WO2023050412A1 - Harq-ack information feedback method and apparatus, device, and medium - Google Patents

Abstract

The present application relates to the field of mobile communications, and discloses a hybrid automatic repeat request acknowledgement (HARQ-ACK) information feedback method and apparatus, a device, and a medium. The HARQ-ACK information feedback method comprises: receiving a first physical channel, the first physical channel corresponding to a first feedback time unit; and determining, according to the reception of the first physical channel, whether to transmit HARQ-ACK information by means of the first feedback time unit. According to the HARQ-ACK information feedback method provided in the present application, a terminal can determine, according to the reception of the first physical channel, whether to feed back the HARQ-ACK information, thereby ensuring the consistency of a network device and the terminal on whether to feed back the HARQ-ACK information.

Description

HARQ-ACK information feedback method, device, equipment and medium technical field

The present application relates to the field of communication technology, and in particular to a feedback method, device, device and storage medium for Hybrid Automatic Repeat reQuest Acknowledgment (HARQ-ACK) information.

Background technique

The feedback method of the HARQ-ACK codebook is supported in the New Radio (NR) system.

The network device can configure Type-1 (Type-1) HARQ-ACK codebook feedback or Type-3 (Type-3) HARQ-ACK codebook feedback for the terminal.

In the non-terrestrial network (Non Terrestrial Network, NTN) scenario, the downlink automatic repeat request (Hybrid Automatic Repeat reQuest, HARQ) process supports enabling or disabling. When the terminal is configured with Type-1 HARQ-ACK codebook feedback or Type-3 HARQ-ACK codebook feedback, how to feed back HARQ-ACK information for the disabled HARQ process is an urgent problem to be solved.

Contents of the invention

The embodiment of the present application provides a feedback method, device, device, and medium for HARQ-ACK information. When the terminal is configured with Type-1 HARQ-ACK codebook feedback or Type-3 HARQ-ACK codebook feedback, for For the disabled HARQ process, the terminal can determine whether to feed back HARQ-ACK information.

According to one aspect of the present application, a method for feeding back HARQ-ACK information is provided, the method comprising:

The terminal receives a first physical channel, where the first physical channel corresponds to a first feedback time unit;

The terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the receiving situation of the first physical channel;

Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.

According to one aspect of the present application, a method for receiving a HARQ-ACK codebook is provided, the method comprising:

The network device sends a first physical channel, where the first physical channel corresponds to a first feedback time unit;

The network device determines whether to receive the first feedback time unit to transmit HARQ-ACK information according to the receiving situation of the first physical channel;

Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.

According to one aspect of the present application, a device for feedbacking HARQ-ACK information is provided, and the device includes:

A receiving module, configured to receive at least one first physical channel, the first physical channel corresponding to the first feedback time unit;

A feedback module, configured to determine whether to transmit HARQ-ACK information through the first feedback time unit according to the reception situation of at least one of the first physical channels;

Wherein, the first physical channel includes a physical channel associated with a HARQ process corresponding to the first state.

According to one aspect of the present application, a device for receiving a HARQ-ACK codebook is provided, the device comprising:

A sending module, configured to send a first physical channel, where the first physical channel corresponds to a first feedback time unit;

A receiving module, configured to determine whether to receive the first feedback time unit to transmit HARQ-ACK information according to the receiving situation of the first physical channel;

Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.

According to one aspect of the present application, a terminal is provided, the terminal includes a processor, a transceiver connected to the processor, and a memory for storing executable instructions of the processor, the processor is configured To load and execute the executable instructions to implement the above-mentioned HARQ-ACK information feedback method, or the above-mentioned HARQ-ACK codebook receiving method.

According to one aspect of the present application, a network device is provided, the network device includes: a processor, a transceiver connected to the processor, and a memory for storing executable instructions of the processor, the processing The device is configured to load and execute the executable instructions to implement the method for receiving the HARQ-ACK codebook as described above.

According to one aspect of the present application, a computer-readable storage medium is provided. Executable instructions are stored in the readable storage medium, and the executable instructions are loaded and executed by the processor to implement the HARQ as described above. - A method of feeding back ACK information, or a method of receiving a HARQ-ACK codebook as described above.

According to one aspect of the present application, a computer program product is provided. Executable instructions are stored in the computer program product, and the executable instructions are loaded and executed by the processor to realize the above-mentioned HARQ-ACK information The feedback method, or, the receiving method of the HARQ-ACK codebook as described above.

The technical solutions provided by the embodiments of the present application at least include the following beneficial effects:

When the terminal is configured with Type-1 HARQ-ACK codebook feedback or Type-3 HARQ-ACK codebook feedback, for the disabled HARQ process, the terminal can determine whether to The HARQ-ACK information is transmitted, thereby ensuring the consistency between the network device and the terminal on whether to feed back the HARQ-ACK information.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that need to be used in the description of the embodiments will be briefly introduced below. Obviously, the drawings in the following description are only some embodiments of the present application. For those skilled in the art, other drawings can also be obtained based on these drawings without creative effort.

FIG. 1 is a schematic diagram of an implementation environment provided by an exemplary embodiment of the present application;

FIG. 2 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 3 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 4 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 5 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

Fig. 6 is a schematic diagram of allocation indication count information indication provided by an exemplary embodiment of the present application;

FIG. 7 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 8 is a flowchart of a method for feedbacking HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 9 is a flowchart of a method for feedbacking HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 10 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 11 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 12 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 13 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 14 is a flowchart of a feedback method for HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 15 is a flowchart of a method for feedbacking HARQ-ACK information provided by an exemplary embodiment of the present application;

Fig. 16 is a schematic diagram of allocation indication count information indication provided by an exemplary embodiment of the present application;

FIG. 17 is a flowchart of a method for feedbacking HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 18 is a flowchart of a method for receiving a HARQ-ACK codebook provided in an exemplary embodiment of the present application;

FIG. 19 is a flowchart of a method for receiving a HARQ-ACK codebook provided in an exemplary embodiment of the present application;

FIG. 20 is a flowchart of a method for receiving a HARQ-ACK codebook provided in an exemplary embodiment of the present application;

FIG. 21 is a flowchart of a method for receiving a HARQ-ACK codebook provided in an exemplary embodiment of the present application;

FIG. 22 is a flowchart of a method for receiving a HARQ-ACK codebook provided in an exemplary embodiment of the present application;

FIG. 23 is a schematic structural diagram of an apparatus for feedbacking HARQ-ACK information provided by an exemplary embodiment of the present application;

FIG. 24 is a schematic structural diagram of an apparatus for receiving a HARQ-ACK codebook provided by an exemplary embodiment of the present application;

Fig. 25 is a block diagram of a communication device shown in an exemplary embodiment of the present application.

Detailed ways

In order to make the purpose, technical solution and advantages of the present application clearer, the implementation manners of the present application will be further described in detail below in conjunction with the accompanying drawings.

Before the detailed introduction of the HARQ-ACK information feedback method provided by the embodiment of the present application, a brief introduction to the relevant knowledge, application scenarios and implementation environment involved in the embodiment of the present application is given.

First, a brief introduction to the technical terms provided in this application.

HARQ: This mechanism can use the Stop-and-Wait Protocol (Stop-and-Wait Protocol, also known as the SQW protocol) to send data. In the stop-and-wait protocol, after using a HARQ process to send a transmission block (Transmission Block, TB), the sender stops and waits for feedback information. This process can also be called a HARQ process. In this way, the sender will stop and wait for confirmation after sending TB. However, the above method easily leads to low user throughput. Therefore, in order to improve user throughput, multiple parallel HARQ processes can be used for TB transmission. When one HARQ process is waiting for feedback information, the sender can use another HARQ process to continue sending TB. These HARQ processes together form a HARQ entity. Each HARQ entity is responsible for maintaining a set of parallel downlink HARQ processes and a set of parallel uplink HARQ processes. The HARQ entity combines the stop-and-wait protocol to allow data blocks to be sent continuously. In the HARQ process, the feedback information includes positive acknowledgment ACK information or negative acknowledgment NACK (Negative acknowledgment) information. If the acknowledgment is successfully received, the feedback information is ACK, and if the acknowledgment fails, the feedback information is NACK. Wherein, the feedback sequence including ACK information or NACK information may be referred to as a HARQ-ACK codebook.

HARQ codebook: the entire feedback information fed back by the terminal on one HARQ feedback resource is called a HARQ codebook (or HARQ-ACK codebook). The Type-1 HARQ-ACK codebook includes HARQ-ACK information corresponding to a group of candidate PDSCH receiving opportunities (or candidate PDSCH receiving opportunities within a HARQ-ACK feedback window). The Type-3 HARQ-ACK codebook includes feedback information corresponding to all HARQ processes of all carriers in a PUCCH group (or a cell group).

Type-1 HARQ-ACK codebook feedback: The Type-1 HARQ-ACK codebook includes HARQ-ACK information corresponding to a group of candidate PDSCH receiving opportunities (or candidate PDSCH receiving opportunities within a HARQ-ACK feedback window).

If the terminal is configured with Type-1 HARQ-ACK codebook feedback, in the Type-1 HARQ-ACK codebook feedback, for the PDSCH without repeated transmission, if the terminal receives the PDSCH at time unit n, the terminal shall The HARQ-ACK information corresponding to the PDSCH is fed back on unit n+k; for a PDSCH with the number of repeated transmissions R, if the terminal receives the PDSCH from time unit n-R+1 to time unit n, the terminal should receive the PDSCH at time unit n Feedback the HARQ-ACK information corresponding to the PDSCH on +k; if the terminal receives the DCI for releasing the SPS PDSCH configuration at time unit n, the terminal should feed back the ACK information corresponding to the DCI at time unit n+k. Wherein, for the PDSCH repeatedly transmitted in multiple time units, the time unit n+k is based on the last time unit in the multiple time units as a reference. The time unit n+k can be regarded as a feedback time unit, and k is determined according to the K1 value in the HARQ feedback timing set and/or the HARQ feedback timing indicator (PDSCH-to-HARQ_feedback timing indicator) information. If the terminal needs to feed back the HARQ-ACK information of the candidate PDSCH receiving opportunity corresponding to the PDSCH in other feedback time units other than time unit n+k, the HARQ-ACK information of the candidate PDSCH receiving opportunity corresponding to the PDSCH is set as NACK information.

One feedback time unit corresponds to a group of candidate PDSCH receiving opportunities (or in other words, candidate PDSCH receiving opportunities within a HARQ-ACK feedback window). The Type-1 HARQ-ACK codebook transmitted in the feedback time unit includes the HARQ-ACK information corresponding to the group of candidate PDSCH receivers. The group of candidate PDSCH receiving opportunities is determined according to the K1 value in the HARQ feedback timing set and the time domain resource assignment (Time domain resource assignment, TDRA) table. If the terminal receives the scheduling of at least part of the PDSCH (including the scheduled PDSCH and/or SPS PDSCH) in a group of candidate PDSCH receiving opportunities, and the feedback time unit corresponding to the at least part of the PDSCH is the feedback time unit, then at the feedback time The HARQ-ACK codebook transmitted on the unit includes the HARQ-ACK information corresponding to at least part of the PDSCH, for example, the feedback corresponding to the position corresponding to the at least part of the PDSCH in the Type-1 HARQ-ACK codebook transmitted on the feedback time unit HARQ-ACK information. For the unscheduled candidate PDSCH receiving opportunity or the PDSCH not indicated to be fed back through the feedback time unit, the corresponding position in the Type-1 HARQ-ACK codebook transmitted on the feedback time unit is set as NACK information.

It should be noted that in a group of candidate PDSCH receiving opportunities corresponding to one feedback time unit, if the terminal only receives one PDSCH scheduling and the DCI format for scheduling the PDSCH includes C-DAI information and the C-DAI indicates 1, Or if the terminal only receives SPS PDSCH, or if the terminal only receives DCI for releasing SPS PDSCH configuration, then the terminal only feeds back the HARQ-ACK information corresponding to the PDSCH corresponding to C-DAI indication 1, or only feeds back the corresponding HARQ-ACK information of the SPS PDSCH HARQ-ACK information, or only feed back the ACK information corresponding to the DCI configured to release the SPS PDSCH. That is to say, in these cases, the terminal does not need to feed back the Type-1 HARQ-ACK codebook.

Type-3 HARQ-ACK codebook feedback: For downlink transmission, it is also called one-shot HARQ-ACK codebook feedback, which can be configured by the network device for the terminal. If the network device configures Type-3 HARQ-ACK codebook feedback for the terminal, the network device can trigger the terminal to perform one-shot HARQ-ACK codebook feedback through DCI (Downlink Control Information, for example, one-shot HARQ - ACK codebook feedback indicates valid PUCCH resources. The One-shot HARQ-ACK codebook includes feedback information corresponding to all HARQ processes on all configured carriers in a PUCCH group, and the feedback information includes ACK information or NACK information. Wherein, for a HARQ process including downlink transmission, the corresponding feedback information is a decoding result of downlink transmission, and for a HARQ process not including downlink transmission, the corresponding feedback information is a preset value or an initial value.

For uplink transmission, if one-shot HARQ-ACK codebook feedback is configured, the network device can send feedback information corresponding to all HARQ processes on the carrier to the terminal through DCI. Wherein, for a HARQ process including uplink transmission, the corresponding feedback information is a decoding result of uplink transmission, and for a HARQ process not including uplink transmission, the corresponding feedback information is a preset value or an initial value. Wherein, the uplink transmission includes uplink transmission scheduled by DCI and uplink transmission scheduled by CG (Configured Grant, pre-configured grant).

Currently, one-shot HARQ-ACK codebook feedback can include two types, one is one-shot HARQ-ACK codebook feedback carrying NDI (New Data Indication, new data indication) information, and the other is not carrying NDI information The one-shot HARQ-ACK codebook feedback. Wherein, the NDI information can be used to determine whether the corresponding data is retransmitted data or new data. Usually, when the data is new data, the current NDI information will be reversed relative to the NDI information transmitted last time. In this way, based on Whether the NDI information is flipped can determine whether the data is new data or retransmitted data. For example, if the NDI information transmitted last time is "1", if the current NDI information is "0", it can be determined that the NDI information has been reversed, so that the current data packet can be determined to be a new data packet. As an example, the network device can configure whether the terminal needs to carry NDI information when performing HARQ-ACK codebook feedback through RRC (Radio Resource Control, radio resource control) signaling.

SPS PDSCH (Semi-Persistent Scheduling Physical Downlink Shared Channel, Semi-Persistent Scheduling Physical Downlink Shared Channel): In order to support periodic and basically fixed traffic services, while reducing frequent PDCCH (Physical Downlink Control Channel, physical downlink control channel) scheduling Overhead, the NR system can support semi-static resource configuration. Among them, the semi-static resource configuration refers to that the network device configures resources for the terminal semi-statically through high-level signaling. For example, the high-level signaling is RRC signaling, and when there is a service demand, the DCI carried by the network device through the PDCCH is The terminal activates the semi-static resource configuration, so that the terminal can receive service data according to the configured resource in each fixed period.

In other words, the terminal can be configured with SPS configuration resources, and the network device can indicate whether the terminal performs SPS PDSCH transmission on the SPS configuration resources through activation or deactivation. The SPS configuration resources can be configured on SpCells or SCells. The network device needs to ensure that at most one cell in a cell group is configured with downlink SPS configuration resources. With the evolution of the version, multiple downlink SPS configuration resources can be configured in a cell group.

For downlink SPS configuration resources, activation and deactivation are mainly performed through DCI scrambled by CS-RNTI (Configured Scheduling-Radio Network Tempory Identity, configuration scheduling-cell radio network temporary identity). As an example, if the terminal receives CS-RNTI scrambled DCI, and the NDI field corresponding to the enabled TB is set to "0", then the terminal according to Table 1 (Special field setting of PDCCH activated by downlink SPS scheduling) and Table 2 (Special field setting of PDCCH released by downlink SPS scheduling), it can be judged whether a downlink SPS scheduling activation command or deactivation command (or release command) is received. If the terminal receives a DCI for SPS PDSCH deactivation, the terminal is expected to perform corresponding HARQ-ACK feedback after M symbols, and the M symbols are calculated from the last symbol of the PDCCH corresponding to the SPS PDSCH deactivation DCI . The value of N may be a preset value, and the preset value may be set based on requirements.

Table 1

Table 2

the	DCI format 1_0
HARQ process number	set to all'0's (all set to 0)
redundant version	set to'00' (all set to 00)
Modulation and Coding Strategies	set to all'1's (all set to 1)
resource block allocation	set to all'1's (all set to 1)

If the terminal is configured and the downlink SPS transmission is activated, then the terminal receives the SPS PDSCH sent by the network device on the downlink SPS configuration resource, where the SPS PDSCH is periodically transmitted on the downlink SPS configuration resource, and the SPS PDSCH has no corresponding PDCCH scheduling.

Since there is no PDCCH scheduling, the SPS PDSCH transmitted on the downlink SPS configuration resource only includes the initial transmission. If the initial transmission of a HARQ process fails and needs to be retransmitted, the network device will schedule the same HARQ process through DCI scrambled by CS-RNTI, and set the NDI field to "1", or if the terminal receives CS-RNTI For scrambled DCI and the NDI field is set to "1", the terminal will consider the HARQ process scheduled by the DCI as retransmission.

CG-PUSCH (Configured Grant Physical Uplink Shared Channel, pre-configured authorized physical uplink shared channel): In order to support periodic and basically fixed traffic services, while reducing frequent PDCCH (Physical Downlink Control Channel, physical downlink control channel) scheduling overhead , the NR system can support semi-static uplink resource configuration. The semi-static resource configuration refers to that the network device semi-statically configures resources for the terminal through high-level signaling, for example, the high-level signaling is RRC signaling. In the NR system, uplink transmission of pre-configured grants without dynamic grant scheduling can be performed through CG resources configured semi-statically by high-layer signaling. There are two specific implementation schemes, that is, the actual uplink authorization can be obtained through RRC configuration (type 1) or PDCCH (type 2) scrambled by CS-RNTI. When the terminal has a service requirement, it can send service data through the activated (or authorized) semi-static resource configuration. Among them, the activation and deactivation of Type 2 CG-PUSCH resources are similar to the activation and deactivation of SPS PDSCH resources.

Next, briefly introduce the application scenarios involved in this application.

In the NR system, the network device can configure SPS configuration resources (also called semi-static resources) for the terminal, and determine whether to perform SPS PDSCH transmission on the SPS configuration resources through activation signaling or deactivation signaling. In this way, if SPS PDSCH transmission is supported, and when the terminal is triggered to perform HARQ-ACK codebook feedback, how to perform HARQ-ACK information feedback becomes a research hotspot. For this reason, the embodiment of the present application provides a HARQ codebook feedback method. For its specific implementation, reference may be made to the various embodiments below.

Generally speaking, the number of connections supported by traditional communication systems is limited and easy to implement. However, with the development of communication technology, mobile communication systems will not only support traditional communication, but also support, for example, D2D (Device to Device, device to Equipment) communication, M2M (Machine to Machine, machine to machine) communication, MTC (Machine Type Communication, machine type communication), V2V (Vehicle to Vehicle, inter-vehicle) communication and V2X (Vehicle To Everything, car networking) system, etc. The embodiments of the present application may also be applied to these communication systems.

It should be understood that the embodiments of the present application may be applied to a non-terrestrial communication network (Non-Terrestrial Networks, NTN) system, and may also be applied to a terrestrial communication network (Terrestrial Networks, TN) system.

As an example, the NTN system includes at least a New Radio NTN (NR-NTN) system and an Internet of Things non-terrestrial communication network (Internet of Things NTN, IoT-NTN) system. Among them, the IoT-NTN system can include Narrow Band Internet of Things over NTN (NB-IoT-NTN) system and enhanced Machine Type Communication over NTN (eMTC) -NTN) system.

The system architecture and business scenarios described in the embodiments of the present application are for more clearly illustrating the technical solutions of the embodiments of the present application, and do not constitute limitations on the technical solutions provided by the embodiments of the present application. For the evolution of architecture and the emergence of new business scenarios, the technical solutions provided by the embodiments of this application are also applicable to similar technical problems.

Exemplarily, a communication system applied in the embodiment of the present application is shown in FIG. 1 . The communication system shown in FIG. 1A may include a network device 110, and the network device 110 may be a device for communicating with a terminal 120 (or referred to as a communication terminal, terminal). The network device 110 may provide communication coverage for a specific geographic area, and may communicate with terminals located within the coverage area. Optionally, the network device 110 may be an evolved base station (Evolutional Node B, eNB or eNodeB) in an LTE system, or a wireless controller in a CRAN (Cloud Radio Access Network, cloud radio access network), or the Network devices can be mobile switching centers, relay stations, access points, vehicle-mounted devices, wearable devices, hubs, switches, bridges, routers, network-side devices in 5G networks, or network devices in future communication systems.

The communication system further includes at least one terminal 120 located within the coverage of the network device 110 . As used herein, "terminal" includes but is not limited to connection via wired lines, such as via PSTN (Public Switched Telephone Networks, public switched telephone network), DSL (Digital Subscriber Line, digital subscriber line), digital cable, direct cable connection; and/or another data connection/network; and/or via a wireless interface, e.g., for cellular networks, WLAN (Wireless Local Area Network, wireless local area network), digital television networks such as DVB-H networks, satellite networks, AM-FM A broadcast transmitter; and/or another terminal device configured to receive/send communication signals; and/or an IoT (Internet of Things, Internet of Things) device. A terminal arranged to communicate over a wireless interface may be referred to as a "wireless communication terminal", "wireless terminal" or "mobile terminal". Examples of mobile terminals include, but are not limited to, satellite or cellular telephones; PCS (Personal Communications System) terminals that may combine cellular radiotelephones with data processing, facsimile, and data communication capabilities; may include radiotelephones, pagers, Internet/Internet PDAs with network access, web browsers, organizers, calendars, and/or GPS (Global Positioning System, Global Positioning System) receivers; and conventional laptop and/or palm-sized receivers or other electronic device. A terminal may refer to an access terminal, a UE (User Equipment, user equipment), a subscriber unit, a subscriber station, a mobile station, a mobile station, a remote station, a remote terminal, a mobile device, a user terminal, a terminal, a wireless communication device, a user agent, or a user device. Access terminals can be cellular phones, cordless phones, SIP (Session Initiation Protocol, session initiation protocol) phones, WLL (Wireless Local Loop, wireless local loop) stations, PDA (Personal Digital Assistant, personal digital processing), with wireless communication Functional handheld devices, computing devices or other processing devices connected to wireless modems, vehicle-mounted devices, wearable devices, terminals in 5G networks or terminals in future evolved PLMNs, etc.

Optionally, terminal-to-terminal D2D communication may be performed between terminals 120 .

Optionally, a 5G communication system or a 5G network may also be called an NR system or an NR network.

Figure 1A exemplarily shows a network device and two terminals. Optionally, the communication system may include multiple network devices and each network device may include other numbers of terminals within the coverage area. This is not limited.

Optionally, the communication system may further include other network entities such as a network controller and a mobility management entity, which is not limited in this embodiment of the present application.

FIG. 1B shows a schematic structural diagram of another communication system. Referring to FIG. 1B , a terminal 140 and a satellite 130 are included, and wireless communication can be performed between the terminal 140 and the satellite 130 . The network formed between terminal 140 and satellite 130 may also be referred to as NTN. In the architecture of the communication system shown in FIG. 1B , the satellite 130 may function as a base station, and the terminal 140 and the satellite 130 may communicate directly. Under the system architecture, the satellite 130 may be referred to as a network device. In some embodiments of the present application, the communication system may include multiple satellites 130, and the coverage of each satellite 130 may include other numbers of terminals, which is not limited in this embodiment of the present application.

FIG. 1C shows a schematic structural diagram of another communication system. Referring to FIG. 1C , it includes a terminal 150 , a satellite 160 and a base station 170 . Wireless communication can be performed between the terminal 150 and the satellite 160 , and communication between the satellite 160 and the base station 170 can be performed. The network formed between the terminal 150, the satellite 160 and the base station 170 may also be referred to as NTN. In the architecture of the communication system shown in FIG. 1C , the satellite 160 may not have the function of a base station, and the communication between the terminal 150 and the base station 170 needs to be relayed through the satellite 160 . Under this system architecture, the base station 170 may be called a network device. In some embodiments of the present application, the communication system may include multiple network devices 1203, and the coverage of each network device 1203 may include other numbers of terminals, which is not limited in this embodiment of the present application.

It should be understood that a device with a communication function in the network/system in the embodiment of the present application may be referred to as a communication device. Taking the communication system shown in FIG. 1 as an example, the communication device may include a network device 110 and a terminal 120 with a communication function, and the network device 110 and the terminal 120 may be the specific devices described above, which will not be repeated here; the communication device It may also include other devices in the communication system, such as network controllers, mobility management entities and other network entities, which are not limited in this embodiment of the present application.

In this application, the (downlink) HARQ process of the terminal may correspond to the first state or the second state, or part or all of the HARQ processes of the terminal may be configured with first high-layer parameters, where the first high-layer parameter is used to indicate whether the HARQ process corresponds to first state. For example, the first state corresponds to the disabled state, and the second state corresponds to the enabled state. The HARQ process of the terminal may correspond to a non-enabled state, or the HARQ process of the terminal is configured with a non-enabled parameter, or the HARQ process of the terminal does not correspond to HARQ-ACK feedback. For example, the network device may configure part or all of the HARQ processes of the terminal to an enabled or disabled state through indication information such as the first high-level parameter, or the network device may configure part or all of the HARQ processes of the terminal to correspond to The state of the HARQ feedback function is configured as an enabled state or a disabled state. Wherein, the non-enabled state is also referred to as a disabled state (disabled).

Optionally, the terminal is instructed by the network device that at least one downlink HARQ process corresponds to a non-enabled state.

Optionally, the terminal is instructed by the network device to enable at least one downlink HARQ process.

In this embodiment, the first physical channel is used to indicate the physical channel including the HARQ process transmission corresponding to the first state.

The second physical channel does not include the physical channel corresponding to the HARQ process in the first state; or, the second physical channel is used to indicate the physical channel including the transmission of the HARQ process corresponding to the second state.

In this embodiment, the time unit may be one or more time slots, one or more time slot groups, one or more subframes, one or more symbol groups, or one or more symbols. Be limited.

Fig. 2 shows a flowchart of a method for feeding back HARQ-ACK information provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to a terminal. Optionally, the terminal is a terminal supporting NTN. The method includes:

Step 202: the terminal receives the first physical channel.

The first physical channel includes a physical channel corresponding to the HARQ process in the first state. The first physical channel corresponds to the first feedback time unit. Exemplarily, the first physical channel is PDSCH, the first physical channel is transmitted in time unit n, and the first feedback time unit is n+k, where k is determined according to one or more indication information of the network device.

The terminal is configured with type 1 HARQ-ACK codebook feedback, or configured with type 3 HARQ-ACK codebook feedback.

Optionally, the terminal receives the first physical channel and/or the second physical channel in the first candidate physical channel transmission opportunity group, and the first candidate physical channel transmission opportunity group includes at least one candidate physical channel reception opportunity on at least one serving cell . Each transmission opportunity in the first candidate physical channel transmission opportunity group corresponds to the first feedback time unit.

Optionally, the HARQ process corresponding to the first state includes at least one of the following situations:

The HARQ process corresponds to the disabled state;

The HARQ process is configured to enable parameters;

· The HARQ process does not correspond to the HARQ-ACK feedback.

Optionally, the first physical channel includes the PDSCH scheduled by the PDCCH corresponding to the HARQ process in the first state, and/or, the SPSPDSCH corresponding to the HARQ process in the first state.

Step 204: The terminal determines whether to transmit HARQ-ACK information in the first feedback time unit according to the receiving condition of the first physical channel.

Optionally, this step includes three possible implementations:

Implementation mode 1: The terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the reception situation of at least one first physical channel;

Exemplarily, the receiving condition of the first physical channel refers to the receiving condition of the first physical channel in the first candidate physical channel transmission opportunity group.

Implementation mode 2: The terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the reception status of at least one first physical channel and the allocation indication count information in at least one control information;

At least one piece of control information is used to schedule the transmission of the physical channels in the first candidate group of physical channel transmission opportunities. The at least one piece of control information includes: at least one of first control information, second control information, and third control information.

The first control information is used to schedule transmission of the first physical channel. The second control information is used to schedule transmission of the second physical channel. The third control information is used to release the physical channel configuration of the semi-persistent scheduling.

Implementation mode 3: The terminal determines whether to transmit the HARQ- ACK information.

The second physical channel corresponds to the HARQ process in the second state.

Optionally, the HARQ process corresponding to the second state includes at least one of the following situations:

The HARQ process corresponds to the enabled state;

The HARQ process is not configured to enable parameters;

· The HARQ process corresponds to the HARQ-ACK feedback.

Optionally, the second physical channel includes the PDSCH scheduled by the PDCCH corresponding to the HARQ process in the second state, and/or, the SPSPDSCH corresponding to the HARQ process in the second state.

To sum up, in the method provided by this embodiment, the terminal can determine whether to feed back HARQ-ACK information according to the reception status of the first physical channel among the received physical channels, thereby ensuring that the network device and the terminal have no feedback on whether to feedback the HARQ-ACK information. Consistency of HARQ-ACK information.

Implementation method 1 for step 204:

Fig. 3 shows a flowchart of a method for feeding back HARQ-ACK information provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to a terminal. Optionally, the terminal is a terminal supporting NTN. The method includes:

Step 302: the terminal receives at least one piece of first control information;

The first control information is used to schedule transmission of the first physical channel. Schematically, the first control information is used to schedule the transmission of the first physical channel on at least one transmission opportunity in the first candidate physical channel transmission opportunity group.

Step 304: the terminal receives the first physical channel according to the first control information;

The terminal receives the first physical channel on the transmission opportunity indicated by the first control information.

In a scenario of dynamic scheduling, the first control information and the first physical channel may have a one-to-one correspondence. For example, when the terminal receives the first control information A, it receives the first physical channel A according to the first control information A; when it receives the first control information B, it receives the first physical channel A according to the first control information B. Physical channel A.

In the scenario of semi-persistent scheduling, the first control information and the first physical channel may have a one-to-many correspondence. For example, when the terminal receives the first control information A, it receives multiple semi-persistent The first physical channel for persistent scheduling.

Step 306: The terminal determines whether to transmit HARQ-ACK information in the first feedback time unit according to the receiving condition of the first physical channel.

The terminal receives the first physical channel in the first candidate physical channel receiver group, and the terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the reception situation of the first physical channel.

Wherein, the first candidate physical channel receiver opportunity group includes at least one candidate physical channel receiver opportunity on at least one serving cell, and the first candidate physical channel receiver opportunity group corresponds to the first feedback time unit.

In some embodiments, when the terminal receives only m first physical channels in the first candidate physical channel receiver group and does not receive the second physical channel, the terminal does not transmit the HARQ- ACK information. Or, in a case where at least one physical channel received by the terminal in the first candidate physical channel receiver group is the first physical channel, the terminal does not transmit HARQ-ACK information in the first feedback time unit.

Exemplarily, as shown in FIG. 4, the terminal receives only 4 first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, PDSCH3, and PDSCH4, and does not receive the second physical channel. The terminal HARQ-ACK information is not transmitted through the first feedback time unit. If the terminal is configured with Type 1 HARQ codebook feedback, the terminal does not perform Type 1 HARQ codebook feedback.

In some embodiments, in the case of the first physical channel of semi-persistent scheduling received by the terminal in the first candidate physical channel receiver opportunity group, the terminal does not transmit HARQ-ACK information in the first feedback time unit.

That is, when the terminal receives only the first physical channel but not the second physical channel in the first candidate physical channel receiver group, the terminal does not transmit HARQ-ACK information in the first feedback time unit. If the terminal is configured with type 1 HARQ codebook feedback, the terminal does not perform type 1 HARQ codebook feedback; if the terminal is configured with type 3 HARQ codebook feedback, the terminal does not perform type 3 HARQ codebook feedback feedback.

Implementation method 2 for step 204:

Fig. 5 shows a flowchart of a method for feeding back HARQ-ACK information provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to a terminal. Optionally, the terminal is a terminal supporting NTN. The method includes:

Step 502: the terminal receives at least one piece of control information;

The at least one piece of control information includes: at least one of first control information, second control information, and third control information.

The first control information is used to schedule the transmission of the first physical channel in the first candidate physical channel transmission opportunity group. The second control information is used to schedule the transmission of the second physical channel in the first candidate physical channel transmission opportunity group. The third control information is used to release the configuration of the physical channel of the semi-persistent scheduling. The semi-persistently scheduled physical channel is configured to be transmitted in the first candidate physical channel transmission opportunity group. The physical channel of the semi-persistent scheduling may be the first physical channel or the second physical channel.

Step 504: the terminal receives the first physical channel according to the first control information;

The terminal receives the first physical channel on the transmission opportunity indicated by the first control information.

In a scenario of dynamic scheduling, the first control information and the first physical channel may have a one-to-one correspondence. For example, when the terminal receives the first control information A, it receives the first physical channel A according to the first control information A; when it receives the first control information B, it receives the first physical channel A according to the first control information B. Physical channel A.

In the scenario of semi-persistent scheduling, the first control information and the first physical channel may have a one-to-many correspondence. For example, when the terminal receives the first control information A, it receives multiple semi-persistent The first physical channel for persistent scheduling.

Optionally, the first control information also carries assignment indication count information (CounterDownlinkAssignmentIndex, C-DAI). The C-DAI may or may not be included in the first control information, which is not limited in this embodiment of the present application. For example, when the first control information corresponds to DCI format 1_0, there is C-DAI in the first control information; when the first control information corresponds to DCI format 1_1 or DCI format 1_2, there is no C-DAI in the first control information. In the scenario where at least one first control information carries C-DAI, one first control information carries one C-DAI, or one first control information corresponds to one C-DAI, that is, one allocation indication count information Corresponding to one piece of first control information. Generally, each first control information corresponds to a first physical channel. In some special cases, one piece of first control information may correspond to multiple first physical channels.

The allocation indication count information in the first control information has at least two indication modes:

Indication mode one: the allocation indication count information carried in the first control information always indicates a first preset value; or, the allocation indication count information carried in the first control information indicates an arbitrary value. Exemplarily, the value of the first preset value is 0, or, the first preset value is 2 to the power of n, where n is the number of bits of the allocated indication count information. That is, regardless of whether the second physical channel is transmitted in the first candidate physical channel opportunity group, and whether the terminal receives the third control information, the allocation indication count information carried in the first control information always indicates the first preset value ; Or, the allocation indication count information carried in the first control information indicates any value in the values corresponding to the n bits.

Indication mode 2: the allocation indication count information carried in the first control information is used to determine the number of bits of HARQ-ACK information to be fed back in the first feedback time unit before the first control information. That is, the allocation indication count information carried in the first control information will consider whether the second physical channel is transmitted in the first candidate physical channel receiver group and whether the terminal receives the third control information.

Exemplarily, wherein, when the number of bits of HARQ-ACK information to be fed back in the first feedback time unit is not 0 by the end of the first control information, the allocation indication count information is used to determine Up to the first control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit; When the number of bits of the ACK information is 0, the allocation indication count information indicates a first preset value.

As shown in Figure 6, the allocation indication count information in the first control information corresponding to physical channel 1 indicates the first preset value 4, which represents the number of HARQ-ACK information to be fed back in the first candidate physical channel receiver opportunity group is 0; the allocation indication count information in the second control information corresponding to physical channel 2 indicates a first preset value of 1, which means that the number of HARQ-ACK information to be fed back in the first candidate physical channel receiver group is 1; The allocation indication count information in the first control information corresponding to physical channel 3 indicates 1, which means that the number of HARQ-ACK information to be fed back in the first candidate physical channel receiver group is 1, that is, the number of HARQ-ACK information to be fed back in physical channel 2 needs to be fed back 1-bit HARQ-ACK.

Step 506: The terminal determines whether to transmit HARQ-ACK information in the first feedback time unit according to the reception condition of at least one first physical channel and the allocation indication count information in at least one control information.

According to the two indication modes of the allocation indication counting information in the first control information, this step is respectively described as follows:

In the case of using indication mode 1: (allocation indication count information in the first control information always indicates the first preset value or indicates an arbitrary value)

In some embodiments, in the case that the terminal only receives m first physical channels in the first candidate physical channel receiver group, the terminal does not transmit HARQ-ACK information in the first feedback time unit. In this case, the terminal ignores the allocation indication count information in the first control information corresponding to the m first physical channels (that is, the terminal does not read the allocation indication count information in the first control information corresponding to the m first physical channels information).

In some embodiments, the terminal receives first control information, the first control information is used to schedule the transmission of the first physical channel, and the first control information carries the allocation indication count information; the terminal ignores the allocation indication count information in the first control information , the terminal does not transmit HARQ-ACK information through the first feedback slot time unit.

In some embodiments, the terminal receives only m first physical channels in the first candidate physical channel receiver group, and the allocation indication count information in the first control information corresponding to the m first physical channels is the first In the case of a preset value, the terminal does not transmit HARQ-ACK information through the first feedback time unit.

Exemplarily, as shown in FIG. 7, the terminal receives only 4 first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, PDSCH3, and PDSCH4, and the 3 corresponding to the 4 first physical channels The allocation indication counting information C-DAI corresponding to each first control information DCI is a first preset value of 4, and the terminal does not transmit HARQ-ACK information in the first feedback time unit. If the terminal is configured with Type 1 HARQ codebook feedback, the terminal does not perform Type 1 HARQ codebook feedback. In this example, C-DAI is not included in the first DCI 3 scheduling PDSCH3.

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and the allocation indication count information in the first control information corresponding to the m first physical channels all indicates the first predetermined If the value is set, and the second physical channel is not received, the terminal does not transmit HARQ-ACK information through the first feedback time unit.

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and at least one of the allocation indication count information in the first control information corresponding to the m first physical channels When the allocation indication count information is the first preset value, and the allocation indication count information in the received third control information is 1, m is a positive integer, and the terminal transmits the HARQ of the third control information in the first feedback time unit - ACK information (1 bit). If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Exemplarily, as shown in FIG. 8, the terminal receives three first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, and PDSCH3, and the first control information corresponding to the three first physical channels (The first DCI) corresponding to the allocation indicator count information C-DAI is the first preset value of 4, and the C-DAI in the received third control information (third DCI) is 1, the terminal passes the first feedback time The unit transmits HARQ-ACK information (1 bit) of the third control information. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, the first DCI 1 scheduling PDSCH1 does not include C-DAI.

Wherein, the third control information is used to instruct to release the physical channel configuration of the semi-persistent scheduling, and the physical channel of the semi-persistent scheduling corresponds to the first candidate physical channel receiver group.

In the case of using the second indication method: (the allocation indication count information in the first control information indicates the number of HARQ-ACKs that need to be fed back)

In some embodiments, the terminal receives only m first physical channels in the first candidate physical channel receiver group, and the allocation indication count information in the first control information corresponding to the m first physical channels is the first In the case of a preset value, the terminal does not transmit HARQ-ACK information through the first feedback time unit.

Exemplarily, as shown in FIG. 7, the terminal receives only 4 first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, PDSCH3, and PDSCH4, and the 3 corresponding to the 4 first physical channels The allocation indication counting information C-DAI corresponding to each first control information DCI is a first preset value of 4, and the terminal does not transmit HARQ-ACK information in the first feedback time unit. If the terminal is configured with Type 1 HARQ codebook feedback, the terminal does not perform Type 1 HARQ codebook feedback. In this example, C-DAI is not included in the first DCI 3 scheduling PDSCH3.

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and the allocation indication count information in the first control information corresponding to the m first physical channels all indicates the first predetermined If the value is set, and the second physical channel is not received, the terminal does not transmit HARQ-ACK information through the first feedback time unit.

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and at least one of the allocation indication count information in the first control information corresponding to the m first physical channels When the allocation indication count information is the first preset value, and the allocation indication count information in the received third control information is 1, m is a positive integer, and the terminal transmits the HARQ of the third control information in the first feedback time unit - ACK information (1 bit). If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Exemplarily, as shown in FIG. 8, the terminal receives three first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, and PDSCH3, and the first control information corresponding to the three first physical channels (The first DCI) corresponding to the allocation indicator count information C-DAI is the first preset value of 4, and the C-DAI in the received third control information (third DCI) is 1, the terminal passes the first feedback time The unit transmits HARQ-ACK information (1 bit) of the third control information. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, the first DCI 1 scheduling PDSCH1 does not include C-DAI.

Wherein, the third control information is used to instruct to release the physical channel configuration of the semi-persistent scheduling, and the physical channel of the semi-persistent scheduling corresponds to the first candidate physical channel receiver group.

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and at least one of the allocation indication count information in the first control information corresponding to the m first physical channels When the allocation indication count information is 1, the terminal transmits one piece of HARQ-ACK information in the first feedback time unit.

Exemplarily, as shown in FIG. 9, the terminal receives three first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, and PDSCH3, and one of the three first physical channels The allocation indication count information C-DAI corresponding to the corresponding first control information (first DCI) is the first preset value 4, and the C-DAI corresponding to the first DCI corresponding to the last first physical channel among the three first physical channels -DAI is 1, the terminal transmits one HARQ-ACK information in the first feedback time unit. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, C-DAI is not included in the first DCI 2 that schedules PDSCH2.

Wherein, one piece of HARQ-ACK information corresponds to at least one of one physical channel, one second physical channel, one piece of control information, one piece of third control information, and one bit of HARQ-ACK information, which is not limited in this application.

Optionally, at least one of the allocation indication count information in the first control information corresponding to the m first physical channels includes at least one of the following manners:

At least one of the allocation indication count information in the first control information corresponding to the m first physical channels, the last allocation indication count information in the allocation indication count information indicates 1; or, the first control information corresponding to the m first physical channels At least one allocation indication count information in the information indicates that all allocation indication count information in the allocation indication count information indicates 1; or, the allocation indication count information in the first control information corresponding to the m first physical channels includes at least two Allocation indication count information, the at least two allocation indication count information respectively indicate the first preset value or indication 1, wherein the allocation indication count information for indicating the first preset value is located before the allocation indication count information for indication 1 .

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and the allocation in the first control information corresponding to the m first physical channels indicates at least one allocation in the count information If the indication count information indicates 1, and the second physical channel is not received, the terminal transmits one piece of HARQ-ACK information in the first feedback time unit.

In some embodiments, the terminal receives m first physical channels in the first candidate physical channel receiver group, and the allocation in the first control information corresponding to the m first physical channels indicates at least one allocation in the count information If the indication count information is 1 and the allocation indication count information in the received third control information is 1, the terminal transmits the HARQ-ACK information (1 bit) of the third control information in the first feedback time unit. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Exemplarily, as shown in FIG. 10, the terminal receives three first physical channels in the first candidate physical channel receiver group, that is, PDSCH1, PDSCH2, and PDSCH3, and the first DCI corresponding to the three first physical channels The C-DAI of all are 1, and the C-DAI in the received third DCI is 1, and the terminal transmits the HARQ-ACK information (1 bit) of the third control information in the first feedback time unit. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, C-DAI is not included in the first DCI 3 scheduling PDSCH3.

In some embodiments, when the terminal only receives the third control information in the first candidate physical channel receiver opportunity group, and the allocation indication count information in the third control information indicates 1, the terminal only receives the third control information in the first feedback time unit Feedback the HARQ-ACK information (1 bit) of the third control information. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Implementation method 3 for step 204:

Fig. 11 shows a flowchart of a method for feeding back HARQ-ACK information provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to a terminal. Optionally, the terminal is a terminal supporting NTN. The method includes:

Step 1102: the terminal receives at least one piece of control information;

The at least one piece of control information includes: at least one of first control information, second control information, and third control information.

The first control information is used to schedule the transmission of the first physical channel in the first candidate physical channel transmission opportunity group. The second control information is used to schedule the transmission of the second physical channel in the first candidate physical channel transmission opportunity group. The third control information is used to release the configuration of the physical channel of the semi-persistent scheduling. The semi-persistently scheduled physical channel is configured to be transmitted in the first candidate physical channel transmission opportunity group. The physical channel of the semi-persistent scheduling may be the first physical channel or the second physical channel.

Step 1104: the terminal receives the first physical channel according to the first control information, and receives the second physical channel according to the second control information;

The terminal receives the first physical channel on the transmission opportunity indicated by the first control information.

In a scenario of dynamic scheduling, the first control information and the first physical channel may have a one-to-one correspondence. For example, when the terminal receives the first control information A, it receives the first physical channel A according to the first control information A; when it receives the first control information B, it receives the first physical channel A according to the first control information B. Physical channel A. Similarly, in a scenario of dynamic scheduling, the second control information and the second physical channel may have a one-to-one correspondence.

In the scenario of semi-persistent scheduling, the first control information and the first physical channel may have a one-to-many correspondence. For example, when the terminal receives the first control information A, it receives multiple semi-persistent The first physical channel for persistent scheduling. Similarly, in the scenario of semi-persistent scheduling, the second control information and the second physical channel may have a one-to-many correspondence.

Optionally, the first control information also carries assignment indication count information (CounterDownlinkAssignmentIndex, C-DAI). The C-DAI may or may not be included in the first control information, which is not limited in this embodiment of the present application. For example, when the first control information corresponds to DCI format 1_0, there is C-DAI in the first control information; when the first control information corresponds to DCI format 1_1 or DCI format 1_2, there is no C-DAI in the first control information.

The allocation indication count information in the first control information has at least two indication modes:

Indication mode one: the allocation indication count information carried in the first control information always indicates a first preset value; or, the allocation indication count information carried in the first control information indicates an arbitrary value. Exemplarily, the value of the first preset value is 0, or, the first preset value is 2 to the power of n, where n is the number of bits of the allocated indication count information. That is, regardless of whether the second physical channel is transmitted in the first candidate physical channel opportunity group, and whether the terminal receives the third control information, the allocation indication count information carried in the first control information always indicates the first preset value ; Or, the allocation indication count information carried in the first control information indicates any value in the values corresponding to the n bits.

Indication mode 2: the allocation indication count information carried in the first control information is used to determine the number of bits of HARQ-ACK information to be fed back in the first feedback time unit before the first control information. That is, the allocation indication count information carried in the first control information will consider whether the second physical channel is transmitted in the first candidate physical channel receiver group and whether the terminal receives the third control information.

Exemplarily, wherein, when the number of bits of HARQ-ACK information to be fed back in the first feedback time unit is not 0 by the end of the first control information, the allocation indication count information is used to determine Up to the first control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit; When the number of bits of the ACK information is 0, the allocation indication count information indicates a first preset value.

Optionally, the second control information may also carry allocation indication count information. The allocation indication count information in the second control information is used to indicate the number of HARQ-ACK information to be fed back in the first candidate physical channel receiver opportunity group before the second control information.

Step 1106: The terminal determines whether to transmit HARQ-ACK information in the first feedback time unit according to the reception status of at least one first physical channel, the reception status of at least one second physical channel, and the allocation indication count information in at least one control information.

Based on the allocation indication count information in the first control information received by the terminal, the third method may include the following two situations, and the two situations are respectively described as follows:

In the case of using indication mode 1: (allocation indication count information in the first control information always indicates the first preset value or indicates an arbitrary value)

In some embodiments, when the terminal receives m first physical channels and one second physical channel in the first candidate physical channel receiver group, the allocation in the first control information corresponding to the m first physical channels In a case where the indication count information is the first preset value and the allocation indication count information in the second control information is 1, the terminal transmits the HARQ-ACK information of the second physical channel in the first feedback time unit.

Exemplarily, as shown in FIG. 12, the terminal receives 4 physical channels in the first candidate physical channel receiver group, including three first physical channels PDSCH1, PDSCH2, PDSCH3 and one second physical channel PDSCHx, three The allocation indicator count information in the first control information corresponding to the first physical channel is the first preset value of 4, and the C-DAI in the second DCI corresponding to the second physical channel PDSCHx is 1, then the terminal passes the first feedback time The unit transmits the HARQ-ACK information of the second physical channel PDSCHx. In this example, C-DAI is not included in the first DCI 2 that schedules PDSCH2.

In some embodiments, the terminal receives m first physical channels and a second physical channel of semi-persistent scheduling in the first candidate physical channel receiver group, and the first control information corresponding to the m first physical channels The allocation indication count information indicates a first preset value, and the terminal transmits the HARQ-ACK information (1 bit) of the second physical channel of the semi-persistent scheduling in the first feedback time unit. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Exemplarily, as shown in Figure 13, the terminal receives 4 physical channels in the first candidate physical channel receiver group, including three first physical channels PDSCH1, PDSCH2, PDSCH3 and a second physical channel of semi-persistent scheduling SPS PDSCH, the allocation indicator count information in the first control information corresponding to the three first physical channels is the first preset value 4, then the terminal transmits the HARQ- ACK information (1 bit). If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, the first DCI 1 scheduling PDSCH1 does not include C-DAI.

In the case of using the second indication method: (the allocation indication count information in the first control information indicates the number of HARQ-ACKs that need to be fed back)

In some embodiments, when the terminal receives m first physical channels and one second physical channel in the first candidate physical channel receiver group, the allocation indication count in the first control information corresponding to the m first physical channels When at least one allocation indication count information in the information is 1 and the allocation indication count information in the second control information is 1, the terminal transmits the HARQ-ACK information (1 bit) of the second physical channel in the first feedback time unit. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Exemplarily, as shown in FIG. 14, the terminal receives four physical channels in the first candidate physical channel receiver group, including three first physical channels PDSCH1, PDSCH2, PDSCH3 and one second physical channel PDSCHx, three The C-DAI in the first control information corresponding to the first physical channel is the first preset value 1, and the C-DAI in the second DCI corresponding to the second physical channel PDSCHx is 1, then the terminal passes the first feedback time The unit transmits HARQ-ACK information (1 bit) of the second physical channel. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, C-DAI is not included in the first DCI 2 that schedules PDSCH2.

In some embodiments, after the terminal receives m first physical channels and a semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, the first control information corresponding to the m first physical channels When at least one of the allocation indication count information in the allocation indication count information is 1, the terminal transmits the HARQ-ACK information (1 bit) of the second physical channel of the semi-persistent scheduling in the first feedback time unit. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Exemplarily, as shown in Figure 15, the terminal receives 4 physical channels in the first candidate physical channel receiver group, including three first physical channels PDSCH1, PDSCH2, PDSCH3 and a second physical channel of semi-persistent scheduling SPS PDSCH, the C-DAI in the first control information corresponding to the three first physical channels is the first preset value 1, then the terminal transmits the HARQ-ACK of the second physical channel of the semi-persistent scheduling through the first feedback time unit Information (1 bit). If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook. In this example, C-DAI is not included in the first DCI 2 that schedules PDSCH2.

In some embodiments, the terminal receives the second physical channel on the primary cell in the first candidate physical channel receiver opportunity group, and the allocation indication count information in the second control information indicates 1, and receives m first physical channel channel, and at least one of the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1, the terminal only feeds back one HARQ-ACK information through the first feedback time unit ( 1 bit). If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

Optionally, the terminal receives the first control information before receiving the second control information, and the allocation indication count information in the first control information indicates the first preset value; and/or, the terminal receives the second control information After receiving the first control information, the allocation indication count information in the first control information indicates 1.

Exemplarily, as shown in FIG. 16 , the allocation indication count information includes 2 bits, so the indication range of the allocation indication count information is 1 to 4. If the terminal receives only one second physical channel in the first candidate physical channel receiver group, and the allocation indication count information in the second control information indicates 1, that is, the allocation indication count in the second control information corresponding to physical channel 2 The information indicates 1, and two first physical channels, physical channel 1 and physical channel 3, are received, and the allocation indication count information in the first control information corresponding to physical channel 1 indicates the first preset value 4, and physical channel 3 If the allocation indication count information in the corresponding first control information indicates 1, then the terminal only feeds back the HARQ-ACK information corresponding to physical channel 2 transmitted on the second physical channel.

In some embodiments, when the terminal receives the second physical channel only on the primary cell in the first candidate physical channel receiver opportunity group, and the allocation indication count information in the second control information indicates 1, the terminal receives the second physical channel in the first The feedback time unit only feeds back the HARQ-ACK information (1 bit) of the second physical channel. If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

In some embodiments, the terminal only receives the semi-persistent scheduling physical channel of the second physical channel transmission in the first candidate physical channel receiver group, and the terminal only feeds back the semi-persistent scheduling of the second network channel transmission in the first feedback time unit HARQ-ACK information of the physical channel (1 bit). If the terminal is configured with a Type 1 HARQ-ACK codebook, there is no need to feed back a fixed-length Type 1 HARQ-ACK codebook.

To sum up, in the method provided in this embodiment, the terminal receives the first physical channel, the second physical channel, and the first control information, and the terminal can determine the Whether to feed back the HARQ-ACK information, thus ensuring the consistency between the network device and the terminal on whether to feed back the HARQ-ACK information.

For the case where the terminal is configured with Type 3 HARQ-ACK codebook feedback, the following embodiments are also provided. Fig. 17 shows a flowchart of a method for feeding back HARQ-ACK information provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to a terminal. Optionally, the terminal is a terminal supporting NTN. The method includes:

Step 1702: The terminal receives first control information, the first control information is used to schedule transmission of the first physical channel, and the first control information carries a first information field.

Schematically, the first information field is the one shot HARQ-ACK feedback request information field in DCI format 1_1.

The first information field is used to indicate that Type-3 HARQ-ACK codebook feedback is performed by using the second preset value, or, the first information field is used to indicate that Type-3 HARQ-ACK codebook feedback is not performed by using a third preset value. Schematically, the second preset value is 1, and the third preset value is 0.

Exemplarily, when the terminal receives the first physical channel sent by the network device, the terminal determines whether to perform Type 3 HARQ-ACK codebook feedback by judging the value of the first information field in the first control information.

Optionally, the type three HARQ-ACK codebook includes:

HARQ-ACK information corresponding to all downlink HARQ processes on all configured carriers;

Or, HARQ-ACK information corresponding to all downlink HARQ processes on all activated carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all configured carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all activated carriers.

In some embodiments, when the physical channel received in the terminal is any first physical channel, or the received physical channels are all first physical channels,

The terminal does not expect the value of the first information field in the first control information to indicate the second preset value, that is, the terminal does not expect the value of the first information field to indicate 1;

Or, the terminal expects the value of the first information field in the first control information to indicate a third preset value, that is, the terminal expects the value of the first information field to indicate 0;

Or, the terminal does not transmit HARQ-ACK information.

In some embodiments, the situation that the physical channels received by the terminal are all the first physical channel (or only the first physical channel is received) includes at least one of the following methods:

All received by the first candidate physical channel receiver group in the terminal are the first physical channels, and the first candidate physical channel receiver group corresponds to the first feedback time unit;

· The terminal receives the first physical channel between two feedback time units.

In some embodiments, the terminal does not expect the value of the first information field in the first control information to indicate the second preset value; or, the terminal expects the value of the first information field in the first control information The value of the first information field indicates the third preset value.

In some embodiments, the value of the first information field in the first control information received by the terminal indicates the second preset value.

Optionally, when the value of the first information field in the first control information received by the terminal indicates the second preset value, the terminal performs HARQ-ACK according to the HARQ-ACK codebook of type three feedback.

To sum up, in the method provided in this embodiment, when the terminal is configured with Type 3 HARQ-ACK codebook feedback, the terminal can set the value of the feedback request information field according to the first control information, so that the terminal can It is determined whether to perform Type 3 HARQ-ACK codebook feedback, thereby ensuring consistency between the network device and the terminal on whether to feed back HARQ-ACK information.

Fig. 18 shows a flowchart of a method for receiving a HARQ-ACK codebook provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to network equipment. Optionally, the network device is a network device supporting NTN. The method comprises the steps of:

Step 1802: The network device sends the first physical channel.

The first physical channel includes a physical channel corresponding to the HARQ process in the first state. The first physical channel corresponds to the first feedback time unit. Exemplarily, the first physical channel is the PDSCH, the first physical channel is transmitted in time unit n, the first feedback time unit is n+k, and k is indicated by the network device.

The network device may configure the terminal with Type 1 HARQ-ACK codebook feedback, or Type 3 HARQ-ACK codebook feedback.

Optionally, the network device transmits the first physical channel and/or the second physical channel in a first candidate physical channel transmission opportunity group, where the first candidate physical channel transmission opportunity group includes at least one candidate physical channel received on at least one serving cell Chance. Each transmission opportunity in the first candidate physical channel transmission opportunity group corresponds to the first feedback time unit.

Optionally, the HARQ process corresponding to the first state includes at least one of the following situations:

The HARQ process corresponds to the disabled state;

The HARQ process is configured to enable parameters;

· The HARQ process does not correspond to the HARQ-ACK feedback.

Step 1804: The network device determines whether to receive HARQ-ACK information in the first feedback time unit according to the transmission situation of the first physical channel.

Optionally, this step includes three possible implementations:

Implementation mode 1: The network device determines whether to receive HARQ-ACK information through the first feedback time unit according to the transmission situation of at least one first physical channel;

Exemplarily, the sending situation of the first physical channel refers to the sending situation of the first physical channel in the first candidate physical channel transmission opportunity group.

Implementation mode 2: The network device determines the allocation indication count information in at least one control information according to the transmission situation of at least one first physical channel, and determines whether to receive HARQ-ACK information through the first feedback time unit;

At least one piece of control information is used to schedule the transmission of the physical channels in the first candidate group of physical channel transmission opportunities. The at least one piece of control information includes: at least one of first control information, second control information, and third control information.

The first control information is used to schedule transmission of the first physical channel. The second control information is used to schedule transmission of the second physical channel. The third control information is used to release the physical channel configuration of the semi-persistent scheduling.

Implementation mode 3: The network device determines the allocation indication count information in at least one control information according to the transmission situation of at least one first physical channel and the transmission situation of at least one second physical channel, and determines whether to receive HARQ through the first feedback time unit -ACK information.

The second physical channel corresponds to the HARQ process in the second state.

Optionally, the HARQ process corresponding to the second state includes at least one of the following situations:

The HARQ process corresponds to the enabled state;

The HARQ process is not configured to enable parameters;

· The HARQ process corresponds to the HARQ-ACK feedback.

To sum up, in the method provided in this embodiment, the network device enables the network device to determine whether to receive HARQ-ACK information according to the transmission status of the first physical channel in the physical channels, thereby ensuring that the network device and the terminal are Whether to feed back the consistency of the HARQ-ACK information.

Implementation method 1 for step 1804:

Fig. 19 shows a flowchart of a method for receiving a HARQ-ACK codebook provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to network equipment. Optionally, the network device is a network device supporting NTN. The method includes:

Step 1902: The network device determines whether to receive HARQ-ACK information in the first feedback time unit according to the transmission situation of the first physical channel.

The network device sends the first physical channel in the first candidate physical channel receiver group, and the network device determines whether to receive HARQ-ACK information in the first feedback time unit according to the sending situation of the first physical channel.

Wherein, the first candidate physical channel receiver opportunity group includes at least one candidate physical channel receiver opportunity on at least one serving cell, and the first candidate physical channel receiver opportunity group corresponds to the first feedback time unit.

In some embodiments, when the network device sends m first physical channels in the first candidate physical channel receiver group and does not send the second physical channel, the network device does not receive HARQ-ACK through the first feedback time unit information. Or, when at least one physical channel sent by the network device in the first candidate physical channel receiver group is the first physical channel, the network device does not receive the HARQ-ACK information in the first feedback time unit.

In some embodiments, when the network device transmits the first physical channel of semi-persistent scheduling in the first candidate physical channel receiver opportunity group, the network device does not receive HARQ-ACK information through the first feedback time unit.

That is, the network device does not receive HARQ-ACK information in the first feedback time unit when only the first physical channel is sent but the second physical channel is not sent in the first candidate physical channel receiver opportunity group. If the network device is configured with Type 1 HARQ codebook feedback for the terminal, the network device does not receive Type 1 HARQ codebook feedback; if the network device is configured with Type 3 HARQ codebook feedback for the terminal, the network device does not receive Type 1 HARQ codebook feedback. Three HARQ codebook feedbacks.

Optionally, before sending the first physical channel, the network device sends at least one piece of first control information.

The first control information is used to schedule transmission of the first physical channel. Schematically, the first control information is used to schedule the transmission of the first physical channel on at least one transmission opportunity in the first candidate physical channel transmission opportunity group. The network device sends at least one first physical channel according to at least one first control information.

For the second implementation of step 1804:

Fig. 20 shows a flowchart of a method for receiving a HARQ-ACK codebook provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to network equipment. Optionally, the network device is a network device supporting NTN. The method includes:

Step 2002: The network device determines the allocation indicator count information in at least one control information according to the transmission situation of at least one first physical channel, and determines whether to receive HARQ-ACK information in the first feedback time unit.

The network device determines the allocation indication count information in the at least one piece of control information according to at least one transmission situation of at least one first physical channel, at least one second physical channel, and at least one piece of third control information. Exemplarily, before sending the first physical channel and/or the second physical channel, the network device sends at least one piece of control information.

The control information includes: at least one of first control information, second control information and third control information.

The first control information is used to schedule the transmission of the first physical channel in the first candidate physical channel transmission opportunity group. The second control information is used to schedule the transmission of the second physical channel in the first candidate physical channel transmission opportunity group. The third control information is used to release the configuration of the physical channel of the semi-persistent scheduling. The semi-persistently scheduled physical channel is configured to be transmitted in the first candidate physical channel transmission opportunity group. The physical channel of the semi-persistent scheduling may be the first physical channel or the second physical channel.

The network device sends at least one first physical channel according to at least one first control information. And/or, the network device sends at least one second physical channel according to at least one second control information.

According to the two indication modes of the allocation indication counting information in the first control information (see the foregoing embodiments, no further description), this step is respectively described as follows:

In the case of using indication mode 1: (allocation indication count information in the first control information always indicates the first preset value or indicates an arbitrary value)

In some embodiments, when the network device only transmits m first physical channels in the first candidate physical channel receiver group, the network device does not receive HARQ-ACK information in the first feedback time unit.

In some embodiments, when the network device only sends m first physical channels in the first candidate physical channel receiver group and does not send the second physical channel, the network device determines the first physical channel corresponding to the m first physical channels The allocation indication count information in the control information indicates any value or both indicate the first preset value, and the HARQ-ACK information is not received through the first feedback time unit.

In some embodiments, when the network device sends m first physical channels in the first candidate physical channel receiver group and sends the third control information, the network device determines the first At least one of the allocation indication count information in the control information is the first preset value, and the allocation indication count information in the third control information is 1, m is a positive integer, and the network device passes the first feedback time unit Receive HARQ-ACK information (1 bit) of the third control information.

Wherein, the third control information is used to instruct to release the physical channel configuration of the semi-persistent scheduling, and the physical channel of the semi-persistent scheduling corresponds to the first candidate physical channel receiver group.

In the case of using the second indication method: (the allocation indication count information in the first control information indicates the number of HARQ-ACKs that need to be fed back)

In some embodiments, the network device sends m first physical channels in the first candidate physical channel receiver group, and sends a second physical channel (dynamically scheduled or semi-persistently scheduled) or a third control information In the case where the network device determines that at least one of the allocation indication count information in the first control information corresponding to the m first physical channels is 1, the network device receives a HARQ-ACK message through the first feedback time unit .

Wherein, one piece of HARQ-ACK information includes at least one of one physical channel, one second physical channel, one piece of control information, one piece of third control information, and one bit of HARQ-ACK information, which is not limited in this application.

Optionally, the network device determining at least one of the allocation indication count information in the first control information corresponding to the m first physical channels includes at least one of the following manners:

At least one allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

Or, at least one of the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

Or, in at least one of the allocation indication count information in the first control information corresponding to the m first physical channels, the allocation indication count information for indicating the first preset value is located in the allocation indication count information for indicating 1 Indicates count information before.

In some embodiments, the network device determines the first control information corresponding to the m first physical channels when m first physical channels are sent in the first candidate physical channel receiver group and no second physical channels are sent At least one piece of allocation indication count information in the allocation indication count information indicates 1, and the network device receives one piece of HARQ-ACK information in the first feedback time unit.

In some embodiments, when the network device sends m first physical channels in the first candidate physical channel receiver group and sends the third control information, it determines that in the first control information corresponding to the m first physical channels At least one of the allocation indication count information in the allocation indication count information is the first preset value, and the allocation indication count information in the third control information is 1, m is a positive integer, and the network device receives through the first feedback time unit HARQ-ACK information (1 bit) of the third control information.

In some embodiments, when the network device only sends the third control information in the first candidate physical channel receiver opportunity group, it determines that the allocation indication count information in the third control information indicates 1, and the network device only receives HARQ-ACK information (1 bit) of the third control information.

A third implementation for step 1804:

Fig. 21 shows a flowchart of a method for receiving a HARQ-ACK codebook provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to network equipment. Optionally, the network device is a network device supporting NTN. The method includes:

Step 2102: The network device determines the allocation indication count information in at least one control information according to the transmission situation of at least one first physical channel and the transmission situation of at least one second physical channel, and determines whether to receive the HARQ- ACK information.

The network device determines the allocation indication count information in the at least one piece of control information according to at least one transmission situation of at least one first physical channel, at least one second physical channel, and at least one piece of third control information. Exemplarily, before sending the first physical channel and/or the second physical channel, the network device sends at least one piece of control information.

The control information includes: at least one of first control information, second control information and third control information. The at least one piece of control information includes: at least one of first control information, second control information, and third control information.

The first control information is used to schedule the transmission of the first physical channel in the first candidate physical channel transmission opportunity group. The second control information is used to schedule the transmission of the second physical channel in the first candidate physical channel transmission opportunity group. The third control information is used to release the configuration of the physical channel of the semi-persistent scheduling. The semi-persistently scheduled physical channel is configured to be transmitted in the first candidate physical channel transmission opportunity group. The physical channel of the semi-persistent scheduling may be the first physical channel or the second physical channel.

The network device determines the allocation indication count information in the first control information. The third method may include the following two situations, and the two situations are respectively described as follows:

In the case of using indication mode 1: (allocation indication count information in the first control information always indicates the first preset value or an arbitrary value)

In some embodiments, after the network device sends m first physical channels and one second physical channel in the first candidate physical channel receiver group, determine the allocation indication in the first control information corresponding to the m first physical channels The count information is a first preset value or an arbitrary value, the allocation indication count information in the second control information is 1, and the network device receives the HARQ-ACK information of the second physical channel in the first feedback time unit.

In some embodiments, the network device determines the first physical channels corresponding to the m first physical channels when m first physical channels and one semi-persistently scheduled second physical channel are sent in the first candidate physical channel receiver group. The allocation indication count information in the control information indicates a first preset value, and the network device receives the HARQ-ACK information (1 bit) of the second physical channel of the semi-persistent scheduling in the first feedback time unit.

In the case of using the second indication method: (the allocation indication count information in the first control information indicates the number of HARQ-ACKs that need to be fed back)

In some embodiments, when the network device sends m first physical channels and a second physical channel scheduled by the second control information in the first candidate physical channel receiver group, it is determined that the m first physical channels correspond to At least one of the allocation indication count information in the first control information is 1, and the allocation indication count information in the second control information is 1, and the network device receives the second physical channel by the first feedback time unit HARQ-ACK information (1 bit).

In some embodiments, when the network device sends m first physical channels and a semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, determine the first physical channel corresponding to the m first physical channels At least one of the allocation indication count information in the control information is 1, and the network device receives the HARQ-ACK information (1 bit) of the second physical channel of the semi-persistent scheduling in the first feedback time unit.

In some embodiments, the network device determines the allocation indication in the second control information under the condition that one second physical channel is sent on the primary cell and m first physical channels are sent in the first candidate physical channel receiver group The count information indicates 1, and it is determined that at least one of the allocation indication count information in the first control information corresponding to m first physical channels indicates 1, and the network device receives only one HARQ-ACK information through the first feedback time unit (1 bit).

Optionally, the network device sends the first control information before sending the second control information, then it is determined that the allocation indication count information in the first control information indicates the first preset value; or, after the network device sends the second control information , to send the first control information, it is determined that the allocation indication count information in the first control information indicates 1.

In some embodiments, in the case that only one second physical channel is sent on the primary cell in the first candidate physical channel receiver opportunity group, the network device determines that the allocation indication count information in the second control information indicates 1, and the network device in The first feedback time unit only receives HARQ-ACK information (1 bit) of the second physical channel.

In some embodiments, the network device only sends a semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, and the network device only receives the HARQ-ACK information of the second physical channel in the first feedback time unit ( 1 bit).

To sum up, in the method provided in this embodiment, the network device sends the first physical channel, the second physical channel, and the first control information, and the network device receives the transmission information of the first physical channel in the group according to the first candidate physical channel In this case, it is determined whether to receive the HARQ-ACK information, thereby ensuring the consistency between the network device and the terminal on whether to feed back the HARQ-ACK information.

The following embodiments are also provided for the case where the network device is configured with Type-3 HARQ-ACK codebook feedback for the terminal. Fig. 22 shows a flowchart of a method for receiving a HARQ-ACK codebook provided by an exemplary embodiment of the present application. In this embodiment, this method is applied to network equipment. Optionally, the network device is a network device supporting NTN. The method includes:

Step 2202: The network device sends first control information, the first control information is used to schedule the transmission of the first physical channel, and the first control information carries the first information field.

Schematically, the first information field is the one shot HARQ-ACK feedback request information field in DCI format 1_1.

The first information field is used to indicate that Type-3 HARQ-ACK codebook feedback is performed by using the second preset value, or, the first information field is used to indicate that Type-3 HARQ-ACK codebook feedback is not performed by using a third preset value. Schematically, the second preset value is 1, and the third preset value is 0.

Optionally, the type three HARQ-ACK codebook includes:

HARQ-ACK information corresponding to all downlink HARQ processes on all configured carriers;

Or, HARQ-ACK information corresponding to all downlink HARQ processes on all activated carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all configured carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all activated carriers.

In some embodiments, when the network device sends any one of the first physical channels, or the physical channels sent by the network device are all first physical channels,

The network device does not set the value of the first information field in the first control information to indicate the second preset value, that is, the network device does not set the value of the first information field to indicate 1;

Or, the network device sets the value of the first information field in the first control information to indicate a third preset value, that is, the network device sets the value of the first information field to indicate 0;

Or, the network device does not receive HARQ-ACK information.

In some embodiments, the situation that the physical channels sent by the network device are all the first physical channel (only the first physical channel is sent) includes at least one of the following ways:

The physical channels sent by the network device to the first candidate physical channel receiver group are all first physical channels, and the first candidate physical channel receiver group corresponds to the first feedback time unit;

· The network device sends the first physical channel between two feedback time units.

In some embodiments, the network device does not set the value of the first information field in the first control information to indicate the second preset value; or, the network device sets the value in the first control information The value of the first information field of indicates the third preset value.

In some embodiments, the value of the first information field in the first control information sent by the network device may be set to indicate the second preset value.

Optionally, when the value of the first information field in the first control information sent by the network device is set to indicate the second preset value, the network device receives the HARQ-ACK codebook according to Type 3 HARQ-ACK feedback performed.

To sum up, in the method provided in this embodiment, when the network device configures Type 3 HARQ-ACK codebook feedback for the terminal, the network device can determine the value of the feedback request information field in the first control information, It may also be determined whether to receive type-three HARQ-ACK codebook feedback, thereby ensuring consistency between the network device and the terminal on whether to feed back HARQ-ACK information.

As shown schematically in FIG. 23 , an embodiment of the present application provides a device for feedbacking a HARQ-ACK codebook, and the device can be implemented as all or a part of a terminal, or can be applied in a terminal. The terminal may be a terminal supporting NTN. The unit includes:

A receiving module 2302, configured to receive a first physical channel, where the first physical channel corresponds to a first feedback time unit;

A feedback module 2304, configured to determine whether to transmit HARQ-ACK information through the first feedback time unit according to the receiving condition of the first physical channel;

Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.

The HARQ process corresponding to the first state includes at least one of the following situations:

The HARQ process corresponds to a disabled state;

The HARQ process is configured to disable parameters;

The HARQ process does not correspond to HARQ-ACK feedback.

A feedback module 2304, configured to determine whether to transmit HARQ-ACK information through the first feedback time unit according to the reception situation of at least one of the first physical channels;

Or, determine whether to transmit the HARQ-ACK information through the first feedback time unit according to the reception condition of at least one of the first physical channels and the allocation indication count information in at least one of the control information;

Or, according to the reception situation of at least one of the first physical channels, the reception situation of at least one of the second physical channels, and the allocation indication count information in at least one control information, determine whether to transmit the allotted information in the first feedback time unit The HARQ-ACK information;

Wherein, the second physical channel does not include a physical channel corresponding to the HARQ process in the first state.

The receiving module 2302 is configured to receive the first physical channel in a first candidate physical channel receiver group, wherein the first candidate physical channel receiver group corresponds to the first feedback time unit.

The receiving module 2302 is configured to receive first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information, and the allocation indication count information indicates The first default value.

The receiving module 2302 is configured to receive first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information, and the allocation indication count information is used for Before determining the first control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit.

A receiving module 2302, configured to receive first control information, where the first control information is used to schedule transmission of the first physical channel, where the first control information carries the allocation indication count information;

Wherein, when the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is not 0 as of the first control information, the allocation indication count information is used to determine Control information, the number of bits of HARQ-ACK information to be fed back in the first feedback time unit;

When the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is 0 by the end of the first control information, the allocation indication count information indicates a first preset value.

The first preset value is 0; or,

The first preset value is 2 raised to the power of n, and n is the number of bits of the allocation indication count information.

The feedback module 2304 is configured to receive first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information; the allocation indication count information is ignored .

A feedback module 2304, configured to not transmit the HARQ-ACK information through the first feedback time unit when only m first physical channels are received in the first candidate physical channel receiver group, m is a positive integer.

The feedback module 2304 is configured to receive only m first physical channels in the first candidate physical channel receiver group, and the allocation indication count information in the first control information corresponding to the m first physical channels is equal to In the case of the first preset value, the HARQ-ACK information is not transmitted through the first feedback time unit;

Or, receiving m first physical channels in the first candidate physical channel receiver group, and at least one of the allocation indication count information in the first control information corresponding to the m first physical channels When the allocation indication count information is a first preset value, and the allocation indication count information in the received third control information is 1, the terminal transmits the first feedback time unit by the first feedback time unit. HARQ-ACK information of three control information, the third control information is used to indicate the release of the semi-persistent scheduling physical channel configuration, the semi-persistent scheduling physical channel corresponds to the first candidate physical channel receiver group where m is positive integer.

A feedback module 2304, configured to receive only m first physical channels in the first candidate physical channel receiver group, and count the allocation indications in the first control information corresponding to the m first physical channels When at least one of the allocation indication count information in the information indicates 1, the terminal transmits HARQ-ACK information of a physical channel through the first feedback time unit, and m is a positive integer;

Or, receiving m first physical channels in the first candidate physical channel receiver group, and at least one of the allocation indication count information in the first control information corresponding to the m first physical channels If the allocation indication count information indicates 1, and the allocation indication count information in the received third control information is 1, transmit the HARQ-ACK of the third control information through the first feedback time unit information, the third control information is used to indicate the release of the semi-persistent scheduling physical channel configuration, the semi-persistent scheduling physical channel corresponds to the first candidate physical channel receiver group, and m is a positive integer.

A feedback module 2304, configured to receive m first physical channels and one second physical channel in the first candidate physical channel receiver group, and in the first control information corresponding to the m first physical channels In the case where the allocation indication count information in the above information is the first preset value, and the allocation indication count information in the second control information is 1, transmit the information of the second physical channel in the first feedback time unit HARQ-ACK information, wherein the second control information is used to schedule transmission of the second physical channel, and m is a positive integer;

Or, receiving m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, the first control information corresponding to the m first physical channels In a case where the allocation indication count information is a first preset value, the HARQ-ACK information of the second physical channel of semi-persistent scheduling is transmitted through the first feedback time unit, and m is a positive integer.

A feedback module 2304, configured to receive m first physical channels and one second physical channel in the first candidate physical channel receiver group, and first control information corresponding to the m first physical channels In the case where at least one of the allocation indication count information in the allocation indication count information indicates 1, and the allocation indication count information in the second control information indicates 1, the first feedback time unit is used to transmit the The HARQ-ACK information of the second physical channel, wherein the second control information is used to schedule transmission of the second physical channel, and m is a positive integer;

Or, receiving m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, and the first control information corresponding to the m first physical channels In the case where at least one of the allocation indication count information in the allocation indication count information indicates 1, the terminal transmits the HARQ-ACK of the second physical channel of the semi-persistent scheduling in the first feedback time unit information, m is a positive integer.

At least one of the allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

Or, all the allocation indication count information in at least one of the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

Or, the allocation indication count information in the first control information corresponding to the m first physical channels includes at least two allocation indication count information, and the allocation indication count information used to indicate the first preset value is located in the An assignment of 1 indicates that the count information is preceded.

A receiving module 2302, configured to receive first control information, where the first control information is used to schedule transmission of the first physical channel, where the first control information carries a first information field;

Wherein, the first information field is used to indicate Type 3 HARQ-ACK feedback through the second preset value, or, the first information field is used to indicate not to perform Type 3 HARQ-ACK feedback through the third preset value .

The first information field is the oneshot HARQ-ACK feedback request information field in DCI format 1_1.

The type three HARQ-ACK codebook includes: HARQ-ACK information corresponding to all downlink HARQ processes on all configured carriers;

Or, HARQ-ACK information corresponding to all downlink HARQ processes on all activated carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all configured carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all activated carriers.

A feedback module 2304, configured to not expect the value of the first information field to indicate the second preset value;

Or, it is expected that the value of the first information field indicates the third preset value.

The feedback module 2304 is configured to receive the first physical channel in the first candidate physical channel receiver group, and the first candidate physical channel receiver group corresponds to the first feedback time unit; or,

The first physical channel is all received between two feedback time units.

The feedback module 2304 is configured to perform HARQ-ACK feedback according to the type-three HARQ-ACK codebook.

As shown schematically in FIG. 24 , an embodiment of the present application provides a device for receiving a HARQ-ACK codebook, and the device can be implemented as all or part of a network device. Or it can be applied in network equipment. The network device may be a network device supporting NTN. The unit includes:

A sending module 2402, configured to send a first physical channel, where the first physical channel corresponds to a first feedback time unit;

The receiving module 2404 is configured to determine whether to receive the HARQ-ACK information transmitted by the first feedback time unit according to the transmission situation of the first physical channel;

Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.

The HARQ process corresponding to the first state includes at least one of the following situations:

The HARQ process corresponds to a disabled state;

The HARQ process is configured to disable parameters;

The HARQ process does not correspond to HARQ-ACK feedback.

A receiving module 2404, configured to determine whether to receive HARQ-ACK information through the first feedback time unit according to the transmission situation of at least one of the first physical channels;

Or, according to the transmission situation of at least one of the first physical channels, determine the allocation indication count information in at least one control information, and determine whether to receive the HARQ-ACK information through the first feedback time unit;

Or, according to the transmission situation of at least one of the first physical channels and the transmission situation of at least one of the second physical channels, determine the allocation indication count information in at least one control information, and determine whether to pass the first feedback time unit receiving the HARQ-ACK information;

Wherein, the second physical channel does not include a physical channel corresponding to the HARQ process in the first state.

The sending module 2402 is configured to send the first physical channel in a first candidate physical channel receiver group, where the first candidate physical channel receiver group corresponds to the first feedback time unit.

A sending module 2402, configured to send first control information, where the first control information is used to schedule the transmission of the first physical channel, where the first control information carries the allocation indication count information, and the allocation indication count information indicates The first default value.

A sending module 2402, configured to send first control information, where the first control information is used to schedule the transmission of the first physical channel, where the first control information carries the allocation indication count information, and the allocation indication count information is used for Before determining the first control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit.

A sending module 2402, configured to send first control information, where the first control information is used to schedule transmission of the first physical channel, where the first control information carries the allocation indication count information;

Wherein, when the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is not 0 as of the first control information, the allocation indication count information is used to determine Control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time slot. When the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is 0 by the end of the first control information, the allocation indication count information indicates a first preset value.

The first preset value is 0; or, the first preset value is 2 to the power of n, where n is the number of bits of the allocation indication count information.

The receiving module 2404 is configured to not receive the HARQ-ACK information through the first feedback time unit when m pieces of the first physical channel are sent in the first candidate physical channel receiver group, m is positive integer.

A receiving module 2404, configured to determine the allocation indication in the first control information corresponding to the m first physical channels in the case that the m first physical channels are sent in the receiver group of the first candidate physical channels The counting information is the first preset value, and the HARQ-ACK information is not received through the first feedback time unit;

Or, in the case where m first physical channels and one piece of third control information are sent in the first candidate physical channel receiver group, determine the allocation indication in the first control information corresponding to the m first physical channels At least one of the allocation indication count information in the count information is a first preset value, the allocation indication count information in the third control information is determined to be 1, and the third control is received by the first feedback time unit The HARQ-ACK information of the information, the third control information is used to indicate the release of the semi-persistent scheduling physical channel configuration, and the semi-persistent scheduling physical channel corresponds to the first candidate physical channel receiver group.

A receiving module 2404, configured to determine first control information corresponding to m first physical channels in the case that m first physical channels and one second physical channel are sent in the first candidate physical channel receiver group In the case where at least one of the allocation indication count information in the allocation indication count information indicates 1, and receive the HARQ-ACK information of the second physical channel through the first feedback time unit;

Or, in the case where m first physical channels and one piece of third control information are sent in the first candidate physical channel receiver group, determine the first control information corresponding to the m first physical channels. At least one allocation indication count information in the allocation indication count information indicates 1, and the allocation indication count information in the received third control information is 1, and the third control information is received by the first feedback time unit HARQ-ACK information, the third control information is used to instruct release of the semi-persistent scheduling physical channel configuration, and the semi-persistent scheduling physical channel corresponds to the first candidate physical channel receiver group.

At least one of the allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

Or, all the allocation indication count information in at least one of the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

Or, the allocation indication count information in the first control information corresponding to the m first physical channels includes at least two allocation indication count information, and the allocation indication count information used to indicate the first preset value is located in the An assignment of 1 indicates that the count information is preceded.

The receiving module 2404 is configured to determine the first physical channel corresponding to the m first physical channels in the case that m first physical channels and one second physical channel are sent in the first candidate physical channel receiver group. The allocation indication count information in the control information is a first preset value, and when it is determined that the allocation indication count information in the second control information is 1, and the first feedback time unit is used to receive the second HARQ-ACK information of two physical channels;

Or, in the case of sending m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, determine the first physical channels corresponding to the m first physical channels The allocation indication count information in the control information is a first preset value, and the HARQ-ACK information of the second physical channel of the semi-persistent scheduling is received through the first feedback time unit.

The receiving module 2404 is configured to determine the first physical channel corresponding to the m first physical channels in the case that m first physical channels and one second physical channel are sent in the first candidate physical channel receiver group. At least one of the allocation indication count information in the control information is 1 and the allocation indication count information in the second control information is 1, and receiving the HARQ-ACK information of the second physical channel;

Or, in the case of sending m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, determine the first physical channels corresponding to the m first physical channels In the case where at least one of the allocation indication count information in the control information is 1, and the HARQ-ACK of the second physical channel of the semi-persistent scheduling is received through the first feedback time unit information.

A sending module 2402, configured to send first control information, where the first control information is used to schedule transmission of the first physical channel, where the first control information carries a first information field;

Wherein, the first information field is used to indicate Type 3 HARQ-ACK feedback through the second preset value, or, the first information field is used to indicate not to perform Type 3 HARQ-ACK feedback through the third preset value .

The first information field is the one shot HARQ-ACK feedback request information field in DCI format 1_1.

The type three HARQ-ACK codebook includes:

HARQ-ACK information corresponding to all downlink HARQ processes on all configured carriers;

Or, HARQ-ACK information corresponding to all downlink HARQ processes on all activated carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all configured carriers;

Or, the HARQ-ACK information corresponding to the enabled downlink HARQ processes on all activated carriers.

The network device does not set the value of the first information field to indicate the second preset value;

Or, the network device sets the value of the first information field to indicate the third preset value.

The sending module 2402 is configured to send the first physical channel in the first candidate physical channel receiver group, and the first candidate physical channel receiver group corresponds to the first feedback time unit.

The sending module 1502 is configured to send the first physical channel between two feedback time units.

FIG. 25 shows a schematic structural diagram of a communication device (terminal or network device) provided by an exemplary embodiment of the present application. The communication device includes: a processor 2501 , a receiver 2502 , a transmitter 2503 , a memory 2504 and a bus 2505 .

The processor 2501 includes one or more processing cores, and the processor 1601 executes various functional applications and information processing by running software programs and modules.

The receiver 2502 and the transmitter 2503 can be realized as a communication component, and the communication component can be a communication chip.

The memory 2504 is connected to the processor 2501 through the bus 2505 .

The memory 2504 can be used to store at least one instruction, and the processor 2501 is used to execute the at least one instruction, so as to implement the various steps of the reporting method and receiving method of timing advance in NTN mentioned in the above method embodiments.

In addition, the memory 2504 can be realized by any type of volatile or non-volatile storage device or their combination, volatile or non-volatile storage device includes but not limited to: magnetic disk or optical disk, electrically erasable and programmable Electrically-Erasable Programmable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory (EPROM), Static Random Access Memory (SRAM), Read-Only Memory (Read-Only Memory, ROM), magnetic memory, flash memory, programmable read-only memory (Programmable Read-Only Memory, PROM).

According to one aspect of the present application, a terminal is provided, the terminal includes a processor, a transceiver connected to the processor, and a memory for storing executable instructions of the processor, the processor is configured to load and execute the executable instructions In order to realize the feedback method of the above-mentioned HARQ-ACK information.

According to one aspect of the present application, a network device is provided, and the network device includes a processor, a transceiver connected to the processor, and a memory for storing executable instructions of the processor. Wherein, the processor is configured to load and execute executable instructions to implement the method for receiving the HARQ-ACK codebook as described above.

According to one aspect of the present application, a chip is provided, the chip includes a programmable logic circuit or program, and the chip is used to implement the above-mentioned HARQ-ACK information feedback method, or, the above-mentioned HARQ-ACK code The receiving method of this book.

In an exemplary embodiment of the present application, a computer-readable storage medium is also provided, wherein executable instructions are stored in the readable storage medium, and the executable instructions are loaded and executed by the processor to implement The method for feeding back the HARQ-ACK information as described above, or the method for receiving the HARQ-ACK codebook as described above.

In an exemplary embodiment of the present application, a computer program product is also provided, wherein executable instructions are stored in the computer program product, and the executable instructions are loaded and executed by the processor to implement the above-mentioned The method for feeding back the HARQ-ACK information, or the method for receiving the HARQ-ACK codebook as described above.

Those of ordinary skill in the art can understand that all or part of the steps for implementing the above embodiments can be completed by hardware, and can also be completed by instructing related hardware through a program. The program can be stored in a computer-readable storage medium. The above-mentioned The storage medium mentioned may be a read-only memory, a magnetic disk or an optical disk, and the like.

The above are only optional embodiments of the application, and are not intended to limit the application. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the application shall be included in the protection of the application. within range.

Claims (47)

1. A feedback method for HARQ-ACK information, characterized in that the method comprises:

   The terminal receives a first physical channel, where the first physical channel corresponds to a first feedback time unit;

   The terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the reception condition of the first physical channel;

   Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.
2. The method according to claim 1, wherein the HARQ process corresponding to the first state includes at least one of the following situations:

   The HARQ process corresponds to a disabled state;

   The HARQ process is configured to disable parameters;

   The HARQ process does not correspond to HARQ-ACK feedback.
3. The method according to claim 1 or 2, wherein the terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the receiving condition of the first physical channel, including:

   The terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the reception situation of at least one of the first physical channels;

   or,

   The terminal determines whether to transmit the HARQ-ACK information through the first feedback time unit according to the reception status of at least one of the first physical channels and the allocation indication count information in at least one control information;

   or,

   The terminal determines whether to transmit through the first feedback time unit according to the reception status of at least one of the first physical channels, the reception status of at least one of the second physical channels, and the allocation indication count information in at least one control information. The HARQ-ACK information;

   Wherein, the second physical channel does not include a physical channel corresponding to the HARQ process in the first state.
4. The method according to any one of claims 1 to 3, wherein the terminal receiving the first physical channel comprises:

   The terminal receives the first physical channel in a first candidate physical channel receiver set, where the first candidate physical channel receiver set corresponds to the first feedback time unit.
5. The method according to claim 4, characterized in that the method further comprises:

   The terminal receives first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information, and the allocation indication count information indicates the first scheduled set value.
6. The method according to claim 4, characterized in that the method further comprises:

   The terminal receives first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information, and the allocation indication count information is used to determine the deadline Up to the first control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit.
7. The method according to claim 4, characterized in that the method further comprises:

   The terminal receives first control information, the first control information is used to schedule the transmission of the first physical channel, and the first control information carries the allocation indication count information;

   Wherein, when the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is not 0 as of the first control information, the allocation indication count information is used to determine Control information, the number of bits of HARQ-ACK information to be fed back in the first feedback time unit;

   When the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is 0 by the end of the first control information, the allocation indication count information indicates a first preset value.
8. The method according to claim 5 or 7, characterized in that,

   The first preset value is 0; or,

   The first preset value is 2 raised to the power of n, and n is the number of bits of the allocation indication count information.
9. The method according to claim 4, characterized in that the method further comprises:

   The terminal receives first control information, the first control information is used to schedule the transmission of the first physical channel, and the first control information carries the allocation indication count information;

   The terminal ignores the allocation indication count information.
10. The method according to any one of claims 4 to 9, wherein the terminal determines whether to transmit HARQ-ACK information through the first feedback time unit according to the reception condition of at least one of the first physical channels, including :

    When the terminal receives only m first physical channels in the first candidate physical channel receiver group, the terminal does not transmit the HARQ-ACK information through the first feedback time unit , m is a positive integer.
11. The method according to claim 5, wherein the terminal determines whether to pass the first feedback time unit according to the reception condition of at least one of the first physical channels and the allocation indication count information in at least one control information transmitting the HARQ-ACK information, including:

    When the terminal receives only m first physical channels in the first candidate physical channel receiver group, and the allocation indication count in the first control information corresponding to the m first physical channels When the information is all the first preset value, the terminal does not transmit the HARQ-ACK information through the first feedback time unit;

    Or, after the terminal receives m first physical channels in the first candidate physical channel receiver group, and the m first physical channels correspond to the first control information, the When at least one of the allocation indication count information in the allocation indication count information is a first preset value, and the allocation indication count information in the received third control information is 1, the terminal uses the first One feedback time unit transmits the HARQ-ACK information of the third control information, the third control information is used to indicate the release of the physical channel configuration of the semi-persistent scheduling, and the physical channel of the semi-persistent scheduling corresponds to the first candidate physical channel A channel receiver group, where m is a positive integer.
12. The method according to claim 6 or 7, wherein the terminal determines whether to pass the first feedback according to the reception condition of at least one of the first physical channels and the allocation indication count information in at least one control information. The time unit transmits the HARQ-ACK information, including:

    When the terminal receives only m first physical channels in the first candidate physical channel receiver group, and the allocation in the first control information corresponding to the m first physical channels When at least one of the allocation indication count information in the indication count information indicates 1, the terminal transmits HARQ-ACK information of a physical channel through the first feedback time unit, and m is a positive integer;

    or,

    After the terminal receives m first physical channels in the first candidate physical channel receiver group, and the allocation indication in the first control information corresponding to the m first physical channels When at least one of the allocation indication count information in the count information indicates 1, and the allocation indication count information in the received third control information is 1, the terminal transmits the allocation indication count information in the first feedback time unit The HARQ-ACK information of the third control information, the third control information is used to indicate the release of the physical channel configuration of the semi-persistent scheduling, the physical channel of the semi-persistent scheduling corresponds to the first candidate physical channel receiver opportunity group, m is a positive integer.
13. The method according to claim 5, wherein the terminal counts according to the receiving condition of at least one of the first physical channels, the receiving condition of at least one of the second physical channels, and the allocation indication in at least one control information information, determining whether to transmit the HARQ-ACK information through the first feedback time unit, including:

    When the terminal receives m first physical channels and one second physical channel in the first candidate physical channel receiver group, the first control corresponding to m first physical channels If the allocation indication count information in the information is a first preset value, and the allocation indication count information in the second control information is 1, the terminal transmits the allocation indication count information in the first feedback time unit HARQ-ACK information of the second physical channel, where the second control information is used to schedule the transmission of the second physical channel, and m is a positive integer;

    or,

    When the terminal receives m first physical channels and a semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, all the m first physical channels correspond to In the case where the allocation indication count information in the first control information is a first preset value, the terminal transmits the HARQ-ACK of the second physical channel of the semi-persistent scheduling through the first feedback time unit information, m is a positive integer.
14. The method according to claim 6 or 7, wherein the terminal is based on the receiving condition of at least one of the first physical channels, the receiving condition of one of the second physical channels, and at least one allocation indication in the control information Counting information, determining whether to transmit the HARQ-ACK information through the first feedback time unit, including:

    When the terminal receives m first physical channels and one second physical channel in the first candidate physical channel receiver group, and the first physical channels corresponding to m first physical channels When at least one of the allocation indication count information in the control information indicates 1, and the allocation indication count information in the second control information indicates 1, the terminal passes the first The feedback time unit transmits the HARQ-ACK information of the second physical channel, where the second control information is used to schedule the transmission of the second physical channel, and m is a positive integer;

    or,

    After the terminal receives m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, and the m first physical channels correspond to In the case where at least one of the allocation indication count information in the first control information indicates 1, the terminal transmits the second semi-persistent scheduling in the first feedback time unit. HARQ-ACK information of the physical channel, m is a positive integer.
15. The method according to claim 12 or 14, characterized in that,

    At least one of the allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

    or,

    At least one of the allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

    or,

    The allocation indication count information in the first control information corresponding to the m first physical channels includes at least two allocation indication count information, and the allocation indication count information used to indicate the first preset value is located in the Before the allocation indication count information indicating 1.
16. The method according to any one of claims 1 to 4, wherein the method further comprises:

    The terminal receives first control information, the first control information is used to schedule the transmission of the first physical channel, and the first control information carries a first information field;

    Wherein, the first information field is used to indicate Type 3 HARQ-ACK feedback through the second preset value, or, the first information field is used to indicate not to perform Type 3 HARQ-ACK feedback through the third preset value .
17. The method according to claim 16, wherein the first information field is a oneshotHARQ-ACK feedback request information field in DCI format 1_1.
18. The method according to claim 16 or 17, wherein the type three HARQ-ACK codebook comprises:

    HARQ-ACK information corresponding to all downlink HARQ processes on all configured carriers;

    or,

    HARQ-ACK information corresponding to all downlink HARQ processes on all activated carriers;

    or,

    HARQ-ACK information corresponding to the enabled downlink HARQ processes on all configured carriers;

    or,

    HARQ-ACK information corresponding to the enabled downlink HARQ processes on all activated carriers.
19. The method according to any one of claims 16 to 18, wherein when any of the first physical channels is received or the received physical channels are all the first physical channels, the method further includes :

    The terminal does not expect the value of the first information field to indicate the second preset value;

    or,

    The terminal expects that the value of the first information field indicates the third preset value.
20. The method according to claim 19, wherein the case where the received physical channels are all the first physical channels includes:

    All received in the first candidate physical channel receiver group are the first physical channels, and the first candidate physical channel receiver group corresponds to the first feedback time unit; or,

    The first physical channel is all received between two feedback time units.
21. The method according to any one of claims 16 to 18, wherein the first information field is used to indicate Type 3 HARQ-ACK feedback through a second preset value, and the method further includes:

    The terminal performs HARQ-ACK feedback according to the type-3 HARQ-ACK codebook.
22. A method for receiving a HARQ-ACK codebook, characterized in that the method comprises:

    The network device sends a first physical channel, where the first physical channel corresponds to a first feedback time unit;

    The network device determines whether to receive the first feedback time unit to transmit HARQ-ACK information according to the transmission situation of the first physical channel;

    Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.
23. The method according to claim 22, wherein the HARQ process corresponding to the first state includes at least one of the following situations:

    The HARQ process corresponds to a disabled state;

    The HARQ process is configured to disable parameters;

    The HARQ process does not correspond to HARQ-ACK feedback.
24. The method according to claim 22 or 23, wherein the network device determines whether to receive HARQ-ACK information through the first feedback time unit according to the transmission situation of the first physical channel, including:

    The network device determines whether to receive HARQ-ACK information through the first feedback time unit according to the transmission situation of at least one of the first physical channels;

    or,

    The network device determines, according to the transmission situation of at least one of the first physical channels, allocation indication count information in at least one control information, and determines whether to receive the HARQ-ACK information through the first feedback time unit;

    or,

    The network device determines, according to the transmission situation of at least one of the first physical channels and the transmission situation of at least one of the second physical channels, the allocation indication count information in at least one control information, and determines whether to pass the first feedback The time unit receives the HARQ-ACK information;

    Wherein, the second physical channel does not include a physical channel corresponding to the HARQ process in the first state.
25. The method according to any one of claims 22 to 24, wherein the network device sending the first physical channel includes:

    The network device sends the first physical channel in a first candidate physical channel receiver set, where the first candidate physical channel receiver set corresponds to the first feedback time unit.
26. The method according to claim 25, further comprising:

    The network device sends first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information, and the allocation indication count information indicates the first default value.
27. The method according to claim 25, further comprising:

    The network device sends first control information, the first control information is used to schedule the transmission of the first physical channel, the first control information carries the allocation indication count information, and the allocation indication count information is used to determine By the end of the first control information, the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit.
28. The method according to claim 25, further comprising:

    The network device sends first control information, where the first control information is used to schedule transmission of the first physical channel, where the first control information carries the allocation indication count information;

    Wherein, when the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is not 0 as of the first control information, the allocation indication count information is used to determine Control information, the number of bits of HARQ-ACK information to be fed back in the first feedback time unit;

    When the number of bits of the HARQ-ACK information to be fed back in the first feedback time unit is 0 by the end of the first control information, the allocation indication count information indicates a first preset value.
29. A method according to claim 26 or 28, wherein,

    The first preset value is 0; or,

    The first preset value is 2 raised to the power of n, and n is the number of bits of the allocation indication count information.
30. The method according to any one of claims 25 to 29, wherein the network device determines whether to receive HARQ-ACK information through the first feedback time unit only according to the transmission situation of at least one of the first physical channels ,include:

    In the case where the network device sends m first physical channels in the first candidate physical channel receiver group, the network device determines not to receive the HARQ-ACK through the first feedback time unit information, m is a positive integer.
31. The method according to claim 26, wherein the network device determines, according to the transmission situation of at least one of the first physical channels, the allocation indication count information in at least one control information, and determines whether to pass the first feedback The time unit receives the HARQ-ACK information, including:

    In the case where the network device sends m first physical channels in the first candidate physical channel receiver group, determine allocations in the first control information corresponding to the m first physical channels indicating that the count information is the first preset value, and determining not to receive the HARQ-ACK information through the first feedback time unit;

    or,

    When the network device sends m first physical channels and one piece of third control information in the first candidate physical channel receiver group, determine the m first physical channels corresponding to the At least one of the allocation indication count information in the first control information is a first preset value, and it is determined that the allocation indication count information in the third control information is 1, and by The first feedback time unit receives the HARQ-ACK information of the third control information, where the third control information is used to indicate the release of the physical channel configuration of the semi-persistent scheduling, and the physical channel of the semi-persistent scheduling corresponds to the first A candidate physical channel receiver group, m is a positive integer.
32. The method according to claim 27 or 28, wherein the network device determines, according to the transmission situation of at least one of the first physical channels, the allocation indicator count information in at least one control information, and determines whether to pass the The first feedback time unit receives the HARQ-ACK information, including:

    In the case where the network device sends m first physical channels and one second physical channel in the first candidate physical channel receiver group, determine the first physical channel corresponding to the m first physical channels At least one of the allocation indication count information in the control information indicates 1, and the HARQ-ACK information of the second physical channel is received through the first feedback time unit, m is a positive integer ;

    or,

    In the case where the network device sends m first physical channels and one piece of third control information in the first candidate physical channel receiver group, determine the m first physical channels corresponding to the At least one of the allocation indication count information in the allocation indication count information in the first control information indicates 1, determine that the allocation indication count information in the third control information is 1, and pass the first feedback time unit receiving HARQ-ACK information of the third control information, where the third control information is used to indicate the release of the physical channel configuration of the semi-persistent scheduling, and the physical channel of the semi-persistent scheduling corresponds to the first candidate physical channel receiver opportunity group , m is a positive integer.
33. The method according to claim 26, wherein the network device determines the allocation in at least one control information according to the transmission situation of at least one of the first physical channels and the transmission situation of at least one of the second physical channels Indicating count information, and determining whether to receive the HARQ-ACK information through the first feedback time unit, including:

    In the case where the network device sends m first physical channels and one second physical channel in the first candidate physical channel receiver group, determine all the m first physical channels corresponding to The allocation indication count information in the first control information is a first preset value, the allocation indication count information in the second control information is determined to be 1, and the first feedback time unit is used to receive the first HARQ-ACK information of two physical channels, m is a positive integer;

    or,

    In the case where the network device sends m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, determine m first physical channels The allocation indication count information in the first control information corresponding to the channel is a first preset value, and the HARQ-ACK information of the second physical channel of the semi-persistent scheduling is received through the first feedback time unit , m is a positive integer.
34. The method according to claim 27 or 28, wherein the network device determines at least one of the control information according to the transmission situation of at least one of the first physical channels and the transmission situation of at least one of the second physical channels. The allocation indication count information, and determining whether to receive the HARQ-ACK information through the first feedback time unit, includes:

    In the case where the network device sends m first physical channels and one second physical channel in the first candidate physical channel receiver group, determine all the m first physical channels corresponding to At least one of the allocation indication count information in the allocation indication count information in the first control information indicates 1, determine that the allocation indication count information in the second control information indicates 1, and pass the first feedback time The unit receives the HARQ-ACK information of the second physical channel, where the second control information is used to schedule the transmission of the second physical channel, and m is a positive integer;

    or,

    In the case where the network device sends m first physical channels and one semi-persistently scheduled second physical channel in the first candidate physical channel receiver group, determine m first physical channels At least one of the allocation indication count information in the first control information corresponding to the channel indicates 1, and the second physical channel receiving semi-persistent scheduling through the first feedback time unit HARQ-ACK information, m is a positive integer.
35. A method according to claim 32 or 34, wherein,

    At least one of the allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

    or,

    At least one of the allocation indication count information in the allocation indication count information in the first control information corresponding to the m first physical channels indicates 1;

    or,

    The allocation indication count information in the first control information corresponding to the m first physical channels includes at least two allocation indication count information, and the allocation indication count information used to indicate the first preset value is located in the Before the allocation indication count information indicating 1.
36. The method according to any one of claims 22 to 25, further comprising:

    The network device sends first control information, where the first control information is used to schedule transmission of the first physical channel, and the first control information carries a first information field;

    Wherein, the first information field is used to indicate Type 3 HARQ-ACK feedback through the second preset value, or, the first information field is used to indicate not to perform Type 3 HARQ-ACK feedback through the third preset value .
37. The method according to claim 36, wherein the first information field is the oneshot HARQ-ACK feedback request information field in DCI format 1_1.
38. The method according to claim 36 or 37, wherein the type three HARQ-ACK codebook comprises:

    HARQ-ACK information corresponding to all downlink HARQ processes on all configured carriers;

    or,

    HARQ-ACK information corresponding to all downlink HARQ processes on all activated carriers;

    or,

    HARQ-ACK information corresponding to the enabled downlink HARQ processes on all configured carriers;

    or,

    HARQ-ACK information corresponding to the enabled downlink HARQ processes on all activated carriers.
39. The method according to any one of claims 36 to 38, wherein, in the case of sending any of the first physical channels or the sent physical channels are all the first physical channels, the method further comprises:

    The network device does not set the value of the first information field to indicate the second preset value;

    or,

    The network device sets the value of the first information field to indicate the third preset value.
40. The method according to claim 39, wherein the sent physical channels are all the first physical channels, including:

    The first physical channel is sent in the first candidate physical channel receiver group, and the first candidate physical channel receiver group corresponds to the first feedback time unit; or,

    The first physical channel is all sent between two feedback time units.
41. The method according to any one of claims 36 to 38, wherein the first information field is used to indicate Type 3 HARQ-ACK feedback through a second preset value, and the method further includes:

    The network device receives HARQ-ACK feedback according to the type-three HARQ-ACK codebook.
42. A device for feedbacking HARQ-ACK information, characterized in that the device includes:

    A receiving module, configured to receive at least one first physical channel, the first physical channel corresponding to the first feedback time unit;

    A feedback module, configured to determine whether to transmit HARQ-ACK information through the first feedback time unit according to the reception situation of at least one of the first physical channels;

    Wherein, the first physical channel includes a physical channel associated with a HARQ process corresponding to the first state.
43. A receiving device for a HARQ-ACK codebook, characterized in that the device includes:

    A sending module, configured to send a first physical channel, where the first physical channel corresponds to a first feedback time unit;

    A receiving module, configured to determine whether to receive hybrid HARQ-ACK information transmitted in the first feedback time unit according to the receiving situation of the first physical channel;

    Wherein, the first physical channel includes a physical channel corresponding to a hybrid automatic repeat request HARQ process in the first state.
44. A terminal, characterized in that the terminal includes a processor, a transceiver connected to the processor, and a memory for storing executable instructions of the processor, and the processor is configured to load and execute the The executable instructions are used to realize the HARQ-ACK information feedback method according to any one of claims 1 to 21.
45. A network device, characterized in that the network device includes: a processor, a transceiver connected to the processor, and a memory for storing executable instructions of the processor, and the processor is configured to load And execute the executable instructions to realize the method for receiving the HARQ-ACK codebook according to any one of claims 22 to 41.
46. A computer-readable storage medium, characterized in that executable instructions are stored in the readable storage medium, and the executable instructions are loaded and executed by the processor to implement any one of claims 1 to 21. The method for feeding back HARQ-ACK information, or the method for receiving a HARQ-ACK codebook according to any one of claims 22 to 41.
47. A computer program product, characterized in that executable instructions are stored in the computer program product, and the executable instructions are loaded and executed by the processor to implement the HARQ- A method for feeding back ACK information, or a method for receiving a HARQ-ACK codebook according to any one of claims 22 to 41.

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