WO2022044908A1 - 端末及び無線通信システム - Google Patents

端末及び無線通信システム Download PDF

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Publication number
WO2022044908A1
WO2022044908A1 PCT/JP2021/030152 JP2021030152W WO2022044908A1 WO 2022044908 A1 WO2022044908 A1 WO 2022044908A1 JP 2021030152 W JP2021030152 W JP 2021030152W WO 2022044908 A1 WO2022044908 A1 WO 2022044908A1
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WIPO (PCT)
Prior art keywords
handover
report
base station
wireless communication
transmits
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PCT/JP2021/030152
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English (en)
French (fr)
Japanese (ja)
Inventor
天楊 閔
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NTT Docomo Inc
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NTT Docomo Inc
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Priority to CN202180052599.1A priority Critical patent/CN115989693A/zh
Priority to EP21861336.2A priority patent/EP4207865A4/en
Priority to JP2022544491A priority patent/JP7743416B2/ja
Publication of WO2022044908A1 publication Critical patent/WO2022044908A1/ja
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/08Testing, supervising or monitoring using real traffic
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0055Transmission or use of information for re-establishing the radio link
    • H04W36/0058Transmission of hand-off measurement information, e.g. measurement reports
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0083Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
    • H04W36/00833Handover statistics
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/08Reselecting an access point
    • 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
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0083Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
    • H04W36/0085Hand-off measurements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/24Reselection being triggered by specific parameters
    • H04W36/30Reselection being triggered by specific parameters by measured or perceived connection quality data

Definitions

  • the present invention relates to a terminal for transmitting a report on handover and a wireless communication system.
  • the 3rd Generation Partnership Project (3GPP) specifies the 5th generation mobile communication system (also called 5G, New Radio (NR) or Next Generation (NG)), and next-generation specifications called Beyond 5G, 5G Evolution or 6G. We are also proceeding with the conversion.
  • 5G New Radio
  • NG Next Generation
  • Non-Patent Document 1 For example, expansion regarding data collection for Self-Organizing Networks (SON) and Minimization of Drive Tests (MDT) is being considered (Non-Patent Document 1).
  • the terminal (User Equipment, UE) transmits to the handover destination radio base station (which may be called a target base station, target cell, etc.), and then the handover source It includes reports on handovers (specifically, Successful Handovers Reports) transmitted to radio base stations (which may also be referred to as source base stations, source cells, etc.).
  • the handover destination radio base station which may be called a target base station, target cell, etc.
  • the handover source It includes reports on handovers (specifically, Successful Handovers Reports) transmitted to radio base stations (which may also be referred to as source base stations, source cells, etc.).
  • the following disclosure is made in view of such a situation, and an object thereof is to provide a terminal and a wireless communication system capable of transmitting a report on effective handover.
  • One aspect of the present disclosure includes a transmission unit (handover reporting unit 230) that transmits a report regarding the handover to the target base station, and the transmission unit is an identifier of the cell of the handover destination and a radio link in the source base station.
  • a terminal (UE200) that transmits the report, including at least one of the monitoring settings, the monitoring results, and the handover settings.
  • One aspect of the present disclosure includes a transmission unit (handover reporting unit 230) that transmits a report on the handover to the target base station, and the transmission unit receives the setting related to the measurement, satisfies the handover condition, and performs the measurement report.
  • a terminal (UE200) that transmits the report when a transmission or a handover instruction is received.
  • One aspect of the present disclosure includes a transmission unit (handover reporting unit 230) that transmits a report regarding the handover to the target base station, and the transmission unit is a result of monitoring the wireless link, the operating status of the timer, or the handover. It is a terminal (UE200) that transmits the report when the radio quality in the medium exceeds a specific threshold.
  • a transmission unit (handover reporting unit 230) that transmits a report regarding the handover to the target base station, and the transmission unit is a result of monitoring the wireless link, the operating status of the timer, or the handover.
  • It is a terminal (UE200) that transmits the report when the radio quality in the medium exceeds a specific threshold.
  • FIG. 1 is an overall schematic configuration diagram of the wireless communication system 10.
  • FIG. 2 is a functional block configuration diagram of the UE 200.
  • FIG. 3 is a functional block configuration diagram of gNB100B.
  • FIG. 4 is a diagram showing a sequence example of reports regarding handover (Successful Handovers Reports).
  • FIG. 5A is an example (No. 1) of the contents of the Successful handover Report.
  • FIG. 5B is an example (No. 2) of the contents of the Successful handover Report.
  • FIG. 5C is an example (No. 3) of the contents of the Successful handover Report.
  • FIG. 6 is a diagram showing a compile operation flow of Successful handover Report by UE200.
  • FIG. 7 is a diagram showing a transmission operation flow of a Successful handover Report by the UE 200.
  • FIG. 8 is an example of a Successful handover Report that may be additionally included in the case of MN / SN initiated PS Cell change.
  • FIG. 9 is a diagram showing an example of the hardware configuration of gNB100A, gNB100B and UE200.
  • FIG. 1 is an overall schematic configuration diagram of the wireless communication system 10 according to the present embodiment.
  • the wireless communication system 10 is a wireless communication system according to 5G New Radio (NR), and includes the Next Generation-Radio Access Network 20 (hereinafter, NG-RAN20, and the user terminal 200 (hereinafter, UE200)). ..
  • NR 5G New Radio
  • NG-RAN20 Next Generation-Radio Access Network
  • UE200 user terminal 200
  • the wireless communication system 10 may be a wireless communication system according to a method called Beyond 5G, 5G Evolution or 6G.
  • NG-RAN20 includes a radio base station 100A (hereinafter, gNB100A) and a radio base station 100B (hereinafter, gNB100B).
  • gNB100A radio base station 100A
  • gNB100B radio base station 100B
  • the specific configuration of the wireless communication system 10 including the number of gNBs and UEs is not limited to the example shown in FIG.
  • NG-RAN20 actually includes multiple NG-RANNodes and is connected to a core network (5GC, not shown) according to 5G.
  • NG-RAN20 and 5GC may be simply expressed as "network”.
  • GNB100A and gNB100B are radio base stations according to NR (may be simply called base stations), and execute wireless communication according to UE200 and NR.
  • gNB100A, gNB100B and UE200 are Massive MIMO that generates a beam with higher directivity by controlling radio signals transmitted from multiple antenna elements, and carrier aggregation (CA) that uses multiple component carriers (CC) in a bundle. ), And dual connectivity (DC) that communicates between the UE and multiple NG-RAN Nodes at the same time.
  • Massive MIMO that generates a beam with higher directivity by controlling radio signals transmitted from multiple antenna elements
  • CA carrier aggregation
  • CC component carriers
  • DC dual connectivity
  • the gNB100A, gNB100B and UE200 execute wireless communication via a wireless bearer, specifically, SRB Signaling Radio Bearer (SRB) or DRB Data Radio Bearer (DRB).
  • SRB SRB Signaling Radio Bearer
  • DRB DRB Data Radio Bearer
  • the UE200 can perform a handover from gNB100A to gNB100B (or from gNB100B to gNB100A). Handover may be interpreted in the same way as changing, adding, etc., to a base station or cell accessed by the UE. Further, the handover may be called cell reselection, cell transition, or the like. Further, the handover is, in a broad sense, the addition or modification of a cell (primary cell (PCell) or secondary cell (PSCell, SCell)) included in a cell group (for example, a master cell group (MCG) or a secondary cell group (SCG)). May be included.
  • PCell primary cell
  • PSCell secondary cell
  • SCell secondary cell
  • MCG master cell group
  • SCG secondary cell group
  • the UE200 can transmit a report regarding the handover to the radio base station. Specifically, the UE 200 can transmit a report regarding a successful handover (for example, which may be referred to as Successful Handovers Reports) to a radio base station (target base station) to which the handover is performed. The UE 200 may transmit a report on the handover to the radio base station (source base station) of the handover source or the network.
  • a successful handover for example, which may be referred to as Successful Handovers Reports
  • target base station to which the handover is performed.
  • the UE 200 may transmit a report on the handover to the radio base station (source base station) of the handover source or the network.
  • SuccessfulHandoversReports may be expressed in the singular form as SuccessfulhandoverReports, etc., may be referred to by another name, for example, simply handoverreports, and may not be limited to successful handovers. ..
  • FIG. 2 is a functional block configuration diagram of the UE 200.
  • the UE 200 includes a wireless communication unit 210, a measurement reporting unit 220, a handover reporting unit 230, and a control unit 240.
  • the wireless communication unit 210 sends and receives wireless signals according to NR. Specifically, the wireless communication unit 210 transmits an uplink signal (UL signal) according to NR, and receives a downlink signal (DL signal) according to NR.
  • UL signal uplink signal
  • DL signal downlink signal
  • the wireless communication unit 210 supports Massive MIMO, CA that bundles multiple CCs, and DC that communicates between UE and each of the two NG-RAN Nodes at the same time.
  • the measurement report unit 220 can perform measurements on the quality of UL signals and DL signals transmitted and received by the UE 200, and report the results of the measurements.
  • the measurement reporting unit 220 notifies the network from the UE 200 of an event related to the Quality of Experience (QoE) (for example, a wireless disconnection during communication or a success or failure of the handover), thereby transmitting the QoE.
  • QoE Quality of Experience
  • MDT Minimization of Drive Test
  • RACH random access channels
  • the report may be referred to as a Measurement Report.
  • the MDT includes a logged MDT measurement executed by the UE200 in the idle state in the radio resource control layer (RRC) and an immediate MDT executed by the UE200 in the connected state.
  • RRC radio resource control layer
  • the logged MDT measurement is assumed. You can do it.
  • immediate MDT may be targeted.
  • the measurement reporting unit 220 may measure the wireless communication quality (reception quality) in the cell in which the UE 200 is located (standby) and the neighboring cell, and report the result of the measurement.
  • the handover reporting unit 230 executes a report regarding the handover of the UE 200. Specifically, the handover reporting unit 230 can transmit a report on the handover to a target base station such as gNB100B. In the present embodiment, the handover reporting unit 230 constitutes a transmission unit.
  • the handover reporting unit 230 includes at least one of the identifier (cell ID) of the cell to which the handover is performed, the setting related to the monitoring of the radio link at the source base station, the result of monitoring the radio link, and the setting related to the handover. You can send a report.
  • the identifier (cell ID) of the cell of the handover destination may be called a target cell ID.
  • the settings related to radio link monitoring in the source base station may include the radio link monitoring reference signal (RS), beam failure recovery, out-of-sync, synchronization establishment, and monitoring results.
  • RS radio link monitoring reference signal
  • the settings related to handover include the contents related to various timers (for example, T304, T312 (details will be described later)) and wireless communication quality (for example, Reference Signal Received Power (RSRP), Reference Signal Received Quality (RSRQ), Signal-to-. Interference plus Noise power Ratio (SINR)), UE200 location information may be included.
  • RSRP Reference Signal Received Power
  • RSRQ Reference Signal Received Quality
  • SINR Signal-to-. Interference plus Noise power Ratio
  • UE200 location information may be included.
  • the settings related to the handover may include the contents of the handover using the conditional handover (CHO: Conditional Handover) and the DAPS (dual active protocol stack).
  • conditional handover CHO: Conditional Handover
  • DAPS dual active protocol stack
  • the handover reporting unit 230 may include reports related to such handover (Successful Handovers Reports) in the message transmitted from the UE 200 to the target base station.
  • the UE Information Response may include the report.
  • the report may be transmitted to the source base station or the network.
  • the source base station that has received the report may relay the report to the target base station.
  • the report regarding the handover may be included in the Measurement Report transmitted to the source base station or another message (for example, RRC Reconfiguration Complete) transmitted to the target base station.
  • the handover reporting unit 230 may transmit the report related to the handover as described above.
  • the setting related to measurement may mean the measConfig specified in 3GPP TS38.331 or the like. However, it is not necessarily limited to measConfig, and settings related to MDT may be used.
  • the handover condition may be, for example, the condition specified in 3GPP TS38.331 Chapter 5.5.4 (which may also be called the handover trigger condition), but it is a condition that can trigger the handover. If there is, other conditions may be used.
  • the transmission of the measurement report may mean, for example, the transmission of the Measurement Report, but may include any measurement in the UE 200, such as the transmission of the result of the MDT.
  • reception of the handover instruction may mean the reception of the Handover command, but any instruction may be included as long as it is an instruction that triggers the start of another direct or indirect handover. ..
  • the handover reporting unit 230 may transmit a report on the handover when the operating status of various timers or the radio quality during the handover exceeds a specific threshold as a result of monitoring the wireless link.
  • the result of radio link monitoring may include the radio link between the source or target base station and the UE200.
  • the results of radio link monitoring may include the results of beam monitoring (such as beam obstruction).
  • various timers may include T304 and T312 (details will be described later).
  • Radio quality during handover may include RSRP, RSRQ, SINR.
  • the threshold value may be preset (predefined) in the UE 200, or may be set by an instruction from the network.
  • the control unit 240 controls each functional block constituting the UE 200. In particular, in the present embodiment, the control unit 240 executes control regarding the handover of the UE 200.
  • control unit 240 determines the necessity of the handover based on the measurement result by the measurement reporting unit 220, and executes the handover if the handover condition is satisfied.
  • control unit 240 controls the handover reporting unit 230 to transmit a report on the handover to the radio base station. Specifically, the control unit 240 can control the content of the report, the report timing, the report conditions, and the like.
  • the channel includes a control channel and a data channel.
  • the control channel includes PDCCH (Physical Downlink Control Channel), PUCCH (Physical Uplink Control Channel), PRACH (Physical Random Access Channel), PBCH (Physical Broadcast Channel) and the like.
  • the data channels include PDSCH (Physical Downlink Shared Channel) and PUSCH (Physical Uplink Shared Channel).
  • PDSCH Physical Downlink Shared Channel
  • PUSCH Physical Uplink Shared Channel
  • the reference signal includes Demodulation reference signal (DMRS), Sounding Reference Signal (SRS), Phase Tracking Reference Signal (PTRS), and Channel State Information-Reference Signal (CSI-RS), and the signal includes a channel. And reference signals are included. Further, the data may mean data transmitted via a data channel.
  • DMRS Demodulation reference signal
  • SRS Sounding Reference Signal
  • PTRS Phase Tracking Reference Signal
  • CSI-RS Channel State Information-Reference Signal
  • FIG. 3 is a functional block configuration diagram of gNB100B.
  • the gNB 100B includes a wireless communication unit 110, a handover report processing unit 120, and a control unit 130.
  • the gNB100A may also have the same functional block configuration as the gNB100B.
  • a case where the gNB100B is a target base station for handover will be described as an example.
  • the wireless communication unit 110 sends and receives wireless signals according to NR. Specifically, the wireless communication unit 110 receives an uplink signal (UL signal) according to NR and transmits a downlink signal (DL signal) according to NR.
  • UL signal uplink signal
  • DL signal downlink signal
  • the handover report processing unit 120 executes the processing of the report regarding the handover of the UE 200. Specifically, the handover report processing unit 120 acquires the content of the report transmitted from the UE 200.
  • the handover report processing unit 120 can request the UE 200 to report on the handover.
  • the request may be included in the UE Information Request, which is an RRC layer message sent to the UE 200.
  • the handover report processing unit 120 may transmit the request.
  • the notification that the UE 200 can provide a report on the handover may be included in, for example, RRC Reconfiguration Complete.
  • the handover report processing unit 120 can acquire reports (Successful Handovers Reports) related to the handover included in the message of the RRC layer, for example, UEInformationResponse (or RRC Reconfiguration Complete).
  • the handover report processing unit 120 may transmit (may be expressed as relay, transfer, or provision) to the source base station (gNB100A) based on the control by the control unit 130.
  • the content of the report transmitted to the source base station may be a part or all of the content received from the UE 200.
  • the control unit 130 controls each functional block constituting the gNB100B.
  • the control unit 130 cooperates with the gNB100A (source base station) to execute control related to the handover of the UE 200.
  • control unit 130 can receive a handover request (Handover request) from the source base station and return an acknowledgment (Handover request Ack.) If the handover can be handled.
  • a handover request (Handover request) from the source base station and return an acknowledgment (Handover request Ack.) If the handover can be handled.
  • control unit 130 can execute a random access (RA) procedure with the UE 200 and transmit a report on the handover acquired from the UE 200 to the source base station.
  • RA random access
  • FIG. 4 shows an example of a sequence of reports regarding handover (Successful Handovers Reports).
  • FIG. 4 shows the reporting sequence of Successful Handovers Reports when the UE200 is handed over from gNB100A (source base station) to gNB100B (target base station).
  • the UE200 includes information (Successful handover Report available) indicating that the Successful handover Report can be provided (available) in RRC Reconfiguration Complete after executing the random access procedure via gNB100B and RACH. Can be done (step 6).
  • the gNB100B can include a Successful handover Report request requesting the transmission of a Successful handover Report in the UE Information Request based on the information (Successful handover Report available) (step 7).
  • the UE200 can include the Successful handover Report in the UE Information Response based on the request (Successful handover Report request) (step 8).
  • the gNB100B can send a part or all of the received Successful handover Report to the gNB100A (step 9).
  • the Successful handover Report may include at least one of the contents shown below.
  • FIGS. 5A, 5B and 5C are examples of the contents of the Successful handover Report.
  • Target Cell id -Wireless link monitoring settings and monitoring results on the source base station side 1.
  • Reference signal for wireless link monitoring (radioLinkMonitoringRS) --Synchronous signal block (SSB (SS / PBCH Block) index (SSB index)) --CSI-RS index 2.
  • SSB Spa / PBCH Block index
  • BeamFailureRecoveryHistory --Beam failure recovery setting (beamFailureRecoveryConfig (see 3GPP TS38.331))
  • the Information Element (IE) BeamFailureRecoveryConfig may be used to configure the UE200 with RACH resources and candidate beams for beam failure recovery if a beam failure is detected (see also 3GPP TS 38.321 5.1.1). ..
  • N310 Out-Of-Sync-History --Threshold (Q_out threshold) --Count number of times (CountNumberOfN310) --The timer T310 elapsed for each radio failure detection (N310 reach the max value)
  • the N310 may be reset at the beginning of the connection reestablishment procedure when it receives a "syncing" instruction from a lower layer, when it receives an RRC Reconfiguration with reconfigurationWithSync for that cell group, and when the timer T310 is down. In addition, it increases when "out of synchronization (asynchronous)" is received from the lower layer, and when the maximum value is reached, the timer T310 may be started.
  • T310 starts when it detects a problem with the physical layer of the SpecialCell (SpCell), that is, it receives a continuous sync display of N310 from the lower layer, and receives a continuous sync display of N311 from the lower layer of SpCell.
  • SpCell SpecialCell
  • RRCReconfiguration is received by reconfigurationWithSync of the cell group
  • MobilityFromNRCommand is received
  • rlf-TimersAndConstant is reconfigured
  • connection reestablishment procedure is started
  • MCG failure information procedure is started
  • SCG is released. Sometimes it may be stopped.
  • the N311 may be reset at the beginning of the connection reestablishment procedure when it receives an "out of sync" instruction from the lower layer, when it receives an RRC Reconfiguration with reconfigurationWithSync for that cell group, and the lower layer is running timer T310. It increases when "In-sync" is received from, and when the maximum value is reached, the timer T310 may be stopped.
  • T304 elapsed for the handover Timer T304 is started when an RRCReconfiguration message containing reconfigurationWithSync is received, or when a conditional reconfiguration is performed, that is, when a stored RRCReconfiguration message containing reconfigurationWithSync is applied, and the corresponding SpCell has a successful random access. May be stopped upon completion.
  • T312 setting (T312 configured or not) --If configured, T312 elapsed for each measurement report while T310 is running before receiving RRC Reconfiguration) T312 is started when T312 is configured with MCG, while running PCell's T310, when T312 is configured and "use T312" is set to true to trigger a measurement report for a measurement ID. If T312 is configured with SCG and "useT312" is set to true, it may be initiated when T312 triggers a measurement report for the configured measurement ID during execution of T310 in PSCell.
  • T312 receives N311 continuous synchronization display from the lower layer of SpCell, receives RRC Reconfiguration by reconfigurationWithSync of the cell group, starts the connection reestablishment procedure, reconfigures rlf-TimersAndConstant, and MCG. It may be stopped when the failure information procedure is started and when the T310 expires in the corresponding SpCell.
  • the radio quality may be recorded when it falls below a particular threshold, which may be preset from the network.
  • the radio quality may be recorded when it falls below a particular threshold, which may be preset from the network.
  • the radio quality (RSRP / RSRQ / SINR) of source cell when measurement report is triggered / sent 2.
  • the radio quality (RSRP / RSRQ / SINR) of source and target cell while doing RACH towards target cell 4.
  • the radio quality (RSRP / RSRQ / SINR) of source and target cells when / after RACH towards target cell succeeded during or after the RA procedure 5.
  • the radio quality (RSRP / RSRQ / SINR) of source and target cells when UE detaches with source cell The radio quality may be recorded when it falls below a particular threshold, which may be preset from the network.
  • FIG. 6 shows the compilation operation flow of the Successful handover Report by UE200. As shown in FIG. 6, the UE 200 determines whether or not the compilation conditions of the Successful handover Report are satisfied (S10).
  • compilation may be interpreted as generating and sending a Successful handover Report, and collecting the contents of a Successful handover Report, and in a broader sense, it may be interpreted as reporting a Successful handover Report.
  • the UE200 may start compiling the Successful handover Report if any of the following compilation conditions are satisfied (S20).
  • the handover trigger condition is specified in Chapter 5.5.4 of 3GPP TS38.331 as follows.
  • FIG. 7 shows the transmission operation flow of the Successful handover Report by the UE 200. As shown in FIG. 7, the UE 200 determines whether or not the trigger condition for the Successful handover Report transmission is satisfied (S110).
  • the trigger for Successful handover Report transmission may be interpreted as the trigger for determining the transmission of Successful handover Report available and the transmission of Successful handover Report itself.
  • the UE200 may send a Successful handover Report if any of the trigger conditions shown below is satisfied (S120). As described above, RRC Reconfiguration Complete may include Successful handover Report available, UE Information Response may include Successful handover Report, and Successful handover Report available may include Successful handover Report.
  • BFI_COUNTER beamFailureIndication count count
  • the UE 200 can send a report on the handover, specifically, a Successful handover Report, to the target base station, and the Successful handover Report includes the identifier of the cell to which the handover is performed and the wireless link at the source base station. At least one of the monitoring settings, the result of the monitoring, and the handover settings may be included.
  • the UE200 can include events such as failures experienced during the handover process in the Successful handover Report, and the Successful handover Report is finally fed back to the source base station. That is, the UE 200 may realize the transmission of a report on an effective handover.
  • the source base station can be expected to improve mobility and robustness by adjusting the parameters of the mobility and wireless link settings of the UE200.
  • the UE 200 can send a Successful handover Report when it receives a setting related to measurement, satisfies a handover condition, sends a measurement report, or receives a handover instruction.
  • the Successful handover Report can be provided to the network at an appropriate timing that can improve the mobility and robustness.
  • the UE200 can send a Successful handover Report when the operating status of the timer or the radio quality during the handover exceeds a specific threshold as a result of monitoring the wireless link. As a result, it is possible to maintain a good wireless communication state of the UE 200.
  • the contents of the above-mentioned Successful handover Report may be applied to MN / SN initiated PSCell addition / change.
  • the examples of the contents of the Successful handover Report shown in FIGS. 5A, 5B and 5C may be applied to MN / SN initiated PSCell addition / change.
  • UE200 may send a Successful handover Report to the master node (MN) using ULInformationTransfer MRDC message, and MN may send it to the secondary node (SN) using RRC Transfer.
  • MN master node
  • SN secondary node
  • FIG. 8 is an example of a Successful handover Report that may be additionally included in the case of MN / SN initiated PS Cell change.
  • Radio link monitoring settings and monitoring results on the source base station side of both MCG and SCG The radio quality (RSRP / RSRQ / SINR) of source of source PCell / source PS Cell when the Measurement Report is triggered / transmitted PCell and source PSCell when measurement report is triggered / sent) -The radio quality (RSRP / RSRQ / SINR) source PCell and source PSCell when RRC Reconfiguration Msg. Is received before conducting RACH with target PSCell) -The radio quality (RSRP / RSRQ / SINR) of source PCell and source PSCell when UE is going to do RACH with target PSCell.
  • RSRP / RSRQ / SINR radio quality of source of source PCell / source PS Cell when the Measurement Report is triggered / transmitted PCell and source PSCell when measurement report is triggered / sent
  • the radio quality (RSRP / RSRQ / SINR) source PCell and target PSCell when UE successfully did RACH with target PSCell. (Just after RACH execution)) The radio quality may be recorded when it falls below a particular threshold, which may be preset from the network.
  • Successful handover Report and Successful Handovers Reports may be referred to by different names as long as they include the contents related to the handover of UE200.
  • each functional block is realized by any combination of at least one of hardware and software.
  • the method of realizing each functional block is not particularly limited. That is, each functional block may be realized using one physically or logically coupled device, or two or more physically or logically separated devices can be directly or indirectly (eg, for example). , Wired, wireless, etc.) and may be realized using these plurality of devices.
  • the functional block may be realized by combining the software with the one device or the plurality of devices.
  • Functions include judgment, decision, judgment, calculation, calculation, processing, derivation, investigation, search, confirmation, reception, transmission, output, access, solution, selection, selection, establishment, comparison, assumption, expectation, and assumption.
  • a functional block (configuration unit) that makes transmission function is called a transmitting unit (transmitting unit) or a transmitter (transmitter).
  • the realization method is not particularly limited.
  • FIG. 9 is a diagram showing an example of the hardware configuration of the device.
  • the device may be configured as a computer device including a processor 1001, a memory 1002, a storage 1003, a communication device 1004, an input device 1005, an output device 1006, a bus 1007, and the like.
  • the word “device” can be read as a circuit, device, unit, etc.
  • the hardware configuration of the device may be configured to include one or more of each of the devices shown in the figure, or may be configured not to include some of the devices.
  • Each functional block of the device (see FIGS. 2 and 3) is realized by any hardware element of the computer device or a combination of the hardware elements.
  • each function in the device is such that the processor 1001 performs an operation by loading predetermined software (program) on the hardware such as the processor 1001 and the memory 1002, and controls the communication by the communication device 1004, or the memory. It is realized by controlling at least one of reading and writing of data in 1002 and storage 1003.
  • predetermined software program
  • Processor 1001 operates, for example, an operating system to control the entire computer.
  • the processor 1001 may be configured by a central processing unit (CPU) including an interface with peripheral devices, a control device, an arithmetic unit, a register, and the like.
  • CPU central processing unit
  • the processor 1001 reads a program (program code), a software module, data, etc. from at least one of the storage 1003 and the communication device 1004 into the memory 1002, and executes various processes according to these.
  • a program program code
  • a program that causes a computer to execute at least a part of the operations described in the above-described embodiment is used.
  • the various processes described above may be executed by one processor 1001 or may be executed simultaneously or sequentially by two or more processors 1001.
  • Processor 1001 may be implemented by one or more chips.
  • the program may be transmitted from the network via a telecommunication line.
  • the memory 1002 is a computer-readable recording medium, and is composed of at least one such as ReadOnlyMemory (ROM), ErasableProgrammableROM (EPROM), Electrically ErasableProgrammableROM (EEPROM), and RandomAccessMemory (RAM). May be done.
  • the memory 1002 may be referred to as a register, a cache, a main memory (main storage device), or the like.
  • the memory 1002 can store a program (program code), a software module, or the like that can execute the method according to the embodiment of the present disclosure.
  • the storage 1003 is a computer-readable recording medium, for example, an optical disk such as Compact Disc ROM (CD-ROM), a hard disk drive, a flexible disk, an optical magnetic disk (for example, a compact disk, a digital versatile disk, or a Blu-ray). It may consist of at least one (registered trademark) disk), smart card, flash memory (eg, card, stick, key drive), floppy (registered trademark) disk, magnetic strip, and the like.
  • Storage 1003 may be referred to as auxiliary storage.
  • the recording medium described above may be, for example, a database, server or other suitable medium containing at least one of the memory 1002 and the storage 1003.
  • the communication device 1004 is hardware (transmission / reception device) for communicating between computers via at least one of a wired network and a wireless network, and is also referred to as, for example, a network device, a network controller, a network card, a communication module, or the like.
  • the communication device 1004 includes, for example, a high frequency switch, a duplexer, a filter, a frequency synthesizer, etc. in order to realize at least one of frequency division duplex (FDD) and time division duplex (TDD). It may be composed of.
  • FDD frequency division duplex
  • TDD time division duplex
  • the input device 1005 is an input device (for example, a keyboard, a mouse, a microphone, a switch, a button, a sensor, etc.) that accepts an input from the outside.
  • the output device 1006 is an output device (for example, a display, a speaker, an LED lamp, etc.) that outputs to the outside.
  • the input device 1005 and the output device 1006 may have an integrated configuration (for example, a touch panel).
  • Bus 1007 may be configured using a single bus or may be configured using different buses for each device.
  • the device includes hardware such as a microprocessor, a digital signal processor (Digital Signal Processor: DSP), an ApplicationSpecific Integrated Circuit (ASIC), a ProgrammableLogicDevice (PLD), and a FieldProgrammableGateArray (FPGA).
  • the hardware may implement some or all of each functional block.
  • processor 1001 may be implemented using at least one of these hardware.
  • information notification includes physical layer signaling (eg Downlink Control Information (DCI), Uplink Control Information (UCI), higher layer signaling (eg RRC signaling, Medium Access Control (MAC) signaling, broadcast information (Master Information Block)). (MIB), System Information Block (SIB)), other signals or combinations thereof.
  • DCI Downlink Control Information
  • UCI Uplink Control Information
  • RRC signaling eg RRC signaling, Medium Access Control (MAC) signaling, broadcast information (Master Information Block)).
  • MIB System Information Block
  • SIB System Information Block
  • RRC signaling may also be referred to as an RRC message, eg, RRC Connection Setup. ) Message, RRC Connection Reconfiguration message, etc. may be used.
  • LTE LongTermEvolution
  • LTE-A LTE-Advanced
  • SUPER3G IMT-Advanced
  • 4G 4th generation mobile communication system
  • 5G 5th generation mobile communication system
  • FutureRadioAccess FAA
  • NewRadio NR
  • W-CDMA registered trademark
  • GSM registered trademark
  • CDMA2000 Code Division Multiple Access 2000
  • UMB UltraMobileBroadband
  • IEEE802.11 Wi-Fi (registered trademark)
  • IEEE802.16 WiMAX®
  • IEEE802.20 Ultra-WideBand
  • Bluetooth® Ultra-WideBand
  • other systems that utilize appropriate systems and at least one of the next-generation systems extended based on them. It may be applied to one.
  • a plurality of systems may be applied in combination (for example, a combination of at least one of LTE and LTE-A and 5G).
  • the specific operation performed by the base station in this disclosure may be performed by its upper node (upper node).
  • various operations performed for communication with the terminal are the base station and other network nodes other than the base station (eg, MME or). It is clear that it can be done by at least one of (but not limited to, S-GW, etc.).
  • S-GW network node
  • the case where there is one network node other than the base station is illustrated above, it may be a combination of a plurality of other network nodes (for example, MME and S-GW).
  • Information and signals can be output from the upper layer (or lower layer) to the lower layer (or upper layer).
  • Input / output may be performed via a plurality of network nodes.
  • the input / output information may be stored in a specific location (for example, memory) or may be managed using a management table.
  • the input / output information may be overwritten, updated, or added.
  • the output information may be deleted.
  • the entered information may be transmitted to other devices.
  • the determination may be made by a value represented by one bit (0 or 1), by a true / false value (Boolean: true or false), or by comparing numerical values (for example, a predetermined value). It may be done by comparison with the value).
  • the notification of predetermined information (for example, the notification of "being X") is not limited to the explicit one, but is performed implicitly (for example, the notification of the predetermined information is not performed). May be good.
  • Software whether referred to as software, firmware, middleware, microcode, hardware description language, or other names, is an instruction, instruction set, code, code segment, program code, program, subprogram, software module.
  • Applications, software applications, software packages, routines, subroutines, objects, executable files, execution threads, procedures, features, etc. should be broadly interpreted.
  • software, instructions, information, etc. may be transmitted and received via a transmission medium.
  • a transmission medium For example, a website, where the software uses at least one of wired technology (coaxial cable, fiber optic cable, twisted pair, Digital Subscriber Line (DSL), etc.) and wireless technology (infrared, microwave, etc.).
  • wired technology coaxial cable, fiber optic cable, twisted pair, Digital Subscriber Line (DSL), etc.
  • wireless technology infrared, microwave, etc.
  • the information, signals, etc. described in this disclosure may be represented using any of a variety of different techniques.
  • data, instructions, commands, information, signals, bits, symbols, chips, etc. that may be referred to throughout the above description are voltages, currents, electromagnetic waves, magnetic fields or magnetic particles, light fields or photons, or any of these. It may be represented by a combination of.
  • a channel and a symbol may be a signal (signaling).
  • the signal may be a message.
  • the component carrier (CC) may be referred to as a carrier frequency, a cell, a frequency carrier, or the like.
  • system and “network” used in this disclosure are used interchangeably.
  • the information, parameters, etc. described in the present disclosure may be expressed using an absolute value, a relative value from a predetermined value, or another corresponding information. It may be represented.
  • the radio resource may be one indicated by an index.
  • Base Station BS
  • Wireless Base Station Wireless Base Station
  • NodeB NodeB
  • eNodeB eNodeB
  • gNodeB gNodeB
  • Base stations are sometimes referred to by terms such as macrocells, small cells, femtocells, and picocells.
  • a base station can accommodate one or more (eg, three) cells (also called sectors). When a base station accommodates multiple cells, the entire base station coverage area can be divided into multiple smaller areas, each smaller area being a base station subsystem (eg, a remote radio for indoor use). Communication services can also be provided by Head: RRH).
  • RRH Remote Radio Head
  • cell refers to a base station that provides communication services in this coverage, and part or all of the coverage area of at least one of the base station subsystems.
  • MS Mobile Station
  • UE user equipment
  • terminal terminal
  • Mobile stations can be used by those skilled in the art as subscriber stations, mobile units, subscriber units, wireless units, remote units, mobile devices, wireless devices, wireless communication devices, remote devices, mobile subscriber stations, access terminals, mobile terminals, wireless. It may also be referred to as a terminal, remote terminal, handset, user agent, mobile client, client, or some other suitable term.
  • At least one of the base station and the mobile station may be called a transmitting device, a receiving device, a communication device, or the like.
  • At least one of the base station and the mobile station may be a device mounted on the mobile body, a mobile body itself, or the like.
  • the moving body may be a vehicle (eg, car, airplane, etc.), an unmanned moving body (eg, drone, self-driving car, etc.), or a robot (manned or unmanned). ) May be.
  • at least one of the base station and the mobile station includes a device that does not necessarily move during communication operation.
  • at least one of a base station and a mobile station may be an Internet of Things (IoT) device such as a sensor.
  • IoT Internet of Things
  • the base station in the present disclosure may be read as a mobile station (user terminal, the same shall apply hereinafter).
  • communication between a base station and a mobile station has been replaced with communication between a plurality of mobile stations (for example, it may be called Device-to-Device (D2D), Vehicle-to-Everything (V2X), etc.).
  • D2D Device-to-Device
  • V2X Vehicle-to-Everything
  • Each aspect / embodiment of the present disclosure may be applied to the configuration.
  • the mobile station may have the functions of the base station.
  • words such as "up” and “down” may be read as words corresponding to communication between terminals (for example, "side”).
  • the upstream channel, the downstream channel, and the like may be read as a side channel.
  • the mobile station in the present disclosure may be read as a base station.
  • the base station may have the functions of the mobile station.
  • the wireless frame may be composed of one or more frames in the time domain.
  • Each one or more frames in the time domain may be called a subframe.
  • the subframe may be further composed of one or more slots in the time domain.
  • the subframe may have a fixed time length (eg, 1 ms) that does not depend on numerology.
  • the numerology may be a communication parameter that applies to at least one of the transmission and reception of a signal or channel.
  • Numerology includes, for example, SubCarrier Spacing (SCS), bandwidth, symbol length, cyclic prefix length, transmission time interval (Transmission Time Interval: TTI), number of symbols per TTI, wireless frame configuration, transmission / reception. It may indicate at least one of a specific filtering process performed by the machine in the frequency domain, a specific windowing process performed by the transmitter / receiver in the time domain, and the like.
  • the slot may be composed of one or more symbols (Orthogonal Frequency Division Multiplexing (OFDM) symbol, Single Carrier Frequency Division Multiple Access (SC-FDMA) symbol, etc.) in the time domain.
  • the slot may be a unit of time based on numerology.
  • the slot may include a plurality of mini slots. Each minislot may be composed of one or more symbols in the time domain. Further, the mini slot may be referred to as a sub slot. The minislot may consist of a smaller number of symbols than the slot.
  • PDSCH (or PUSCH) transmitted in time units larger than the minislot may be referred to as PDSCH (or PUSCH) mapping type A.
  • the PDSCH (or PUSCH) transmitted using the minislot may be referred to as PDSCH (or PUSCH) mapping type B.
  • the wireless frame, subframe, slot, minislot and symbol all represent the time unit when transmitting a signal.
  • the radio frame, subframe, slot, minislot and symbol may use different names corresponding to each.
  • one subframe may be referred to as a transmission time interval (TTI)
  • TTI transmission time interval
  • TTI transmission time interval
  • TTI transmission time interval
  • TTI transmission time interval
  • TTI transmission time interval
  • TTI slot or one minislot
  • at least one of the subframe and TTI may be a subframe (1ms) in existing LTE, a period shorter than 1ms (eg, 1-13 symbols), or a period longer than 1ms. May be.
  • the unit representing TTI may be called a slot, a mini slot, or the like instead of a subframe.
  • TTI refers to, for example, the minimum time unit of scheduling in wireless communication.
  • a base station schedules each user terminal to allocate radio resources (frequency bandwidth that can be used in each user terminal, transmission power, etc.) in TTI units.
  • the definition of TTI is not limited to this.
  • TTI may be a transmission time unit such as a channel-encoded data packet (transport block), a code block, or a code word, or may be a processing unit such as scheduling or link adaptation.
  • the time interval for example, the number of symbols
  • the transport block, code block, code word, etc. may be shorter than the TTI.
  • one or more TTIs may be the minimum time unit for scheduling. Further, the number of slots (number of mini-slots) constituting the minimum time unit of the scheduling may be controlled.
  • TTI with a time length of 1 ms may be called normal TTI (TTI in LTE Rel.8-12), normal TTI, long TTI, normal subframe, normal subframe, long subframe, slot, etc.
  • a TTI shorter than a normal TTI may be referred to as a shortened TTI, a short TTI, a partial TTI (partial or fractional TTI), a shortened subframe, a short subframe, a minislot, a subslot, a slot, and the like.
  • the long TTI (for example, normal TTI, subframe, etc.) may be read as a TTI having a time length of more than 1 ms
  • the short TTI (for example, shortened TTI, etc.) may be read as a TTI less than the TTI length of the long TTI and 1 ms. It may be read as a TTI having the above TTI length.
  • the resource block (RB) is a resource allocation unit in the time domain and the frequency domain, and may include one or a plurality of continuous subcarriers in the frequency domain.
  • the number of subcarriers contained in RB may be the same regardless of neumerology, and may be, for example, 12.
  • the number of subcarriers contained in the RB may be determined based on numerology.
  • the time domain of RB may include one or more symbols, and may have a length of 1 slot, 1 mini slot, 1 subframe, or 1 TTI.
  • Each 1TTI, 1 subframe, etc. may be composed of one or a plurality of resource blocks.
  • One or more RBs are physical resource blocks (Physical RB: PRB), sub-carrier groups (Sub-Carrier Group: SCG), resource element groups (Resource Element Group: REG), PRB pairs, RB pairs, etc. May be called.
  • Physical RB Physical RB: PRB
  • sub-carrier groups Sub-Carrier Group: SCG
  • resource element groups Resource Element Group: REG
  • PRB pairs RB pairs, etc. May be called.
  • the resource block may be composed of one or a plurality of resource elements (ResourceElement: RE).
  • RE resource elements
  • 1RE may be a radio resource area of 1 subcarrier and 1 symbol.
  • Bandwidth Part (which may also be called partial bandwidth, etc.) may represent a subset of consecutive common resource blocks (RBs) for a neurology in a carrier. good.
  • the common RB may be specified by the index of the RB with respect to the common reference point of the carrier.
  • PRBs may be defined in a BWP and numbered within that BWP.
  • BWP may include BWP for UL (UL BWP) and BWP for DL (DL BWP).
  • BWP for UL
  • DL BWP BWP for DL
  • One or more BWPs may be set in one carrier for the UE.
  • At least one of the configured BWPs may be active, and the UE may not expect to send or receive a given signal / channel outside the active BWP.
  • “cell”, “carrier” and the like in this disclosure may be read as “BWP”.
  • the above-mentioned structures such as wireless frames, subframes, slots, mini-slots and symbols are merely examples.
  • the number of subframes contained in a radio frame the number of slots per subframe or radioframe, the number of minislots contained within a slot, the number of symbols and RBs contained in a slot or minislot, included in RB.
  • the number of subcarriers, as well as the number of symbols in the TTI, the symbol length, the cyclic prefix (CP) length, and other configurations can be changed in various ways.
  • connection means any direct or indirect connection or connection between two or more elements and each other. It can include the presence of one or more intermediate elements between two “connected” or “joined” elements.
  • the connection or connection between the elements may be physical, logical, or a combination thereof.
  • connection may be read as "access”.
  • the two elements use at least one of one or more wires, cables and printed electrical connections, and, as some non-limiting and non-comprehensive examples, the radio frequency domain. Can be considered to be “connected” or “coupled” to each other using electromagnetic energy having wavelengths in the microwave and light (both visible and invisible) regions.
  • the reference signal can also be abbreviated as Reference Signal (RS), and may be called a pilot (Pilot) depending on the applied standard.
  • RS Reference Signal
  • Pilot pilot
  • each of the above devices may be replaced with a "part”, a “circuit”, a “device”, or the like.
  • references to elements using designations such as “first” and “second” as used in this disclosure does not generally limit the quantity or order of those elements. These designations can be used in the present disclosure as a convenient way to distinguish between two or more elements. Therefore, references to the first and second elements do not mean that only two elements can be adopted there, or that the first element must somehow precede the second element.
  • determining and “determining” used in this disclosure may include a wide variety of actions.
  • “Judgment” and “decision” are, for example, judgment (judging), calculation (calculating), calculation (computing), processing (processing), derivation (deriving), investigation (investigating), search (looking up, search, inquiry). It may include (eg, searching in a table, database or another data structure), ascertaining as “judgment” or “decision”.
  • judgment and “decision” are receiving (for example, receiving information), transmitting (for example, transmitting information), input (input), output (output), and access. It may include (for example, accessing data in memory) to be regarded as “judgment” or “decision”.
  • judgment and “decision” are considered to be “judgment” and “decision” when the things such as solving, selecting, choosing, establishing, and comparing are regarded as “judgment” and “decision”. Can include. That is, “judgment” and “decision” may include considering some action as “judgment” and “decision”. Further, “judgment (decision)” may be read as “assuming", “expecting”, “considering” and the like.
  • the term "A and B are different” may mean “A and B are different from each other”.
  • the term may mean that "A and B are different from C”.
  • Terms such as “separate” and “combined” may be interpreted in the same way as “different”.
  • Radio communication system 20 NG-RAN 100A, 100B gNB 110 Wireless communication unit 120 Handover report processing unit 130 Control unit 200 UE 210 Wireless communication unit 220 Measurement report unit 230 handover report unit 240 Control unit 1001 Processor 1002 Memory 1003 Storage 1004 Communication device 1005 Input device 1006 Output device 1007 Bus

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