WO2020143775A1 - 信息的发送方法及装置、存储介质和电子装置 - Google Patents
信息的发送方法及装置、存储介质和电子装置 Download PDFInfo
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- WO2020143775A1 WO2020143775A1 PCT/CN2020/071446 CN2020071446W WO2020143775A1 WO 2020143775 A1 WO2020143775 A1 WO 2020143775A1 CN 2020071446 W CN2020071446 W CN 2020071446W WO 2020143775 A1 WO2020143775 A1 WO 2020143775A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0023—Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the signalling
- H04L1/0027—Scheduling of signalling, e.g. occurrence thereof
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0058—Allocation criteria
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0023—Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the signalling
- H04L1/0026—Transmission of channel quality indication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0212—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
- H04W52/0216—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave using a pre-established activity schedule, e.g. traffic indication frame
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
- H04W52/0229—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a wanted signal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0261—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
- H04W52/0274—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof
- H04W52/028—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level by switching on or off the equipment or parts thereof switching on or off only a part of the equipment circuit blocks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0091—Signaling for the administration of the divided path
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/10—Scheduling measurement reports ; Arrangements for measurement reports
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/27—Transitions between radio resource control [RRC] states
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/28—Discontinuous transmission [DTX]; Discontinuous reception [DRX]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Definitions
- the present application relates to the communication field, for example, to a method and device for sending information, a storage medium, and an electronic device.
- the related channel state information (Channel State Information, CSI for short) reporting mechanism includes periodic CSI reporting, semi-persistent CSI reporting, and aperiodic CSI reporting.
- periodic CSI reporting the period is statically configured by Radio Resource Control (RRC), and the user equipment (User Equipment) is periodically on the physical uplink control channel (Physical Uplink Shared Channel).
- RRC Radio Resource Control
- User Equipment User Equipment
- CSI is sent on PUCCH); for semi-persistent CSI reporting, its activation and deactivation are triggered by Media Access Control Element (MAC for CE), and CSI is on PUCCH or Physical Uplink Shared Channel (Physical Uplink Shared Channel) , Referred to as PUSCH) for transmission; for aperiodic CSI reporting, it is dynamically triggered by downlink control information (Downlink Control Information, referred to as DCI) signaling, and the UE monitors the physical downlink control channel (Physical Downlink Control Channel, referred to as PDCCH ) To obtain relevant information, and its CSI is transmitted on the PUSCH.
- DCI Downlink Control Information
- DRX cycle consists of "OnDuration for DRX" and "Opportunity for DRX”: during "OnDuration for DRX", UE monitors PDCCH (active state); during "Opportunity for DRX", UE does not monitor PDCCH to reduce Power consumption (idle state).
- the base station For periodic or semi-persistent CSI reporting, the base station knows too little about the actual mobility of the UE, making it difficult for the base station to configure its CSI reporting period, and frequent beam reporting may result in unnecessary waste of resources and power consumption for the UE Negative impact.
- the base station knows too little about the actual mobility of the UE, making it unclear when the base station triggers CSI reporting, which may cause the UE to generate excess power to monitor the PDCCH.
- the changed CSI can only be reported to the base station when the UE enters the active state, that is, the CSI change delay is large.
- Embodiments of the present invention provide an information sending method and device, storage medium, and electronic device, to at least solve the related art, because the base station has little knowledge about the actual mobility of user equipment, resulting in the process of reporting channel state information.
- the problem of power consumption of user equipment is a problem of power consumption of user equipment.
- a method for sending information including: a first communication node determining whether a first trigger condition is satisfied; in a case where the first trigger condition is satisfied, the first communication node is in the first Sending first information on a resource; wherein the first information includes at least one of the following information: channel-related information and second information; wherein the second information includes at least one of the following: a channel on the second resource and/or Signal transmission indication information; transmission request of the channel related information.
- an apparatus for sending information including: a judgment module for judging whether a first trigger condition is satisfied; a transmission module for when the first trigger condition is satisfied, a Sending first information on a resource; wherein the first information includes at least one of the following information: channel-related information and second information; wherein the second information includes at least one of the following: a channel on the second resource and/or Or signal transmission instruction information; transmission request of the channel related information.
- a storage medium in which a computer program is stored, wherein the computer program is configured to execute the steps in any one of the above method embodiments during runtime.
- an electronic device including a memory and a processor, the memory stores a computer program, the processor is configured to run the computer program to perform any of the above The steps in the method embodiment.
- the first communication node when the first trigger condition is met, the first communication node will send the first information on the first resource; thereby making the information reporting more flexible to adapt to the actual mobility of the UE, and solving the related technology Since the base station has little knowledge of the actual mobility of the user equipment, the problem of power consumption of the user equipment during the reporting of channel state information is caused.
- FIG. 1 is a block diagram of a hardware structure of a UE in a method for sending information according to an embodiment of the present invention
- FIG. 2 is a flowchart of a method for sending information according to an embodiment of the present invention
- FIG. 3 is a schematic diagram 1 of a periodic CSI reporting method according to an embodiment of the present invention.
- FIG. 4 is a schematic diagram 2 of a periodic CSI reporting method according to an embodiment of the present invention.
- FIG. 5 is a schematic diagram 1 of a MAC-CE based semi-persistent CSI reporting method according to an embodiment of the present invention
- FIG. 6 is a schematic diagram 2 of a MAC-CE based semi-persistent CSI reporting method according to an embodiment of the present invention
- FIG. 7 is a schematic diagram 1 of a DCI-based semi-persistent CSI reporting method according to an embodiment of the present invention.
- FIG. 8 is a schematic diagram 2 of a DCI-based semi-persistent CSI reporting method according to an embodiment of the present invention.
- FIG. 9 is a schematic diagram 1 of an information transmission method according to an embodiment of the present invention.
- FIG. 10 is a second schematic diagram of an information sending method according to an embodiment of the present invention.
- FIG. 11 is a schematic diagram of periodic uplink data transmission based on UE triggering according to an embodiment of the present invention.
- FIG. 12 is a schematic diagram 1 of a DRX method based on a trigger condition according to an embodiment of the present invention
- FIG. 13 is a schematic diagram 2 of a DRX method based on a trigger condition according to an embodiment of the present invention
- FIG. 14 is a schematic structural diagram of an information processing apparatus according to an embodiment of the present invention.
- FIG. 1 is a block diagram of a hardware structure of a UE of a method for sending information according to an embodiment of the present invention.
- the UE may include one or more (only one is shown in FIG. 1) processor 102 (the processor 102 may include but is not limited to a processing device such as a microprocessor MCU or a programmable logic device FPGA, etc.) and The memory 104 for storing data.
- the UE may further include a transmission device 106 and an input and output device 108 for communication functions.
- FIG. 1 is merely an illustration, which does not limit the structure of the foregoing UE.
- the UE may also include more or fewer components than those shown in FIG. 1, or have a different configuration than that shown in FIG.
- the memory 104 may be used to store computer programs, for example, software programs and modules of application software, such as computer programs corresponding to the information transmission method in the embodiments of the present invention, and the processor 102 executes the computer program stored in the memory 104 to execute Various functional applications and data processing, namely to achieve the above method.
- the memory 104 may include a high-speed random access memory, and may also include a non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory.
- the memory 104 may further include memories remotely provided with respect to the processor 102, and these remote memories may be connected to the UE through a network. Examples of the above network include but are not limited to the Internet, intranet, local area network, mobile communication network, and combinations thereof.
- the transmission device 106 is used to receive or transmit data via a network.
- the specific example of the network described above may include a wireless network provided by a communication provider of the UE.
- the transmission device 106 includes a network adapter (Network Interface Controller, referred to as NIC for short), which can be connected to other network devices through the base station to communicate with the Internet.
- the transmission device 106 may be a radio frequency (Radio Frequency, RF for short) module, which is used to communicate with the Internet in a wireless manner.
- RF Radio Frequency
- FIG. 2 is a flowchart of the information sending method according to an embodiment of the present invention. As shown in FIG. 2, the process includes the following steps:
- Step S202 the first communication node determines whether the first trigger condition is satisfied
- Step S204 when the first trigger condition is satisfied, the first communication node sends the first information on the first resource; wherein, the first information includes at least one of the following information: channel related information and second information;
- the second information includes at least one of the following: channel and/or signal transmission indication information on the second resource; and channel related information transmission request.
- step S202 and step S204 of this embodiment when the first trigger condition is satisfied, the first communication node sends the first information on the first resource; thereby making the information reporting more flexible to adapt to the actual UE Mobility solves the problem of power consumption of user equipment during reporting of channel state information due to the fact that the base station has little knowledge of the actual mobility of user equipment in the related art.
- the manner in which the first communication node involved in step S202 in this embodiment determines whether the first trigger condition is satisfied may be: the first communication node determines whether it is based on at least one of the following Satisfy the first trigger condition: measure the reference signal resource; whether there is a channel and/or signal to be sent on the second resource; whether the wake-up signal WUS is received; measure whether the reference signal resource is configured and/or transmitted in the idle state.
- the first trigger condition involved in this embodiment includes at least one of the following:
- the current reference signal resource index is different from the previous reference signal resource index reported by the first communication node
- the link quality of the N reference signal resources in the first reference signal set is less than the third predetermined threshold, where N is a positive integer;
- the first information includes the second information:
- the period of the first resource is an integer multiple of the second resource
- the first communication node sends the sequence in the predetermined sequence set on the first resource to carry the second information
- the first communication node After sending the first information, the first communication node sends a channel and/or a signal on the second resource; where M is a positive integer greater than or equal to 1.
- the fifth predetermined threshold may be obtained in one of the following ways: signaling information received by the first communication node; where the signaling information includes fifth predetermined threshold information; or, the first communication node Sending capability information; wherein, the capability information includes fifth predetermined threshold information.
- the channel and/or signal on the second resource involved in this embodiment includes at least one of the following: periodic PUSCH resource, grant-free channel resource, channel and/or signal of channel related information.
- the channel or signal and/or channel related information on the second resource involved in this embodiment satisfies the first trigger condition.
- the method step in this embodiment further includes at least one of the following:
- the first communication node detects the control channel
- the first communication node determines the third resource according to the information in the control channel
- the first communication node sends at least one of the following on the third resource: channel or signal, and channel related information.
- this embodiment may further include at least one of the following: the first resource is in an activated state; the first communication node determines the first resource according to the received signaling information; after the first communication node sends the first information, the first A communication node enters the activated state.
- the time difference between the end symbol of the first resource and the first symbol in the activated state is greater than or equal to the sixth predetermined threshold
- the first communication node sends the first information at symbol n, and the first communication node enters the active state at symbol n+k; where k is a predetermined time interval;
- the first resource is after WUS
- the first resource is between WUS and the first symbol in the activated state
- P activation states correspond to a first resource, where P is a positive integer greater than or equal to 1;
- Q WUS correspond to a first resource, where Q is a positive integer greater than or equal to 1.
- the first communication node After receiving the WUS for awakening the first communication node, the first communication node determines whether the second trigger condition is satisfied, and if the second trigger condition is satisfied, sends the first information on the first resource; or, the first communication When the node does not receive the WUS for awakening the first communication node, it does not send the first information on the first resource.
- whether the second trigger condition is met can be determined according to at least one of the following: measuring reference signal resources; whether there are channels and/or signals on the second resources that need to be sent.
- channel related information is obtained based on a measurement reference signal
- the measurement reference signal resource includes one of the following: CSI-RS or SSB configured and/or transmitted in an idle state; predetermined configuration and/or transmission CSI-RS or SSB; CSI-RS or SSB configured and/or transmitted in the measurement window; CSI-RS or SSB configured and/or transmitted closest to the first resource and whose time interval is greater than the seventh predetermined threshold;
- the measurement window satisfies at least one of the following characteristics: determined according to the received signaling information; at a predetermined time domain position; in an idle state; the distance from the first resource is greater than an eighth predetermined threshold.
- the channel-related information involved in this embodiment includes at least one of the following: RI, CQI, PMI, CRI, SSBRI, RSRP, signal-to-interference and noise ratio (Signal to Interference plus Noise, Ratio, SINR), new beam information , Beam group ID, QCL information, reference signal resource set ID, antenna group ID.
- the method of this embodiment may further include:
- Step S106 the first communication node does not send the first information when the first trigger condition is not satisfied
- Step S108 when the first trigger condition is not met, the first communication node sends the third information on the first resource
- the third information is used to indicate at least one of the following information: the first communication node prohibits sending channels and/or signals on the second resource corresponding to the second information, and the first communication node has no first information to send.
- the second resource and/or the first resource include at least one of the following: periodic PUCCH resource, semi-persistent PUCCH resource, semi-persistent PUSCH resource, grant-free channel resource, periodic uplink channel, Semi-persistent uplink channels, periodic PRACH resources, periodic reference signals, semi-persistent reference signal resources, and predetermined resources.
- the method of this embodiment further includes: updating the reference signal indication information included in the first information to a predetermined quasi-co-located reference signal set; And/or the quasi-co-location reference signal of the type of quasi-co-location parameter of the predetermined reference signal is updated to the reference signal indication information included in the first information.
- the quasi-co-location parameters involved in this embodiment are obtained by at least one of the following methods: (1)
- the quasi-co-location parameters of the first category include quasi-co-location parameters in a predetermined quasi-co-location reference signal set (2) Determine a class of quasi-co-location parameters based on the quasi-co-location parameters included in the transmission configuration TCI corresponding to the reference signal indication information; (2) Determine a class of quasi-co-location parameters according to the time-domain characteristics of the reference signal corresponding to the reference signal indication information Address parameters, where the time domain characteristics include periodic, aperiodic, and semi-persistent; (3) a class of quasi-co-location parameters is determined according to whether the repetition transmission parameter repetition is configured in the reference signal set where the reference signal corresponding to the reference signal indication information is located.
- the second resource and/or the first resource involved in this embodiment include at least one of the following: periodic PUCCH resource, semi-persistent PUCCH resource, semi-persistent PUSCH resource, grant-free channel resource, and periodic uplink channel , Semi-persistent uplink channels, periodic PRACH resources, periodic reference signals, semi-persistent reference signal resources, and predetermined resources.
- FIG. 3 is a schematic diagram 1 of a periodic CSI reporting method according to an embodiment of the present application
- FIG. 4 is a schematic diagram 2 of a periodic CSI reporting method according to an embodiment of the present invention.
- the periodic CSI provided by this optional embodiment
- the steps of the reporting method include:
- Step S301 the UE determines whether the trigger condition is satisfied
- Step S302 including the following manner 1 and/or manner 2;
- Method 1 when the trigger condition is met, the UE sends a new signal on the pre-allocated resource; when the trigger condition is not met, the UE does not send a new signal.
- the new signal is used to indicate that the periodic CSI reporting resource after a period of time (T symbols) after sending the new signal, the UE will send CSI.
- T refers to the time difference between the new signal and the first symbol of the periodic CSI reporting resource.
- T is greater than a predetermined threshold Q, and the Q value is related to the time when the UE prepares CSI.
- Method 2 when the trigger condition is met, the UE sends CSI on the periodic CSI reporting resource; when the trigger condition is met, the UE does not send CSI.
- the periodic CSI reporting resource is a periodic PUCCH resource.
- CSI includes layer (rank) indicator (rank indicator (RI)), channel quality indicator (channel quality indicator (CQI)), precoding matrix (precoding matrix (PMI), CSI-RS resource index (CSI-RS resource index (referred to as CRI), SSB resource index (SSB resource index, referred to as SSBRI), RSRP.
- rank indicator rank indicator
- CQI channel quality indicator
- PMI precoding matrix
- CRI CSI-RS resource index
- SSB resource index SSB resource index
- SSBRI RSRP.
- the trigger condition includes at least one of the following:
- Condition 1 The CRI corresponding to the currently measured maximum RSRP value is different from the CRI reported by the previous UE;
- Condition 2 The difference between the currently measured maximum RSRP value and the RSRP value reported by the previous UE is greater than the predetermined threshold Q1 and the number of times is greater than the predetermined threshold Q2;
- the pre-allocated resources include periodic PUCCH resources and periodic PRACH resources.
- a new report parameter type reportConfigType is introduced in the parameter CSI-ReportConfig: the event triggers the report Event-trigger report.
- the new signal is a specific ZC (Zadoff-Chu) sequence.
- the new signal has the smallest possible bandwidth.
- FIG. 5 is a schematic diagram 1 of a semi-persistent CSI reporting method based on MAC CE according to an embodiment of the present invention
- FIG. 6 is a schematic diagram 2 of a semi-persistent CSI reporting method based on MAC CE according to an embodiment of the present invention; based on FIGS. 5 and 6
- the steps of the semi-persistent CSI reporting method based on MAC provided by this optional embodiment include:
- Step S401 the UE receives the MAC activation command and triggers semi-persistent CSI reporting;
- Step S402 the UE determines whether the trigger condition is satisfied
- step S403 there are two implementation methods: method 1 and method 2.
- Method 1 when the trigger condition is met, the UE sends a new signal on the pre-allocated resource; when the trigger condition is not met, the UE does not send the new signal.
- the new signal is used to indicate that the semi-persistent CSI reporting resource after a period of time (T symbols) after sending the new signal, the UE will send CSI.
- T refers to the time difference between the new signal and the first symbol of the semi-persistent CSI reporting resource.
- T is greater than a predetermined threshold Q, and the Q value is related to the time when the UE prepares CSI.
- Method 2 (shown in FIG. 6): when the trigger condition is met, the UE sends CSI on the semi-persistent CSI reporting resource; when the trigger condition is met, the UE does not send CSI.
- the semi-persistent CSI reporting resource is a semi-persistent PUCCH resource.
- CSI includes RI, CQI, PMI, CRI, SSBRI, RSRP.
- the trigger condition includes at least one of the following:
- Condition 1 The CRI corresponding to the currently measured maximum RSRP value is different from the CRI reported by the previous UE
- Condition 2 The difference between the currently measured maximum RSRP value and the previous RSRP value reported by the UE is greater than the predetermined threshold Q1 and the number of times is greater than the predetermined threshold Q2
- the pre-allocated resources include semi-persistent PUCCH resources and semi-persistent PRACH resources.
- a new report parameter type reportConfigType is introduced in the parameter CSI-ReportConfig: the event triggers the report Event-trigger report.
- the new signal is a specific ZC (Zadoff-Chu) sequence.
- the new signal has the smallest possible bandwidth.
- FIG. 7 is a schematic diagram of a semi-persistent CSI reporting method based on DCI according to an embodiment of the present invention
- FIG. 8 is a schematic diagram of a semi-persistent CSI reporting method based on DCI according to an embodiment of the present invention; based on FIG. 7 and FIG. 8,
- the steps of the DCI-based semi-persistent CSI reporting method provided in the alternative embodiment include:
- step S501 the UE receives the DCI activation command and triggers semi-persistent CSI reporting.
- Step S502 after NT CSI reporting periods, the UE determines whether the trigger condition is satisfied;
- step S503 there are two methods in step S503: method 1 and method 2.
- Method 1 when the trigger condition is met, the UE sends a new signal on the pre-allocated resource; when the trigger condition is not met, the UE does not send a new signal.
- the new signal is used to indicate that the semi-persistent CSI reporting resource after a period of time (T symbols) after sending the new signal, the UE will send CSI.
- T refers to the time difference between the new signal and the first symbol of the semi-persistent CSI reporting resource.
- T is greater than a predetermined threshold Q, and the Q value is related to the capabilities of the UE and the time the UE prepares for CSI.
- Method 2 when the trigger condition is met, the UE sends CSI on the semi-persistent CSI reporting resource; when the trigger condition is met, the UE does not send CSI.
- the semi-persistent CSI reporting resources are semi-persistent PUSCH resources.
- CSI includes RI, CQI, PMI, CRI, SSBRI, RSRP.
- the trigger condition includes at least one of the following:
- Condition 1 The CRI corresponding to the currently measured maximum RSRP value is different from the CRI reported by the previous UE;
- Condition 2 The difference between the currently measured maximum RSRP value and the RSRP value reported by the previous UE is greater than the predetermined threshold Q1 and the number of times is greater than the predetermined threshold Q2;
- the pre-allocated resources include semi-persistent PUCCH resources and semi-persistent PRACH resources.
- a new report parameter type reportConfigType is introduced in the parameter CSI-ReportConfig: the event triggers the report Event-trigger report.
- the new signal is a specific ZC (Zadoff-Chu) sequence.
- the new signal has the smallest possible bandwidth.
- the base station knows the quality of the beam in time.
- q0 is a set of downlink reference signal resources used to detect beam failure, including a set of periodic CSI-RS or SSB (Synchronization Signal Block) resources, the number is N0; beam information includes CRI (CSI -RS Resource Indicator, CSI-RS resource indicator) or SSBRI (SSB Resource Indicator, SSB resource indicator), RSRP.
- CRI CSI -RS Resource Indicator, CSI-RS resource indicator
- SSBRI SSB Resource Indicator, SSB resource indicator
- Step S602 The UE determines whether the trigger condition is satisfied.
- Step S604 When the trigger condition is met, the UE sends beam information on the pre-allocated resources; when the trigger condition is not met, the UE does not send beam information.
- the trigger condition includes one of the following:
- Condition 3 The link quality of the N (0 ⁇ N ⁇ N0) reference signal resources in the current q0 is less than the predetermined threshold
- Condition 4 The number of times the link quality of all reference signal resources in q0 is less than the predetermined threshold is greater than the predetermined threshold;
- Condition 5 The current link quality of the CSI-RS or SSB resource corresponding to the previously reported CRI or SSBRI is less than a predetermined threshold
- the pre-allocated resources include periodic PUCCH resources, periodic PRACH resources, and semi-persistent PUCCH resources.
- FIG. 9 is a schematic diagram 1 of an information transmission method according to an embodiment of the present invention. Based on FIG. 9, the steps of the information transmission method provided in this optional implementation manner include:
- step S702 the UE determines whether the trigger condition is satisfied.
- Step S704 when the trigger condition is met, the UE sends a scheduling request SR to request information to send resources; when the trigger condition is not met, the UE does not send the SR.
- step S706 after receiving the SR, the base station sends downlink control information DCI through the downlink control channel PDCCH, where DCI indicates the information transmission resource in step 2.
- step S708 after detecting the PDCCH and acquiring the DCI, the UE transmits information on the information transmission resource.
- the trigger condition includes:
- Condition 6 The UE has information to send.
- FIG. 10 is a second schematic diagram of information transmission according to an embodiment of the present invention. Based on FIG. 10, the steps of the information transmission method provided in this optional embodiment include:
- step S801 the UE determines whether the trigger condition is satisfied.
- Step S802 when the trigger condition is met, the UE sends a channel state information dedicated scheduling request CSI-SR to request CSI transmission resources; when the trigger condition five is met, the UE sends a data dedicated scheduling request data-SR to request data transmission resources; not satisfied When the condition is triggered, the UE does not send a scheduling request.
- the UE when the trigger conditions 7 and 8 are satisfied at the same time, the UE only sends a data-specific scheduling request data-SR.
- Step S803 After receiving the CSI-SR or data-SR, the base station sends downlink control information DCI through the downlink control channel PDCCH.
- Step S804 after detecting the PDCCH and acquiring the DCI, the UE transmits CSI (or data) on the CSI (or data) transmission resource.
- the trigger conditions include:
- Condition 7 The UE needs to send channel state information CSI;
- Condition 8 The UE has data to send.
- FIG. 11 is a schematic diagram of periodic uplink data transmission based on UE triggering according to an embodiment of the present invention. Based on FIG. 11, the steps of the method for periodic uplink data transmission based on UE triggering provided in this optional embodiment include:
- step S901 the UE determines whether the trigger condition is satisfied.
- Step S902 when the trigger condition is satisfied, the UE sends data on a pre-allocated periodic grant-free channel resource; when the trigger condition is not met, the UE does not send data.
- the triggering conditions include: Condition 8: The UE has data to send.
- FIG. 12 is a schematic diagram 1 of a DRX method based on a trigger condition according to an embodiment of the present invention. Based on FIG. 12, the steps of the DRX method based on a trigger condition provided by this optional embodiment include:
- Step S1001 the UE calculates the channel measurement result according to the measurement resource.
- the measurement resources include one of the following:
- CSI-RS or SSB configured and/or transmitted in idle state
- the measurement window satisfies at least one of the following conditions: determined according to the received signaling information; at a predetermined time domain position; in idle state; and the first resource The distance between is greater than the predetermined threshold Y1;
- step S1002 the UE determines whether the trigger condition is satisfied according to the channel measurement result (such as CSI).
- step S1003 the UE sends CSI on pre-allocated resources (assuming the corresponding symbol n).
- Step S1004 after a period of time (k symbols) after the CSI reports, the UE enters the activated state (corresponding symbol n+k).
- the pre-allocated resources are before the activation state configured by the higher layer and are separated by T1 symbols; T1 refers to the time difference between the end symbol of the pre-allocated resource and the first symbol of the activation state configured by the higher layer.
- T1 is greater than or equal to the predetermined threshold Q1; or, T1 is less than or equal to the predetermined threshold Q1.
- CSI includes RI, CQI, PMI, CRI, SSBRI, RSRP.
- the pre-allocated resources include PUCCH resources, PUSCH resources, and PRACH resources.
- the trigger condition includes one of the following conditions:
- Condition 1 The CRI corresponding to the currently measured maximum RSRP value is different from the CRI reported by the previous UE;
- Condition 2 The difference between the currently measured maximum RSRP value and the previous RSRP value reported by the UE is greater than a predetermined threshold.
- FIG. 13 is a schematic diagram 2 of a DRX method based on a trigger condition according to an embodiment of the present invention. Based on FIG. 13, the steps of the DRX method based on a trigger condition provided in this optional embodiment include:
- Step S1101 the UE receives a wake-up signal (WUS), where WUS instructs the UE to enter an activated state after T2 symbols;
- WUS wake-up signal
- Step S1102 the UE calculates the channel measurement result according to the measurement resource.
- the measurement resources include one of the following:
- CSI-RS or SSB configured and/or transmitted in idle state
- the measurement window satisfies at least one of the following conditions: determined according to the received signaling information; at a predetermined time domain position; in idle state; and the first resource The distance between is greater than the predetermined threshold Y1;
- Step S1103 the UE determines whether the trigger condition is satisfied according to the channel measurement result (such as CSI).
- the following steps S1104 and S1105 are performed; when the trigger condition is not satisfied, the UE enters the active state after T2 symbols after receiving the WUS.
- step S1104 the UE sends CSI on pre-allocated resources (assuming the corresponding symbol n).
- Step S1105 after a period of time (k symbols) after the CSI reports, the UE enters the activated state (corresponding symbol n+k).
- pre-allocated resources satisfy the following characteristics:
- T1 refers to the time difference between the end symbol of the pre-allocated resource and the first symbol of the activated state of the higher layer configuration.
- T1 is greater than or equal to the predetermined threshold Q1; alternatively, T1 is less than or equal to the predetermined threshold Q1.
- CSI includes RI, CQI, PMI, CRI, SSBRI, RSRP.
- the pre-allocated resources include PUCCH resources, PUSCH resources, and PRACH resources.
- the triggering conditions include:
- Condition 1 The CRI corresponding to the currently measured maximum RSRP value is different from the CRI reported by the previous UE;
- Condition 2 The difference between the currently measured maximum RSRP value and the previous RSRP value reported by the UE is greater than a predetermined threshold.
- This optional embodiment provides a method for updating the transmission configuration indication TCI after CSI reporting.
- the reported channel state information CSI includes CRInew.
- the CSI-RSnew corresponding to CRInew comes from a CSI-RS resource set.
- steps S1201-1 to S1201-4 correspond to different scenarios (or methods); steps S1202-1-1 to S1202-1-3 correspond to the beam indication of the PDCCH; steps 1202-2-1 to 1202-2 -3 corresponds to the beam indicator of PDSCH.
- the method for updating the transmission configuration indication TCI after the CSI is reported in this optional embodiment includes:
- each CSI-RS corresponds to a predetermined quasi-co-located QCL type (such as predetermined as QCL-TypeA+QCL-TypeD), that is, a one-to-one correspondence.
- the corresponding QCL type is determined according to CRInew, thereby determining the new TCI state.
- Step S1201-2 the CRInew corresponds to CSI-RSnew, the predetermined QCL type corresponding to the CSI-RSnew is QCL-TypeA+QCL-TypeD, and the new TCI state is determined according to the CRInew and the QCL type.
- Step S1201-3 the set is a non-zero power NZP CSI-RS set with high-level parameter repetition configured and repetition set to on, that is, the set is used for beam management. Therefore, according to the CRInew, the QCL type can be determined as QCL-TypeA+QCL-TypeD, thereby determining the new TCI state.
- Step S1201-4 the set is a periodic CSI-RS resource set. Therefore, according to the CRInew, the QCL type can be determined as QCL-TypeA+QCL-TypeD, thereby determining the new TCI state.
- Step S1202-1-1 delete the last TCI state in the predetermined candidate TCI state pool configured by the RRC signaling of the radio resource control layer, and add a new TCI state to the end of the candidate TCI state pool.
- Step 1202-1-2 delete the last TCI state in the predetermined TCI state pool on the control resource set CORESET, and add a new TCI state to the end of the TCI state pool.
- Step 1202-1-3 replacing the predetermined TCI state indicated by the MAC MAC with the new TCI state.
- Step S1202-2-1 delete the last TCI state in the predetermined candidate TCI state pool configured by the RRC signaling of the radio resource control layer, and add a new TCI state to the end of the candidate TCI state pool.
- Step S1202-2-2 delete the last TCI state in the predetermined TCI state pool indicated by the media access control layer signaling MAC and CE, and add a new TCI state to the end of the TCI state pool.
- Step S1202-2-3 replacing the predetermined TCI state indicated by the downlink control information DCI with a new TCI state.
- a device for sending information is also provided.
- the device is used to implement the above-mentioned embodiments and preferred implementation modes, and those that have already been described will not be repeated.
- the term "module” may implement a combination of software and/or hardware that performs predetermined functions.
- the devices described in the following embodiments are preferably implemented in software, implementation of hardware or a combination of software and hardware is also possible and conceived.
- FIG. 14 is a schematic structural diagram of an information sending device according to an embodiment of the present invention.
- the device is applied to the first communication node side.
- the device includes: a determining module 1402, configured to determine whether the first trigger condition is satisfied
- the first sending module 1404 and the judging module 1402 are used to send the first information on the first resource when the first trigger condition is met; wherein, the first information includes at least one of the following information: channel related information, Second information
- the second information includes at least one of the following: channel and/or signal transmission indication information on the second resource; and channel related information transmission request.
- whether the first trigger condition is met is determined according to at least one of the following: measuring the reference signal resource; whether there is a channel and/or signal to be sent on the second resource; whether the wake-up signal WUS is received; Measuring whether the reference signal resource is configured and/or transmitted in the idle state.
- the first trigger condition involved in this embodiment includes at least one of the following:
- the current reference signal resource index is different from the previous reference signal resource index reported by the first communication node
- the current maximum RSRP refers to the number of times that the difference between the RSRP value reported by the first communication node last time is greater than the first predetermined threshold and greater than the second predetermined threshold;
- the link quality of the N reference signal resources in the first reference signal set is less than the third predetermined threshold, where N is a positive integer;
- the first information includes the second information:
- the period of the first resource is an integer multiple of the second resource
- the first communication node sends the sequence in the predetermined sequence set on the first resource to carry the second information
- the first communication node After sending the first information, the first communication node sends a channel and/or a signal on the second resource; where M is a positive integer greater than or equal to 1.
- the fifth predetermined threshold is obtained in one of the following ways: received signaling information; wherein, the signaling information includes fifth predetermined threshold information; the first communication node sends capability information; wherein, the capability information includes fifth predetermined threshold information .
- the channel and/or signal on the second resource involved in this embodiment includes at least one of the following: periodic PUSCH resource, grant-free channel resource, channel and/or signal of channel related information.
- the channel or signal and/or channel related information on the second resource involved in this embodiment satisfies the first trigger condition.
- the channels and/or signals involved in this embodiment are sent on a second resource corresponding to the second information, where the channels and/or signals include at least one of the following: periodic PUSCH resources, grant-free channel resources, The channel and/or signal including the second channel state information. And, the second channel state information and/or the first channel state information satisfy the first trigger condition.
- the device further includes at least one of the following: a detection module for detecting a control channel; or, a determination module for controlling according to The information in the channel determines the third resource; or, the second sending module is used by the first communication node to send at least one of the following on the third resource: channel or signal, and channel related information.
- the first resource is before the activation period; where the activation period is the activation period in DRX; or, after sending the first information, the first communication node enters the activation period from the sleep period in which DRX is not continuously received.
- the time difference between the end symbol of the first resource and the first symbol in the activated state is greater than or equal to the sixth predetermined threshold
- the first communication node sends the first information at symbol n, and the first communication node enters the active state at symbol n+k; where k is a predetermined time interval;
- the first resource is after WUS
- the first resource is between WUS and the first symbol in the activated state
- P activation states correspond to a first resource, where P is a positive integer greater than or equal to 1;
- Q WUS correspond to a first resource, where Q is a positive integer greater than or equal to 1.
- the above modules can be implemented by software or hardware, and the latter can be implemented by the following methods, but not limited to this: the above modules are all located in the same processor; or, the above modules can be combined in any combination The forms are located in different processors.
- An embodiment of the present invention further provides a storage medium in which a computer program is stored, wherein the computer program is set to execute any of the steps in the above method embodiments during runtime.
- the above storage medium may be set to store a computer program for performing the following steps:
- the first communication node determines whether the first trigger condition is satisfied
- the first communication node sends the first information on the first resource; where the first information includes at least one of the following information: channel-related information and second information;
- the second information includes at least one of the following: channel and/or signal transmission indication information on the second resource; and channel related information transmission request.
- the above storage medium may include, but is not limited to: a USB flash drive, a read-only memory (Read-Only Memory, ROM for short), a random access memory (Random Access Memory, RAM for short), Various media that can store computer programs, such as removable hard disks, magnetic disks, or optical disks.
- An embodiment of the present invention further provides an electronic device, including a memory and a processor, where the computer program is stored in the memory, and the processor is configured to run the computer program to perform the steps in any one of the foregoing method embodiments.
- the electronic device may further include a transmission device and an input-output device, where the transmission device is connected to the processor, and the input-output device is connected to the processor.
- the foregoing processor may be configured to perform the following steps through a computer program:
- the first communication node determines whether the first trigger condition is satisfied
- the first communication node sends the first information on the first resource; where the first information includes at least one of the following information: channel-related information and second information;
- the second information includes at least one of the following: channel and/or signal transmission indication information on the second resource; and channel related information transmission request.
- modules or steps of this application can be implemented by a general-purpose computing device, and they can be concentrated on a single computing device or distributed in a network composed of multiple computing devices
- they can be implemented with program code executable by the computing device, so that they can be stored in the storage device to be executed by the computing device, and in some cases, can be in a different order than here
- the steps shown or described are performed, or they are made into individual integrated circuit modules respectively, or multiple modules or steps among them are made into a single integrated circuit module for implementation. In this way, the application is not limited to any specific combination of hardware and software.
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Abstract
公开了一种信息的发送方法及装置、存储介质和电子装置;其中,该方法包括:第一通信节点判断是否满足第一触发条件;在满足第一触发条件的情况下,所述第一通信节点在第一资源上发送第一信息;其中,所述第一信息包括以下信息至少之一:信道相关信息、第二信息;其中,所述第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;所述信道相关信息的传输请求。通过本申请,解决了由于基站对用户设备的实际移动性获知较少,导致在信道状态信息的上报过程中对用户设备功率的消耗的问题。
Description
本申请要求在2019年01月11日提交中国专利局、申请号为201910028152.5的中国专利申请的优先权,该申请的全部内容通过引用结合在本申请中。
本申请涉及通信领域,例如涉及一种信息的发送方法及装置、存储介质和电子装置。
相关的信道状态信息(Channel State Information,简称为CSI)上报机制包括周期CSI上报、半持续CSI上报和非周期CSI上报。其中,对于周期CSI上报,其周期由无线资源控制(Radio Resource Control,简称为RRC)静态配置,用户设备(User Equipment,简称为UE)周期性地在物理上行控制信道(Physical Uplink Shared Channel,简称为PUCCH)上发送CSI;对于半持续CSI上报,其激活与灭活由媒体介入控制单元(Media Access Control Control Element,简称为MAC CE)触发,CSI在PUCCH或物理上行共享信道(Physical Uplink Shared Channel,简称为PUSCH)上传输;对于非周期CSI上报,由下行链路控制信息(Downlink Control Information,简称为DCI)信令动态触发,UE通过监听物理下行控制信道(Physical Downlink Control Channel,简称为PDCCH)来获取相关信息,其CSI在PUSCH上传输。
另外,为了降低UE的功耗,引入了非连续接收(Discontinuous Reception,简称为DRX)的概念。DRX的基本机制是为处于RRC_CONNECTED态的UE配置一个DRX cycle。DRX cycle由“On Duration for DRX”和“Opportunity for DRX”组成:在“On Duration for DRX”时间内,UE监听PDCCH(激活态);在“Opportunity for DRX”时间内,UE不监听PDCCH以减少功耗(空闲态)。
但相关技术中的方式存在以下不足之处:
对于周期或半持续CSI上报,基站对于UE的实际移动性知道得太少,使得基站很难配置其CSI上报的周期,而且频繁的波束上报可能会导致不必要的资源浪费,且对UE功耗造成负面影响。
对于非周期CSI上报,基站对于UE的实际移动性知道得太少,使得基站不 清楚在什么时候触发CSI上报,从而导致UE可能会产生多余的功耗以监听PDCCH。
对于配置了DRX的UE,改变的CSI只有UE进入激活态才能上报给基站,即CSI变化时延较大。
针对相关技术中的上述问题,目前尚未存在有效的解决方案。
发明内容
本发明实施例提供了一种信息的发送方法及装置、存储介质和电子装置,以至少解决相关技术中由于基站对用户设备的实际移动性获知较少,导致在信道状态信息的上报过程中对用户设备功率的消耗的问题。
根据本发明的一个实施例,提供了一种信息的发送方法,包括:第一通信节点判断是否满足第一触发条件;在满足第一触发条件的情况下,所述第一通信节点在第一资源上发送第一信息;其中,所述第一信息包括以下信息至少之一:信道相关信息、第二信息;其中,所述第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;所述信道相关信息的传输请求。
根据本发明的另一个实施例,提供了一种信息的发送装置,包括:判断模块,用于判断是否满足第一触发条件;发送模块,用于在满足第一触发条件的情况下,在第一资源上发送第一信息;其中,所述第一信息包括以下信息至少之一:信道相关信息、第二信息;其中,所述第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;所述信道相关信息的传输请求。
根据本发明的又一个实施例,还提供了一种存储介质,所述存储介质中存储有计算机程序,其中,所述计算机程序被设置为运行时执行上述任一项方法实施例中的步骤。
根据本发明的又一个实施例,还提供了一种电子装置,包括存储器和处理器,所述存储器中存储有计算机程序,所述处理器被设置为运行所述计算机程序以执行上述任一项方法实施例中的步骤。
通过本申请,在满足第一触发条件的情况下,第一通信节点会在第一资源上发送该第一信息;从而使得信息的上报更加灵活,以适应UE实际的移动性,解决了相关技术中由于基站对用户设备的实际移动性获知较少,导致在信道状态信息的上报过程中对用户设备功率的消耗的问题。
附图概述
此处所说明的附图用来提供对本申请的进一步理解,构成本申请的一部分,本申请的示意性实施例及其说明用于解释本申请,并不构成对本申请的不当限定。在附图中:
图1是本发明实施例的一种信息的发送方法的UE的硬件结构框图;
图2是根据本发明实施例的信息的发送方法的流程图;
图3根据本发明是实施例的周期CSI上报方法原理图一;
图4是根据本发明实施例的周期CSI上报方法原理图二;
图5是根据本发明实施例的基于MAC CE的半持续CSI上报方法原理图一;
图6是根据本发明实施例的基于MAC CE的半持续CSI上报方法原理图二;
图7是根据本发明实施例的基于DCI的半持续CSI上报方法原理图一;
图8是根据本发明实施例的基于DCI的半持续CSI上报方法原理图二;
图9是根据本发明实施例的信息发送方法的原理图一;
图10是根据本发明实施例的信息发送方法的原理图二;
图11是根据本发明实施例的基于UE触发的周期上行数据传输原理图;
图12是根据本发明实施例的基于触发条件的DRX方法的原理图一;
图13是根据本发明实施例的基于触发条件的DRX方法的原理图二;
图14是根据本发明实施例的信息的处理装置的结构示意图。
下文中将参考附图并结合实施例来详细说明本申请。需要说明的是,在不冲突的情况下,本申请中的实施例及实施例中的特征可以相互组合。
需要说明的是,本申请的说明书和权利要求书及上述附图中的术语“第一”、“第二”等是用于区别类似的对象,而不必用于描述特定的顺序或先后次序。
实施例1
本申请实施例一所提供的方法实施例可以在UE、计算机UE或者类似的运算装置中执行。以运行在UE上为例,图1是本发明实施例的一种信息的发送方法的UE的硬件结构框图。如图1所示,UE可以包括一个或多个(图1中仅示出一个)处理器102(处理器102可以包括但不限于微处理器MCU或可编程逻辑器件FPGA等的处理装置)和用于存储数据的存储器104,可选地,上述UE还可以包括用于通信功能的传输设备106以及输入输出设备108。本领域普通技 术人员可以理解,图1所示的结构仅为示意,其并不对上述UE的结构造成限定。例如,UE还可包括比图1中所示更多或者更少的组件,或者具有与图1所示不同的配置。
存储器104可用于存储计算机程序,例如,应用软件的软件程序以及模块,如本发明实施例中的信息的发送方法对应的计算机程序,处理器102通过运行存储在存储器104内的计算机程序,从而执行各种功能应用以及数据处理,即实现上述的方法。存储器104可包括高速随机存储器,还可包括非易失性存储器,如一个或者多个磁性存储装置、闪存、或者其他非易失性固态存储器。在一些实例中,存储器104可进一步包括相对于处理器102远程设置的存储器,这些远程存储器可以通过网络连接至UE。上述网络的实例包括但不限于互联网、企业内部网、局域网、移动通信网及其组合。
传输装置106用于经由一个网络接收或者发送数据。上述的网络具体实例可包括UE的通信供应商提供的无线网络。在一个实例中,传输装置106包括一个网络适配器(Network Interface Controller,简称为NIC),其可通过基站与其他网络设备相连从而可与互联网进行通讯。在一个实例中,传输装置106可以为射频(Radio Frequency,简称为RF)模块,其用于通过无线方式与互联网进行通讯。
在本实施例中提供了一种运行于上述UE的信息的发送方法,图2是根据本发明实施例的信息的发送方法的流程图,如图2所示,该流程包括如下步骤:
步骤S202,第一通信节点判断是否满足第一触发条件;
步骤S204,在满足第一触发条件的情况下,第一通信节点在第一资源上发送第一信息;其中,第一信息包括以下信息至少之一:信道相关信息、第二信息;
其中,第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;信道相关信息的传输请求。
通过本实施例的步骤S202和步骤S204,在满足第一触发条件的情况下,第一通信节点会在第一资源上发送该第一信息;从而使得信息的上报更加灵活,以适应UE实际的移动性,解决了相关技术中由于基站对用户设备的实际移动性获知较少,导致在信道状态信息的上报过程中对用户设备功率的消耗的问题。
在本实施例的可选实施方式中,本实施例中的步骤S202中涉及到的第一通信节点判断是否满足第一触发条件的方式,可以是:第一通信节点根据以下至 少之一判断是否满足第一触发条件:测量参考信号资源;在第二资源上是否有信道和/或信号需要发送;是否接收到唤醒信号WUS;测量参考信号资源是否在空闲态中配置和/或传输。
在本实施例的可选实施方式中,本实施例中涉及到的第一触发条件包括以下至少之一:
(1)当前参考信号资源索引与前一次第一通信节点上报的参考信号资源索引不同;
(2)当前最大参考信号接收功率(Reference Signal Receiving Power,RSRP)值与前一次第一通信节点上报的RSRP值的差值大于第一预定阈值的次数大于第二预定阈值;
(3)第一参考信号集合中N个参考信号资源的链路质量小于第三预定阈值,其中N为正整数;
(4)第二参考信号集合中的全部参考信号资源的链路质量都小于第三预定阈值的次数大于第四预定阈值;
(5)前一次上报的参考信号资源索引对应的链路质量小于第三预定阈值;
(6)在第二资源有信道和/或信号需要发送;
(7)接收到唤醒信号WUS。
需要说明的是,在满足以下条件至少之一的情况下,第一信息包括第二信息:
(1)第二资源和第一资源之间存在对应关系;
(2)存在对应关系的第二资源和第一资源之间的时间间隔大于或者等于第五预定阈值;
(3)第二资源的M个周期对应第一资源的一个周期;
(4)第一资源的周期是第二资源的整数倍;
(5)在第一资源的M个周期之后存在与其对应的一个第二资源;
(6)第二信息所在的第一资源的频域带宽小于第六预定阈值;
(7)第一通信节点在第一资源上发送预定序列集合中的序列用于携带第二信息;
(8)预定序列集合和第二信息之间存在映射关系;
(9)第一通信节点发送第一信息之后,在第二资源上发送信道和/或信号;其中,M为大于或等于1的正整数。
需要说明的是,在本实施例中可以通过以下方式之一获取第五预定阈值:第一通信节点接收的信令信息;其中,信令信息包括第五预定阈值信息;或,第一通信节点发送能力信息;其中,能力信息包括第五预定阈值信息。
可选地,本实施例中涉及到的第二资源上信道和/或信号包括以下至少之一:周期PUSCH资源、grant-free信道资源、信道相关信息的信道和/或信号。
基于此,本实施例中涉及到的第二资源上信道或信号和/或信道相关信息满足第一触发条件。
在本实施例的另一个可选实施方式中,在第一信息包括第二信息的情况下,本实施例中的方法步骤还包括以下至少之一:
(1)第一通信节点检测控制信道;
(2)第一通信节点根据控制信道中的信息确定第三资源;
(3)第一通信节点在第三资源上发送以下至少之一:信道或信号、信道相关信息。
需要说明的是,本实施例还可以包括以下至少之一:第一资源在激活态之前;第一通信节点根据接收的信令信息确定第一资源;第一通信节点发送第一信息之后,第一通信节点进入激活态。
对于本实施例中涉及到的第一资源,需要满足以下条件之一:
(1)第一资源的结束符号与激活态第一个符号之间的时间差大于或者等于第六预定阈值;
(2)第一资源的结束符号与激活态第一个符号之间的时间差小于或者等于第六预定阈值;
(3)第一通信节点在符号n发送第一信息,第一通信节点在符号n+k进入激活态;其中,k为预定时间间隔;
(3)第一资源在WUS之后;
(4)第一资源在WUS和与激活态第一个符号之间;
(5)P个激活态和一个第一资源对应,其中P为大于或者等于1的正整数;
(6)Q个WUS和一个第一资源对应,其中Q为大于或者等于1的正整数。
本实施例中涉及到的方法步骤,还可以包括以下至少之一:
第一通信节点接收到用于唤醒第一通信节点的WUS之后,判断第二触发条件是否满足,在第二触发条件满足的情况下,在第一资源上发送第一信息;或,第一通信节点没有接收到用于唤醒第一通信节点的WUS的情况下,不在第一资 源上发送第一信息。
在本实施例的可选实施方式中,可以根据以下至少之一判断是否满足第二触发条件:测量参考信号资源;在第二资源上是否有信道和/或信号需要发送。
在本实施例的可选实施方式中,信道相关信息基于测量参考信号获取,测量参考信号资源包括以下之一:空闲态中配置和/或传输的CSI-RS或SSB;预定配置和/或传输的CSI-RS或SSB;测量窗口中配置和/或传输的CSI-RS或SSB;距离第一资源最近的且时间间隔大于第七预定阈值的配置和/或传输的CSI-RS或SSB;
其中,测量窗口满足如下特征至少之一:根据接收的信令信息确定;在预定时域位置;在空闲态中;与第一资源之间的距离大于第八预定阈值。
可选地,本实施例中涉及到的信道相关信息包括以下至少之一:RI、CQI、PMI、CRI、SSBRI、RSRP、信号干扰噪声比(Signal to Interference plus Noise Ratio,SINR)、新波束信息、波束组ID,QCL信息、参考信号资源集合ID、天线组ID。
在本实施例的可选实施方式中,本实施例的方法还可以包括:
步骤S106,在不满足第一触发条件的情况下,第一通信节点不发送第一信息;
步骤S108,在不满足第一触发条件的情况下,第一通信节点在第一资源上发送第三信息;
其中,第三信息用于指示如下信息至少之一:第一通信节点禁止在与第二信息对应的第二资源上发送信道和/或信号,第一通信节点没有可发送的第一信息。
在本实施例的可选实施方式中,第二资源和/或第一资源包括以下至少之一:周期PUCCH资源、半持续PUCCH资源、半持续PUSCH资源、grant-free信道资源、周期上行信道、半持续上行信道、周期PRACH资源、周期参考信号、半持续参考信号资源、预定资源。
需要说明的是,在第一通信节点发送第一信息之后,本实施例的方法还包括:将第一信息中包括的参考信号指示信息更新到预定准共址参考信号集合中;将预定信道和/或预定参考信号的关于一类准共址参数的准共址参考信号更新为第一信息中包括的参考信号指示信息。
需要说明的是,本实施例中涉及到的一类准共址参数通过以下至少之一的 方式获取:(1)一类准共址参数包括预定准共址参考信号集合中的准共址参数;(2)根据参考信号指示信息对应的传输配置TCI中包括的准共址参数确定一类准共址参数;(2)根据参考信号指示信息对应的参考信号的时域特性确定一类准共址参数,其中,时域特性包括周期、非周期、半持续;(3)根据参考信号指示信息对应的参考信号所在的参考信号集合中是否配置了重复发送参数repetition确定一类准共址参数。
需要说明的是,本实施例中涉及到的第二资源和/或第一资源包括以下至少之一:周期PUCCH资源、半持续PUCCH资源、半持续PUSCH资源、grant-free信道资源、周期上行信道、半持续上行信道、周期PRACH资源、周期参考信号、半持续参考信号资源、预定资源。
下面结合本实施例的可选实施方式对本申请进行举例说明;
可选实施方式1
图3根据本申请是实施例的周期CSI上报方法原理图一,图4是根据本发明实施例的周期CSI上报方法原理图二,基于图3和图4,本可选实施方式提供的周期CSI上报方法的步骤包括:
步骤S301,UE确定触发条件是否满足;
步骤S302,包括如下方式1和/或方式2;
方式1(如图3所示):在满足触发条件的情况下,UE在预先分配资源上发送新信号;在未满足触发条件的情况下,UE不发送新信号。其中,新信号用于指示在发送新信号后的一段时间(T个符号)后的周期CSI上报资源上,UE会发送CSI。其中,T指新信号到周期CSI上报资源第一个符号之间的时间差。T大于预定阈值Q,Q值与UE准备CSI的时间有关。
方式2(如图4所示):在满足触发条件的情况下,UE在周期CSI上报资源上发送CSI;在满足触发条件的情况下,UE不发送CSI。
其中,周期CSI上报资源为周期PUCCH资源。
其中,CSI包括层(秩)指示(rank indicator,简称为RI)、信道质量指示(channel quality indicator,简称为CQI)、预编码矩阵(precoding matrix indicator,简称为PMI)、CSI-RS资源索引(CSI-RS resource index,简称为CRI)、SSB资源索引(SSB resource index,简称为SSBRI)、RSRP。
可选的,触发条件至少包括以下一种:
条件一:当前测量的最大RSRP值对应的CRI与前一次UE上报的CRI不 同;
条件二:当前测量的最大RSRP值与前一次UE上报的RSRP值的差值大于预定阈值Q1的次数大于预定阈值Q2;
可选的,预先分配资源包括周期PUCCH资源、周期PRACH资源。
可选的,通过参数CSI-ReportConfig配置预先分配资源的资源ID。
可选的,在参数CSI-ReportConfig中引入新的上报参数类型reportConfigType:事件触发上报Event-trigger report。
可选的,新信号是一个特定的ZC(Zadoff-Chu)序列。
可选的,新信号具有尽量小的带宽。
可选实施方式2
图5是根据本发明实施例的基于MAC CE的半持续CSI上报方法原理图一,图6是根据本发明实施例的基于MAC CE的半持续CSI上报方法原理图二;基于图5和图6,本可选实施方式提供的基于MAC CE的半持续CSI上报方法步骤包括:
步骤S401,UE接收MAC CE激活命令,触发半持续CSI上报;
步骤S402,UE确定触发条件是否满足;
步骤S403,有两种实现方式:方式1和方式2。
方式1(如图5所示):在满足触发条件的情况下,UE在预先分配资源上发送新信号;在未满足触发条件的情况下,UE不发送新信号。其中,新信号用于指示在发送新信号后的一段时间(T个符号)后的半持续CSI上报资源上,UE会发送CSI。其中,T指新信号到半持续CSI上报资源第一个符号之间的时间差。T大于预定阈值Q,Q值与UE准备CSI的时间有关。
方式2(如图6所示):在满足触发条件的情况下,UE在半持续CSI上报资源上发送CSI;在满足触发条件的情况下,UE不发送CSI。
其中,半持续CSI上报资源为半持续PUCCH资源。
其中,CSI包括RI、CQI、PMI、CRI、SSBRI、RSRP。
可选的,触发条件至少包括以下一种:
条件一:当前测量的最大RSRP值对应的CRI与前一次UE上报的CRI不同
条件二:当前测量的最大RSRP值与前一次UE上报的RSRP值的差值大于预定阈值Q1的次数大于预定阈值Q2
可选的,预先分配资源包括半持续PUCCH资源、半持续PRACH资源。
可选的,通过参数CSI-ReportConfig配置预先分配资源的资源ID。
可选的,在参数CSI-ReportConfig中引入新的上报参数类型reportConfigType:事件触发上报Event-trigger report。
可选的,新信号是一个特定的ZC(Zadoff-Chu)序列。
可选的,新信号具有尽量小的带宽。
可选实施方式3
图7是根据本发明实施例的基于DCI的半持续CSI上报方法原理图一,图8是根据本发明实施例的基于DCI的半持续CSI上报方法原理图二;基于图7和图8,本可选实施方式中提供的基于DCI的半持续CSI上报方法步骤包括:
步骤S501,UE接收DCI激活命令,触发半持续CSI上报。
步骤S502,经过NT个CSI上报周期后,UE确定触发条件是否满足;
步骤S503,步骤S503有两种方式:方式1和方式2。
方式1(如图7所示):在满足触发条件的情况下,UE在预先分配资源上发送新信号;在未满足触发条件的情况下,UE不发送新信号。其中,新信号用于指示在发送新信号后的一段时间(T个符号)后的半持续CSI上报资源上,UE会发送CSI。其中,T指新信号到半持续CSI上报资源第一个符号之间的时间差。T大于预定阈值Q,Q值与UE能力、UE准备CSI的时间有关。
方式2(如图8所示):在满足触发条件的情况下,UE在半持续CSI上报资源上发送CSI;在满足触发条件的情况下,UE不发送CSI。
其中,半持续CSI上报资源为半持续PUSCH资源。
其中,CSI包括RI、CQI、PMI、CRI、SSBRI、RSRP。
可选的,触发条件至少包括以下一种:
条件一:当前测量的最大RSRP值对应的CRI与前一次UE上报的CRI不同;
条件二:当前测量的最大RSRP值与前一次UE上报的RSRP值的差值大于预定阈值Q1的次数大于预定阈值Q2;
可选的,预先分配资源包括半持续PUCCH资源、半持续PRACH资源。
可选的,通过参数CSI-ReportConfig配置预先分配资源的资源ID。
可选的,在参数CSI-ReportConfig中引入新的上报参数类型reportConfigType:事件触发上报Event-trigger report。
可选的,新信号是一个特定的ZC(Zadoff-Chu)序列。
可选的,新信号具有尽量小的带宽。
可选实施方式4
相关技术的现状:当前PDCCH所关联的下行参考信号集合中所有RS(波束)的链路质量BLER持续小于预定阈值时,才会寻找满足连接需求的新波束进行上报。在这之前,基站不能及时知道波束质量的好坏,即下行参考信号集合中哪些波束的BLER在预定阈值之上或之下。
通过实施例的方式,基站及时知道波束质量的好坏。
做出以下假设:q0是用于检测波束失效的下行参考信号资源集合,包括一组周期性CSI-RS或SSB(Synchronization Signal Block,同步信号块)资源,数量为N0;波束信息包括CRI(CSI-RS Resource Indicator,CSI-RS资源指示)或SSBRI(SSB Resource Indicator,SSB资源指示)、RSRP。基于此,在波束失效恢复BFR中,本实施例提供了一种波束上报方法,其中,特定波束对应用于BFR检测的一组CRI-RS资源集合中的特定CSI-RS索引,即CRI,本实施例的方法步骤包括:
步骤S602:UE确定触发条件是否满足。
步骤S604:在满足触发条件的情况下,UE在预先分配资源上发送波束信息;在未满足触发条件的情况下,UE不发送波束信息。
其中,触发条件包括以下之一:
条件三:当前q0中N(0<N<N0)个参考信号资源的链路质量小于预定阈值;
条件四:当前q0中所有参考信号资源的链路质量小于预定阈值的次数大于预定阈值;
条件五:前一次上报的CRI或SSBRI对应的CSI-RS或SSB资源的当前链路质量小于预定阈值;
可选的,预先分配资源包括周期PUCCH资源、周期PRACH资源、半持续PUCCH资源。
可选实施方式5
图9是根据本发明实施例的信息发送方法的原理图一,基于图9,本可选实施方式中提供的信息的发送方法的步骤包括:
步骤S702,UE确定触发条件是否满足。
步骤S704,满足触发条件时,UE发送调度请求SR以请求信息发送资源;未满足触发条件时,UE不发送SR。
步骤S706,基站接收到SR后,通过下行控制信道PDCCH发送下行控制信息DCI,其中,DCI指示了步骤2中信息发送资源。
步骤S708,UE检测PDCCH并获取DCI后,在信息发送资源上发送信息。
其中,该触发条件包括:
条件六:UE有信息需要发送。
可选实施方式6
图10是根据本发明实施例的信息的发送原理图二,基于图10,本可选实施方式中提供的信息的发送方法的步骤包括:
步骤S801,UE确定触发条件是否满足。
步骤S802,满足触发条件时,UE发送信道状态信息专有调度请求CSI-SR以请求CSI发送资源;满足触发条件五时,UE发送数据专有调度请求data-SR以请求数据发送资源;未满足触发条件时,UE不发送调度请求。
需要说明的是,在同时满足触发条件七和八的情况下,UE仅发送数据专属的调度请求data-SR。
步骤S803,基站接收CSI-SR或data-SR后,通过下行控制信道PDCCH发送下行控制信息DCI。
步骤S804,UE检测PDCCH并获取DCI后,在CSI(或数据)发送资源上发送CSI(或数据)。
其中,触发条件包括:
条件七:UE有信道状态信息CSI需要发送;
条件八:UE有数据需要发送。
可选实施方式7
图11是根据本发明实施例的基于UE触发的周期上行数据传输原理图,基于图11,本可选实施方式中提供的基于UE触发的周期上行数据传输方法的步骤包括:
步骤S901,UE确定触发条件是否满足。
步骤S902,满足触发条件时,UE在预先分配的周期grant-free信道资源上发送数据;未满足触发条件时,UE不发送数据。
其中,触发条件包括:条件八:UE有数据需要发送。
可选实施方式8
图12是根据本发明实施例的基于触发条件的DRX方法的原理图一,基于图12,本可选实施方式提供的基于触发条件的DRX方法的步骤包括:
步骤S1001,UE根据测量资源计算信道测量结果。
其中,测量资源包括以下之一:
空闲态中配置和/或传输的CSI-RS或SSB;
预定配置和/或传输的CSI-RS或SSB;
测量窗口中配置和/或传输的CSI-RS或SSB;其中,测量窗口满足以下条件至少之一:根据接收的信令信息确定;在预定时域位置;在空闲态中;与第一资源之间的距离大于预定阈值Y1;
距离第一资源最近的且时间间隔大于预定阈值Y2的配置和/或传输的CSI-RS或SSB;其中,Y2与UE测量和准备CSI的时间有关。
步骤S1002,UE根据信道测量结果(如CSI)确定触发条件是否满足。
在满足触发条件的情况下,执行以下步骤S1003和S1004;在未满足触发条件的情况下,UE继续处于空闲态。
步骤S1003,UE预先分配资源上发送CSI(假设对应符号n)。
步骤S1004,UE在CSI上报后的一段时间(k个符号)后,进入激活态(对应符号n+k)。
其中,预先分配资源在高层配置的激活态之前且二者相距T1个符号;T1指预先分配资源结尾符号与高层配置的激活态第一个符号之间的时间差。其中,T1大于或等于预定阈值Q1;或者,T1小于或等于预定阈值Q1。
其中,CSI包括RI、CQI、PMI、CRI、SSBRI、RSRP。
可选的,预先分配资源包括PUCCH资源、PUSCH资源、PRACH资源。
可选的,触发条件包括以下条件之一:
条件一:当前测量的最大RSRP值对应的CRI与前一次UE上报的CRI不同;
条件二:当前测量的最大RSRP值与前一次UE上报的RSRP值的差值大于预定阈值。
可选实施方式9
图13是根据本发明实施例的基于触发条件的DRX方法的原理图二,基于图13,本可选实施方式中提供的基于触发条件的DRX方法步骤包括:
步骤S1101,UE接收唤醒信号(wake up signal,简称为WUS);其中,WUS指示UE在T2个符号后进入激活态;
步骤S1102,UE根据测量资源计算信道测量结果。
其中,测量资源包括以下之一:
空闲态中配置和/或传输的CSI-RS或SSB;
预定配置和/或传输的CSI-RS或SSB;
测量窗口中配置和/或传输的CSI-RS或SSB;其中,测量窗口满足以下条件至少之一:根据接收的信令信息确定;在预定时域位置;在空闲态中;与第一资源之间的距离大于预定阈值Y1;
距离第一资源最近的且时间间隔大于预定阈值Y2的配置和/或传输的CSI-RS或SSB;其中,Y2与UE测量和准备CSI的时间有关。
步骤S1103,UE根据信道测量结果(如CSI)确定触发条件是否满足。
在满足触发条件的情况下,执行以下步骤S1104和S1105;在未满足触发条件的情况下,UE在接收WUS之后T2个符号后进入激活态。
步骤S1104,UE预先分配资源上发送CSI(假设对应符号n)。
步骤S1105,UE在CSI上报后的一段时间(k个符号)后,进入激活态(对应符号n+k)。
其中,预先分配资源满足以下特征:
在WUS指示UE进入激活态之前;
在高层配置的激活态之前且二者相距T1个符号;其中,T1指预先分配资源结尾符号与高层配置的激活态第一个符号之间的时间差。T1大于或等于预定阈值Q1;或者,T1小于或等于预定阈值Q1。
其中,CSI包括RI、CQI、PMI、CRI、SSBRI、RSRP。
可选的,预先分配资源包括PUCCH资源、PUSCH资源、PRACH资源。
可选的,触发条件包括:
条件一:当前测量的最大RSRP值对应的CRI与前一次UE上报的CRI不同;
条件二:当前测量的最大RSRP值与前一次UE上报的RSRP值的差值大于预定阈值。
可选实施方式10
本可选实施方式提供了一种CSI上报后对于传输配置指示TCI的更新方法, 首先,假设上报的信道状态信息CSI包括CRInew。其中,CRInew对应的CSI-RSnew来自一个CSI-RS资源集合。
需要说明的是,步骤S1201-1至S1201-4对应不同的场景(或方法);步骤S1202-1-1至S1202-1-3对应PDCCH的波束指示;步骤1202-2-1至1202-2-3对应PDSCH的波束指示。基于此,本可选实施方式中CSI上报后对于传输配置指示TCI的更新方法包括:
步骤S1201-1,CSI-RS资源集合中,每个CSI-RS(CRI)对应预定的准共址QCL类型(如预定为QCL-TypeA+QCL-TypeD),即一一对应关系。根据CRInew确定对应的QCL类型,从而确定新TCI状态。
步骤S1201-2,该CRInew对应CSI-RSnew,该CSI-RSnew对应的预定QCL类型为QCL-TypeA+QCL-TypeD,根据该CRInew和该QCL类型来确定新TCI状态。
步骤S1201-3,该集合为配置了高层参数repetition,且repetition设置为on的非零功率NZP CSI-RS集合,即该集合用于波束管理。由此根据该CRInew可以确定QCL类型为QCL-TypeA+QCL-TypeD,从而确定新TCI状态。
步骤S1201-4,该集合为周期CSI-RS资源集合。由此根据该CRInew可以确定QCL类型为QCL-TypeA+QCL-TypeD,从而确定新TCI状态。
步骤S1202-1-1,将无线资源控制层RRC信令配置的预定候选TCI状态池中末尾TCI状态删除,并添加新TCI状态至该候选TCI状态池的末尾。
步骤1202-1-2,将控制资源集合CORESET上的预定TCI状态池中末尾TCI state删除,并添加新TCI状态至该TCI状态池的末尾。
步骤1202-1-3,将媒体接入控制层信令MAC CE指示的预定TCI状态替换为新TCI状态。
步骤S1202-2-1,将无线资源控制层RRC信令配置的预定候选TCI状态池中末尾TCI状态删除,并添加新TCI状态至该候选TCI状态池的末尾。
步骤S1202-2-2,将媒体接入控制层信令MAC CE指示的预定TCI状态池中末尾TCI状态删除,并添加新TCI状态至该TCI状态池的末尾。
步骤S1202-2-3,将下行控制信息DCI指示的预定TCI状态替换为新TCI状态。
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到根据上述实施例的方法可借助软件加必需的通用硬件平台的方式来实现,当然也可以 通过硬件,但很多情况下前者是更佳的实施方式。基于这样的理解,本申请的技术方案本质上或者说对相关技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质(如ROM/RAM、磁碟、光盘)中,包括若干指令用以使得一台UE设备(可以是手机,计算机,服务器,或者网络设备等)执行本申请各个实施例的方法。
实施例2
在本实施例中还提供了一种信息的发送装置,该装置用于实现上述实施例及优选实施方式,已经进行过说明的不再赘述。如以下所使用的,术语“模块”可以实现预定功能的软件和/或硬件的组合。尽管以下实施例所描述的装置较佳地以软件来实现,但是硬件,或者软件和硬件的组合的实现也是可能并被构想的。
图14是根据本发明实施例的信息的发送装置的结构示意图,该装置应用于第一通信节点侧,如图14所示,该装置包括:判断模块1402,用于判断是否满足第一触发条件;第一发送模块1404,与判断模块1402,用于在满足第一触发条件的情况下,在第一资源上发送第一信息;其中,第一信息包括以下信息至少之一:信道相关信息、第二信息;
其中,第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;信道相关信息的传输请求。
需要说明的是,在本实施例中根据以下至少之一判断是否满足第一触发条件:测量参考信号资源;在第二资源上是否有信道和/或信号需要发送;是否接收到唤醒信号WUS;测量参考信号资源是否在空闲态中配置和/或传输。
在本实施例的可选实施方式中,本实施例中涉及到的第一触发条件包括以下至少之一:
(1)当前参考信号资源索引与前一次第一通信节点上报的参考信号资源索引不同;
(2)当前最大RSRP指与前一次第一通信节点上报的RSRP值的差值大于第一预定阈值的次数大于第二预定阈值;
(3)第一参考信号集合中N个参考信号资源的链路质量小于第三预定阈值,其中N为正整数;
(4)第二参考信号集合中的全部参考信号资源的链路质量都小于第三预定阈值的次数大于第四预定阈值;
(5)前一次上报的参考信号资源索引对应的链路质量小于第三预定阈值;
(6)在第二资源有信道和/或信号需要发送;
(7)接收到唤醒信号WUS。
需要说明的是,在满足以下条件至少之一的情况下,第一信息包括第二信息:
(1)第二资源和第一资源之间存在对应关系;
(2)存在对应关系的第二资源和第一资源之间的时间间隔大于或者等于第五预定阈值;
(3)第二资源的M个周期对应第一资源的一个周期;
(4)第一资源的周期是第二资源的整数倍;
(5)在第一资源的M个周期之后存在与其对应的一个第二资源;
(6)第二信息所在的第一资源的频域带宽小于第六预定阈值;
(7)第一通信节点在第一资源上发送预定序列集合中的序列用于携带第二信息;
(8)预定序列集合和第二信息之间存在映射关系;
(9)第一通信节点发送第一信息之后,在第二资源上发送信道和/或信号;其中,M为大于或等于1的正整数。
其中,第五预定阈值通过以下方式之一获取:接收的信令信息;其中,信令信息包括第五预定阈值信息;由第一通信节点发送能力信息;其中,能力信息包括第五预定阈值信息。
可选地,本实施例中涉及到的第二资源上信道和/或信号包括以下至少之一:周期PUSCH资源、grant-free信道资源、信道相关信息的信道和/或信号。
基于此,本实施例中涉及到的第二资源上信道或信号和/或信道相关信息满足第一触发条件。
此外,本实施例中涉及到的信道和/或信号在与第二信息对应的第二资源上被发送,其中信道和/或信号包括以下至少之一:周期PUSCH资源、grant-free信道资源、包括第二信道状态信息的信道和/或信号。以及,第二信道状态信息和/或第一信道状态信息满足第一触发条件。
在本实施例的可选实施方式中,在第一信息包括第二信息的情况下,装置还包括以下至少之一:检测模块,用于检测控制信道;,或,确定模块,用于根据控制信道中的信息确定第三资源;或,第二发送模块,用于第一通信节点在 第三资源上发送以下至少之一:信道或信号、信道相关信息。
需要说明的是,第一资源在激活期之前;其中,激活期为DRX中的激活期;或,在发送第一信息之后,第一通信节点从非连续接收DRX的休眠期进入激活期。
对于本实施例中涉及到的第一资源,满足如下条件:
(1)第一资源的结束符号与激活态第一个符号之间的时间差大于或者等于第六预定阈值;
(2)第一资源的结束符号与激活态第一个符号之间的时间差小于或者等于第六预定阈值;
(3)第一通信节点在符号n发送第一信息,第一通信节点在符号n+k进入激活态;其中,k为预定时间间隔;
(3)第一资源在WUS之后;
(4)第一资源在WUS和与激活态第一个符号之间;
(5)P个激活态和一个第一资源对应,其中P为大于或者等于1的正整数;
(6)Q个WUS和一个第一资源对应,其中Q为大于或者等于1的正整数。
需要说明的是,上述各个模块是可以通过软件或硬件来实现的,对于后者,可以通过以下方式实现,但不限于此:上述模块均位于同一处理器中;或者,上述各个模块以任意组合的形式分别位于不同的处理器中。
实施例3
本发明的实施例还提供了一种存储介质,该存储介质中存储有计算机程序,其中,该计算机程序被设置为运行时执行上述任一项方法实施例中的步骤。
可选地,在本实施例中,上述存储介质可以被设置为存储用于执行以下步骤的计算机程序:
S1,第一通信节点判断是否满足第一触发条件;
S2,在满足第一触发条件的情况下,第一通信节点在第一资源上发送第一信息;其中,第一信息包括以下信息至少之一:信道相关信息、第二信息;
其中,第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;信道相关信息的传输请求。
可选地,在本实施例中,上述存储介质可以包括但不限于:U盘、只读存储器(Read-Only Memory,简称为ROM)、随机存取存储器(Random Access Memory,简称为RAM)、移动硬盘、磁碟或者光盘等各种可以存储计算机程序 的介质。
本发明的实施例还提供了一种电子装置,包括存储器和处理器,该存储器中存储有计算机程序,该处理器被设置为运行计算机程序以执行上述任一项方法实施例中的步骤。
可选地,上述电子装置还可以包括传输设备以及输入输出设备,其中,该传输设备和上述处理器连接,该输入输出设备和上述处理器连接。
可选地,在本实施例中,上述处理器可以被设置为通过计算机程序执行以下步骤:
S1,第一通信节点判断是否满足第一触发条件;
S2,在满足第一触发条件的情况下,第一通信节点在第一资源上发送第一信息;其中,第一信息包括以下信息至少之一:信道相关信息、第二信息;
其中,第二信息包括以下至少之一:第二资源上信道和/或信号的传输指示信息;信道相关信息的传输请求。
可选地,本实施例中的具体示例可以参考上述实施例及可选实施方式中所描述的示例,本实施例在此不再赘述。
显然,本领域的技术人员应该明白,上述的本申请的各模块或各步骤可以用通用的计算装置来实现,它们可以集中在单个的计算装置上,或者分布在多个计算装置所组成的网络上,可选地,它们可以用计算装置可执行的程序代码来实现,从而,可以将它们存储在存储装置中由计算装置来执行,并且在某些情况下,可以以不同于此处的顺序执行所示出或描述的步骤,或者将它们分别制作成各个集成电路模块,或者将它们中的多个模块或步骤制作成单个集成电路模块来实现。这样,本申请不限制于任何特定的硬件和软件结合。
以上所述仅为本申请的优选实施例而已,并不用于限制本申请,对于本领域的技术人员来说,本申请可以有各种更改和变化。凡在本申请的原则之内,所作的任何修改、等同替换、改进等,均应包含在本申请的保护范围之内。
Claims (30)
- 一种信息发送方法,包括:第一通信节点判断是否满足第一触发条件;在满足所述第一触发条件的情况下,所述第一通信节点在第一资源上发送第一信息;其中,所述第一信息包括以下信息至少之一:信道相关信息、第二信息;其中,所述第二信息包括以下至少之一:第二资源上信道和信号中至少之一的传输指示信息;所述信道相关信息的传输请求。
- 根据权利要求1所述的方法,其中,所述第一通信节点判断是否满足第一触发条件,包括:所述第一通信节点根据以下至少之一判断是否满足所述第一触发条件:测量参考信号资源;在所述第二资源上是否有所述信道和信号中至少之一需要发送;是否接收到唤醒信号WUS;所述测量参考信号资源是否在空闲态中进行配置和传输中至少之一。
- 根据权利要求2所述的方法,其中,所述第一触发条件包括以下至少之一:当前参考信号资源索引与前一次所述第一通信节点上报的参考信号资源索引不同;当前最大参考信号接收功率RSRP值与前一次所述第一通信节点上报的RSRP值的差值大于第一预定阈值的次数大于第二预定阈值;第一参考信号集合中N个参考信号资源的链路质量小于第三预定阈值,其中N为正整数;第二参考信号集合中的全部参考信号资源的链路质量都小于第三预定阈值的次数大于第四预定阈值;前一次上报的参考信号资源索引对应的链路质量小于第三预定阈值;在所述第二资源有所述信道和信号中的至少之一需要发送;接收到唤醒信号WUS。
- 根据权利要求1所述的方法,其中,在满足以下条件至少之一的情况下,所述第一信息包括所述第二信息:所述第二资源和所述第一资源之间存在对应关系;存在对应关系的所述第二资源和所述第一资源之间的时间间隔大于或者等 于第五预定阈值;所述第二资源的M个周期对应所述第一资源的一个周期;所述第一资源的周期是所述第二资源的整数倍;在所述第一资源的M个周期之后存在与所述第一资源对应的一个所述第二资源;所述第二信息所在的所述第一资源的频域带宽小于第六预定阈值;所述第一通信节点在所述第一资源上发送预定序列集合中的序列用于携带所述第二信息;预定序列集合和所述第二信息之间存在映射关系;所述第一通信节点发送所述第一信息之后,在所述第二资源上发送所述信道和信号中的至少之一;其中,所述M为大于或等于1的正整数。
- 根据权利要求4所述的方法,其中,通过以下方式之一获取所述第五预定阈值:所述第一通信节点接收的信令信息;其中,所述信令信息包括所述第五预定阈值信息;所述第一通信节点发送能力信息;其中,所述能力信息包括所述第五预定阈值信息。
- 根据权利要求1所述的方法,其中,所述第二资源上信道和信号中的至少之一包括以下至少之一:周期PUSCH资源、免调度grant-free信道资源、所述信道相关信息的信道和信号中的至少之一。
- 根据权利要求6所述的方法,其中,(i)所述第二资源上信道或信号和(ii)所述信道相关信息中的至少之一满足所述第一触发条件。
- 根据权利要求1所述的方法,其中,在所述第一信息包括所述第二信息的情况下,所述方法还包括以下至少之一:所述第一通信节点检测控制信道;所述第一通信节点根据所述控制信道中的信息确定第三资源;所述第一通信节点在所述第三资源上发送以下至少之一:所述信道或信号、所述信道相关信息。
- 根据权利要求1所述的方法,还包括以下至少之一:所述第一资源在激活态之前;所述第一通信节点根据接收的信令信息确定所述第一资源;所述第一通信节点发送所述第一信息之后,所述第一通信节点进入激活态。
- 根据权利要求9所述的方法,所述方法满足以下至少之一:所述第一资源的结束符号与激活态第一个符号之间的时间差大于或者等于第六预定阈值;所述第一资源的结束符号与激活态第一个符号之间的时间差小于或者等于第六预定阈值;所述第一通信节点在符号n发送所述第一信息,所述第一通信节点在符号n+k进入激活态;其中,k为预定时间间隔;所述第一资源在WUS之后;所述第一资源在WUS与激活态第一个符号之间;P个激活态和一个所述第一资源对应,其中所述P为大于或者等于1的正整数;Q个WUS和一个所述第一资源对应,其中所述Q为大于或者等于1的正整数。
- 根据权利要求10所述的方法,还包括以下至少之一:所述第一通信节点接收到用于唤醒所述第一通信节点的WUS之后,判断第二触发条件是否满足,在所述第二触发条件满足的情况下,在所述第一资源上发送所述第一信息;所述第一通信节点没有接收到用于唤醒所述第一通信节点的WUS的情况下,不在所述第一资源上发送所述第一信息。
- 根据权利要求11所述的方法,其中,根据以下至少之一判断是否满足所述第二触发条件:测量参考信号资源;在所述第二资源上是否有所述信道和信号中的至少之一需要发送。
- 根据权利要求1、6至8任意一项所述的方法,其中,所述信道相关信息基于所述测量参考信号获取,所述测量参考信号的资源包括以下之一:空闲态中配置和/或传输的CSI-RS或SSB;预定配置和/或传输的CSI-RS或SSB;测量窗口中配置和/或传输的CSI-RS或SSB;距离所述第一资源最近的且时间间隔大于第七预定阈值的配置和/或传输的CSI-RS或SSB;其中,所述测量窗口满足如下至少之一:根据接收的信令信息确定;在预定时域位置;在空闲态中;与所述第一资源之间的距离大于第八预定阈值。
- 根据权利要求1、6至8任意一项所述的方法,其中,所述信道相关信息包括以下至少之一:层指示RI、信道质量指示CQI、预编码矩阵PMI、CSI-RS资源索引CRI、SSB资源索引SSBRI、RSRP、信号干扰噪声比SINR、新波束信息、波束组ID,QCL信息、参考信号资源集合ID、天线组ID。
- 根据权利要求1所述的方法,还包括:在不满足所述第一触发条件的情况下,所述第一通信节点不发送第一信息;在不满足所述第一触发条件的情况下,所述第一通信节点在所述第一资源上发送第三信息;其中,所述第三信息用于指示如下信息至少之一:所述第一通信节点禁止在与所述第二信息对应的所述第二资源上发送所述信道和信号中的至少之一,所述第一通信节点没有可发送的第一信息。
- 根据权利要求1至12任意一项所述的方法,其中,所述第二资源和所述第一资源中的至少之一包括以下至少之一:周期PUCCH资源、半持续PUCCH资源、半持续PUSCH资源、grant-free信道资源、周期上行信道、半持续上行信道、周期PRACH资源、周期参考信号、半持续参考信号资源、预定资源。
- 根据权利要求1至12任意一项所述的方法,在所述第一通信节点发送第一信息之后,还包括:将所述第一信息中包括的参考信号指示信息更新到预定准共址参考信号集合中;将预定信道和预定参考信号中的至少之一的关于一类准共址参数的准共址参考信号更新为所述第一信息中包括的参考信号指示信息。
- 根据权利要求17所述的方法,其中,所述一类准共址参数通过以下至少之一的方式获取:所述一类准共址参数包括预定准共址参考信号集合中的准共址参数;根据所述参考信号指示信息对应的传输配置TCI中包括的准共址参数确定所述一类准共址参数;根据所述参考信号指示信息对应的参考信号的时域特性确定所述一类准共址参数,其中,所述时域特性包括周期、非周期、以及半持续;根据所述参考信号指示信息对应的参考信号所在的参考信号集合中是否配置了重复发送参数repetition确定所述一类准共址参数。
- 一种信息发送装置,应用于第一通信节点侧,包括:判断模块,设置为判断是否满足第一触发条件;第一发送模块,设置为在满足所述第一触发条件的情况下,在第一资源上发送第一信息;其中,所述第一信息包括以下信息至少之一:信道相关信息、第二信息;其中,所述第二信息包括以下至少之一:第二资源上信道和信号中至少之一的传输指示信息;所述信道相关信息的传输请求。
- 根据权利要求19所述的装置,其中,所述判断模块根据以下至少之一的判断是否满足所述第一触发条件:测量参考信号资源;在所述第二资源上是否有所述信道和信号中至少之一需要发送;是否接收到唤醒信号WUS;所述测量参考信号资源是否在空闲态中进行配置和传输中至少之一。
- 根据权利要求20所述的装置,其中,所述第一触发条件包括以下至少之一:当前参考信号资源索引与前一次所述第一发送模块上报的参考信号资源索引不同;当前最大RSRP值与前一次所述第一发送模块上报的RSRP值的差值大于第一预定阈值的次数大于第二预定阈值;第一参考信号集合中N个参考信号资源的链路质量小于第三预定阈值,其中N为正整数;第二参考信号集合中的全部参考信号资源的链路质量都小于第三预定阈值的次数大于第四预定阈值;前一次上报的参考信号资源索引对应的链路质量小于第三预定阈值;在所述第二资源上有所述信道和信号中的至少之一需要发送;接收到唤醒信号WUS。
- 根据权利要求19所述的装置,其中,在满足以下至少之一的情况下, 所述第一信息包括所述第二信息:所述第二资源和所述第一资源之间存在对应关系;存在对应关系的所述第二资源和所述第一资源之间的时间间隔大于或者等于第五预定阈值;所述第二资源的M个周期对应所述第一资源的一个周期;所述第一资源的周期是所述第二资源的整数倍;在所述第一资源的M个周期之后存在与所述第一资源对应的一个所述第二资源;所述第二信息所在的所述第一资源的频域带宽小于第六预定阈值;所述第一发送模块在所述第一资源上发送预定序列集合中的序列用于携带所述第二信息;预定序列集合和所述第二信息之间存在映射关系;所述第一发送模块发送所述第一信息之后,在所述第二资源上发送所述信道和信号中的至少之一;其中,所述M为大于或等于1的正整数。
- 根据权利要求22所述的装置,其中,所述第五预定阈值通过以下方式之一获取:接收的信令信息;其中,所述信令信息包括所述第五预定阈值信息;由所述第一发送模块发送能力信息;其中,所述能力信息包括所述第五预定阈值信息。
- 根据权利要求19所述的装置,其中,所述第二资源上信道和信号中的至少之一包括以下至少之一:周期PUSCH资源、grant-free信道资源、所述信道相关信息的信道和信号中的至少之一。
- 根据权利要求24所述的装置,其中,所述第二信道状态信息和所述第一信道状态信息中的至少之一满足所述第一触发条件。
- 根据权利要求25所述的装置,其中,在所述第一信息包括所述第二信息的情况下,所述装置还包括以下至少之一:检测模块,设置为检测控制信道;确定模块,设置为根据所述控制信道中的信息确定第三资源;第二发送模块,设置为在所述第三资源上发送以下至少之一:所述信道或信号、所述信道相关信息。
- 根据权利要求19所述的装置,其中,所述装置具有以下特征至少之一:所述第一资源在激活态之前;所述第一发送模块根据接收的信令信息确定所述第一资源;所述第一发送模块发送所述第一信息之后,所述装置进入激活态。
- 根据权利要求27所述的装置,所述装置满足以下至少之一:所述第一资源的结束符号与激活态第一个符号之间的时间差大于或者等于第六预定阈值;所述第一资源的结束符号与激活态第一个符号之间的时间差小于或者等于第六预定阈值;所述第一发送模块在符号n发送所述第一信息,所述装置在符号n+k进入激活态;其中,k为预定时间间隔;所述第一资源在WUS之后;所述第一资源在WUS和激活态第一个符号之间;P个激活态和一个所述第一资源对应,其中所述P为大于或者等于1的正整数;Q个WUS和一个所述第一资源对应,其中所述Q为大于或者等于1的正整数。
- 一种存储介质,其中,所述存储介质中存储有计算机程序,其中,所述计算机程序设置为运行时执行所述权利要求1至权利要求18任一项中所述的方法。
- 一种电子装置,包括存储器和处理器,其中,所述存储器中存储有计算机程序,所述处理器被设置为运行所述计算机程序以执行所述权利要求1至权利要求18任一项中所述的方法。
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