource 2 and resource 3.

In another possible embodiment, in the above-mentioned 16 kinds of combination states of N3 pieces of feedback information, when N3 is less than N1, the states of the N3+1th to N1th feedback information can also be regarded as Any state (any), that is, the state of the N3+1 th feedback information, may be any one of ACK, NACK, DTX, and Y. Then, the PUCCH resource and the N2 bits jointly indicate the combined state of the N1 pieces of feedback information.

For example, when N1=5, N3=4, and the combined state of the N3 pieces of feedback information is ACK, ACK, ACK, and Y, it can also be equivalent to N1=5, N3=5, and the combined state of the N3 pieces of feedback information ACK, ACK, ACK, Y, any. When N1=5, N3=3, and the combined state of the N3 pieces of feedback information is ACK, ACK, Y, it can also be equivalent to N1=5, N3=5, and the combined state of the N3 pieces of feedback information is ACK, ACK , ACK, Y, any, any.

Implementing the embodiments of the present invention can enable one uplink subframe to simultaneously feed back ACK/NACK feedback information of five downlink subframes, and the usage scenarios are more clear, and 3 bits of the 5 bits can be bound, so that the terminal device can use the ACK/NACK feedback information. The PUCCH format 1b based on channel selection improves the reliability of ACK/NACK feedback information transmission, thereby improving the reliability of the communication system.

In a possible embodiment, N1=6. Furthermore, there are 4 alternative PUCCH resources, and N2=2. It can be seen that N2=2, which means that there are 4 cases of these 2 bits, namely 11, 10, 01, 00, plus 4 alternative PUCCH resources, there can be 4*4=16 combinations, Therefore, different combinations of PUCCH resources and N2 bits can jointly indicate a maximum of 16 combinations of N3 pieces of feedback information. It should be noted that a specific PUCCH resource and N2 bits may jointly indicate a combined state of N3 pieces of feedback information. The above-mentioned PUCCH resource and N2 bits jointly indicate any one of the following 16 combinations of N3 pieces of feedback information:

The first type: N3=6, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, DTX, DTX, DTX.

The second type: N3=6, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX.

The third type: N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX.

The fourth type: N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX.

The fifth type: N3=6, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y.

The sixth type: N3=6, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y.

Type 7: N3=6, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y.

The eighth type: N3=6, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y.

The ninth type: N3=5, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y.

The tenth type: N3=5, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y.

The eleventh type: N3=5, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y.

The twelfth type: N3=5, the combined state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y.

The thirteenth type: N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y.

Type 14: N3=4 or 3, the combined state of the N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y.

The fifteenth type: N3=4 or 3, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y.

The 16th type: N3=4 or 3, the combined state of N3 feedback information is: Y, Y, ACK, Y or Y, Y, Y and the combined state of N3 feedback information is not discontinuous transmission DTX, DTX, Y , or the combined state of the N3 pieces of feedback information is Y, Y, ACK, Y or Y, Y, and Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

It can be known that when N3=3, and the combined state of the N3 pieces of feedback information is DTX, DTX, Y or DTX, DTX, DTX, the terminal device 10 does not send the ACK/NACK feedback information to the network device 20, that is, the terminal device 10 No PUCCH resource is selected and N2 bits are not sent to the network device 20 .

In another possible embodiment, each of the above 16 combination states of the N3 pieces of feedback information is jointly indicated by one PUCCH resource and N2 bits. It can be known from the description in the previous embodiment that there are 16 different combinations of PUCCH resources and N2 bits, and a specific combination of PUCCH resources and N2 bits corresponds to a specific combination state of N3 pieces of feedback information. Specifically, the specific correspondence between the different combination states of the N3 pieces of feedback information and the PUCCH resources and the N2 bits is shown in FIG. 5 .

代表PUCCH资源1、

代表PUCCH资源2、

代表PUCCH资源3、

代表PUCCH资源4。in,

Represents PUCCH resource 1,

Represents PUCCH resource 2,

Represents PUCCH resource 3,

Represents PUCCH resource 4.

It should be noted that the corresponding relationship between the combination state of the above N3 pieces of feedback information, PUCCH resources and N2 bits is not limited to the relationship shown in FIG. It can be configured to the terminal device 10 and the network device 20 . However, for the selection of PUCCH resources, reference may be made to the relevant description in the embodiment of FIG. 4 , and details are not repeated here.

In another possible embodiment, in the above-mentioned 16 kinds of combination states of N3 pieces of feedback information, when N3 is less than N1, the states of the N3+1th to N1th feedback information can also be regarded as Any state (any), that is, the state of the N3+1 th feedback information, may be any one of ACK, NACK, DTX, and Y. Then, the PUCCH resource and the N2 bits jointly indicate the combined state of the N1 pieces of feedback information.

Then, in the above ninth combination state, the combination state of the N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y, any.

In the above tenth combination state, the combination state of the N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y, any.

In the eleventh combination state above, the combination state of the N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y, any.

In the above-mentioned 12th combination state, the combination state of the N3 pieces of feedback information is: Y, Y, ACK, ACK, Y, any.

In the 13th combination state above, the combination state of the N3 pieces of feedback information is: ACK, ACK, ACK, Y, any, any or ACK, ACK, Y, any, any, any, and not ACK, ACK, ACK, DTX, DTX, DTX.

In the above-mentioned 14th combination state, the combination state of the N3 pieces of feedback information is: Y, ACK, ACK, Y, any, any or Y, ACK, Y, any, any, any, and not Y, ACK, ACK, DTX, DTX, DTX.

In the above-mentioned 15th combined state, the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y, any, any or ACK, Y, Y, any, any, any, and not ACK, Y, ACK, DTX, DTX, DTX.

In the above-mentioned 16th combination state, the combination state of the N3 feedback information is: Y, Y, ACK, Y, any, any or Y, Y, Y, any, any, any, and not Y, Y, ACK, DTX, DTX, DTX.

It can be known that, when the combined state of the N3 pieces of feedback information is DTX, DTX, Y, any, any, any or DTX, DTX, DTX, any, any, any, the terminal device 10 does not send the ACK/NACK feedback information to The network device 20 , that is, the terminal device 10 will not select the PUCCH resource and will not send N2 bits to the network device 20 .

Implementing the embodiments of the present invention enables one uplink subframe to simultaneously feed back the ACK/NACK feedback information of six downlink subframes, and the usage scenarios are clearer, and 4 bits of the 6 bits can be bound, so that the terminal device can use the The PUCCH format 1b based on channel selection improves the reliability of ACK/NACK feedback information transmission, thereby improving the reliability of the communication system.

In a possible embodiment, the arrangement order of the N3 pieces of feedback information is determined by its corresponding downlink assignment indicator (Downlink assignment indicator, DAI). The DAI information is carried by the DCI, the DCI corresponds to the data received by the terminal device 10 in the downlink time unit, and the N3 pieces of feedback information correspond to the data received by the terminal device 10 in the N3 downlink time units. For example, the DAI value corresponding to the first feedback information in the combined state of the N3 feedback information is 1, the DAI value corresponding to the second feedback information in the combined state of the N3 feedback information is 2, and so on. It should be noted that in a certain usage scenario, the maximum value of DAI is 4. At this time, the value of DAI needs to be cyclically set, that is, when the DAI value corresponding to the previous feedback information is 4, and the DAI value corresponding to the next feedback information When it is 1, the DAI value corresponding to the feedback information can be interpreted as 5.

By implementing the embodiments of the present invention, the feedback information can be sorted by the DAI value, so that the network device can quickly determine the status of the data received in each downlink subframe, and then determine whether the data needs to be retransmitted, thereby improving the reliability of the communication system.

In another possible embodiment, the arrangement order of the N3 pieces of feedback information is determined by the order of the corresponding N3 downlink time units. For example, for a given uplink subframe, the feedback downlink subframes can be numbered as subframe 0, subframe 1, ..., subframe (N1-1) in time sequence, then the combined state of the N3 pieces of feedback information The first feedback information in corresponds to subframe 0, the second feedback information in the combined state of N3 feedback information corresponds to subframe 1, and so on, the N3 feedback information in the combined state of N3 feedback information The information corresponds to subframe N3-1. It can be known that N3 is less than or equal to N1.

Based on the above determination of the order of feedback information according to the downlink time unit, in the case of N1=N3=5, N2=2, the corresponding relationship between the combination state of N3 pieces of feedback information, PUCCH resources and N2 bits can also be as shown in FIG. 6 . In the case of N1=N3=6 and N2=2, the corresponding relationship between the combined state of the N3 pieces of feedback information and the PUCCH resources and the N2 bits may also be as shown in FIG. 7 . For details, reference may be made to the relevant descriptions in the embodiments of FIG. 4 and FIG. 5 , which are not repeated here.

In another possible embodiment, the terminal device 10 can simultaneously support the above two ways to sort the N3 pieces of feedback information, but only one of the ways can be used to sort the feedback information in a specific use process.

Specifically, after determining the N1 pieces of feedback information, the terminal device 10 can choose which method to use to sort the N1 pieces of feedback information according to the received DCI, and if the DCI carries the DAI value, then according to the DAI value corresponding to each feedback information For sorting the feedback information, reference is made to the foregoing related embodiments for the specific sorting method, which will not be repeated here. If the DCI does not carry the DAI value, the respective feedback information is sorted according to the time sequence of the downlink subframes corresponding to the respective feedback information, and the specific sorting method can refer to the above-mentioned related embodiments, which will not be repeated here.

It should be noted that the terminal in all the above embodiments is a DC terminal, that is, the terminal can access NR and LTE at the same time, and the above downlink time unit is the time unit in the LTE mode, and the above downlink time unit is the same cell. time unit.

Implementing the embodiments of the present invention can sort the feedback information according to the sequence of downlink time units, which facilitates the network device to quickly determine the status of data received in each downlink subframe, and then determines whether data needs to be retransmitted, thereby improving the reliability of the communication system.

It can be known that the combination state of N3 pieces of feedback information provided by the embodiment of the present invention when N1=5 or 6 is not limited to the combination state provided by the above embodiment, and may also be other combination states in the actual use process. make restrictions.

It can be known that the PUCCH sending method in the embodiment of the present invention is not limited to the scenario where N1=5 or 6, but can also be used in the scenario where N1 is greater than 6. For the specific method, refer to the foregoing embodiment with N1=5 or 6, here No longer.

Correspondingly, an embodiment of the present invention also provides a method for receiving a physical uplink control channel PUCCH. As shown in FIG. 8 , the method may at least include the following steps:

S801: Receive N2 bits on the physical uplink control channel PUCCH resource.

Specifically, the network device 20 receives N2 bits sent by the terminal device 10 on the PUCCH resource. The PUCCH resource and N2 bits are determined by the terminal device 10 according to N1 pieces of feedback information, and the N1 pieces of feedback information correspond to N1 downlink time units. A time unit may be, but is not limited to, a subframe, a time slot, or the like. In the embodiment of the present invention, the time unit is a subframe as an example for description. The feedback information is used to indicate the status of downlink data received by the terminal device 10 in a certain downlink subframe. Therefore, one feedback information corresponds to one downlink time unit. The state of the feedback information includes any one of the following: ACK, NACK, DTX, NACK/DTX (represented by Y subsequently). Among them, ACK means that the received downlink data is correct; NACK means that the received downlink data is incorrect; DTX means that the downlink data is not received; NACK/DTX(Y) means that the received downlink data is incorrect or no downlink data is received.

S802: Determine the combined state of the N3 pieces of feedback information according to the PUCCH resource and the N2 bits.

Specifically, N1, N2, and N3 are positive integers, and N3 is less than or equal to N1.

Specifically, after receiving the above-mentioned N2 bits on the above-mentioned PUCCH resource, the network device 20 determines the combination state of the above-mentioned PUCCH resource and the N3 pieces of feedback information jointly indicated by the above-mentioned N2 bits, and then determines whether it is necessary to perform Data retransmission improves the reliability of data transmission.

The embodiment of the present invention also provides a physical uplink control channel PUCCH interaction method. As shown in FIG. 9 , the method may at least include the following steps:

S901: The network device 20 sends data to the terminal device 10 in N1 downlink time units.

S902: The terminal device 10 determines N1 pieces of feedback information corresponding to the N1 downlink time units.

Specifically, S902 is consistent with S301, and details are not repeated here.

S903: The terminal device 10 determines PUCCH resources and N2 bits according to the N1 pieces of feedback information.

Specifically, S903 is the same as S302, and details are not repeated here.

S904: The terminal device 10 sends the N2 bits to the network device 20 by carrying the N2 bits on the PUCCH resource.

Specifically, S904 is the same as S303, and details are not repeated here.

S905: The network device 20 determines the combined state of the N3 pieces of feedback information according to the PUCCH resource and the N2 bits.

Specifically, S905 is the same as S802, and details are not repeated here.

Implementing the embodiments of the present invention can enable the DC terminal to feed back the ACK/NACK of the downlink data received in all downlink subframes in the LTE mode when sending the uplink signal on the NR carrier, thereby improving the reliability of the ACK/NACK feedback, This improves the reliability of the communication system.

An embodiment of the present invention further provides a terminal device. Referring to FIG. 10, FIG. 10 is a schematic block diagram of a terminal device provided by an embodiment of the present invention. The terminal device 10 may at least include: a first determining unit 110, a second determining unit 110 unit 120, sending unit 130; wherein,

The first determining unit 110 is configured to determine N1 pieces of feedback information; the above-mentioned N1 pieces of feedback information correspond to N1 downlink time units.

The second determining unit 120 is configured to determine physical uplink control channel PUCCH resources and N2 bits according to the N1 pieces of feedback information; the above-mentioned PUCCH resources and N2 bits of bits jointly indicate the combined state of the N3 pieces of feedback information, the above-mentioned N1, N2 and N3 is a positive integer, and the above N3 is less than or equal to N1.

The sending unit 130 is configured to carry the above-mentioned N2 bits on the above-mentioned PUCCH resource and send the above-mentioned N2 bits to the network device.

In a possible embodiment, the above-mentioned N1 is equal to 5, and the above-mentioned PUCCH resource and N2 bits jointly indicate any one of the following 16 combination states of the N3 pieces of feedback information:

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: ACK, ACK, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: Y, ACK, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: ACK, Y, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: Y, Y, Y and the combined state of the N3 pieces of feedback information is not DTX, DTX, Y, or the combined state of the N3 pieces of feedback information is Y, Y, Y and The combined state of the N3 pieces of feedback information is not DTX, DTX, or DTX.

It can be known that when N3=3 and the combined state of the N3 pieces of feedback information is Y, DTX, DTX or DTX, DTX, DTX, the terminal device 10 does not send the ACK/NACK feedback information to the network device 20, that is, the terminal device 10 No PUCCH resource is selected and N2 bits are not sent to the network device 20 .

In a possible embodiment, the above-mentioned N1 is equal to 6, and the above-mentioned PUCCH resource and N2 bits jointly indicate any one of the following 16 combination states of the N3 pieces of feedback information:

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y; or,

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, Y or Y, Y, Y and the combined state of the N3 pieces of feedback information is not discontinuous transmission DTX, DTX, Y, or N3 The combined state of the pieces of feedback information is Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

It can be known that when N3=3 and the combined state of the N3 pieces of feedback information is Y, DTX, DTX or DTX, DTX, DTX, the terminal device 10 does not send the ACK/NACK feedback information to the network device 20, that is, the terminal device 10 No PUCCH resource is selected and N2 bits are not sent to the network device 20 .

In a possible embodiment, each of the above-mentioned 16 combination states of the N3 pieces of feedback information is jointly indicated by one of the above-mentioned PUCCH resources and N2 bits.

In a possible embodiment, in the combined state of the above-mentioned N3 pieces of feedback information, the arrangement order of the above-mentioned N3 pieces of feedback information is determined by the order of the N3 downlink time units corresponding to the above-mentioned N3 pieces of feedback information; or,

In the combined state of the above-mentioned N3 pieces of feedback information, the arrangement order of the above-mentioned N3 pieces of feedback information is determined by the downlink allocation indication DAI information corresponding to the above-mentioned N3 pieces of feedback information.

The DAI information is carried by the downlink control information DCI, the DCI corresponds to the data received by the terminal equipment in the downlink time unit, and the N3 pieces of feedback information correspond to the data received by the terminal equipment in the N3 downlink time units.

In a possible embodiment, the above-mentioned terminal equipment simultaneously accesses the new air interface NR and the long-term evolution LTE, and the above-mentioned downlink time unit is the above-mentioned time unit of LTE.

In a possible embodiment, the above-mentioned downlink time unit is a time unit of the same cell.

It can be understood that, for the description of each unit, reference may also be made to the foregoing embodiment of the method for sending a physical uplink control channel PUCCH (the embodiment in FIG. 8 ), which will not be described in detail here.

An embodiment of the present invention further provides a network device. Referring to FIG. 11 , FIG. 11 is a schematic block diagram of a network device provided by an embodiment of the present invention. The network device 20 may at least include: a receiving unit 210 and a third determining unit 220; in,

The receiving unit 210 is configured to receive N2 bits on the physical uplink control channel PUCCH resource; the above-mentioned PUCCH resource and the above-mentioned N2 bits are determined by the terminal device 10 according to N1 pieces of feedback information, and the above-mentioned N1 pieces of feedback information correspond to N1 downlink time units.

The third determining unit 220 is configured to determine the combination state of the N3 pieces of feedback information according to the above-mentioned PUCCH resources and the above-mentioned N2 bits; the above-mentioned N1, N2, and N3 are positive integers, and the above-mentioned N3 is less than or equal to N1.

In a possible embodiment, the above-mentioned N1 is equal to 5, and the above-mentioned third determination unit 220 is configured to determine any one of the following 16 combination states of the N3 pieces of feedback information according to the above-mentioned PUCCH resources and the above-mentioned N2 bits:

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

N3=4, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: ACK, ACK, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: Y, ACK, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: ACK, Y, Y; or,

N3=3, the combined state of the above N3 pieces of feedback information is: Y, Y, Y and the combined state of the N3 pieces of feedback information is not DTX, DTX, Y, or the combined state of the N3 pieces of feedback information is Y, Y, Y and The combined state of the N3 pieces of feedback information is not DTX, DTX, or DTX.

It can be known that when N3=3, and the combined state of the N3 pieces of feedback information is DTX, DTX, Y or DTX, DTX, DTX, the terminal device 10 does not send the ACK/NACK feedback information to the network device 20, that is, the terminal device 10 No PUCCH resource is selected and N2 bits are not sent to the network device 20 .

In a possible embodiment, the above-mentioned N1 is equal to 6, and the above-mentioned third determination unit 220 is configured to determine any one of the following 16 kinds of combination states of the N3 pieces of feedback information according to the above-mentioned PUCCH resources and the above-mentioned N2 bits:

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, ACK or ACK, ACK, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, ACK or Y, ACK, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, ACK or ACK, Y, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, ACK or Y, Y, ACK, DTX, DTX, DTX; or,

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, ACK, Y; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, ACK, Y; or,

N3=6, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, ACK, Y; or,

N3=6, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, ACK, Y; or,

N3=5, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, ACK, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: ACK, ACK, ACK, Y or ACK, ACK, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: Y, ACK, ACK, Y or Y, ACK, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y, Y; or,

N3=4 or 3, the combined state of the above N3 pieces of feedback information is: Y, Y, ACK, Y or Y, Y, Y and the combined state of the N3 pieces of feedback information is not DTX, DTX, Y, or the N3 pieces of feedback information The combined state of the N3 pieces of feedback information is Y, Y, ACK, Y or Y, Y, Y, and the combined state of the N3 pieces of feedback information is not DTX, DTX, DTX.

It can be known that when N3=3, and the combined state of the N3 pieces of feedback information is DTX, DTX, Y or DTX, DTX, DTX, the terminal device 10 does not send the ACK/NACK feedback information to the network device 20, that is, the terminal device 10 No PUCCH resource is selected and N2 bits are not sent to the network device 20 .

In a possible embodiment, each of the above-mentioned 16 combination states of the N3 pieces of feedback information is jointly indicated by one of the above-mentioned PUCCH resources and N2 bits.

In a possible embodiment, in the combined state of the above-mentioned N3 pieces of feedback information, the arrangement order of the above-mentioned N3 pieces of feedback information is determined by the order of the N3 downlink time units corresponding to the above-mentioned N3 pieces of feedback information; or,

In the combined state of the above-mentioned N3 pieces of feedback information, the arrangement order of the above-mentioned N3 pieces of feedback information is determined by the downlink allocation indication DAI information corresponding to the above-mentioned N3 pieces of feedback information.

The DAI information is carried by the downlink control information DCI, the DCI corresponds to the data received by the terminal equipment in the downlink time unit, and the N3 pieces of feedback information correspond to the data received by the terminal equipment in the N3 downlink time units.

In a possible embodiment, the above-mentioned terminal equipment simultaneously accesses the new air interface NR and the long-term evolution LTE, and the above-mentioned downlink time unit is the above-mentioned time unit of LTE.

In a possible embodiment, the above-mentioned downlink time unit is a time unit of the same cell.

It can be understood that, for the description of each unit, reference may also be made to the foregoing embodiment of the method for receiving the physical uplink control channel PUCCH (the embodiment in FIG. 8 ), which will not be described in detail here.

Referring to FIG. 12, FIG. 12 is a schematic block diagram of a terminal device according to another embodiment of the present invention. As shown in FIG. 12 , the terminal device in this embodiment may include: one or more processors 1201 ; a memory 1202 and a transceiver 1203 . The above-mentioned processor 1201 , memory 1202 and transceiver 1203 are connected through a bus 1204 .

The memory 1202 is used for storing a computer program, the computer program includes program instructions, and the processor 1201 is used for executing the program instructions stored in the memory 1202 .

The processor 1201 is configured to invoke the program instructions to execute:

N1 pieces of feedback information are determined; the above-mentioned N1 pieces of feedback information correspond to N1 downlink time units.

Determine the physical uplink control channel PUCCH resource and N2 bits according to the N1 pieces of feedback information; the above-mentioned PUCCH resources and N2 bits jointly indicate the combined state of the N3 pieces of feedback information, the above-mentioned N1, N2 and N3 are positive integers, and the above-mentioned N3 is less than or equal to N1.

The above-mentioned N2 bits are carried on the above-mentioned PUCCH resource and sent to the network device.

It should be understood that, in this embodiment of the present invention, the so-called processor 1201 may be a central processing unit (Central Processing Unit, CPU), and the processor may also be other general-purpose processors, digital signal processors (Digital Signal Processor, DSP), dedicated An integrated circuit (Application Specific Integrated Circuit, ASIC), an off-the-shelf programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The transceiver 1203 may include a receiver and a transmitter, for example, a radio frequency module. The processor 1201 described in this embodiment of the present invention receives or sends certain information (such as feedback information), which may be specifically understood as the processor 1201 receives or transmits through the transceiver 1203 . Optionally, the terminal device may also include other devices, such as a touch panel, a fingerprint sensor (for collecting the user's fingerprint information and fingerprint direction information), a microphone, etc., and a display (LCD, etc.), a speaker, etc. Wait.

The memory 1202 may include read only memory and random access memory, and provides instructions and data to the processor 1201 . A portion of memory 1202 may also include non-volatile random access memory. For example, memory 1202 may also store information on device type.

In specific implementation, the processor 1201 and the transceiver 1203 described in the embodiment of the present invention can execute the physical uplink control channel PUCCH sending method provided by the embodiment of the present invention, and details are not described herein again.

In another embodiment of the present invention, a computer-readable storage medium is provided, and the computer-readable storage medium stores a computer program, and the computer program includes program instructions. When the program instructions are executed by a processor, the following steps are implemented: determining N1 feedbacks information; the above-mentioned N1 pieces of feedback information correspond to N1 pieces of downlink time units; according to the N1 pieces of feedback information, determine the physical uplink control channel PUCCH resources and N2 bits; the above-mentioned PUCCH resources and N2 bits jointly indicate the combined state of the N3 pieces of feedback information, The above-mentioned N1, N2 and N3 are positive integers, and the above-mentioned N3 is less than or equal to N1; the above-mentioned N2 bits are carried on the above-mentioned PUCCH resource and sent to the network device.

The above-mentioned computer-readable storage medium may be an internal storage unit of the above-mentioned data feedback device in any of the foregoing embodiments, such as a hard disk or a memory of the data feedback device. The above-mentioned computer-readable storage medium can also be an external storage device of the above-mentioned terminal equipment, such as a plug-in hard disk equipped on the above-mentioned terminal equipment, a smart memory card (Smart MediaCard, SMC), a secure digital (Secure Digital, SD) card, flash memory Card (Flash Card) and so on. Further, the above-mentioned computer-readable storage medium may also include both an internal storage unit of the above-mentioned terminal device and an external storage device. The above-mentioned computer-readable storage medium is used to store the above-mentioned computer program and other programs and data required by the above-mentioned terminal device. The above-mentioned computer-readable storage medium can also be used to temporarily store data that has been output or is to be output.

Referring to FIG. 13, FIG. 13 is a schematic block diagram of a network device according to another embodiment of the present invention. As shown in FIG. 13 , the network device in this embodiment may include: one or more processors 1301 ; a memory 1302 and a transceiver 1303 . The above-mentioned processor 1301 , memory 1302 and transceiver 1303 are connected through a bus 1304 .

The memory 1302 is used for storing a computer program, the computer program includes program instructions, and the processor 1301 is used for executing the program instructions stored in the memory 1302 .

The processor 1301 is configured to invoke the program instructions to execute:

Receive N2 bits on the PUCCH resource of the physical uplink control channel; the above-mentioned PUCCH resource and the above-mentioned N2 bits are determined by the terminal device according to N1 pieces of feedback information, and the above-mentioned N1 pieces of feedback information correspond to N1 downlink time units;

The combination state of the N3 pieces of feedback information is determined according to the above-mentioned PUCCH resources and the above-mentioned N2 bits; the above-mentioned N1, N2, and N3 are positive integers, and the above-mentioned N3 is less than or equal to N1.

It should be understood that, in this embodiment of the present invention, the so-called processor 1301 may be a central processing unit (Central Processing Unit, CPU), and the processor may also be other general-purpose processors, digital signal processors (Digital Signal Processor, DSP), dedicated An integrated circuit (Application Specific Integrated Circuit, ASIC), an off-the-shelf programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The transceiver 1303 may include a receiver and a transmitter, for example, a radio frequency module. The processor 1301 described in this embodiment of the present invention receives or sends certain information (such as feedback information), which may be specifically understood as the processor 1301 receives or transmits through the transceiver 1303 . Optionally, the network device may also include other devices, such as a touchpad, a fingerprint sensor (for collecting the user's fingerprint information and fingerprint direction information), a microphone, etc., and may also include a display (LCD, etc.), a speaker Wait.

The memory 1302 may include read only memory and random access memory, and provides instructions and data to the processor 1301 . A portion of memory 1302 may also include non-volatile random access memory. For example, memory 1302 may also store information on device type.

In specific implementation, the processor 1301 and the transceiver 1303 described in the embodiment of the present invention can execute the physical uplink control channel PUCCH receiving method provided by the embodiment of the present invention, which is not repeated here.

In another embodiment of the present invention, a computer-readable storage medium is provided. The computer-readable storage medium stores a computer program. The computer program includes program instructions. N2 bits are received on the channel PUCCH resources; the above-mentioned PUCCH resources and the above-mentioned N2 bits are determined by the terminal equipment according to N1 pieces of feedback information, and the above-mentioned N1 pieces of feedback information correspond to N1 downlink time units; N3 bits are determined according to the above-mentioned PUCCH resources and the above-mentioned N2 bits of information The combined state of the feedback information; the above N1, N2, and N3 are positive integers, and the above N3 is less than or equal to N1.

The above-mentioned computer-readable storage medium may be an internal storage unit of the above-mentioned network device in any of the foregoing embodiments, such as a hard disk or a memory of the network device. The above-mentioned computer-readable storage medium can also be an external storage device of the above-mentioned network equipment, such as a plug-in hard disk equipped on the above-mentioned network equipment, a smart memory card (Smart Media Card, SMC), a secure digital (Secure Digital, SD) card, Flash card (Flash Card) and so on. Further, the above-mentioned computer-readable storage medium may also include both an internal storage unit of the above-mentioned network device and an external storage device. The above-mentioned computer-readable storage medium is used for storing the above-mentioned computer program and other programs and data required by the above-mentioned network device. The above-mentioned computer-readable storage medium can also be used to temporarily store data that has been output or is to be output.

Those of ordinary skill in the art can understand that all or part of the processes in the methods of the above embodiments can be implemented by instructing relevant hardware through a computer program, and the program can be stored in a computer-readable storage medium. During execution, the processes of the embodiments of the above-mentioned methods may be included. The storage medium may be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM), or a random access memory (Random Access Memory, RAM) or the like.

The steps in the method of the embodiment of the present invention may be adjusted, combined and deleted in sequence according to actual needs.

The modules in the apparatus of the embodiment of the present invention may be combined, divided, and deleted according to actual needs.

As mentioned above, the above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand: The technical solutions described in the embodiments are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (28)

1. A Physical Uplink Control Channel (PUCCH) transmission method is characterized by comprising the following steps:

the terminal equipment determines N1 pieces of feedback information; the N1 pieces of feedback information correspond to N1 downlink time units, where N1 is equal to 5 or 6, the terminal device accesses a new air interface NR and a long term evolution LTE at the same time, and the downlink time units are time units of the LTE;

the terminal equipment determines Physical Uplink Control Channel (PUCCH) resources and N2 bits according to the N1 pieces of feedback information; the PUCCH resources and N2 bits jointly indicate a combination status of N3 feedback information, the N1, N2 and N3 are positive integers, and the N3 is less than or equal to N1;

and the terminal equipment transmits the N2 bits carried on the PUCCH resource to network equipment.

2. The method of claim 1, wherein said N1 is equal to 5;

the PUCCH resource and N2 bits jointly indicate any one of the following 16 combination states of N3 feedback information:

the N3 is 5, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK and ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, ACK and Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, Y, Y and the combination status of the N3 feedback information is not discontinuous transmission (DTX, Y), or the combination status of the N3 feedback information is Y, Y, Y and the combination status of the N3 feedback information is not DTX, DTX.

3. The method of claim 1, wherein said N1 is equal to 6;

the PUCCH resource and N2 bits jointly indicate any one of the following 16 combination states of N3 feedback information:

the N3 is 6, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK or ACK, discontinuous transmission DTX, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK or ACK, Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, Y, or the combination status of the N3 feedback information is Y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, DTX.

4. The method of claim 2 or 3, wherein each of the 16 combination states of N3 feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

5. The method as claimed in claim 2 or 3, wherein in the combination status of the N3 feedback information, the arrangement order of the N3 feedback information is determined by the order of the N3 downlink time units corresponding to the N3 feedback information; or,

in the combined state of the N3 feedback information, the ranking order of the N3 feedback information is determined by the downlink assignment indication DAI information corresponding to the N3 feedback information;

the DAI information is carried by downlink control information DCI, where the DCI corresponds to data received by the terminal device in downlink time units, and the N3 pieces of feedback information correspond to data received by the terminal device in N3 downlink time units.

6. A method according to any of claims 1-3, wherein the downlink time units are time units of the same cell.

7. A Physical Uplink Control Channel (PUCCH) receiving method is characterized by comprising the following steps:

the network equipment receives N2 bits on a Physical Uplink Control Channel (PUCCH) resource; the PUCCH resource and the N2 bits are determined by the terminal device according to N1 pieces of feedback information, the N1 pieces of feedback information correspond to N1 downlink time units, the N1 is equal to 5 or 6, the terminal device is simultaneously accessed to a new air interface NR and a long term evolution LTE, and the downlink time units are time units of the LTE;

the network device determining a combination status of N3 feedback information from the PUCCH resources and the N2 bits; the N1, the N2 and the N3 are positive integers, and the N3 is less than or equal to N1.

8. The method of claim 7, wherein said N1 is equal to 5;

the network device determining a combined state of N3 feedback information from the PUCCH resources and the N2 bits comprises: the network device determines any one of the following 16 combination states of N3 feedback information from the PUCCH resource and the N2 bits:

the N3 is 5, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK and ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, ACK and Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, Y, Y and the combination status of the N3 feedback information is not discontinuous transmission (DTX, Y), or the combination status of the N3 feedback information is Y, Y, Y and the combination status of the N3 feedback information is not DTX, DTX.

9. The method of claim 7, wherein said N1 is equal to 6;

the network device determining a combined state of N3 feedback information from the PUCCH resources and the N2 bits comprises: the network device determines any one of the following 16 combination states of N3 feedback information from the PUCCH resource and the N2 bits:

the N3 is 6, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK or ACK, discontinuous transmission DTX, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK or ACK, Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, Y, or the combination status of the N3 feedback information is Y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, DTX.

10. The method of claim 8 or 9, wherein each of the 16 combination states of N3 feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

11. The method according to claim 8 or 9, wherein in the combined state of the N3 feedback information, the arranging order of the N3 feedback information is determined by the order of the N3 downlink time units corresponding to the N3 feedback information; or,

in the combined state of the N3 feedback information, the ranking order of the N3 feedback information is determined by the downlink assignment indication DAI information corresponding to the N3 feedback information;

the DAI information is carried by downlink control information DCI, where the DCI corresponds to data received by the terminal device in downlink time units, and the N3 pieces of feedback information correspond to data received by the terminal device in N3 downlink time units.

12. The method according to any of claims 7-9, wherein the downlink time units are time units of the same cell.

13. A terminal device, comprising:

a first determination unit for determining N1 feedback information; the N1 pieces of feedback information correspond to N1 downlink time units, where N1 is equal to 5 or 6, the terminal device accesses a new air interface NR and a long term evolution LTE at the same time, and the downlink time units are time units of the LTE;

a second determining unit, configured to determine a Physical Uplink Control Channel (PUCCH) resource and N2 bits according to the N1 pieces of feedback information; the PUCCH resources and N2 bits jointly indicate a combination status of N3 feedback information, the N1, N2 and N3 are positive integers, and the N3 is less than or equal to N1;

a sending unit, configured to send the N2 bits carried on the PUCCH resource to a network device.

14. The terminal device of claim 13, wherein said N1 is equal to 5;

the PUCCH resource and N2 bits jointly indicate any one of the following 16 combination states of N3 feedback information:

the N3 is 5, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK and ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, ACK and Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, Y, Y and the combination status of the N3 feedback information is not discontinuous transmission (DTX, Y), or the combination status of the N3 feedback information is Y, Y, Y and the combination status of the N3 feedback information is not DTX, DTX.

15. The terminal device of claim 13, wherein said N1 is equal to 6;

the PUCCH resource and N2 bits jointly indicate any one of the following 16 combination states of N3 feedback information:

the N3 is 6, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK or ACK, discontinuous transmission DTX, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK or ACK, Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, Y, or the combination status of the N3 feedback information is Y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, DTX.

16. The terminal device of claim 14 or 15, wherein each of the 16 combination states of N3 feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

17. The terminal device according to claim 14 or 15, wherein in the combined state of the N3 feedback information, the arrangement order of the N3 feedback information is determined by the order of the N3 downlink time units corresponding to the N3 feedback information; or,

in the combined state of the N3 feedback information, the ranking order of the N3 feedback information is determined by the downlink assignment indication DAI information corresponding to the N3 feedback information;

the DAI information is carried by downlink control information DCI, where the DCI corresponds to data received by the terminal device in downlink time units, and the N3 pieces of feedback information correspond to data received by the terminal device in N3 downlink time units.

18. The terminal device according to any of claims 13-15, wherein the downlink time unit is a time unit of the same cell.

19. A network device, comprising:

a receiving unit, configured to receive N2 bits on a physical uplink control channel PUCCH resource; the PUCCH resource and the N2 bits are determined by the terminal device according to N1 pieces of feedback information, the N1 pieces of feedback information correspond to N1 downlink time units, the N1 is equal to 5 or 6, the terminal device is simultaneously accessed to a new air interface NR and a long term evolution LTE, and the downlink time units are time units of the LTE;

a third determining unit for determining a combination status of N3 feedback information according to the PUCCH resource and the N2 bits; the N1, the N2 and the N3 are positive integers, and the N3 is less than or equal to N1.

20. The network device of claim 19, wherein the N1 is equal to 5;

the third determining unit is configured to determine any one of the following 16 combination states of N3 feedback information according to the PUCCH resource and the N2 bits:

the N3 is equal to 5, and the combination status of the 5 pieces of feedback information is: determining acknowledgement ACK, ACK and ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 4, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, ACK and Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is equal to 3, and the combination status of the N3 pieces of feedback information is: y, Y, Y and the combination status of the N3 feedback information is not discontinuous transmission (DTX, Y), or the combination status of the N3 feedback information is Y, Y, Y and the combination status of the N3 feedback information is not DTX, DTX.

21. The network device of claim 19, wherein the N1 is equal to 6;

the third determining unit is configured to determine any one of the following 16 combination states of N3 feedback information according to the PUCCH resource and the N2 bits:

the N3 is 6, and the combination status of the N3 pieces of feedback information is: determining acknowledgement ACK, ACK or ACK, discontinuous transmission DTX, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: negative acknowledgement/discontinuous transmission Y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK or ACK, Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK or Y, ACK, DTX; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 6, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: ACK, Y, ACK, Y; or,

the N3 is 5, and the combination status of the N3 pieces of feedback information is: y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: ACK, Y, ACK, Y or ACK, Y; or,

the N3 is 4 or 3, and the combined state of the N3 pieces of feedback information is: y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, Y, or the combination status of the N3 feedback information is Y, ACK, Y or Y, Y, Y, and the combination status of the N3 feedback information is not DTX, DTX.

22. The network device of claim 20 or 21, wherein each of the 16 combination states of N3 feedback information is jointly indicated by one of the PUCCH resources and N2 bits.

23. The network device according to claim 20 or 21, wherein in the combined state of the N3 feedback information, the arrangement order of the N3 feedback information is determined by the order of the N3 downlink time units corresponding to the N3 feedback information; or,

in the combined state of the N3 feedback information, the ranking order of the N3 feedback information is determined by the downlink assignment indication DAI information corresponding to the N3 feedback information;

the DAI information is carried by downlink control information DCI, where the DCI corresponds to data received by the terminal device in downlink time units, and the N3 pieces of feedback information correspond to data received by the terminal device in N3 downlink time units.

24. The network device of any of claims 19-21, wherein the downlink time units are time units of a same cell.

25. A terminal device, comprising:

a processor, a transceiver, and a memory;

the processor, the transceiver and the memory are interconnected, wherein the memory is configured to store a computer program comprising program instructions, the processor being configured to invoke the program instructions to perform the method of any of claims 1 to 6.

26. A network device, comprising:

a processor, a transceiver, and a memory;

the processor, the transceiver and the memory are interconnected, wherein the memory is configured to store a computer program comprising program instructions, the processor being configured to invoke the program instructions to perform the method of any of claims 7 to 12.

27. A communication system is characterized by comprising a terminal device and a network device; wherein the terminal device is configured to perform the method of any one of claims 1 to 6, and the network device is configured to perform the method of any one of claims 7 to 12.

28. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program comprising program instructions that, when executed by a processor, cause the processor to perform the method of any of claims 1 to 6; alternatively, the program instructions, when executed by a processor, cause the processor to perform the method of any of claims 7 to 12.

Images