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WO2023024384A1 - Cell handover method and apparatus, configuration method and apparatus, computer-readable storage medium, user equipment, and network device - Google Patents

Cell handover method and apparatus, configuration method and apparatus, computer-readable storage medium, user equipment, and network device Download PDF

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Publication number
WO2023024384A1
WO2023024384A1 PCT/CN2021/142866 CN2021142866W WO2023024384A1 WO 2023024384 A1 WO2023024384 A1 WO 2023024384A1 CN 2021142866 W CN2021142866 W CN 2021142866W WO 2023024384 A1 WO2023024384 A1 WO 2023024384A1
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Prior art keywords
handover
cell
daps
handover execution
candidate cell
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PCT/CN2021/142866
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French (fr)
Chinese (zh)
Inventor
邓云
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展讯通信(上海)有限公司
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Application filed by 展讯通信(上海)有限公司 filed Critical 展讯通信(上海)有限公司
Publication of WO2023024384A1 publication Critical patent/WO2023024384A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements

Definitions

  • the present invention relates to the field of communication technology, in particular to a cell switching, configuration method and device, a computer-readable storage medium, user equipment, and network equipment.
  • a conditional switching mechanism is introduced in wireless communication.
  • the user equipment User Equipment, UE
  • a Dual Active Protocol Stack (DAPS) switch is also introduced in wireless communication.
  • DAPS Dual Active Protocol Stack
  • the UE will interrupt the communication with the source base station, and instead synchronize to the target cell and perform the random access process, when the random access is successful After that, the UE can continue to perform data transmission with the target base station, and there is a certain interruption time in between.
  • the newly introduced DAPS handover requires the UE to maintain communication with the source base station and the target base station at the same time during the handover process.
  • the UE waits until the UE has started normal communication with the target cell before releasing the connection with the source base station.
  • the technical problem solved by the present invention is how to realize cell switching of UE under the condition of configuring conditional switching and DAPS switching at the same time.
  • an embodiment of the present invention provides a cell handover method
  • the cell handover method includes: obtaining handover execution conditions of each candidate cell, the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions Condition: judging whether the candidate cell satisfies the handover execution condition; if there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, performing DAPS handover to the second candidate cell.
  • performing DAPS handover to the second candidate cell includes: if there are multiple second candidate cells, randomly selecting a second candidate cell from multiple second candidate cells to perform DAPS handover .
  • the acquiring the handover execution conditions of each candidate cell includes: acquiring a handover command, where the handover command includes handover execution conditions of one or more candidate cells.
  • the DAPS handover execution condition includes a first condition and a second condition, the first condition indicates a requirement for a signal quality of a candidate cell, and the second condition indicates a requirement for a signal quality of a serving cell.
  • the first condition includes measurement event A3 and/or measurement event A5 and/or measurement event A4, and the second condition includes measurement event A1; or, the first condition includes measurement event A3 and/or Measuring event A5 and/or measuring event A4, the second condition includes not running timer T310.
  • the embodiment of the present invention also discloses a handover configuration method.
  • the handover configuration method includes: configuring the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions; sending each A handover execution condition of a candidate cell, where the handover execution condition is used to perform DAPS handover to the second candidate cell when there is a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition .
  • the sending the handover execution conditions of each candidate cell includes: sending a handover command, where the handover command includes the handover execution conditions of one or more candidate cells.
  • the embodiment of the present invention also discloses a cell handover device.
  • the cell handover device includes: an acquisition module for acquiring handover execution conditions of each candidate cell, and the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions Execution condition; judging module, used to judge whether the candidate cell satisfies the handover execution condition; handover module, used for if there is a first candidate cell meeting the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, then to all The second candidate cell performs DAPS handover.
  • the embodiment of the present invention also discloses a handover configuration device.
  • the handover configuration device includes: a configuration module configured to configure the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and DAPS handover execution conditions
  • the sending module is used to send the handover execution condition of each candidate cell, and the handover execution condition is used to send the handover execution condition to the first candidate cell satisfying the non-DAPS handover execution condition and the second candidate cell satisfying the DAPS handover execution condition
  • the second candidate cell performs DAPS handover.
  • the embodiment of the present invention also discloses a cell handover method, which is applied to user equipment.
  • the cell handover method includes: acquiring handover execution conditions of one or more candidate cells, and the types of handover execution conditions include non-DAPS handover execution conditions and /or DAPS handover execution conditions; access the candidate cell when the candidate cell meets the handover execution conditions; report the type of cell handover, the type of cell handover includes non-DAPS handover or DAPS handover.
  • the reporting the type of cell switching includes: when the candidate cell satisfies the DAPS switching execution condition, reporting the cell switching type is DAPS switching; or, when the candidate cell does not meet the DAPS switching execution condition condition, the reported cell handover type is non-DAPS handover.
  • the cell handover method further includes: when the candidate cell does not satisfy the DAPS handover execution condition, configuring the PDCP entity of the established data radio bearer as the PDCP entity only associated with the candidate cell.
  • the reporting the type of cell switching includes: reporting the type of cell switching through message 2 or message 4 in a random access procedure.
  • the embodiment of the present invention also discloses a cell handover method.
  • the cell handover method includes: receiving the cell handover type, the cell handover type is a candidate cell configured with DAPS handover execution conditions, and the user equipment meets the handover execution requirements in the cell. After the condition, it is set when accessing the candidate cell, the type of cell handover includes non-DAPS handover or DAPS handover; PDCP entity is configured according to the type of cell handover.
  • configuring the PDCP entity according to the type of the cell handover includes: for the wireless data bearer configured as DAPS handover, when the type of the cell handover is non-DAPS handover, configuring the PDCP entity of the data wireless bearer It is configured to only associate with the PDCP entity of the candidate cell.
  • the embodiment of the present invention also discloses a computer-readable storage medium, on which a computer program is stored, and when the computer program is run by a processor, the steps of the cell handover method are executed, or the steps of the handover configuration method are executed.
  • the embodiment of the present invention also discloses a user equipment, including a memory and a processor, the memory stores a computer program that can run on the processor, and the processor executes the cell when running the computer program. Steps to switch methods.
  • the embodiment of the present invention also discloses a network device, including a memory and a processor, the memory stores a computer program that can run on the processor, and the processor executes the switching when running the computer program Steps in the configuration method or the cell handover method.
  • the UE can acquire the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions. That is, some candidate cells support DAPS handover, and some candidate cells support non-DAPS handover.
  • the UE performs DAPS handover to the second candidate cell, that is, the UE performs DAPS handover preferentially,
  • the cell handover under the condition of configuring conditional handover and DAPS handover at the same time is realized, which can not only improve the handover success rate but also reduce the handover interruption delay.
  • FIG. 1 is a flow chart of a cell handover method according to an embodiment of the present invention
  • FIG. 2 is a flow chart of a cell handover configuration method according to an embodiment of the present invention.
  • Fig. 3 is an interactive flowchart of an embodiment of the present invention.
  • FIG. 4 is a schematic structural diagram of a cell handover device according to an embodiment of the present invention.
  • FIG. 5 is a schematic structural diagram of a cell handover configuration device according to an embodiment of the present invention.
  • FIG. 6 is a flow chart of another cell handover method according to an embodiment of the present invention.
  • Fig. 7 is a flow chart of another cell handover method according to the embodiment of the present invention.
  • the UE can acquire the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions. That is, some candidate cells support DAPS handover, and some candidate cells support non-DAPS handover.
  • the UE performs DAPS handover to the second candidate cell, that is, the UE performs DAPS handover preferentially,
  • the cell handover under the condition of configuring conditional handover and DAPS handover at the same time is realized, which can not only improve the handover success rate but also reduce the handover interruption delay.
  • the Fangming technical solution can be applied to 5G (5 Generation) communication systems, 4G, 3G communication systems, and various new communication systems in the future, such as 6G, 7G, etc.
  • Fig. 1 is a flowchart of a cell handover method according to an embodiment of the present invention.
  • the cell handover method shown in FIG. 1 can be used on the user equipment side, that is, the user equipment can execute various steps of the method.
  • the user equipment includes, but is not limited to, terminal equipment such as mobile phones, computers, and tablet computers.
  • the cell switching method may include the following steps:
  • Step 101 Acquiring the handover execution conditions of each candidate cell, the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
  • Step 102 judging whether the candidate cell satisfies the handover execution condition
  • Step 103 If there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, perform DAPS handover to the second candidate cell.
  • each candidate cell may be one candidate cell, or may be multiple candidate cells.
  • the UE for the same candidate cell, it can be considered that when the DAPS handover execution condition is satisfied, the non-DAPS handover execution condition is also satisfied, and at this time, the UE always performs DAPS handover for the candidate cell. That is, if the second candidate cell is the first candidate cell, the UE performs DAPS handover for the candidate cell.
  • the cell handover method may be implemented in the form of a software program, and the software program runs in a processor integrated in a chip or a chip module.
  • the UE can obtain the handover execution condition (Handover execution condition) of each candidate cell from the handover command.
  • Different candidate cells may be configured with different or the same handover execution conditions.
  • the handover execution condition of the candidate cell Cell1 may be a DAPS handover execution condition
  • the handover execution condition of the candidate cell Cell2 may be a non-DAPS handover execution condition
  • the handover execution condition of the candidate cell Cell3 may be a DAPS handover execution condition.
  • DRB1 is configured as DAPS handover
  • DRB2 and DRB3 can be configured as non-DAPS handover; for candidate cell cell1, you can configure the handover execution conditions corresponding to non-DAPS handover, that is, the handover execution conditions corresponding to normal handover.
  • all DRBs are not configured as DAPS handover; for other For a candidate cell such as cell2, if all DRBs are not configured for DAPS handover, then the network configures handover execution conditions corresponding to non-DAPS handover.
  • the DAPS handover execution condition includes a first condition and a second condition, the first condition indicates the requirement for the signal quality of the candidate cell, and the second condition indicates the requirement for the signal quality of the serving cell.
  • the non-DAPS handover execution condition may only include the first condition.
  • the first condition includes measurement event A3 and/or measurement event A5 and/or measurement event A4, and the second condition includes measurement event A1;
  • the first condition includes the measurement event A3 and/or the measurement event A5 and/or the measurement event A4
  • the second condition includes the timer T310 not running, and the second condition may also be that the timer T310 has not timed out.
  • the UE when judging whether the candidate cell satisfies the handover execution condition, may perform signal measurement, such as measuring the signal quality of the candidate cell and/or measuring the signal quality of the serving cell. And compare the signal quality of the candidate cell and/or the signal quality of the serving cell with the handover execution condition.
  • the serving cell may be a primary cell accessed by the UE, or any serving cell in a carrier aggregation state.
  • the signal quality can have different forms, such as the received power of the reference signal, or the received quality of the reference signal, or the signal-to-interference-noise ratio of the reference signal, and so on.
  • the UE finds that T310 has been running and has timed out, the UE considers that the second condition is not met.
  • the second condition in the embodiment of the present invention may be that no radio link failure occurs in the serving cell or synchronization with the serving cell occurs.
  • the UE when there is a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition, the UE performs DAPS handover to the second candidate cell, that is, the UE has priority Perform DAPS switchover.
  • the UE uses the configuration parameters of the second candidate cell included in the handover command to access the second candidate cell, obtains synchronization with the second candidate cell, initiates a random access procedure in the second candidate cell, and sends the handover complete command ( That is, after radio resource control (Radio Resource Control, RRC) reconfiguration is completed), the UE implements handover to the second candidate cell.
  • RRC Radio Resource Control
  • the UE maintains communication with the source base station and the target base station (ie, the base station to which the second candidate cell belongs) at the same time.
  • the UE releases the connection with the source base station after the UE has started normal communication with the second candidate cell and receives an instruction to release the source side link sent by the second candidate cell.
  • the embodiment of the present invention realizes cell handover under the condition of simultaneously configuring conditional handover and DAPS handover, which can not only improve handover success rate but also reduce handover interruption delay.
  • one second candidate cell is randomly selected from the multiple second candidate cells to perform DAPS handover.
  • the UE evaluates the signal quality of the three candidate cells and the signal quality of the serving cell. It is possible that the candidate cells Cell1 and Cell2 meet the handover execution conditions at the same time. At this time, the UE finds that Cell1 can perform DAPS handover, that is, Cell1 meets the measurement event A3/A5/A4, and the serving cell meets the measurement event A1 or the timer T310 is not started. Cell2 can only perform normal switching. At this time, the UE preferably performs DAPS handover, that is, performs handover to Cell1 preferentially.
  • the candidate cells Cell1 and Cell3 meet the handover execution conditions at the same time, and both Cell1 and Cell3 can implement DAPS handover, at this time, the UE can randomly select Cell1 or Cell3 to perform handover.
  • the UE may select a candidate cell with the best signal quality to perform handover, or the UE may preferentially select a candidate cell with the same frequency as the serving cell to perform handover.
  • the network device can execute the handover configuration method shown in FIG. 2 .
  • the network device may be a source base station.
  • the switching configuration method includes the following steps:
  • Step 201 Configure handover execution conditions for each candidate cell, the types of handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
  • Step 202 Send the handover execution conditions of each candidate cell, and the handover execution conditions are used to notify the second candidate cell when there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition.
  • the candidate cell performs DAPS handover.
  • the source base station can confirm whether it supports DAPS handover according to the feedback from the candidate target base station, so as to configure the handover execution conditions of each candidate cell.
  • the source base station sends the handover execution condition to the UE through the handover command.
  • a UE establishes three bearers, DRB1, DRB2, and DRB3.
  • DRB1 has higher requirements for service quality parameters and requires a shorter data transmission delay. Therefore, the serving base station (the source base station before the handover) Prepare to configure DAPS switching for DRB1, while the other two DRBs do not configure DAPS switching.
  • the serving base station intends to configure conditional handover for the UE. After receiving the measurement report sent by the UE, the serving base station finds that the UE is no longer in the central area of the cell. To satisfy mobility, the serving base station selects Cell1 and Cell2 as candidate cells for UE handover according to the measurement report reported by the UE.
  • the source base station (after negotiating with the candidate base station) can indicate that for the candidate cell Cell1, DRB1 is configured as DAPS handover, the other two DRBs are non-DAPS handover, and the corresponding handover execution conditions; indicate that the candidate cell Cell2 is non-DAPS Switching (that is, conditional switching), and the corresponding switching execution conditions.
  • the handover command can be sent to the UE through one RRC signaling or multiple RRC signalings, that is, the first condition and the second condition can be sent simultaneously, or the first condition and the second condition can be sent separately.
  • FIG. 3 shows an interaction flowchart.
  • step 301 the source base station 302 sends a handover request to the candidate target base station 303 .
  • step 302 the source base station 302 sends a handover request to the candidate target base station 304 .
  • the source base station 302 selects the candidate cells Cell1, Cell2 and Cell3 as the candidate cells for UE301 handover according to the measurement report reported by the UE301, and the source base station 302 can sequentially report to the base stations to which these three cells belong (that is, the candidate target base station 303 and the candidate cell).
  • the target base station 304) sends a handover request.
  • the base station to which the candidate cell Cell3 belongs is not shown in the figure.
  • the indication in the handover request is a conditional handover.
  • the handover request sent by the source base station 302 to the base station to which Cell1 belongs indicates that this handover is a conditional handover, and indicates that the DRB1 request is configured as a DAPS handover, and that the other two DRBs are non-DAPS handovers.
  • the request does not need to indicate the handover execution condition to the candidate target base station 303 .
  • the handover request sent by the source base station 302 to the base station to which Cell2 belongs indicates that this handover is a conditional handover.
  • the source base station 302 judges based on the bandwidth combination supported by the UE301 that the handover of the UE301 from the serving cell to the Cell2 cannot support the DAPS handover, so the handover request does not include DAPS handover information.
  • the handover request sent by the source base station 302 to the base station to which Cell3 belongs indicates that this handover is conditional handover, and indicates that DRB1 is configured as DAPS handover, and the other two DRBs are non-DAPS handover.
  • step 303 the candidate target base station 303 sends a handover request confirmation to the source base station 302 .
  • step 304 the candidate target base station 304 sends a handover request acknowledgment to the source base station 302 .
  • candidate target base stations 303 and 304 can decide whether to accept the handover request based on their own load levels, and if accepted, configure necessary radio resources for the UE, and then return a handover request confirmation (which may be called Handover Request Acknowledge, or Handover Preparation Acknowledge); if not accepted, return request failure to the source base station.
  • a handover request confirmation which may be called Handover Request Acknowledge, or Handover Preparation Acknowledge
  • the candidate target base station 303 if the handover request is accepted, there may be two kinds of processing:
  • the candidate target base station 303 can configure radio resources that only support conditional handover (that is, radio resource configuration only for conditional handover, which does not include DAPS handover information), and then return a handover request confirmation to the source base station 302;
  • the candidate target base station 303 can configure wireless resources that support conditional handover and DAPS handover.
  • the candidate target base station 303 configures DRB1 for DAPS handover, and additionally configures DAPS-related parameters for the UE.
  • it can be power control parameters, such as configuring During the DAPS handover process, the uplink power sharing mode (uplinkPowerSharingDAPS-Mode), configured wireless parameters, etc., are used by UE301 after judging that Cell1 satisfies the handover execution condition.
  • the candidate target base station 303 may respectively indicate to the source base station to configure only radio resources supporting conditional handover, and to configure radio resources supporting conditional handover and DAPS handover through two independent interface signalings.
  • the candidate target base station 303 can also indicate in a handover request confirmation message that only the first radio resource configuration (Target NG-RAN node To Source NG-RAN node Transparent Container 1) that supports conditional handover is configured, and that the configuration supports conditional handover and DAPS Switched second radio resource configuration (Target NG-RAN node To Source NG-RAN node Transparent Container 2).
  • the wireless resources configured by the candidate target base station for the UE are placed in a transparent container (Transparent Container), and the source base station does not need to parse the content in this container, and sends it directly to the UE.
  • a handover request acknowledgment message indicates that only radio resources that support conditional handover (indicated by Transparent Container 1) and wireless resources that support conditional handover and DAPS handover (indicated by Transparent Container 2) are configured
  • the candidate target base station needs to send
  • the source base station specifies which configuration corresponds to the Transparent Container.
  • the candidate target base station can indicate that Transparent Container 2 is configured with DAPS (indicated by an additional cell), while Transparent Container 1 is not configured with DAPS; or only indicates that Transparent Container 2 is configured with DAPS, and does not indicate that Transparent Container 1 with DAPS is not included by default. DAPS.
  • the candidate target base station 304 only needs to configure the radio resource corresponding to the handover condition, and then send it to the source base station 302 through a handover request confirmation.
  • the base station to which the candidate cell Cell3 belongs may adopt the same processing mechanism as that of the candidate target base station 303 .
  • step 305 the source base station 302 sends a handover command to the UE 301 .
  • the source base station 302 configures corresponding handover execution conditions, carries them in the handover command and sends them to the UE.
  • Different candidate cells may be configured with different or the same handover execution conditions.
  • step 306 UE301 measures and evaluates the signal quality of the candidate cell and the signal quality of the serving cell.
  • step 307 UE301 executes handover when the candidate cell satisfies the handover execution condition.
  • the source base station 302 can set different handover execution conditions.
  • the source base station 302 it is also necessary to set the signal quality of the serving cell to meet certain requirements.
  • event A1 can be added.
  • the handover execution conditions include A3/A5/A4+A1, which are respectively for the candidate target cell and the serving cell.
  • the transmission transparent container (Transparent Container 2) is configured with DAPS conditional handover, and the source base station 302 configures A3/A5/A4+A1 as the handover execution condition of Cell1, and the UE receives the transparent container 2 and A3/A5/A4+A1 After the handover execution conditions, start to evaluate Cell1 and the serving cell, if Cell1 meets A3/A5/A4, and the serving cell meets A1, the UE performs handover to Cell1, and the UE configures the DAPS handover configuration for the UE based on Cell1 (via Transparent Container 2) , implement DAPS handover, that is, DAPS handover is adopted for DRB1, and the UE reconfigures the PDCP entity of DRB1 as a PDCP entity for DAPS handover.
  • DAPS handover that is, DAPS handover is adopted for DRB1
  • the UE reconfigures the PDCP entity of DRB1 as a PDCP entity for DAPS handover.
  • the PDCP entity can process data from the source side and the target side at the same time.
  • the PDCP entity can process data from the source side and the target side at the same time.
  • the UE When entering Cell1, continue to maintain the connection with the serving cell.
  • the UE After the UE successfully accesses Cell1, the UE maintains data transmission with the source serving cell and Cell1 at the same time.
  • Cell1 sends a release source connection to the UE, the UE will release the connection with the source side. side connections.
  • the source base station may not explicitly configure the handover execution conditions, and use the existing A3/A5/A4 to determine whether the neighboring cell meets the handover conditions;
  • the signal quality of the serving cell determines whether to perform DAPS handover if T310 is started.
  • T310 is not running (including no timeout)
  • UE performs DAPS handover; otherwise, UE performs non-DAPS handover.
  • the source base station 302 may only set the handover execution condition of A3/A5/A4, so that the UE evaluates whether the handover execution condition is met for Cell2.
  • the source base station 302 can set the handover execution conditions of A3/A5/A4+A1, or only set the handover execution conditions of A3/A5/A4, and the UE additionally uses T310 to judge the DAPS handover.
  • UE301 After UE301 receives configurations of candidate cells Cell1, Cell2, and Cell3 and corresponding handover execution conditions, UE evaluates the signal quality of the three candidate cells and the signal quality of the serving cell. It is possible that the candidate cell Cell1 and the candidate cell Cell2 meet the handover execution conditions at the same time. At this time, UE301 finds that DAPS handover can be performed for Cell1, that is, Cell1 satisfies the measurement event A3/A5/A4, and the serving cell satisfies the measurement event A1 or T310 is not started (including T310 not timed out), while for Cell2 only normal switching can be performed. At this time, UE301 preferably performs DAPS handover, that is, performs handover to Cell1 preferentially. Further, if Cell1 and Cell3 simultaneously meet the handover execution conditions, and both Cell1 and Cell3 can implement DAPS handover, UE301 may randomly select Cell1 or Cell3 to perform handover.
  • step S308 random access is performed between the UE 301 and the candidate target base station 303 .
  • step S309 UE 301 sends RRC reconfiguration complete to candidate target base station 303 .
  • UE301 may report the handover type in the RRC reconfiguration complete signaling.
  • UE301 finds that only the signal quality of Cell1 meets the measurement event A3/A5/A4, but the signal quality of the serving cell is not satisfied with the measurement event A1.
  • the UE performs a handover to Cell1, which is a normal handover, that is, DRB1 is not suitable for DAPS handover .
  • the UE reconfigures the PDCP entity of DRB1 as a PDCP entity applicable to Cell1, and when the UE performs handover, the connection with the source serving cell is interrupted.
  • this handover is only a normal handover, that is, a non-DAPS handover
  • the candidate target base station 303 In order for the candidate target base station 303 to know in time that this handover is only a normal handover, that is, a non-DAPS handover, when the UE successfully accesses Cell1, it indicates to the candidate target base station 303 that this handover is a non-DAPS handover or a normal handover, so that the candidate target base station 303 For the DRB1 to restore the PDCP entity that does not support DAPS, that is, the normal PDCP entity, trigger the Path Switch on the core network side in time.
  • the cell switching device 40 may include:
  • An acquisition module 401 configured to acquire handover execution conditions of each candidate cell, where the types of handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
  • Judging module 402 used to judge whether the candidate cell satisfies the handover execution condition
  • the handover module 403 is configured to perform DAPS handover to the second candidate cell if there is a first candidate cell meeting the non-DAPS handover execution condition and a second candidate cell meeting the DAPS handover execution condition.
  • a non-DAPS handover execution condition and a DAPS handover execution condition may be configured for the same candidate cell, and if the two execution conditions are satisfied at the same time, the UE preferentially executes the DAPS handover to the candidate cell.
  • the above-mentioned cell switching device may correspond to a chip with a cell switching function in the user equipment, such as a SOC (System-On-a-Chip, system on chip), a baseband chip, etc.; A chip module with a switching function; or corresponding to a chip module with a chip with a data processing function, or corresponding to a user equipment.
  • a SOC System-On-a-Chip, system on chip
  • a baseband chip etc.
  • a chip module with a switching function or corresponding to a chip module with a chip with a data processing function, or corresponding to a user equipment.
  • the cell switching configuration device 50 may include:
  • Configuration module 501 configured to configure handover execution conditions of each candidate cell, where the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions;
  • the sending module 502 is configured to send the handover execution condition of each candidate cell, and the handover execution condition is used to send the handover execution condition to all candidate cells when there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition The second candidate cell performs DAPS handover.
  • the above-mentioned cell switching configuration device may correspond to a chip with a cell switching configuration function in the network device, such as a SOC (System-On-a-Chip, system on chip), a baseband chip, etc.; or correspond to a network device including A chip module with a cell switching configuration function; or corresponding to a chip module with a data processing function chip, or corresponding to a network device.
  • a SOC System-On-a-Chip, system on chip
  • a baseband chip etc.
  • a network device including A chip module with a cell switching configuration function or corresponding to a chip module with a data processing function chip, or corresponding to a network device.
  • each module/unit contained in the product may be a software module/unit, or a hardware module/unit, or may be partly a software module/unit and partly a hardware module/unit.
  • each module/unit contained therein may be realized by hardware such as a circuit, or at least some modules/units may be realized by a software program, and the software program Running on the integrated processor inside the chip, the remaining (if any) modules/units can be realized by means of hardware such as circuits; They are all realized by means of hardware such as circuits, and different modules/units can be located in the same component (such as chips, circuit modules, etc.) or different components of the chip module, or at least some modules/units can be realized by means of software programs, The software program runs on the processor integrated in the chip module, and the remaining (if any) modules/units can be realized by hardware such as circuits; /Units can be realized by means of hardware such as circuits
  • the embodiment of the present invention also discloses another cell handover method, which can be used on the user equipment side, that is, the user equipment can perform each step of the method.
  • the cell switching method may include the following steps:
  • Step 601 Obtain handover execution conditions of one or more candidate cells, the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions;
  • Step 602 accessing the candidate cell when the candidate cell satisfies the handover execution condition
  • Step 603 Report the type of cell handover, the type of cell handover includes non-DAPS handover or DAPS handover.
  • the UE acquires the handover execution condition from the handover command, and performs cell handover accordingly.
  • the UE may report the handover type to the target base station to which the candidate cell belongs when it successfully accesses the candidate cell (the target cell at this time).
  • the target base station configures a normal PDCP entity, and triggers a path switch (Path Switch) on the core network side in time.
  • Path Switch path switch
  • the target base station after the target base station finds that the UE has successfully accessed during the random access process, the target base station will send a handover success (Handover Success) signaling to the source base station to notify the UE that the UE has successfully accessed, and the source base station will send a notification to the target base station.
  • the base station returns a sequence number status transfer (SN STATUS TRANSFER) message to notify about the data transmission status information carried by the DAPS.
  • SN STATUS TRANSFER sequence number status transfer
  • the UE when the UE performs DAPS handover, it reports the handover type as DAPS handover, and when the UE performs non-DAPS handover, it reports the handover type as non-DAPS handover.
  • the UE when the UE performs DAPS handover, it reports the handover type as DAPS handover, and when the UE performs non-DAPS handover, it does not need to report the handover type.
  • the target base station if the target base station does not receive the handover type, it indicates that the UE is performing a non-DAPS handover at this time.
  • the UE when the UE performs non-DAPS handover, it reports the handover type as non-DAPS handover; when the UE performs DAPS handover, it does not need to report the handover type.
  • the target base station if the target base station does not receive the handover type, it indicates that the UE is performing DAPS handover at this time.
  • the UE when the candidate cell does not satisfy the DAPS handover execution condition, the UE configures the PDCP entity of the established data radio bearer as only the PDCP entity associated with the candidate cell.
  • the UE may report the cell handover type through message 2 or message 4 in the random access procedure.
  • the UE can indicate to the target base station that this handover is DAPS through the fourth message (4-step random access process) or MSGB (the second message in the 2-step random access process). Toggle or Normal Toggle.
  • the target base station can be aware of the type of handover in time, so as to take corresponding actions in time. For example, during DAPS handover, it needs to send Handover Success to the source base station to notify the UE that it has accessed the target cell.
  • the handover execution conditions of the measurement events A3/A5/A4+A1 are configured for the candidate cell Cell1 at the same time. If the UE finds that the signal quality of the candidate cell Cell1 meets the measurement event A3/A5/A4, but the signal quality of the serving cell does not meet the measurement event A1, then the UE performs a handover to the candidate cell Cell1, which is a normal handover, that is, DRB1 does not Apply DAPS switching. The UE reconfigures the PDCP entity of DRB1 as a PDCP entity applicable to Cell1, and when the UE performs handover, the connection with the source serving cell is interrupted.
  • the target cell In order for the target cell to know in time that this handover is only a normal handover, that is, a non-DAPS handover, when the UE successfully accesses Cell1, it indicates to Cell1 that this handover is a non-DAPS handover or a normal handover, so that Cell1 does not support DAPS for DRB1 recovery.
  • the PDCP entity that is, a normal PDCP entity, triggers a path switch (Path Switch) on the core network side in time.
  • the source base station can set the handover execution conditions to include A3/A5/A4+A1 to determine whether to perform DAPS handover, and can set the handover execution conditions to include A3 /A5/A4 are used to judge common non-DAPS switching.
  • the thresholds for A3/A5/A4 in the DAPS handover execution condition and A3/A5/A4 in the non-DAPS handover execution condition may be the same or different.
  • the offset corresponding to A3 in the DAPS handover execution condition can be the same as the offset corresponding to A3 in the non-DAPS handover execution condition ; It is also possible to set the offset corresponding to A3 in the non-DAPS switching execution condition to take a higher value such as 3db, and the offset corresponding to A3 in the DAPS switching execution condition to take a lower value such as 0db, In this way, it is easier for the UE to trigger the DAPS handover, so as to reduce the handover interruption delay.
  • the handover execution condition is the A4 event (the signal quality of the candidate cell is higher than the preset threshold)
  • a higher threshold can be set for the A4 event in the non-DAPS handover execution condition.
  • the handover execution condition is A5 event (the signal quality of the serving cell is lower than the threshold 1 and the signal quality of the candidate cell is higher than the threshold 2)
  • the embodiment of the present invention also discloses yet another cell handover method, which can be used on the target base station side, that is, each step of the method can be executed by the target base station.
  • the cell handover method may include the following steps:
  • Step 701 Receive the type of cell handover, the type of cell handover is set when the user equipment accesses the candidate cell after the cell satisfies the handover execution conditions for the candidate cell configured with the DAPS handover execution conditions, the The type of cell handover includes non-DAPS handover or DAPS handover;
  • Step 702 Configure a PDCP entity according to the type of cell handover.
  • step 702 for the radio data bearer configured as DAPS handover, when the type of cell handover is non-DAPS handover, the PDCP entity of the data radio bearer is configured to be only associated with the PDCP of the candidate cell entity.
  • the target base station configures a normal PDCP entity, and triggers a path switch (Path Switch) on the core network side in time.
  • Path Switch path switch
  • the target base station after the target base station finds that the UE has successfully accessed during the random access process, the target base station will send a handover success (Handover Success) signaling to the source base station to notify the UE that the UE has successfully accessed, and the source base station will send a notification to the target base station.
  • the base station returns a sequence number status transfer (SN STATUS TRANSFER) message to notify about the data transmission status information carried by the DAPS.
  • SN STATUS TRANSFER sequence number status transfer
  • the embodiment of the present invention also discloses a storage medium, the storage medium is a computer-readable storage medium on which a computer program is stored, and the computer program can execute the steps of the foregoing method when running.
  • the storage medium may include ROM, RAM, magnetic or optical disks, and the like.
  • the storage medium may also include a non-volatile memory (non-volatile) or a non-transitory (non-transitory) memory, and the like.
  • the embodiment of the present invention also discloses a user equipment.
  • the user equipment may include a memory and a processor, and a computer program that can run on the processor is stored in the memory.
  • the processor runs the computer program, it can execute the steps of the aforementioned cell handover method.
  • the embodiment of the present invention also discloses a network device.
  • the network device may include a memory and a processor, and a computer program that can run on the processor is stored in the memory.
  • the processor runs the computer program, it may execute the steps of the aforementioned cell handover method or cell handover configuration method.
  • the network equipment includes but is not limited to a target base station and a source base station.
  • the Fangming technical solution is also applicable to different network architectures, including but not limited to relay network architecture, dual-link architecture, Vehicle-to-Everything (vehicle-to-everything communication) architecture and other architectures.
  • the core network described in the embodiment of the present application may be an evolved packet core network (evolved packet core, EPC for short), a 5G Core Network (5G core network), or a new core network in a future communication system.
  • the 5G Core Network is composed of a group of devices, and implements access and mobility management functions (Access and Mobility Management Function, AMF), and provides functions such as data packet routing and forwarding, and QoS (Quality of Service) management.
  • User plane function User Plane Function, UPF
  • session management function Session Management Function, SMF
  • EPC can be composed of MME that provides functions such as mobility management and gateway selection, Serving Gateway (S-GW) that provides functions such as data packet forwarding, and PDN Gateway (P-GW) that provides functions such as terminal address allocation and rate control.
  • MME Mobility Management and gateway selection
  • S-GW Serving Gateway
  • PDN Gateway PDN Gateway
  • the base station (base station, BS for short) in the embodiment of the present application may also be referred to as base station equipment, which is a device deployed in a radio access network (RAN) to provide wireless communication functions.
  • the equipment providing base station function in 2G network includes base wireless transceiver station (English: base transceiver station, referred to as BTS), the equipment providing base station function in 3G network includes Node B (NodeB), and the equipment providing base station function in 4G network Including evolved Node B (evolved NodeB, eNB), in wireless local area networks (wireless local area networks, referred to as WLAN), the equipment that provides base station functions is the access point (access point, referred to as AP), 5G new wireless (New Radio , referred to as NR), the device gNB that provides base station functions, and the node B (ng-eNB) that continues to evolve, in which gNB and the terminal use NR technology for communication, and the ng-eNB and the terminal use E-UTRA (Evolve
  • the base station controller in the embodiment of the present application is a device for managing base stations, such as a base station controller (BSC for short) in a 2G network and a radio network controller (radio network controller, RNC for short) in a 3G network. ), can also refer to the device for controlling and managing the base station in the new communication system in the future.
  • BSC base station controller
  • RNC radio network controller
  • the network-side network in the embodiment of the present invention refers to a communication network that provides communication services for terminals, including a base station of a wireless access network, a base station controller of the wireless access network, and equipment on the core network side.
  • the terminal in the embodiment of the present application may refer to various forms of user equipment (user equipment, referred to as UE), access terminal, user unit, user station, mobile station, mobile station (mobile station, built as MS), remote station, remote terminal, mobile device, user terminal, terminal equipment, wireless communication device, user agent, or user device.
  • user equipment user equipment
  • access terminal user unit
  • user station mobile station
  • mobile station mobile station
  • remote station remote terminal
  • mobile device user terminal
  • terminal equipment user agent
  • wireless communication device user agent
  • user agent user agent
  • the terminal device can also be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, a Wireless Local Loop (WLL) station, a Personal Digital Assistant (PDA), Handheld devices with wireless communication functions, computing devices or other processing devices connected to wireless modems, vehicle-mounted devices, wearable devices, terminal devices in future 5G networks or future evolution of public land mobile communication networks (Public Land Mobile Network, referred to as PLMN), etc., which are not limited in this embodiment of the present application.
  • PLMN Public Land Mobile Network
  • Multiple appearing in the embodiments of the present application means two or more.
  • connection in the embodiment of the present application refers to various connection methods such as direct connection or indirect connection to realize communication between devices, which is not limited in the embodiment of the present application.
  • the processor may be a central processing unit (CPU for short), and the processor may also be other general-purpose processors, digital signal processors (digital signal processor, DSP for short) , application specific integrated circuit (ASIC for short), off-the-shelf programmable gate array (field programmable gate array, FPGA for short) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc.
  • a general-purpose processor may be a microprocessor, or the processor may be any conventional processor, or the like.
  • the above-mentioned embodiments may be implemented in whole or in part by software, hardware, firmware or other arbitrary combinations.
  • the above-described embodiments may be implemented in whole or in part in the form of computer program products.
  • the computer program product comprises one or more computer instructions or computer programs.
  • the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable devices.
  • the computer instructions may be stored in or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be transmitted from a website, computer, server or data center Wired or wireless transmission to another website site, computer, server or data center.
  • sequence numbers of the above-mentioned processes do not mean the order of execution, and the execution order of the processes should be determined by their functions and internal logic, and should not be used in the embodiments of the present application.
  • the implementation process constitutes any limitation.
  • the disclosed methods, devices and systems can be implemented in other ways.
  • the device embodiments described above are only illustrative; for example, the division of the units is only a logical function division, and there may be other division methods in actual implementation; for example, multiple units or components can be combined or May be integrated into another system, or some features may be ignored, or not implemented.
  • the mutual coupling or direct coupling or communication connection shown or discussed may be through some interfaces, and the indirect coupling or communication connection of devices or units may be in electrical, mechanical or other forms.
  • the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in one place, or may be distributed to multiple network units. Part or all of the units can be selected according to actual needs to achieve the purpose of the solution of this embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing unit, each unit may be physically included separately, or two or more units may be integrated into one unit.
  • the above-mentioned integrated units can be implemented in the form of hardware, or in the form of hardware plus software functional units.
  • the above-mentioned integrated units implemented in the form of software functional units may be stored in a computer-readable storage medium.
  • the above-mentioned software functional units are stored in a storage medium, and include several instructions to enable a computer device (which may be a personal computer, server, or network device, etc.) to execute some steps of the methods described in various embodiments of the present invention.

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Abstract

A cell handover method and apparatus, a configuration method and apparatus, a computer-readable storage medium, a user equipment, and a network device. The cell handover method comprises: acquiring a handover execution condition for each candidate cell, wherein the type of the handover execution condition comprises a non-DAPS handover execution condition and/or a DAPS handover execution condition; determining whether there is a candidate cell that meets the handover execution condition; and if there is a first candidate cell that meets the non-DAPS handover execution condition and a second candidate cell that meets the DAPS handover execution condition, executing DAPS handover to the second candidate cell. By means of the technical solution of the present invention, when conditional handover and DAPS handover are configured at the same time, the cell handover of a UE can be realized.

Description

小区切换、配置方法及装置、计算机可读存储介质、用户设备、网络设备Cell handover, configuration method and device, computer-readable storage medium, user equipment, network equipment
本申请要求2021年8月25日提交中国专利局、申请号为202110982222.8、发明名称为“小区切换、配置方法及装置、计算机可读存储介质、用户设备、网络设备”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。This application claims the priority of the Chinese patent application submitted to the China Patent Office on August 25, 2021, with the application number 202110982222.8, and the title of the invention is "cell handover, configuration method and device, computer readable storage medium, user equipment, network equipment" , the entire contents of which are incorporated in this application by reference.
技术领域technical field
本发明涉及通信技术领域,尤其涉及一种小区切换、配置方法及装置、计算机可读存储介质、用户设备、网络设备。The present invention relates to the field of communication technology, in particular to a cell switching, configuration method and device, a computer-readable storage medium, user equipment, and network equipment.
背景技术Background technique
在无线通信中引入了一种条件切换机制。在条件切换机制中,用户设备(User Equipment,UE)判断切换执行条件是否满足,在满足条件时,UE利用切换命令中包含的候选目标小区的配置参数接入目标小区。A conditional switching mechanism is introduced in wireless communication. In the conditional handover mechanism, the user equipment (User Equipment, UE) judges whether the handover execution condition is satisfied, and when the condition is met, the UE uses the configuration parameters of the candidate target cell included in the handover command to access the target cell.
无线通信中还引入了一种双激活栈(Dual Active Protocol Stack,DAPS)切换。在传统的切换过程中,总会有用户面中断时间,因为一旦UE收到切换命令,UE就中断与源基站的通信,转而同步到目标小区并执行随机接入过程,当随机接入成功之后,UE才能继续与目标基站进行数据传输,这中间有一定的中断时间。为了达到0毫秒(ms)的切换时延,新引入的DAPS切换要求在切换过程中UE同时保持与源基站、以及与目标基站的通信。在这切换的过程中,UE等到UE已经与目标小区开展正常通信之后才释放与源基站的连接。A Dual Active Protocol Stack (DAPS) switch is also introduced in wireless communication. In the traditional handover process, there will always be user plane interruption time, because once the UE receives the handover command, the UE will interrupt the communication with the source base station, and instead synchronize to the target cell and perform the random access process, when the random access is successful After that, the UE can continue to perform data transmission with the target base station, and there is a certain interruption time in between. In order to achieve a handover delay of 0 milliseconds (ms), the newly introduced DAPS handover requires the UE to maintain communication with the source base station and the target base station at the same time during the handover process. During the handover process, the UE waits until the UE has started normal communication with the target cell before releasing the connection with the source base station.
但是,在同时配置条件切换和DAPS切换的情况下,如何实现UE的小区切换是一个亟待解决的技术问题。However, in the case of configuring conditional handover and DAPS handover at the same time, how to implement cell handover of UE is a technical problem to be solved urgently.
发明内容Contents of the invention
本发明解决的技术问题是在同时配置条件切换和DAPS切换的情况下,如何实现UE的小区切换。The technical problem solved by the present invention is how to realize cell switching of UE under the condition of configuring conditional switching and DAPS switching at the same time.
为解决上述技术问题,本发明实施例提供一种小区切换方法,小区切换方法包括:获取各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;判断候选小区是否满足切换执行条件;如果存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区,则向所述第二候选小区执行DAPS切换。In order to solve the above technical problems, an embodiment of the present invention provides a cell handover method, the cell handover method includes: obtaining handover execution conditions of each candidate cell, the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions Condition: judging whether the candidate cell satisfies the handover execution condition; if there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, performing DAPS handover to the second candidate cell.
可选的,所述向所述第二候选小区执行DAPS切换包括:如果所述第二候选小区的数量为多个,则从多个第二候选小区中随机选择一个第二候选小区执行DAPS切换。Optionally, performing DAPS handover to the second candidate cell includes: if there are multiple second candidate cells, randomly selecting a second candidate cell from multiple second candidate cells to perform DAPS handover .
可选的,所述获取各个候选小区的切换执行条件包括:获取切换命令,所述切换命令中包括一个或多个候选小区的切换执行条件。Optionally, the acquiring the handover execution conditions of each candidate cell includes: acquiring a handover command, where the handover command includes handover execution conditions of one or more candidate cells.
可选的,所述DAPS切换执行条件包括第一条件和第二条件,所述第一条件指示针对候选小区信号质量的要求,所述第二条件指示针对服务小区信号质量的要求。Optionally, the DAPS handover execution condition includes a first condition and a second condition, the first condition indicates a requirement for a signal quality of a candidate cell, and the second condition indicates a requirement for a signal quality of a serving cell.
可选的,所述第一条件包括测量事件A3和/或测量事件A5和/或测量事件A4,所述第二条件包括测量事件A1;或者,所述第一条件包括测量事件A3和/或测量事件A5和/或测量事件A4,所述第二条件包括未运行定时器T310。Optionally, the first condition includes measurement event A3 and/or measurement event A5 and/or measurement event A4, and the second condition includes measurement event A1; or, the first condition includes measurement event A3 and/or Measuring event A5 and/or measuring event A4, the second condition includes not running timer T310.
本发明实施例还公开了一种切换配置方法,切换配置方法包括:配置各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;发送各个候选小区的切换执行条件,所述切换执行条件用于在存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区时,向所述第二候选小区执行DAPS切换。The embodiment of the present invention also discloses a handover configuration method. The handover configuration method includes: configuring the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions; sending each A handover execution condition of a candidate cell, where the handover execution condition is used to perform DAPS handover to the second candidate cell when there is a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition .
可选的,所述发送各个候选小区的切换执行条件包括:发送切换命令,所述切换命令中包括一个或多个候选小区的切换执行条件。Optionally, the sending the handover execution conditions of each candidate cell includes: sending a handover command, where the handover command includes the handover execution conditions of one or more candidate cells.
本发明实施例还公开了一种小区切换装置,小区切换装置包括:获取模块,用于获取各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;判断模块,用于判断候选小区是否满足切换执行条件;切换模块,用于如果存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区,则向所述第二候选小区执行DAPS切换。The embodiment of the present invention also discloses a cell handover device. The cell handover device includes: an acquisition module for acquiring handover execution conditions of each candidate cell, and the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions Execution condition; judging module, used to judge whether the candidate cell satisfies the handover execution condition; handover module, used for if there is a first candidate cell meeting the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, then to all The second candidate cell performs DAPS handover.
本发明实施例还公开了一种切换配置装置,切换配置装置包括:配置模块,用于配置各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和DAPS切换执行条件;发送模块,用于发送各个候选小区的切换执行条件,所述切换执行条件用于在存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区时,向所述第二候选小区执行DAPS切换。The embodiment of the present invention also discloses a handover configuration device. The handover configuration device includes: a configuration module configured to configure the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and DAPS handover execution conditions The sending module is used to send the handover execution condition of each candidate cell, and the handover execution condition is used to send the handover execution condition to the first candidate cell satisfying the non-DAPS handover execution condition and the second candidate cell satisfying the DAPS handover execution condition The second candidate cell performs DAPS handover.
本发明实施例还公开了一种小区切换方法,应用于用户设备,其小区切换方法包括:获取一个或多个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;在候选小区满足切换执行条件时接入所述候选小区;上报小区切换的类型,所述小区切换的类型包括非DAPS切换或DAPS切换。The embodiment of the present invention also discloses a cell handover method, which is applied to user equipment. The cell handover method includes: acquiring handover execution conditions of one or more candidate cells, and the types of handover execution conditions include non-DAPS handover execution conditions and /or DAPS handover execution conditions; access the candidate cell when the candidate cell meets the handover execution conditions; report the type of cell handover, the type of cell handover includes non-DAPS handover or DAPS handover.
可选的,所述上报小区切换的类型包括:在所述候选小区满足所述DAPS切换执行条件时,上报小区切换的类型为DAPS切换;或,在所述候选小区未满足所述DAPS切换执行条件时,上报小区切换的类型为非DAPS切换。Optionally, the reporting the type of cell switching includes: when the candidate cell satisfies the DAPS switching execution condition, reporting the cell switching type is DAPS switching; or, when the candidate cell does not meet the DAPS switching execution condition condition, the reported cell handover type is non-DAPS handover.
可选的,所述小区切换方法还包括:在所述候选小区未满足所述DAPS切换执行条件时,将所建立数据无线承载的PDCP实体配置为仅关联所述候选小区的PDCP实体。Optionally, the cell handover method further includes: when the candidate cell does not satisfy the DAPS handover execution condition, configuring the PDCP entity of the established data radio bearer as the PDCP entity only associated with the candidate cell.
可选的,所述上报小区切换的类型包括:通过随机接入过程中的消息2或消息4上报所述小区切换的类型。Optionally, the reporting the type of cell switching includes: reporting the type of cell switching through message 2 or message 4 in a random access procedure.
本发明实施例还公开了一种小区切换方法,小区切换方法包括:接收小区切换的类型,所述小区切换的类型是对于配置了DAPS切换执行条件的候选小区,用户设备在该小区满足切换执行条件之后,接入所述候选小区时设置的,所述小区切换的类型包括非DAPS切换或DAPS切换;根据所述小区切换的类型配置PDCP实体。The embodiment of the present invention also discloses a cell handover method. The cell handover method includes: receiving the cell handover type, the cell handover type is a candidate cell configured with DAPS handover execution conditions, and the user equipment meets the handover execution requirements in the cell. After the condition, it is set when accessing the candidate cell, the type of cell handover includes non-DAPS handover or DAPS handover; PDCP entity is configured according to the type of cell handover.
可选的,所述根据所述小区切换的类型配置PDCP实体包括:对于配置为DAPS切换的无线数据承载,在所述小区切换的类型为非DAPS切换时,将所述数据无线承载的PDCP实体配置为仅关联所述候选小区的PDCP实体。Optionally, configuring the PDCP entity according to the type of the cell handover includes: for the wireless data bearer configured as DAPS handover, when the type of the cell handover is non-DAPS handover, configuring the PDCP entity of the data wireless bearer It is configured to only associate with the PDCP entity of the candidate cell.
本发明实施例还公开了一种计算机可读存储介质,其上存储有计算机程序,所述计算机程序被处理器运行时执行所述小区切换方法的步骤,或者执行所述切换配置方法的步骤。The embodiment of the present invention also discloses a computer-readable storage medium, on which a computer program is stored, and when the computer program is run by a processor, the steps of the cell handover method are executed, or the steps of the handover configuration method are executed.
本发明实施例还公开了一种用户设备,包括存储器和处理器,所述存储器上存储有可在所述处理器上运行的计算机程序,所述处理器运行所述计算机程序时执行所述小区切换方法的步骤。The embodiment of the present invention also discloses a user equipment, including a memory and a processor, the memory stores a computer program that can run on the processor, and the processor executes the cell when running the computer program. Steps to switch methods.
本发明实施例还公开了一种网络设备,包括存储器和处理器,所述存储器上存储有可在所述处理器上运行的计算机程序,所述处理器运行所述计算机程序时执行所述切换配置方法或所述小区切换方法的步骤。The embodiment of the present invention also discloses a network device, including a memory and a processor, the memory stores a computer program that can run on the processor, and the processor executes the switching when running the computer program Steps in the configuration method or the cell handover method.
与现有技术相比,本发明实施例的技术方案具有以下有益效果:Compared with the prior art, the technical solutions of the embodiments of the present invention have the following beneficial effects:
本发明技术方案中,UE可以获取各个候选小区的切换执行条件,切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件。也即有的候选小区支持进行DAPS切换,有的候选小区支持进行非DAPS切换。那么在既存在满足非DAPS切换执行条件的第一候选小区,又存在满足DAPS切换执行条件的第二候选小区时,UE 向第二候选小区执行DAPS切换,也就是说,UE优先执行DAPS切换,实现了同时配置条件切换和DAPS切换的情况下的小区切换,既能提升切换成功率也能减少切换中断时延。In the technical solution of the present invention, the UE can acquire the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions. That is, some candidate cells support DAPS handover, and some candidate cells support non-DAPS handover. Then, when there is both a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition, the UE performs DAPS handover to the second candidate cell, that is, the UE performs DAPS handover preferentially, The cell handover under the condition of configuring conditional handover and DAPS handover at the same time is realized, which can not only improve the handover success rate but also reduce the handover interruption delay.
附图说明Description of drawings
图1是本发明实施例一种小区切换方法的流程图;FIG. 1 is a flow chart of a cell handover method according to an embodiment of the present invention;
图2是本发明实施例一种小区切换配置方法的流程图;FIG. 2 is a flow chart of a cell handover configuration method according to an embodiment of the present invention;
图3是本发明实施例一种交互流程图;Fig. 3 is an interactive flowchart of an embodiment of the present invention;
图4是本发明实施例一种小区切换装置的结构示意图;FIG. 4 is a schematic structural diagram of a cell handover device according to an embodiment of the present invention;
图5是本发明实施例一种小区切换配置装置的结构示意图;FIG. 5 is a schematic structural diagram of a cell handover configuration device according to an embodiment of the present invention;
图6是本发明实施例另一种小区切换方法的流程图;FIG. 6 is a flow chart of another cell handover method according to an embodiment of the present invention;
图7是本发明实施例又一种小区切换方法的流程图。Fig. 7 is a flow chart of another cell handover method according to the embodiment of the present invention.
具体实施方式Detailed ways
如背景技术中所述,在同时配置条件切换和DAPS切换的情况下,如何实现UE的小区切换是一个亟待解决的技术问题。As mentioned in the background, in the case of configuring conditional handover and DAPS handover at the same time, how to implement cell handover of UE is a technical problem to be solved urgently.
本发明技术方案中,UE可以获取各个候选小区的切换执行条件,切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件。也即有的候选小区支持进行DAPS切换,有的候选小区支持进行非DAPS切换。那么在既存在满足非DAPS切换执行条件的第一候选小区,又存在满足DAPS切换执行条件的第二候选小区时,UE向第二候选小区执行DAPS切换,也就是说,UE优先执行DAPS切换,实现了同时配置条件切换和DAPS切换的情况下的小区切换,既能提升切换成功率也能减少切换中断时延。In the technical solution of the present invention, the UE can acquire the handover execution conditions of each candidate cell, and the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions. That is, some candidate cells support DAPS handover, and some candidate cells support non-DAPS handover. Then, when there is both a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition, the UE performs DAPS handover to the second candidate cell, that is, the UE performs DAPS handover preferentially, The cell handover under the condition of configuring conditional handover and DAPS handover at the same time is realized, which can not only improve the handover success rate but also reduce the handover interruption delay.
本方明技术方案可适用于5G(5 Generation)通信系统,还可适用于4G、3G通信系统,还可适用于未来新的各种通信系统,例如6G、7G等。The Fangming technical solution can be applied to 5G (5 Generation) communication systems, 4G, 3G communication systems, and various new communication systems in the future, such as 6G, 7G, etc.
为使本发明的上述目的、特征和优点能够更为明显易懂,下面结合附图对本发明的具体实施例做详细的说明。In order to make the above objects, features and advantages of the present invention more comprehensible, specific embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.
图1是本发明实施例一种小区切换方法的流程图。Fig. 1 is a flowchart of a cell handover method according to an embodiment of the present invention.
图1所示小区切换方法可以用于用户设备侧,也即可以由用户设备执行所述方法的各个步骤。所述用户设备包括但不限于手机、计算机、平板电脑等终端设备。The cell handover method shown in FIG. 1 can be used on the user equipment side, that is, the user equipment can execute various steps of the method. The user equipment includes, but is not limited to, terminal equipment such as mobile phones, computers, and tablet computers.
具体地,小区切换方法可以包括以下步骤:Specifically, the cell switching method may include the following steps:
步骤101:获取各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;Step 101: Acquiring the handover execution conditions of each candidate cell, the types of the handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
步骤102:判断候选小区是否满足切换执行条件;Step 102: judging whether the candidate cell satisfies the handover execution condition;
步骤103:如果存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区,则向所述第二候选小区执行DAPS切换。Step 103: If there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, perform DAPS handover to the second candidate cell.
需要指出的是,本实施例中各个步骤的序号并不代表对各个步骤的执行顺序的限定。It should be noted that the sequence numbers of the steps in this embodiment do not represent a limitation on the execution order of the steps.
本实施例中,各个候选小区可以是一个候选小区,也可以是多个候选小区。In this embodiment, each candidate cell may be one candidate cell, or may be multiple candidate cells.
具体实施中,对于同一个候选小区,可以认为在满足DAPS切换执行条件时,也会满足非DAPS切换执行条件,此时UE针对该候选小区,总是执行DAPS切换。即如果第二候选小区就是第一候选小区时,UE针对该候选小区执行DAPS切换。In specific implementation, for the same candidate cell, it can be considered that when the DAPS handover execution condition is satisfied, the non-DAPS handover execution condition is also satisfied, and at this time, the UE always performs DAPS handover for the candidate cell. That is, if the second candidate cell is the first candidate cell, the UE performs DAPS handover for the candidate cell.
可以理解的是,在具体实施中,所述小区切换方法可以采用软件程序的方式实现,该软件程序运行于芯片或芯片模组内部集成的处理器中。It can be understood that, in a specific implementation, the cell handover method may be implemented in the form of a software program, and the software program runs in a processor integrated in a chip or a chip module.
本实施例中,UE可以从切换命令中获取各个候选小区的切换执 行条件(Handover execution condition)。不同的候选小区可以配置不同或相同的切换执行条件。例如,候选小区Cell1的切换执行条件可以是DAPS切换执行条件,候选小区Cell2的切换执行条件可以是非DAPS切换执行条件,候选小区Cell3的切换执行条件可以是DAPS切换执行条件。In this embodiment, the UE can obtain the handover execution condition (Handover execution condition) of each candidate cell from the handover command. Different candidate cells may be configured with different or the same handover execution conditions. For example, the handover execution condition of the candidate cell Cell1 may be a DAPS handover execution condition, the handover execution condition of the candidate cell Cell2 may be a non-DAPS handover execution condition, and the handover execution condition of the candidate cell Cell3 may be a DAPS handover execution condition.
例如,UE建立了数据无线承载(Data Radio Bearer,DRB)DRB1、DRB2和DRB3,切换命令中包括针对候选小区cell1时,DRB1配置为DAPS切换,其对应的切换执行条件称为DAPS切换执行条件,此时DRB2和DRB3可以配置为非DAPS切换;针对候选小区cell1可以配置非DAPS切换对应的切换执行条件,即普通切换对应的切换执行条件,此时所有的DRB均没有配置为DAPS切换;针对其他候选小区如cell2,如果所有DRB均没有配置为DAPS切换,则此时网络配置非DAPS切换对应的切换执行条件。For example, when the UE establishes data radio bearers (Data Radio Bearer, DRB) DRB1, DRB2, and DRB3, when the handover command includes the candidate cell cell1, DRB1 is configured as DAPS handover, and the corresponding handover execution conditions are called DAPS handover execution conditions, At this time, DRB2 and DRB3 can be configured as non-DAPS handover; for candidate cell cell1, you can configure the handover execution conditions corresponding to non-DAPS handover, that is, the handover execution conditions corresponding to normal handover. At this time, all DRBs are not configured as DAPS handover; for other For a candidate cell such as cell2, if all DRBs are not configured for DAPS handover, then the network configures handover execution conditions corresponding to non-DAPS handover.
在一个具体的实施例中,DAPS切换执行条件包括第一条件和第二条件,所述第一条件指示针对候选小区信号质量的要求,所述第二条件指示针对服务小区信号质量的要求。非DAPS切换执行条件则可以仅包括第一条件。In a specific embodiment, the DAPS handover execution condition includes a first condition and a second condition, the first condition indicates the requirement for the signal quality of the candidate cell, and the second condition indicates the requirement for the signal quality of the serving cell. The non-DAPS handover execution condition may only include the first condition.
具体地,所述第一条件包括测量事件A3和/或测量事件A5和/或测量事件A4,所述第二条件包括测量事件A1;Specifically, the first condition includes measurement event A3 and/or measurement event A5 and/or measurement event A4, and the second condition includes measurement event A1;
或者,所述第一条件包括测量事件A3和/或测量事件A5和/或测量事件A4,所述第二条件包括未运行定时器T310,第二条件也可以是定时器T310没有超时。Alternatively, the first condition includes the measurement event A3 and/or the measurement event A5 and/or the measurement event A4, the second condition includes the timer T310 not running, and the second condition may also be that the timer T310 has not timed out.
具体实施中,UE在判断候选小区是否满足切换执行条件时,可以执行信号测量,如测量候选小区的信号质量,和/或测量服务小区的信号质量。并将候选小区的信号质量和/或服务小区的信号质量与切换执行条件进行比对。其中,服务小区可以是UE所接入的主小区,也可以是在载波聚合状态下的任何一个服务小区。具体地,信号质量可以有不同的形式,如参考信号的接收功率、或者参考信号的接收质 量、或者参考信号的信干噪比等。In a specific implementation, when judging whether the candidate cell satisfies the handover execution condition, the UE may perform signal measurement, such as measuring the signal quality of the candidate cell and/or measuring the signal quality of the serving cell. And compare the signal quality of the candidate cell and/or the signal quality of the serving cell with the handover execution condition. Wherein, the serving cell may be a primary cell accessed by the UE, or any serving cell in a carrier aggregation state. Specifically, the signal quality can have different forms, such as the received power of the reference signal, or the received quality of the reference signal, or the signal-to-interference-noise ratio of the reference signal, and so on.
需要说明的是,如果UE发现T310已经运行,当前已经超时,UE认为第二条件不满足。实际中还可以有其他方式用于判定服务小区是否满足第二条件,如服务小区发生了无线链路失败,或者UE发现与服务小区处于失步,均可以认为服务小区信号质量不满足要求,UE不能执行DAPS切换。换言之,本发明实施例中第二条件可以是服务小区未发生无线链路失败或与服务小区同步。It should be noted that if the UE finds that T310 has been running and has timed out, the UE considers that the second condition is not met. In practice, there are other ways to determine whether the serving cell satisfies the second condition. For example, if the radio link failure occurs in the serving cell, or the UE finds that it is out of synchronization with the serving cell, it can be considered that the signal quality of the serving cell does not meet the requirements, and the UE Cannot perform DAPS switchover. In other words, the second condition in the embodiment of the present invention may be that no radio link failure occurs in the serving cell or synchronization with the serving cell occurs.
本实施例中,在既存在满足非DAPS切换执行条件的第一候选小区,又存在满足DAPS切换执行条件的第二候选小区时,UE向第二候选小区执行DAPS切换,也就是说,UE优先执行DAPS切换。In this embodiment, when there is a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition, the UE performs DAPS handover to the second candidate cell, that is, the UE has priority Perform DAPS switchover.
具体地,UE利用切换命令中包含的第二候选小区的配置参数接入第二候选小区,与第二候选小区取得同步,在第二候选小区发起随机接入流程,在发送了切换完成命令(即无线资源控制(Radio Resource Control,RRC)重配置完成)之后,UE实现切换到第二候选小区。在切换过程中UE同时保持与源基站、以及与目标基站(也即第二候选小区所属基站)的通信。在切换的过程中,UE等到UE已经与第二候选小区开展正常通信之后且收到第二候选小区发送的释放源侧链路的指示之后才释放与源基站的连接。Specifically, the UE uses the configuration parameters of the second candidate cell included in the handover command to access the second candidate cell, obtains synchronization with the second candidate cell, initiates a random access procedure in the second candidate cell, and sends the handover complete command ( That is, after radio resource control (Radio Resource Control, RRC) reconfiguration is completed), the UE implements handover to the second candidate cell. During the handover process, the UE maintains communication with the source base station and the target base station (ie, the base station to which the second candidate cell belongs) at the same time. During the handover process, the UE releases the connection with the source base station after the UE has started normal communication with the second candidate cell and receives an instruction to release the source side link sent by the second candidate cell.
本发明实施例实现了同时配置条件切换和DAPS切换的情况下的小区切换,既能提升切换成功率也能减少切换中断时延。The embodiment of the present invention realizes cell handover under the condition of simultaneously configuring conditional handover and DAPS handover, which can not only improve handover success rate but also reduce handover interruption delay.
在一个非限制性的实施例中,如果所述第二候选小区的数量为多个,则从多个第二候选小区中随机选择一个第二候选小区执行DAPS切换。In a non-limiting embodiment, if there are multiple second candidate cells, one second candidate cell is randomly selected from the multiple second candidate cells to perform DAPS handover.
在一个具体的应用场景中,UE在收到了候选小区Cell1、Cell2、Cell3的配置,以及对应的切换执行条件后,UE就评估这三个候选小区的信号质量,以及评估服务小区的信号质量。可能候选小区Cell1和Cell2同时满足切换执行条件,此时UE发现对于Cell1可以执行 DAPS切换,即Cell1满足测量事件A3/A5/A4,且服务小区满足测量事件A1或者定时器T310没有启动,而对于Cell2仅能执行普通切换。此时UE优选执行DAPS切换,即优先向Cell1执行切换。In a specific application scenario, after the UE receives the configurations of the candidate cells Cell1, Cell2, and Cell3 and the corresponding handover execution conditions, the UE evaluates the signal quality of the three candidate cells and the signal quality of the serving cell. It is possible that the candidate cells Cell1 and Cell2 meet the handover execution conditions at the same time. At this time, the UE finds that Cell1 can perform DAPS handover, that is, Cell1 meets the measurement event A3/A5/A4, and the serving cell meets the measurement event A1 or the timer T310 is not started. Cell2 can only perform normal switching. At this time, the UE preferably performs DAPS handover, that is, performs handover to Cell1 preferentially.
对于另一种场景,候选小区Cell1和Cell3同时满足切换执行条件,且Cell1和Cell3均可以实施DAPS切换,此时UE可以随机选择Cell1或Cell3执行切换。或者UE可以选择信号质量最好的候选小区执行切换,或者UE可以优先选择与服务小区同频的候选小区执行切换。For another scenario, the candidate cells Cell1 and Cell3 meet the handover execution conditions at the same time, and both Cell1 and Cell3 can implement DAPS handover, at this time, the UE can randomly select Cell1 or Cell3 to perform handover. Alternatively, the UE may select a candidate cell with the best signal quality to perform handover, or the UE may preferentially select a candidate cell with the same frequency as the serving cell to perform handover.
相应地,网络设备可以执行图2所示的切换配置方法。所述网络设备可以是源基站。Correspondingly, the network device can execute the handover configuration method shown in FIG. 2 . The network device may be a source base station.
具体地,切换配置方法包括以下步骤:Specifically, the switching configuration method includes the following steps:
步骤201:配置各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;Step 201: Configure handover execution conditions for each candidate cell, the types of handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
步骤202:发送各个候选小区的切换执行条件,所述切换执行条件用于在存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区时,向所述第二候选小区执行DAPS切换。Step 202: Send the handover execution conditions of each candidate cell, and the handover execution conditions are used to notify the second candidate cell when there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition. The candidate cell performs DAPS handover.
具体实施中,源基站可以根据候选目标基站的反馈确认其是否支持DAPS切换,从而配置各个候选小区的切换执行条件。In specific implementation, the source base station can confirm whether it supports DAPS handover according to the feedback from the candidate target base station, so as to configure the handover execution conditions of each candidate cell.
源基站通过切换命令将切换执行条件发送给UE。The source base station sends the handover execution condition to the UE through the handover command.
在一个具体应用场景中,一个UE建立了3个承载,DRB1、DRB2和DRB3,其中DRB1的服务质量参数要求较高,要求数据传输时延较短,因此服务基站(在切换之前为源基站)准备为DRB1配置DAPS切换,而其他两个DRB不配置DAPS切换。同时为了满足切换的成功率,服务基站打算为UE配置条件切换。服务基站在收到UE发送的测量报告之后,发现UE已经不在小区的中心区域,为了满足移动性,服务基站依据UE上报的测量报告,选择Cell1、Cell2作为UE 切换的候选小区。那么源基站(在与候选基站协商之后)可以通过切换命令指示针对候选小区Cell1,DRB1配置为DAPS切换,其他两个DRB为非DAPS切换,以及相应的切换执行条件;指示候选小区Cell2为非DAPS切换(也即条件切换),以及相应的切换执行条件。In a specific application scenario, a UE establishes three bearers, DRB1, DRB2, and DRB3. Among them, DRB1 has higher requirements for service quality parameters and requires a shorter data transmission delay. Therefore, the serving base station (the source base station before the handover) Prepare to configure DAPS switching for DRB1, while the other two DRBs do not configure DAPS switching. At the same time, in order to meet the handover success rate, the serving base station intends to configure conditional handover for the UE. After receiving the measurement report sent by the UE, the serving base station finds that the UE is no longer in the central area of the cell. To satisfy mobility, the serving base station selects Cell1 and Cell2 as candidate cells for UE handover according to the measurement report reported by the UE. Then the source base station (after negotiating with the candidate base station) can indicate that for the candidate cell Cell1, DRB1 is configured as DAPS handover, the other two DRBs are non-DAPS handover, and the corresponding handover execution conditions; indicate that the candidate cell Cell2 is non-DAPS Switching (that is, conditional switching), and the corresponding switching execution conditions.
切换命令可以通过一条RRC信令或者多条RRC信令向UE发送,即可以同时发送第一条件和第二条件,也可以分别发送第一条件和第二条件。The handover command can be sent to the UE through one RRC signaling or multiple RRC signalings, that is, the first condition and the second condition can be sent simultaneously, or the first condition and the second condition can be sent separately.
请参照图3,图3示出了一种交互流程图。Please refer to FIG. 3 , which shows an interaction flowchart.
在步骤301中,源基站302向候选目标基站303发送切换请求。In step 301 , the source base station 302 sends a handover request to the candidate target base station 303 .
在步骤302中,源基站302向候选目标基站304发送切换请求。In step 302 , the source base station 302 sends a handover request to the candidate target base station 304 .
具体实施中,源基站302依据UE301上报的测量报告,选择候选小区Cell1、Cell2和Cell3作为UE301切换的候选小区,源基站302可以依次向这三个小区所属的基站(即候选目标基站303和候选目标基站304)发送切换请求。候选小区Cell3所属的基站未在图中示出。切换请求中指示是条件切换。In a specific implementation, the source base station 302 selects the candidate cells Cell1, Cell2 and Cell3 as the candidate cells for UE301 handover according to the measurement report reported by the UE301, and the source base station 302 can sequentially report to the base stations to which these three cells belong (that is, the candidate target base station 303 and the candidate cell). The target base station 304) sends a handover request. The base station to which the candidate cell Cell3 belongs is not shown in the figure. The indication in the handover request is a conditional handover.
在具体实施中,源基站302向Cell1所属基站(候选目标基站303)发送的切换请求中指示本次切换是条件切换,以及指示DRB1请求配置为DAPS切换,其他两个DRB为非DAPS切换,切换请求中不需要向候选目标基站303指示切换执行条件。In a specific implementation, the handover request sent by the source base station 302 to the base station to which Cell1 belongs (candidate target base station 303) indicates that this handover is a conditional handover, and indicates that the DRB1 request is configured as a DAPS handover, and that the other two DRBs are non-DAPS handovers. The request does not need to indicate the handover execution condition to the candidate target base station 303 .
源基站302向Cell2所属基站(候选目标基站304)发送的切换请求中指示本次切换是条件切换。源基站302基于UE301支持的带宽组合判断UE301从服务小区切换到Cell2不能支持DAPS切换,因此切换请求中没有包含DAPS切换的信息。The handover request sent by the source base station 302 to the base station to which Cell2 belongs (candidate target base station 304 ) indicates that this handover is a conditional handover. The source base station 302 judges based on the bandwidth combination supported by the UE301 that the handover of the UE301 from the serving cell to the Cell2 cannot support the DAPS handover, so the handover request does not include DAPS handover information.
源基站302向Cell3所属基站发送的切换请求中指示本次切换是条件切换,以及指示DRB1配置为DAPS切换,其他两个DRB为非DAPS切换。The handover request sent by the source base station 302 to the base station to which Cell3 belongs indicates that this handover is conditional handover, and indicates that DRB1 is configured as DAPS handover, and the other two DRBs are non-DAPS handover.
在步骤303中,候选目标基站303向源基站302发送切换请求确认。In step 303 , the candidate target base station 303 sends a handover request confirmation to the source base station 302 .
在步骤304中,候选目标基站304向源基站302发送切换请求确认。In step 304 , the candidate target base station 304 sends a handover request acknowledgment to the source base station 302 .
具体实施中,候选目标基站303和304可以基于自身的负载水平,决定是否接受切换请求,如果接受,为UE配置必要的无线资源,然后向源基站返回切换请求确认(可以称为Handover Request Acknowledge,或者Handover Preparation Acknowledge);如果不接受,则向源基站返回请求失败。In specific implementation, candidate target base stations 303 and 304 can decide whether to accept the handover request based on their own load levels, and if accepted, configure necessary radio resources for the UE, and then return a handover request confirmation (which may be called Handover Request Acknowledge, or Handover Preparation Acknowledge); if not accepted, return request failure to the source base station.
具体实施中,对于候选目标基站303,如果接受切换请求,可以存在两种处理:In specific implementation, for the candidate target base station 303, if the handover request is accepted, there may be two kinds of processing:
1、候选目标基站303可以配置仅支持条件切换的无线资源(即仅用于条件切换的无线资源配置,该配置中不包含DAPS切换信息),然后向源基站302返回切换请求确认;1. The candidate target base station 303 can configure radio resources that only support conditional handover (that is, radio resource configuration only for conditional handover, which does not include DAPS handover information), and then return a handover request confirmation to the source base station 302;
2、候选目标基站303可以配置支持条件切换和DAPS切换的无线资源,对于本场景,候选目标基站303配置DRB1为DAPS切换,为UE额外配置DAPS相关的参数,具体可以是功控参数,比如配置在DAPS切换过程中上行功率共享的模式(uplinkPowerSharingDAPS-Mode),配置的无线参数等,以供UE301判断Cell1满足切换执行条件之后应用。2. The candidate target base station 303 can configure wireless resources that support conditional handover and DAPS handover. For this scenario, the candidate target base station 303 configures DRB1 for DAPS handover, and additionally configures DAPS-related parameters for the UE. Specifically, it can be power control parameters, such as configuring During the DAPS handover process, the uplink power sharing mode (uplinkPowerSharingDAPS-Mode), configured wireless parameters, etc., are used by UE301 after judging that Cell1 satisfies the handover execution condition.
候选目标基站303可以通过两条独立的接口信令分别向源基站指示仅配置支持条件切换的无线资源、和配置支持条件切换和DAPS切换的无线资源。The candidate target base station 303 may respectively indicate to the source base station to configure only radio resources supporting conditional handover, and to configure radio resources supporting conditional handover and DAPS handover through two independent interface signalings.
候选目标基站303还可以在一条切换请求确认消息中同时指示仅配置支持条件切换的第一无线资源配置(Target NG-RAN node To Source NG-RAN node Transparent Container 1)、和配置支持条件切换和DAPS切换的第二无线资源配置(Target NG-RAN node To Source  NG-RAN node Transparent Container 2)。通常候选目标基站为UE配置的无线资源均放置在一个透明容器(Transparent Container)中,源基站不需要解析这个容器中的内容,直接发送给UE。如果在一条切换请求确认消息中同时指示仅配置支持条件切换的无线资源(以Transparent Container 1表示)、和配置支持条件切换和DAPS切换的无线资源(以Transparent Container 2表示),候选目标基站需要向源基站明确Transparent Container对应的配置是哪一种。候选目标基站可以指示Transparent Container 2配置了DAPS(通过额外的信元指示),而Transparent Container 1没有配置DAPS;或者仅指示Transparent Container 2配置了DAPS,默认没有指示配置DAPS的Transparent Container 1是不包含DAPS的。The candidate target base station 303 can also indicate in a handover request confirmation message that only the first radio resource configuration (Target NG-RAN node To Source NG-RAN node Transparent Container 1) that supports conditional handover is configured, and that the configuration supports conditional handover and DAPS Switched second radio resource configuration (Target NG-RAN node To Source NG-RAN node Transparent Container 2). Usually, the wireless resources configured by the candidate target base station for the UE are placed in a transparent container (Transparent Container), and the source base station does not need to parse the content in this container, and sends it directly to the UE. If a handover request acknowledgment message indicates that only radio resources that support conditional handover (indicated by Transparent Container 1) and wireless resources that support conditional handover and DAPS handover (indicated by Transparent Container 2) are configured, the candidate target base station needs to send The source base station specifies which configuration corresponds to the Transparent Container. The candidate target base station can indicate that Transparent Container 2 is configured with DAPS (indicated by an additional cell), while Transparent Container 1 is not configured with DAPS; or only indicates that Transparent Container 2 is configured with DAPS, and does not indicate that Transparent Container 1 with DAPS is not included by default. DAPS.
对于候选目标基站304仅需要配置条件切换对应的无线资源,然后通过切换请求确认发送给源基站302。候选小区Cell3所属的基站可以采用与候选目标基站303相同的处理机制。The candidate target base station 304 only needs to configure the radio resource corresponding to the handover condition, and then send it to the source base station 302 through a handover request confirmation. The base station to which the candidate cell Cell3 belongs may adopt the same processing mechanism as that of the candidate target base station 303 .
在步骤305中,源基站302向UE301发送切换命令。In step 305, the source base station 302 sends a handover command to the UE 301 .
具体地,源基站302收到不同候选目标基站返回的切换请求确认后,配置相应的切换执行条件,携带于切换命令中发送给UE。不同的候选小区可以配置不同或相同的切换执行条件。Specifically, after receiving handover request confirmations returned by different candidate target base stations, the source base station 302 configures corresponding handover execution conditions, carries them in the handover command and sends them to the UE. Different candidate cells may be configured with different or the same handover execution conditions.
在步骤306中,UE301测量并评估候选小区的信号质量以及服务小区的信号质量。In step 306, UE301 measures and evaluates the signal quality of the candidate cell and the signal quality of the serving cell.
在步骤307中,UE301在候选小区满足切换执行条件时,执行切换。In step 307, UE301 executes handover when the candidate cell satisfies the handover execution condition.
具体实施中,对于候选小区Cell1,有两种无线资源配置,源基站302可以设置不同的切换执行条件,源基站302除了沿用原有的切换执行条件如事件A3和/或A5和/或A4,,还需要设置服务小区的信号质量满足一定的要求,比如可以增加事件A1,此时切换执行条件包含A3/A5/A4+A1,分别针对候选目标小区和服务小区。如传输透 明容器(Transparent Container 2)是配置了DAPS的条件切换,源基站302配置A3/A5/A4+A1作为Cell1的切换执行条件,UE收到Transparent Container 2以及A3/A5/A4+A1的切换执行条件之后,就开始评估Cell1和服务小区,如果Cell1满足A3/A5/A4,并且服务小区满足A1,UE向Cell1执行切换,UE依据Cell1为UE配置的DAPS切换配置(通过Transparent Container 2),实施DAPS切换,即针对DRB1采用DAPS切换,UE将DRB1的PDCP实体重配置为用于DAPS切换的PDCP实体,此时该PDCP实体可以同时处理来自源侧和目标侧的数据,UE在实施接入Cell1时,继续维持与服务小区的连接,在UE成功接入Cell1之后,UE同时与源服务小区和Cell1保持数据传输,等到Cell1向UE发送释放源侧的连接时,UE才会释放与源侧的连接。In specific implementation, for the candidate cell Cell1, there are two radio resource configurations, and the source base station 302 can set different handover execution conditions. In addition to using the original handover execution conditions such as events A3 and/or A5 and/or A4, the source base station 302, , it is also necessary to set the signal quality of the serving cell to meet certain requirements. For example, event A1 can be added. At this time, the handover execution conditions include A3/A5/A4+A1, which are respectively for the candidate target cell and the serving cell. For example, the transmission transparent container (Transparent Container 2) is configured with DAPS conditional handover, and the source base station 302 configures A3/A5/A4+A1 as the handover execution condition of Cell1, and the UE receives the transparent container 2 and A3/A5/A4+A1 After the handover execution conditions, start to evaluate Cell1 and the serving cell, if Cell1 meets A3/A5/A4, and the serving cell meets A1, the UE performs handover to Cell1, and the UE configures the DAPS handover configuration for the UE based on Cell1 (via Transparent Container 2) , implement DAPS handover, that is, DAPS handover is adopted for DRB1, and the UE reconfigures the PDCP entity of DRB1 as a PDCP entity for DAPS handover. At this time, the PDCP entity can process data from the source side and the target side at the same time. When entering Cell1, continue to maintain the connection with the serving cell. After the UE successfully accesses Cell1, the UE maintains data transmission with the source serving cell and Cell1 at the same time. When Cell1 sends a release source connection to the UE, the UE will release the connection with the source side. side connections.
在一个可选实施例中,对于配置了DAPS的条件切换的候选小区Cell1,源基站可以不显式配置切换执行条件,沿用现有A3/A5/A4判断邻区是否满足切换条件;同时UE依据服务小区的信号质量如是否启动T310判断是否执行DAPS切换,当T310没有运行(包括没有超时)时,UE执行DAPS切换;否则UE执行非DAPS切换。In an optional embodiment, for the candidate cell Cell1 configured with DAPS conditional handover, the source base station may not explicitly configure the handover execution conditions, and use the existing A3/A5/A4 to determine whether the neighboring cell meets the handover conditions; The signal quality of the serving cell determines whether to perform DAPS handover if T310 is started. When T310 is not running (including no timeout), UE performs DAPS handover; otherwise, UE performs non-DAPS handover.
对于候选小区Cell2,源基站302可以仅设置A3/A5/A4的切换执行条件,以便UE针对Cell2评估是否满足切换执行条件。For the candidate cell Cell2, the source base station 302 may only set the handover execution condition of A3/A5/A4, so that the UE evaluates whether the handover execution condition is met for Cell2.
对于候选小区Cell3,源基站302可以设置A3/A5/A4+A1的切换执行条件,或者仅设置A3/A5/A4的切换执行条件,UE对于DAPS切换额外采用T310进行判断。For the candidate cell Cell3, the source base station 302 can set the handover execution conditions of A3/A5/A4+A1, or only set the handover execution conditions of A3/A5/A4, and the UE additionally uses T310 to judge the DAPS handover.
具体实施中,UE301在收到了候选小区Cell1、Cell2、Cell3的配置,以及对应的切换执行条件后,UE就评估这三个候选小区的信号质量,以及评估服务小区的信号质量。可能候选小区Cell1和候选小区Cell2同时满足切换执行条件,此时UE301发现对于Cell1可以执行DAPS切换,即Cell1满足测量事件A3/A5/A4,且服务小区满足测量事件A1或者T310没有启动(包括T310未超时),而对于Cell2 仅能执行普通切换。此时UE301优选执行DAPS切换,即优先向Cell1执行切换。进一步而言,如果Cell1和Cell3同时满足切换执行条件,且针对Cell1和Cell3均可以实施DAPS切换时,UE301可以随机选择Cell1或Cell3执行切换。In a specific implementation, after UE301 receives configurations of candidate cells Cell1, Cell2, and Cell3 and corresponding handover execution conditions, UE evaluates the signal quality of the three candidate cells and the signal quality of the serving cell. It is possible that the candidate cell Cell1 and the candidate cell Cell2 meet the handover execution conditions at the same time. At this time, UE301 finds that DAPS handover can be performed for Cell1, that is, Cell1 satisfies the measurement event A3/A5/A4, and the serving cell satisfies the measurement event A1 or T310 is not started (including T310 not timed out), while for Cell2 only normal switching can be performed. At this time, UE301 preferably performs DAPS handover, that is, performs handover to Cell1 preferentially. Further, if Cell1 and Cell3 simultaneously meet the handover execution conditions, and both Cell1 and Cell3 can implement DAPS handover, UE301 may randomly select Cell1 or Cell3 to perform handover.
在步骤S308中,UE301与候选目标基站303之间执行随机接入。In step S308 , random access is performed between the UE 301 and the candidate target base station 303 .
在步骤S309中,UE301向候选目标基站303发送RRC重配置完成。In step S309 , UE 301 sends RRC reconfiguration complete to candidate target base station 303 .
具体实施中,UE301可以在RRC重配置完成信令中上报切换类型。In a specific implementation, UE301 may report the handover type in the RRC reconfiguration complete signaling.
例如,UE301发现仅Cell1的信号质量满足测量事件A3/A5/A4,但是服务小区的信号质量不满测量事件A1,此时UE执行向Cell1的切换,该切换是普通切换,即DRB1不适用DAPS切换。UE对于DRB1的PDCP实体,重配置为适用于Cell1的PDCP实体,UE执行切换时,中断与源服务小区的连接。为了使候选目标基站303能够及时获知本次切换仅是普通的切换即非DAPS切换,UE在成功接入Cell1时,向候选目标基站303指示此次切换是非DAPS切换或普通切换,以便候选目标基站303对于DRB1恢复不支持DAPS的PDCP实体即正常的PDCP实体,及时触发核心网侧的路径切换Path Switch。For example, UE301 finds that only the signal quality of Cell1 meets the measurement event A3/A5/A4, but the signal quality of the serving cell is not satisfied with the measurement event A1. At this time, the UE performs a handover to Cell1, which is a normal handover, that is, DRB1 is not suitable for DAPS handover . The UE reconfigures the PDCP entity of DRB1 as a PDCP entity applicable to Cell1, and when the UE performs handover, the connection with the source serving cell is interrupted. In order for the candidate target base station 303 to know in time that this handover is only a normal handover, that is, a non-DAPS handover, when the UE successfully accesses Cell1, it indicates to the candidate target base station 303 that this handover is a non-DAPS handover or a normal handover, so that the candidate target base station 303 For the DRB1 to restore the PDCP entity that does not support DAPS, that is, the normal PDCP entity, trigger the Path Switch on the core network side in time.
关于UE与基站之间通过随机接入的流程接入目标小区可参照现有技术,此处不再赘述。For accessing the target cell through a random access process between the UE and the base station, reference may be made to the prior art, which will not be repeated here.
请参照图4,本发明实施例还公开了一种小区切换装置40。小区切换装置40可以包括:Referring to FIG. 4 , the embodiment of the present invention also discloses a cell handover device 40 . The cell switching device 40 may include:
获取模块401,用于获取各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;An acquisition module 401, configured to acquire handover execution conditions of each candidate cell, where the types of handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
判断模块402,用于判断候选小区是否满足切换执行条件;Judging module 402, used to judge whether the candidate cell satisfies the handover execution condition;
切换模块403,用于如果存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区,则向所述第二候选小区执行DAPS切换。The handover module 403 is configured to perform DAPS handover to the second candidate cell if there is a first candidate cell meeting the non-DAPS handover execution condition and a second candidate cell meeting the DAPS handover execution condition.
在一个可选的实施方式中,同一个候选小区可以配置非DAPS切换执行条件和DAPS切换执行条件,如果两个执行条件同时满足,UE向该候选小区优先执行DAPS切换。In an optional embodiment, a non-DAPS handover execution condition and a DAPS handover execution condition may be configured for the same candidate cell, and if the two execution conditions are satisfied at the same time, the UE preferentially executes the DAPS handover to the candidate cell.
在具体实施中,上述小区切换装置可以对应于用户设备中具有小区切换功能的芯片,例如SOC(System-On-a-Chip,片上系统)、基带芯片等;或者对应于用户设备中包括具有小区切换功能的芯片模组;或者对应于具有数据处理功能芯片的芯片模组,或者对应于用户设备。In a specific implementation, the above-mentioned cell switching device may correspond to a chip with a cell switching function in the user equipment, such as a SOC (System-On-a-Chip, system on chip), a baseband chip, etc.; A chip module with a switching function; or corresponding to a chip module with a chip with a data processing function, or corresponding to a user equipment.
请参照图5,本发明实施例还公开了一种小区切换配置装置50。小区切换配置装置50可以包括:Referring to FIG. 5 , the embodiment of the present invention also discloses a cell handover configuration device 50 . The cell switching configuration device 50 may include:
配置模块501,用于配置各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件; Configuration module 501, configured to configure handover execution conditions of each candidate cell, where the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions;
发送模块502,用于发送各个候选小区的切换执行条件,所述切换执行条件用于在存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区时,向所述第二候选小区执行DAPS切换。The sending module 502 is configured to send the handover execution condition of each candidate cell, and the handover execution condition is used to send the handover execution condition to all candidate cells when there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition The second candidate cell performs DAPS handover.
在具体实施中,上述小区切换配置装置可以对应于网络设备中具有小区切换配置功能的芯片,例如SOC(System-On-a-Chip,片上系统)、基带芯片等;或者对应于网络设备中包括具有小区切换配置功能的芯片模组;或者对应于具有数据处理功能芯片的芯片模组,或者对应于网络设备。In a specific implementation, the above-mentioned cell switching configuration device may correspond to a chip with a cell switching configuration function in the network device, such as a SOC (System-On-a-Chip, system on chip), a baseband chip, etc.; or correspond to a network device including A chip module with a cell switching configuration function; or corresponding to a chip module with a data processing function chip, or corresponding to a network device.
关于所述小区切换装置40或小区切换配置装置50的工作原理、工作方式的更多内容,可以参照图1至图3中的相关描述,这里不再 赘述。For more details about the working principle and working mode of the cell handover device 40 or the cell handover configuration device 50, you can refer to the relevant descriptions in Fig. 1 to Fig. 3 , which will not be repeated here.
关于上述实施例中描述的各个装置、产品包含的各个模块/单元,其可以是软件模块/单元,也可以是硬件模块/单元,或者也可以部分是软件模块/单元,部分是硬件模块/单元。例如,对于应用于或集成于芯片的各个装置、产品,其包含的各个模块/单元可以都采用电路等硬件的方式实现,或者,至少部分模块/单元可以采用软件程序的方式实现,该软件程序运行于芯片内部集成的处理器,剩余的(如果有)部分模块/单元可以采用电路等硬件方式实现;对于应用于或集成于芯片模组的各个装置、产品,其包含的各个模块/单元可以都采用电路等硬件的方式实现,不同的模块/单元可以位于芯片模组的同一组件(例如芯片、电路模块等)或者不同组件中,或者,至少部分模块/单元可以采用软件程序的方式实现,该软件程序运行于芯片模组内部集成的处理器,剩余的(如果有)部分模块/单元可以采用电路等硬件方式实现;对于应用于或集成于终端的各个装置、产品,其包含的各个模块/单元可以都采用电路等硬件的方式实现,不同的模块/单元可以位于终端内同一组件(例如,芯片、电路模块等)或者不同组件中,或者,至少部分模块/单元可以采用软件程序的方式实现,该软件程序运行于终端内部集成的处理器,剩余的(如果有)部分模块/单元可以采用电路等硬件方式实现。Regarding each device described in the above embodiments, each module/unit contained in the product may be a software module/unit, or a hardware module/unit, or may be partly a software module/unit and partly a hardware module/unit. . For example, for each device or product applied to or integrated into a chip, each module/unit contained therein may be realized by hardware such as a circuit, or at least some modules/units may be realized by a software program, and the software program Running on the integrated processor inside the chip, the remaining (if any) modules/units can be realized by means of hardware such as circuits; They are all realized by means of hardware such as circuits, and different modules/units can be located in the same component (such as chips, circuit modules, etc.) or different components of the chip module, or at least some modules/units can be realized by means of software programs, The software program runs on the processor integrated in the chip module, and the remaining (if any) modules/units can be realized by hardware such as circuits; /Units can be realized by means of hardware such as circuits, and different modules/units can be located in the same component (such as chips, circuit modules, etc.) or different components in the terminal, or at least some modules/units can be implemented in the form of software programs Realization, the software program runs on the processor integrated in the terminal, and the remaining (if any) modules/units can be implemented by means of hardware such as circuits.
请参照图6,本发明实施例还公开了另一种小区切换方法,所述小区切换方法可以用于用户设备侧,也即可以由用户设备执行所述方法的各个步骤。Referring to FIG. 6 , the embodiment of the present invention also discloses another cell handover method, which can be used on the user equipment side, that is, the user equipment can perform each step of the method.
具体地,小区切换方法可以包括以下步骤:Specifically, the cell switching method may include the following steps:
步骤601:获取一个或多个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;Step 601: Obtain handover execution conditions of one or more candidate cells, the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions;
步骤602:在候选小区满足切换执行条件时接入所述候选小区;Step 602: accessing the candidate cell when the candidate cell satisfies the handover execution condition;
步骤603:上报小区切换的类型,所述小区切换的类型包括非DAPS切换或DAPS切换。Step 603: Report the type of cell handover, the type of cell handover includes non-DAPS handover or DAPS handover.
本发明实施例中,UE从切换命令中获取切换执行条件,并据此执行小区切换。为了使目标小区能够及时获知本次切换是非DAPS切换还是DAPS切换,UE可以在成功接入候选小区(此时为目标小区)时,向候选小区所属的目标基站上报切换类型。In the embodiment of the present invention, the UE acquires the handover execution condition from the handover command, and performs cell handover accordingly. In order for the target cell to know in time whether this handover is non-DAPS handover or DAPS handover, the UE may report the handover type to the target base station to which the candidate cell belongs when it successfully accesses the candidate cell (the target cell at this time).
具体实施中,如果切换类型是非DAPS切换,则目标基站配置正常的PDCP实体,并及时触发核心网侧的路径切换(Path Switch)。如果切换类型是DAPS切换,则目标基站在随机接入过程中发现UE成功接入之后,目标基站会向源基站发送切换成功(Handover Success)信令通知UE已经成功接入,源基站会向目标基站返回序列号状态转移(SN STATUS TRANSFER)消息通知关于DAPS承载的数据传输状态信息。In a specific implementation, if the handover type is non-DAPS handover, the target base station configures a normal PDCP entity, and triggers a path switch (Path Switch) on the core network side in time. If the handover type is DAPS handover, after the target base station finds that the UE has successfully accessed during the random access process, the target base station will send a handover success (Handover Success) signaling to the source base station to notify the UE that the UE has successfully accessed, and the source base station will send a notification to the target base station. The base station returns a sequence number status transfer (SN STATUS TRANSFER) message to notify about the data transmission status information carried by the DAPS.
在一个具体实施例中,UE在执行DAPS切换时,上报切换类型为DAPS切换,UE在执行非DAPS切换时,上报切换类型为非DAPS切换。In a specific embodiment, when the UE performs DAPS handover, it reports the handover type as DAPS handover, and when the UE performs non-DAPS handover, it reports the handover type as non-DAPS handover.
在另一个具体实施例中,UE在执行DAPS切换时,上报切换类型为DAPS切换,UE在执行非DAPS切换时,不需要上报切换类型。相应地,目标基站如果未收到切换类型,则表示此时UE进行的是非DAPS切换。In another specific embodiment, when the UE performs DAPS handover, it reports the handover type as DAPS handover, and when the UE performs non-DAPS handover, it does not need to report the handover type. Correspondingly, if the target base station does not receive the handover type, it indicates that the UE is performing a non-DAPS handover at this time.
在又一个具体实施例中,UE在执行非DAPS切换时,上报切换类型为非DAPS切换;UE在执行DAPS切换时,不需要上报切换类型。相应地,目标基站如果未收到切换类型,则表示此时UE进行的是DAPS切换。In yet another specific embodiment, when the UE performs non-DAPS handover, it reports the handover type as non-DAPS handover; when the UE performs DAPS handover, it does not need to report the handover type. Correspondingly, if the target base station does not receive the handover type, it indicates that the UE is performing DAPS handover at this time.
在一个非限制性的实施例中,在所述候选小区未满足所述DAPS切换执行条件时,UE将所建立数据无线承载的PDCP实体配置为仅关联所述候选小区的PDCP实体。In a non-limiting embodiment, when the candidate cell does not satisfy the DAPS handover execution condition, the UE configures the PDCP entity of the established data radio bearer as only the PDCP entity associated with the candidate cell.
在一个非限制性的实施例中,UE可以通过随机接入过程中的消息2或消息4上报所述小区切换的类型。In a non-limiting embodiment, the UE may report the cell handover type through message 2 or message 4 in the random access procedure.
具体地,在随机接入过程中,UE可以通过第4条消息(4步随机接入过程)或者MSGB(2步随机接入过程中的第2条消息)向目标基站指示本次切换是DAPS切换还是普通切换。目标基站可以及时意识到本次切换类型,以便及时采取相应的行为,如DAPS切换时需要向源基站发送Handover Success通知UE已经接入目标小区。Specifically, in the random access process, the UE can indicate to the target base station that this handover is DAPS through the fourth message (4-step random access process) or MSGB (the second message in the 2-step random access process). Toggle or Normal Toggle. The target base station can be aware of the type of handover in time, so as to take corresponding actions in time. For example, during DAPS handover, it needs to send Handover Success to the source base station to notify the UE that it has accessed the target cell.
在一个具体的应用场景中,对于候选小区Cell1同时配置了测量事件A3/A5/A4+A1的切换执行条件。如果UE发现候选小区Cell1的信号质量满足测量事件A3/A5/A4,但是服务小区的信号质量不满足测量事件A1,此时UE执行向候选小区Cell1的切换,该切换是普通切换,即DRB1不适用DAPS切换。UE对于DRB1的PDCP实体,重配置为适用于Cell1的PDCP实体,UE执行切换时,中断与源服务小区的连接。为了使目标小区能够及时获知本次切换仅是普通的切换即非DAPS切换,UE在成功接入Cell1时,向Cell1指示此次切换是非DAPS切换或普通切换,以便Cell1对于DRB1恢复不支持DAPS的PDCP实体,即正常的PDCP实体,并及时触发核心网侧的路径切换(Path Switch)。In a specific application scenario, the handover execution conditions of the measurement events A3/A5/A4+A1 are configured for the candidate cell Cell1 at the same time. If the UE finds that the signal quality of the candidate cell Cell1 meets the measurement event A3/A5/A4, but the signal quality of the serving cell does not meet the measurement event A1, then the UE performs a handover to the candidate cell Cell1, which is a normal handover, that is, DRB1 does not Apply DAPS switching. The UE reconfigures the PDCP entity of DRB1 as a PDCP entity applicable to Cell1, and when the UE performs handover, the connection with the source serving cell is interrupted. In order for the target cell to know in time that this handover is only a normal handover, that is, a non-DAPS handover, when the UE successfully accesses Cell1, it indicates to Cell1 that this handover is a non-DAPS handover or a normal handover, so that Cell1 does not support DAPS for DRB1 recovery. The PDCP entity, that is, a normal PDCP entity, triggers a path switch (Path Switch) on the core network side in time.
在一个可选实施例中,对于配置了DAPS的条件切换的候选小区Cell1,源基站可以设置切换执行条件包含A3/A5/A4+A1用于判断是否执行DAPS切换,可以设置切换执行条件包含A3/A5/A4用于判断普通的非DAPS切换。对于DAPS切换执行条件中的A3/A5/A4,与非DAPS切换执行条件中的A3/A5/A4,其门限可以相同,也可以不同。以A3事件为例(候选小区比服务小区的信号质量高预定的偏移量),DAPS切换执行条件中的A3对应的偏移量可以与非DAPS切换执行条件中的A3对应的偏移量相同;也可以设置非DAPS切换执行条件中的A3对应的偏移量取更高的值如取值为3db,而DAPS切换执行条件中的A3对应的偏移量取较低的值如取0db,这样使得UE 较易触发DAPS切换,便于减少切换中断时延。如果切换执行条件是A4事件(候选小区信号质量高于预设门限),此时可以设置非DAPS切换执行条件中A4事件设置更高门限。相应地,如果切换执行条件是A5事件(服务小区信号质量低于门限1并且候选小区信号质量高于门限2),则可以设置非DAPS切换执行条件中门限2更高,门限1更低,以使得UE更容易触发DAPS切换。In an optional embodiment, for the candidate cell Cell1 configured with DAPS conditional handover, the source base station can set the handover execution conditions to include A3/A5/A4+A1 to determine whether to perform DAPS handover, and can set the handover execution conditions to include A3 /A5/A4 are used to judge common non-DAPS switching. The thresholds for A3/A5/A4 in the DAPS handover execution condition and A3/A5/A4 in the non-DAPS handover execution condition may be the same or different. Taking the A3 event as an example (the signal quality of the candidate cell is higher than that of the serving cell by a predetermined offset), the offset corresponding to A3 in the DAPS handover execution condition can be the same as the offset corresponding to A3 in the non-DAPS handover execution condition ; It is also possible to set the offset corresponding to A3 in the non-DAPS switching execution condition to take a higher value such as 3db, and the offset corresponding to A3 in the DAPS switching execution condition to take a lower value such as 0db, In this way, it is easier for the UE to trigger the DAPS handover, so as to reduce the handover interruption delay. If the handover execution condition is the A4 event (the signal quality of the candidate cell is higher than the preset threshold), at this time, a higher threshold can be set for the A4 event in the non-DAPS handover execution condition. Correspondingly, if the handover execution condition is A5 event (the signal quality of the serving cell is lower than the threshold 1 and the signal quality of the candidate cell is higher than the threshold 2), you can set the threshold 2 higher and the threshold 1 lower in the non-DAPS handover execution condition, so that It makes it easier for the UE to trigger DAPS handover.
相应地,请参照图7,本发明实施例还公开了又一种小区切换方法,所述小区切换方法可以用于目标基站侧,也即可以由目标基站执行所述方法的各个步骤。Correspondingly, referring to FIG. 7 , the embodiment of the present invention also discloses yet another cell handover method, which can be used on the target base station side, that is, each step of the method can be executed by the target base station.
具体地,所述小区切换方法可以包括以下步骤:Specifically, the cell handover method may include the following steps:
步骤701:接收小区切换的类型,所述小区切换的类型是对于配置了DAPS切换执行条件的候选小区,用户设备在该小区满足切换执行条件之后,接入所述候选小区时设置的,所述小区切换的类型包括非DAPS切换或DAPS切换;Step 701: Receive the type of cell handover, the type of cell handover is set when the user equipment accesses the candidate cell after the cell satisfies the handover execution conditions for the candidate cell configured with the DAPS handover execution conditions, the The type of cell handover includes non-DAPS handover or DAPS handover;
步骤702:根据所述小区切换的类型配置PDCP实体。Step 702: Configure a PDCP entity according to the type of cell handover.
在步骤702的具体实施中,对于配置为DAPS切换的无线数据承载,在所述小区切换的类型为非DAPS切换时,将所述数据无线承载的PDCP实体配置为仅关联所述候选小区的PDCP实体。In the specific implementation of step 702, for the radio data bearer configured as DAPS handover, when the type of cell handover is non-DAPS handover, the PDCP entity of the data radio bearer is configured to be only associated with the PDCP of the candidate cell entity.
具体实施中,如果切换类型是非DAPS切换,则目标基站配置正常的PDCP实体,并及时触发核心网侧的路径切换(Path Switch)。如果切换类型是DAPS切换,则目标基站在随机接入过程中发现UE成功接入之后,目标基站会向源基站发送切换成功(Handover Success)信令通知UE已经成功接入,源基站会向目标基站返回序列号状态转移(SN STATUS TRANSFER)消息通知关于DAPS承载的数据传输状态信息。In a specific implementation, if the handover type is non-DAPS handover, the target base station configures a normal PDCP entity, and triggers a path switch (Path Switch) on the core network side in time. If the handover type is DAPS handover, after the target base station finds that the UE has successfully accessed during the random access process, the target base station will send a handover success (Handover Success) signaling to the source base station to notify the UE that the UE has successfully accessed, and the source base station will send a notification to the target base station. The base station returns a sequence number status transfer (SN STATUS TRANSFER) message to notify about the data transmission status information carried by the DAPS.
本发明实施例还公开了一种存储介质,所述存储介质为计算机可读存储介质,其上存储有计算机程序,所述计算机程序运行时可以执 行前述方法的步骤。所述存储介质可以包括ROM、RAM、磁盘或光盘等。所述存储介质还可以包括非挥发性存储器(non-volatile)或者非瞬态(non-transitory)存储器等。The embodiment of the present invention also discloses a storage medium, the storage medium is a computer-readable storage medium on which a computer program is stored, and the computer program can execute the steps of the foregoing method when running. The storage medium may include ROM, RAM, magnetic or optical disks, and the like. The storage medium may also include a non-volatile memory (non-volatile) or a non-transitory (non-transitory) memory, and the like.
本发明实施例还公开了一种用户设备,所述用户设备可以包括存储器和处理器,所述存储器上存储有可在所述处理器上运行的计算机程序。所述处理器运行所述计算机程序时可以执行前述小区切换方法的步骤。The embodiment of the present invention also discloses a user equipment. The user equipment may include a memory and a processor, and a computer program that can run on the processor is stored in the memory. When the processor runs the computer program, it can execute the steps of the aforementioned cell handover method.
本发明实施例还公开了一种网络设备,所述网络设备可以包括存储器和处理器,所述存储器上存储有可在所述处理器上运行的计算机程序。所述处理器运行所述计算机程序时可以执行前述小区切换方法或小区切换配置方法的步骤。所述网络设备包括但不限于目标基站和源基站。The embodiment of the present invention also discloses a network device. The network device may include a memory and a processor, and a computer program that can run on the processor is stored in the memory. When the processor runs the computer program, it may execute the steps of the aforementioned cell handover method or cell handover configuration method. The network equipment includes but is not limited to a target base station and a source base station.
本方明技术方案也适用于不同的网络架构,包括但不限于中继网络架构、双链接架构、Vehicle-to-Everything(车辆到任何物体的通信)架构等架构。The Fangming technical solution is also applicable to different network architectures, including but not limited to relay network architecture, dual-link architecture, Vehicle-to-Everything (vehicle-to-everything communication) architecture and other architectures.
本申请实施例中所述核心网可以是演进型分组核心网(evolved packet core,简称EPC)、5G Core Network(5G核心网),还可以是未来通信系统中的新型核心网。5G Core Network由一组设备组成,并实现移动性管理等功能的接入和移动性管理功能(Access and Mobility Management Function,AMF)、提供数据包路由转发和QoS(Quality of Service)管理等功能的用户面功能(User Plane Function,UPF)、提供会话管理、IP地址分配和管理等功能的会话管理功能(Session Management Function,SMF)等。EPC可由提供移动性管理、网关选择等功能的MME、提供数据包转发等功能的Serving Gateway(S-GW)、提供终端地址分配、速率控制等功能的PDN Gateway(P-GW)组成。The core network described in the embodiment of the present application may be an evolved packet core network (evolved packet core, EPC for short), a 5G Core Network (5G core network), or a new core network in a future communication system. The 5G Core Network is composed of a group of devices, and implements access and mobility management functions (Access and Mobility Management Function, AMF), and provides functions such as data packet routing and forwarding, and QoS (Quality of Service) management. User plane function (User Plane Function, UPF), session management function (Session Management Function, SMF) that provides functions such as session management, IP address allocation and management, etc. EPC can be composed of MME that provides functions such as mobility management and gateway selection, Serving Gateway (S-GW) that provides functions such as data packet forwarding, and PDN Gateway (P-GW) that provides functions such as terminal address allocation and rate control.
本申请实施例中的基站(base station,简称BS),也可称为基站设备,是一种部署在无线接入网(RAN)用以提供无线通信功能的装 置。例如在2G网络中提供基站功能的设备包括基地无线收发站(英文:base transceiver station,简称BTS),3G网络中提供基站功能的设备包括节点B(NodeB),在4G网络中提供基站功能的设备包括演进的节点B(evolved NodeB,eNB),在无线局域网络(wireless local area networks,简称WLAN)中,提供基站功能的设备为接入点(access point,简称AP),5G新无线(New Radio,简称NR)中的提供基站功能的设备gNB,以及继续演进的节点B(ng-eNB),其中gNB和终端之间采用NR技术进行通信,ng-eNB和终端之间采用E-UTRA(Evolved Universal Terrestrial Radio Access)技术进行通信,gNB和ng-eNB均可连接到5G核心网。本申请实施例中的基站还包含在未来新的通信系统中提供基站功能的设备等。The base station (base station, BS for short) in the embodiment of the present application may also be referred to as base station equipment, which is a device deployed in a radio access network (RAN) to provide wireless communication functions. For example, the equipment providing base station function in 2G network includes base wireless transceiver station (English: base transceiver station, referred to as BTS), the equipment providing base station function in 3G network includes Node B (NodeB), and the equipment providing base station function in 4G network Including evolved Node B (evolved NodeB, eNB), in wireless local area networks (wireless local area networks, referred to as WLAN), the equipment that provides base station functions is the access point (access point, referred to as AP), 5G new wireless (New Radio , referred to as NR), the device gNB that provides base station functions, and the node B (ng-eNB) that continues to evolve, in which gNB and the terminal use NR technology for communication, and the ng-eNB and the terminal use E-UTRA (Evolved Universal Terrestrial Radio Access) technology for communication, both gNB and ng-eNB can be connected to the 5G core network. The base station in the embodiment of the present application also includes devices that provide base station functions in future new communication systems, and the like.
本申请实施例中的基站控制器,是一种管理基站的装置,例如2G网络中的基站控制器(base station controller,简称BSC)、3G网络中的无线网络控制器(radio network controller,简称RNC)、还可指未来新的通信系统中控制管理基站的装置。The base station controller in the embodiment of the present application is a device for managing base stations, such as a base station controller (BSC for short) in a 2G network and a radio network controller (radio network controller, RNC for short) in a 3G network. ), can also refer to the device for controlling and managing the base station in the new communication system in the future.
本发明实施例中的网络侧network是指为终端提供通信服务的通信网络,包含无线接入网的基站,还可以包含无线接入网的基站控制器,还可以包含核心网侧的设备。The network-side network in the embodiment of the present invention refers to a communication network that provides communication services for terminals, including a base station of a wireless access network, a base station controller of the wireless access network, and equipment on the core network side.
本申请实施例中的终端可以指各种形式的用户设备(user equipment,简称UE)、接入终端、用户单元、用户站、移动站、移动台(mobile station,建成MS)、远方站、远程终端、移动设备、用户终端、终端设备(terminal equipment)、无线通信设备、用户代理或用户装置。终端设备还可以是蜂窝电话、无绳电话、会话启动协议(Session Initiation Protocol,简称SIP)电话、无线本地环路(Wireless Local Loop,简称WLL)站、个人数字处理(Personal Digital Assistant,简称PDA)、具有无线通信功能的手持设备、计算设备或连接到无线调制解调器的其它处理设备、车载设备、可穿戴设备,未来5G网络中的终端设备或者未来演进的公用陆地移动通信网络(Public Land  Mobile Network,简称PLMN)中的终端设备等,本申请实施例对此并不限定。The terminal in the embodiment of the present application may refer to various forms of user equipment (user equipment, referred to as UE), access terminal, user unit, user station, mobile station, mobile station (mobile station, built as MS), remote station, remote terminal, mobile device, user terminal, terminal equipment, wireless communication device, user agent, or user device. The terminal device can also be a cellular phone, a cordless phone, a Session Initiation Protocol (SIP) phone, a Wireless Local Loop (WLL) station, a Personal Digital Assistant (PDA), Handheld devices with wireless communication functions, computing devices or other processing devices connected to wireless modems, vehicle-mounted devices, wearable devices, terminal devices in future 5G networks or future evolution of public land mobile communication networks (Public Land Mobile Network, referred to as PLMN), etc., which are not limited in this embodiment of the present application.
应理解,本文中术语“和/或”,仅仅是一种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。另外,本文中字符“/“,表示前后关联对象是一种“或”的关系。It should be understood that the term "and/or" in this article is only an association relationship describing associated objects, which means that there may be three relationships, for example, A and/or B may mean: A exists alone, and A and B exist at the same time , there are three cases of B alone. In addition, the character "/" in this article indicates that the associated objects are an "or" relationship.
本申请实施例中出现的“多个”是指两个或两个以上。"Multiple" appearing in the embodiments of the present application means two or more.
本申请实施例中出现的第一、第二等描述,仅作示意与区分描述对象之用,没有次序之分,也不表示本申请实施例中对设备个数的特别限定,不能构成对本申请实施例的任何限制。The first, second, etc. descriptions that appear in the embodiments of this application are only for illustration and to distinguish the description objects. Any limitations of the examples.
本申请实施例中出现的“连接”是指直接连接或者间接连接等各种连接方式,以实现设备间的通信,本申请实施例对此不做任何限定。The "connection" in the embodiment of the present application refers to various connection methods such as direct connection or indirect connection to realize communication between devices, which is not limited in the embodiment of the present application.
应理解,本申请实施例中,所述处理器可以为中央处理单元(central processing unit,简称CPU),该处理器还可以是其他通用处理器、数字信号处理器(digital signal processor,简称DSP)、专用集成电路(application specific integrated circuit,简称ASIC)、现成可编程门阵列(field programmable gate array,简称FPGA)或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。通用处理器可以是微处理器或者该处理器也可以是任何常规的处理器等。It should be understood that, in the embodiments of the present application, the processor may be a central processing unit (CPU for short), and the processor may also be other general-purpose processors, digital signal processors (digital signal processor, DSP for short) , application specific integrated circuit (ASIC for short), off-the-shelf programmable gate array (field programmable gate array, FPGA for short) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. A general-purpose processor may be a microprocessor, or the processor may be any conventional processor, or the like.
上述实施例,可以全部或部分地通过软件、硬件、固件或其他任意组合来实现。当使用软件实现时,上述实施例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或计算机程序。在计算机上加载或执行所述计算机指令或计算机程序时,全部或部分地产生按照本申请实施例所述的流程或功能。所述计算机可以为通用计算机、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或无线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。The above-mentioned embodiments may be implemented in whole or in part by software, hardware, firmware or other arbitrary combinations. When implemented using software, the above-described embodiments may be implemented in whole or in part in the form of computer program products. The computer program product comprises one or more computer instructions or computer programs. When the computer instruction or computer program is loaded or executed on the computer, the processes or functions according to the embodiments of the present application will be generated in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable devices. The computer instructions may be stored in or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be transmitted from a website, computer, server or data center Wired or wireless transmission to another website site, computer, server or data center.
应理解,在本申请的各种实施例中,上述各过程的序号的大小并不意味着执行顺序的先后,各过程的执行顺序应以其功能和内在逻辑确定,而不应对本申请实施例的实施过程构成任何限定。It should be understood that, in various embodiments of the present application, the sequence numbers of the above-mentioned processes do not mean the order of execution, and the execution order of the processes should be determined by their functions and internal logic, and should not be used in the embodiments of the present application. The implementation process constitutes any limitation.
在本申请所提供的几个实施例中,应该理解到,所揭露的方法、装置和系统,可以通过其它的方式实现。例如,以上所描述的装置实施例仅仅是示意性的;例如,所述单元的划分,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;例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间接耦合或通信连接,可以是电性,机械或其它的形式。In the several embodiments provided in this application, it should be understood that the disclosed methods, devices and systems can be implemented in other ways. For example, the device embodiments described above are only illustrative; for example, the division of the units is only a logical function division, and there may be other division methods in actual implementation; for example, multiple units or components can be combined or May be integrated into another system, or some features may be ignored, or not implemented. In another point, the mutual coupling or direct coupling or communication connection shown or discussed may be through some interfaces, and the indirect coupling or communication connection of devices or units may be in electrical, mechanical or other forms.
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。The units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in one place, or may be distributed to multiple network units. Part or all of the units can be selected according to actual needs to achieve the purpose of the solution of this embodiment.
另外,在本发明各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理包括,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。In addition, each functional unit in each embodiment of the present invention may be integrated into one processing unit, each unit may be physically included separately, or two or more units may be integrated into one unit. The above-mentioned integrated units can be implemented in the form of hardware, or in the form of hardware plus software functional units.
上述以软件功能单元的形式实现的集成的单元,可以存储在一个计算机可读取存储介质中。上述软件功能单元存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本发明各个实施例所述方法的部分步骤。The above-mentioned integrated units implemented in the form of software functional units may be stored in a computer-readable storage medium. The above-mentioned software functional units are stored in a storage medium, and include several instructions to enable a computer device (which may be a personal computer, server, or network device, etc.) to execute some steps of the methods described in various embodiments of the present invention.
虽然本发明披露如上,但本发明并非限定于此。任何本领域技术 人员,在不脱离本发明的精神和范围内,均可作各种更动与修改,因此本发明的保护范围应当以权利要求所限定的范围为准。Although the present invention is disclosed above, the present invention is not limited thereto. Any person skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so the protection scope of the present invention should be based on the scope defined in the claims.

Claims (12)

  1. 一种小区切换方法,其特征在于,包括:A cell switching method, characterized in that, comprising:
    获取各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;Acquiring handover execution conditions of each candidate cell, where the types of handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
    判断候选小区是否满足切换执行条件;judging whether the candidate cell satisfies the handover execution condition;
    如果存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区,则向所述第二候选小区执行DAPS切换。If there is a first candidate cell satisfying the non-DAPS handover execution condition and a second candidate cell satisfying the DAPS handover execution condition, perform DAPS handover to the second candidate cell.
  2. 根据权利要求1所述的小区切换方法,其特征在于,所述向所述第二候选小区执行DAPS切换包括:The cell handover method according to claim 1, wherein the performing DAPS handover to the second candidate cell comprises:
    如果所述第二候选小区的数量为多个,则从多个第二候选小区中随机选择一个第二候选小区执行DAPS切换。If there are multiple second candidate cells, randomly select one second candidate cell from the multiple second candidate cells to perform DAPS handover.
  3. 根据权利要求1所述的小区切换方法,其特征在于,所述获取各个候选小区的切换执行条件包括:The cell handover method according to claim 1, wherein said obtaining handover execution conditions of each candidate cell comprises:
    获取切换命令,所述切换命令中包括一个或多个候选小区的切换执行条件。A handover command is acquired, where the handover command includes handover execution conditions of one or more candidate cells.
  4. 根据权利要求1所述的小区切换方法,其特征在于,所述DAPS切换执行条件包括第一条件和第二条件,所述第一条件指示针对候选小区信号质量的要求,所述第二条件指示针对服务小区信号质量的要求。The cell handover method according to claim 1, wherein the DAPS handover execution conditions include a first condition and a second condition, the first condition indicates the requirement for the signal quality of the candidate cell, and the second condition indicates Requirements for the signal quality of the serving cell.
  5. 根据权利要求4所述的小区切换方法,其特征在于,所述第一条件包括测量事件A3和/或测量事件A5和/或测量事件A4,所述第二条件包括测量事件A1;或者,所述第一条件包括测量事件A3和/或测量事件A5和/或测量事件A4,所述第二条件包括未运行定时器T310。The cell switching method according to claim 4, wherein the first condition includes measurement event A3 and/or measurement event A5 and/or measurement event A4, and the second condition includes measurement event A1; or, the The first condition includes the measurement event A3 and/or the measurement event A5 and/or the measurement event A4, and the second condition includes the timer T310 not running.
  6. 一种切换配置方法,其特征在于,包括:A switching configuration method, characterized in that, comprising:
    配置各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;Configure handover execution conditions for each candidate cell, where the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions;
    发送各个候选小区的切换执行条件,所述切换执行条件用于在存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区时,向所述第二候选小区执行DAPS切换。Sending handover execution conditions of each candidate cell, where the handover execution conditions are used to perform handover to the second candidate cell when there is a first candidate cell that satisfies the non-DAPS handover execution condition and a second candidate cell that satisfies the DAPS handover execution condition. DAPS switch.
  7. 根据权利要求6所述的切换配置方法,其特征在于,所述发送各个候选小区的切换执行条件包括:The handover configuration method according to claim 6, wherein the handover execution conditions for sending each candidate cell include:
    发送切换命令,所述切换命令中包括一个或多个候选小区的切换执行条件。Sending a handover command, where the handover command includes handover execution conditions of one or more candidate cells.
  8. 一种小区切换装置,其特征在于,包括:A cell handover device, characterized in that it comprises:
    获取模块,用于获取各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;An acquisition module, configured to acquire handover execution conditions of each candidate cell, where the types of handover execution conditions include non-DAPS handover execution conditions and/or DAPS handover execution conditions;
    判断模块,用于判断候选小区是否满足切换执行条件;A judging module, configured to judge whether the candidate cell satisfies the handover execution condition;
    切换模块,用于如果存在满足非DAPS切换执行条件的第一候选小区以及满足DAPS切换执行条件的第二候选小区,则向所述第二候选小区执行DAPS切换。A handover module, configured to perform DAPS handover to the second candidate cell if there is a first candidate cell meeting the non-DAPS handover execution condition and a second candidate cell meeting the DAPS handover execution condition.
  9. 一种切换配置装置,其特征在于,包括:A switching configuration device, characterized in that it comprises:
    配置模块,用于配置各个候选小区的切换执行条件,所述切换执行条件的类型包括非DAPS切换执行条件和/或DAPS切换执行条件;A configuration module, configured to configure handover execution conditions of each candidate cell, where the type of handover execution conditions includes non-DAPS handover execution conditions and/or DAPS handover execution conditions;
    发送模块,用于发送各个候选小区的切换执行条件,所述切换执行条件用于在存在满足非DAPS切换执行条件的第一候选小区以 及满足DAPS切换执行条件的第二候选小区时,向所述第二候选小区执行DAPS切换。A sending module, configured to send handover execution conditions of each candidate cell, and the handover execution condition is used to send to the The second candidate cell performs DAPS handover.
  10. 一种计算机可读存储介质,其上存储有计算机程序,其特征在于,所述计算机程序被处理器运行时执行权利要求1至5中任一项所述小区切换方法的步骤,或者执行权利要求6或7所述切换配置方法的步骤。A computer-readable storage medium, on which a computer program is stored, characterized in that, when the computer program is run by a processor, it executes the steps of the cell switching method in any one of claims 1 to 5, or executes the steps of the claim Steps in the switching configuration method described in 6 or 7.
  11. 一种用户设备,包括存储器和处理器,所述存储器上存储有可在所述处理器上运行的计算机程序,其特征在于,所述处理器运行所述计算机程序时执行权利要求1至5中任一项所述小区切换方法的步骤。A user equipment, comprising a memory and a processor, the memory stores a computer program that can run on the processor, wherein the processor executes the computer program in claims 1 to 5 when running the computer program Steps in any one of the cell handover methods.
  12. 一种网络设备,包括存储器和处理器,所述存储器上存储有可在所述处理器上运行的计算机程序,其特征在于,所述处理器运行所述计算机程序时执行权利要求6或7所述切换配置方法的步骤。A network device, comprising a memory and a processor, the memory stores a computer program that can run on the processor, and it is characterized in that, when the processor runs the computer program, the computer program described in claim 6 or 7 is executed. Describe the steps of switching the configuration method.
PCT/CN2021/142866 2021-08-25 2021-12-30 Cell handover method and apparatus, configuration method and apparatus, computer-readable storage medium, user equipment, and network device WO2023024384A1 (en)

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