CN116489674A - Information reporting method and device - Google Patents

Abstract

The application discloses an information reporting method and device, which are applied to the technical field of communication. The method comprises the following steps: determining time domain channel attribute information based on the tracking reference signal TRS; and if the time domain channel attribute information meets the reporting condition, sending the time domain channel attribute information to the network equipment through the Physical Uplink Shared Channel (PUSCH) resource. In this way, the network device is enabled to acquire the time domain channel attribute information, thereby being beneficial to improving the communication quality between the terminal device and the network device.

Description

Information reporting method and device

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to an information reporting method and an apparatus thereof.

Background

With the evolution of communication technology, requirements for communication are increasing, for example, requirements for high reliability, low latency, large bandwidth, wide coverage, and the like are being put on a communication system. In a communication system, the quality of a channel can have a great influence on communication between a terminal device and a network device. And the channel may vary due to time, the environment surrounding the terminal device, etc., which may result in poor communication quality between the terminal device and the network device. Therefore, how to improve the communication quality between the terminal device and the network device is a technical problem to be solved.

Disclosure of Invention

The application discloses an information reporting method and a device thereof, which enable network equipment to acquire time domain channel attribute information, thereby being beneficial to improving the communication quality between terminal equipment and network equipment.

In a first aspect, an embodiment of the present application provides an information reporting method, where the method includes: determining time domain channel attribute information based on the tracking reference signal TRS; and if the time domain channel attribute information meets the reporting condition, sending the time domain channel attribute information to the network equipment through the Physical Uplink Shared Channel (PUSCH) resource.

In an optional implementation manner, if the time domain channel attribute information meets the reporting condition, the sending the time domain channel attribute information to the network device through the PUSCH resource of the physical uplink shared channel further includes: if the time domain channel attribute information meets the reporting condition and no resource for transmitting the time domain channel attribute information exists, determining request information, wherein the request information is used for requesting the network equipment to allocate the PUSCH resource.

In an alternative embodiment, the method may further comprise: the method comprises the steps of obtaining conflict resources corresponding to request information, wherein the conflict resources comprise conflict channels and/or conflict signals; wherein the collision channel comprises a first physical channel and at least one second physical channel in collision with the first physical channel, and the collision signal comprises at least one physical signal in collision with the first physical channel; respectively acquiring priorities corresponding to the first physical channel and the at least one second physical channel and/or the at least one physical signal according to the conflict resource; processing the request information according to the priority to obtain target information; the target information is sent to the network device.

In an alternative embodiment, the specific embodiment of processing request information according to the priority may be: and discarding the information carried by the physical channels with the priorities lower than the first preset priority and/or the physical signals with the priorities lower than the first preset priority in the conflict resources.

In an optional implementation manner, the specific implementation manner of discarding the information carried by the physical channel with the priority lower than the first preset priority and/or the physical signal with the priority lower than the first preset priority in the collision resource may be: discarding information carried by the first physical channel or discarding information carried by the at least one second physical channel or discarding the at least one physical signal.

In an optional implementation manner, the first physical channel is a physical uplink control channel PUCCH-reporting carrying the request information, and the at least one physical signal is a sounding reference signal SRS.

In an optional implementation manner, the first physical channel is PUCCH-reporting carrying the foregoing request information, the request information carried by the PUCCH-reporting is active SR, and the PUCCH format corresponding to the PUCCH-reporting is format 0; the at least one second physical channel comprises a PUCCH carrying a HARQ-ACK, and the PUCCH corresponds to PUCCH format 1.

In an optional implementation manner, the first physical channel is PUCCH-reporting carrying request information, the request information carried by the PUCCH-reporting is a positive SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0 or format 1; the at least one second physical channel includes a physical uplink control channel PUCCH-BFR for a beam failure recovery event or a link recovery procedure of the secondary serving cell, an SR carried by the PUCCH-BFR is a positive SR, and a PUCCH format corresponding to the PUCCH-BFR is format 0 or format 1.

In an alternative embodiment, the specific embodiment of processing request information according to the priority may be: multiplexing information carried by the physical channels with the priority lower than the second preset priority in the conflict channels to the physical channels with the priority not lower than the third preset priority in the conflict channels.

In an optional implementation manner, the specific implementation manner of multiplexing the information carried by the physical channel with the priority lower than the second preset priority in the conflict channel to the physical channel with the priority not lower than the third preset priority in the conflict channel may be: multiplexing information carried by the first physical channel to a fourth physical channel; or multiplexing the information carried by the first physical channel and the information carried by at least one third physical channel to a fourth physical channel; wherein the at least one third physical channel and the fourth physical channel are physical channels of the at least one second physical channel.

In an alternative embodiment, the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel comprises K first PUCCH carrying SRs and one second PUCCH carrying HARQ-ACK or channel state information CSI, K is an integer, and the PUCCH format corresponding to the second PUCCH is format 2 or format 3 or format 4; the specific implementation manner of multiplexing the information carried by the first physical channel and the information carried by the at least one third physical channel to the fourth physical channel may be: k+1 SRsA number of bits are multiplexed to the second PUCCH.

In an alternative embodiment, in the case where the SR carried by PUCCH-reporting is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The K bits are used to indicate K SRs carried by the first PUCCH, and the K SRs are negative SR.

In an alternative embodiment, the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by PUCCH-reporting is SR; the at least one second physical channel comprises a PUCCH-BFR, M third PUCCHs carrying SRs and a fourth PUCCH carrying HARQ-ACK or CSI, M is an integer, and the PUCCH lattice corresponding to the fourth PUCCH The formula is format 2 or format 3 or format 4; the specific implementation manner of multiplexing the information carried by the first physical channel and the information carried by the at least one third physical channel to the fourth physical channel may be: m+2 SRsThe bits are multiplexed to the fourth PUCCH.

In an alternative embodiment, in the case where the SR carried by PUCCH-reporting is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or the SRs carried by the PUCCH-BFR, and the M SRs are negative SRs.

In an alternative embodiment, in the case where the SR carried by the PUCCH-BFR is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-BFR, and the SR carried by the PUCCH-BFR is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or SRs carried by the aforementioned PUCCH-reporting, where the M SRs are negative SRs.

In an alternative embodiment, the specific embodiment of processing request information according to the priority may be: and adjusting the transmission power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the conflict resource.

In an alternative embodiment, the priority class of the first physical channel and the at least one second physical channel are the same.

In an alternative embodiment, the time domain channel attribute information satisfies the reporting condition, including one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

In an alternative embodiment, the time domain channel attribute information includes one or more of the following: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In an optional implementation manner, the specific implementation manner of sending the time domain channel attribute information to the network device through the physical uplink shared channel PUSCH resource may be: transmitting a medium access control-control unit MAC-CE to the network device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWP ID, TRS resource set index information, the time domain channel attribute information.

In a second aspect, an embodiment of the present application provides another information reporting method, where the method includes:

and receiving time domain channel attribute information from the terminal equipment through a Physical Uplink Shared Channel (PUSCH) resource, wherein the time domain channel attribute information meets the reporting condition, and the time domain channel attribute information is determined by the terminal equipment based on a Tracking Reference Signal (TRS).

In an alternative embodiment, the method further comprises: receiving target information from the terminal equipment, wherein the target information is a conflict resource corresponding to the request information, the conflict resource comprises a conflict channel and/or a conflict signal, the conflict channel comprises a first physical channel and at least one second physical channel which conflicts with the first physical channel, and the conflict signal comprises at least one physical signal which conflicts with the first physical channel; respectively acquiring the first physical channel, the at least one second physical channel and/or the priority corresponding to the at least one physical signal according to the conflict resource; and processing the request information according to the priority; the request information is used for requesting allocation of the PUSCH resources; the request information is determined by the terminal device in the case that the time domain channel attribute information satisfies a reporting condition and there is no resource for transmitting the time domain channel attribute information.

In an alternative embodiment, the time domain channel attribute information satisfies the reporting condition, including one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

In an alternative embodiment, the time domain channel attribute information includes one or more of the following: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In an optional implementation manner, the specific implementation manner of receiving the time domain channel attribute information from the terminal device through the physical uplink shared channel PUSCH resource may be: receiving a media access control-control unit, MAC-CE, from a terminal device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWPID, TRS resource set index information, time domain channel attribute information; the TRS described above belongs to the TRS resource set.

In a third aspect, an embodiment of the present application provides an information reporting apparatus, where the apparatus includes a unit configured to implement the method in the first aspect or the second aspect.

In a fourth aspect, an embodiment of the present application provides another information reporting apparatus, including a processor; the processor is configured to perform the method of the first aspect or the second aspect.

In an alternative embodiment, the information reporting device may further include a memory; the memory is used for storing a computer program; a processor, in particular for invoking a computer program from the memory, for performing the method according to the first or second aspect.

In a fifth aspect, embodiments of the present application provide a chip configured to perform the method of the first or second aspect.

In a sixth aspect, embodiments of the present application provide a chip module, the chip module including a communication interface and a chip, wherein: the communication interface is used for carrying out internal communication of the chip module or carrying out communication between the chip module and external equipment; the chip is for performing the method of the first or second aspect.

In a seventh aspect, embodiments of the present application provide a computer readable storage medium storing a computer program comprising program instructions which, when executed by a processor, cause the processor to perform the method according to the first or second aspect.

In an eighth aspect, embodiments of the present application provide a computer program product comprising a computer program or instructions which, when run on a computer, cause the computer to perform the method according to the first or second aspect.

In an embodiment of the present application, on the one hand, time domain channel attribute information is determined based on a tracking reference signal TRS; and if the time domain channel attribute information meets the reporting condition, sending the time domain channel attribute information to the network equipment through the Physical Uplink Shared Channel (PUSCH) resource. By actively reporting the time domain channel attribute information to the network equipment, the network equipment can timely acquire the time domain channel attribute information, thereby being beneficial to improving the communication quality between the terminal equipment and the network equipment. On the other hand, under the condition that the resource conflict exists, the conflict resource is processed according to one or more of the acquired channel and/or signal priority discarding, multiplexing and power adjusting modes, so that the correct transmission of the information is ensured, and the efficiency of the information transmission is improved.

Drawings

Fig. 1 is a schematic architecture diagram of a communication system according to an embodiment of the present application;

Fig. 2 is a flow chart of an information reporting method provided in the embodiment of the present application;

fig. 3 is a schematic flow chart of resolving PUCCH-reporting collision according to an embodiment of the present application;

FIG. 4 is a schematic diagram of resource conflict provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram of an information reporting device provided in an embodiment of the present application;

fig. 6 is a schematic structural diagram of another information reporting apparatus provided in the embodiment of the present application;

fig. 7 is a schematic structural diagram of another information reporting apparatus according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a chip module according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Referring to fig. 1, fig. 1 is a schematic architecture diagram of a communication system according to an embodiment of the present application. The communication system may include, but is not limited to, a terminal device and a network device, and the number and form of devices shown in fig. 1 are not limited to the embodiments of the present application, and may include two or more network devices and two or more terminal devices in practical applications. The communication system shown in fig. 1 is exemplified as including one terminal device 101 and one network device 102.

In this embodiment of the present application, the terminal device is a device with a wireless transceiver function, and may be referred to as a terminal (terminal), a User Equipment (UE), a Mobile Station (MS), a Mobile Terminal (MT), an access terminal device, a vehicle-mounted terminal device, an industrial control terminal device, a UE unit, a UE station, a mobile station, a remote terminal device, a mobile device, a UE terminal device, a wireless communication device, a UE agent, or a UE apparatus. The terminal device may be fixed or mobile. It should be noted that the terminal device may support at least one wireless communication technology, such as long term evolution (long time evolution, LTE), new Radio (NR), wideband code division multiple access (wideband code division multiple access, WCDMA), and so on. For example, the terminal device may be a mobile phone, a tablet, a desktop, a notebook, a kiosk, a car-mounted terminal, a Virtual Reality (VR) terminal device, an augmented reality (augmented reality, AR) terminal device, a wireless terminal in an industrial control (industrial control), a wireless terminal in a self-driving (self-driving), a wireless terminal in a teleoperation (remote medical surgery), a wireless terminal in a smart grid, a wireless terminal in a transportation security (transportation safety), a wireless terminal in a smart city, a wireless terminal in a 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 capabilities, a computing device or other processing device connected to a wireless modem, a wearable device, a terminal in a future mobile communication network, or a public land mobile network (public landmobile network) in a future mobile communication network, etc. In some embodiments of the present application, the terminal device may also be a device with a transceiver function, such as a chip module. The chip module may include a chip and may further include other discrete devices. The embodiment of the application does not limit the specific technology and the specific equipment form adopted by the terminal equipment.

In this embodiment of the present application, the network device is a device that provides a wireless communication function for a terminal device, where the network device may be AN Access Network (AN) device, and the AN device may be a radio access network (radio access network, RAN) device. Wherein the access network device may support at least one wireless communication technology, such as LTE, NR, WCDMA, etc. By way of example, access network devices include, but are not limited to: a next generation base station (gNB), evolved node B (eNB), radio network controller (radio network controller, RNC), node B (NB), base station controller (base station controller, BSC), base transceiver station (basetransceiver station, BTS), home base station (e.g., home evolved node B, or home node B, HNB), baseband unit (BBU), TRP, transmission point (transmitting point, TP), mobile switching center, etc. in the fifth generation mobile communication system (5 th-generation, 5G). The network device may also be a wireless controller, a Centralized Unit (CU) and/or a Distributed Unit (DU) in the cloud wireless access network (cloud radio access network, CRAN) scenario, or the access network device may be a relay station, an access point, a vehicle-mounted device, a terminal device, a wearable device, and an access network device in future mobile communication or an access network device in a future evolved PLMN, etc. In some embodiments, the network device may also be a device, such as a chip module, with the functionality to provide wireless communication for the terminal device. By way of example, the chip module may include a chip, and may include other discrete devices. The embodiment of the application does not limit the specific technology and the specific device form adopted by the network device.

It should be noted that the technical solution of the embodiment of the present application may be applied to various communication systems. For example: LTE communication system, 4th generation (4th generation,4G) mobile communication system, 5G NR system. Optionally, the method of the embodiments of the present application is also applicable to various future communication systems, such as a 6G system or other communication networks.

It may be understood that, the communication system described in the embodiments of the present application is for more clearly describing the technical solution of the embodiments of the present application, and is not limited to the technical solution provided in the embodiments of the present application, and those skilled in the art may know that, with the evolution of the system architecture and the appearance of a new service scenario, the technical solution provided in the embodiments of the present application is applicable to similar technical problems.

In order to better understand the technical solution provided by the embodiments of the present application, first, technical terms related to the embodiments of the present application are described.

(1) Physical channel

The physical channel is used by the physical layer for transmission of specific signals. Exemplary, physical channels include: physical uplink shared channel (physical uplink shared channel, PUSCH), physical uplink control channel (physical uplink control channel, PUCCH).

Wherein, PUSCH may be used to carry uplink control information and/or traffic data.

The PUCCH may be used to carry uplink control information (uplink control information, UCI), scheduling request (scheduling request, SR), etc., where UCI may include, but is not limited to, one or more of the following: hybrid automatic repeat request acknowledgement (Hybrid automatic repeat request acknowledgement, HARQ-ACK), channel state information (channel state information, CSI).

(2) Beam failure recovery (beam failure recovery, BFR)

In some high-frequency band communication systems (for example, 5G communication systems), the signal propagation is blocked due to the short wavelength of the wireless signal, so that the signal propagation is interrupted, and therefore, a BFR mechanism is adopted in some communication systems.

Fig. 2 is a schematic flow chart of an information reporting method according to an embodiment of the present application. As shown in fig. 2, the information reporting method may include, but is not limited to, the following steps:

s201, the terminal device determines time domain channel attribute information based on the tracking reference signal (Tracking Reference Signal, TRS).

The terminal device determining the time domain channel attribute information based on the TRS may include: and the terminal equipment measures the TRS to obtain the time domain channel attribute information. Wherein the time domain channel attribute information may include one or more of: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In one implementation, after the terminal device obtains the time domain channel attribute information, it may determine whether the time domain channel attribute information meets the reporting condition. If the time domain channel attribute information meets the reporting condition, the terminal equipment can send the time domain channel attribute information to the network equipment through the Physical Uplink Shared Channel (PUSCH) resource. If the time domain channel attribute information does not meet the reporting condition, the terminal equipment does not report the time domain channel attribute information.

In one implementation, the foregoing time domain channel attribute information meeting the reporting condition may include one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value. The change rate of the value of the time domain channel attribute information is larger than the first threshold value, which can indicate that the change of the channel between the terminal equipment and the network equipment in the time domain is larger, and the time domain channel attribute information is reported to the network equipment at the moment, so that the network equipment can know the change information in time, thereby being beneficial to improving the communication quality between the terminal equipment and the network equipment. Optionally, the larger the value of the time domain channel attribute information is, the worse the channel quality of the channel between the terminal device and the network device can be represented; the smaller the value of the time domain channel attribute information, the better the channel quality of the channel between the terminal device and the network device can be indicated. The value of the time domain channel attribute information is larger than the second threshold value in the preset time period, which can indicate that the worse the channel quality of the channel between the terminal equipment and the network equipment is in the preset time period, the time domain channel attribute information is reported to the network equipment at the moment, so that the network equipment can acquire the current channel information in time, thereby being beneficial to improving the communication quality between the terminal equipment and the network equipment. The time domain channel attribute information has a value greater than the third threshold value, which can indicate that the worse the channel quality of the channel between the terminal device and the network device, the time domain channel attribute information is reported to the network device at this time, so that the network device can timely acquire the current channel information, thereby being beneficial to improving the communication quality between the terminal device and the network device. It should be noted that, the larger the value of the time domain channel attribute information is, the worse the channel quality of the channel between the terminal device and the network device is, and the smaller the value of the time domain channel attribute information is, the better the channel quality of the channel between the terminal device and the network device is for example. Alternatively, the smaller the value of the time domain channel attribute information, the worse the channel quality of the channel between the terminal device and the network device, and the larger the value of the time domain channel attribute information, the better the channel quality of the channel between the terminal device and the network device. At this time, the foregoing time domain channel attribute information satisfying the reporting condition may include one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, and/or the value of the time domain channel attribute information is smaller than a fourth threshold value in a preset time period, and the value of the time domain channel attribute information is smaller than a fifth threshold value.

Alternatively, the rate of change of the value of the time domain channel attribute information may refer to a rate of change within a certain time range (e.g., a first preset time period). Alternatively, the rate of change of the values of the time-domain channel attribute information may refer to the rate of change of the values of one time-domain channel attribute information, or may refer to an average value of the rates of change of the values of a plurality of time-domain channel attribute information. Optionally, the first thresholds corresponding to the different time domain channel attribute information may be the same or different. Taking the example that the time domain channel attribute information includes time domain channel attribute information 1 and time domain channel attribute information 2, the first threshold corresponding to the time domain channel attribute information 1 is a first threshold 1, the first threshold corresponding to the time domain channel attribute information 2 is a first threshold 2, and the foregoing time domain channel attribute information meeting the reporting condition may include one or more of the following: the change rate of the value of the time domain channel attribute information 1 is larger than a first threshold value 1, the change rate of the value of the time domain channel attribute information 2 is larger than a first threshold value 2, and the average value of the change rate of the value of the time domain channel attribute information 1 and the change rate of the value of the time domain channel attribute information 2 is larger than the first threshold value. Optionally, the second thresholds corresponding to the different time domain channel attribute information may be the same or different.

The first threshold, the second threshold, the third threshold, the fourth threshold, the fifth threshold, the preset time period, and the first preset time period may be predefined by a protocol, or may be configured by a network. Illustratively, the protocol agrees that the preset time period is a time period having a duration of 1 millisecond and the ending time is the current time.

And S202, if the time domain channel attribute information meets the reporting condition, the time domain channel attribute information is sent to the network equipment through physical uplink shared channel (Physical Uplink Share Channel, PUSCH) resources. Correspondingly, the network equipment receives time domain channel attribute information from the terminal equipment through the PUSCH resource, wherein the time domain channel attribute information meets the reporting condition, and the time domain channel attribute information is determined by the terminal equipment based on TRS.

By actively reporting the time domain channel attribute information to the network equipment, the network equipment can timely acquire the time domain channel attribute information, thereby being beneficial to improving the communication quality between the terminal equipment and the network equipment. Wherein the network device may be an access network device serving a serving cell of the terminal device.

In one implementation, the sending, by the terminal device, time domain channel attribute information to the network device through PUSCH resources includes: transmitting a media access Control-Control Element (MAC-CE) to the network device over PUSCH resources, the MAC-CE may include one or more of: cell Identifier (ID), partial Bandwidth Part ID (BWP ID), TRS resource set index information, and the aforementioned time domain channel attribute information; the TRS described above belongs to the TRS resource set. Optionally, the MAC-CE includes at least the time domain channel attribute information. Wherein the cell ID may be used to indicate the cell to which the terminal device is connected, and the BWP ID may be used to indicate the operating bandwidth of the terminal device. The TRS resource set index information may be used to indicate the TRS resource set.

In one implementation, if the time domain channel attribute information satisfies the reporting condition and there is no resource for transmitting the time domain channel attribute information, the terminal device may determine request information for requesting the network device to allocate PUSCH resources for transmitting the time domain channel attribute information. In the embodiment of the present application, if the time domain channel attribute information meets the reporting condition, the terminal device may further determine whether there is a PUSCH resource available for transmitting the time domain channel attribute information; if the time domain channel attribute information exists, the time domain channel attribute information is sent to the network equipment through the PUSCH resource, and if the time domain channel attribute information does not exist, the request information can be determined, and the request information is sent to the network equipment. Alternatively, the request information may be carried in a PUCCH resource, and the PUCCH carrying the request information may be simply referred to as PUCCH-reporting. Alternatively, the request information may be a scheduling request (Scheduling request, SR).

If at least two resources are to be transmitted, the at least two resources may have channel collision or signal collision. For example, if at least two resources correspond to the same symbol, a channel collision or a signal collision may be caused. If PUCCH-reporting collides with other channels or signals, there is no specific solution to how to handle the collision. This not only affects the correct transmission of information but also reduces the efficiency of information transmission.

In order to handle the above collision, after determining the request information, the terminal device may further perform the steps shown in fig. 3 before sending the time domain channel attribute information to the network device through PUSCH resources:

s202a, a terminal device acquires conflict resources corresponding to request information, wherein the conflict resources comprise conflict channels and/or conflict signals; wherein the collision channel comprises a first physical channel and at least one second physical channel in collision with the first physical channel, and the collision signal comprises at least one physical signal in collision with the first physical channel.

Wherein the request information may collide with one or more channels (or signals), the colliding resource corresponding to the request information may include a channel (or signal) that collides with the request information, and the request information.

Collisions in embodiments of the present application may refer to time domain collisions and/or power collisions. A time domain collision may refer to the orthogonal frequency division multiplexing (Orthogonal Frequency Division Multiplexing, OFDM) symbol occupied by the request information being partially or fully identical to the OFDM symbols occupied by other channels (or signals). Referring to fig. 4, fig. 4 is a schematic diagram of resource collision provided in the embodiment of the present application, and as shown in fig. 4, it can be seen that symbols occupied by a channel a and a channel B overlap on a symbol 6, and it can be determined that the channel a and the channel B are collision channels. A power collision may refer to that the sum of the transmission power of the request information to be transmitted and the transmission power of the other channels (or signals) to be transmitted exceeds the upper limit of the transmission power of the terminal device.

Taking the example that the request information is carried in the first physical channel, if other physical channels, that is, at least one second physical channel and the symbol occupied by the first physical channel, have a symbol overlapping condition, the conflict resource that conflicts with the first physical channel is a conflict channel, at this time, the conflict resource corresponding to the first physical channel (that is, the conflict resource corresponding to the request information) includes the first physical channel and at least one second physical channel; if the physical signal and the symbol occupied by the first physical channel are in a symbol overlapping condition, the conflict resource which conflicts with the first physical channel is a conflict signal, and at this time, the conflict resource corresponding to the first physical channel (namely the conflict resource corresponding to the request information) comprises the first physical channel and the physical signal which conflicts with the first physical channel; if there is a symbol overlapping condition between at least one of the physical channels and the physical signal and the symbol occupied by the first physical channel, the collision resource that collides with the first physical channel includes both the collision channel and the collision signal. It should be noted that at least one second physical channel and the physical signal may overlap on the same coincidence as the first physical channel, or may overlap on different symbols.

S202b, the terminal equipment respectively acquires priorities corresponding to the first physical channel, the at least one second physical channel and/or the at least one physical signal according to the conflict resources.

When the conflict resource only comprises a conflict channel, acquiring priorities corresponding to the first physical channel and the at least one second physical channel; when the conflict resource only comprises conflict signals, acquiring a pre-stage corresponding to the first physical channel and the at least one physical signal; and when the conflict resource comprises a conflict channel and a conflict signal, acquiring the priorities of the first physical channel, the at least one second physical channel and the at least one physical signal.

S202c, the terminal equipment processes the request information according to the priority to obtain target information.

The terminal device processes the request information according to the acquired priority of the channel and/or the signal in one or more of the following 3 modes to obtain target information sent to the network device. The 3 modes are respectively as follows: discard (mode 1), multiplex (mode 2), adjust power (mode 3). The target information may or may not include the request information.

And S202d, the terminal equipment sends the target information to the network equipment. Accordingly, the network device receives the target information.

And under the condition that conflict exists, the terminal equipment processes the request information according to the priority to obtain target information, and sends the target information to the network equipment. Therefore, the correct transmission of the information can be ensured and the efficiency of information transmission can be improved under the condition that the information transmitted by the terminal equipment has resource conflict.

Mode 1:

in one implementation, the processing the request information according to the priority includes: and discarding information carried by the physical channels with the priorities lower than the first preset priority in the conflict resource and/or physical signals with the priorities lower than the first preset priority.

And when the conflict resource only comprises a conflict channel, discarding the information carried by part or all of the physical channels with the priority lower than the first preset priority in the conflict channel.

When the conflict resource only comprises conflict signals, if signals with the priority lower than a first preset priority exist in the at least one signal and the priority of the first physical channel is also lower than the first preset priority, discarding part or all of the signals with the information carried by the first physical channel and/or the signals with the priority lower than the first preset priority; if the at least one signal has a signal with a priority lower than a first preset priority and the priority of the first physical channel is not lower than the first preset priority, discarding part or all of the signals with the priority lower than the first preset priority; and if the priority of all signals in the at least one signal is not lower than the first preset priority, discarding the information carried by the first physical channel.

And when the conflict resource comprises a conflict channel and a conflict signal, discarding part or all of physical channels with the priority lower than the first preset priority in the conflict channel to carry information, and/or discarding part or all of signals with the priority lower than the first preset priority in the conflict signal.

In the embodiment of the present application, in the case where the collision resource includes a collision signal, discarding some or all signals in the collision signal may include: the signal of the symbol position in which the collision actually occurs in the collision signal is discarded. For example, the first physical channel is PUCCH-reporting, the signal colliding with the first physical channel is a channel sounding reference signal (Sounding reference signal, SRS), and if the priority corresponding to PUCCH-reporting is higher than a first preset priority and the priority corresponding to SRS is lower than the first preset priority, the SRS overlapping the symbol position of PUCCH-reporting may be discarded. For example, the SRS occupies the symbol with the symbol index of 0-3, where the symbol 0 and the symbol 1 overlap with the symbol occupied by PUCCH-reporting, the SRS corresponding to the positions of the symbol 0 and the symbol 1 may be discarded, and the SRS corresponding to the symbol 2 and the symbol 3 may be reserved.

In a specific implementation, the first preset priority may be a predetermined priority level, or may be a priority level agreed by a protocol, or may be determined according to priorities of physical channels and/or physical signals in the conflict channels and/or conflict signals. For example, the first preset priority may be a priority corresponding to a physical channel or a physical signal with the lowest priority in the collision resource, or the first preset priority may be a priority corresponding to a physical channel or a physical signal with the highest priority in the collision resource, or the first preset priority may be a priority corresponding to a physical channel or a physical signal with a lower priority in the collision resource, or the first preset priority may be a priority corresponding to a physical channel or a physical signal with a higher priority in the collision resource. Wherein the lower or higher may be determined by comparison with an average or median value of the corresponding priorities in the conflicting resources, etc.

In one implementation manner, the discarding the information carried by the physical channel with the priority lower than the first preset priority and/or the physical signal with the priority lower than the first preset priority in the collision resource includes: discarding information carried by the first physical channel or discarding information carried by the at least one second physical channel or discarding the at least one physical signal.

When the collision resource only comprises a collision channel, the information carried by the first physical channel or the information carried by at least one second physical channel can be discarded; when the collision resource only comprises a collision signal, information carried by the first physical channel or information carried by at least one physical signal can be discarded; when the collision resource includes both a collision channel and a collision signal, the information carried by the first physical channel or the information carried by the at least one second physical channel and/or the at least one physical signal may be discarded.

By adopting the mode 1, the information carried by the first physical channel or the information or the physical signal carried by the second physical channel is discarded, namely, one of the resources which are in conflict is discarded, so that the correct transmission of the information can be ensured, and the efficiency of information transmission can be improved.

In one implementation manner, the first physical channel may be a PUCCH-reporting carrying the foregoing request information, that is, the PUCCH-reporting is used to request a PUCCH resource carrying time domain channel attribute information; the at least one physical signal is an SRS.

Where the collision resource only includes a collision signal, the information carried by the first physical channel, that is, PUCCH-reporting, or the physical signal, that is, SRS, may be discarded. When the collision resource includes both a collision signal and a collision channel, since the collision channel includes a first physical channel, information carried by the first physical channel in the collision channel, that is, PUCCH-reporting, or a physical signal, that is, SRS, may be discarded. In a specific implementation, when the priorities of the PUCCH-reporting and the SRS are different, the physical channel with a lower priority or the information carried by the physical signal may be selected to be discarded.

Optionally, the priority of PUCCH-reporting is higher than SRS, or the priority of PUCCH-reporting is lower than SRS. For example, if the priority of PUCCH-reporting is higher than SRS, SRS may be discarded or SRS overlapping symbol positions with PUCCH-reporting may be discarded; if the SRS has a higher priority than PUCCH-reporting, PUCCH-reporting may be discarded.

By adopting the mode 1, when the conflict exists between the PUCCH-reporting and the SRS, the PUCCH-reporting or the SRS can be discarded, the correct transmission of the information can be ensured, and the information transmission efficiency can be improved.

In one implementation manner, the first physical channel is a PUCCH-reporting carrying the foregoing request information, that is, the PUCCH-reporting is used for requesting a PUCCH resource carrying time domain channel attribute information, the request information carried by the PUCCH-reporting is a positive SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0; the at least one second physical channel includes a PUCCH carrying a hybrid automatic repeat request acknowledgement (Hybrid automatic repeat request acknowledgement, HARQ-ACK), and the PUCCH corresponds to PUCCH format 1.

When the collision channel includes a PUCCH-reporting with SR of positive SR and a PUCCH with HARQ-ACK with format 1, the information carried by any one of the two physical channels may be selectively discarded. In a specific implementation, when the priorities of the two physical channels are different, the information carried by the physical channel with lower priority can be selected to be discarded.

Optionally, the priority of PUCCH-reporting with SR of format 0 being a positive SR is lower than the priority of PUCCH with HARQ-ACK of format 1, or the priority of PUCCH-reporting with SR of format 0 being a positive SR is higher than the priority of PUCCH with HARQ-ACK of format 1.

In the mode 1, when channel conflict exists between the PUCCH-reporting of which the carried SR with the format of 0 is the active SR and the PUCCH of which the format of 1 is the HARQ-ACK, the information carried by any one of the two physical channels is discarded, so that the correct transmission of the information can be ensured, and the efficiency of information transmission can be improved.

In one implementation manner, the first physical channel is a PUCCH-reporting carrying the foregoing request information, that is, the PUCCH-reporting is used for requesting a PUCCH resource carrying time domain channel attribute information, the request information carried by the PUCCH-reporting is a active SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0 or format 1; the at least one second physical channel includes a PUCCH for a beam failure recovery event or a link recovery procedure, an SR carried by the PUCCH is a positive SR, and a PUCCH format corresponding to the PUCCH is format 0 or format 1. Wherein, the PUCCH for the beam failure recovery event or the link recovery procedure may be simply referred to as PUCCH-BFR. Alternatively, the PUCCH (i.e. PUCCH-BFR) for the beam failure recovery event or link recovery procedure may specifically be: and the method is used for a beam failure recovery event or a PUCCH-BFR of a link recovery process of a Secondary Cell (Scell), wherein the SR carried by the PUCCH-BFR is a positive SR, and the PUCCH format corresponding to the PUCCH-BFR is format 0 or format 1. After the terminal device enters the connection state, the terminal device can communicate with the network device (such as a base station) through a plurality of component carriers (Component Carriers, CC), and the base station can designate a primary component carrier (Primary Component Carrier, PCC) for the terminal device through explicit configuration or according to protocol conventions, and other component carriers are called secondary component carriers (Secondary Component Carrier, SCC). The serving cell on the PCC is called primary serving cell (Pcell) and the serving cell on the SCC is called Scell.

When the PUCCH format carrying the positive SR is 0 PUCCH-reporting and the PUCCH format carrying the positive SR is 0 PUCCH-BFR, the PUCCH-reporting may be discarded, or the information carried by the PUCCH-BFR may be discarded. In a specific implementation, the information carried by the physical channel with lower priority in the two physical channels can be discarded.

Optionally, the priority of PUCCH-reporting with PUCCH format 0 carrying a positive SR is lower than the priority of PUCCH-BFR with PUCCH format 0 carrying a positive SR, or the priority of PUCCH-reporting with PUCCH format 0 carrying a positive SR is higher than the priority of PUCCH-BFR with PUCCH format 0 carrying a positive SR.

When the PUCCH-reporting with the PUCCH format of 1 carrying the positive SR collides with the PUCCH-BFR with the PUCCH format of 1 carrying the positive SR, the PUCCH-reporting can be discarded, or information carried by the PUCCH-BFR can be discarded. In a specific implementation, the information carried by the physical channel with lower priority in the two physical channels can be discarded.

Optionally, the priority of PUCCH-reporting with PUCCH format 1 carrying a positive SR is lower than the priority of PUCCH-BFR with PUCCH format 1 carrying a positive SR, or the priority of PUCCH-reporting with PUCCH format 1 carrying a positive SR is higher than the priority of PUCCH-BFR with PUCCH format 1 carrying a positive SR.

When the PUCCH-reporting with the PUCCH format of 1 carrying the positive SR and the PUCCH-BFR with the PUCCH format of 0 carrying the positive SR collide, the PUCCH-reporting can be discarded, or information carried by the PUCCH-BFR can be discarded. In a specific implementation, the information carried by the physical channel with lower priority in the two physical channels can be discarded.

Optionally, the priority of PUCCH-reporting with PUCCH format 1 carrying a positive SR is lower than the priority of PUCCH-BFR with PUCCH format 0 carrying a positive SR, or the priority of PUCCH-reporting with PUCCH format 1 carrying a positive SR is higher than the priority of PUCCH-BFR with PUCCH format 0 carrying a positive SR.

When the PUCCH-reporting of the PUCCH format 0 carrying the positive SR and the PUCCH-BFR of the PUCCH format 1 carrying the positive SR collide, the PUCCH-reporting can be discarded, or information carried by the PUCCH-BFR can be discarded. In a specific implementation, the information carried by the physical channel with lower priority in the two physical channels can be discarded.

Optionally, the priority of PUCCH-reporting with PUCCH format 0 carrying a positive SR is lower than the priority of PUCCH-BFR with PUCCH format 1 carrying a positive SR, or the priority of PUCCH-reporting with PUCCH format 0 carrying a positive SR is higher than the priority of PUCCH-BFR with PUCCH format 1 carrying a positive SR.

In the mode 1, when the PUCCH-reporting with the format of 0 or 1 carried by the SR being the positive SR and the PUCCH-BFR with the format of 0 or 1 carried by the SR being the positive SR collide, the information carried by the PUCCH-reporting or the PUCCH-BFR is discarded, so that the correct transmission of the information can be ensured, and the information transmission efficiency can be improved.

Mode 2:

in one implementation, the processing the request information according to the priority includes: multiplexing information carried by the physical channels with the priority lower than the second preset priority in the conflict channels to the physical channels with the priority not lower than the third preset priority in the conflict channels.

The second preset priority and the third preset priority may be a predetermined priority level, or may be determined according to priorities of physical channels and/or physical signals in the collision channels and/or collision signals. For example, the second preset priority may be a priority corresponding to a physical channel with the lowest priority among the collision channels, or the second preset priority may be a priority corresponding to a physical channel with the highest priority among the collision channels; the second preset priority may be a priority corresponding to a physical channel with a lower priority in the collision channels, or the second preset priority may be a priority corresponding to a physical channel with a higher priority in the collision channels; the third preset priority may be a priority corresponding to a physical channel with the highest priority among the collision channels, or the third preset priority may be a priority corresponding to a physical channel with a higher priority among the collision channels. Wherein the lower or higher may be determined by comparison with an average or median value of the corresponding priorities in the conflicting resources, etc. The second preset priority and the third preset priority may be of the same level, that is, physical channels of the same priority may also be multiplexed with each other.

By adopting the mode 2, the channels in the conflict channels are multiplexed according to the acquired priority, so that the correct transmission of the information can be ensured, and the efficiency of information transmission can be improved.

In one implementation manner, multiplexing the information carried by the physical channel with the priority lower than the second preset priority in the conflict channel to the physical channel with the priority not lower than the third preset priority in the conflict channel includes: multiplexing information carried by the first physical channel to a fourth physical channel; or multiplexing information carried by the first physical channel and information carried by at least one third physical channel to the fourth physical channel; wherein the at least one third physical channel and the fourth physical channel are physical channels of the at least one second physical channel.

The priorities of the first physical channel and the third physical channel are lower than the second preset priority, and the priority of the fourth physical channel is not lower than the third preset priority. When there is a collision channel, the information carried by the first physical channel may be multiplexed to the fourth physical channel, or the information carried by the first physical channel and the information carried by at least one third physical channel may be multiplexed to the fourth physical channel. That is, when the first physical channel exists, as long as the priority of the first physical channel is lower than the second preset priority, the information carried by the first physical channel may be multiplexed to other physical channels.

By adopting the mode 2, the signals carried by the first physical channel and/or the information carried by the third physical channel are multiplexed to other physical channels according to the acquired priority, so that the correct transmission of the information can be ensured, and the efficiency of information transmission can be improved.

In one implementation manner, the first physical channel is a PUCCH-reporting carrying the foregoing request information, that is, the PUCCH-reporting is used for requesting a PUCCH resource carrying time domain channel attribute information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel comprises K first PUCCH carrying SRs and one second PUCCH carrying HARQ-ACK or channel state information CSI, K is an integer, and the PUCCH format corresponding to the second PUCCH is format 2 or format 3 or format 4. The multiplexing the information carried by the first physical channel and the information carried by at least one third physical channel to the fourth physical channel includes: k+1 SRsA number of bits are multiplexed to the second PUCCH. Wherein, the second PUCCH carrying HARQ-ACK or channel state information CSI may also be described as: and a second PUCCH carrying UCI.

The third physical channel is K first PUCCHs carrying SRs, and the fourth physical channel is a second PUCCH carrying HARQ-ACK or channel state information CSI. The k+1 SRs include: k SRs carried by the first PUCCH and 1 SR carried by PUCCH-reporting. Wherein the expression is Expressed as a round-up, i.e. obtaining greater than or equal to log ₂ (K+1).

In the mode 2, when the first PUCCH carrying the SR and the second PUCCH carrying the UCI collide with each other, the PUCCH-reporting and the first PUCCH may be multiplexed to the second PUCCH, so that correct transmission of information may be ensured, and efficiency of information transmission may be improved.

In one implementation, the carrier is carried on PUCCH-reportingIn the case where the SR of (c) is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The K bits are used to indicate K SRs carried by the first PUCCH, and the K SRs are negative SR.

When the SR carried by the PUCCH-reporting is a positive SR, and the SR carried by the first PUCCH is also a positive SR, the priority of the PUCCH-reporting may be higher than the priority of the first PUCCH. Optionally, when the SR carried by the PUCCH-reporting is a positive SR, the SR carried by the first PUCCH is also a positive SR, and the SR carried by the first PUCCH is used for requesting transmission of UCI, the priority of the PUCCH-reporting may be higher than the priority of the first PUCCH.

In one implementation manner, the first physical channel is a PUCCH-reporting carrying the foregoing request information, that is, the PUCCH-reporting is used for requesting a PUCCH resource carrying time domain channel attribute information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel includes one PUCCH-BFR, M third PUCCHs carrying SRs, and one fourth PUCCH carrying HARQ-ACKs or CSI, M is an integer, and a PUCCH format corresponding to the fourth PUCCH is format 2 or format 3 or format 4, and multiplexing information carried by the first physical channel and information carried by at least one third physical channel to the fourth physical channel includes: m+2 SRs And multiplexing a bit to the fourth PUCCH. Wherein H is carried byThe fourth PUCCH of ARQ-ACK or channel state information CSI may also be described as: and a fourth PUCCH carrying UCI.

The third physical channel comprises one PUCCH-BFR, M third PUCCHs carrying SRs, and the fourth physical channel is a fourth PUCCH carrying HARQ-ACK or CSI. The m+2 SRs include: m SRs carried by the third PUCCH, 1 SR carried by the PUCCH-BFR and 1 SR carried by the PUCCH-reporting. Wherein the expression is Expressed as a round-up, i.e. obtaining greater than or equal to log ₂ (m+2).

In the mode 2, when the PUCCH-reporting, PUCCH-BFR, the M third PUCCHs carrying SRs and the fourth PUCCH carrying UCI collide, the PUCCH-reporting, PUCCH-BFR and the third PUCCH can be multiplexed to the fourth PUCCH, so that correct transmission of information can be ensured, and efficiency of information transmission can be improved.

In one implementation, in the case where the SR carried by PUCCH-reporting is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or SRs carried by the PUCCH-BFR, and the M SRs are negative SRs.

When the SR carried by the PUCCH-reporting is a positive SR and the SR carried by the third PUCCH is also a positive SR, the priority of the PUCCH-reporting may be higher than that of the third PUCCH. Optionally, when the SR carried by the PUCCH-reporting is a positive SR, the SR carried by the third PUCCH is also a positive SR, and the SR carried by the third PUCCH is used for requesting transmission of UCI, the priority of the PUCCH-reporting may be higher than the priority of the third PUCCH. Optionally, when the SR carried by PUCCH-reporting is a positive SR and the SR carried by PUCCH-BFR is also a positive SR, the priority of PUCCH-reporting may be higher than PUCCH-BFR.

In one implementation, in the case where the SR carried by the PUCCH-BFR is a positive SR, the number of bits is used for indicating the SR carried by the PUCCH-BFR, and the SR carried by the PUCCH-BFR is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or SRs carried by PUCCH-reporting, and the M SRs are negative SRs.

When the SR carried by PUCCH-reporting is a positive SR and the SR carried by PUCCH-BFR is also a positive SR, the priority of PUCCH-reporting may be lower than that of PUCCH-BFR. When the M SRs carried by the third PUCCH are positive SRs and the SRs carried by the PUCCH-BFR are also positive SRs, the priority of the third PUCCH can be lower than that of the PUCCH-BFR.

Mode 3:

in one implementation, the processing the request information according to the priority includes: and adjusting the transmitting power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the conflict resource. For example, the transmission power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the collision resource is reduced. From the foregoing, it can be appreciated that a power collision may refer to a sum of the transmit powers of physical channels and/or physical signals in the collision resource exceeding an upper limit of the transmit power of the terminal device. Optionally, adjusting the transmission power of the physical channel and/or the physical signal in the collision resource with the priority lower than the fourth preset priority includes: and adjusting the transmitting power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the conflict resource, wherein the sum of the transmitting power of the physical channel and/or the physical signal in the conflict resource after adjustment is smaller than or equal to the upper limit of the transmitting power of the terminal equipment.

And when the conflict resource only comprises a conflict channel, adjusting the transmission power of part or all of physical channels with the priority lower than a fourth preset priority in the conflict channel.

When the collision resource only comprises collision signals, if signals with the priority lower than a fourth preset priority exist in the at least one signal and the priority of the first physical channel is also lower than the fourth preset priority, adjusting the transmitting power of the first physical channel and/or the transmitting power of part or all of the signals with the priority lower than the fourth preset priority; if the at least one signal has a signal with a priority lower than a fourth preset priority and the priority of the first physical channel is not lower than the fourth preset priority, adjusting the transmitting power of part or all of the signals with the priority lower than the fourth preset priority; and if the priority of all signals in the at least one signal is not lower than the signal with the fourth preset priority and the priority of the first physical channel is lower than the fourth preset priority, adjusting the transmitting power of the first physical channel.

And when the conflict resource comprises a conflict channel and a conflict signal, adjusting the transmission power of part or all of physical channels with the priority lower than the fourth preset priority in the conflict channel, and/or adjusting the transmission power of part or all of signals with the priority lower than the fourth preset priority in the conflict signal.

In a specific implementation, the fourth preset priority may be a predetermined priority level, or may be determined according to priorities of physical channels and/or physical signals in the conflict channels and/or conflict signals, for example, the fourth preset priority may be a priority corresponding to a physical channel or a physical signal with a lowest priority in the conflict resources, or the fourth preset priority may be a priority corresponding to a physical channel or a physical signal with a highest priority in the conflict resources, and the fourth preset priority may be a priority corresponding to a physical channel or a physical signal with a lower priority in the conflict resources, or the fourth preset priority may be a priority corresponding to a physical channel or a physical signal with a higher priority in the conflict resources. Wherein the lower or higher priority may be determined by comparison with an average or median value of the corresponding priorities in the conflicting resources, etc.

By adopting the mode 3, the transmission power of the channel and/or the signal in the conflict resource is adjusted according to the acquired priority, so that the correct transmission of the information can be ensured, and the efficiency of the information transmission can be improved.

In one implementation, the priority classes of the first physical channel and the at least one second physical channel may be the same. The same priority class of the first physical channel and the at least one second physical channel may refer to: the priority index of the first physical channel is the same as the priority index of the at least one second physical channel. Wherein the priority index may be used to indicate a priority class.

Wherein, the same priority class may refer to that the information carried by the first physical channel and the at least one second physical channel are related to the same class of service. Illustratively, the information carried by the first physical channel and the at least one second physical channel is related to enhanced mobile broadband (Enhanced Mobile Broadband, eMBB) traffic, or the information carried by the first physical channel and the at least one second physical channel is related to high reliability low latency (Ultra-reliable and Low Latency Communications, URLLC) traffic, or the information carried by the first physical channel and the at least one second physical channel is related to multicast broadcast service (multicast broadcast service, MBS) traffic.

Therefore, when the priority classes of the physical channels and/or the physical signals in the conflict resources are the same, the request information is processed according to the priority, so that the correct transmission of the information can be ensured, and the information transmission efficiency can be improved.

In the embodiment of the application, on one hand, the time domain channel attribute information is actively reported to the network equipment, so that the network equipment can timely acquire the time domain channel attribute information, thereby being beneficial to improving the communication quality between the terminal equipment and the network equipment. On the other hand, under the condition that the resource conflict exists, the conflict resource is processed according to one or more of the acquired channel and/or signal priority discarding, multiplexing and power adjusting modes, so that the correct transmission of the information is ensured, and the efficiency of the information transmission is improved.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an information reporting apparatus according to an embodiment of the present application. As shown in fig. 5, the information reporting apparatus 50 includes a determination unit 501 and a transmission unit 502. Wherein,,

a determining unit 501, configured to determine time domain channel attribute information based on the tracking reference signal TRS;

and the sending unit 502 is configured to send the time domain channel attribute information to the network device through a PUSCH resource of a physical uplink shared channel if the time domain channel attribute information meets the reporting condition.

In an alternative embodiment, the determining unit 501 may be further configured to determine request information, where the request information is used to request the network device to allocate the PUSCH resource if the time domain channel attribute information meets the reporting condition, and no resource for transmitting the time domain channel attribute information exists.

In an alternative embodiment, the information reporting device 50 may further include an obtaining unit 503 and a processing unit 504;

an obtaining unit 503, configured to obtain a collision resource corresponding to the request information, where the collision resource includes a collision channel and/or a collision signal; wherein the collision channel comprises a first physical channel and at least one second physical channel in collision with the first physical channel, and the collision signal comprises at least one physical signal in collision with the first physical channel;

The obtaining unit 503 is further configured to obtain priorities corresponding to the first physical channel and the at least one second physical channel and/or the at least one physical signal according to the collision resources, respectively;

a processing unit 504, configured to process the request information according to the priority, and obtain target information;

the sending unit 502 is further configured to send the target information to a network device.

In an alternative embodiment, the processing unit 504 is configured to, when processing the request information according to the priority, specifically: and discarding the information carried by the physical channels with the priorities lower than the first preset priority and/or the physical signals with the priorities lower than the first preset priority in the conflict resources.

In an alternative embodiment, the processing unit 504 is configured to discard information carried by the physical channel with a priority lower than the first preset priority and/or the physical signal with a priority lower than the first preset priority in the collision resource, and is specifically configured to: discarding information carried by the first physical channel or discarding information carried by the at least one second physical channel or discarding the at least one physical signal.

In an optional implementation manner, the first physical channel is a physical uplink control channel PUCCH-reporting carrying the request information, and the at least one physical signal is a sounding reference signal SRS.

In an optional implementation manner, the first physical channel is PUCCH-reporting carrying the foregoing request information, the request information carried by the PUCCH-reporting is active SR, and the PUCCH format corresponding to the PUCCH-reporting is format 0; the at least one second physical channel comprises a PUCCH carrying a HARQ-ACK, and the PUCCH corresponds to PUCCH format 1.

In an optional implementation manner, the first physical channel is PUCCH-reporting carrying request information, the request information carried by the PUCCH-reporting is a positive SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0 or format 1; the at least one second physical channel includes a physical uplink control channel PUCCH-BFR for a beam failure recovery event or a link recovery procedure of the secondary serving cell, an SR carried by the PUCCH-BFR is a positive SR, and a PUCCH format corresponding to the PUCCH-BFR is format 0 or format 1.

In an alternative embodiment, the processing unit 504 is configured to, when processing the request information according to the priority, specifically: multiplexing information carried by the physical channels with the priority lower than the second preset priority in the conflict channels to the physical channels with the priority not lower than the third preset priority in the conflict channels.

In an alternative embodiment, the processing unit 504 is configured to multiplex, when the information carried by the physical channel with the priority level lower than the second preset priority level in the collision channel is multiplexed to the physical channel with the priority level not lower than the third preset priority level in the collision channel, specifically: multiplexing information carried by the first physical channel to a fourth physical channel; or multiplexing the information carried by the first physical channel and the information carried by at least one third physical channel to a fourth physical channel; wherein the at least one third physical channel and the fourth physical channel are physical channels of the at least one second physical channel.

In an alternative embodiment, the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel comprises K first PUCCH carrying SRs and one second PUCCH carrying HARQ-ACK or channel state information CSI, K is an integer, and the PUCCH format corresponding to the second PUCCH is format 2 or format 3 or format 4; the processing unit 504 is configured to, when multiplexing information carried by the first physical channel and information carried by at least one third physical channel to the fourth physical channel, specifically: k+1 SRs A number of bits are multiplexed to the second PUCCH.

In an alternative embodiment, in the case where the SR carried by PUCCH-reporting is a positive SR,for a single bitIndicating the SR carried by the PUCCH-reporting, wherein the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The K bits are used to indicate K SRs carried by the first PUCCH, and the K SRs are negative SR.

In an alternative embodiment, the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by PUCCH-reporting is SR; the at least one second physical channel comprises a PUCCH-BFR, M third PUCCHs carrying SRs and a fourth PUCCH carrying HARQ-ACK or CSI, M is an integer, and the PUCCH format corresponding to the fourth PUCCH is format 2 or format 3 or format 4; the processing unit 504 is configured to, when multiplexing information carried by the first physical channel and information carried by at least one third physical channel to the fourth physical channel, specifically: m+2 SRsThe bits are multiplexed to the fourth PUCCH.

In an alternative embodiment, in the case where the SR carried by PUCCH-reporting is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at- >In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or the SRs carried by the PUCCH-BFR, and the M SRs are negative SRs.

In an alternative implementationIn this way, in the case where the SR carried by the PUCCH-BFR is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-BFR, and the SR carried by the PUCCH-BFR is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or SRs carried by the aforementioned PUCCH-reporting, where the M SRs are negative SRs.

In an alternative embodiment, the processing unit 504 is configured to, when processing the request information according to the priority, specifically: and adjusting the transmission power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the conflict resource.

In an alternative embodiment, the priority class of the first physical channel and the at least one second physical channel are the same.

In an alternative embodiment, the time domain channel attribute information satisfies the reporting condition, including one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

In an alternative embodiment, the time domain channel attribute information includes one or more of the following: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In an optional implementation manner, when the sending unit 502 is configured to send the time domain channel attribute information to the network device through the PUSCH resource of the physical uplink shared channel, the sending unit is specifically configured to: transmitting a medium access control-control unit MAC-CE to the network device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWP ID, TRS resource set index information, the time domain channel attribute information.

The information reporting device 50 may also be used to implement the functions of the terminal device in the corresponding embodiments of fig. 2 to 3, which are not described herein again.

Referring to fig. 6, fig. 6 is a schematic structural diagram of another information reporting apparatus according to an embodiment of the present disclosure. As shown in fig. 6, the information reporting apparatus 60 includes a receiving unit 601. Wherein,,

The receiving unit 601 is configured to receive, through a physical uplink shared channel PUSCH resource, time domain channel attribute information from a terminal device, where the time domain channel attribute information meets a reporting condition, and the time domain channel attribute information is determined by the terminal device based on a tracking reference signal TRS.

In an optional embodiment, the receiving unit 601 is further configured to receive target information from the foregoing terminal device, where the target information is a collision resource corresponding to the request information obtained by the terminal device, where the collision resource includes a collision channel and/or a collision signal, the collision channel includes a first physical channel and at least one second physical channel that collides with the first physical channel, and the collision signal includes at least one physical signal that collides with the first physical channel; respectively acquiring the first physical channel, the at least one second physical channel and/or the priority corresponding to the at least one physical signal according to the conflict resource; and processing the request information according to the priority; the request information is used for requesting allocation of the PUSCH resources; the request information is determined by the terminal device in the case that the time domain channel attribute information satisfies a reporting condition and there is no resource for transmitting the time domain channel attribute information.

In an alternative embodiment, the time domain channel attribute information satisfies the reporting condition, including one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

In an alternative embodiment, the time domain channel attribute information includes one or more of the following: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In an optional implementation manner, the receiving unit 601 is configured to, when receiving time domain channel attribute information from a terminal device through a PUSCH resource of a physical uplink shared channel, specifically: receiving a media access control-control unit, MAC-CE, from a terminal device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWPID, TRS resource set index information, time domain channel attribute information; the TRS described above belongs to the TRS resource set.

The information reporting device 60 may also be used to implement the functions of the network device in the corresponding embodiments of fig. 2 to 3, which are not described herein again.

Referring to fig. 7, fig. 7 shows another information reporting apparatus 70 according to an embodiment of the present application. The method can be used for realizing the functions of the terminal equipment in the method embodiment or the functions of the network equipment in the method embodiment. The information reporting device 70 may include a transceiver 701 and a processor 702. Optionally, the information reporting device may further include a memory 703. Wherein the transceiver 701, the processor 702, the memory 703 may be connected by a bus 704 or otherwise. The bus is shown in bold lines in fig. 7, and the manner in which other components are connected is merely illustrative and not limiting. The buses may be divided into address buses, data buses, control buses, etc. For ease of illustration, only one thick line is shown in fig. 7, but not only one bus or one type of bus.

The coupling in the embodiments of the present application is an indirect coupling or communication connection between devices, units, or modules, which may be in electrical, mechanical, or other forms for information interaction between the devices, units, or modules. The specific connection medium between the transceiver 701, the processor 702, and the memory 703 is not limited in the embodiments of the present application.

Memory 703 may include read only memory and random access memory and provides instructions and data to processor 702. A portion of the memory 703 may also include non-volatile random access memory.

The processor 702 may be a central processing unit (Central Processing Unit, CPU), the processor 702 may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), field-programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor, but in the alternative, the processor 702 may be any conventional processor or the like.

In an example, when the terminal device takes the form shown in fig. 7, the processor in fig. 7 may perform the method performed by the terminal device in any of the method embodiments described above.

In one example, when the network device takes the form shown in fig. 7, the processor in fig. 7 may perform the method performed by the network device in any of the method embodiments described above.

In an alternative embodiment, memory 703 is used to store program instructions; a processor 702, configured to invoke the program instructions stored in the memory 703, for performing the steps performed by the terminal device and the network device in the corresponding embodiments of fig. 2 and 3. Specifically, the functions/implementation procedures of the determining unit, the transmitting unit, the acquiring unit, and the processing unit in fig. 5 may be implemented by the processor 702 in fig. 7 calling the computer-executable instructions stored in the memory 703. Alternatively, the functions/implementation procedures of the determining unit, the acquiring unit, and the processing unit of fig. 5 may be implemented by the processor 702 in fig. 7 calling computer-executable instructions stored in the memory 703, and the functions/implementation procedures of the transmitting unit of fig. 5 may be implemented by the transceiver 701 in fig. 7. The functions/implementations of the receiving unit of fig. 6 may be implemented by the processor 702 in fig. 7 invoking computer executable instructions stored in the memory 703. Alternatively, the functions/implementation of the receiving unit of fig. 6 may be implemented by the transceiver 701 of fig. 7.

In the embodiments of the present application, the methods provided in the embodiments of the present application may be implemented by running a computer program (including program code) capable of executing the steps involved in the above-described methods on a general-purpose computing device such as a computer including a processing element such as a CPU, a random access storage medium (Random Access Memory, RAM), a Read-Only Memory (ROM), or the like, and a storage element. The computer program may be recorded on, for example, a computer-readable recording medium, and loaded into and run in the above-described computing device through the computer-readable recording medium.

Based on the same inventive concept, the principle and the beneficial effects of the information reporting device 70 provided in the embodiments of the present application for solving the problems are similar to those of the terminal device and the network device in the embodiments of the method of the present application, and may refer to the principle and the beneficial effects of the implementation of the method, which are not described herein for brevity.

The information reporting device (e.g., the information reporting device 50, the information reporting device 60, the information reporting device 70) may be, for example: a chip, or a chip module.

The embodiment of the application also provides a chip, which can execute the relevant steps of the terminal equipment and the network equipment in the embodiment of the method.

For the case where the chip is used to realize the functions of the terminal device in the above embodiment:

the chip is used for:

determining time domain channel attribute information based on the tracking reference signal TRS;

and if the time domain channel attribute information meets the reporting condition, sending the time domain channel attribute information to the network equipment through the Physical Uplink Shared Channel (PUSCH) resource.

In an alternative embodiment, the chip may be further configured to determine request information, if the time domain channel attribute information satisfies the reporting condition and there is no resource for transmitting the time domain channel attribute information, where the request information is used to request the network device to allocate the PUSCH resource.

In an optional implementation manner, the chip may be further configured to obtain a conflict resource corresponding to the request information, where the conflict resource includes a conflict channel and/or a conflict signal; wherein the collision channel comprises a first physical channel and at least one second physical channel in collision with the first physical channel, and the collision signal comprises at least one physical signal in collision with the first physical channel; the chip may be further configured to obtain priorities corresponding to the first physical channel and the at least one second physical channel and/or the at least one physical signal according to the collision resource, respectively; processing the request information according to the priority to obtain target information; and transmitting the target information to the network device.

In an alternative embodiment, the chip is configured to, when processing the request information according to the priority, specifically: and discarding the information carried by the physical channels with the priorities lower than the first preset priority and/or the physical signals with the priorities lower than the first preset priority in the conflict resources.

In an optional implementation manner, the chip is configured to discard information carried by the physical channel with a priority lower than the first preset priority and/or a physical signal with a priority lower than the first preset priority in the collision resource, where the method is specifically configured to: discarding information carried by the first physical channel or discarding information carried by the at least one second physical channel or discarding the at least one physical signal.

In an optional implementation manner, the first physical channel is a physical uplink control channel PUCCH-reporting carrying the request information, and the at least one physical signal is a sounding reference signal SRS.

In an optional implementation manner, the first physical channel is PUCCH-reporting carrying the foregoing request information, the request information carried by the PUCCH-reporting is active SR, and the PUCCH format corresponding to the PUCCH-reporting is format 0; the at least one second physical channel comprises a PUCCH carrying a HARQ-ACK, and the PUCCH corresponds to PUCCH format 1.

In an optional implementation manner, the first physical channel is PUCCH-reporting carrying request information, the request information carried by the PUCCH-reporting is a positive SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0 or format 1; the at least one second physical channel includes a physical uplink control channel PUCCH-BFR for a beam failure recovery event or a link recovery procedure of the secondary serving cell, an SR carried by the PUCCH-BFR is a positive SR, and a PUCCH format corresponding to the PUCCH-BFR is format 0 or format 1.

In an alternative embodiment, the chip is configured to, when processing the request information according to the priority, specifically: multiplexing information carried by the physical channels with the priority lower than the second preset priority in the conflict channels to the physical channels with the priority not lower than the third preset priority in the conflict channels.

In an optional implementation manner, the chip is configured to multiplex information carried by a physical channel with a priority lower than a second preset priority in the above-mentioned collision channels to a physical channel with a priority not lower than a third preset priority in the collision channels, where the multiplexing is specifically configured to: multiplexing information carried by the first physical channel to a fourth physical channel; or multiplexing the information carried by the first physical channel and the information carried by at least one third physical channel to a fourth physical channel; wherein the at least one third physical channel and the fourth physical channel are physical channels of the at least one second physical channel.

In an alternative embodiment, the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel comprises K first PUCCH carrying SRs and one second PUCCH carrying HARQ-ACK or channel state information CSI, K is an integer, and the PUCCH format corresponding to the second PUCCH is format 2 or format 3 or format 4; the core is provided withThe chip is used for multiplexing the information carried by the first physical channel and the information carried by the at least one third physical channel to the fourth physical channel, and is specifically used for: k+1 SRsA number of bits are multiplexed to the second PUCCH.

In an alternative embodiment, in the case where the SR carried by PUCCH-reporting is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The K bits are used to indicate K SRs carried by the first PUCCH, and the K SRs are negative SR.

In an alternative embodiment, the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by PUCCH-reporting is SR; the at least one second physical channel comprises a PUCCH-BFR, M third PUCCHs carrying SRs and a fourth PUCCH carrying HARQ-ACK or CSI, M is an integer, and the PUCCH format corresponding to the fourth PUCCH is format 2 or format 3 or format 4; the chip is used for multiplexing information carried by the first physical channel and information carried by at least one third physical channel to a fourth physical channel, and is specifically used for: m+2 SRs The bits are multiplexed to the fourth PUCCH.

In an alternative embodiment, in the case where the SR carried by PUCCH-reporting is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or the SRs carried by the PUCCH-BFR, and the M SRs are negative SRs.

In an alternative embodiment, in the case where the SR carried by the PUCCH-BFR is a positive SR,the number of bits is used for indicating the SR carried by the PUCCH-BFR, and the SR carried by the PUCCH-BFR is a positive SR; at->In case of 0 bits each, +.>The number of bits is used to indicate M SRs carried by the third PUCCH and/or SRs carried by the aforementioned PUCCH-reporting, where the M SRs are negative SRs.

In an alternative embodiment, the chip is configured to, when processing the request information according to the priority, specifically: and adjusting the transmission power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the conflict resource.

In an alternative embodiment, the priority class of the first physical channel and the at least one second physical channel are the same.

In an alternative embodiment, the time domain channel attribute information satisfies the reporting condition, including one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

In an alternative embodiment, the time domain channel attribute information includes one or more of the following: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In an optional implementation manner, when the chip is configured to send the time domain channel attribute information to the network device through the PUSCH resource of the physical uplink shared channel, the chip is specifically configured to: transmitting a medium access control-control unit MAC-CE to the network device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWP ID, TRS resource set index information, the time domain channel attribute information.

In this case, the operations performed by the chip may refer to the description of the terminal device in the embodiments corresponding to fig. 2 and 3.

For the case where the chip is used to implement the functions of the network device in the above embodiment:

the chip is used for: and receiving time domain channel attribute information from the terminal equipment through a Physical Uplink Shared Channel (PUSCH) resource, wherein the time domain channel attribute information meets the reporting condition, and the time domain channel attribute information is determined by the terminal equipment based on a Tracking Reference Signal (TRS).

In an optional embodiment, the chip is further configured to receive target information from the foregoing terminal device, where the target information is a collision resource corresponding to the request information obtained by the terminal device, where the collision resource includes a collision channel and/or a collision signal, the collision channel includes a first physical channel and at least one second physical channel that collides with the first physical channel, and the collision signal includes at least one physical signal that collides with the first physical channel; respectively acquiring the first physical channel, the at least one second physical channel and/or the priority corresponding to the at least one physical signal according to the conflict resource; and processing the request information according to the priority; the request information is used for requesting allocation of the PUSCH resources; the request information is determined by the terminal device in the case that the time domain channel attribute information satisfies a reporting condition and there is no resource for transmitting the time domain channel attribute information.

In an alternative embodiment, the time domain channel attribute information satisfies the reporting condition, including one or more of the following: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

In an alternative embodiment, the time domain channel attribute information includes one or more of the following: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

In an optional implementation manner, the chip is configured to, when receiving time domain channel attribute information from a terminal device through a PUSCH resource of a physical uplink shared channel, specifically: receiving a media access control-control unit, MAC-CE, from a terminal device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWPID, TRS resource set index information, time domain channel attribute information; the TRS described above belongs to the TRS resource set.

In particular, in this case, the operations performed by the chip may refer to the description of the network device in the embodiments corresponding to fig. 2 and fig. 3.

In one possible implementation, the chip includes at least one processor, at least one first memory, and at least one second memory; wherein the at least one first memory and the at least one processor are interconnected by a circuit, and instructions are stored in the first memory; the at least one second memory and the at least one processor are interconnected by a line, where the second memory stores data to be stored in the embodiment of the method.

For each device and product applied to or integrated in the chip, each module contained in the device and product can be realized in a hardware mode such as a circuit, or at least part of the modules can be realized in a software program, the software program runs on a processor integrated in the chip, and the rest (if any) of the modules can be realized in a hardware mode such as a circuit.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a chip module according to an embodiment of the present application. The chip module 80 may perform the steps related to the terminal device and the network device in the foregoing method embodiment, where the chip module 80 includes: a communication interface 801 and a chip 802.

The communication interface is used for carrying out internal communication of the chip module or carrying out communication between the chip module and external equipment; the chip is used for realizing functions of terminal equipment and network equipment in the embodiment of the application, and particularly, refer to the corresponding embodiment of fig. 2 and 3. Optionally, the chip module 80 may further include a storage module 803 and a power module 804. The storage module 803 is used for storing data and instructions. The power module 804 is used for providing power for the chip module.

For each device and product applied to or integrated in the chip module, each module included in the device and product may be implemented by hardware such as a circuit, and different modules may be located in the same component (e.g. a chip, a circuit module, etc.) of the chip module or different components, or at least some modules may be implemented by using a software program, where the software program runs on a processor integrated in the chip module, and the remaining (if any) modules may be implemented by hardware such as a circuit.

Embodiments of the present application also provide a computer readable storage medium having one or more instructions stored therein, the one or more instructions being adapted to be loaded by a processor and to perform the methods provided by the method embodiments described above.

The present application also provides a computer program product comprising a computer program or instructions which, when run on a computer, cause the computer to perform the method provided by the method embodiments described above.

The embodiment of the application also provides an information reporting system, which can comprise the terminal equipment and the network equipment in the corresponding embodiment of fig. 2 or fig. 3.

With respect to each of the apparatuses and each of the modules/units included in the products described in the above embodiments, it may be a software module/unit, a hardware module/unit, or a software module/unit, and a hardware module/unit. For example, for each device or product applied to or integrated on a chip, each module/unit included in the device or product may be implemented in hardware such as a circuit, or at least part of the modules/units may be implemented in software program, where the software program runs on a processor integrated inside the chip, and the rest (if any) of the modules/units may be implemented in hardware such as a circuit; for each device and product applied to or integrated in the chip module, each module/unit contained in the device and product can be realized in a hardware manner such as a circuit, different modules/units can be located in the same component (such as a chip, a circuit module and the like) or different components of the chip module, or at least part of the modules/units can be realized in a software program, the software program runs on a processor integrated in the chip module, and the rest (if any) of the modules/units can be realized in a hardware manner such as a circuit; for each device, product, or application to or integrated with the terminal, each module/unit included in the device, product, or application may be implemented by using hardware such as a circuit, different modules/units may be located in the same component (for example, a chip, a circuit module, or the like) or different components in the terminal, or at least part of the modules/units may be implemented by using a software program, where the software program runs on a processor integrated inside the terminal, and the remaining (if any) part of the modules/units may be implemented by using hardware such as a circuit.

It should be noted that, for simplicity of description, the foregoing method embodiments are all expressed as a series of action combinations, but it should be understood by those skilled in the art that the present application is not limited by the described order of action, as some steps may take other order or be performed simultaneously according to the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required in the present application.

The steps in the method of the embodiment of the application can be sequentially adjusted, combined and deleted according to actual needs.

The modules in the device of the embodiment of the application can be combined, divided and deleted according to actual needs.

Those of ordinary skill in the art will appreciate that all or part of the steps in the various methods of the above embodiments may be implemented by a program to instruct related hardware, the program may be stored in a computer readable storage medium, and the readable storage medium may include: flash disk, ROM, RAM, magnetic or optical disk, etc.

The foregoing disclosure is merely a preferred embodiment of the present application, but is merely a partial embodiment of the present application and is not intended to limit the scope of the claims.

Claims (28)

1. The information reporting method is characterized by comprising the following steps:

determining time domain channel attribute information based on the tracking reference signal TRS;

and if the time domain channel attribute information meets the reporting condition, sending the time domain channel attribute information to the network equipment through a Physical Uplink Shared Channel (PUSCH) resource.

2. The method of claim 1, wherein if the time domain channel attribute information meets a reporting condition, sending the time domain channel attribute information to a network device through a PUSCH resource, further comprising:

and if the time domain channel attribute information meets the reporting condition and no resource for transmitting the time domain channel attribute information exists, determining request information, wherein the request information is used for requesting the network equipment to allocate the PUSCH resource.

3. The method according to claim 2, wherein the method further comprises:

the conflict resource corresponding to the request information is obtained, and the conflict resource comprises a conflict channel and/or a conflict signal; wherein the collision channel comprises a first physical channel and at least one second physical channel that collides with the first physical channel, and the collision signal comprises at least one physical signal that collides with the first physical channel;

Respectively acquiring priorities corresponding to the first physical channel and the at least one second physical channel and/or the at least one physical signal according to the conflict resources;

processing the request information according to the priority to obtain target information;

and sending the target information to the network equipment.

4. A method according to claim 3, wherein said processing said request information according to said priority comprises:

and discarding information carried by the physical channels with the priorities lower than the first preset priority in the conflict resource and/or physical signals with the priorities lower than the first preset priority.

5. The method according to claim 4, wherein the discarding the information carried by the physical channels having the priority level lower than the first preset priority level and/or the physical signals having the priority level lower than the first preset priority level in the collision resource includes:

discarding information carried by the first physical channel or discarding information carried by the at least one second physical channel or discarding the at least one physical signal.

6. The method of claim 5, wherein the first physical channel is a physical uplink control channel PUCCH-reporting carrying the request information, and the at least one physical signal is a sounding reference signal SRS.

7. The method of claim 5, wherein the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is active scheduling request SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0; the at least one second physical channel comprises a PUCCH carrying a hybrid automatic repeat request acknowledgement signal HARQ-ACK, and the PUCCH format corresponding to the PUCCH is format 1.

8. The method of claim 5, wherein the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is a positive SR, and a PUCCH format corresponding to the PUCCH-reporting is format 0 or format 1; the at least one second physical channel comprises a physical uplink control channel (PUCCH-BFR) used for a beam failure recovery event or a link recovery process of the auxiliary service cell, the SR carried by the PUCCH-BFR is a positive SR, and the PUCCH format corresponding to the PUCCH-BFR is format 0 or format 1.

9. A method according to claim 3, wherein said processing said request information according to said priority comprises:

Multiplexing information carried by the physical channels with the priority lower than the second preset priority in the conflict channels to the physical channels with the priority not lower than the third preset priority in the conflict channels.

10. The method according to claim 9, wherein multiplexing the information carried by the physical channels with the priority lower than the second preset priority in the collision channels to the physical channels with the priority not lower than the third preset priority in the collision channels includes:

multiplexing information carried by the first physical channel to a fourth physical channel; or,

multiplexing information carried by the first physical channel and information carried by at least one third physical channel to the fourth physical channel; wherein the at least one third physical channel and the fourth physical channel are physical channels of the at least one second physical channel.

11. The method of claim 10, wherein the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel comprises K first PUCCH carrying SRs and one second PUCCH carrying HARQ-ACK or channel state information CSI, wherein K is an integer, and the PUCCH format corresponding to the second PUCCH is format 2, format 3 or format 4;

The multiplexing the information carried by the first physical channel and the information carried by at least one third physical channel to the fourth physical channel includes:

k+1 SRsAnd multiplexing a plurality of bits to the second PUCCH.

12. The method of claim 11, wherein the step of determining the position of the probe is performed,

in the case that the SR carried by the PUCCH-reporting is a positive SR, the following is the followingThe number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is the positive SR;

at the saidIn case the bits are 0, said +.>The K bits are used to indicate K SRs carried by the first PUCCH, and the K SRs are negative SR.

13. The method of claim 10, wherein the first physical channel is PUCCH-reporting carrying the request information, and the request information carried by the PUCCH-reporting is SR; the at least one second physical channel comprises a PUCCH-BFR, M third PUCCHs carrying SRs and a fourth PUCCH carrying HARQ-ACK or CSI, wherein M is an integer, and the PUCCH format corresponding to the fourth PUCCH is format 2 or format 3 or format 4;

the multiplexing the information carried by the first physical channel and the information carried by at least one third physical channel to the fourth physical channel includes:

M+2 SRsAnd multiplexing a bit to the fourth PUCCH.

14. The method of claim 13, wherein the step of determining the position of the probe is performed,

in the case that the SR carried by the PUCCH-reporting is a positive SR, the following is the followingThe number of bits is used for indicating the SR carried by the PUCCH-reporting, and the SR carried by the PUCCH-reporting is the positive SR;

at the saidIn case the bits are 0, said +.>A number of bits are used to indicate M SRs carried by the third PUCCH and/or the PUCCH-BFR carrierThe SR of the band, and the M SRs are negative SRs.

15. The method of claim 13, wherein the step of determining the position of the probe is performed,

in the case that the SR carried by the PUCCH-BFR is a positive SR, theThe number of bits is used for indicating the SR carried by the PUCCH-BFR, and the SR carried by the PUCCH-BFR is the active SR;

at the saidIn case the bits are 0, said +.>The M bits are used to indicate M SRs carried by the third PUCCH and/or SRs carried by the PUCCH-reporting, and the M SRs are negative SRs.

16. A method according to claim 3, wherein said processing said request information according to said priority comprises:

and adjusting the transmitting power of the physical channel and/or the physical signal with the priority lower than the fourth preset priority in the conflict resource.

17. The method according to any of claims 3-16, wherein the priority class of the first physical channel and the at least one second physical channel are the same.

18. The method according to any one of claims 1-17, wherein the time domain channel property information satisfies a reporting condition, comprising one or more of: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

19. The method according to any one of claims 1 to 18, wherein,

the time domain channel attribute information includes one or more of: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

20. The method according to any one of claims 1-19, wherein the sending the time domain channel attribute information to the network device through the physical uplink shared channel PUSCH resource comprises:

Transmitting a media access control-control unit, MAC-CE, to a network device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWPID, TRS resource set index information, and the time domain channel attribute information.

21. The information reporting method is characterized by comprising the following steps:

and receiving time domain channel attribute information from terminal equipment through a Physical Uplink Shared Channel (PUSCH) resource, wherein the time domain channel attribute information meets reporting conditions, and the time domain channel attribute information is determined by the terminal equipment based on a Tracking Reference Signal (TRS).

22. The method of claim 21, wherein the method further comprises:

receiving target information from the terminal equipment, wherein the target information is conflict resources corresponding to request information obtained by the terminal equipment, the conflict resources comprise conflict channels and/or conflict signals, the conflict channels comprise a first physical channel and at least one second physical channel which conflicts with the first physical channel, and the conflict signals comprise at least one physical signal which conflicts with the first physical channel; respectively acquiring priorities corresponding to the first physical channel, the at least one second physical channel and/or the at least one physical signal according to the conflict resources; and processing the request information according to the priority;

The request information is used for requesting allocation of the PUSCH resource; the request information is determined by the terminal device if the time domain channel attribute information satisfies a reporting condition and there is no resource for transmitting the time domain channel attribute information.

23. The method according to claim 21 or 22, wherein the time domain channel attribute information satisfies reporting conditions, including one or more of: the change rate of the value of the time domain channel attribute information is larger than a first threshold value, the value of the time domain channel attribute information is larger than a second threshold value in a preset time period, and the value of the time domain channel attribute information is larger than a third threshold value.

24. The method of any one of claims 21-23, wherein,

the time domain channel attribute information includes one or more of: doppler shift, doppler spread, delay spread, average delay, doppler shift difference, doppler spread difference, delay spread difference, average delay difference, doppler shift change rate, doppler spread change rate, delay spread change rate, average delay change rate.

25. The method according to any one of claims 21-24, wherein the receiving the time domain channel attribute information from the terminal device through the physical uplink shared channel PUSCH resource includes:

receiving a media access control-control unit, MAC-CE, from a terminal device over PUSCH resources, the MAC-CE comprising one or more of: cell identification, partial bandwidth identification BWDID, TRS resource set index information and the time domain channel attribute information; the TRS belongs to the TRS resource set.

26. An information reporting device is characterized by comprising a determining unit and a sending unit;

the determining unit is used for determining time domain channel attribute information based on the tracking reference signal TRS;

and the sending unit is configured to send the time domain channel attribute information to a network device through a PUSCH resource of a physical uplink shared channel if the time domain channel attribute information meets a reporting condition.

27. An information reporting device is characterized by comprising a receiving unit;

the receiving unit is configured to receive, through a physical uplink shared channel PUSCH resource, time domain channel attribute information from a terminal device, where the time domain channel attribute information meets a reporting condition, and the time domain channel attribute information is determined by the terminal device based on a tracking reference signal TRS.

28. The information reporting device is characterized by comprising a processor;

the processor for performing the method of any one of claims 1 to 25.