WO2020063534A1 - 一种测量报告条目处理方法及设备 - Google Patents

一种测量报告条目处理方法及设备 Download PDF

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Publication number
WO2020063534A1
WO2020063534A1 PCT/CN2019/107291 CN2019107291W WO2020063534A1 WO 2020063534 A1 WO2020063534 A1 WO 2020063534A1 CN 2019107291 W CN2019107291 W CN 2019107291W WO 2020063534 A1 WO2020063534 A1 WO 2020063534A1
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Prior art keywords
measurement
information
indication information
configuration
terminal device
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PCT/CN2019/107291
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English (en)
French (fr)
Inventor
郑黎丽
张宏平
曾清海
勒孔特大卫
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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Priority to EP19865521.9A priority Critical patent/EP3846528A4/en
Publication of WO2020063534A1 publication Critical patent/WO2020063534A1/zh
Priority to US17/214,182 priority patent/US20210219164A1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0048Allocation of pilot signals, i.e. of signals known to the receiver
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic management; Network resource management
    • H04W28/16Central resource management; Negotiation of resources or communication parameters, e.g. negotiating bandwidth or QoS [Quality of Service]
    • H04W28/18Negotiating wireless communication parameters

Definitions

  • the present application relates to the field of communications technologies, and in particular, to a method and device for processing measurement report entries.
  • Mobility management is an important part of wireless communication systems. According to the state of the UE, it can be roughly divided into two parts: idle state (RRC_IDLE) state mobility management and connected state (RRC_CONNECTED state) mobility management.
  • RRC_IDLE idle state
  • RRC_CONNECTED state connected state
  • mobility management mainly refers to the cell selection / reselection (cell selection / reselection) process.
  • the mobility management mainly refers to the cell handover. Whether cell selection / reselection or handover is performed based on the results of mobility measurements. Therefore, mobility measurement is the basis of mobility management.
  • the UE measures the cell based on the measurement configuration information sent by the network device, and reports the measurement report to the network device. If the network device reconfigures the measurement configuration information, the UE clears the measurement report entry associated with the reconfigured information. For example, when the network device reconfigures the measurement parameters of a measurement object, the terminal device clears all measurement report entries associated with the measurement object. It can be seen that this method of clearing the measurement report entries associated with the reconfigured information is less flexible.
  • the present application provides a method and a device for processing measurement report entries, which are used to solve the problem that the terminal equipment has poor flexibility when processing measurement report entries in the prior art.
  • the present application provides a method for processing measurement report entries.
  • the method may be applied to a terminal device, or a chip, or a chipset, or a functional module in a chip that executes the method.
  • the method includes: Instruction information of a network device, where the instruction information is used to indicate a processing manner of a measurement report entry, and the measurement report entry is processed based on the instruction information.
  • the network device indicates the processing method of the measurement report entry by sending instruction information to the terminal device.
  • the terminal device reconfigures the measurement configuration information
  • the measurement report is associated with the reconfigured information. All entries are cleared.
  • the network device may instruct the terminal device how to process the measurement report entries associated with the reconfigured information, for example, all the measurement report entries associated with the reconfigured information are cleared, and the reserved part is related to the reconfigured information.
  • the measurement report entries associated with the information, the measurement report entries associated with the reconfiguration information are all retained, and the like, thereby improving the flexibility of the terminal device in processing the measurement report entries.
  • the receiving the instruction information from the network device may include: receiving the first instruction information and the second instruction information from the network device, where the first instruction information is used to indicate whether to clear or not.
  • the measurement report entry corresponding to the first reference signal is cleared; and the second indication information is used to indicate whether the measurement report entry corresponding to the second reference signal is cleared or not cleared.
  • the network device sends two instructions to the terminal device to indicate whether to clear the measurement report entry corresponding to the first reference signal and whether to clear the measurement report entry corresponding to the second reference signal.
  • the terminal device is reconfiguring When measuring the configuration information, useful measurement report entries in the measurement report entries can be retained, for example, when reconfiguring the measurement parameters of the SSB, the measurement report entries corresponding to the CSI-RS are not cleared. Thereby, a situation in which measurement reporting is retriggered due to deletion of a useful measurement report entry can be avoided, thereby reducing an increase in signaling of terminal equipment measurement reporting caused by deletion of a useful measurement report entry.
  • the embodiments of the present application can determine a processing mode of a measurement report entry according to requirements, thereby improving flexibility.
  • the receiving the first indication information and the second indication information from the network device may include: receiving measurement configuration information from the network device, where the measurement configuration information carries the first An instruction message and the second instruction message.
  • the first indication information and the second indication information are valid for all measurement objects and / or all reported configurations in the measurement configuration information.
  • processing the measurement report entry based on the indication information may include: when reconfiguring any measurement object and / or any reported configuration measurement parameter, based on the first indication Information processing, a measurement report entry associated with any one of the measurement objects, and a reference signal in the associated reporting configuration being the first reference signal, and / or associated with, and associated with, any of the reporting configurations
  • the reference signal in the reporting configuration is a measurement report entry of the first reference signal; and, based on the second instruction information, processing the measurement associated with the any one of the measurement objects and the reference signal is the measurement of the second reference signal
  • a report entry, and / or a measurement report entry associated with any one of the reporting configurations and the reference signal is the second reference signal.
  • the first instruction information and the second instruction information are valid for all measurement objects and / or all reported configurations in the measurement configuration information
  • Both the measurement report entry whose reference signal is the first reference signal in the measurement report entry associated with the reconfigured information can be processed according to the first instruction information, and the measurement report entry associated with the reconfigured information is processed in accordance with the second instruction information
  • the reference signal is a measurement report entry of the second reference signal.
  • the reconfiguration information refers to a reconfigured measurement object, or a reconfiguration report configuration.
  • the receiving the first indication information and the second indication information from the network device may include: receiving measurement configuration information from the network device, where the measurement configuration information carries the first measurement A measurement parameter of the object, and the measurement parameter of the first measurement object includes the first indication information and the second indication information.
  • the first instruction information and the second instruction information are valid for the first measurement object.
  • processing the measurement report entry based on the indication information may include: when reconfiguring the measurement parameter of the first measurement object, processing and the measurement based on the first indication information.
  • the measurement report entry associated with the first measurement object and the reference signal in the associated reporting configuration is the first reference signal, based on the second instruction information, processing the correlation and association with the first measurement object
  • the reference signal in the reporting configuration is a measurement report entry of the second reference signal.
  • the terminal device may process the measurement report entry associated with the first measurement object according to the first instruction information when reconfiguring the measurement parameters of the first measurement object.
  • the measurement report entry in which the middle reference signal is the first reference signal, and the measurement report entry in which the reference signal is the second reference signal in the measurement report entry associated with the first measurement object are processed according to the second instruction information.
  • the receiving the first indication information and the second indication information from the network device may include: receiving measurement configuration information from the network device, where the measurement configuration information carries a first report The configured measurement parameter, and the first reported configured measurement parameter includes the first indication information and the second indication information.
  • the first indication information and the second indication information are valid for the first reporting configuration.
  • processing the measurement report entry based on the indication information may include: when reconfiguring the measurement parameter configured by the first report, if the reference signal type of the first report configuration is For the first reference signal, processing a measurement report entry associated with the first reporting configuration based on the first indication information; if the reference signal type of the first reporting configuration is the second reference signal, Processing the measurement report entry associated with the first reporting configuration based on the second instruction information. Because the first indication information and the second indication information are only valid for the first report configuration, when the terminal device reconfigures the measurement parameters configured for the first report, if the reference signal type of the first report configuration is the first reference signal, The measurement report entry associated with the first reporting configuration is processed according to the first instruction information. If the reference signal type of the first reporting configuration is the second reference signal, the measurement associated with the first reporting configuration may be processed according to the second instruction information. Report entry.
  • the receiving the instruction information from the network device may include: receiving third instruction information from the network device, where the third instruction information is used to instruct to clear or not clear the measurement report entry.
  • the network device indicates whether to clear the measurement report entry by sending an instruction message to the terminal device. Therefore, the terminal device may not clear the measurement report entry as needed when reconfiguring the measurement configuration information, thereby retaining useful information in the measurement report entry.
  • Measurement report entries thereby avoiding the situation that measurement reporting is retriggered due to deletion of useful measurement report entries, thereby reducing the increase in signaling of terminal device measurement reporting caused by deletion of useful measurement report entries.
  • the embodiments of the present application can determine a processing mode of a measurement report entry according to requirements, thereby improving flexibility.
  • the receiving the third indication information from the network device may include: receiving measurement configuration information from the network device, where the measurement configuration information carries the third indication information.
  • the third instruction information is carried in the measurement configuration information, and the third instruction information is valid for all measurement objects and / or all reported configurations in the measurement configuration information.
  • processing the measurement report entry based on the instruction information may include: when reconfiguring any measurement object and / or any report configuration measurement parameter, based on the third instruction Information processing a measurement report entry associated with the any measurement object and / or a measurement report entry associated with the any reporting configuration. Because the third instruction information is valid for all measurement objects and / or all reported configurations in the measurement configuration information, the terminal device may re-configure any measurement object and / or any reported configuration in the measurement configuration information according to the third Instructs the information processing measurement report entry associated with the reconfigured information.
  • the reconfiguration information refers to a reconfigured measurement object, or a reconfiguration report configuration.
  • the receiving the third indication information from the network device may include: receiving measurement configuration information from the network device, where the measurement configuration information carries a measurement parameter of a second measurement object, The measurement parameter of the second measurement object includes the third indication information.
  • the third indication information is valid for the second measurement object.
  • processing the measurement report entry based on the instruction information may include: when reconfiguring the measurement parameter of the second measurement object, processing the second report object with the second instruction information.
  • the receiving the third instruction information from the network device may include: receiving measurement configuration information from the network device, where the measurement configuration information carries a measurement parameter configured by a second report, The measurement parameter configured in the second report includes the third indication information.
  • the third indication information is carried in the second reporting configuration, and the third indication information is valid for the second reporting configuration.
  • processing the measurement report entry based on the instruction information may include: when reconfiguring the measurement parameter configured by the second report, processing the second report information based on the third instruction information and the second Report the measurement report entry associated with the configuration. Because the third instruction information is only valid for the second reporting configuration, when the terminal device reconfigures the measurement parameters of the second reporting configuration, it can process the measurement report entry associated with the second reporting configuration according to the third instruction information.
  • the method may further include: when clearing a measurement report entry, stopping a timer related to a measurement identifier associated with the measurement report entry, and resetting a timer associated with the measurement report entry Measure identification related parameters.
  • the method may further include: reporting capability information to the network device, where the capability information is used to notify the network device that the terminal device supports processing of measurement report entries under an instruction from the network device .
  • the network device can determine whether the terminal device supports processing of the measurement report entry under the instruction of the network device according to the capability information sent by the terminal device, so that the terminal device can process the measurement report entry under the instruction of the network device. Send instruction information of the processing mode of the measurement report entry to the terminal device from time to time.
  • the present application provides a method for processing measurement report entries.
  • the method may be applied to a network device, or a chip, or a chipset, or a functional module in a chip that executes the method.
  • the method includes: determining an instruction Information, the instruction information is used to indicate a processing manner of the measurement report entry; and the instruction information is sent to a terminal device.
  • the network device indicates the processing method of the measurement report entry by sending instruction information to the terminal device.
  • the terminal device reconfigures the measurement configuration information, the measurement report is associated with the reconfigured information. All entries are cleared.
  • the network device may instruct the terminal device how to process the measurement report entries associated with the reconfigured information, for example, all the measurement report entries associated with the reconfigured information are cleared, and the reserved part is related to the reconfigured information.
  • the measurement report entries associated with the information, the measurement report entries associated with the reconfigured information are all retained, etc., thereby improving the flexibility of the terminal device in processing the measurement report entries.
  • sending the instruction information to the terminal device may include: sending the first instruction information and the second instruction information to the terminal device, where the first instruction information is used to instruct the terminal device to clear Or the measurement report entry corresponding to the first reference signal is not cleared; the second indication information is used to indicate whether the measurement report entry corresponding to the second reference signal is cleared or not cleared. As some measurement report entries in the measurement report entries are deleted, the related cells will trigger measurement reporting again.
  • the network device sends two instructions to the terminal device to indicate whether to clear the measurement report entries corresponding to the first reference signal. Whether to clear the measurement report entry corresponding to the second reference signal, so the terminal device can retain the useful measurement report entry in the measurement report entry when reconfiguring the measurement configuration information.
  • the CSI when reconfiguring the measurement parameters of the SSB, the CSI is not cleared. -The measurement report entry corresponding to RS and so on. Thereby, a situation in which measurement reporting is retriggered due to deletion of a useful measurement report entry can be avoided, thereby reducing an increase in signaling of terminal equipment measurement reporting caused by deletion of a useful measurement report entry.
  • the embodiments of the present application can determine a processing mode of a measurement report entry according to requirements, thereby improving flexibility.
  • sending the first indication information and the second indication information to the terminal device may include: sending measurement configuration information to the terminal device, where the measurement configuration information carries the first indication information and The second indication information.
  • the first indication information and the second indication information are valid for all measurement objects and / or all reported configurations in the measurement configuration information.
  • sending the first indication information and the second indication information to the terminal device may include: sending measurement configuration information to the terminal device, where the measurement configuration information carries a measurement parameter of the first measurement object
  • the measurement parameter of the first measurement object includes the first indication information and the second indication information.
  • sending the first indication information and the second indication information to the terminal device may include: sending measurement configuration information to the terminal device, the measurement configuration information carrying a measurement parameter of a first reporting configuration
  • the measurement parameter configured by the first report includes the first indication information and the second indication information.
  • sending the instruction information to the terminal device may include: sending third instruction information to the terminal device, where the third instruction information is used to instruct to clear or not clear the measurement report entry.
  • the network device indicates whether to clear the measurement report entry by sending an instruction message to the terminal device. Therefore, the terminal device may not clear the measurement report entry as needed when reconfiguring the measurement configuration information, thereby retaining useful information in the measurement report entry. Measurement report entries, thereby avoiding the situation that measurement reporting is retriggered due to deletion of useful measurement report entries, thereby reducing the increase in signaling of terminal device measurement reporting caused by deletion of useful measurement report entries.
  • the embodiments of the present application can determine a processing mode of a measurement report entry according to requirements, thereby improving flexibility.
  • sending the third indication information to the terminal device may include sending measurement configuration information to the terminal device, where the measurement configuration information carries the third indication information.
  • the third instruction information is carried in the measurement configuration information, and the third instruction information is valid for all measurement objects and / or all reported configurations in the measurement configuration information.
  • sending the third indication information to the terminal device may include sending measurement configuration information to the terminal device, where the measurement configuration information carries a measurement parameter of a second measurement object, and the second The measurement parameter of the measurement object includes the third indication information.
  • the third indication information is valid for the second measurement object.
  • sending the third indication information to the terminal device may include sending measurement configuration information to the terminal device, where the measurement configuration information carries a second reported configuration measurement parameter, and the second The reported measurement parameter includes the third indication information.
  • the third indication information is carried in the second reporting configuration, and the third indication information is valid for the second reporting configuration.
  • the method may further include: receiving capability information from the terminal device, where the capability information is used to notify the terminal device to support processing of a measurement report entry under an instruction of a network device.
  • the network device can determine whether the terminal device supports processing of the measurement report entry under the instruction of the network device according to the capability information sent by the terminal device, so that the terminal device can process the measurement report entry under the instruction of the network device. Send instruction information of the processing mode of the measurement report entry to the terminal device from time to time.
  • the present application provides a device, which may be a terminal device, a chip or chipset in a terminal device, a network device, or a chip or chipset in a network device.
  • the apparatus may include a processing unit and a transceiving unit.
  • the processing unit may be a processor, and the transceiver unit may be a transceiver; the device may further include a storage unit, the storage unit may be a memory; the storage unit is used to store instructions, The processing unit executes the instructions stored in the storage unit, so that the terminal device performs the corresponding function in the first aspect, or the processing unit executes the instructions stored in the storage unit, so that the network device performs the instructions in the second aspect. Corresponding function.
  • the processing unit may be a processor, and the transceiver unit may be an input / output interface, a pin, or a circuit, etc .; the processing The unit executes the instructions stored in the storage unit to cause the terminal device to perform the corresponding function in the first aspect, or the processing unit executes the instructions stored in the storage unit to cause the network device to execute the corresponding in the second aspect.
  • the storage unit may be a storage unit (for example, a register, a cache, etc.) in the chip or chipset, or a storage unit (for example, a read-only memory, Random access memory, etc.).
  • an apparatus including: a processor, a communication interface, and a memory.
  • the communication interface is used to transfer information, and / or messages, and / or data between the device and other devices.
  • the memory is used to store computer execution instructions.
  • the processor executes the computer execution instructions stored in the memory, so that the device executes the measurement report according to the first aspect or any one of the first aspects.
  • the present application further provides a system including the terminal device in any one of the embodiments of the first aspect, and the network device in any one of the embodiments of the second aspect.
  • the present application further provides a computer-readable storage medium, where the computer-readable storage medium stores instructions that, when run on a computer, cause the computer to execute the methods described in the above aspects.
  • the present application further provides a computer program product including instructions, which when executed on a computer, causes the computer to execute the methods described in the above aspects.
  • FIG. 1 is a schematic diagram of a communication system architecture provided by the present application.
  • FIG. 2 is a schematic diagram of a measurement identifier provided by the present application.
  • FIG. 3 is a schematic flowchart of a measurement report entry processing method provided by the present application.
  • FIG. 4 is a schematic structural diagram of a measurement report entry processing device provided by the present application.
  • FIG. 5 is a schematic structural diagram of a communication device provided by the present application.
  • the measurement report entry processing method provided in this application can be applied to a communication system.
  • the architecture of the communication system may be as shown in FIG. 1, including network equipment and terminal equipment.
  • the communication system involved in the embodiments of the present application may be various types of communication systems.
  • the communication system may be a long term evolution (LTE), a fifth generation (5G) communication system, or a universal terrestrial wireless access ( universal terrestrial radio access (UTRA), evolved UTRA (E-UTRAN), new wireless technology (new radio, NR), GSM / EDGE radio access network-circuit switched domain (GSM edge radio access network-circuit switched, GERAN- CS), GSM / EDGE wireless access network-data exchange domain (GSM / EDGE / radio / network-packet switched) (GERAN-PS), code division multiple access (CDMA) 2000-1XRTT, and multiple wireless access Multi-RAT (Dual-Connectivity, MR-DC) technology, etc., can also be a hybrid architecture of multiple communication systems, such as LTE and
  • the network device may be a common base station (such as Node B or eNB), a new radio controller (NR controller), a gNodeB (gNB) in a 5G system, or a centralized network.
  • the Centralized Unit can be a new wireless base station, a radio remote module, a micro base station, a relay, a distributed network unit, or a reception point. point (TRP) or transmission point (TP) or any other wireless access device, but the embodiment of the present application is not limited thereto.
  • the terminal device 102 also referred to as user equipment (UE), is a device that provides voice and / or data connectivity to the user, such as a handheld device with a wireless connection function, a vehicle-mounted device, and the like.
  • UE user equipment
  • Common terminals include, for example, mobile phones, tablet computers, notebook computers, handheld computers, mobile Internet devices (MID), and wearable devices, such as smart watches, smart bracelets, pedometers, and the like.
  • Mobility management is an important part of wireless communication systems. According to the state of the UE, it can be roughly divided into two parts: idle state (RRC_IDLE) state mobility management and connected state (RRC_CONNECTED state) mobility management.
  • RRC_IDLE idle state
  • RRC_CONNECTED state connected state
  • mobility management mainly refers to the cell selection / reselection (cell selection / reselection) process.
  • the mobility management mainly refers to the cell handover. Whether cell selection / reselection or handover is performed based on the results of mobility measurements. Therefore, mobility measurement is the basis of mobility management.
  • the process of mobility measurement is:
  • Step 1 The network device sends measurement configuration information (measConfig) to the terminal device.
  • measConfig measurement configuration information
  • Step 2 The terminal device performs measurement based on the measurement configuration information, and reports the measurement result to the network device.
  • the measurement configuration information includes a measurement object (MO), a reporting configuration (reportConfig), a measurement identity (measId), a measurement configuration (quantity configuration), and a measurement interval configuration.
  • measurement object One MO corresponds to one frequency point in the LTE system.
  • the measurement parameters of the measurement object include the configuration of measurement resources at the frequency point, such as the cell list at the frequency point.
  • the measurement parameters of an MO may include measurement parameters corresponding to synchronization signals / physical broadcast channel blocks / PBCH blocks (SSBs), and may also include channel state information reference signals (channel state information-reference signals, CSI-RS).
  • SSBs physical broadcast channel blocks / PBCH blocks
  • CSI-RS channel state information reference signals
  • the measurement parameters of the reporting configuration include the type of the reference signal, the reporting type, the reporting format, and so on.
  • the reporting types include event-triggered reporting or periodic triggered reporting or cell global identification (CGI) reporting. If the reporting type is event-triggered reporting, the measurement parameters also include the event type, threshold value, and duration that meets the trigger condition (time to trigger).
  • the types of events in the LTE system are: event A1, the trigger amount of the serving cell is higher than the threshold; event A2, the trigger amount of the serving cell is lower than the threshold; event A3, the trigger amount of the neighboring cell is good after considering the offset value
  • the reporting method is periodic triggering
  • the measurement parameters also include the reporting period and the purpose of the periodic triggering.
  • Measurement ID is a combination of a measurement object and a report configuration. The combination of the two determines the details of the measurement of a measurement object. For example, as shown in Figure 2.
  • Measurement quantity configuration Before reporting the measurement results, the terminal device first performs layer 3 filtering on the trigger quantity.
  • the measurement quantity configuration refers to the configuration of the layer 3 filter coefficients.
  • Measurement interval configuration When measurement and data transmission cannot be performed simultaneously, the network needs to be configured with a measurement interval.
  • the network device can also configure a new MO for the terminal device, and also allow the terminal device to reconfigure the current MO.
  • the network device may carry measurement configuration information (measConfig) in a radio resource control reconfiguration (RRCReconfiguration) message.
  • MeasConfig contains measObjectToAddModList, which is composed of one or more MeasObjectToAddMod.
  • Each MeasObjectToAddMod contains a measObjectId, which is the MO's ID. If there is already an MO corresponding to the ID in the terminal device, the MO is reconfigured, otherwise a new MO is added.
  • the terminal device Whenever a terminal device reconfigures an existing MO, the terminal device clears the measurement report entry associated with the MO, stops the corresponding timer, and resets related information (such as timeToTrigger, etc.).
  • the network device can also configure the terminal device with a new reportConfig or allow the terminal device to reconfigure the current reportConfig.
  • the network device carries measConfig in the RRCReconfiguration message.
  • MeasConfig contains reportConfigToAddModList. It consists of one or more ReportConfigToAddMods.
  • Each ReportConfigToAddMod contains a reportConfigId, which is the ID of the reported configuration. If the terminal device already has a reportConfig corresponding to the ID, reconfigure the reportConfig, otherwise add a new reportConfig.
  • the terminal device Whenever a terminal device reconfigures an existing reportConfig, the terminal device clears the measurement report entry associated with the reportConfig, stops the corresponding timer, and resets related information (such as timeToTrigger).
  • MO has both SSB measurement parameters and CSI-RS measurement parameters. If you only reconfigure SSB measurement parameters, you do not want to affect the reporting of measurement report entries corresponding to CSI-RS. Similarly, if you only reconfigure CSI -RS measurement parameters do not want to affect the reporting of measurement report entries corresponding to the SSB.
  • the synchronization signal / physical broadcast channel block measurement timing configuration (SS / PBCH, Block Measurement, Timing Configuration, SMTC) timing is related to the SpCell.
  • the SpCell can be a primary cell (PCell) or a primary and secondary cell (primary secondary cell). , PSCell).
  • PCell primary cell
  • PSCell primary secondary cell
  • the terminal device can continue to measure the neighboring cells. Therefore, the network device does not want to clear the measurement report entry when it reconfigures the SMTC configuration in the MO. For another example, after reconfiguring certain parameters in the MO, even if the report of the current measurement report entry is cleared, the eligible cell will continue to trigger, so in this case, it is not desirable to clear the measurement report.
  • embodiments of the present application provide a method and apparatus for processing measurement report entries.
  • a terminal device can flexibly process measurement report entries under the instruction of a network device, so that useful measurement report entries in the measurement report entries can be retained.
  • the method and the device are based on the same inventive concept. Since the principle of the method and the device for solving the problem is similar, the implementation of the device and the method can be referred to each other, and duplicated details will not be repeated.
  • the “clear measurement report entry” and “affect measurement report entry report” involved in the embodiment of the present application can be understood as the same execution action.
  • "removing a measurement report entry” when reconfiguring the measurement parameters of an MO may refer to clearing a measurement report entry related to the MO when the measurement parameters of the MO are reconfigured.
  • “affecting the measurement report entries” may also mean that when the measurement parameters of the MO are reconfigured, the measurement report entries related to the MO are cleared.
  • a beam may be understood as a spatial resource, and may refer to sending or receiving a precoding vector with directivity of energy transmission.
  • the transmitted or received precoding vector can be identified by index information, and the index information may correspond to a resource identifier (identity, ID) of the configuration terminal.
  • the index information may correspond to a configured CSI-RS identifier or resource. ; It may also be the identifier or resource of the corresponding configured sounding reference signal (SRS).
  • the index information may also be index information displayed or implicitly carried by a signal or channel carried by a beam.
  • the energy transmission directivity may refer to precoding processing of a signal to be transmitted through the precoding vector, and the signal after the precoding processing has a certain spatial directivity. After receiving the precoding vector and performing precoding processing, The signal has a better received power, such as satisfying the reception demodulation signal-to-noise ratio, etc .; the energy transmission directivity may also mean that the same signal received from the different spatial positions received by the precoding vector has different received power.
  • the same communication device (such as a terminal device or a network device) may have different precoding vectors, and different devices may also have different precoding vectors, that is, corresponding to different beams.
  • one communication device may use one or more of a plurality of different precoding vectors at the same time, that is, one beam or multiple beams may be formed at the same time.
  • a beam sent by a network device to a terminal device is referred to as a downlink beam
  • a beam sent by the terminal device to the network device is referred to as an uplink beam.
  • the configuration of the beam can be configured by RRC
  • the SSB is sent to the UE through a broadcast message
  • the CSI-RS can be configured to the UE through radio resource control (RRC) -specific signaling.
  • RRC radio resource control
  • the SSB and CSI-RS will be configured with two thresholds (rsrp-ThresholdSSB, csirs-Threshold).
  • the two thresholds are used for the UE to select the beam, and the network can configure the UE based on SSB or CSI-RS measurement.
  • the UE measures the SSB reference signal received power (synchronization reference signal received power (SSB-RSRP)) or the CSI reference signal received power (channel reference information received power (CSI-RSRP).
  • SSB-RSRP synchronization reference signal received power
  • CSI-RSRP channel reference information received power
  • the measurement report entry processing method provided in this application may be applied to a terminal device, or a chip, or a chipset, or a functional module that executes the method in a chip, and the like is described below by taking a terminal device as an example.
  • the method includes:
  • the terminal device receives instruction information from a network device, where the instruction information is used to indicate a processing manner of a measurement report entry.
  • the terminal device processes the measurement report entry based on the instruction information.
  • the measurement configuration information includes a measurement identifier.
  • a measurement identifier is a combination of a measurement object and a report configuration. When the two are combined, various details of the measurement of a measurement object are determined. If a measurement object and a report configuration associated with a measurement identifier are regarded as a measurement task, the measurement result of the measurement task will carry the measurement identifier.
  • the UE For event-triggered reporting, when one or more cells meet the trigger conditions, the UE will generate a measurement report entry (measurement reporting) corresponding to the measurement identity; for periodic trigger reporting, when the first measurement result is obtained , The UE will generate a measurement report entry corresponding to the measurement identifier; for CGI reporting, when the UE obtains the relevant system information of the corresponding cell or when the UE determines that the relevant system information of the corresponding cell cannot be obtained, the UE will generate a corresponding measurement The identified measurement report entry.
  • measurement reporting measurement reporting
  • the indication information sent by the network device to the terminal device may be valid only for the current measurement configuration, that is, the indication information may carry a NeedN field.
  • the network device may carry the indication information in the measurement configuration information sent each time, so that after receiving the measurement configuration information, the terminal device may process the associated measurement report entry according to the indication information carried in the measurement configuration information.
  • the NeedN field is defined in v15.2.1 in 38.331. Among them, the meaning of Need N is no action, that is, a one-time configuration that is not maintained, and Need N instructs the terminal device to perform a one-time action. Therefore, if the indication message carries a NeedN field, it indicates that the indication message is only valid for the current measurement configuration.
  • the indication information sent by the network device to the terminal device may also be valid until new indication information is sent, that is, the indication information may be semi-statically configured, or the indication information may carry a NeedM field.
  • the terminal device processes the measurement report entry based on the instruction information after receiving the measurement configuration information until the instruction information re-sent by the network device is received.
  • the v15.2.1 in 38.331 also defines the Need M field. Among them, the meaning of Need M is maintenance, that is, not a one-time use. Therefore, if the indication message carries a Need M field, it indicates that the indication message is valid until a new indication message is received.
  • the instruction information may also be set as optional, that is, the network device may or may not send the instruction information.
  • the terminal device may clear the associated measurement report entry when reconfiguring the measurement configuration information.
  • the terminal device may not clear the associated measurement report entry when reconfiguring the measurement configuration information.
  • the terminal device may not clear the associated measurement report entry when reconfiguring the measurement configuration information.
  • the terminal device may clear the associated measurement report entry when reconfiguring the measurement configuration information.
  • the network device indicates the processing mode of the measurement report entry by sending instruction information to the terminal device. Therefore, the terminal device can retain the useful measurement report entry in the measurement report entry when reconfiguring the measurement configuration information. As some measurement report entries in the measurement report entry are deleted, the related cell will trigger measurement reporting again. Therefore, the terminal device retains the useful measurement report entries in the measurement report entry under the instruction of the network device, which can avoid being deleted due to the useful measurement report entries. Causes the measurement report to be re-triggered, which can reduce the increase in signaling of terminal device measurement reports caused by deletion of useful measurement report entries.
  • the embodiments of the present application can determine a processing mode of a measurement report entry according to requirements, thereby improving flexibility.
  • the indication information involved in the embodiment of the present application can occupy one bit, and can be cleared by TRUE, and not cleared by FALSE. Of course, you can also use TRUE to indicate no clearing, and FALSE to indicate clearing. You can use this bit to indicate TRUE and 1 to indicate FALSE. Alternatively, TRUE and FALSE can be represented by 0 in this bit. It can also indicate clearing when carrying the instruction, and not clearing when not carrying the instruction. Alternatively, the indication may be cleared when not carried, and the indication may not be cleared when carried. Of course, the instruction information may also take other forms, which are not specifically limited here. For the convenience of description, the following uses TRUE to indicate no clearing, and FALSE to indicate clearing as an example.
  • the terminal device when the terminal device receives the instruction information sent from the network device, it may be implemented in the following manner: the terminal device receives the first instruction information and the second instruction information from the network device, and the first instruction information It is used to instruct to clear or not clear the measurement report entry corresponding to the first reference signal; and the second indication information is used to instruct to clear or not clear the measurement report entry corresponding to the second reference signal.
  • the “measurement report entry corresponding to the first reference signal” referred to in the embodiment of the present application may refer to that in the reporting configuration associated with the measurement identifier corresponding to the measurement report entry, the reference signal type is set to the first reference signal.
  • the measurement report entry corresponding to the second reference signal may refer to that in the reporting configuration associated with the measurement identifier corresponding to the measurement report entry, the reference signal type is set to the second reference signal.
  • the first reference signal may be SSB
  • the second reference signal may be CSI-RS.
  • the first reference signal may be a CSI-RS
  • the second reference signal may be an SSB.
  • the first reference signal and the second reference signal may also be other reference signals, which are not specifically limited herein.
  • the following uses the first reference signal as the SSB and the second reference signal as the CSI-RS for example.
  • the “measurement report entry corresponding to the SSB” may refer to that in the reporting configuration associated with the measurement identifier corresponding to the measurement report entry, the reference signal type is set to SSB.
  • the “measurement report entry corresponding to the CSI-RS” may refer to that in the reporting configuration associated with the measurement identifier corresponding to the measurement report entry, the reference signal type is set to CSI-RS.
  • the network device may carry the first indication information and the second indication information in the measurement configuration information. Therefore, the terminal device can receive the first instruction information and the second instruction information when receiving the measurement configuration information from the network device.
  • the network equipment may carry the measConfig or an RRC Reconfiguration message including measConfig.
  • the first instruction information and the second instruction information can be valid for the MO and the reporting configuration in measConfig, that is, when the measurement parameters of any MO are reconfigured, the MO can be associated with the MO based on the first instruction information and the second instruction information.
  • the measurement report entries of the report processing are processed. When any measurement parameter of the reporting configuration is reconfigured, the measurement report entries associated with the reporting configuration may be processed based on the first instruction information and the second instruction information.
  • the network device sends measConfig to the terminal device, where measConfig is Carrying the first indication information and the second indication information, and further including a measurement parameter of MO1.
  • the measurement parameters of MO1 in measConfig are compared with the measurement parameters of MO1 stored in the terminal device.
  • the measurement parameters of SSB have changed.
  • the terminal device processes each measurement report entry associated with MO1 based on the first instruction information
  • the measurement report entry whose signal is SSB that is, the measurement report entry whose reference signal is SSB in each measurement report entry associated with MO1 is cleared, and the reference signal in each measurement report entry associated with MO1 is processed as CSI based on the second instruction information.
  • the measurement report entry of RS that is, the measurement report entry whose reference signal is CSI-RS in each measurement report entry associated with MO1 is not cleared.
  • the network device sends measConfig to the terminal device, where measConfig Carry the first indication information and the second indication information, and also include the measurement parameters of reporting1.
  • the measurement parameters of reporting1 in measConfig are changed compared to the measurement parameters of reporting1 stored in the terminal device. Therefore, after the terminal device receives measConfig, if the reference signal type included in reporting1 is SSB, it is processed based on the first instruction information.
  • Each measurement report entry associated with reporting configuration1 is clearing each measurement report entry associated with reporting configuration1. If the reference signal type included in reporting configuration 1 is CSI-RS, each measurement report entry associated with reporting configuration 1 is processed based on the second instruction information, that is, each measurement report entry associated with reporting configuration 1 is not cleared.
  • the first instruction information and the second instruction information may also be valid only for the MO in measConfig, that is, when the measurement parameters of any MO are reconfigured, the measurement report entries associated with the MO may be based on the first instruction information and the second instruction information. For processing.
  • the first instruction information and the second instruction information may be valid only for the reporting configuration in measConfig, that is, when any measurement parameter of the reporting configuration is reconfigured, the reporting configuration may be configured based on the first instruction information and the second instruction information. The associated measurement report entry is processed.
  • the network device may carry the first indication information and the second indication information in a measurement object of the measurement configuration information, and the measurement object of the measurement configuration information includes the first indication information and the second indication information. You can also include other parameters, which are not listed here one by one. Therefore, the terminal device may receive the first instruction information and the second instruction information when receiving the measurement object of the measurement configuration information from the network device. The first instruction information and the second instruction information are valid only for the measurement object. Therefore, when the measurement parameter of the measurement object is reconfigured, a measurement report entry associated with the measurement object and the reference signal in the associated reporting configuration is SSB may be processed based on the first indication information, where the associated report The configuration may refer to the reporting configuration associated with the measurement identifier associated with the measurement object. Taking FIG.
  • the related reporting configuration of MO1 includes reporting configuration 1, and the related reporting configuration of MO2 includes reporting configuration 1 and reporting configuration 2.
  • MO4 ’s The associated reporting configuration includes reporting configuration 4.
  • a measurement report entry that is associated with the measurement object and has a reference signal in the associated reporting configuration as a CSI-RS.
  • the network device reconfigures the measurement parameter corresponding to the SSB in a certain MO
  • the first instruction information may be set to FALSE
  • the second instruction information may be set to TRUE.
  • the first indication information may be set to TRUE
  • the second indication information may be set to FALSE.
  • the network device reconfigures the measurement parameters corresponding to the SSB and CSI-RS in a certain MO
  • the first indication information and the second indication information may be set to FALSE.
  • SMTC is a window configured by network test equipment for terminal equipment to perform SSB measurement.
  • the terminal equipment only needs to perform SSB measurement inside the SMTC window, and does not need to perform SSB measurement outside the window.
  • SMTC timing is based on SpCell, SpCell can be PCell or PSCell.
  • the network device may configure the UE with a new SMTC configuration.
  • the terminal device is switched from Cell1 to Cell2.
  • the source cell Cell1 sends an RRCReconfiguration message to the terminal device, which carries the measurement configuration.
  • the measurement configuration contains the configuration of one or more MOs. Carry SMTC. It is assumed that the first MO is included therein, and the network reconfigures the SMTC configuration in the first MO. At this time, it is not desirable to report the measurement results of the existing SSB and CSI-RS. Therefore, when the network device reconfigures the SMTC parameters in a certain MO, both the first indication information and the second indication information can be set to TRUE.
  • some events related to the serving cell may stop reporting their measurement results.
  • the serving cell Cell1 configures the terminal device with a second MO
  • the second MO is associated with event A3, and a neighboring cell Cell2 corresponding to the second MO triggers event A3, and the network device decides to let the terminal device switch to Cell2.
  • the network device is reconfiguring the second MO
  • the measurement report entry associated with the second MO can be cleared. Therefore, if the network device reconfigures the MO due to the cell switching of the terminal device, both the first indication information and the second indication information carried in the MO can be set to FALSE.
  • the periodically reported events triggered by the original related neighboring cells need not be reported again.
  • the serving cell Cell1 configures the terminal device with a third MO
  • the third MO is associated with event A4
  • a neighboring cell Cell2 corresponding to the third MO triggers event A3
  • the network adds Cell2 as an SCell.
  • the network reconfigures the third MO
  • the measurement report entry associated with the third MO can be cleared. Therefore, if the network device reconfigures the MO because the terminal device performs cell switching or PSCell / SCell addition, both the first indication information and the second indication information carried in the MO can be set to FALSE.
  • the network device configures a fourth MO for the terminal device, and the terminal device performs measurement based on the fourth MO and multiple reportConfigs associated with the terminal device and obtains some SSB-based measurement report entries and CSI-RS-based measurement report entries.
  • the network device needs to reconfigure some parameters in the fourth MO, such as reconfiguring some parameters of smtc2, then smtc2 is only used for the measurement of the serving cell, and neighbor cell measurement uses smtc1, so it is not necessary to clear the existing Measurement report entry. Therefore, when the network device reconfigures the smtc2 and other parameters of the MO, the first indication information and the second indication information carried in the MO can be set to TRUE.
  • the network device When the network device reconfigures the parameters such as the consolidation threshold in the MO, it is desirable to clear the corresponding measurement report entry. For example, when a network device reconfigures absThreshSS-BlocksConsolidation in MO, it expects the terminal device to clear SSB-related measurement report entries, and when a network device reconfigures absThreshCSI-RS-Consolidation in MO, it expects the terminal device to clear CSI-RS-related measurement report entry. Among them, absThreshSS-BlocksConsolidation is the SSB beam threshold, and absThreshCSI-RS-Consolidation is the CSI-RS beam threshold.
  • the first indication information can be set to FALSE, and the second indication information can be set to TRUE.
  • the first indication information may be set to TRUE, and the second indication information may be set to FALSE.
  • the network device sends measConfig to the terminal device, where measConfig includes measurement parameters of MO2.
  • measConfig includes measurement parameters of MO2.
  • the measurement parameters of MO2 in measConfig change the measurement parameters of SSB.
  • the network device may carry the first indication information and the second indication information in the MO2, wherein the first indication information may indicate that the measurement report entry corresponding to the SSB is cleared, and the second indication information indicates that the measurement corresponding to the CSI-RS is not cleared Report entry. That is, the first indication information that can be carried in MO2 is set to FALSE, and the second indication information is set to TRUE.
  • the terminal device processes the measurement report entries whose reference signal is SSB in each measurement report entry associated with MO2 based on the first indication information, that is, clears the reference signal in each measurement report entry associated with MO2 as SSB.
  • a measurement report entry, and process a measurement report entry whose reference signal is CSI-RS in each measurement report entry associated with MO2 based on the second instruction information, that is, a reference signal in each measurement report entry associated with MO2 is not cleared as CSI- RS measurement report entry.
  • the network device may carry the first indication information and the second indication information in a reporting configuration of the measurement configuration information, and the reporting configuration of the measurement configuration information is in addition to the first indication information and the second indication information. You can also include other parameters, which are not listed here one by one. Therefore, the terminal device can receive the first instruction information and the second instruction information when receiving the report configuration of the measurement configuration information from the network device. The first instruction information and the second instruction information are valid only for the report configuration.
  • a measurement report entry associated with the reporting configuration and the reference signal in the associated reporting configuration is SSB may be processed based on the first indication information, based on the second
  • the indication information processes a measurement report entry associated with the reporting configuration and a reference signal in the associated reporting configuration is a CSI-RS.
  • reportConfig When reconfiguring parameters such as event thresholds in reportConfig, measurement report entries can be cleared. Therefore, when the network device reconfigures parameters such as the event threshold in reportConfig, the first instruction information and the second instruction information carried in reportConfig can be set to FALSE.
  • the network device sends measurement configuration information to the terminal device.
  • the network device sends measConfig to the terminal device, where measConfig includes the measurement parameters of the reporting configuration 2, and the reporting configuration 2 carries the first indication information and the second indication information.
  • the measurement parameters of reporting configuration 2 in measConfig are changed compared to the measurement parameters of reporting configuration 2 stored in the terminal device. If the type of the reference signal in the reporting configuration 2 is SSB, the terminal device may process the measurement report entry associated with the reporting configuration 2 according to the first instruction information carried in the reporting configuration 2. If the first instruction information instructs to clear the measurement report entry corresponding to the SSB, the terminal device processes each measurement report entry associated with reporting configuration 2 based on the first instruction information after receiving the measConfig, that is, clears each measurement associated with reporting configuration 2 Report entry.
  • the terminal device processes each measurement report entry associated with the reporting configuration 2 based on the first instruction information, that is, the associated report configuration 2 is not cleared. Individual measurement report entries.
  • the terminal device may process the second indication information carried in the reporting configuration 2 to process the measurement report entry associated with the reporting configuration 2. If the second instruction information indicates that the measurement report entry corresponding to the CSI-RS is cleared, after receiving the measConfig, the terminal device processes each measurement report entry associated with the reporting configuration 2 based on the second instruction information, that is, clears the associated report configuration 2 Individual measurement report entries.
  • the terminal device processes each measurement report entry associated with reporting configuration 2 based on the second instruction information, that is, the report configuration 2 is not cleared. Linked measurement report entries.
  • the terminal device when the terminal device receives the instruction information sent from the network device, it may be implemented in the following manner: the terminal device receives the third instruction information from the network device, and the third instruction information is used to instruct the clearing Or do not clear the measurement report entry.
  • the third indication information may also be used to indicate whether the measurement report entry whose reference signal is SSB is cleared or not cleared.
  • the third indication information may also be used to indicate whether the measurement report entry whose reference signal is CSI-RS is cleared or not cleared.
  • the network device may carry the third indication information in the measurement configuration information. Therefore, the terminal device can receive the third instruction information when receiving the measurement configuration information from the network device.
  • the network device may be carried in measConfig or an RRCReconfiguration message including measConfig.
  • the third instruction information can be valid for the MO and the reporting configuration in measConfig, that is, when the measurement parameters of any MO are reconfigured, the measurement report entries associated with the MO can be processed based on the third instruction information.
  • the measurement parameters of the reporting configuration are reconfigured, the measurement report entries associated with the reporting configuration may be processed based on the third instruction information.
  • the network device sends measConfig to the terminal device, where the measConfig carries the third instruction information and also includes the measurement parameter of MO3.
  • the measurement parameters of MO3 in measConfig are changed compared to the measurement parameters of MO3 stored in the terminal device. Therefore, after receiving the measConfig, the terminal device processes each measurement report entry associated with MO3 based on the third instruction information, that is, the association with MO3 is cleared. Individual measurement report entries.
  • the network device sends measConfig to the terminal device, where measConfig carries the third instruction information and also includes the measurement parameter of reporting3.
  • the measurement parameters of reporting3 configuration in measConfig are changed compared to the measurement parameters of reporting3 configuration stored in the terminal device. Therefore, after receiving measConfig, the terminal device processes each measurement report entry associated with reporting3 configuration based on the third instruction information, that is, clears the Each measurement report entry associated with reporting3.
  • the third indication information may also be valid only for the MO in measConfig, that is, when the measurement parameter of any MO is reconfigured, the measurement report entry associated with the MO may be processed based on the third indication information.
  • the third indication information may be valid only for the reporting configuration in measConfig, that is, when any measurement parameter of the reporting configuration is reconfigured, the measurement report entry associated with the reporting configuration may be processed based on the third indication information.
  • the network device may carry the third indication information in the measurement object of the measurement configuration information, and the measurement object of the measurement configuration information may include parameters in addition to the third indication information, which will not be enumerated here one by one. Therefore, the terminal device can receive the third instruction information when receiving the measurement object of the measurement configuration information from the network device.
  • the third instruction information is valid only for the measurement object. Therefore, when the measurement parameter of the measurement object is reconfigured, a measurement report entry associated with the measurement object may be processed based on the third instruction information.
  • the network device may set the third indication information carried in the MO to TRUE.
  • some events related to the serving cell may stop reporting their measurement results.
  • the serving cell Cell1 configures the terminal device with a second MO
  • the second MO is associated with event A3, and a neighboring cell Cell2 corresponding to the second MO triggers event A3, and the network device decides to let the terminal device switch to Cell2.
  • the network device is reconfiguring the second MO
  • the measurement report entry associated with the second MO can be cleared. Therefore, if the network device reconfigures the MO because the terminal device performs cell switching, the third indication information carried in the MO may be set to FALSE.
  • the periodically reported events triggered by the original related neighboring cells need not be reported again.
  • the serving cell Cell1 configures the terminal device with a third MO
  • the third MO is associated with event A4
  • a neighboring cell Cell2 corresponding to the third MO triggers event A3
  • the network device reconfigures the third MO
  • the measurement report entry associated with the third MO can be cleared. Therefore, if the network device reconfigures the MO because the terminal device performs cell switching or PSCell / SCell addition, the third indication information carried in the MO can be set to FALSE.
  • the network device When the network device reconfigures some parameters in the MO, for example, some parameters of smtc2 in the MO, etc., even if the reporting of the current measurement results is stopped, the eligible cells will continue to trigger. In this case, you may not want to clear them.
  • Measurement report For example, the network device configures a fourth MO for the terminal device, and the terminal device performs measurement based on the fourth MO and multiple reportConfigs associated with the terminal device and obtains some SSB-based measurement report entries and CSI-RS-based measurement report entries.
  • the network device needs to reconfigure some parameters in the fourth MO, such as reconfiguring some parameters of smtc2, then smtc2 is only used for the measurement of the serving cell, and neighbor cell measurement uses smtc1, so it is not necessary to clear the existing Measurement report entry. Therefore, when the network device reconfigures the smtc2 and other parameters of the MO, the first indication information and the second indication information carried in the MO can be set to TRUE.
  • the network device sends measConfig to the terminal device, where measConfig includes measurement parameters of MO4.
  • the measurement parameters of MO4 in measConfig are changed compared to the measurement parameters of MO4 stored in the terminal device.
  • the network device may carry the third instruction information in MO4. If the third instruction information can instruct to clear the measurement report entry, after receiving the measConfig, the terminal device processes each measurement report entry associated with MO4 based on the third instruction information, that is, clears each measurement report entry associated with MO4. If the third instruction information can indicate that the measurement report entry is not cleared, the terminal device processes each measurement report entry associated with MO4 based on the third instruction information after receiving the measConfig, that is, does not clear each measurement report entry associated with MO4.
  • the network device may carry the third indication information in the reporting configuration of the measurement configuration information, and the reporting configuration of the measurement configuration information may include parameters in addition to the third indication information, which will not be enumerated here one by one. Therefore, the terminal device can receive the third instruction information when receiving the report configuration of the measurement configuration information from the network device.
  • the third instruction information is valid only for the report configuration. Therefore, when the measurement parameter of the reporting configuration is reconfigured, a measurement report entry associated with the reporting configuration may be processed based on the third instruction information.
  • a network device If a network device wishes to retain a measurement report entry with a reference signal of CSI-RS, when reconfiguring certain measurement parameters in a reporting configuration with a reference signal of CSI-RS, it can set the third indication information carried in the reporting configuration TRUE, if you do not want to keep the measurement report entries with the reference signal CSI-RS, when you reconfigure some measurement parameters in the reporting configuration with the reference signal CSI-RS, you can carry the third indication carried in the reporting configuration The message is set to FALSE.
  • the third indication information carried in the reporting configuration can be set to TRUE If you do not want to keep the measurement report entry with the reference signal SSB, when you reconfigure some measurement parameters in the reporting configuration with the reference signal SSB, you can set the third indication information carried in the reporting configuration to FALSE.
  • the terminal device When the terminal device reconfigures the event threshold and other parameters in reportConfig, it can clear the measurement report entry. Therefore, when the network device reconfigures parameters such as the event threshold in reportConfig, the third indication information carried in reportConfig can be set to FALSE.
  • the network device sends measConfig to the terminal device, where measConfig includes the measurement parameters of the reporting configuration.
  • the measurement parameters of reporting configuration 4 in measConfig are changed compared to the measurement parameters of reporting configuration 4 stored in the terminal device.
  • the network device may carry the third instruction information in the reporting configuration. If the third instruction information indicates that the measurement report entry is cleared, the terminal device processes each measurement report entry associated with reporting configuration 4 based on the third instruction information after receiving the measConfig, that is, clears each measurement report entry associated with reporting configuration 4. If the third instruction information indicates that the measurement report entries are not cleared, the terminal device processes each measurement report entry associated with reporting4 based on the third instruction information after receiving the measConfig, that is, does not clear each measurement report entry associated with reporting4 .
  • the terminal device when the terminal device clears the measurement report entry, it may also stop a timer related to the measurement identifier associated with the measurement report entry, such as a periodic report timer (Periodical reporting timer), T321, and so on.
  • a timer related to the measurement identifier associated with the measurement report entry such as a periodic report timer (Periodical reporting timer), T321, and so on.
  • the terminal device may also reset parameters related to the measurement identifier associated with the measurement report entry, such as an event trigger duration (timeToTrigger) and the like.
  • the terminal device may report capability information to the network device, and the capability information is used to notify the network device whether the terminal device supports processing of measurement report entries under the instruction of the network device.
  • the network device requests the terminal device for capability reporting through a UECapabilityEnquiry message, and the terminal device may report its own capability information through a terminal equipment capability information (UECapabilityInformation) message.
  • UECapabilityInformation terminal equipment capability information
  • the terminal device when receiving the measurement configuration information, may also process the measurement report entry according to a preset rule.
  • the preset rule can clear the measurement report entry for the terminal device when reconfiguring specific parameters. Therefore, when receiving the measurement configuration information from the network device, the terminal device can determine whether to reconfigure specific parameters. If necessary, the report of the measurement report entry is cleared; otherwise, the report of the measurement report entry is not cleared.
  • the event threshold in reportConfig can be pre-defined to affect the reporting of measurement report entries.
  • the terminal device received the measurement configuration information from the network device.
  • the measurement configuration information includes reporting configuration 5.
  • the measurement parameters of reporting configuration configuration 5 in the measurement configuration information are compared with the measurement parameters of reporting configuration configuration 5 stored in the terminal device.
  • the event threshold changes. That is, the terminal device needs to reconfigure the event threshold of reporting5.
  • the terminal device can clear each measurement report entry associated with the reporting configuration according to a preset rule.
  • the preset rule may also clear the measurement report entry that the reference signal is CSI-RS when the terminal device reconfigures the first specific parameter, and / or, the terminal device clears the measurement that the reference signal is SSB when the second specific parameter is reconfigured.
  • Report entry For example, the absThreshSS-BlocksConsolidation threshold in the MO may be specified in advance to affect a measurement report entry in which the reference signal is SSB.
  • the terminal device receives the measurement configuration information from the network device.
  • the measurement configuration information includes MO5.
  • the measurement parameters of MO5 in the measurement configuration information are compared with the measurement parameters of MO5 stored in the terminal device.
  • the absThreshSS-BlocksConsolidation has changed. Reconfigure the absThreshSS-BlocksConsolidation of MO5.
  • the terminal device may clear the measurement report entry whose reference signal is SSB in each measurement report entry associated with MO5 according to a preset rule.
  • the preset rule may prevent the terminal device from clearing the measurement report entry when reconfiguring certain specific parameters. Therefore, when receiving the measurement configuration information from the network device, the terminal device can determine whether specific parameters need to be reconfigured. If necessary, the report of the measurement report entry is not cleared; otherwise, the report of the measurement report entry is cleared. For example, it may be specified in advance that the SMTC parameters in the MO do not affect the measurement report entries.
  • the terminal device receives the measurement configuration information from the network device.
  • the measurement configuration information includes MO6.
  • the measurement parameters of MO6 in the measurement configuration information are different from the measurement parameters of MO6 stored in the terminal device.
  • the SMTC changes, that is, the terminal device needs to be reconfigured. SMTC of MO6.
  • the terminal device may not clear each measurement report entry associated with MO6 according to a preset rule.
  • the preset rule may also prevent the terminal device from clearing the measurement report entry with the reference signal as CSI-RS when reconfiguring the third specific parameter, and / or, the terminal device does not clear the reference signal as SSB when reconfiguring the fourth specific parameter.
  • Measurement report entry For example, the absThreshSS-Blocks Consolidation threshold in the MO may be specified in advance without affecting the measurement report entry in which the reference signal is a CSI-RS.
  • the terminal device receives the measurement configuration information from the network device.
  • the measurement configuration information includes MO5.
  • the measurement parameters of MO5 in the measurement configuration information are compared with the measurement parameters of MO5 stored in the terminal device. AbsThreshSS-BlocksConsolidation has changed, that is, the terminal device needs Reconfigure the absThreshSS-BlocksConsolidation of MO5.
  • the terminal device may not clear the measurement report entry whose reference signal is CSI-RS in each measurement report entry associated with MO5 according to a preset rule.
  • some specific scenarios may be specified in the preset rules, so that the terminal device may process the measurement report entries based on the above-mentioned preset rules when in the specific scenarios.
  • the timing of SMTC is based on SpCell.
  • the SpCell may change, which may cause the SMTC configuration to change.
  • the terminal device may not be able to monitor the SSB of the target cell in this SMTC window, and As a result, the terminal equipment cannot synchronize with the target cell or cannot accurately measure.
  • the network device may send the timing offset information to the terminal device, and the terminal device may reconfigure all the existing SMTC configurations according to the timing offset information. Further, after the terminal device reconfigures the SMTC configuration, it can send the new configuration to the network device. Wherein, if the source cell and the target cell are synchronized, the terminal device may not need to reconfigure the SMTC information.
  • the timing deviation information may be a system frame number and a frame timing deviation (SFTD). The following uses the timing deviation information as SFTD as an example for description.
  • the terminal device may reconfigure the related SMTC configuration based on the SFTD between the source cell and the target cell.
  • the SFTD between the source cell and the target cell may be sent to the terminal device by the source cell or the target cell.
  • the offset of the SMTC window is L
  • the timing offset between the target cell B and the source cell A is ⁇ T
  • the timing deviation ⁇ T, and the calculated window offset of the SMTC is L + ⁇ T.
  • the embodiment of the present application sends SFTD to the terminal device through the network device, so that the terminal device can reconfigure the SMTC information when the serving cell changes, thereby solving the problem that the original SMTC configuration is no longer applicable when the serving cell changes.
  • the terminal device needs to synchronize with a new cell.
  • the current serving cell will send a SMTC configuration to the terminal device.
  • network devices can be configured through RRCReconfiguration
  • the message is sent to the terminal device.
  • the network device can send the message to the terminal device in the RRCRelease message to synchronize the terminal device with the new cell.
  • the SSB sending cycle is not fixed and may be long.
  • the SMTC configuration sent by the current serving cell to the terminal device indicates the time domain of the target cell sending the SSB. Therefore, the SSB of the neighboring cell cannot be monitored in the SMTC window.
  • the SMTC timing sent by the network device to the UE may not be accurate.
  • the offset in the SMTC configuration may not be accurate.
  • the base station calculates the offset of the SMTC based on the SFTD of itself and the neighboring base station. However, if the neighboring base station restarts, the SFTD between the two base stations changes. In this case, the terminal device may not be able to monitor the SSB of the neighboring base station in the SMTC window corresponding to the SMTC configuration sent by the current serving cell, which may cause it to fail to synchronize with the neighboring cell.
  • the terminal device can monitor the SSB of the target cell from the beginning of the SMTC window. If the terminal device does not receive the SSB of the target cell within the entire SMTC window, the terminal device may continue to monitor the SSB of the target cell during the SS burst period. If the SSB of the target cell is not received within the SS burst period, the terminal device stops monitoring and determines that the synchronization fails. If the SSB of the target cell is received within the SS burst period, the terminal device synchronizes with the target cell based on the received SSB.
  • the SS burst period may be the SS burst period of the target cell sent by the serving cell to the terminal device separately.
  • the SS burst period may also be a period in the SMTC configuration, that is, the period in the SMTC configuration may also be understood as the SS burst period of the target cell sent by the serving cell to the UE.
  • the terminal device will not only synchronize within the SMTC window, but will monitor at least one SS burst period, that is, if the entire SMTC window is not synchronized, the terminal device will continue to synchronize until the entire monitoring is completed. It is determined that the synchronization fails if the SS burst period is not successful. If the synchronization is successful during this period, the monitoring is stopped. By extending the monitoring time, the probability of receiving the SSB of the target cell can be increased, and to a certain extent, the problem that the SpCell cannot synchronize with the target cell due to the inaccurate SMTC configuration sent by the network device to the terminal device can be avoided.
  • a network device when a network device sends measurement configuration information to a terminal device, it may carry the first indication information and the second indication information in the MO. , The third indication information is carried in the report configuration, and so on.
  • an embodiment of the present application provides a measurement report entry processing device.
  • the structure of the measurement report entry processing device may be as shown in FIG. 4 and includes a receiving module 401, a processing module 402, and a sending module 403.
  • the measurement report entry processing device may be specifically used to implement the method performed by the terminal device in the embodiment described in FIG. 3, and the device may be the terminal device itself, or a chip or chipset in the terminal device. Or part of a chip used to perform related method functions.
  • the receiving module 401 is configured to receive instruction information from a network device, where the instruction information is used to indicate a processing manner of a measurement report entry.
  • the processing module 402 is configured to process a measurement report entry based on the instruction information received by the receiving module 401.
  • the receiving module 401 may be specifically configured to receive first indication information and second indication information from the network device, where the first indication information is used to instruct to clear or not clear the first reference signal. A corresponding measurement report entry; the second indication information is used to indicate whether the measurement report entry corresponding to the second reference signal is cleared or not cleared.
  • the receiving module 401 may be specifically configured to receive measurement configuration information from the network device, where the measurement configuration information carries the first indication information and the second indication information.
  • the reference signal in the configuration is a measurement report entry of the first reference signal, and / or a measurement report entry associated with any of the reporting configurations, and the reference signal in the associated reporting configuration is the first reference signal; And, based on the second instruction information, processing a measurement report entry that is associated with the any measurement object and has a reference signal in an associated reporting configuration that is the second reference signal, and / or reports with the any one
  • a measurement report entry configured to be associated and the reference signal in the associated reporting configuration is the second reference signal.
  • the receiving module 401 may be specifically configured to receive measurement configuration information from the network device, where the measurement configuration information carries measurement parameters of a first measurement object, and the measurement parameters of the first measurement object include The first instruction information and the second instruction information.
  • the processing module 402 may be specifically configured to: when reconfiguring the measurement parameters of the first measurement object, process the correlation and correlation with the first measurement object based on the first instruction information.
  • the reference signal in the joint reporting configuration is a measurement report entry of the first reference signal
  • the reference signal in the associated reporting configuration is processed based on the second instruction information and the reference signal in the associated reporting configuration is the second Reference signal measurement report entry.
  • the receiving module 401 may be specifically configured to receive measurement configuration information from the network device, where the measurement configuration information carries a first reported configuration measurement parameter, and the first reported configuration measurement parameter includes The first instruction information and the second instruction information.
  • the processing module 402 may be specifically configured to: when reconfiguring the measurement parameters of the first reporting configuration, based on the first instruction information, process the related and related
  • the reference signal in the joint reporting configuration is a measurement report entry of the first reference signal
  • the reference signal in the associated reporting configuration is processed based on the second instruction information
  • the reference signal in the associated reporting configuration is the second Reference signal measurement report entry.
  • the receiving module 401 may be specifically configured to: receive third instruction information from the network device, where the third instruction information is used to instruct to clear or not to clear the measurement report entry.
  • the receiving module 401 may be specifically configured to receive measurement configuration information from the network device, where the measurement configuration information carries the third indication information.
  • processing module 402 may be specifically configured to:
  • the receiving module 401 may be specifically configured to receive measurement configuration information from the network device, where the measurement configuration information carries measurement parameters of a second measurement object, and the measurement parameters of the second measurement object include The third instruction information.
  • the processing module 402 may be specifically configured to: when reconfiguring the measurement parameters of the second measurement object, process a measurement report entry associated with the second measurement object based on the third instruction information. .
  • the receiving module 401 may be specifically configured to receive measurement configuration information from the network device, where the measurement configuration information carries a measurement parameter configured in a second report, and the measurement parameter configured in the second report includes The third instruction information.
  • the processing module 402 may be specifically configured to: when reconfiguring the measurement parameters of the second reporting configuration, process a measurement report entry associated with the second reporting configuration based on the third instruction information .
  • the processing module 402 may be further configured to: when clearing a measurement report entry, stop a timer related to a measurement identifier associated with the measurement report entry, and reset a timer associated with the measurement report entry Measure identification related parameters.
  • the sending module 403 may be configured to report capability information to the network device, where the capability information is used to notify the network device terminal device to support processing of a measurement report entry under an instruction of the network device.
  • the measurement report entry processing apparatus may be specifically configured to implement the method performed by the network device in the embodiment described in FIG. 3, and the device may be the network device itself, or a chip or chip in the network device. The part of a group or chip used to perform related method functions.
  • the processing module 402 is configured to determine instruction information, where the instruction information is used to indicate a processing mode of a measurement report entry, and the sending module 403 is configured to send the instruction information to a terminal device.
  • the sending module 403 may be specifically configured to send first instruction information and second instruction information to the terminal device, where the first instruction information is used to instruct the terminal device to clear or not clear the first A measurement report entry corresponding to the reference signal; the second indication information is used to indicate whether the measurement report entry corresponding to the second reference signal is cleared or not cleared.
  • the sending module 403 may be specifically configured to send measurement configuration information to the terminal device, where the measurement configuration information carries the first indication information and the second indication information.
  • the sending module 403 may be specifically configured to send measurement configuration information to the terminal device, where the measurement configuration information carries measurement parameters of a first measurement object, and the measurement parameters of the first measurement object include all The first instruction information and the second instruction information.
  • the sending module 403 may be specifically configured to send measurement configuration information to the terminal device, where the measurement configuration information carries a first reported configuration measurement parameter, and the first reported configuration measurement parameter includes all The first instruction information and the second instruction information.
  • the sending module 403 may be specifically configured to send third instruction information to the terminal device, where the third instruction information is used to instruct to clear or not clear the measurement report entry.
  • the sending module 403 may be specifically configured to send measurement configuration information to the terminal device, where the measurement configuration information carries the third indication information.
  • the sending module 403 may be specifically configured to send measurement configuration information to the terminal device, where the measurement configuration information carries measurement parameters of a second measurement object, and the measurement parameters of the second measurement object include all The third instruction information is described.
  • the sending module 403 may be specifically configured to send measurement configuration information to the terminal device, where the measurement configuration information carries a measurement parameter configured in a second report, and the measurement parameter configured in the second report includes all The third instruction information is described.
  • the receiving module 401 may be configured to receive capability information from the terminal device, where the capability information is used to notify the terminal device to support processing of a measurement report entry under an instruction of a network device.
  • the division of the modules in the embodiments of the present application is schematic and is only a logical function division. In actual implementation, there may be another division manner.
  • the functional modules in the embodiments of the present application may be integrated into one process. In the device, it can also exist separately physically, or two or more modules can be integrated into one module.
  • the above integrated modules may be implemented in the form of hardware or software functional modules. It can be understood that, for the functions or implementation of each module in the embodiments of the present application, reference may be further made to the related description of the method embodiments.
  • the communication device may be as shown in FIG. 5, and the communication device may be a terminal device or a chip in a terminal device, or may be a network or a chip in a network.
  • the communication device may include a processor 501, a communication interface 502, and a memory 503.
  • the processing module 402 may be the processor 501.
  • the receiving module 401 and the sending module 403 may be the communication interface 502.
  • the processor 501 may be a central processing module (CPU), or a digital processing module.
  • the communication interface 502 may be a transceiver, an interface circuit such as a transceiver circuit, or a transceiver chip, etc.
  • the communication device further includes a memory 503 for storing a program executed by the processor 502.
  • the memory 503 may be a non-volatile memory, such as a hard disk (HDD) or a solid-state drive (SSD), and may also be a volatile memory, such as a random access memory (random -access memory, RAM).
  • the memory 503 is, but is not limited to, any other medium that can be used to carry or store desired program code in the form of instructions or data structures and can be accessed by a computer.
  • the processor 501 is configured to execute the program code stored in the memory 503, and is specifically configured to perform the actions of the processing module 402 described above, which is not repeatedly described in this application.
  • the specific connection medium between the communication interface 501, the processor 502, and the memory 503 is not limited in the embodiment of the present application.
  • the memory 503, the processor 502, and the communication interface 501 are connected by a bus 504 in FIG. 5.
  • the bus is indicated by a thick line in FIG. It is not limited.
  • the bus can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only one thick line is used in FIG. 5, but it does not mean that there is only one bus or one type of bus.
  • An embodiment of the present invention further provides a computer-readable storage medium for storing computer software instructions to be executed to execute the foregoing processor, which includes a program for executing the foregoing processor.
  • the computer program product includes one or more computer instructions.
  • the computer may be a general-purpose computer, a special-purpose computer, a computer network, or other programmable device.
  • the computer instructions may be stored in a computer-readable storage medium or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be from a website site, computer, server, or data center Transmission by wire (for example, coaxial cable, optical fiber, digital subscriber line (DSL)) or wireless (for example, infrared, wireless, microwave, etc.) to another website site, computer, server, or data center.
  • the computer-readable storage medium may be any available medium that can be accessed by a computer or a data storage device such as a server, a data center, and the like including one or more available medium integration.
  • the usable medium may be a magnetic medium (for example, a floppy disk, a hard disk, a magnetic tape), an optical medium (for example, a DVD), or a semiconductor medium (for example, a solid state disk (Solid State Disk)).
  • a magnetic medium for example, a floppy disk, a hard disk, a magnetic tape
  • an optical medium for example, a DVD
  • a semiconductor medium for example, a solid state disk (Solid State Disk)
  • These computer program instructions may also be stored in a computer-readable memory capable of directing a computer or other programmable data processing device to work in a particular manner such that the instructions stored in the computer-readable memory produce a manufactured article including an instruction device, the instructions
  • the device implements the functions specified in one or more flowcharts and / or one or more blocks of the block diagram.
  • These computer program instructions can also be loaded on a computer or other programmable data processing device, so that a series of steps can be performed on the computer or other programmable device to produce a computer-implemented process, which can be executed on the computer or other programmable device.
  • the instructions provide steps for implementing the functions specified in one or more flowcharts and / or one or more blocks of the block diagrams.

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Abstract

一种测量报告条目处理方法及设备,用以解决现有技术中存在终端设备处理测量报告条目时灵活性较差的问题。该方法包括:接收来自网络设备的指示信息,所述指示信息用于指示测量报告条目的处理方式,并基于所述指示信息对测量报告条目进行处理。

Description

一种测量报告条目处理方法及设备
本申请要求在2018年09月28日提交中国专利局、申请号为201811142494.1、申请名称为“一种测量报告条目处理方法及设备”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本申请涉及通信技术领域,尤其涉及一种测量报告条目处理方法及设备。
背景技术
移动性管理是无线通信系统中的重要组成部分。根据UE的状态大致上可以分为空闲态(RRC_IDLE state)移动性管理和连接态(RRC_CONNECTED state)移动性管理两部分。在空闲态下,移动性管理主要指的是小区选择/重选(cell selection/reselection)的过程,在连接态下,移动性管理主要指的是小区切换(handover)。不论是小区选择/重选还是切换,都是基于移动性测量的结果进行的。因此移动性测量是移动性管理的基础。
在移动性测量过程中,UE基于网络设备发送的测量配置信息对小区进行测量,并将测量报告上报给网络设备。若网络设备重新配置测量配置信息,UE会清除与重配置的信息相关联的测量报告条目。例如,网络设备在重新配置某个测量对象的测量参数时,终端设备会将该测量对象相关联的测量报告条目都清除。可见,这种将与重配置的信息相关联的测量报告条目都清除的方式灵活性较差。
发明内容
本申请提供一种测量报告条目处理方法及装置,用以解决现有技术中存在终端设备处理测量报告条目时灵活性较差的问题。
第一方面,本申请提供了一种测量报告条目处理方法,所述方法可以应用于终端设备,或者芯片,或者芯片组,或者芯片中执行该方法的功能模块等等,该方法包括:接收来自网络设备的指示信息,所述指示信息用于指示测量报告条目的处理方式,并基于所述指示信息对测量报告条目进行处理。本申请实施例中网络设备通过向终端设备发送指示信息来指示测量报告条目的处理方式,相比于现有技术中终端设备在重新配置测量配置信息时将与重配置的信息相关联的测量报告条目全部清除,本申请实施例中网络设备可以指示终端设备如何处理与重配置的信息相关联的测量报告条目,例如全部清除与重配置的信息相关联的测量报告条目、保留部分与重配置的信息相关联的测量报告条目、全部保留与重配置信息的相关联的测量报告条目等等,从而提高了终端设备处理测量报告条目的灵活性。
在一种可能的设计中,所述接收来自网络设备的指示信息,可以包括:接收来自所述网络设备的第一指示信息以及第二指示信息,所述第一指示信息用于指示清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。上述设计中,网络设备通过向终端设备发送两个指示信息来分别指示是否清除第一参考信号所对应的测量报告条目、是否清除第二参考信号所对应的测量报告条目,因此终端设备在重新配置测量配置信息时可以保留测量报告条目中有用的测量报告条目,例如,在重新配置SSB的测量参数时,不清除CSI-RS所对应的测量报 告条目等等。从而可以避免由于有用的测量报告条目被删除导致重新触发测量上报的情况,从而可以降低有用的测量报告条目被删除导致的终端设备测量上报的信令增加。并且,本申请实施例可以根据需求确定测量报告条目的处理方式,从而可以提高灵活性。
在一种可能的设计中,所述接收来自所述网络设备的第一指示信息以及第二指示信息,可以包括:接收来自所述网络设备的测量配置信息,所述测量配置信息携带所述第一指示信息以及所述第二指示信息。上述设计中,通过在测量配置信息中携带第一指示信息以及第二指示信息,第一指示信息以及第二指示信息对于测量配置信息中所有测量对象和/或所有上报配置都有效。
在一种可能的设计中,所述基于所述指示信息对测量报告条目进行处理,可以包括:在重新配置任一测量对象和/或任一上报配置的测量参数时,基于所述第一指示信息处理与所述任一测量对象相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,和/或与所述任一上报配置相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目;以及,基于所述第二指示信息处理与所述任一测量对象相关联的、且参考信号为所述第二参考信号的测量报告条目,和/或与所述任一上报配置相关联的、且参考信号为所述第二参考信号的测量报告条目。由于第一指示信息以及第二指示信息对于测量配置信息中所有测量对象和/或所有上报配置都有效,因此终端设备在重新配置测量配置信息中的任一测量对象和/或任一上报配置时都可以根据第一指示信息处理与重配置的信息相关联的测量报告条目中参考信号为第一参考信号的测量报告条目,根据第二指示信息处理与重配置的信息相关联的测量报告条目中参考信号为第二参考信号的测量报告条目。重配置的信息指重新配置的测量对象,或者重新配置的上报配置。
在一种可能的设计中,所述接收来自所述网络设备的第一指示信息以及第二指示信息,可以包括:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第一测量对象的测量参数,所述第一测量对象的测量参数包括所述第一指示信息以及所述第二指示信息。上述设计中,通过在第一测量对象中携带第一指示信息以及第二指示信息,第一指示信息以及第二指示信息对于第一测量对象有效。
在一种可能的设计中,所述基于所述指示信息对测量报告条目进行处理,可以包括:在重新配置所述第一测量对象的测量参数时,基于所述第一指示信息处理与所述第一测量对象相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,基于所述第二指示信息处理与所述第一测量对象相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目。由于第一指示信息以及第二指示信息仅对于第一测量对象有效,因此终端设备在重新配置第一测量对象的测量参数时可以根据第一指示信息处理与第一测量对象相关联的测量报告条目中参考信号为第一参考信号的测量报告条目,根据第二指示信息处理与第一测量对象相关联的测量报告条目中参考信号为第二参考信号的测量报告条目。
在一种可能的设计中,所述接收来自所述网络设备的第一指示信息以及第二指示信息,可以包括:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第一上报配置的测量参数,所述第一上报配置的测量参数包括所述第一指示信息以及所述第二指示信息。上述设计中,通过在第一上报配置中携带第一指示信息以及第二指示信息,第一指示信息以及第二指示信息对于第一上报配置有效。
在一种可能的设计中,所述基于所述指示信息对测量报告条目进行处理,可以包括: 在重新配置所述第一上报配置的测量参数时,若所述第一上报配置的参考信号类型为所述第一参考信号,则基于所述第一指示信息处理与所述第一上报配置相关联的测量报告条目;若所述第一上报配置的参考信号类型为所述第二参考信号,则基于所述第二指示信息处理与所述第一上报配置相关联的测量报告条目。由于第一指示信息以及第二指示信息仅对于第一上报配置有效,因此终端设备在重新配置第一上报配置的测量参数时,若第一上报配置的参考信号类型为第一参考信号,则可以根据第一指示信息处理与第一上报配置相关联的测量报告条目,若第一上报配置的参考信号类型为第二参考信号,则可以根据第二指示信息处理与第一上报配置相关联的测量报告条目。
在一种可能的设计中,所述接收来自网络设备的指示信息,可以包括:接收来自所述网络设备的第三指示信息,所述第三指示信息用于指示清除或者不清除测量报告条目。上述设计中,网络设备通过向终端设备发送一个指示信息来指示是否清除测量报告条目,因此终端设备在重新配置测量配置信息时可以根据需要不清除测量报告条目,从而可以保留测量报告条目中有用的测量报告条目,从而可以避免由于有用的测量报告条目被删除导致重新触发测量上报的情况,从而可以降低有用的测量报告条目被删除导致的终端设备测量上报的信令增加。并且,本申请实施例可以根据需求确定测量报告条目的处理方式,从而可以提高灵活性。
在一种可能的设计中,所述接收来自所述网络设备的第三指示信息,可以包括:接收来自所述网络设备的测量配置信息,所述测量配置信息携带所述第三指示信息。上述设计中,通过在测量配置信息中携带第三指示信息,第三指示信息对于测量配置信息中所有测量对象和/或所有上报配置都有效。
在一种可能的设计中,所述基于所述指示信息对测量报告条目进行处理,可以包括:在重新配置任一测量对象和/或任一上报配置的测量参数时,基于所述第三指示信息处理与所述任一测量对象相关联的测量报告条目和/或与所述任一上报配置相关联的测量报告条目。由于第三指示信息对于测量配置信息中所有测量对象和/或所有上报配置都有效,因此终端设备在重新配置测量配置信息中的任一测量对象和/或任一上报配置时都可以根据第三指示信息处理与重配置的信息相关联的测量报告条目。重配置的信息指重新配置的测量对象,或者重新配置的上报配置。
在一种可能的设计中,所述接收来自所述网络设备的第三指示信息,可以包括:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第二测量对象的测量参数,所述第二测量对象的测量参数包括所述第三指示信息。上述设计中,通过在第二测量对象中携带第三指示信息,第三指示信息对于第二测量对象有效。
在一种可能的设计中,基于所述指示信息对测量报告条目进行处理,可以包括:在重新配置所述第二测量对象的测量参数时,基于所述第三指示信息处理与所述第二测量对象相关联的测量报告条目。由于第三指示信息仅对于第二测量对象有效,因此终端设备在重新配置第二测量对象的测量参数时可以根据第三指示信息处理与第二测量对象相关联的测量报告条目。
在一种可能的设计中,所述接收来自所述网络设备的第三指示信息,可以包括:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第二上报配置的测量参数,所述第二上报配置的测量参数包括所述第三指示信息。上述设计中,通过在第二上报配置中携带第三指示信息,第三指示信息对于第二上报配置有效。
在一种可能的设计中,基于所述指示信息对测量报告条目进行处理,可以包括:在重新配置所述第二上报配置的测量参数时,基于所述第三指示信息处理与所述第二上报配置相关联的测量报告条目。由于第三指示信息仅对于第二上报配置有效,因此终端设备在重新配置第二上报配置的测量参数时,可以根据第三指示信息处理与第二上报配置相关联的测量报告条目。
在一种可能的设计中,所述方法还可以包括:在清除测量报告条目时停止与所述测量报告条目所关联的测量标识相关的定时器,并重置与所述测量报告条目所关联的测量标识相关的参数。
在一种可能的设计中,所述方法还可以包括:向所述网络设备上报能力信息,所述能力信息用于通知所述网络设备终端设备支持在网络设备的指示下对测量报告条目进行处理。上述设计中,网络设备可以根据终端设备发送的能力信息确定终端设备是否支持在网络设备的指示下对测量报告条目进行处理,从而可以在终端设备支持在网络设备的指示下对测量报告条目进行处理时向终端设备发送测量报告条目处理方式的指示信息。
第二方面,本申请提供了一种测量报告条目处理方法,所述方法可以应用于网络设备,或者芯片,或者芯片组,或者芯片中执行该方法的功能模块等等,该方法包括:确定指示信息,所述指示信息用于指示测量报告条目的处理方式;向终端设备发送所述指示信息。本申请实施例中网络设备通过向终端设备发送指示信息来指示测量报告条目的处理方式,相比于现有技术中终端设备在重新配置测量配置信息时将与重配置的信息相关联的测量报告条目全部清除,本申请实施例中网络设备可以指示终端设备如何处理与重配置的信息相关联的测量报告条目,例如全部清除与重配置的信息相关联的测量报告条目、保留部分与重配置的信息相关联的测量报告条目、全部保留与重配置的信息相关联的测量报告条目等等,从而提高了终端设备处理测量报告条目的灵活性。
在一种可能的设计中,向终端设备发送所述指示信息,可以包括:向所述终端设备发送第一指示信息以及第二指示信息,所述第一指示信息用于指示所述终端设备清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。由于测量报告条目中某些测量报告条目删除后相关小区会重新触发测量上报,上述设计中,网络设备通过向终端设备发送两个指示信息来分别指示是否清除第一参考信号所对应的测量报告条目、是否清除第二参考信号所对应的测量报告条目,因此终端设备在重新配置测量配置信息时可以保留测量报告条目中有用的测量报告条目,例如,在重新配置SSB的测量参数时,不清除CSI-RS所对应的测量报告条目等等。从而可以避免由于有用的测量报告条目被删除导致重新触发测量上报的情况,从而可以降低有用的测量报告条目被删除导致的终端设备测量上报的信令增加。并且,本申请实施例可以根据需求确定测量报告条目的处理方式,从而可以提高灵活性。
在一种可能的设计中,向所述终端设备发送第一指示信息以及第二指示信息,可以包括:向所述终端设备发送测量配置信息,所述测量配置信息携带所述第一指示信息以及所述第二指示信息。上述设计中,通过在测量配置信息中携带第一指示信息以及第二指示信息,第一指示信息以及第二指示信息对于测量配置信息中所有测量对象和/或所有上报配置都有效。
在一种可能的设计中,向所述终端设备发送第一指示信息以及第二指示信息,可以包括:向所述终端设备发送测量配置信息,所述测量配置信息携带第一测量对象的测量参数, 所述第一测量对象的测量参数包括所述第一指示信息以及所述第二指示信息。上述设计中,通过在第一测量对象中携带第一指示信息以及第二指示信息,第一指示信息以及第二指示信息对于第一测量对象有效。
在一种可能的设计中,向所述终端设备发送第一指示信息以及第二指示信息,可以包括:向所述终端设备发送测量配置信息,所述测量配置信息携带第一上报配置的测量参数,所述第一上报配置的测量参数包括所述第一指示信息以及所述第二指示信息。上述设计中,通过在第一上报配置中携带第一指示信息以及第二指示信息,第一指示信息以及第二指示信息对于第一上报配置有效。
在一种可能的设计中,向终端设备发送所述指示信息,可以包括:向所述终端设备发送第三指示信息,所述第三指示信息用于指示清除或者不清除测量报告条目。上述设计中,网络设备通过向终端设备发送一个指示信息来指示是否清除测量报告条目,因此终端设备在重新配置测量配置信息时可以根据需要不清除测量报告条目,从而可以保留测量报告条目中有用的测量报告条目,从而可以避免由于有用的测量报告条目被删除导致重新触发测量上报的情况,从而可以降低有用的测量报告条目被删除导致的终端设备测量上报的信令增加。并且,本申请实施例可以根据需求确定测量报告条目的处理方式,从而可以提高灵活性。
在一种可能的设计中,向所述终端设备发送第三指示信息,可以包括:向所述终端设备发送测量配置信息,所述测量配置信息携带所述第三指示信息。上述设计中,通过在测量配置信息中携带第三指示信息,第三指示信息对于测量配置信息中所有测量对象和/或所有上报配置都有效。
在一种可能的设计中,向所述终端设备发送第三指示信息,可以包括:向所述终端设备发送测量配置信息,所述测量配置信息携带第二测量对象的测量参数,所述第二测量对象的测量参数包括所述第三指示信息。上述设计中,通过在第二测量对象中携带第三指示信息,第三指示信息对于第二测量对象有效。
在一种可能的设计中,向所述终端设备发送第三指示信息,可以包括:向所述终端设备发送测量配置信息,所述测量配置信息携带第二上报配置的测量参数,所述第二上报配置的测量参数包括所述第三指示信息。上述设计中,通过在第二上报配置中携带第三指示信息,第三指示信息对于第二上报配置有效。
在一种可能的设计中,所述方法还可以包括:接收来自所述终端设备的能力信息,所述能力信息用于通知所述终端设备支持在网络设备的指示下对测量报告条目进行处理。上述设计中,网络设备可以根据终端设备发送的能力信息确定终端设备是否支持在网络设备的指示下对测量报告条目进行处理,从而可以在终端设备支持在网络设备的指示下对测量报告条目进行处理时向终端设备发送测量报告条目处理方式的指示信息。
第三方面,本申请提供一种装置,该装置可以是终端设备,也可以是终端设备内的芯片或芯片组、也可以是网络设备,也可以是网络设备内的芯片或芯片组。该装置可以包括处理单元和收发单元。当该装置是终端设备或者网络设备时,该处理单元可以是处理器,该收发单元可以是收发器;该装置还可以包括存储单元,该存储单元可以是存储器;该存储单元用于存储指令,该处理单元执行该存储单元所存储的指令,以使终端设备执行上述第一方面中相应的功能,或者,该处理单元执行该存储单元所存储的指令,以使网络设备执行上述第二方面中相应的功能。当该装置是终端设备内的芯片或芯片组、或者网络设备 内的芯片或芯片组时,该处理单元可以是处理器,该收发单元可以是输入/输出接口、管脚或电路等;该处理单元执行存储单元所存储的指令,以使该终端设备执行上述第一方面中相应的功能,或者,该处理单元执行该存储单元所存储的指令,以使网络设备执行上述第二方面中相应的功能,该存储单元可以是该芯片或芯片组内的存储单元(例如,寄存器、缓存等),也可以是该终端设备内的位于该芯片或芯片组外部的存储单元(例如,只读存储器、随机存取存储器等)。
第四方面,提供了一种装置,包括:处理器、通信接口和存储器。通信接口用于该装置与其他装置之间传输信息、和/或消息、和/或数据。该存储器用于存储计算机执行指令,当该装置运行时,该处理器执行该存储器存储的该计算机执行指令,以使该装置执行如上述第一方面或第一方面中任一所述的测量报告条目处理方法、或者上述第二方面或第二方面中任一所述的测量报告条目处理方法。
第五方面,本申请还提供一种系统,该系统包括上述第一方面的任一实施例中的终端设备,以及上述第二方面的任一实施例中的网络设备。
第六方面,本申请还提供一种计算机可读存储介质,所述计算机可读存储介质中存储有指令,当其在计算机上运行时,使得计算机执行上述各方面所述的方法。
第七方面,本申请还提供一种包括指令的计算机程序产品,当其在计算机上运行时,使得计算机执行上述各方面所述的方法。
附图说明
图1为本申请提供的一种通信系统架构示意图;
图2为本申请提供的一种测量标识示意图;
图3为本申请提供的一种测量上报条目处理方法的流程示意图;
图4为本申请提供的一种测量上报条目处理装置的结构示意图;
图5为本申请提供的一种通信装置的结构示意图。
具体实施方式
为了使本申请的目的、技术方案和优点更加清楚,下面将结合附图对本申请作进一步地详细描述。
本申请提供的测量报告条目处理方法可以应用于通信系统中。该通信系统的架构可以如图1所示,包括网络设备以及终端设备。本申请实施例涉及的通信系统可以是各类通信系统,例如,可以是长期演进(long term evolution,LTE),也可以是第五代(5G)通信系统,也可以为通用地面无线接入(universal terrestrial radio access,UTRA)、演进的UTRA(E-UTRAN)、新无线技术(new radio,NR)、GSM/EDGE无线接入网-电路交换域(GSM EDGE radio access network-circuit switched,GERAN-CS)、GSM/EDGE无线接入网-数据交换域(GSM EDGE radio access network–packet switched,GERAN-PS)、码分多址(code division multiple access,CDMA)2000-1XRTT、和多无线接入技术双连接(Multi-RAT Dual-Connectivity,MR-DC)等,还可以是多种通信系统的混合架构,如LTE与5G混合架构等。
其中,网络设备,可以是普通的基站(如Node B或eNB),可以是新无线控制器(new  radio controller,NR controller),可以是5G系统中的gNode B(gNB),可以是集中式网元(Centralized Unit),可以是新无线基站,可以是射频拉远模块,可以是微基站,可以是中继(relay),可以是分布式网元(Distributed Unit),可以是接收点(transmission reception point,TRP)或传输点(transmission point,TP)或者任何其它无线接入设备,但本申请实施例不限于此。
终端设备102,又称之为用户设备(user equipment,UE),是一种向用户提供语音和/或数据连通性的设备,例如,具有无线连接功能的手持式设备、车载设备等。常见的终端例如包括:手机、平板电脑、笔记本电脑、掌上电脑、移动互联网设备(mobile internet device,MID)、可穿戴设备,例如智能手表、智能手环、计步器等。
移动性管理是无线通信系统中的重要组成部分。根据UE的状态大致上可以分为空闲态(RRC_IDLE state)移动性管理和连接态(RRC_CONNECTED state)移动性管理两部分。在空闲态下,移动性管理主要指的是小区选择/重选(cell selection/reselection)的过程,在连接态下,移动性管理主要指的是小区切换(handover)。不论是小区选择/重选还是切换,都是基于移动性测量的结果进行的。因此移动性测量是移动性管理的基础。
移动性测量的过程为:
步骤1,网络设备向终端设备发送测量配置信息(measConfig)。
步骤2,终端设备基于测量配置信息进行测量,并向网络设备上报测量结果。
其中,测量配置信息中包括测量对象(measurement object,MO)、上报配置(reporting configuration,reportConfig)、测量标识(measurement identity,measId)、测量量配置(quantity configuration)、测量间隔配置等。
其中,测量对象(measurement object,MO):LTE系统中一个MO对应一个频点,测量对象的测量参数包括该频点上测量资源的配置情况,例如该频点上的小区列表等等。在NR系统中,一个MO的测量参数可以包括同步信号/物理广播信道块(synchronization signal block/PBCH block,SSB)对应的测量参数,还可以包括信道状态信息参考信号(channel state information-reference signals,CSI-RS)对应的测量参数。
上报配置:上报配置的测量参数包括参考信号的类型,上报类型,以及上报的格式等等。其中,上报类型包括事件触发上报或者周期性触发上报或小区全球标识(cell global identification,CGI)上报。若上报类型为事件触发上报,则测量参数还包括事件类型、门限值以及满足触发条件的持续时间(time to trigger)等。目前,LTE系统中事件类型有:事件A1,服务小区触发量高于门限值;事件A2,服务小区的触发量低于门限值;事件A3,邻小区触发量在考虑偏移值后好于主小区(primary cell,PCell)/主辅小区(primary secondary cell,PSCell)的触发量;事件A4,邻小区触发量高于门限值;事件A5,服务小区触发量低于第一门限值,且邻小区触发量高于第二门限值;事件A6,邻小区触发量在考虑偏移值后好于辅小区(secondary cell,SCell)触发量。若上报方式为周期性触发上报,则测量参数还包括上报周期以及周期性触发的目的等等。
测量标识:一个测量标识是一个测量对象和一个上报配置的结合。两者结合在一起就确定了对于一个测量对象的测量的各种细节。例如,如图2所示。
测量量配置:终端设备在上报测量结果之前,首先对触发量进行层3滤波。测量量配置指的是层3滤波系数的配置。
测量间隔配置:当测量和数据传输不能同时进行,需要网络为其配置测量间隔。
网络设备在初次向终端设备发送测量配置信息之后,还可以给终端设备配置新的MO,也可以让终端设备重配置当前的MO。具体的,网络设备可以在无线资源控制重配置(RRCReconfiguration)消息中携带测量配置信息(measConfig),measConfig里包含measObjectToAddModList,它由一个或多个MeasObjectToAddMod组成,每个MeasObjectToAddMod里含有一个measObjectId,即MO的ID。如果终端设备中已经有对应该ID的MO,则对该MO进行重配置,否则则添加一个新的MO。
每当终端设备对已有的MO进行重配置时,终端设备都会清除掉与该MO相关联的测量报告条目,并停止相应计时器,以及重置相关信息(如timeToTrigger等)。
网络设备在初次向终端设备发送测量配置信息之后,还可以给终端设备配新的reportConfig,也可以让终端设备重配置当前的reportConfig。网络设备在RRCReconfiguration消息中携带measConfig,measConfig里包含reportConfigToAddModList,它由一个或多个ReportConfigToAddMod组成,每个ReportConfigToAddMod里含有一个reportConfigId,即上报配置的ID。如果终端设备已经有对应该ID的reportConfig,则对该reportConfig进行重配置,反之则添加一个新的reportConfig。
每当终端设备对已有的reportConfig进行重新配置时,终端设备都会清除掉与该reportConfig相关联的测量报告条目,并停止相应计时器,以及重置相关信息(如timeToTrigger等)。
但是,有些场景下希望清除相关联的测量报告条目,而有些场景下并不希望清除相关联的测量报告条目。例如,MO里既有SSB的测量参数又有CSI-RS的测量参数,如果仅重新配置SSB的测量参数,不希望影响到CSI-RS对应的测量报告条目的上报,同样,如果仅重新配置CSI-RS的测量参数,不希望影响到SSB对应的测量报告条目的上报。又例如,同步信号/物理广播信道块测量定时配置(SS/PBCH Block measurement timing configuration,SMTC)定时与SpCell有关,SpCell可以是主小区(primary Cell,PCell)也可以是主辅小区(primary secondary Cell,PSCell)。当切换后SMTC定时发生变化,终端设备对邻区的测量可以继续进行,因此网络设备在重新配置MO里的SMTC配置时,不希望清除测量报告条目。又例如,重新配置MO中某些参数后,即使清除当前测量报告条目的上报,符合条件的小区还是会继续触发,因此这种情况下不希望清除测量上报。
基于此,本申请实施例提供一种测量报告条目处理方法及装置,终端设备可以在网络设备的指示下灵活处理测量报告条目,从而可以保留测量报告条目中有用的测量报告条目。其中,方法和装置是基于同一发明构思的,由于方法及装置解决问题的原理相似,因此装置与方法的实施可以相互参见,重复之处不再赘述。
需要说明的是,本申请实施例中涉及的多个,是指两个或两个以上。“和/或”,描述关联对象的关联关系,表示可以存在三种关系,例如,A和/或B,可以表示:单独存在A,同时存在A和B,单独存在B这三种情况。字符“/”一般表示前后关联对象是一种“或”的关系。同时,应当理解,在本申请实施例的描述中,“第一”、“第二”等词汇,仅用于区分描述的目的,而不能理解为指示或暗示相对重要性,也不能理解为指示或暗示顺序。
本申请实施例中涉及的“清除测量报告条目”与“影响测量报告条目上报”可以理解为相同的执行动作。例如,重新配置某MO的测量参数时“清除测量报告条目”,可以指当重新配置该MO的测量参数清除与该MO相关的测量报告条目。而重新配置某MO的测量参数时“影响测量报告条目上报”,也可以指当重新配置该MO的测量参数清除与该MO 相关的测量报告条目。
在本申请各个实施例中,波束(beam):可以理解为空间资源,可以指具有能量传输指向性的发送或接收预编码向量。并且,该发送或接收预编码向量能够通过索引信息进行标识,所述索引信息可以对应配置终端的资源标识(identity,ID),比如,所述索引信息可以对应配置的CSI-RS的标识或者资源;也可以是对应配置的上行探测参考信号(sounding reference signal,SRS)的标识或者资源。可选地,所述索引信息也可以是通过波束承载的信号或信道显示或隐式承载的索引信息。所述能量传输指向性可以指通过该预编码向量对所需发送的信号进行预编码处理,经过该预编码处理的信号具有一定的空间指向性,接收经过该预编码向量进行预编码处理后的信号具有较好的接收功率,如满足接收解调信噪比等;所述能量传输指向性也可以指通过该预编码向量接收来自不同空间位置发送的相同信号具有不同的接收功率。可选地,同一通信装置(比如终端设备或网络设备)可以有不同的预编码向量,不同的设备也可以有不同的预编码向量,即对应不同的波束。针对通信装置的配置或者能力,一个通信装置在同一时刻可以使用多个不同的预编码向量中的一个或者多个,即同时可以形成一个波束或者多个波束。在本申请中,网络设备向终端设备发送的波束被称为下行波束,终端设备向网络设备发送的波束被称为上行波束。波束的配置可以通过RRC来配置,SSB是通过广播消息发送给UE的,CSI-RS可以通过无线资源控制(radio resource control,RRC)专有信令配置给UE的。其中,SSB和CSI-RS分别会配置两个门限值(rsrp-ThresholdSSB,csirs-Threshold),两个门限值用于UE选择波束,网络侧可以为UE配置基于SSB或者CSI-RS的测量信息,UE测量SSB的参考信号接收功(synchronization signal block reference signal received power,SSB-RSRP)或者CSI的参考信号接收功(channel state information reference signal received power,CSI-RSRP)。当UE的SSB-RSRP信号质量超过SSB的RSRP门限值时,UE就选择对应的SSB下的前导序列(preamble)进行随机接入。
下面结合附图对本申请提供的测量报告条目处理方法进行具体说明。
参见图3,为本申请提供的测量报告条目处理方法的流程图。本申请提供的测量报告条目处理方法可以应用于终端设备,或者芯片,或者芯片组,或者芯片中执行该方法的功能模块等等,下面以终端设备为例进行说明。该方法包括:
S301,终端设备接收来自网络设备的指示信息,所述指示信息用于指示测量报告条目的处理方式。
S302,终端设备基于所述指示信息对测量报告条目进行处理。
其中,测量配置信息中包括测量标识,一个测量标识是一个测量对象和一个上报配置的结合,两者结合在一起就确定了对于一个测量对象的测量的各种细节。如果将一个测量标识关联的测量对象和上报配置看做一个测量任务,则该测量任务的测量结果上报时会携带该测量标识。对于事件触发上报,当有一个或多个小区满足触发条件时,UE会生成一个对应该测量标识的测量报告条目(measurement reporting entry);对于周期性触发上报,当获取到第一个测量结果时,UE会生成一个对应该测量标识的测量报告条目;对于CGI上报,当UE获取到相应小区的相关系统信息或者当UE确定获取不到该相应小区的相关系统信息,UE会生成一个对应该测量标识的测量报告条目。
一种可能的实施方式中,网络设备向终端设备发送的指示信息可以只对当次测量配置有效,即指示信息中可以携带Need N字段。例如,网络设备可以在每次发送的测量配置 信息中携带指示信息,从而终端设备在接收到测量配置信息后可以根据该测量配置信息中携带的指示信息处理相关联的测量报告条目。38.331中的v15.2.1中定义了Need N字段。其中,Need N的含义是无动作,即未维护的一次性配置,Need N指示终端设备进行一次性动作。因此,如果该指示消息携带Need N字段,表示该指示消息只对当次测量配置有效。
另一种可能的实施方式中,网络设备向终端设备发送的指示信息也可以一直有效,直到发送新的指示信息,即该指示信息可以半静态地配置,或者指示信息中可以携带Need M字段。例如,终端设备在接收到指示信息后,在接收到测量配置信息后基于该指示信息处理测量报告条目,直到接收到网络设备重新发送的指示信息。38.331中的v15.2.1中还定义了Need M字段。其中,Need M的含义是维持,即不是一次性的。因此,如果该指示消息携带Need M字段,表示该指示消息一直有效,直到收到新的指示消息。
其中,指示信息也可以设置为可选的(optional),即网络设备可以发送指示信息,也可以不发送指示信息。当网络设备不发送指示信息时终端设备在重新配置测量配置信息时可以清除相关联的测量报告条目。当网络设备发送指示信息时终端设备在重新配置测量配置信息时可以不清除相关联的测量报告条目。或者,当网络设备不发送指示信息时终端设备在重新配置测量配置信息时可以不清除相关联的测量报告条目。当网络设备发送指示信息时终端设备在重新配置测量配置信息时可以清除相关联的测量报告条目。
本申请实施例中网络设备通过向终端设备发送指示信息来指示测量报告条目的处理方式,因此终端设备在重配置测量配置信息时可以保留测量报告条目中有用的测量报告条目。由于测量报告条目中某些测量报告条目删除后相关小区会重新触发测量上报,因此终端设备在网络设备的指示下保留测量报告条目中有用的测量报告条目,可以避免由于有用的测量报告条目被删除导致重新触发测量上报的情况,从而可以降低有用的测量报告条目被删除导致的终端设备测量上报的信令增加。并且,本申请实施例可以根据需求确定测量报告条目的处理方式,从而可以提高灵活性。
本申请实施例中所涉及的指示信息可以占用一个比特位,可以用TRUE指示清除,用FALSE指示不清除。当然也可以用TRUE指示不清除,用FALSE指示清除。可以在该比特位用0表示TRUE,用1表示FALSE。或者,可以在该比特位用1表示TRUE,用0表示FALSE。也可以在携带该指示时表示清除,不携带该指示时表示不清除。或者,也可以在不携带该指示时表示清除,携带该指示时表示不清除。当然,指示信息也可以采用其他形式,这里不做具体限定。为了方便描述,下面以TRUE指示不清除,用FALSE指示清除为例进行说明。
一种实施方式中,终端设备在接收来自网络设备发送的指示信息时,可以通过如下方式实现:终端设备接收来自所述网络设备的第一指示信息以及第二指示信息,所述第一指示信息用于指示清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。
本申请实施例中所涉及的“第一参考信号所对应的测量报告条目”可以指,该测量报告条目对应的测量标识所关联的上报配置中,参考信号类型设置为第一参考信号。同样,“第二参考信号所对应的测量报告条目”可以指,该测量报告条目对应的测量标识所关联的上报配置中,参考信号类型设置为第二参考信号。其中,第一参考信号可以为SSB,第二参考信号可以为CSI-RS。或者,第一参考信号可以为CSI-RS,第二参考信号可以为SSB。或 者,第一参考信号、第二参考信号也可以为其他参考信号,这里不做具体限定。为了方便描述,下面以第一参考信号为SSB,第二参考信号为CSI-RS为例进行说明。若第一参考信号为SSB,则“SSB所对应的测量报告条目”可以指,该测量报告条目对应的测量标识所关联的上报配置中,参考信号类型设置为SSB。若第二参考信号为CSI-RS,则“CSI-RS所对应的测量报告条目”可以指,该测量报告条目对应的测量标识所关联的上报配置中,参考信号类型设置为CSI-RS。
一种实现方式中,网络设备可以在测量配置信息中携带所述第一指示信息以及所述第二指示信息。从而终端设备可以在接收来自所述网络设备的测量配置信息时接收到所述第一指示信息以及所述第二指示信息。其中,网络设备在测量配置信息中携带所述第一指示信息以及所述第二指示信息时,可以携带在measConfig中,也可以携带包括measConfig的RRC重配置(RRCReconfiguration)消息中。
其中,第一指示信息、第二指示信息可以针对measConfig中的MO以及reporting configuration均有效,即当任意一个MO的测量参数重新配置均可以基于第一指示信息、第二指示信息对该MO相关联的测量报告条目进行处理,在任意一个reporting configuration的测量参数重新配置时均可以基于第一指示信息、第二指示信息对该reporting configuration相关联的测量报告条目进行处理。
以所述第一指示信息指示清除SSB所对应的测量报告条目,所述第二指示信息指示不清除CSI-RS所对应的测量报告条目为例,网络设备向终端设备发送measConfig,其中,measConfig中携带第一指示信息以及第二指示信息,还包括MO1的测量参数。measConfig内MO1的测量参数相比于终端设备存储的MO1的测量参数,SSB的测量参数发生变化,因此终端设备在接收到measConfig后基于第一指示信息处理与MO1相关联的各个测量报告条目中参考信号为SSB的测量报告条目,即清除与MO1相关联的各个测量报告条目中参考信号为SSB的测量报告条目,并基于第二指示信息处理与MO1相关联的各个测量报告条目中参考信号为CSI-RS的测量报告条目,即不清除与MO1相关联的各个测量报告条目中参考信号为CSI-RS的测量报告条目。
以所述第一指示信息指示清除SSB所对应的测量报告条目,所述第二指示信息指示不清除CSI-RS所对应的测量报告条目为例,网络设备向终端设备发送measConfig,其中,measConfig中携带第一指示信息以及第二指示信息,还包括reporting configuration1的测量参数。measConfig内reporting configuration1的测量参数相比于终端设备存储的reporting configuration1的测量参数发生变化,因此终端设备在接收到measConfig后,若reporting configuration1中包括的参考信号类型为SSB,则基于第一指示信息处理与reporting configuration1相关联的各个测量报告条目,即清除与reporting configuration1相关联的各个测量报告条目。若reporting configuration1中包括的参考信号类型为CSI-RS,则基于第二指示信息处理与reporting configuration1相关联的各个测量报告条目,即不清除与reporting configuration1相关联的各个测量报告条目。
第一指示信息、第二指示信息也可以只针对measConfig中的MO有效,即当任意一个MO的测量参数重新配置均可以基于第一指示信息、第二指示信息对该MO相关联的测量报告条目进行处理。或者,第一指示信息、第二指示信息也可以只针对measConfig中的reporting configuration有效,即在任意一个reporting configuration的测量参数重新配置时均可以基于第一指示信息、第二指示信息对该reporting configuration相关联的测量报告条目 进行处理。
另一种实现方式中,网络设备可以在测量配置信息的测量对象中携带所述第一指示信息以及所述第二指示信息,测量配置信息的测量对象中除了第一指示信息以及第二指示信息外还可以包括其他参数,这里不再一一列举。从而终端设备可以在接收来自所述网络设备的测量配置信息的测量对象时接收到所述第一指示信息以及所述第二指示信息。第一指示信息、第二指示信息只针对该测量对象有效。因此,当重新配置该测量对象的测量参数时,可以基于所述第一指示信息处理与该测量对象相关联的、且相关联上报配置中参考信号为SSB的测量报告条目,其中,相关联上报配置可以指与测量对象关联的测量标识相关联的上报配置,以图2为例,MO1的相关联上报配置包括上报配置1,MO2的相关联上报配置包括上报配置1和上报配置2,MO4的相关联上报配置包括上报配置4。基于所述第二指示信息处理与该测量对象相关联的、且相关联上报配置中参考信号为CSI-RS的测量报告条目。其中,网络设备在重新配置某MO中SSB对应的测量参数时,可以将第一指示信息设置为FALSE,将第二指示信息设置为TRUE。网络设备在重新配置某MO中CSI-RS对应的测量参数时,可以将第一指示信息设置为TRUE,将第二指示信息设置为FALSE。网络设备在重新配置某MO中SSB以及CSI-RS对应的测量参数时,可以将第一指示信息、第二指示信息均设置为FALSE。
或者,在NR系统中,在时域上,可以发送SSB的位置有多个。而网络设备会在哪个位置开始发送SSB的第一个OS则是网络设备的内部实现,终端设备无法确定。为了避免终端设备无谓的搜索导致的高功耗。NR系统引入了SMTC的概念。SMTC是网络测设备为终端设备配置的一个用于进行SSB测量的窗口。终端设备只需要在SMTC窗内进行SSB测量,而在窗外无需进行SSB测量。由于SMTC定时是基于SpCell,其中SpCell可以是PCell也可以是PSCell。当终端设备从Cell 1切换到Cell 2,终端设备的SMTC定时参考发生了变化。为了继续进行包含SMTC配置的相关测量任务,网络设备可能给UE配置新的SMTC配置。例如,终端设备从Cell 1切换到Cell2,在切换执行过程中,源小区Cell 1给终端设备发送RRCReconfiguration消息,其中携带了测量配置,测量配置包含一个或多个MO的配置,MO配置中可能会携带SMTC。假设其中包含第一MO,网络重新配置了第一MO中的SMTC配置,这时候不希望影响已有的SSB和CSI-RS的测量结果上报。因此,网络设备在重新配置某MO中SMTC参数时,可以将第一指示信息、第二指示信息均设置为TRUE。
或者,当服务小区发生变化,一些与服务小区相关的事件,如事件A1,事件A2,事件A3,事件A5,它们的测量结果上报可以停止。例如,服务小区Cell 1给终端设备配置了第二MO,第二MO关联到事件A3,并且第二MO对应的一个邻区Cell 2触发了事件A3,网络设备决定让终端设备切换到Cell 2。这时若网络设备在重新配置第二MO,可以清除与第二MO相关联的测量报告条目。因此,若网络设备由于终端设备进行小区切换而重新配置MO,可以将该MO中携带的第一指示信息、第二指示信息均设置为FALSE。
或者,当终端设备小区切换或PSCell/SCell添加已经完成,原有的相关邻区触发的周期性上报的事件,如事件A4,A6,可以不用再上报。例如,服务小区Cell 1给终端设备配置了第三MO,第三MO关联到事件A4,并且第三MO对应的一个邻区Cell 2触发了事件A3,网络添加Cell 2为SCell。这时如果网络重新配置第三MO,可以清除与第三MO相关联的测量报告条目。因此,若网络设备由于终端设备进行小区切换或者PSCell/SCell 添加而重新配置MO,可以将该MO中携带的第一指示信息、第二指示信息均设置为FALSE。
或者,当网络设备重新配置MO中的某些参数时,例如,MO中smtc2的某些参数等等,即使停止当前测量结果的上报,符合条件的小区还是会继续触发,这种情况下不希望清除测量上报。例如,网络设备给终端设备配置了第四MO,终端设备基于第四MO和与它关联的多个reportConfig进行测量并得到了一些基于SSB的测量报告条目和基于CSI-RS的测量报告条目。这时如果网络设备需要重新配置第四MO中的某些参数,比如重新配置smtc2的某些参数,而这时smtc2只用于服务小区的测量,邻区测量使用smtc1,因此没必要清除已有测量报告条目。因此,网络设备在重新配置MO的smtc2等参数时,可以将该MO中携带的第一指示信息、第二指示信息均设置为TRUE。
而当网络设备重新配置MO中的consolidation门限等参数时,希望清除相应的测量报告条目。例如,网络设备在重新配置MO中的absThreshSS-BlocksConsolidation时希望终端设备清除SSB相关的测量报告条目,网络设备在重新配置MO中的absThreshCSI-RS-Consolidation时希望终端设备清除CSI-RS相关的测量报告条目。其中,absThreshSS-BlocksConsolidation为SSB波束门限,absThreshCSI-RS-Consolidation为CSI-RS波束门限。因此,网络设备在重新配置某MO中的absThreshSS-BlocksConsolidation参数时,可以将第一指示信息设置为FALSE,将第二指示信息设置为TRUE。网络设备在重新配置某MO中absThreshCSI-RS-Consolidation参数时,可以将第一指示信息设置为TRUE、第二指示信息设置为FALSE。
示例性的,网络设备向终端设备发送measConfig,其中,measConfig包括MO2的测量参数。measConfig内MO2的测量参数相比于终端设备存储的MO2的测量参数,SSB的测量参数发生变化。网络设备可以在MO2中携带第一指示信息以及第二指示信息,其中,第一指示信息可以指示清除SSB所对应的测量报告条目,所述第二指示信息指示不清除CSI-RS所对应的测量报告条目。即可以MO2中携带的第一指示信息设置为FALSE、第二指示信息均设置为TRUE。从而终端设备在接收到measConfig后基于第一指示信息处理与MO2相关联的各个测量报告条目中参考信号为SSB的测量报告条目,即清除与MO2相关联的各个测量报告条目中参考信号为SSB的测量报告条目,并基于第二指示信息处理与MO2相关联的各个测量报告条目中参考信号为CSI-RS的测量报告条目,即不清除与MO2相关联的各个测量报告条目中参考信号为CSI-RS的测量报告条目。
另一种实现方式中,网络设备可以在测量配置信息的上报配置中携带所述第一指示信息以及所述第二指示信息,测量配置信息的上报配置中除了第一指示信息以及第二指示信息外还可以包括其他参数,这里不再一一列举。从而终端设备可以在接收来自所述网络设备的测量配置信息的上报配置时接收到所述第一指示信息以及所述第二指示信息。第一指示信息、第二指示信息只针对该上报配置有效。因此,当重新配置该上报配置的测量参数时,可以基于所述第一指示信息处理与该上报配置相关联的、且相关联上报配置中参考信号为SSB的测量报告条目,基于所述第二指示信息处理与该上报配置相关联的、且相关联上报配置中参考信号为CSI-RS的测量报告条目。
在重新配置reportConfig中的事件门限等参数时,可以清除测量报告条目。因此,网络设备在重新配置reportConfig中的事件门限等参数时,可以将reportConfig中携带的第一指示信息、第二指示信息设置为FALSE。
而网络设备给终端设备发送测量配置信息,在测量配置信息里有一个或多个 reportConfig配置,每个reportConfig里都有指示,来指示当reportConfig参数发生重新配置时是否要清除测量报告条目。
示例性的,网络设备向终端设备发送measConfig,其中,measConfig包括reporting configuration 2的测量参数,reporting configuration 2中携带第一指示信息、第二指示信息。measConfig内reporting configuration 2的测量参数相比于终端设备存储的reporting configuration 2的测量参数发生变化。若reporting configuration 2中参考信号的类型为SSB,终端设备可以根据reporting configuration 2中携带的第一指示信息处理reporting configuration 2相关联的测量报告条目。若第一指示信息指示清除SSB所对应的测量报告条目,则终端设备在接收到measConfig后,基于第一指示信息处理与reporting configuration2相关联的各个测量报告条目,即清除reporting configuration2相关联的各个测量报告条目。若第一指示信息指示不清除SSB所对应的测量报告条目,则终端设备在接收到measConfig后,基于第一指示信息处理与reporting configuration2相关联的各个测量报告条目,即不清除reporting configuration2相关联的各个测量报告条目。同样,若reporting configuration 2中参考信号的类型为CSI-RS,终端设备可以在reporting configuration 2中携带的第二指示信息处理reporting configuration 2相关联的测量报告条目。若第二指示信息指示清除CSI-RS所对应的测量报告条目,则终端设备在接收到measConfig后,基于第二指示信息处理与reporting configuration2相关联的各个测量报告条目,即清除reporting configuration2相关联的各个测量报告条目。若第二指示信息指示不清除CSI-RS所对应的测量报告条目,则终端设备在接收到measConfig后,基于第二指示信息处理与reporting configuration2相关联的各个测量报告条目,即不清除reporting configuration2相关联的各个测量报告条目。
另一种实施方式中,终端设备在接收来自网络设备发送的指示信息时,可以通过如下方式实现:终端设备接收来自所述网络设备的第三指示信息,所述第三指示信息用于指示清除或者不清除测量报告条目。或者,第三指示信息也可以用于指示清除或者不清除参考信号为SSB的测量报告条目。或者,第三指示信息也可以用于指示清除或者不清除参考信号为CSI-RS的测量报告条目。
一种实现方式中,网络设备可以在测量配置信息中携带所述第三指示信息。从而终端设备可以在接收来自所述网络设备的测量配置信息时接收到所述第三指示信息。其中,网络设备在测量配置信息中携带所述第三指示信息时,可以携带在measConfig中,也可以携带包括measConfig的RRCReconfiguration消息中。其中,第三指示信息可以针对measConfig中的MO以及reporting configuration均有效,即当任意一个MO的测量参数重新配置均可以基于第三指示信息对该MO相关联的测量报告条目进行处理,在任意一个reporting configuration的测量参数重新配置时均可以基于第三指示信息对该reporting configuration相关联的测量报告条目进行处理。
以第三指示信息指示清除测量报告条目为例,网络设备向终端设备发送measConfig,其中,measConfig中携带第三指示信息,还包括MO3的测量参数。measConfig内MO3的测量参数相比于终端设备存储的MO3的测量参数发生变化,因此终端设备在接收到measConfig后基于第三指示信息处理与MO3相关联的各个测量报告条目,即清除与MO3相关联的各个测量报告条目。
以第三指示信息指示清除测量报告条目为例,网络设备向终端设备发送measConfig, 其中,measConfig中携带第三指示信息,还包括reporting configuration3的测量参数。measConfig内reporting configuration3的测量参数相比于终端设备存储的reporting configuration3的测量参数发生变化,因此终端设备在接收到measConfig后基于第三指示信息处理与reporting configuration3相关联的各个测量报告条目,即清除与reporting configuration3相关联的各个测量报告条目。
第三指示信息也可以只针对measConfig中的MO有效,即当任意一个MO的测量参数重新配置均可以基于第三指示信息对该MO相关联的测量报告条目进行处理。或者,第三指示信息也可以只针对measConfig中的reporting configuration有效,即在任意一个reporting configuration的测量参数重新配置时均可以基于第三指示信息对该reporting configuration相关联的测量报告条目进行处理。
另一种实现方式中,网络设备可以在测量配置信息的测量对象中携带第三指示信息,测量配置信息的测量对象中除了第三指示信息还可以包括参数,这里不再一一列举。从而终端设备可以在接收来自所述网络设备的测量配置信息的测量对象时接收到第三指示信息。第三指示信息只针对该测量对象有效。因此,当重新配置该测量对象的测量参数时,可以基于第三指示信息处理与该测量对象相关联的测量报告条目。
网络设备若重新配置MO中的SMTC配置,可能不希望影响已有的SSB和CSI-RS的测量结果上报。因此,网络设备可以将该MO中携带的第三指示信息设置为TRUE。
当服务小区发生变化,一些与服务小区相关的事件,如事件A1,事件A2,事件A3,事件A5,它们的测量结果上报可以停止。例如,服务小区Cell 1给终端设备配置了第二MO,第二MO关联到事件A3,并且第二MO对应的一个邻区Cell 2触发了事件A3,网络设备决定让终端设备切换到Cell 2。这时若网络设备在重新配置第二MO,可以清除与第二MO相关联的测量报告条目。因此,若网络设备由于终端设备进行小区切换而重新配置MO,可以将该MO中携带的第三指示信息设置为FALSE。
当终端设备小区切换或PSCell/SCell添加已经完成,原有的相关邻区触发的周期性上报的事件,如事件A4,A6,可以不用再上报。例如,服务小区Cell 1给终端设备配置了第三MO,第三MO关联到事件A4,并且第三MO对应的一个邻区Cell 2触发了事件A3,网络添加Cell 2为SCell。这时如果网络设备重新配置第三MO,可以清除与第三MO相关联的测量报告条目。因此,若网络设备由于终端设备进行小区切换或者PSCell/SCell添加而重新配置MO,可以将该MO中携带的第三指示信息设置为FALSE。
当网络设备重新配置MO中的某些参数时,例如,MO中smtc2的某些参数等等,即使停止当前测量结果的上报,符合条件的小区还是会继续触发,这种情况下可能不希望清除测量上报。例如,网络设备给终端设备配置了第四MO,终端设备基于第四MO和与它关联的多个reportConfig进行测量并得到了一些基于SSB的测量报告条目和基于CSI-RS的测量报告条目。这时如果网络设备需要重新配置第四MO中的某些参数,比如重新配置smtc2的某些参数,而这时smtc2只用于服务小区的测量,邻区测量使用smtc1,因此没必要清除已有测量报告条目。因此,网络设备在重新配置MO的smtc2等参数时,可以将该MO中携带的第一指示信息、第二指示信息均设置为TRUE。
示例性的,网络设备向终端设备发送measConfig,其中,measConfig包括MO4的测量参数。measConfig内MO4的测量参数相比于终端设备存储的MO4的测量参数发生变化。网络设备可以在MO4中携带第三指示信息。若第三指示信息可以指示清除测量报告条目, 则终端设备在接收到measConfig后基于第三指示信息处理与MO4相关联的各个测量报告条目,即清除与MO4相关联的各个测量报告条目。若第三指示信息可以指示不清除测量报告条目,则终端设备在接收到measConfig后基于第三指示信息处理与MO4相关联的各个测量报告条目,即不清除与MO4相关联的各个测量报告条目。
另一种实现方式中,网络设备可以在测量配置信息的上报配置中携带第三指示信息,测量配置信息的上报配置中除了第三指示信息还可以包括参数,这里不再一一列举。从而终端设备可以在接收来自所述网络设备的测量配置信息的上报配置时接收到第三指示信息。第三指示信息只针对该上报配置有效。因此,当重新配置该上报配置的测量参数时,可以基于第三指示信息处理与该上报配置相关联的测量报告条目。
网络设备若希望保留参考信号为CSI-RS的测量报告条目,则在重新配置参考信号为CSI-RS的reporting configuration中某些测量参数时,则可以将该reporting configuration中携带的第三指示信息设置为TRUE,若不希望保留参考信号为CSI-RS的测量报告条目,则在重新配置参考信号为CSI-RS的reporting configuration中某些测量参数时,则可以将该reporting configuration中携带的第三指示信息设置为FALSE。同样,网络设备若希望保留参考信号为SSB的测量报告条目,则在重新配置参考信号为SSB的reporting configuration中某些测量参数时,则可以将该reporting configuration中携带的第三指示信息设置为TRUE,若不希望保留参考信号为SSB的测量报告条目,则在重新配置参考信号为SSB的reporting configuration中某些测量参数时,则可以将该reporting configuration中携带的第三指示信息设置为FALSE。
终端设备在重新配置reportConfig中的事件门限等参数时,可以清除测量报告条目。因此,网络设备在重新配置reportConfig中的事件门限等参数时,可以将reportConfig中携带的第三指示信息设置为FALSE。
示例性的,网络设备向终端设备发送measConfig,其中,measConfig包括reporting configuration 4的测量参数。measConfig内reporting configuration 4的测量参数相比于终端设备存储的reporting configuration 4的测量参数发生变化。网络设备可以在reporting configuration 4中携带第三指示信息。若第三指示信息指示清除测量报告条目,则终端设备在接收到measConfig后,基于第三指示信息处理与reporting configuration4相关联的各个测量报告条目,即清除reporting configuration4相关联的各个测量报告条目。若第三指示信息指示不清除测量报告条目,则终端设备在接收到measConfig后,基于第三指示信息处理与reporting configuration4相关联的各个测量报告条目,即不清除reporting configuration4相关联的各个测量报告条目。
本申请实施例中,终端设备在清除测量报告条目时,还可以停止与所述测量报告条目所关联的测量标识相关的定时器,如定期报告定时器(Periodical reporting timer)、T321等等。终端设备在清除测量报告条目时还可以重置与所述测量报告条目所关联的测量标识相关的参数,如事件触发持续时间(timeToTrigger)等等。
终端设备可以向网络设备上报能力信息,所述能力信息用于通知所述网络设备终端设备是否支持在网络设备的指示下对测量报告条目进行处理。示例性的,网络设备通过终端能力请求(UECapabilityEnquiry)消息来请求终端设备进行能力上报,终端设备可以通过终端设备能力信息(UECapabilityInformation)消息来上报自己的能力信息。
另一种可能的实施方式中,终端设备在接收测量配置信息时也可以根据预设规则处理 测量报告条目。
一种示例,预设规则可以为终端设备在重新配置特定参数时清除测量报告条目。从而终端设备在接收到来自网络设备的测量配置信息时,可以判断是否需要重新配置特定参数,如需要,则清除测量报告条目的上报,反之,则不清除测量报告条目的上报。例如,可以预先规定reportConfig中的事件门限影响测量报告条目的上报。终端设备接收到来自网络设备的测量配置信息,测量配置信息中包括reporting configuration 5,而测量配置信息中reporting configuration 5的测量参数相比于终端设备存储的reporting configuration 5的测量参数,事件门限发生变化,即终端设备需要重新配置reporting configuration 5的事件门限。终端设备可以根据预设规则清除reporting configuration 5相关联的各个测量报告条目。
另一种示例,还可以预先规定重新配置哪些参数时会影响参考信号为CSI-RS的测量报告条目,也可以预先规定重新配置哪些参数时会影响参考信号为SSB的测量报告条目。即预设规则还可以为终端设备在重新配置第一特定参数时清除参考信号为CSI-RS的测量报告条目,和/或,终端设备在重新配置第二特定参数时清除参考信号为SSB的测量报告条目。例如,可以预先规定MO中的absThreshSS-BlocksConsolidation门限影响参考信号为SSB的测量报告条目。终端设备接收到来自网络设备的测量配置信息,测量配置信息中包括MO5,而测量配置信息中MO5的测量参数相比于终端设备存储的MO5的测量参数,absThreshSS-BlocksConsolidation发生变化,即终端设备需要重新配置MO5的absThreshSS-BlocksConsolidation。终端设备根据预设规则可以清除MO5相关联的各个测量报告条目中参考信号为SSB的测量报告条目。
另一种示例,预设规则可以为终端设备在重新配置某些特定参数时不清除测量报告条目。从而终端设备在接收到来自网络设备的测量配置信息时,可以判断是否需要重新配置特定参数,如需要,则不清除测量报告条目的上报,反之,则清除测量报告条目的上报。例如,可以预先规定MO中SMTC参数不影响测量报告条目。终端设备接收到来自网络设备的测量配置信息,测量配置信息中包括MO6,而测量配置信息中MO6的测量参数相比于终端设备存储的MO6的测量参数,SMTC发生变化,即终端设备需要重新配置MO6的SMTC。终端设备根据预设规则可以不清除MO6相关联的各个测量报告条目。
另一种示例,还可以预先规定重新配置哪些参数时不影响参考信号为CSI-RS的测量报告条目,也可以预先规定重新配置哪些参数时不影响参考信号为SSB的测量报告条目。即预设规则还可以为终端设备在重新配置第三特定参数时不清除参考信号为CSI-RS的测量报告条目,和/或,终端设备在重新配置第四特定参数时不清除参考信号为SSB的测量报告条目。例如,可以预先规定MO中的absThreshSS-BlocksConsolidation门限不影响参考信号为CSI-RS的测量报告条目。终端设备接收到来自网络设备的测量配置信息,测量配置信息中包括MO5,而测量配置信息中MO5的测量参数相比于终端设备存储的MO5的测量参数,absThreshSS-BlocksConsolidation发生变化,即终端设备需要重新配置MO5的absThreshSS-BlocksConsolidation。终端设备根据预设规则可以不清除MO5相关联的各个测量报告条目中参考信号为CSI-RS的测量报告条目。
进一步的,预设规则中还可以规定一些特定场景,从而终端设备可以在处于这些特定场景中时基于上述预设规则处理测量报告条目。
NR系统中,SMTC的定时是以SpCell为参考。在小区切换,重定向(Redirection),重建立(Reestablishment)等场景时,SpCell可能会发生改变,导致SMTC配置可能发生 变化,使得终端设备在该SMTC窗口中可能无法监测到目标小区的SSB,从而导致终端设备无法与目标小区进行同步或者无法准确进行测量。
针对这个问题,本申请实施例中,当终端设备的SpCell发生变化时,网络设备可以将定时偏差信息发送给终端设备,终端设备可以根据该定时偏差信息来重新配置现有的所有SMTC配置。进一步的,终端设备重新配置完SMTC配置后,可以将新的配置发送给网络设备。其中,若源小区和目标小区同步,则终端设备可以不需要重新配置SMTC信息。所述定时偏差信息可以是系统帧号和帧定时偏差(SFN and frame timing difference,SFTD)。下面以定时偏差信息为SFTD为例进行说明。
一种实现方式中,当终端设备的服务小区由源小区变成目标小区时,终端设备可以基于源小区和目标小区之间的SFTD来重新配置相关的SMTC配置。其中,源小区和目标小区之间的SFTD可以由源小区或者目标小区发送给终端设备。
示例性的,假设终端设备的服务小区为源小区A时,SMTC的窗口的偏移量为L,假设目标小区B和源小区A的定时偏差为△T,则根据目标小区B和源小区A的定时偏差△T,计算得到的SMTC的窗口的偏移量为L+△T。本申请实施例通过网络设备向终端设备发送SFTD,使得终端设备可以在服务小区发生变化时重新配置SMTC信息,从而可以解决服务小区发生变化时SMTC定时参考变化导致原SMTC配置不再适用的问题。
在小区切换,Redirection,Reestablishment等场景时,终端设备需要与一个新的小区进行同步,当前的服务小区会给终端设备发送一个SMTC配置,例如在HO和添加PSCell/SCell场景中网络设备可以通过RRCReconfiguration消息里发给终端设备,在Redirection场景中网络设备可以通过RRCRelease消息里发给终端设备,以使终端设备与新小区进行同步。但是SSB的发送周期不固定,可能很长,而当前服务小区给终端设备发送的SMTC配置指示的就是目标小区的发送SSB的时域时间,因此在SMTC窗口中无法监测邻区的SSB,从而导致无法与邻小区进行同步。此外,网络设备发送给UE的SMTC定时可能并不准确,具体来说,SMTC配置中的offset可能并不准确。例如,基站基于自己和邻基站的SFTD来计算SMTC的offset,然而若邻基站进行了重启,两个基站之间的SFTD发生了变化。在这种情况下,终端设备在当前服务小区所发送SMTC配置对应的SMTC窗口中可能无法监测邻基站的SSB,从而导致无法与邻小区进行同步。
针对这个问题,本申请实施例中,终端设备接收到来自网络设备的SMTC配置后,可以从SMTC窗口的起始开始监测目标小区的SSB。若终端设备在整个SMTC窗内没有接收到目标小区的SSB,则终端设备可以在SS burst周期内继续监测目标小区的SSB。若在SS burst周期内没有接收到目标小区的SSB,则终端设备停止监测并确定同步失败,若在SS burst周期内接收到目标小区的SSB,则终端设备基于接收到SSB与目标小区进行同步。其中SS burst周期可以是服务小区单独发给终端设备的目标小区的SS burst周期。或者,SS burst周期也可以是SMTC配置中的周期,即SMTC配置中的周期也可以理解为是服务小区发给UE的目标小区的SS burst周期。
本申请实施例中终端设备不会只在SMTC窗内同步,而是至少监测一个SS burst周期,即,如果监测完整个SMTC窗都没有同步上,终端设备还是会继续同步,直到监测完一整个SS burst周期都没同步成功才确定同步失败,在此期间如果同步成功,则停止监测。通过延长监测时长的方式,可以提高接收到目标小区的SSB的概率,从而在一定程度上可以避免因网络设备发给终端设备的SMTC配置不准确导致的,SpCell无法与目标小区进行同 步的问题。
本申请实施例所涉及的各种实现方式、实施方式可以单独使用,也可以组合使用,例如,网络设备向终端设备发送测量配置信息时,可以在MO中携带第一指示信息以及第二指示信息,在上报配置中携带第三指示信息等等。
基于与方法实施例的同一发明构思,本申请实施例提供一种测量报告条目处理装置。该测量报告条目处理装置的结构可以如图4所示,包括接收模块401、处理模块402、以及发送模块403。
一种具体实施方式中,测量报告条目处理装置具体可以用于实现图3所述的实施例中终端设备执行的方法,该装置可以是终端设备本身,也可以是终端设备中的芯片或芯片组或芯片中用于执行相关方法功能的一部分。其中,接收模块401,用于接收来自网络设备的指示信息,所述指示信息用于指示测量报告条目的处理方式。处理模块402,用于基于所述接收模块401接收的所述指示信息对测量报告条目进行处理。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的第一指示信息以及第二指示信息,所述第一指示信息用于指示清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的测量配置信息,所述测量配置信息携带所述第一指示信息以及所述第二指示信息。
示例性的,具体用于:在重新配置任一测量对象和/或任一上报配置的测量参数时,基于所述第一指示信息处理与所述任一测量对象相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,和/或与所述任一上报配置相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目;以及,基于所述第二指示信息处理与所述任一测量对象相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目,和/或与所述任一上报配置相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第一测量对象的测量参数,所述第一测量对象的测量参数包括所述第一指示信息以及所述第二指示信息。
示例性的,所述处理模块402,可以具体用于:在重新配置所述第一测量对象的测量参数时,基于所述第一指示信息处理与所述第一测量对象相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,基于所述第二指示信息处理与所述第一测量对象相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第一上报配置的测量参数,所述第一上报配置的测量参数包括所述第一指示信息以及所述第二指示信息。
示例性的,所述处理模块402,可以具体用于:在重新配置所述第一上报配置的测量参数时,基于所述第一指示信息处理与所述第一上报配置相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,基于所述第二指示信息处理与所述第一上报配置相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的第三指示信 息,所述第三指示信息用于指示清除或者不清除测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的测量配置信息,所述测量配置信息携带所述第三指示信息。
示例性的,所述处理模块402,可以具体用于:
在重新配置任一测量对象和/或任一上报配置的测量参数时,基于所述第三指示信息处理与所述任一测量对象相关联的测量报告条目和/或与所述任一上报配置相关联的测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第二测量对象的测量参数,所述第二测量对象的测量参数包括所述第三指示信息。
示例性的,所述处理模块402,可以具体用于:在重新配置所述第二测量对象的测量参数时,基于所述第三指示信息处理与所述第二测量对象相关联的测量报告条目。
示例性的,所述接收模块401,可以具体用于:接收来自所述网络设备的测量配置信息,所述测量配置信息携带第二上报配置的测量参数,所述第二上报配置的测量参数包括所述第三指示信息。
示例性的,所述处理模块402,可以具体用于:在重新配置所述第二上报配置的测量参数时,基于所述第三指示信息处理与所述第二上报配置相关联的测量报告条目。
示例性的,所述处理模块402,还可以用于:在清除测量报告条目时停止与所述测量报告条目所关联的测量标识相关的定时器,并重置与所述测量报告条目所关联的测量标识相关的参数。
示例性的,所述发送模块403,可以用于:向所述网络设备上报能力信息,所述能力信息用于通知所述网络设备终端设备支持在网络设备的指示下对测量报告条目进行处理。
另一种具体实施方式中,测量报告条目处理装置具体可以用于实现图3所述的实施例中网络设备执行的方法,该设备可以是网络设备本身,也可以是网络设备中的芯片或芯片组或芯片中用于执行相关方法功能的一部分。其中,处理模块402,用于确定指示信息,所述指示信息用于指示测量报告条目的处理方式;发送模块403,用于向终端设备发送所述指示信息。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送第一指示信息以及第二指示信息,所述第一指示信息用于指示所述终端设备清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送测量配置信息,所述测量配置信息携带所述第一指示信息以及所述第二指示信息。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送测量配置信息,所述测量配置信息携带第一测量对象的测量参数,所述第一测量对象的测量参数包括所述第一指示信息以及所述第二指示信息。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送测量配置信息,所述测量配置信息携带第一上报配置的测量参数,所述第一上报配置的测量参数包括所述第一指示信息以及所述第二指示信息。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送第三指示信息, 所述第三指示信息用于指示清除或者不清除测量报告条目。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送测量配置信息,所述测量配置信息携带所述第三指示信息。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送测量配置信息,所述测量配置信息携带第二测量对象的测量参数,所述第二测量对象的测量参数包括所述第三指示信息。
示例性的,所述发送模块403,可以具体用于:向所述终端设备发送测量配置信息,所述测量配置信息携带第二上报配置的测量参数,所述第二上报配置的测量参数包括所述第三指示信息。
示例性的,所述接收模块401,可以用于接收来自所述终端设备的能力信息,所述能力信息用于通知所述终端设备支持在网络设备的指示下对测量报告条目进行处理。
本申请实施例中对模块的划分是示意性的,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,另外,在本申请各个实施例中的各功能模块可以集成在一个处理器中,也可以是单独物理存在,也可以两个或两个以上模块集成在一个模块中。上述集成的模块既可以采用硬件的形式实现,也可以采用软件功能模块的形式实现。可以理解的是,本申请实施例中各个模块的功能或者实现可以进一步参考方法实施例的相关描述。
一种可能的方式中,通信装置可以如图5所示,该通信装置可以是终端设备或者终端设备中的芯片、或者可以是网络或者网络中的芯片。该通信装置可以包括处理器501,通信接口502,存储器503。其中,处理模块402可以为处理器501。接收模块401以及发送模块403可以为通信接口502。
处理器501,可以是一个中央处理模块(central processing unit,CPU),或者为数字处理模块等等。通信接口502可以是收发器、也可以为接口电路如收发电路等、也可以为收发芯片等等。该通信装置还包括:存储器503,用于存储处理器502执行的程序。存储器503可以是非易失性存储器,比如硬盘(hard disk drive,HDD)或固态硬盘(solid-state drive,SSD)等,还可以是易失性存储器(volatile memory),例如随机存取存储器(random-access memory,RAM)。存储器503是能够用于携带或存储具有指令或数据结构形式的期望的程序代码并能够由计算机存取的任何其他介质,但不限于此。
处理器501用于执行存储器503存储的程序代码,具体用于执行上述处理模块402的动作,本申请在此不再赘述。
本申请实施例中不限定上述通信接口501、处理器502以及存储器503之间的具体连接介质。本申请实施例在图5中以存储器503、处理器502以及通信接口501之间通过总线504连接,总线在图5中以粗线表示,其它部件之间的连接方式,仅是进行示意性说明,并不引以为限。所述总线可以分为地址总线、数据总线、控制总线等。为便于表示,图5中仅用一条粗线表示,但并不表示仅有一根总线或一种类型的总线。
本发明实施例还提供了一种计算机可读存储介质,用于存储为执行上述处理器所需执行的计算机软件指令,其包含用于执行上述处理器所需执行的程序。
在上述实施例中,可以全部或部分地通过软件、硬件、固件或者其任意组合来实现。当使用软件实现时,可以全部或部分地以计算机程序产品的形式实现。所述计算机程序产品包括一个或多个计算机指令。在计算机上加载和执行所述计算机程序指令时,全部或部分地产生按照本申请实施例所述的流程或功能。所述计算机可以是通用计算机、专用计算 机、计算机网络、或者其他可编程装置。所述计算机指令可以存储在计算机可读存储介质中,或者从一个计算机可读存储介质向另一个计算机可读存储介质传输,例如,所述计算机指令可以从一个网站站点、计算机、服务器或数据中心通过有线(例如同轴电缆、光纤、数字用户线(DSL))或无线(例如红外、无线、微波等)方式向另一个网站站点、计算机、服务器或数据中心进行传输。所述计算机可读存储介质可以是计算机能够存取的任何可用介质或者是包括一个或多个可用介质集成的服务器、数据中心等数据存储设备。所述可用介质可以是磁性介质,(例如,软盘、硬盘、磁带)、光介质(例如,DVD)、或者半导体介质(例如固态硬盘(Solid State Disk,SSD))等。
本申请是参照根据本申请的方法、设备(系统)、和计算机程序产品的流程图和/或方框图来描述的。应理解可由计算机程序指令实现流程图和/或方框图中的每一流程和/或方框、以及流程图和/或方框图中的流程和/或方框的结合。可提供这些计算机程序指令到通用计算机、专用计算机、嵌入式处理机或其他可编程数据处理设备的处理器以产生一个机器,使得通过计算机或其他可编程数据处理设备的处理器执行的指令产生用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的装置。
这些计算机程序指令也可存储在能引导计算机或其他可编程数据处理设备以特定方式工作的计算机可读存储器中,使得存储在该计算机可读存储器中的指令产生包括指令装置的制造品,该指令装置实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能。
这些计算机程序指令也可装载到计算机或其他可编程数据处理设备上,使得在计算机或其他可编程设备上执行一系列操作步骤以产生计算机实现的处理,从而在计算机或其他可编程设备上执行的指令提供用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的步骤。
显然,本领域的技术人员可以对本申请进行各种改动和变型而不脱离本申请的精神和范围。这样,倘若本申请的这些修改和变型属于本申请权利要求及其等同技术的范围之内,则本申请也意图包含这些改动和变型在内。

Claims (29)

  1. 一种测量报告条目处理方法,其特征在于,所述方法包括:
    接收来自网络设备的指示信息,所述指示信息用于指示测量报告条目的处理方式;
    基于所述指示信息对测量报告条目进行处理。
  2. 如权利要求1所述的方法,其特征在于,所述接收来自网络设备的指示信息,包括:
    接收来自所述网络设备的第一指示信息以及第二指示信息,所述第一指示信息用于指示清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。
  3. 如权利要求2所述的方法,其特征在于,所述接收来自所述网络设备的第一指示信息以及第二指示信息,包括:
    接收来自所述网络设备的测量配置信息,所述测量配置信息携带所述第一指示信息以及所述第二指示信息。
  4. 如权利要求3所述的方法,其特征在于,所述基于所述指示信息对测量报告条目进行处理,包括:
    在重新配置任一测量对象和/或任一上报配置的测量参数时,基于所述第一指示信息处理与所述任一测量对象相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,和/或与所述任一上报配置相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目;以及,
    基于所述第二指示信息处理与所述任一测量对象相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目,和/或与所述任一上报配置相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目。
  5. 如权利要求2所述的方法,其特征在于,所述接收来自所述网络设备的第一指示信息以及第二指示信息,包括:
    接收来自所述网络设备的测量配置信息,所述测量配置信息携带第一测量对象的测量参数,所述第一测量对象的测量参数包括所述第一指示信息以及所述第二指示信息。
  6. 如权利要求5所述的方法,其特征在于,所述基于所述指示信息对测量报告条目进行处理,包括:
    在重新配置所述第一测量对象的测量参数时,基于所述第一指示信息处理与所述第一测量对象相关联的、且相关联上报配置中参考信号为所述第一参考信号的测量报告条目,基于所述第二指示信息处理与所述第一测量对象相关联的、且相关联上报配置中参考信号为所述第二参考信号的测量报告条目。
  7. 如权利要求2所述的方法,其特征在于,所述接收来自所述网络设备的第一指示 信息以及第二指示信息,包括:
    接收来自所述网络设备的测量配置信息,所述测量配置信息携带第一上报配置的测量参数,所述第一上报配置的测量参数包括所述第一指示信息以及所述第二指示信息。
  8. 如权利要求7所述的方法,其特征在于,所述基于所述指示信息对测量报告条目进行处理,包括:
    在重新配置所述第一上报配置的测量参数时,若所述第一上报配置的参考信号类型为所述第一参考信号,则基于所述第一指示信息处理与所述第一上报配置相关联的测量报告条目;若所述第一上报配置的参考信号类型为所述第二参考信号,则基于所述第二指示信息处理与所述第一上报配置相关联的测量报告条目。
  9. 如权利要求1所述的方法,其特征在于,所述接收来自网络设备的指示信息,包括:
    接收来自所述网络设备的第三指示信息,所述第三指示信息用于指示清除或者不清除测量报告条目。
  10. 如权利要求9所述的方法,其特征在于,所述接收来自所述网络设备的第三指示信息,包括:
    接收来自所述网络设备的测量配置信息,所述测量配置信息携带所述第三指示信息。
  11. 如权利要求10所述的方法,其特征在于,所述基于所述指示信息对测量报告条目进行处理,包括:
    在重新配置任一测量对象和/或任一上报配置的测量参数时,基于所述第三指示信息处理与所述任一测量对象相关联的测量报告条目和/或与所述任一上报配置相关联的测量报告条目。
  12. 如权利要求9所述的方法,其特征在于,所述接收来自所述网络设备的第三指示信息,包括:
    接收来自所述网络设备的测量配置信息,所述测量配置信息携带第二测量对象的测量参数,所述第二测量对象的测量参数包括所述第三指示信息。
  13. 如权利要求12所述的方法,其特征在于,基于所述指示信息对测量报告条目进行处理,包括:
    在重新配置所述第二测量对象的测量参数时,基于所述第三指示信息处理与所述第二测量对象相关联的测量报告条目。
  14. 如权利要求9所述的方法,其特征在于,所述接收来自所述网络设备的第三指示信息,包括:
    接收来自所述网络设备的测量配置信息,所述测量配置信息携带第二上报配置的测量参数,所述第二上报配置的测量参数包括所述第三指示信息。
  15. 如权利要求14所述的方法,其特征在于,基于所述指示信息对测量报告条目进行处理,包括:
    在重新配置所述第二上报配置的测量参数时,基于所述第三指示信息处理与所述第二上报配置相关联的测量报告条目。
  16. 如权利要求1至15任一项所述的方法,其特征在于,所述方法还包括:
    在清除测量报告条目时停止与所述测量报告条目所关联的测量标识相关的定时器,并重置与所述测量报告条目所关联的测量标识相关的参数。
  17. 如权利要求1至16任一项所述的方法,其特征在于,所述方法还包括:
    向所述网络设备上报能力信息,所述能力信息用于通知所述网络设备终端设备支持在网络设备的指示下对测量报告条目进行处理。
  18. 一种测量报告条目处理方法,其特征在于,所述方法包括:
    确定指示信息,所述指示信息用于指示测量报告条目的处理方式;
    向终端设备发送所述指示信息。
  19. 如权利要求18所述的方法,其特征在于,向终端设备发送所述指示信息,包括:
    向所述终端设备发送第一指示信息以及第二指示信息,所述第一指示信息用于指示所述终端设备清除或者不清除第一参考信号所对应的测量报告条目;所述第二指示信息用于指示清除或者不清除第二参考信号所对应的测量报告条目。
  20. 如权利要求19所述的方法,其特征在于,向所述终端设备发送第一指示信息以及第二指示信息,包括:
    向所述终端设备发送测量配置信息,所述测量配置信息携带所述第一指示信息以及所述第二指示信息。
  21. 如权利要求19所述的方法,其特征在于,向所述终端设备发送第一指示信息以及第二指示信息,包括:
    向所述终端设备发送测量配置信息,所述测量配置信息携带第一测量对象的测量参数,所述第一测量对象的测量参数包括所述第一指示信息以及所述第二指示信息。
  22. 如权利要求19所述的方法,其特征在于,向所述终端设备发送第一指示信息以及第二指示信息,包括:
    向所述终端设备发送测量配置信息,所述测量配置信息携带第一上报配置的测量参数,所述第一上报配置的测量参数包括所述第一指示信息以及所述第二指示信息。
  23. 如权利要求18所述的方法,其特征在于,向终端设备发送所述指示信息,包括:
    向所述终端设备发送第三指示信息,所述第三指示信息用于指示清除或者不清除测量 报告条目。
  24. 如权利要求23所述的方法,其特征在于,向所述终端设备发送第三指示信息,包括:
    向所述终端设备发送测量配置信息,所述测量配置信息携带所述第三指示信息。
  25. 如权利要求23所述的方法,其特征在于,向所述终端设备发送第三指示信息,包括:
    向所述终端设备发送测量配置信息,所述测量配置信息携带第二测量对象的测量参数,所述第二测量对象的测量参数包括所述第三指示信息。
  26. 如权利要求23所述的方法,其特征在于,向所述终端设备发送第三指示信息,包括:
    向所述终端设备发送测量配置信息,所述测量配置信息携带第二上报配置的测量参数,所述第二上报配置的测量参数包括所述第三指示信息。
  27. 如权利要求18至26任一项所述的方法,其特征在于,所述方法还包括:
    接收来自所述终端设备的能力信息,所述能力信息用于通知所述终端设备支持在网络设备的指示下对测量报告条目进行处理。
  28. 一种测量报告条目处理装置,其特征在于,所述装置包括用于实现如权利要求1-17任一项所述的方法的模块;或者,所述装置包括用于实现如权利要求18-27任一项所述的方法的模块。
  29. 一种计算机可读存储介质,其特征在于,所述计算机可读存储介质中存储程序,所述程序在被一个或多个处理器读取并执行时可实现权利要求1至17任一项所述的方法;或者,所述程序在被一个或多个处理器读取并执行时可实现权利要求18至27任一项所述的方法。
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