CN116830737A - Information transmission method and device - Google Patents

Abstract

The embodiment of the disclosure discloses an information transmission method and device, which can be applied to the technical field of communication, wherein the method executed by a terminal comprises the following steps: and sending first information TO the network equipment on a first resource, wherein the first information is used for indicating the use state of a transmission opportunity TO configured TO the terminal by the network equipment in a first time window, and a first interval between the first resource and the TO indicated by the first information is not smaller than a first interval threshold value, or a second interval between the first resource and the first time window is not smaller than a second interval threshold value. Therefore, the terminal sends the use state of the TO meeting the interval threshold TO the network equipment, so that the network equipment can have enough time for resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

Description

Information transmission method and device

Technical Field

The disclosure relates to the field of communication technologies, and in particular, to an information transmission method and device.

Background

Currently, in the period of uplink unlicensed transmission, a network device allocates resources for a terminal. In order to increase the throughput of the communication system, the network device may be allocated to a specific terminal, but the unused resources of that terminal may be reallocated to other terminals or to that terminal. But the network device needs enough time to schedule the resources after acquiring the unused resources of the terminal, otherwise, the unused resources of the terminal cannot be reused in time.

Disclosure of Invention

The embodiment of the disclosure provides an information transmission method and device, a terminal may send first information TO a network device on a first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured TO the terminal by the network device in a first time window, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the terminal sends the use state of the TO meeting the interval threshold TO the network equipment, so that the network equipment can have enough time for resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

In a first aspect, first information is sent TO a network device on a first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured TO the terminal by the network device in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

In a second aspect, first information sent by a terminal on a first resource is received, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

In a third aspect, an embodiment of the present disclosure provides a communication device, where the communication device has a function of implementing part or all of the functions of the terminal in the method described in the first aspect, for example, the function of the communication device may be provided with a function in part or all of the embodiments of the present disclosure, or may be provided with a function of implementing any one of the embodiments of the present disclosure separately. The functions may be implemented by hardware, or may be implemented by hardware executing corresponding software. The hardware or software includes one or more units or modules corresponding to the functions described above.

In one implementation, the communication device may include a transceiver module and a processing module in a structure configured to support the communication device to perform the corresponding functions in the method. The transceiver module is used for supporting communication between the communication device and other equipment.

The communication device may further comprise a memory module for coupling with the transceiver module and the processing module, which holds the necessary computer programs and data of the communication device.

In one implementation, the communication device includes:

the transceiver module is configured TO send first information TO the network device on a first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured TO the terminal by the network device in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

In a fourth aspect, an embodiment of the present disclosure provides another communications apparatus having a function of implementing part or all of the network device in the method example described in the second aspect, for example, a function of the communications apparatus may be provided with a function in part or all of the embodiments of the present disclosure, or may be provided with a function of implementing any one of the embodiments of the present disclosure separately. The functions may be implemented by hardware, or may be implemented by hardware executing corresponding software. The hardware or software includes one or more units or modules corresponding to the functions described above.

In one implementation, the communication device may include a transceiver module and a processing module in a structure configured to support the communication device to perform the corresponding functions of the method. The transceiver module is used for supporting communication between the communication device and other equipment. The communication device may further comprise a memory module for coupling with the transceiver module and the processing module, which holds the necessary computer programs and data of the communication device.

In one implementation, the communication device includes:

the receiving and transmitting module is used for receiving first information sent by a terminal on a first resource, wherein the first information is used for indicating the use state of the terminal for the transmission time TO in a first time window, and a first interval between the first resource and the TO indicated by the first information is not smaller than a first interval threshold value, or a second interval between the first resource and the first time window is not smaller than a second interval threshold value.

In a fifth aspect, embodiments of the present disclosure provide a communication device comprising a processor, which when invoking a computer program in memory, performs the method of the first aspect described above.

In a sixth aspect, embodiments of the present disclosure provide a communication device comprising a processor that, when invoking a computer program in memory, performs the method of the second aspect described above.

In a seventh aspect, embodiments of the present disclosure provide a communication apparatus comprising a processor and a memory, the memory having a computer program stored therein; the processor executes the computer program stored in the memory to cause the communication device to perform the method of the first aspect described above.

In an eighth aspect, embodiments of the present disclosure provide a communication apparatus comprising a processor and a memory, the memory having a computer program stored therein; the processor executes the computer program stored in the memory to cause the communication device to perform the method of the second aspect described above.

In a ninth aspect, embodiments of the present disclosure provide a communications apparatus comprising a processor and interface circuitry for receiving code instructions and transmitting to the processor, the processor being configured to execute the code instructions to cause the apparatus to perform the method of the first aspect described above.

In a tenth aspect, embodiments of the present disclosure provide a communications device comprising a processor and interface circuitry for receiving code instructions and transmitting to the processor, the processor being configured to execute the code instructions to cause the device to perform the method of the second aspect described above.

In an eleventh aspect, embodiments of the present disclosure provide a communication system, which includes the communication apparatuses of the third aspect to the fourth aspect, or includes the communication apparatuses of the fifth aspect to the sixth aspect, or includes the communication apparatuses of the seventh aspect to the eighth aspect, or includes the communication apparatuses of the ninth aspect to the tenth aspect.

In a twelfth aspect, an embodiment of the present invention provides a computer readable storage medium, configured to store instructions for use by the receiving end, where the instructions, when executed, cause the receiving end to perform the method according to the first aspect.

In a thirteenth aspect, an embodiment of the present invention provides a readable storage medium, configured to store instructions for use by the transmitting end, where the instructions, when executed, cause the transmitting end to perform the method according to the second aspect.

In a fourteenth aspect, the present disclosure also provides a computer program product comprising a computer program which, when run on a computer, causes the computer to perform the method of the first aspect described above.

In a fifteenth aspect, the present disclosure also provides a computer program product comprising a computer program which, when run on a computer, causes the computer to perform the method of the second aspect described above.

In a sixteenth aspect, the present disclosure provides a chip system comprising at least one processor and an interface for supporting a receiving end to implement the functionality referred to in the first aspect, e.g. to determine or process at least one of data and information referred to in the above-mentioned method. In one possible design, the system-on-chip further includes a memory for storing computer programs and data necessary for the receiving end. The chip system can be composed of chips, and can also comprise chips and other discrete devices.

In a seventeenth aspect, the present disclosure provides a chip system comprising at least one processor and an interface for supporting a transmitting end to implement the functionality involved in the second aspect, e.g. to determine or process at least one of data and information involved in the above-described method. In one possible design, the chip system further includes a memory for storing computer programs and data necessary for the transmitting end. The chip system can be composed of chips, and can also comprise chips and other discrete devices.

In an eighteenth aspect, the present disclosure provides a computer program which, when run on a computer, causes the computer to perform the method of the first aspect described above.

In a nineteenth aspect, the present disclosure provides a computer program which, when run on a computer, causes the computer to perform the method of the second aspect described above.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the background of the present disclosure, the following description will explain the drawings that are required to be used in the embodiments or the background of the present disclosure.

Fig. 1 is a schematic architecture diagram of a communication system provided by the present disclosure;

fig. 2 is an interaction schematic diagram of an information transmission method according to an embodiment of the disclosure

FIG. 3 is a flow chart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 4 is a flow chart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 4A is a schematic illustration of another first spacing provided by an embodiment of the present disclosure;

FIG. 4B is a schematic illustration of another first spacing provided by an embodiment of the present disclosure;

FIG. 4C is a schematic illustration of another second spacing provided by embodiments of the present disclosure;

FIG. 5 is a flow chart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 5A is a schematic illustration of another first spacing provided by an embodiment of the present disclosure;

FIG. 5B is a schematic illustration of another first spacing provided by an embodiment of the present disclosure;

FIG. 5C is a schematic illustration of another second spacing provided by embodiments of the present disclosure;

FIG. 6 is a flow chart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 6A is a schematic illustration of another first spacing provided by an embodiment of the present disclosure;

FIG. 6B is a schematic illustration of another first interval provided by an embodiment of the present disclosure;

FIG. 6C is a schematic illustration of another second spacing provided by embodiments of the present disclosure;

FIG. 7 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 8 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

fig. 9 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 10 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 11 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 12 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 13 is a flowchart of another information transmission method provided by an embodiment of the present disclosure;

FIG. 14 is a flow chart of another information transmission method provided by an embodiment of the present disclosure;

fig. 15 is a block diagram of a communication device provided by an embodiment of the present disclosure;

Fig. 16 is a block diagram of another communication device provided by an embodiment of the present disclosure;

fig. 17 is a schematic structural diagram of a chip according to an embodiment of the disclosure.

Detailed Description

In order to facilitate understanding of the technical solutions of the present disclosure, some terms related to the embodiments of the present disclosure are briefly described below.

1. Transmission opportunity (transmission occasion, TO)

The TO may allocate resources TO the terminal for the network device, including at least one of time domain resources, frequency domain resources, time-frequency resources, and the like, so that the terminal may perform uplink transmission on the resources allocated by the network device for the TO. In addition, the TO may also be a resource occupied by a Configured Grant (CG) physical uplink shared channel (physical uplink shared channel, PUSCH) in the transmission opportunity, including at least one of a time domain resource, a frequency domain resource, a time-frequency resource, and the like.

The resources occupied by the CG PUSCH are resources allocated to the terminal by the network device.

2. Usage status of TO

The usage status of TO may be used TO indicate the usage status of a transmission occasion (i.e. the transmission occasion is understood as a resource) and may also be used TO indicate the usage status of a resource corresponding TO the transmission occasion.

The usage status may include two kinds, one is unused (unused), which may be called usable, and the other is used (used), which may be called unusable. The terminal will not use the "used" status TO, or the terminal will not use the "used" status TO before the dynamic indication information is updated, which can be subsequently used by other terminals or can be reassigned TO the terminal by the network device. The terminal may not use the TO in the "used" state.

3. Uplink control information (Uplink Control Information, UCI)

The terminal may notify the network device of the usage status of the TO, for example, through UCI, where UCI may be newly defined UCI (for example, UCI with a newly defined format, or newly named UCI, etc.), or CGUCI, and is carried by CG PUSCH, or Dynamic Grant (DG) PUSCH, and transmitted in any one or several TO. DG PUSCH is PUSCH scheduled by a terminal transmitting UCI. The terminal may inform the network device whether TO use the TO itself, e.g., using TO means that the terminal transmits PUSCH in the TO, and not using TO means that the terminal does not transmit PUSCH in the TO.

4. Physical uplink control channel (physical uplink control channel, PUCCH)

The PUCCH mainly carries control information of physical layers such as response information and request information of the terminal TO the network device, and in the present disclosure, the PUCCH may be used TO carry a usage state of the TO configured by the terminal for the network device.

In order to better understand an information transmission method and apparatus disclosed in an embodiment of the present disclosure, a description is first given below of a communication system to which the embodiment of the present disclosure is applicable.

Referring to fig. 1, fig. 1 is a schematic architecture diagram of a communication system according to an embodiment of the disclosure. The communication system may include, but is not limited to, a network device, a terminal, and the number and form of devices shown in fig. 1 are only for example and not meant to limit the embodiments of the present disclosure, and in practical applications, two or more network devices, two or more terminals may be included. The communication system shown in fig. 1 may include a network device 101 and a terminal 102.

It should be noted that the technical solution of the embodiment of the present disclosure may be applied to various communication systems. For example: long term evolution (long term system), or other future new mobile communication systems, etc.

The network device 101 in the embodiment of the disclosure is an entity on the network side for transmitting or receiving signals, and is used for communicating with a terminal, where the network device 101 may be a base station (base transceiver station, BTS) in a global system for mobile communications (global system for mobile communications, GSM) or code division multiple access (code division multiple access, CDMA), a base station B (nodeB, NB) in a wideband code division multiple access (wideband code division multiple access, WCDMA) system, an evolved nodeB (eNB or eNodeB) in an LTE system, a wireless controller in a cloud wireless access network (cloud radio access network, CRAN) scenario, a wireless network controller (radio network controller, RNC), a base station controller (base station controller, BSC), a home base station (e.g., home evolved nodeB, or home nodeB, HNB), a baseband unit (BBU), or the network device may be a relay station, an access point, a wearable device, a network device in a future evolved network or a network device in a PLMN network, a relay point, a point (WLAN), a point (37 access point, a point of transmission, or the like, a wireless access point (37 TP, or a wireless access point, or a wireless access point)

(transmission and reception point, TRP) may be a gNB or a transmission point (TRP or TP) in a new radio system (NR), or one or a group of base stations (including multiple antenna panels) in a 5G system, or may also be a network node, such as a baseband unit (BBU), or a Distributed Unit (DU), which forms a gNB or a transmission point, and the embodiment of the disclosure does not limit the specific technology and the specific device configuration adopted by the network side device. The network side device provided in the embodiments of the present disclosure may be composed of a Central Unit (CU) and a Distributed Unit (DU), where the CU may also be referred to as a control unit (control unit), and the network side device, for example, a protocol layer of the network side device, may be split by adopting a CU-DU structure, functions of a part of the protocol layer are placed in the CU for centralized control, and functions of the rest part or all of the protocol layers are distributed in the DU, and the DU is centrally controlled by the CU.

The terminal 102 in the embodiments of the present disclosure may be a device that provides voice/data connectivity to a user, e.g., a handheld device with wireless connectivity, an in-vehicle device, etc. Examples of some terminals are: a mobile phone, a tablet, a laptop, a palmtop, a mobile internet device (mobile internet device, MID), a wearable device, a Virtual Reality (VR) device, an augmented reality (augmented reality, AR) device, a wireless terminal in industrial control (industrial control), a wireless terminal in unmanned (self driving), a wireless terminal in teleoperation (remote medical surgery), a wireless terminal in smart grid (smart grid), a wireless terminal in transportation security (transportation safety), a wireless terminal in smart city (smart city), a wireless terminal in smart home (smart home), a cellular phone, a cordless phone, a session initiation protocol (session initiation protocol, SIP) phone, a wireless local loop (wireless local loop, WLL) station, a personal digital assistant (personal digital assistant, PDA), a handheld device with wireless communication functionality, a computing device or other processing device connected to a wireless modem, a vehicle-mounted device, a wearable device, a terminal in future land-based or evolved mobile communication (public land mobile network) in a future network or a public land mobile communication system is not defined for this communication or any other public communication system.

The wearable device can also be called as a wearable intelligent device, and is a generic name for intelligently designing daily wearing and developing wearable devices by applying a wearable technology, such as glasses, hands, watches, clothes, shoes and the like. The wearable device is a portable device that is worn directly on the body or integrated into the clothing or accessories of the user. The wearable device is not only a hardware device, but also can realize a powerful function through software support, data interaction and cloud interaction. The generalized wearable intelligent device includes full functionality, large size, and may not rely on the smart phone to implement complete or partial functionality, such as: smart watches or smart glasses, etc., and focus on only certain types of application functions, and need to be used in combination with other devices, such as smart phones, for example, various smart bracelets, smart jewelry, etc. for physical sign monitoring.

In addition, in the embodiment of the present disclosure, the terminal 102 may also be a terminal in an internet of things system, where IoT (Internet of Things ) is an important component of future information technology development, and the main technical feature is to connect an article with a network through a communication technology, so as to implement man-machine interconnection and an intelligent network of internet of things.

In addition, in the embodiment of the present disclosure, the terminal 102 may further include sensors such as an intelligent printer, a train detector, and a gas station, and the main functions include collecting data (part of the terminal), receiving control information and downlink data of the network side device, and transmitting electromagnetic waves to the network side device to transmit uplink data.

It should be noted that the technical solution of the embodiment of the present disclosure may be applied to various communication systems. For example: a long term evolution (long term evolution, LTE) system, a fifth generation (5th generation,5G) mobile communication system, a 5G New Radio (NR) system, or other future new mobile communication systems, etc.

The terminal 102 provided in the embodiments of the present disclosure may perform the methods shown in the embodiments of fig. 3 to 8, and the network device 101 may perform the methods shown in the embodiments of fig. 9 to 14.

It may be understood that, the communication system described in the embodiments of the present disclosure is for more clearly describing the technical solutions of the embodiments of the present disclosure, and is not limited to the technical solutions provided in the embodiments of the present disclosure, and those skilled in the art can know that, with the evolution of the system architecture and the appearance of new service scenarios, the technical solutions provided in the embodiments of the present disclosure are equally applicable to similar technical problems.

Further, in order to facilitate understanding of the embodiments of the present disclosure, the following description is made.

First, second, and various numerical numbers in the present disclosure are merely for ease of description and are not intended to limit the scope of the embodiments of the present disclosure. E.g. to distinguish different information, to distinguish different intervals, to distinguish different time slots, etc.

Second, the "protocol" referred to in the embodiments of the present disclosure may refer to a standard protocol in the field of communications, and may include, for example, an LTE protocol, an NR protocol, and related protocols applied in future communication systems, which is not limited in this disclosure.

Third, the embodiments of the present disclosure enumerate several implementations to clearly illustrate the technical solutions of the embodiments of the present disclosure. Of course, those skilled in the art will appreciate that the various embodiments provided in the embodiments of the disclosure may be implemented separately, may be implemented in combination with the methods of other embodiments of the disclosure, and may be implemented separately or in combination with some methods of other related technologies; the embodiments of the present disclosure are not so limited.

An information transmission method and apparatus provided by the present disclosure are described in detail below with reference to the accompanying drawings.

In one implementation, a network device configures at least one set of CG resources for a terminal over a partial Bandwidth (BWP) by radio resource control (radio resource control, RRC) signaling. The terminal can perform uplink transmission on the TO in all CG configurations in the CG period configured by the network equipment.

In another implementation, the network configures at least one set of CG configured partial information for the terminal on one BWP through RRC signaling, and the base station informs the terminal of the remaining CG configured information through DCI. After the network device activates CG configuration through DCI, the terminal may perform uplink transmission on the TO in CG configuration by itself in the CG period configured by the network device.

The terminal can inform the base station of the usage situation of TO through the dynamic indication information, and the notification mode is based on UCI. The use cases include two kinds, one is "unused", and the other is "used". The terminal will not use the "used" state TO or the terminal will not use the "used" state TO until the dynamic indication information is not updated. The terminal may not use the TO in the "used" state. UCI is new UCI or CG-UCI, and is carried by CG PUSCH or DG PUSCH, and is sent in any one or a plurality of TO. The above-mentioned use of TO means that the terminal transmits PUSCH in TO, and the non-use of TO means that the terminal does not transmit PUSCH in the TO.

Based on the above, the terminal sends the first CG PUSCH in the first CG PUSCH TO, where the first CG PUSCH includes the UCI, that is, carries dynamic indication information. The dynamic indication information is used for informing the network equipment of the use state of part or all of the TO in the first time window by the terminal. The dynamic indication information sent by the terminal and the TO resources indicated by the dynamic indication information need TO meet a preset time interval.

Therefore, in an embodiment of the present disclosure, an information transmission method is provided, in which a terminal device sends first information TO a network device on a first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured by the network device TO the terminal in a first time window, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. The terminal sends the use state of the TO meeting the interval threshold TO the network equipment, so that the network equipment can have enough time TO carry out resource scheduling after determining the unused TO of the terminal, and further the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 2, fig. 2 is an interaction schematic diagram of an information transmission method according to an embodiment of the disclosure. As shown in fig. 2, the method may include, but is not limited to, the steps of:

in step 201, the terminal sends first information to the network device on a first resource.

In some embodiments, the terminal sends first information TO the network device on the first resource, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window. The usage state of TO may be used TO indicate the usage state of the transmission opportunity (i.e., the transmission opportunity is understood as a resource), or may be used TO indicate the usage state of the resource corresponding TO the transmission opportunity.

The usage status may include, for example, two kinds, one is unused (unused), which may be called usable, and the other is used (used), which may be called unusable. The terminal will not use the "used" state TO or the terminal will not use the "used" state TO until the dynamic indication information is not updated. The terminal may not use the TO in the "used" state. Of course, other possible use states are possible, which the present disclosure does not limit.

In some implementations, the first resource is a resource for carrying the first message.

Alternatively, the first resource may be any one of the following:

the first configuration authorized transmission opportunity CG PUSCHTO;

CG PUSCH carrying first information;

PUSCH of a dynamic grant DG carrying first information;

a Physical Uplink Control Channel (PUCCH) carrying first information;

resources corresponding to uplink control information UCI carrying first information.

Wherein, CG PUSCH and DG PUSCH may be used for carrying UCI.

The first CG PUSCH TO may be simply referred TO as a first TO, which is a TO that is sent by the CG PUSCH that carries UCI.

The first time window may be a time region indicated by the dynamic indication information carried by the UCI. E.g., consecutive multiple time domain symbols, time slots, consecutive multiple TOs, one or more CG periods.

Optionally, the first resource needs TO satisfy a specific condition in the time domain, so that the network device may have enough time TO perform resource scheduling after determining the TO that is not used by the terminal, in some embodiments, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, and in other embodiments, a second interval between the first resource and the first time window is not less than a second interval threshold.

The first interval threshold may be a minimum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is not smaller than the first interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

The second interval threshold may be a preset minimum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is not smaller than the second interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Alternatively, the metering manners of the first interval, the first interval threshold, the second interval and the second interval threshold may be the number of time domain symbols, the absolute time, the number of time slots and the number of TO. The present disclosure is not limited in this regard.

In step 202, the network device determines TO-be-scheduled TO within a first time window.

In the embodiment of the present disclosure, after receiving the first information sent by the terminal, the network device may determine, based on the usage state of the terminal indicated by the first information for the transmission opportunity TO in the first time window, the TO be scheduled in the first time window, and perform resource scheduling on the TO be scheduled, where the TO be scheduled may be a TO unused by the terminal in the first time window.

In some embodiments, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, and in other embodiments, a second interval between the first resource and the first time window is not less than a second interval threshold. Thus, the first resource satisfies a specific condition in the time domain, and the network device may have enough time TO schedule the resource after determining the TO that is not used by the terminal.

In summary, the terminal may send first information TO the network device on the first resource, where the network device receives the first information sent by the terminal on the first resource, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the terminal sends the use state of the TO meeting the interval threshold TO the network equipment, so that the network equipment can determine the unused TO of the terminal, and after the unused TO of the terminal is determined, enough time can be available for resource scheduling, and further the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 3, fig. 3 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 3, the method is applied to the terminal, and the method may include, but is not limited to, the following steps:

step 301, first information is sent to a network device on a first resource.

In some embodiments, the terminal sends first information TO the network device on the first resource, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window. The usage state of TO may be used TO indicate the usage state of the transmission opportunity (i.e., the transmission opportunity is understood as a resource), or may be used TO indicate the usage state of the resource corresponding TO the transmission opportunity.

The usage status may include, for example, two kinds, one is unused (unused), which may be called usable, and the other is used (used), which may be called unusable. The terminal will not use the "used" state TO or the terminal will not use the "used" state TO until the dynamic indication information is not updated. The terminal may not use the TO in the "used" state. Of course, other possible use states are possible, which the present disclosure does not limit.

In some implementations, the first resource is a resource for carrying the first message.

Alternatively, the first resource may be any one of the following:

the first configuration authorized transmission opportunity CG PUSCHTO;

CG PUSCH carrying first information;

PUSCH of a dynamic grant DG carrying first information;

a Physical Uplink Control Channel (PUCCH) carrying first information;

resources corresponding to uplink control information UCI carrying first information.

Wherein, CG PUSCH and DG PUSCH may be used for carrying UCI.

The first CG PUSCH TO may be simply referred TO as a first TO, which is a TO that is sent by the CG PUSCH that carries UCI.

The first time window may be a time region indicated by the dynamic indication information carried by the UCI. E.g., consecutive multiple time domain symbols, time slots, consecutive multiple TOs, one or more CG periods.

Optionally, the first resource needs TO satisfy a specific condition in the time domain, so that the network device may have enough time TO perform resource scheduling after determining the TO that is not used by the terminal, in some embodiments, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, and in other embodiments, a second interval between the first resource and the first time window is not less than a second interval threshold.

The first interval threshold may be a minimum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is not smaller than the first interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

The second interval threshold may be a preset minimum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is not smaller than the second interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Alternatively, the metering manners of the first interval, the first interval threshold, the second interval and the second interval threshold may be the number of time domain symbols, the absolute time, the number of time slots and the number of TO. The present disclosure is not limited in this regard.

In summary, the terminal may send first information TO the network device on the first resource, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window. Therefore, the terminal sends the use state of the TO meeting the interval threshold TO the network equipment, so that the network equipment can have enough time for resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 4, fig. 4 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 4, the method is applied TO the terminal, and in the embodiment of the present disclosure, the information transmission method is described in detail by taking the transmission opportunity CG PUSCH TO with the first resource as the first configuration grant as an example, and the method may include, but is not limited TO, the following steps:

in step 401, first information is sent TO a network device on a first resource, where the first resource is a first CG PUSCH TO.

In an embodiment of the present disclosure, the first information may be used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window.

In some embodiments, the first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or in some embodiments, the second interval between the first resource and the first time window is not less than a second interval threshold. Specifically, the embodiment of fig. 2 has been described in detail, and will not be described in detail here.

In some embodiments, a third interval threshold corresponding TO the first interval may also be set, where the third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the third interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the third interval threshold is not less than the first interval threshold.

That is, in some embodiments, the first interval between the first resource and the TO indicated by the first information is less than a third interval threshold that is not less than the first interval threshold.

In some possible implementations, the first interval may be any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 4A is a schematic diagram of a first interval provided by an embodiment of the present disclosure, as shown in fig. 4A, the first resource is a first CG PUSCH TO, and the first CG PUSCH TO is a TO sent by a CG PUSCH of a UCI of a bearer. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively, and the first TO is TO0. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of TO0, and the metering manner may be the number of time domain symbols or absolute time.

Or the first interval is a time interval between a time slot where a first time domain symbol of the first CG PUSCH TO is located and a time slot where a first time domain symbol of TO0 is located, and the metering mode may be the number of time slots or absolute time.

Alternatively, the first interval is the TO number between the first CG PUSCH TO 0.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO which the terminal is expected TO a first time domain symbol of a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 4A, that is, the network device expects a first interval between a first time domain symbol of TO0 in first information sent by the terminal on the first CG PUSCH TO and the first time domain symbol of the first CG PUSCH TO is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a terminal is expected TO be located by a first time domain symbol of a first CG PUSCH TO and a time slot in which the first time domain symbol of the first TO within a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 4A, that is, a time slot in which the network device expects the first time domain symbol of TO0 in the first information sent by the terminal on the first CG PUSCH TO is spaced from the first CG by a threshold value, and is not greater than the third threshold value; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected first CG PUSCH TO and a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 4A, that is, the network device expects TO0 in the first information sent by the terminal on the first CG PUSCH TO, a first interval between TO and the first CG PUSCH TO is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO that the terminal is not expected TO be in a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 4A, that is, the network device does not expect the first time domain symbol of TO0 in the first information sent by the terminal on the first CG PUSCH TO, the first interval between the first time domain symbol of the first CG PUSCH TO and the first time domain symbol is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a terminal is not expected TO be a first time domain symbol of a first CG PUSCH TO and a time slot in which a first TO within a first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 4A, that is, the network device does not expect the time slot in which the first time domain symbol of TO0 in the first information sent by the terminal on the first CG PUSCH TO is located, and the first interval between the time slot in which the first time domain symbol of the first CG PUSCH TO is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected TO have a first interval between the first CG PUSCH TO and the first TO within the first time window less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 4A, that is, the network device does not expect TO0 in the first information sent by the terminal on the first CG PUSCH TO, a first interval between the network device and the first CG PUSCH TO is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, the first interval may be any one of:

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

The interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 4B is a schematic diagram of another first interval provided by an embodiment of the present disclosure, as shown in fig. 4B, where the first resource is a first CG PUSCH TO, and the first CG PUSCH TO is a TO sent by a CG PUSCH of a UCI of a bearer. The first time window contains 4 TO, namely TO0, TO1, TO2 and TO3, and the first unused TO is TO1. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of TO1, and the metering manner may be the number of time domain symbols or absolute time.

Or the first interval is a time interval between a time slot where a first time domain symbol of the first CG PUSCH TO is located and a time slot where a first time domain symbol of TO1 is located, and the metering mode may be the number of time slots or absolute time.

Alternatively, the first interval is the TO number between the first CG PUSCH TO 1.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO which the terminal is expected TO a first time domain symbol of a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 4B, that is, the network device expects the first interval between the first time domain symbol of TO1 in the first information sent by the terminal on the first CG PUSCH TO and the first time domain symbol of the first CG PUSCH TO be not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a time interval between a time slot in which a terminal is expected TO be a first time domain symbol of a first CG PUSCH TO and a time slot in which a first unused first time domain symbol of a first TO within a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 4B, that is, the first interval between the time slot in which the first time domain symbol of TO1 in the first information sent by the network device on the first CG PUSCH TO is expected TO be located by the terminal and the time slot in which the first time domain symbol of the first CG PUSCH TO is located is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, the first interval between the first CG PUSCH TO and the first unused TO within the first time window is expected by the terminal TO be no less than the first interval threshold, or the first interval is no less than the first interval threshold and no greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 4B, that is, the network device expects TO1 in the first information sent by the terminal on the first CG PUSCH TO, a first interval between TO and the first CG PUSCH TO is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO which the terminal is not expected TO a first unused TO first time domain symbol within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 4B, that is, the network device does not expect the first time domain symbol of TO1 in the first information sent by the terminal on the first CG PUSCH TO, the first interval between the first time domain symbol of the first CG PUSCH TO and the first time domain symbol is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a first CG PUSCH TO is not expected by a terminal TO a time slot in which a first time domain symbol of a first unused TO in a first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 4B, that is, the network device does not expect the time slot in which the first time domain symbol of TO1 in the first information sent by the terminal on the first CG PUSCH TO is located, and the first interval between the time slot in which the first time domain symbol of the first CG PUSCH TO is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the first interval between the terminal not expected TO be the first CG PUSCH TO the first unused TO within the first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 4B, that is, the network device does not expect TO1 in the first information sent by the terminal on the first CG PUSCH TO, a first interval between TO and the first CG PUSCH TO is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, a fourth interval threshold corresponding to the second interval may also be set, where the fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the fourth interval threshold is not less than the second interval threshold.

That is, in some embodiments, the second interval between the first resource and the first time window is less than a fourth interval threshold that is not less than the second interval threshold.

In some possible implementations, the second interval may be any of the following:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 4C is a schematic diagram of a second interval provided by an embodiment of the present disclosure, where, as shown in fig. 4C, the first resource is a first CG PUSCH TO, and the first CG PUSCH TO is a TO sent by a CG PUSCH of a UCI of a bearer. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The second interval is a time interval between the first time domain symbol of the first CG PUSCH TO and the first time domain symbol of the first time window, and the metering manner may be the number of time domain symbols or absolute time.

Or the second interval is the time interval between the time slot of the first time domain symbol of the first CG PUSCH TO and the time slot of the first time domain symbol of the first time window, and the metering mode may be the number of time slots or absolute time.

Or, the second interval is the number of TO between the first CG PUSCH TO and the first time window.

In one implementation, a second interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of the first time window, where the terminal is expected, is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 4C, that is, the network device expects the first interval between the first time domain symbol of the first time window in the first information sent by the terminal on the first CG PUSCH TO and the first time domain symbol of the first CG PUSCH TO is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation manner, a second interval between a time slot where a first time domain symbol of the first CG PUSCH TO is expected by the terminal and a time slot where the first time window is located is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 4C, that is, the first interval between the time slot in which the first time domain symbol of the first time window in the first information sent by the network device on the first CG PUSCH TO is expected TO be located by the terminal and the time slot in which the first time domain symbol of the first CG PUSCH TO is located is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, the second interval between the first CG PUSCH TO and the first time window for which the terminal is expected is not less than the second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 4C, that is, the first interval between the first time window in the first information that the network device expects the terminal TO send on the first CG PUSCH TO and the first CG PUSCH TO is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a second interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of the first time window, where the terminal is not expected, is less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 4C, that is, the network device does not expect the first time domain symbol of the first time window in the first information sent by the terminal on the first CG PUSCH TO, the first interval between the first time domain symbol of the first CG PUSCH TO and the first time domain symbol is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a second interval between a time slot in which the terminal is not expected TO be in the first time domain symbol of the first CG PUSCH TO and a time slot in which the first time domain symbol of the first time window is in is less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 4C, that is, the network device does not expect the time slot in which the first time domain symbol of the first time window of the first information sent by the terminal on the first CG PUSCH TO is located, and the first interval between the time slot in which the first time domain symbol of the first CG PUSCH TO is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the second interval between the terminal not expected TO the first CG PUSCH TO the first time window is less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 4C, that is, the network device does not expect the first time window in the first information sent by the terminal on the first CG PUSCH TO, the first interval between the network device and the first CG PUSCH TO is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In summary, the terminal may send first information TO the network device on the first CG PUSCH TO, where the first information is used TO indicate a usage status of a transmission occasion TO configured TO the terminal by the network device in the first time window. Therefore, the terminal sends the use state of the TO meeting the interval threshold value TO the network equipment on the first CG PUSCH TO, so that the network equipment can have enough time TO carry out resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 5, fig. 5 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 5, the method is applied to a terminal, and in the embodiment of the present disclosure, the information transmission method is described in detail by taking the first resource as a CG PUSCH carrying first information, or a PUSCH carrying a dynamic grant DG of the first information, or a physical uplink control channel PUCCH carrying the first information as an example, where the method may include, but is not limited to, the following steps:

In step 501, first information is sent to a network device on a first resource, where the first resource is a CG PUSCH carrying the first information, or a PUSCH carrying a dynamically authorized DG of the first information, or a physical uplink control channel PUCCH carrying the first information.

In an embodiment of the present disclosure, the first information may be used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window.

In some embodiments, the first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or in some embodiments, the second interval between the first resource and the first time window is not less than a second interval threshold. Specifically, the embodiment of fig. 2 has been described in detail, and will not be described in detail here.

In some embodiments, a third interval threshold corresponding TO the first interval may also be set, where the third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the second interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the third interval threshold is not less than the first interval threshold.

That is, in some embodiments, the first interval between the first resource and the TO indicated by the first information is less than a third interval threshold that is not less than the first interval threshold.

In some possible implementations, the first interval may be any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 5A is a schematic diagram of another first interval provided by an embodiment of the present disclosure, as shown in fig. 5A, where the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of a bearer, and the first resource may be CG PUSCH, or DG PUSCH, or PUCCH. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively, and the first TO is TO0. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH and a first time domain symbol of TO0, and the metering manner may be the number of time domain symbols, or absolute time.

Or, the first interval is a time interval from a time slot where a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH is located TO a time slot where a first time domain symbol of TO0 is located, and the metering mode may be the number of time slots, or absolute time.

Alternatively, the first interval is CG PUSCH, or DG PUSCH, or the TO number between PUCCH and TO 0.

In one implementation, a first interval between a first time domain symbol of a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 5A, that is, the network device expects a first interval between a first time domain symbol of TO0 in first information sent by the terminal on the first CG PUSCH TO and the first time domain symbol of the first CG PUSCH TO is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first time domain symbol of a first TO in a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 5A, that is, the first interval between the time slot where the first time domain symbol of TO0 in the first information sent by the terminal on the CG PUSCH, the DG PUSCH, or the PUCCH is located and the time slot where the first time domain symbol of the CG PUSCH, the DG PUSCH, or the PUCCH is located is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 5A, that is, the network device expects that the first interval between TO0 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH, and the CG PUSCH, or DG PUSCH, or PUCCH is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a terminal not expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 5A, that is, the network device does not expect the first interval between the first time domain symbol of TO0 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the first time domain symbol of CG PUSCH, or DG PUSCH, or PUCCH is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is not expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first time domain symbol of a first TO in a first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 5A, that is, the network device does not expect that the first interval between the time slot where the first time domain symbol of TO0 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH is located and the time slot where the first time domain symbol of CG PUSCH, or DG PUSCH, or PUCCH is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected TO have a CG PUSCH, or DG PUSCH, or PUCCH, TO a first interval between a first TO within a first time window less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 5A, that is, the network device does not expect that the first interval between TO0 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH, and the CG PUSCH, or DG PUSCH, or PUCCH is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, the first interval may be any one of:

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 5B is a schematic diagram of another first interval provided by an embodiment of the present disclosure, as shown in fig. 5B, where the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of a bearer, and the first resource may be CG PUSCH, or DG PUSCH, or PUCCH. The first time window contains 4 TO, namely TO0, TO1, TO2 and TO3, and the first unused TO is TO1. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH and a first time domain symbol of TO1, and the metering manner may be the number of time domain symbols, or absolute time.

Or, the first interval is a time interval from a time slot where a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH is located TO a time slot where a first time domain symbol of TO1 is located, and the metering mode may be the number of time slots, or absolute time.

Alternatively, the first interval is CG PUSCH, or DG PUSCH, or the TO number between PUCCH and TO1.

In one implementation, a first interval between a first time domain symbol of a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is less than the third interval threshold. As shown in fig. 5B, that is, the network device expects the first interval between the first time domain symbol of TO1 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the first time domain symbol of the CG PUSCH, or DG PUSCH, or PUCCH, TO be not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first unused first time domain symbol of the TO in a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and is less than the third interval threshold; or the first interval is less than the third interval threshold. As shown in fig. 5B, that is, the first interval between the time slot where the first time domain symbol of TO1 in the first information sent by the terminal on the CG PUSCH, the DG PUSCH, or the PUCCH is located and the time slot where the first time domain symbol of the CG PUSCH, the DG PUSCH, or the PUCCH is located is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and is less than the third interval threshold; or the first interval is less than the third interval threshold. As shown in fig. 5B, that is, the network device expects the first interval between TO1 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH, and the CG PUSCH, or DG PUSCH, or PUCCH, TO be not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a terminal not expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first unused TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 5B, that is, the network device does not expect the first interval between the first time domain symbol of TO1 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the first time domain symbol of CG PUSCH, or DG PUSCH, or PUCCH is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is not expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first unused first time domain symbol of the TO in the first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 5B, that is, the network device does not expect that the first interval between the time slot where the first time domain symbol of TO1 is located in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the time slot where the first time domain symbol of CG PUSCH, or DG PUSCH, or PUCCH is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected TO have a first interval between CG PUSCH, or DG PUSCH, or PUCCH TO a first unused TO within a first time window less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 5B, that is, the network device does not expect that the first interval between TO1 in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH, and the CG PUSCH, or DG PUSCH, or PUCCH is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, a fourth interval threshold corresponding to the second interval may also be set, where the fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the fourth interval threshold is not less than the second interval threshold.

That is, in some embodiments, the second interval between the first resource and the first time window is less than a fourth interval threshold that is not less than the second interval threshold.

In some possible implementations, the second interval may be any of the following:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 5C is a schematic diagram of another second interval provided by an embodiment of the present disclosure, as shown in fig. 5C, where the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of a bearer, and the first resource may be CG PUSCH, or DG PUSCH, or PUCCH. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The second interval is a time interval between a first time domain symbol of the CG PUSCH or the DG PUSCH or the PUCCH and a first time domain symbol of the first time window, and the metering manner may be the number of time domain symbols or absolute time.

Or the second interval is a time interval between a time slot of the first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH and a time slot of the first time domain symbol of the first time window, and the metering mode may be the number of time slots, or absolute time.

Alternatively, the second interval is CG PUSCH, or DG PUSCH, or the number of TO between PUCCH and the first time window.

In one implementation, a second interval between a first time domain symbol of the terminal expected CG PUSCH, or DG PUSCH, or PUCCH to a first time domain symbol of the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 5C, that is, the network device expects the first interval between the first time domain symbol of the first time window in the first information sent by the terminal on the CG PUSCH, or the DG PUSCH, or the PUCCH and the first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH to be not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a second interval between a time slot in which the terminal is expected to be the CG PUSCH, or the DG PUSCH, or the first time domain symbol of the PUCCH, and a time slot in which the first time domain symbol of the first time window is located is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 5C, that is, the first interval between the time slot where the first time domain symbol of the first time window is located in the first information sent by the network device on the CG PUSCH, the DG PUSCH, or the PUCCH and the time slot where the first time domain symbol of the CG PUSCH, the DG PUSCH, or the PUCCH is located is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, the second interval between the terminal expected CG PUSCH, or DG PUSCH, or PUCCH to the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 5C, that is, the network device expects the first interval between the first time window in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the CG PUSCH, or DG PUSCH, or PUCCH, to be not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, the terminal is not expected to expect a second interval between the CG PUSCH, or DG PUSCH, or first time domain symbol of PUCCH to the first time domain symbol of the first time window to be less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 5C, that is, the network device does not expect the first interval between the first time domain symbol of the first time window in the first information sent by the terminal on the CG PUSCH, or the DG PUSCH, or the PUCCH and the first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the second interval between the time slot in which the terminal is not expected to be the CG PUSCH, or the DG PUSCH, or the first time domain symbol of the PUCCH, and the time slot in which the first time domain symbol of the first time window is located is less than the second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 5C, that is, the network device does not expect that the first interval between the time slot in which the first time domain symbol of the first time window is located in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the time slot in which the first time domain symbol of the CG PUSCH, or DG PUSCH, or PUCCH is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected to have a CG PUSCH, or DG PUSCH, or PUCCH a second interval between the first time window less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 5C, that is, the network device does not expect the first interval between the first time window in the first information sent by the terminal on the CG PUSCH, or DG PUSCH, or PUCCH and the CG PUSCH, or DG PUSCH, or PUCCH is less than the first interval threshold; or the first interval is greater than the third interval threshold.

In summary, the terminal may send first information TO the network device on the CG PUSCH, or DG PUSCH, or PUCCH, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window. Therefore, the terminal sends the use state of the TO meeting the interval threshold value TO the network equipment on the CG PUSCH, the DG PUSCH or the PUCCH, so that the network equipment can have enough time TO carry out resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 6, fig. 6 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 6, the method is applied to a terminal, and in this embodiment of the present disclosure, the information transmission method is described in detail by taking a first resource as an example of a resource corresponding to uplink control information UCI carrying first information, where the method may include, but is not limited to, the following steps:

In step 601, first information is sent to a network device on a first resource, where the first resource is a resource corresponding to UCI.

In an embodiment of the present disclosure, the first information may be used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window.

In some embodiments, the first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or in some embodiments, the second interval between the first resource and the first time window is not less than a second interval threshold. Specifically, the embodiment of fig. 2 has been described in detail, and will not be described in detail here.

In some embodiments, a third interval threshold corresponding TO the first interval may also be set, where the third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the third interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the third interval threshold is not less than the first interval threshold.

That is, in some embodiments, the first interval between the first resource and the TO indicated by the first information is less than a third interval threshold that is not less than the first interval threshold.

In some possible implementations, the first interval may be any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 6A is a schematic diagram of another first interval provided by an embodiment of the present disclosure, as shown in fig. 6A, where the first CG PUSCH TO is a TO sent by a CG PUSCH of a UCI of a bearer, and the first resource may be a resource corresponding TO the UCI. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively, and the first TO is TO0. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of a resource corresponding TO UCI and a first time domain symbol of TO0, and the metering mode may be the number of time domain symbols or absolute time.

Or the first interval is the time interval between the time slot of the first time domain symbol of the resource corresponding TO the UCI and the time slot of the first time domain symbol of TO0, and the metering mode can be the number of time slots or absolute time.

Or, the first interval is the number of TO between the resource corresponding TO UCI and TO 0.

In one implementation, a first interval between a first time domain symbol of a resource TO which the UCI is expected TO correspond by the terminal and a first time domain symbol of a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 6A, that is, the network device expects the first time domain symbol of TO0 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the first time domain symbols of the resource corresponding TO UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO a desired UCI of a terminal is located and a time slot in which a first time domain symbol of a first TO is located in a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 6A, that is, the first interval between the time slots in which the first time domain symbol of the resource corresponding TO UCI is located in the time slot in which the network device expects the first time domain symbol of TO0 in the first information sent by the terminal on the resource corresponding TO UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a resource TO which the terminal is expected TO correspond TO UCI TO a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold. As shown in fig. 6A, that is, the network device expects TO0 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the resources corresponding TO UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a resource TO which the terminal is not expected TO correspond TO UCI and a first time domain symbol of a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 6A, that is, the network device does not expect the first time domain symbol of TO0 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the first time domain symbols of the resource corresponding TO UCI is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO an expected UCI of a terminal is not located and a time slot in which a first time domain symbol of a first TO in a first time window is located is smaller than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 6A, that is, the network device does not expect the time slot in which the first time domain symbol of TO0 in the first information sent by the terminal on the resource corresponding TO UCI is located, the first interval between the time slots in which the first time domain symbol of the resource corresponding TO UCI is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between resources for which the terminal is not expected TO correspond TO UCI TO a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 6A, that is, the network device does not expect TO0 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the resources corresponding TO UCI is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, the first interval may be any one of:

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 6B is a schematic diagram of another first interval provided by an embodiment of the present disclosure, as shown in fig. 6B, where the first CG PUSCH TO is a TO sent by a CG PUSCH of a UCI of a bearer, and the first resource may be a resource corresponding TO the UCI. The first time window contains 4 TO, namely TO0, TO1, TO2 and TO3, and the first unused TO is TO1. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of a resource corresponding TO UCI and a first time domain symbol of TO1, and the metering mode may be the number of time domain symbols or absolute time.

Or the first interval is the time interval between the time slot of the first time domain symbol of the resource corresponding TO the UCI and the time slot of the first time domain symbol of TO1, and the metering mode can be the number of time slots or absolute time.

Or, the first interval is the number of TO between the resource corresponding TO UCI and TO1.

In one implementation, a first interval between a first time domain symbol of a resource TO which the terminal is expected TO correspond TO UCI and a first time domain symbol of a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and is less than the third interval threshold; or the first interval is less than the third interval threshold. As shown in fig. 6B, that is, the network device expects the first time domain symbol of TO1 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the first time domain symbols of the resource corresponding TO UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO a desired UCI of a terminal is located and a time slot in which a first unused first time domain symbol of a TO is located in a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and is less than the third interval threshold; or the first interval is less than the third interval threshold. As shown in fig. 6B, that is, the first interval between the time slots in which the first time domain symbol of the resource corresponding TO UCI is located in the time slot in which the network device expects the first time domain symbol of TO1 in the first information sent by the terminal on the resource corresponding TO UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a resource TO which the terminal is expected TO correspond TO UCI TO a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and is less than the third interval threshold; or the first interval is less than the third interval threshold. As shown in fig. 6B, that is, TO1 in the first information that the network device expects the terminal TO send on the resource corresponding TO UCI, the first interval between the resources corresponding TO UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a resource TO which the terminal is not expected TO correspond TO UCI and a first time domain symbol of a first unused TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 6B, that is, the network device does not expect the first time domain symbol of TO1 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the first time domain symbols of the resource corresponding TO UCI is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO an unexpected UCI of the terminal is located and a time slot in which a first time domain symbol of a first unused TO in a first time window is located is smaller than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 6B, that is, the network device does not expect the time slot in which the first time domain symbol of TO1 in the first information sent by the terminal on the resource corresponding TO UCI is located, the first interval between the time slots in which the first time domain symbol of the resource corresponding TO UCI is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a terminal not expected TO be a resource corresponding TO UCI TO a first unused TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold. As shown in fig. 6B, that is, the network device does not expect TO1 in the first information sent by the terminal on the resource corresponding TO UCI, the first interval between the resources corresponding TO UCI is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, a fourth interval threshold corresponding to the second interval may also be set, where the fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the fourth interval threshold is not less than the second interval threshold.

That is, in some embodiments, the second interval between the first resource and the first time window is less than a fourth interval threshold that is not less than the second interval threshold.

In some possible implementations, the second interval may be any of the following:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

Fig. 6C is a schematic diagram of another second interval provided by an embodiment of the present disclosure, as shown in fig. 6C, where the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of a bearer, and the first resource may be a resource corresponding TO the UCI. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The second interval is a time interval between the first time domain symbol of the resource corresponding to the UCI and the first time domain symbol of the first time window, and the metering mode may be the number of time domain symbols or absolute time.

Or the second interval is the time interval between the time slot of the first time domain symbol of the resource corresponding to the UCI and the time slot of the first time domain symbol of the first time window, and the metering mode can be the number of the time slots or absolute time.

Or, the second interval is the number of TO between the resource corresponding TO the UCI and the first time window.

In one implementation, a second interval between a first time domain symbol of a resource to which the UCI is expected to correspond by the terminal and a first time domain symbol of the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 6C, that is, the network device expects the first time domain symbol of the first time window in the first information sent by the terminal on the resource corresponding to the UCI, the first interval between the first time domain symbols of the resource corresponding to the UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a second interval between a time slot in which a first time domain symbol of a resource corresponding to the expected UCI of the terminal is located and a time slot in which the first time domain symbol of the first time window is located is not smaller than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 6C, that is, the first interval between the time slots in which the first time domain symbol of the resource corresponding to UCI is located in the time slot in which the network device expects the first time window in the first information sent by the terminal on the resource corresponding to UCI is not less than the first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a second interval between a resource for which the terminal is expected to correspond to the UCI and the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold. As shown in fig. 6C, that is, a first time window in first information that the network device expects the terminal to send on a resource corresponding to UCI, a first interval between resources corresponding to UCI is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a second interval between a first time domain symbol of a resource to which the terminal is not expected to correspond to the UCI and a first time domain symbol of the first time window is less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 6C, that is, the network device does not expect the first time domain symbol of the first time window in the first information sent by the terminal on the resource corresponding to the UCI, the first interval between the first time domain symbols of the resource corresponding to the UCI is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a second interval between a time slot in which a first time domain symbol of a resource corresponding to the UCI is not expected by the terminal and a time slot in which the first time domain symbol of the first time window is located is smaller than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 6C, that is, the network device does not expect the time slot in which the first time domain symbol of the first time window in the first information sent by the terminal on the resource corresponding to the UCI is located, the first interval between the time slots in which the first time domain symbol of the resource corresponding to the UCI is located is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a second interval between resources for which the terminal is not expected to correspond to UCI to the first time window is less than a second interval threshold; or the second interval is greater than the fourth interval threshold. As shown in fig. 6C, that is, the network device does not expect the first time window in the first information sent by the terminal on the resource corresponding to UCI, the first interval between the resources corresponding to UCI is smaller than the first interval threshold; or the first interval is greater than the third interval threshold.

In summary, the terminal may send first information TO the network device on a resource corresponding TO the UCI, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window. Therefore, the terminal sends the use state of the TO meeting the interval threshold TO the network equipment on the resources corresponding TO the UCI, so that the network equipment can have enough time TO perform resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 7, fig. 7 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 7, the method is applied to the terminal, and the method may include, but is not limited to, the following steps:

step 701, determining a first interval threshold and/or a second interval threshold.

Optionally, the terminal device may determine the first interval threshold and/or the second interval threshold according to a protocol convention.

Wherein the contents of the protocol conventions include at least one of: a start point of the first interval threshold, an end point of the first interval threshold, the first interval threshold; a start of the second interval threshold, an end of the second interval threshold, and a second interval threshold.

Optionally, the terminal device may also determine the first interval threshold and/or the second interval threshold according to the indication information sent by the network device.

The indication information includes, but is not limited to, downlink Control information (Downlink Control Information, DCI), a media access Control (medium access Control, MAC) Control Element (CE), and RRC signaling, where the content included in the indication information includes at least one of the following: a start point of the first interval threshold, an end point of the first interval threshold, the first interval threshold; a start of the second interval threshold, an end of the second interval threshold, and a second interval threshold.

Optionally, the terminal device may further determine the first interval threshold and/or the second interval threshold according to a value of the designated information field in the indication information.

The indication information field may be an information field included in the indication information and used for indicating the first interval threshold and/or the second interval threshold.

For example, the network device may configure the first interval threshold through the first RRC signaling, where the value of the information field in the designated information field of the first RRC signaling for indicating the first interval threshold may be { XRtimeline1, XRtimeline2}, XRtimeline1 is predefined as 14 symbols by the protocol, and XRtimeline2 is defined as 28 symbols by the protocol. When the value of the information field used for indicating the first interval threshold in the designated information field of the first RRC signaling is XRtimeline2, it means that the distance between the terminal transmitting the first information and the first resource is not less than 28 symbols.

It should be noted that, in the embodiment of the present disclosure, the number of the available values of the indication information field and the number of symbols corresponding to each value are not particularly limited.

Optionally, the first interval threshold and/or the second interval threshold is selected from a plurality of candidate intervals agreed upon by the protocol.

In the embodiment of the disclosure, the protocol convention may indicate a plurality of candidate intervals for the terminal, so that the terminal may select a first interval threshold and/or a second interval threshold from the plurality of candidate intervals, and further the terminal may send second information to the network device, where the second information indicates the first interval threshold and/or the second interval threshold. So that the network device knows the first interval threshold and/or the second interval threshold selected by the terminal.

In some possible implementations, a third interval threshold and/or a fourth interval threshold may also be determined.

The third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the third interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

The fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Optionally, the specific implementation of determining the third interval threshold and/or the fourth interval threshold is the same as the specific implementation of determining the first interval threshold and/or the second interval threshold. Comprising any one of the following:

determining a third interval threshold and/or a fourth interval threshold according to the protocol convention;

determining a third interval threshold and/or a fourth interval threshold according to the indication information sent by the network equipment;

The third interval threshold and/or the fourth interval threshold is selected from a plurality of candidate intervals agreed upon by the protocol.

Step 702, sending first information TO the network device on the first resource, where the first information is used TO indicate a usage status of a transmission opportunity TO configured TO the terminal by the network device in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

In summary, the terminal may determine the first interval threshold and/or the second interval threshold first, and then send first information TO the network device on the first resource, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than the first interval threshold, or a second interval between the first resource and the first time window is not less than the second interval threshold. Therefore, the terminal can accurately determine the TO meeting the interval threshold value contained in the first time window according TO the first interval threshold value and/or the second interval threshold value, so that the network equipment can have enough time TO perform resource scheduling after acquiring the TO unused by the terminal in the first time window, and further the TO unused by the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 8, fig. 8 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 8, the method is applied to the terminal, and the method may include, but is not limited to, the following steps:

step 801, first information is sent TO the network device on the first resource, where the first information is used TO indicate a usage status of a transmission opportunity TO configured TO the terminal by the network device in the first time window, and a second interval between the first resource and the first time window is not less than a second interval threshold.

In the present disclosure, a terminal is expected not TO be included in the indication range of dynamic indication information in a TO that does not conform TO a timeline (timeline).

I.e. each TO contained in the first time window indicated by the first information sent by the terminal accords with timeline. For example, a first interval between each TO and a first resource within a first time window is greater than a first interval threshold.

For example, the network terminal configures four TO (TO 0, TO1, TO2, TO 3) for the terminal, the first two TO (TO 0, TO 1) do not conform TO the timeline, and the second two TO (TO 2, TO 3) conform TO the timeline, and the first time window only includes TO2, TO3.

In the present disclosure, the indication range of the dynamic indication information that the terminal is not expected TO send by the terminal includes TO that does not conform TO timeline.

I.e. the first time window may contain TO that does not fit in timeline. After receiving the first information, the network device filters out the TOs which do not meet the timeline and are contained in the first time window, and only processes the TOs which meet the timeline.

For example, the network terminal configures four TO (TO 0, TO1, TO2, TO 3) for the terminal, the first two TO (TO 0, TO 1) do not conform TO the timeline, and the second two TO (TO 2, TO 3) conform TO the timeline, and the first time window may include TO0, TO1, TO2, TO3.

In the present disclosure, the terminal is expected to transmit the first information before the second interval threshold of the first time window.

In this disclosure, a terminal is expected TO send first information before a first interval threshold for a first TO of a first time window.

In this disclosure, the terminal is expected TO send the first information before a first interval threshold of a first unused TO of the first time window.

In the present disclosure, the terminal is expected to transmit the first information after a fourth interval threshold of the first time window.

In this disclosure, the terminal is expected TO send the first information after a third interval threshold of a first TO of the first time window.

In this disclosure, the terminal is expected TO send the first information after a third interval threshold of the first unused TO of the first time window.

In the present disclosure, the terminal is expected to transmit the first information before the second interval threshold and after the fourth interval threshold of the first time window.

In this disclosure, the terminal is expected TO send the first information before a first interval threshold and after a third interval threshold for a first TO of the first time window.

In the present disclosure, the terminal is expected TO send the first information before a first interval threshold of a first unused TO of the first time window and after a third interval threshold.

Optionally, a first interval between a second CG PUSCH TO included in the first time window and the first resource is smaller than a first interval threshold, and the second CG PUSCH TO is a TO used by the terminal.

In the implementation of the present disclosure, if the second interval between the first resource and the first time window is not less than the second interval threshold, the first interval between the TO used by the terminal device and the first resource included in the first time window may be less than the first interval threshold. I.e. the first interval between the first resource and the first time window may be comprised within the first time window may be smaller than the first interval threshold and the TO used by the terminal.

Or, a first interval between a third CG PUSCH TO included in the first time window and the first resource is smaller than a first interval threshold, and the third CG PUSCH TO is a TO unused by the terminal.

In the embodiment of the present disclosure, if the second interval between the first resource and the first time window is not less than the second interval threshold, the first interval between the unused TO of the terminal device included in the first time window and the first resource may be less than the first interval threshold. I.e. the first interval between the first resource and the first time window may also be comprised within the first time window, which is smaller than the first interval threshold, and TO which the terminal is not using.

In summary, the terminal sends first information TO the network device on the first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured TO the terminal by the network device in the first time window, and a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the first time window sent by the terminal can contain the TO which is smaller than the first interval threshold value with the first interval between the first resource, so that the network equipment determines the TO TO be scheduled contained in the first time window, and reschedules the TO TO be scheduled, the unused TO of the terminal can be reused in time, and the throughput of the system is improved.

Referring to fig. 9, fig. 9 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 9, the method is applied to a network device, and the method may include, but is not limited to, the following steps:

Step 901, receiving first information sent by a terminal on a first resource.

In some embodiments, the terminal sends first information TO the network device on the first resource, where the first information is used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window. The usage state of TO may be used TO indicate the usage state of the transmission opportunity (i.e., the transmission opportunity is understood as a resource), or may be used TO indicate the usage state of the resource corresponding TO the transmission opportunity.

The usage status may include, for example, two kinds, one is unused (unused), which may be called usable, and the other is used (used), which may be called unusable. The terminal will not use the "used" state TO or the terminal will not use the "used" state TO until the dynamic indication information is not updated. The terminal may not use the TO in the "used" state. Of course, other possible use states are possible, which the present disclosure does not limit.

In some implementations, the first resource is a resource for carrying the first message.

Alternatively, the first resource may be any one of the following:

the first configuration authorized transmission opportunity CG PUSCHTO;

CG PUSCH carrying first information;

PUSCH of a dynamic grant DG carrying first information;

a Physical Uplink Control Channel (PUCCH) carrying first information;

resources corresponding to uplink control information UCI carrying first information.

Wherein, CG PUSCH and DG PUSCH may be used for carrying UCI.

The first CG PUSCH TO may be simply referred TO as a first TO, which is a TO that is sent by the CG PUSCH that carries UCI.

The first time window may be a time region indicated by the dynamic indication information carried by the UCI. E.g., consecutive multiple time domain symbols, time slots, consecutive multiple TOs, one or more CG periods.

Optionally, the first resource needs TO satisfy a specific condition in the time domain, so that the network device may have enough time TO perform resource scheduling after determining the TO that is not used by the terminal, in some embodiments, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, and in other embodiments, a second interval between the first resource and the first time window is not less than a second interval threshold.

The first interval threshold may be a minimum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is not smaller than the first interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

The second interval threshold may be a preset minimum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is not smaller than the second interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Alternatively, the metering manners of the first interval, the first interval threshold, the second interval and the second interval threshold may be the number of time domain symbols, the absolute time, the number of time slots and the number of TO. The present disclosure is not limited in this regard.

In the embodiment of the present disclosure, after receiving the first information sent by the terminal, the network device may determine, based on the usage state of the terminal indicated by the first information for the transmission opportunity TO in the first time window, the TO that is not used by the terminal, and schedule resources for the TO that is not used by the terminal.

And in some embodiments, a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, and in other embodiments, a second interval between the first resource and the first time window is not less than a second interval threshold. Thus, the first resource satisfies a specific condition in the time domain, and the network device may have enough time TO schedule the resource after determining the TO that is not used by the terminal.

In summary, the network device receives first information sent by the terminal on the first resource, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the network equipment can determine the unused TO of the terminal according TO the using state of the TO meeting the interval threshold sent by the terminal, so that enough time can be available for resource scheduling, the unused TO of the terminal can be reused in time, and the throughput of the system is improved.

Referring to fig. 10, fig. 10 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 10, the method is applied TO a network device, and in the embodiment of the present disclosure, the method for transmitting information is described in detail by taking a transmission opportunity CG PUSCH TO with a first resource as a first configuration grant as an example, where the method may include, but is not limited TO, the following steps:

in step 1001, first information sent by the terminal on a first resource is received, where the first resource is a first CG PUSCH TO.

In an embodiment of the disclosure, the first information is used TO indicate a usage status of the terminal for the transmission occasion TO within the first time window.

In some embodiments, the first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or in some embodiments, the second interval between the first resource and the first time window is not less than a second interval threshold. Specifically, the embodiment of fig. 2 has been described in detail, and will not be described in detail here.

In some possible implementation forms, a third interval threshold corresponding TO the first interval may also be set, where the third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the third interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the third interval threshold is not less than the first interval threshold.

In some possible implementations, the first interval may be any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

The interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first resource is a first CG PUSCH TO, which is a TO of CG PUSCH transmission of the UCI of the bearer. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively, and the first TO is TO0. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of TO0, and the metering manner may be the number of time domain symbols or absolute time.

Or the first interval is a time interval between a time slot where a first time domain symbol of the first CG PUSCH TO is located and a time slot where a first time domain symbol of TO0 is located, and the metering mode may be the number of time slots or absolute time.

Alternatively, the first interval is the TO number between the first CG PUSCH TO 0.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO which the terminal is expected TO a first time domain symbol of a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a terminal is expected TO be located by a first time domain symbol of a first CG PUSCH TO and a time slot in which the first time domain symbol of the first TO within a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected first CG PUSCH TO and a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO that the terminal is not expected TO be in a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a terminal is not expected TO be in a first time domain symbol of a first CG PUSCH TO and a time slot in which the first time domain symbol of the first TO in a first time window is in the first interval is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected TO have a first interval between the first CG PUSCH TO and the first TO within the first time window less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, the first interval may be any one of:

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first resource is a first CG PUSCH TO, which is a TO of CG PUSCH transmission of the UCI of the bearer. The first time window contains 4 TO, namely TO0, TO1, TO2 and TO3, and the first unused TO is TO1. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of TO1, and the metering manner may be the number of time domain symbols or absolute time.

Or the first interval is a time interval between a time slot where a first time domain symbol of the first CG PUSCH TO is located and a time slot where a first time domain symbol of TO1 is located, and the metering mode may be the number of time slots or absolute time.

Alternatively, the first interval is the TO number between the first CG PUSCH TO1.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO which the terminal is expected TO a first time domain symbol of a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a first CG PUSCH TO is expected by a terminal TO a time slot in which a first unused first time domain symbol of a first TO in a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected first CG PUSCH TO a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a first CG PUSCH TO which the terminal is not expected TO a first unused TO first time domain symbol within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a first CG PUSCH TO is not expected by a terminal TO a time slot in which a first time domain symbol of a first unused TO in a first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the first interval between the terminal not expected TO be the first CG PUSCH TO the first unused TO within the first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, a fourth interval threshold corresponding to the second interval may also be set, where the fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the second interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the fourth interval threshold is not less than the second interval threshold.

In some possible implementations, the second interval may be any of the following:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first resource is a first CG PUSCH TO, which is a TO of CG PUSCH transmission of the UCI of the bearer. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The second interval is a time interval between the first time domain symbol of the first CG PUSCH TO and the first time domain symbol of the first time window, and the metering manner may be the number of time domain symbols or absolute time.

Or the second interval is the time interval between the time slot of the first time domain symbol of the first CG PUSCH TO and the time slot of the first time domain symbol of the first time window, and the metering mode may be the number of time slots or absolute time.

Or, the second interval is the number of TO between the first CG PUSCH TO and the first time window.

In one implementation, a second interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of the first time window, where the terminal is not expected, is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation manner, a second interval between a time slot in which the terminal is not expected TO be in the first time domain symbol of the first CG PUSCH TO and a time slot in which the first time domain symbol of the first time window is in is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, the second interval between the first CG PUSCH TO and the first time window is not expected by the terminal TO be not less than the second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, a second interval between a first time domain symbol of the first CG PUSCH TO and a first time domain symbol of the first time window, where the terminal is not expected, is less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In one implementation, a second interval between a time slot in which the terminal is not expected TO be in the first time domain symbol of the first CG PUSCH TO and a time slot in which the first time domain symbol of the first time window is in is less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In one implementation, the second interval between the terminal not expected TO the first CG PUSCH TO the first time window is less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In summary, the network device receives first information sent by the terminal on a first CG PUSCH TO, where the first information is used TO indicate a usage status of the terminal for a transmission opportunity TO in a first time window, and a first interval between a first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the network equipment can determine the unused TO of the terminal contained in the first time window according TO the use state of the TO meeting the interval threshold sent by the terminal on the first CG PUSCH TO, so that enough time can be available for resource scheduling, the unused TO of the terminal can be reused in time, and the system throughput is improved.

Referring to fig. 11, fig. 11 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 11, the method is applied to a network device, and the method may include, but is not limited to, the following steps:

In step 1101, first information sent by the terminal on a first resource is received, where the first resource is a CG PUSCH carrying the first information, or a PUSCH carrying a dynamically authorized DG of the first information, or a physical uplink control channel PUCCH carrying the first information.

In an embodiment of the present disclosure, the first information may be used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window.

In some embodiments, the first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or in some embodiments, the second interval between the first resource and the first time window is not less than a second interval threshold. Specifically, the embodiment of fig. 2 has been described in detail, and will not be described in detail here.

In some embodiments, a third interval threshold corresponding TO the first interval may also be set, where the third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the second interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the third interval threshold is not less than the first interval threshold.

That is, in some embodiments, the first interval between the first resource and the TO indicated by the first information is less than a third interval threshold that is not less than the first interval threshold.

In some possible implementations, the first interval may be any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first CG PUSCH TO is TO of CG PUSCH transmission of the UCI of the bearer, and the first resource may be CG PUSCH, or DG PUSCH, or PUCCH. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively, and the first TO is TO0. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH and a first time domain symbol of TO0, and the metering manner may be the number of time domain symbols, or absolute time.

Or, the first interval is a time interval from a time slot where a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH is located TO a time slot where a first time domain symbol of TO0 is located, and the metering mode may be the number of time slots, or absolute time.

Alternatively, the first interval is CG PUSCH, or DG PUSCH, or the TO number between PUCCH and TO 0.

In one implementation, a first interval between a first time domain symbol of a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first time domain symbol of a first TO in a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a terminal not expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is not expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first time domain symbol of a first TO in a first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected TO have a CG PUSCH, or DG PUSCH, or PUCCH, TO a first interval between a first TO within a first time window less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, the first interval may be any one of:

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first CG PUSCH TO is TO of CG PUSCH transmission of the UCI of the bearer, and the first resource may be CG PUSCH, or DG PUSCH, or PUCCH. The first time window contains 4 TO, namely TO0, TO1, TO2 and TO3, and the first unused TO is TO1. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH and a first time domain symbol of TO1, and the metering manner may be the number of time domain symbols, or absolute time.

Or, the first interval is a time interval from a time slot where a first time domain symbol of the CG PUSCH, or the DG PUSCH, or the PUCCH is located TO a time slot where a first time domain symbol of TO1 is located, and the metering mode may be the number of time slots, or absolute time.

Alternatively, the first interval is CG PUSCH, or DG PUSCH, or the TO number between PUCCH and TO 1.

In one implementation, a first interval between a first time domain symbol of a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first unused first time domain symbol of the TO in a first time window is located is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a terminal expected CG PUSCH, or DG PUSCH, or PUCCH TO a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a terminal not expected CG PUSCH, or DG PUSCH, or PUCCH TO a first time domain symbol of a first unused TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which the terminal is not expected TO be the CG PUSCH, or the DG PUSCH, or a first time domain symbol of the PUCCH, and a time slot in which a first unused first time domain symbol of the TO in the first time window is located is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, the terminal is not expected TO have a first interval between CG PUSCH, or DG PUSCH, or PUCCH TO a first unused TO within a first time window less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, a fourth interval threshold corresponding to the second interval may also be set, where the fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the fourth interval threshold is not less than the second interval threshold.

That is, in some embodiments, the second interval between the first resource and the first time window is less than a fourth interval threshold that is not less than the second interval threshold.

In some possible implementations, the second interval may be any of the following:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first CG PUSCH TO is TO of CG PUSCH transmission of the UCI of the bearer, and the first resource may be CG PUSCH, or DG PUSCH, or PUCCH. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of the CG PUSCH or the DG PUSCH or the PUCCH and a first time domain symbol of the first time window, and the metering manner may be the number of time domain symbols or absolute time.

Or the first interval is a time interval between a time slot where a first time domain symbol of the CG PUSCH or the DG PUSCH or the PUCCH is located and a time slot where a first time domain symbol of the first time window is located, and the metering mode may be the number of time slots or absolute time.

Alternatively, the first interval is CG PUSCH, or DG PUSCH, or the number of TO between PUCCH and the first time window.

In one implementation, a second interval between a first time domain symbol of the terminal expected CG PUSCH, or DG PUSCH, or PUCCH to a first time domain symbol of the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, a second interval between a time slot in which the terminal is expected to be the CG PUSCH, or the DG PUSCH, or the first time domain symbol of the PUCCH, and a time slot in which the first time domain symbol of the first time window is located is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, the second interval between the terminal expected CG PUSCH, or DG PUSCH, or PUCCH to the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, the terminal is not expected to expect a second interval between the CG PUSCH, or DG PUSCH, or first time domain symbol of PUCCH to the first time domain symbol of the first time window to be less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In one implementation, the second interval between the time slot in which the terminal is not expected to be the CG PUSCH, or the DG PUSCH, or the first time domain symbol of the PUCCH, and the time slot in which the first time domain symbol of the first time window is located is less than the second interval threshold; or the second interval is greater than the fourth interval threshold.

In one implementation, the terminal is not expected to have a CG PUSCH, or DG PUSCH, or PUCCH a second interval between the first time window less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In summary, the network device receives first information sent by the terminal on the CG PUSCH, or the DG PUSCH, or the PUCCH, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the network device can determine the unused TO of the terminal contained in the first time window according TO the usage state of the TO meeting the interval threshold value, which is sent by the received terminal on the CG PUSCH, the DG PUSCH or the PUCCH, so that enough time can be available for resource scheduling, the unused TO of the terminal can be reused in time, and the throughput of the system is improved.

Referring to fig. 12, fig. 12 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 12, the method is applied to a network device, and the method may include, but is not limited to, the following steps:

Step 1201, receiving first information sent by a terminal on a first resource, where the first resource is a resource corresponding to UCI.

In an embodiment of the present disclosure, the first information may be used TO indicate a usage state of a transmission occasion TO configured TO the terminal by the network device in the first time window.

In some embodiments, the first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or in some embodiments, the second interval between the first resource and the first time window is not less than a second interval threshold. Specifically, the embodiment of fig. 2 has been described in detail, and will not be described in detail here.

In some embodiments, a third interval threshold corresponding TO the first interval may also be set, where the third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the third interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the third interval threshold is not less than the first interval threshold.

That is, in some embodiments, the first interval between the first resource and the TO indicated by the first information is less than a third interval threshold that is not less than the first interval threshold.

In some possible implementations, the first interval may be any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of the bearer, and the first resource may be a resource corresponding TO the UCI. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively, and the first TO is TO0. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of a resource corresponding TO UCI and a first time domain symbol of TO0, and the metering mode may be the number of time domain symbols or absolute time.

Or the first interval is the time interval between the time slot of the first time domain symbol of the resource corresponding TO the UCI and the time slot of the first time domain symbol of TO0, and the metering mode can be the number of time slots or absolute time.

Or, the first interval is the number of TO between the resource corresponding TO UCI and TO 0.

In one implementation, a first interval between a first time domain symbol of a resource TO which the UCI is expected TO correspond by the terminal and a first time domain symbol of a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO a desired UCI of a terminal is located and a time slot in which a first time domain symbol of a first TO is located in a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a resource TO which the terminal is expected TO correspond TO UCI TO a first TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a resource TO which the terminal is not expected TO correspond TO UCI and a first time domain symbol of a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO an expected UCI of a terminal is not located and a time slot in which a first time domain symbol of a first TO in a first time window is located is smaller than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between resources for which the terminal is not expected TO correspond TO UCI TO a first TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, the first interval may be any one of:

An interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of the bearer, and the first resource may be a resource corresponding TO the UCI. The first time window contains 4 TO, namely TO0, TO1, TO2 and TO3, and the first unused TO is TO1. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The first interval is a time interval between a first time domain symbol of a resource corresponding TO UCI and a first time domain symbol of TO1, and the metering mode may be the number of time domain symbols or absolute time.

Or the first interval is the time interval between the time slot of the first time domain symbol of the resource corresponding TO the UCI and the time slot of the first time domain symbol of TO1, and the metering mode can be the number of time slots or absolute time.

Or, the first interval is the number of TO between the resource corresponding TO UCI and TO 1.

In one implementation, a first interval between a first time domain symbol of a resource TO which the terminal is expected TO correspond TO UCI and a first time domain symbol of a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO a desired UCI of a terminal is located and a time slot in which a first unused first time domain symbol of a TO is located in a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a resource TO which the terminal is expected TO correspond TO UCI TO a first unused TO within a first time window is not less than a first interval threshold; or the first interval is not less than the first interval threshold and not greater than the third interval threshold; or the first interval is not greater than the third interval threshold.

In one implementation, a first interval between a first time domain symbol of a resource TO which the terminal is not expected TO correspond TO UCI and a first time domain symbol of a first unused TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a time slot in which a first time domain symbol of a resource corresponding TO an unexpected UCI of the terminal is located and a time slot in which a first time domain symbol of a first unused TO in a first time window is located is smaller than a first interval threshold; or the first interval is greater than the third interval threshold.

In one implementation, a first interval between a terminal not expected TO be a resource corresponding TO UCI TO a first unused TO within a first time window is less than a first interval threshold; or the first interval is greater than the third interval threshold.

In some possible implementations, a fourth interval threshold corresponding to the second interval may also be set, where the fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Wherein the fourth interval threshold is not less than the second interval threshold.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

In some possible implementations, the second interval may be any of the following:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

Optionally, the first time domain symbol may include a first time domain symbol and/or an end time domain symbol, and of course, the first time domain symbol may also be a time domain symbol at a specific position within the time domain resource, which is not limited in this disclosure.

For example, the first CG PUSCH TO is a TO of CG PUSCH transmission of a UCI of the bearer, and the first resource may be a resource corresponding TO the UCI. The first time window contains 4 TO, which are TO0, TO1, TO2, and TO3, respectively. The number of TOs contained within the first time window is not particularly limited by the present disclosure.

The second interval is a time interval between the first time domain symbol of the resource corresponding to the UCI and the first time domain symbol of the first time window, and the metering mode may be the number of time domain symbols or absolute time.

Or the second interval is the time interval between the time slot of the first time domain symbol of the resource corresponding to the UCI and the time slot of the first time domain symbol of the first time window, and the metering mode can be the number of the time slots or absolute time.

Or, the second interval is the number of TO between the resource corresponding TO the UCI and the first time window.

In one implementation, a second interval between a first time domain symbol of a resource to which the UCI is expected to correspond by the terminal and a first time domain symbol of the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, a second interval between a time slot in which a first time domain symbol of a resource corresponding to the expected UCI of the terminal is located and a time slot in which the first time domain symbol of the first time window is located is not smaller than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, a second interval between a resource for which the terminal is expected to correspond to the UCI and the first time window is not less than a second interval threshold; or the second interval is not less than the second interval threshold and not greater than the fourth interval threshold; or the second interval is not greater than the fourth interval threshold.

In one implementation, a second interval between a first time domain symbol of a resource to which the terminal is not expected to correspond to the UCI and a first time domain symbol of the first time window is less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In one implementation, a second interval between a time slot in which a first time domain symbol of a resource corresponding to the UCI is not expected by the terminal and a time slot in which the first time domain symbol of the first time window is located is smaller than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In one implementation, a second interval between resources for which the terminal is not expected to correspond to UCI to the first time window is less than a second interval threshold; or the second interval is greater than the fourth interval threshold.

In summary, the network device receives first information sent by the terminal on a resource corresponding TO the UCI, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the network equipment can determine the unused TO of the terminal contained in the first time window according TO the use state of the TO which is sent by the received terminal on the resource corresponding TO the UCI and meets the interval threshold, so that enough time can be available for resource scheduling, the unused TO of the terminal can be reused in time, and the throughput of the system is improved.

Referring to fig. 13, fig. 13 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 13, the method is applied to a network device, and the method may include, but is not limited to, the following steps:

step 1301, a first interval threshold and/or a second interval threshold is determined.

Optionally, the network device may determine the first interval threshold and/or the second interval threshold according to a protocol convention.

Wherein the contents of the protocol conventions may include at least one of: a start point of the first interval threshold, an end point of the first interval threshold, the first interval threshold; a start of the second interval threshold, an end of the second interval threshold, and a second interval threshold.

Optionally, the network device may also determine the first interval threshold and/or the second interval threshold according to the configuration information.

Wherein the configuration information may include at least one of: a start point of the first interval threshold, an end point of the first interval threshold, the first interval threshold; a start of the second interval threshold, an end of the second interval threshold, and a second interval threshold.

Optionally, after determining the first interval threshold and/or the second interval threshold according to the protocol convention or the configuration information, the network device may send indication information to the terminal, where the indication information is used to indicate the first interval threshold and/or the second interval threshold.

The indication information includes, but is not limited to, downlink Control information (Downlink Control Information, DCI), a media access Control (medium access Control, MAC) Control Element (CE), and RRC signaling, where the content included in the indication information includes at least one of the following: a start point of the first interval threshold, an end point of the first interval threshold, the first interval threshold; a start of the second interval threshold, an end of the second interval threshold, and a second interval threshold.

Optionally, the network device may further determine a value of the specified information field in the indication information according to the first interval threshold and/or the second interval threshold. Therefore, the terminal equipment can determine the first interval threshold value and/or the second interval threshold value according to the value of the designated information domain in the indication information.

The indication information field may be an information field included in the indication information and used for indicating the first interval threshold and/or the second interval threshold.

For example, the network device may configure the first interval threshold through the first RRC signaling, where the value of the information field in the designated information field of the first RRC signaling for indicating the first interval threshold may be { XRtimeline1, XRtimeline2}, XRtimeline1 is predefined as 14 symbols by the protocol, and XRtimeline2 is defined as 28 symbols by the protocol. When the value of the information field used for indicating the first interval threshold in the designated information field of the first RRC signaling is XRtimeline2, it means that the distance between the terminal transmitting the first information and the first resource is not less than 28 symbols.

It should be noted that, in the embodiment of the present disclosure, the number of the available values of the indication information field and the number of symbols corresponding to each value are not particularly limited.

Optionally, the network device may further determine the first interval threshold and/or the second interval threshold according to the second information sent by the terminal.

Wherein the second information is used for indicating the first interval threshold and/or the second interval threshold.

The second information may include a first interval threshold and/or a second interval threshold. Or, the network device may also include identifiers corresponding to the first interval threshold and/or the second interval threshold, so that the network device may determine the first interval threshold and/or the second interval threshold according to the identifiers corresponding to the first interval threshold and/or the second interval threshold.

In the disclosure, if the protocol agrees with the plurality of candidate intervals, the terminal device may select the first interval threshold and/or the second interval threshold from the plurality of candidate intervals agreed with the protocol, and then send the selected first interval threshold and/or second interval threshold to the network device through the second information.

In some possible implementations, a third interval threshold and/or a fourth interval threshold may also be determined.

The third interval threshold may be a maximum time interval between the preset first resource and the TO indicated by the first information. I.e. in case the first interval between the first resource and the TO indicated by the first information is smaller than the third interval threshold, the TO not used by the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

The fourth interval threshold may be a preset maximum time interval between the first resource and the first time window. I.e. in case the second interval between the first resource and the first time window is smaller than the fourth interval threshold, the unused TO of the terminal may be reassigned by the network device TO the other terminal or TO the terminal.

Optionally, the specific implementation of determining the third interval threshold and/or the fourth interval threshold is the same as the specific implementation of determining the first interval threshold and/or the second interval threshold. Comprising any one of the following:

determining a third interval threshold and/or a fourth interval threshold according to the protocol convention;

determining a third interval threshold and/or a fourth interval threshold according to the indication information sent by the network equipment;

the third interval threshold and/or the fourth interval threshold is selected from a plurality of candidate intervals agreed upon by the protocol.

In step 1302, first information sent by the terminal on the first resource is received, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

In summary, the network device may determine a first interval threshold and/or a second interval threshold, and receive first information sent by the terminal on the first resource, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than the first interval threshold, or a second interval between the first resource and the first time window is not less than the second interval threshold. Therefore, the network equipment can accurately determine the TO TO be scheduled meeting the interval threshold value contained in the first time window according TO the first interval threshold value and/or the second interval threshold value, so that enough time can be available for resource scheduling, unused TO of the terminal can be reused in time, and the throughput of the system is improved.

Referring to fig. 14, fig. 14 is a flowchart of an information transmission method according to an embodiment of the disclosure. As shown in fig. 14, the method is applied to a network device, and the method may include, but is not limited to, the following steps:

in step 1401, first information sent by the terminal on the first resource is received, where the first information is used TO indicate a usage state of the terminal for the transmission opportunity TO in the first time window, and a second interval between the first resource and the first time window is not less than a second interval threshold.

In the present disclosure, a terminal is expected not TO be included in the indication range of dynamic indication information in a TO that does not conform TO a timeline (timeline).

I.e. each TO contained in the first time window indicated by the first information sent by the terminal accords with timeline. For example, a first interval between each TO and a first resource within a first time window is greater than a first interval threshold.

For example, the network terminal configures four TO (TO 0, TO1, TO2, TO 3) for the terminal, the first two TO (TO 0, TO 1) do not conform TO the timeline, and the second two TO (TO 2, TO 3) conform TO the timeline, and the first time window only includes TO2, TO3.

In the present disclosure, the indication range of the dynamic indication information that the terminal is not expected TO send by the terminal includes TO that does not conform TO timeline.

I.e. TO that may be contained in the first time window that does not match timeline. After receiving the first information, the network device filters out the TOs which do not meet the timeline and are contained in the first time window, and only processes the TOs which meet the timeline.

For example, the network terminal configures four TO (TO 0, TO1, TO2, TO 3) for the terminal, the first two TO (TO 0, TO 1) do not conform TO the timeline, and the second two TO (TO 2, TO 3) conform TO the timeline, and the first time window may include TO0, TO1, TO2, TO3.

In the present disclosure, the terminal is expected to transmit the first information before the second interval threshold of the first time window.

In this disclosure, a terminal is expected TO send first information before a first interval threshold for a first TO of a first time window.

In this disclosure, the terminal is expected TO send the first information before a first interval threshold of a first unused TO of the first time window.

In the present disclosure, the terminal is expected to transmit the first information after a fourth interval threshold of the first time window.

In this disclosure, the terminal is expected TO send the first information after a third interval threshold of a first TO of the first time window.

In this disclosure, the terminal is expected TO send the first information after a third interval threshold of the first unused TO of the first time window.

In the present disclosure, the terminal is expected to transmit the first information before the second interval threshold and after the fourth interval threshold of the first time window.

In this disclosure, the terminal is expected TO send the first information before a first interval threshold and after a third interval threshold for a first TO of the first time window.

In the present disclosure, the terminal is expected TO send the first information before a first interval threshold of a first unused TO of the first time window and after a third interval threshold.

Optionally, a first interval between a second CG PUSCH TO included in the first time window and the first resource is smaller than a first interval threshold, and the second CG PUSCH TO is a TO used by the terminal.

In the implementation of the present disclosure, if the second interval between the first resource and the first time window is not less than the second interval threshold, the first interval between the TO used by the terminal device and the first resource included in the first time window may be less than the first interval threshold. I.e. the first interval between the first resource and the first time window may be comprised within the first time window may be smaller than the first interval threshold and the TO used by the terminal.

Or, a first interval between a third CG PUSCH TO included in the first time window and the first resource is smaller than a first interval threshold, and the third CG PUSCH TO is a TO unused by the terminal.

In the embodiment of the present disclosure, if the second interval between the first resource and the first time window is not less than the second interval threshold, the first interval between the unused TO of the terminal device included in the first time window and the first resource may be less than the first interval threshold. I.e. the first interval between the first resource and the first time window may also be comprised within the first time window, which is smaller than the first interval threshold, and TO which the terminal is not using.

Step 1402, determining TO be scheduled TO within a first time window according TO a first interval threshold.

The TO TO be scheduled in the first time window is a TO which is not smaller than a first interval threshold value and is unused in a use state, wherein the first interval between the TO TO be scheduled in the first time window and the first resource is not smaller than the first interval threshold value.

In the present disclosure, if the second interval between the first time window and the first resource is not less than the second interval threshold, the first time window may include TO with the first interval between the first time window and the first resource being less than the first interval threshold. But the first interval with the first resource is less than the first interval threshold and unused TO may not be reassigned by the network device TO other terminals or TO the terminal again. Therefore, it is necessary TO determine, further according TO the first interval threshold, that the first interval between the first resource and the first time window is not smaller than the first interval threshold, and that the unused TO, i.e. the TO be scheduled, is not smaller than the first interval threshold.

In the disclosure, a network device receives first information sent by a terminal on a first resource, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in a first time window, a second interval between the first resource and the first time window is not less than a second interval threshold, and then TO-be-scheduled TO in the first time window is determined according TO the first interval threshold. Therefore, under the condition that the first interval between the first time window and the first resource is not smaller than the first interval threshold and the use state is unused TO, the TO TO be scheduled meeting the interval threshold in the first time window can be determined according TO the first interval threshold, so that the TO TO be scheduled can be rescheduled, unused TO of the terminal can be reused in time, and the system throughput is improved.

Fig. 15 is a schematic structural diagram of a communication device according to an embodiment of the disclosure. The communication device 1500 shown in fig. 15 may include a transceiver module 1501 and a processing module 1502. The transceiver module may include a transmitting module and/or a receiving module, where the transmitting module is configured to implement a transmitting function, the receiving module is configured to implement a receiving function, and the transceiver module may implement the transmitting function and/or the receiving function.

The communication device 1500 may be a terminal, a device in a terminal, or a device that can be used in cooperation with a terminal.

The communication apparatus 1500 is on the terminal side, wherein:

a transceiver module 1501, configured TO send first information TO a network device on a first resource, where the first information is configured TO indicate a usage state of a transmission opportunity TO configured TO a terminal by the network device in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold;

in some possible implementations, the first resource is any one of:

the first configuration authorized transmission opportunity CG PUSCHTO;

CG PUSCH carrying first information;

PUSCH of a dynamic grant DG carrying first information;

a Physical Uplink Control Channel (PUCCH) carrying first information;

resources corresponding to uplink control information UCI carrying first information.

In some possible implementations, the first interval is any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

The interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window;

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

In some possible implementations, the second interval is any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

number of TOs between the first resource and the first time window.

In some possible implementations, the first time domain symbol includes:

the first time domain symbol and/or the last time domain symbol.

In some possible implementations, further comprising:

a processing module 1502 is configured to determine a first interval threshold and/or a second interval threshold.

In some possible implementations, the processing module 1502 is configured to:

determining a first interval threshold and/or a second interval threshold according to a protocol convention;

determining a first interval threshold and/or a second interval threshold according to indication information sent by the network equipment;

the first interval threshold and/or the second interval threshold is selected from a plurality of candidate intervals agreed upon by the protocol.

In some possible implementations, the processing module 1502 is further configured to:

and determining a first interval threshold and/or a second interval threshold according to the value of the designated information field in the indication information.

In some possible implementations, the transceiver module 1501 is configured to:

and sending second information to the network device, wherein the second information indicates the first interval threshold and/or the second interval threshold.

In some of the possible implementations of the present invention,

the first interval between the second CG PUSCH TO and the first resource contained in the first time window is smaller than a first interval threshold, and the second CG PUSCH TO is the TO used by the terminal; or alternatively, the process may be performed,

the first interval between the third CG PUSCH TO and the first resource included in the first time window is smaller than a first interval threshold, and the third CG PUSCH TO is a TO unused by the terminal.

In summary, the terminal may send first information TO the network device on a first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured by the network device TO the terminal in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the terminal sends the use state of the TO meeting the interval threshold TO the network equipment, so that the network equipment can have enough time for resource scheduling after determining the unused TO of the terminal, the unused TO of the terminal can be reused in time, and the system throughput is improved.

The communication apparatus 1500 may be a network device, an apparatus in a network device, or an apparatus that can be used in cooperation with a network device.

The communication apparatus 1500 is on the network device side, wherein:

and the transceiver module 1501 receives first information sent by the terminal on a first resource, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

In some possible implementations, the first resource is any one of:

the first configuration authorized transmission opportunity CG PUSCHTO;

CG PUSCH carrying first information;

PUSCH of a dynamic grant DG carrying first information;

a Physical Uplink Control Channel (PUCCH) carrying first information;

resources corresponding to uplink control information UCI carrying first information.

In some possible implementations, the first interval is any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

the number of TOs between the first resource and the first TO within the first time window;

an interval between a first time domain symbol of a first resource and a first time domain symbol of a first unused TO within a first time window;

the interval between a first time slot where a first time domain symbol of a first resource is located and a second time slot where a first unused first time domain symbol of a TO is located in a first time window;

the number of TOs between the first resource and the first unused TO within the first time window.

In some possible implementations, the second interval is any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first time window;

a first time slot where a first time domain symbol of the first resource is located, and a first time domain symbol of a first time window

The interval between the second time slots;

number of TOs between the first resource and the first time window.

In some possible implementations, the first time domain symbol includes:

the first time domain symbol and/or the last time domain symbol.

In some possible implementations, the processing module 1502 further includes:

a first interval threshold and/or a second interval threshold is determined.

In some possible implementations, the processing module 1502 further includes:

determining a first interval threshold and/or a second interval threshold according to a protocol convention;

determining a first interval threshold and/or a second interval threshold according to the configuration information;

and determining the first interval threshold and/or the second interval threshold according to the second information sent by the terminal.

In some possible implementations, the transceiver module 1501 is further included for:

and sending indication information to the terminal, wherein the indication information is used for indicating the first interval threshold value and/or the second interval threshold value.

In some possible implementations, the processing module 1502 is further configured to:

and determining the value of the designated information domain in the indication information according to the first interval threshold value and/or the second interval threshold value.

In some possible implementations, a first interval between a second CG PUSCH TO included in the first time window and the first resource is less than a first interval threshold, the second CG PUSCH TO being a TO used by the terminal; or alternatively, the process may be performed,

the first interval between the third CG PUSCH TO and the first resource included in the first time window is smaller than a first interval threshold, and the third CG PUSCH TO is a TO unused by the terminal.

In some possible implementations, the processing module 1502 is further configured to:

and determining the TO TO be scheduled in the first time window according TO the first interval threshold.

The communication device 1500 provided in the above embodiments of the present disclosure achieves the same or similar advantages as the information transmission method provided in some of the above embodiments, and is not described herein again.

In summary, the network device receives first information sent by the terminal on the CG PUSCH, or the DG PUSCH, or the PUCCH, where the first information is used TO indicate a usage state of the terminal for a transmission opportunity TO in the first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold. Therefore, the network device can determine the unused TO of the terminal contained in the first time window according TO the usage state of the TO meeting the interval threshold value, which is sent by the received terminal on the CG PUSCH, the DG PUSCH or the PUCCH, so that enough time can be available for resource scheduling, the unused TO of the terminal can be reused in time, and the throughput of the system is improved.

Referring to fig. 16, fig. 16 is a schematic structural diagram of another communication device 1600 according to an embodiment of the disclosure. The communication device 1600 may be a terminal, a network device, a chip system, a processor, or the like that supports the terminal to implement the above method, or a chip, a chip system, a processor, or the like that supports the network device to implement the above method. The communication device 1600 may be used to implement the methods described in the method embodiments described above, and reference may be made in particular to the description of the method embodiments described above.

The communications device 1600 may include one or more processors 1601. The processor 1601 may be a general purpose processor or a special purpose processor, or the like. For example, a baseband processor or a central processing unit. The baseband processor may be used to process communication protocols and communication data, and the central processor may be used to control communication apparatuses (e.g., network side devices, baseband chips, terminals, terminal chips, DUs or CUs, etc.), execute computer programs, and process data of the computer programs.

In some possible implementations, the communications device 1600 may also include one or more memories 1602 on which a computer program 1604 may be stored, the memories 1602 executing the computer program 1604 to cause the communications device 1600 to perform the methods described in the method embodiments above. In some possible implementations, the memory 1602 may also have data stored therein. The communication device 1600 and the memory 1602 may be provided separately or may be integrated.

In some possible implementations, the communication device 1600 may also include a transceiver 1605, an antenna 1606. The transceiver 1605 may be referred to as a transceiver unit, transceiver circuitry, or the like, for implementing a transceiver function. The transceiver 1605 may include a receiver, which may be referred to as a receiver or a receiving circuit, etc., for implementing a receiving function, and a transmitter; the transmitter may be referred to as a transmitter or a transmitting circuit, etc., for implementing a transmitting function.

In some possible implementations, one or more interface circuits 1607 may also be included in the communication device 1600. The interface circuit 1607 is for receiving code instructions and transmitting to the processor 1601. The processor 1601 executes code instructions to cause the communication device 1600 to perform the method described in the method embodiments described above.

In one implementation, a transceiver for implementing the receive and transmit functions may be included in processor 1601. For example, the transceiver may be a transceiver circuit, or an interface circuit. The transceiver circuitry, interface or interface circuitry for implementing the receive and transmit functions may be separate or may be integrated. The transceiver circuit, interface or interface circuit may be used for reading and writing codes/data, or the transceiver circuit, interface or interface circuit may be used for transmitting or transferring signals.

In one implementation, the processor 1601 may store a computer program 1603, and the computer program 1603 runs on the processor 1601, may cause the communication device 1600 to perform the method described in the method embodiments above. The computer program 1603 may be solidified in the processor 1601, in which case the processor 1601 may be implemented by hardware.

In one implementation, the communication device 1600 may include circuitry that may implement the functions of transmitting or receiving or communicating in the foregoing method embodiments. The processors and transceivers described in this disclosure may be implemented on integrated circuits (integrated circuit, ICs), analog ICs, radio frequency integrated circuits RFICs, mixed signal ICs, application specific integrated circuits (application specific integrated circuit, ASIC), printed circuit boards (printed circuit board, PCB), electronic devices, and the like. The processor and transceiver may also be fabricated using a variety of IC process technologies such as complementary metal oxide semiconductor (complementary metal oxide semiconductor, CMOS), N-type metal oxide semiconductor (NMOS), P-type metal oxide semiconductor (positive channel metal oxide semiconductor, PMOS), bipolar junction transistor (bipolar junction transistor, BJT), bipolar CMOS (BiCMOS), silicon germanium (SiGe), gallium arsenide (GaAs), etc.

The communication device described in the above embodiment may be a terminal, but the scope of the communication device described in the present disclosure is not limited thereto, and the structure of the communication device may not be limited by fig. 16. The communication means may be a stand-alone device or may be part of a larger device. For example, the communication device may be:

(1) A stand-alone integrated circuit IC, or chip, or a system-on-a-chip or subsystem;

(2) A set of one or more ICs, which in some possible implementations may also include storage means for storing data, a computer program;

(3) An ASIC, such as a Modem (Modem);

(4) Modules that may be embedded within other devices;

(5) Receivers, terminals, smart terminals, cellular telephones, wireless devices, handsets, mobile units, vehicle devices, network devices, cloud devices, artificial intelligence devices, etc.;

(6) Others, and so on.

In the case where the communication device may be a chip or a chip system, please refer to fig. 17, which is a block diagram of a chip provided in an embodiment of the disclosure.

Chip 1700 includes a processor 1701 and an interface 1703. Wherein the number of processors 1701 may be one or more, and the number of interfaces 1703 may be a plurality.

For the case where the chip is used to implement the functions of the terminal in the embodiments of the present disclosure:

an interface 1703 for receiving code instructions and transmitting to the processor.

A processor 1701 for executing code instructions to perform the information transmission method of some embodiments as described above.

For the case where the chip is used to implement the function of the transmitting end in the embodiments of the present disclosure:

an interface 1703 for receiving code instructions and transmitting to the processor.

A processor 1701 for executing code instructions to perform the information transmission method of some embodiments as described above.

In some possible implementations, the chip 1700 also includes a memory 1702, the memory 1702 for storing the necessary computer programs and data.

Those of skill in the art will further appreciate that the various illustrative logical blocks (illustrative logical block) and steps (step) described in connection with the embodiments of the disclosure may be implemented by electronic hardware, computer software, or combinations of both. Whether such functionality is implemented as hardware or software depends upon the particular application and design requirements of the overall system. Those skilled in the art may implement the described functionality in varying ways for each particular application, but such implementation is not to be understood as beyond the scope of the embodiments of the present disclosure.

The embodiment of the present disclosure also provides a communication system, which includes the communication apparatus as a terminal in the embodiment of fig. 14, the communication apparatus as a network device, or the system includes the communication apparatus as a terminal and the communication apparatus as a network device in the embodiment of fig. 15.

The present disclosure also provides a readable storage medium having instructions stored thereon which, when executed by a computer, perform the functions of any of the method embodiments described above.

The present disclosure also provides a computer program product which, when executed by a computer, performs the functions of any of the method embodiments described above.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product comprises one or more computer programs. When the computer program is loaded and executed on a computer, the flow or functions described in accordance with the embodiments of the present disclosure are produced in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus. The computer program may be stored in or transmitted from one computer readable storage medium to another, for example, by wired (e.g., coaxial cable, optical fiber, digital subscriber line (digital subscriber line, DSL)) or wireless (e.g., infrared, wireless, microwave, etc.) means from one website, computer, server, or data center. The computer readable storage medium may be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that contains an integration of one or more available media. The usable medium may be a magnetic medium (e.g., a floppy disk, a hard disk, a magnetic tape), an optical medium (e.g., a high-density digital video disc (digital video disc, DVD)), or a semiconductor medium (e.g., a Solid State Disk (SSD)), or the like.

Those of ordinary skill in the art will appreciate that: the various numbers of first, second, etc. referred to in this disclosure are merely for ease of description and are not intended to limit the scope of embodiments of this disclosure, nor to indicate sequencing.

At least one of the present disclosure may also be described as one or more, a plurality may be two, three, four, or more, "and/or," describing an association relationship of associated objects, the representation may exist in three relationships, e.g., a and/or B, may represent: a alone, a and B together, and B alone, wherein a, B may be singular or plural. The character "/" generally indicates that the context-dependent object is an "or" relationship. "at least one of" or the like means any combination of these items, including any combination of single item(s) or plural items(s). For example, at least one (one) of a, b, and c may represent: a, or b, or c, or a and b, or a and c, or b and c, or a, b and c. Wherein a, b and c can be single or multiple respectively. The present disclosure is not limited. In the embodiment of the disclosure, for a technical feature, the technical features in the technical feature are distinguished by "first", "second", "third", "a", "B", "C", and "D", and the technical features described by "first", "second", "third", "a", "B", "C", and "D" are not in sequence or in order of magnitude.

The correspondence relationships shown in the tables in the present disclosure may be configured or predefined. The values of the information in each table are merely examples, and may be configured as other values, and the present disclosure is not limited thereto. In the case of the correspondence between the configuration information and each parameter, it is not necessarily required to configure all the correspondence shown in each table. For example, in the table in the present disclosure, the correspondence shown by some rows may not be configured. For another example, appropriate morphing adjustments, e.g., splitting, merging, etc., may be made based on the tables described above. The names of the parameters indicated in the tables may be other names which are understood by the communication device, and the values or expressions of the parameters may be other values or expressions which are understood by the communication device. When the tables are implemented, other data structures may be used, for example, an array, a queue, a container, a stack, a linear table, a pointer, a linked list, a tree, a graph, a structure, a class, a heap, a hash table, or a hash table.

Predefined in this disclosure may be understood as defining, predefining, storing, pre-negotiating, pre-configuring, curing, or pre-sintering.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present disclosure.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

The foregoing is merely specific embodiments of the disclosure, but the protection scope of the disclosure is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the disclosure, and it is intended to cover the scope of the disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims (27)

1. An information transmission method, performed by a terminal, the method comprising:

transmitting first information TO the network device on a first resource, wherein the first information is used for indicating the use state of a transmission opportunity TO configured TO the terminal by the network device in a first time window,

wherein a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold; or, the second interval between the first resource and the first time window is not smaller than a second interval threshold.

2. The method of claim 1, wherein the first resource is any one of:

the first configuration authorized transmission opportunity CG PUSCHTO;

CG PUSCH carrying the first information;

PUSCH of a dynamic grant DG carrying the first information;

a Physical Uplink Control Channel (PUCCH) carrying the first information;

and carrying resources corresponding to the uplink control information UCI of the first information.

3. The method of claim 1, wherein the first interval is any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

a number of TOs between the first resource and a first TO within the first time window;

an interval between a first time domain symbol of the first resource and a first time domain symbol of a first unused TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first unused TO is located in the first time window;

The number of TOs between the first resource and a first unused TO within the first time window.

4. The method of claim 1, wherein the second interval is any one of:

an interval between a first time domain symbol of the first resource and a first time domain symbol of the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first time window is located;

the first resource and the number of TO for the first time window.

5. The method of any of claims 3-4, wherein the first time domain symbol comprises:

the first time domain symbol and/or the last time domain symbol.

6. The method of any one of claims 1-5, further comprising:

the first interval threshold and/or the second interval threshold are determined.

7. The method of claim 6, wherein the determining the first interval threshold and/or the second interval threshold comprises any one of:

determining the first interval threshold and/or the second interval threshold according to protocol conventions;

determining the first interval threshold and/or the second interval threshold according to the indication information sent by the network equipment;

The first interval threshold and/or the second interval threshold are selected from a plurality of candidate intervals agreed upon by a protocol.

8. The method of claim 7, wherein the determining the first interval threshold and/or the second interval threshold according to the indication information sent by the network device comprises:

and determining the first interval threshold and/or the second interval threshold according to the value of the designated information field in the indication information.

9. The method as recited in claim 7, further comprising:

and sending second information to the network equipment, wherein the second information indicates the first interval threshold value and/or a second interval threshold value.

10. The method of any one of claim 1 to 9, wherein,

a first interval between a second CG PUSCH TO contained in the first time window and the first resource is smaller than the first interval threshold, and the second CG PUSCH TO is a TO used by the terminal; or alternatively, the process may be performed,

and a first interval between a third CG PUSCH TO contained in the first time window and the first resource is smaller than the first interval threshold, wherein the third CG PUSCH TO is a TO unused by the terminal.

11. An information transmission method, performed by a network device, the method comprising:

And receiving first information sent by the terminal on a first resource, wherein the first information is used for indicating the use state of the terminal for the transmission time TO in a first time window, and a first interval between the first resource and the TO indicated by the first information is not smaller than a first interval threshold value, or a second interval between the first resource and the first time window is not smaller than a second interval threshold value.

12. The method of claim 11, wherein the first resource is any one of:

the method comprises the steps of configuring authorized transmission time CG PUSCH TO, carrying CG PUSCH of the first information, carrying PUSCH of dynamic authorized DG of the first information, carrying physical uplink control channel PUCCH of the first information, and carrying resources corresponding TO uplink control information UCI of the first information.

13. The method of claim 11, wherein the first interval is any one of:

a space between the first time domain symbol of the first resource and the first time domain symbol of the first TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first TO is located in the first time window;

A number of TOs between the first resource and a first TO within the first time window;

an interval between a first time domain symbol of the first resource and a first time domain symbol of a first unused TO within the first time window;

the interval between the first time slot where the first time domain symbol of the first resource is located and the second time slot where the first time domain symbol of the first unused TO is located in the first time window;

the number of TOs between the first resource and a first unused TO within the first time window.

14. The method of claim 11, wherein the second interval is any one of:

an interval between a first time domain symbol of the first resource and a first time domain symbol of the first time window;

a first time slot where a first time domain symbol of the first resource is located, and a first time domain symbol of the first time window

The interval between the second time slots;

the number of TOs between the first resource and the first time window.

15. The method of any of claims 13-14, wherein the first time domain symbol comprises:

the first time domain symbol and/or the last time domain symbol.

16. The method of any one of claims 11-15, further comprising:

the first interval threshold and/or the second interval threshold are determined.

17. The method of claim 16, wherein the determining the first interval threshold and/or the second interval threshold comprises any one of:

determining the first interval threshold and/or the second interval threshold according to a protocol convention;

determining the first interval threshold and/or the second interval threshold according to configuration information;

and determining the first interval threshold and/or the second interval threshold according to the second information sent by the terminal.

18. The method as recited in claim 17, further comprising:

and sending indication information to the terminal, wherein the indication information is used for indicating the first interval threshold value and/or the second interval threshold value.

19. The method as recited in claim 18, further comprising:

and determining the value of the designated information field in the indication information according to the first interval threshold value and/or the second interval threshold value.

20. The method of any one of claim 11 to 19,

A first interval between a second CG PUSCH TO contained in the first time window and the first resource is smaller than the first interval threshold, and the second CG PUSCH TO is a TO used by the terminal; or alternatively, the process may be performed,

and a first interval between a third CG PUSCH TO contained in the first time window and the first resource is smaller than the first interval threshold, wherein the third CG PUSCH TO is a TO unused by the terminal.

21. The method as recited in claim 20, further comprising:

and determining the TO TO be scheduled in the first time window according TO the first interval threshold.

22. A terminal, comprising:

the transceiver module is configured TO send first information TO the network device on a first resource, where the first information is used TO indicate a usage state of a transmission opportunity TO configured TO the terminal by the network device in a first time window, and a first interval between the first resource and the TO indicated by the first information is not less than a first interval threshold, or a second interval between the first resource and the first time window is not less than a second interval threshold.

23. A network device, comprising:

The receiving and transmitting module is used for receiving first information sent by a terminal on a first resource, wherein the first information is used for indicating the use state of the terminal for the transmission time TO in a first time window, and a first interval between the first resource and the TO indicated by the first information is not smaller than a first interval threshold value, or a second interval between the first resource and the first time window is not smaller than a second interval threshold value.

24. A communication device, characterized in that the device comprises a processor and a memory, the memory having stored therein a computer program, the processor executing the computer program stored in the memory to cause the device to perform the method according to any one of claims 1 to 10, or the processor executing the computer program stored in the memory to cause the device to perform the method according to any one of claims 11 to 21.

25. A communication device, comprising: a processor and interface circuit;

the interface circuit is used for receiving code instructions and transmitting the code instructions to the processor;

the processor for executing the code instructions to perform the method of any one of claims 1 to 10 or for executing the code instructions to perform the method of any one of claims 11 to 21.

26. A communication system, comprising a terminal and a network device;

the terminal being configured to perform the method of any of claims 1 to 10, the network device being configured to perform the method of any of claims 11 to 21.

27. A computer readable storage medium storing instructions which, when executed, cause the method of any one of claims 1 to 10 to be implemented or which, when executed, cause the method of any one of claims 11 to 21 to be implemented.