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WO2022120524A1 - Handover method, apparatus, and system for non-standalone network and standalone network - Google Patents

Handover method, apparatus, and system for non-standalone network and standalone network Download PDF

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Publication number
WO2022120524A1
WO2022120524A1 PCT/CN2020/134281 CN2020134281W WO2022120524A1 WO 2022120524 A1 WO2022120524 A1 WO 2022120524A1 CN 2020134281 W CN2020134281 W CN 2020134281W WO 2022120524 A1 WO2022120524 A1 WO 2022120524A1
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WO
WIPO (PCT)
Prior art keywords
cell
event
measurement
message
reconfiguration message
Prior art date
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PCT/CN2020/134281
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French (fr)
Chinese (zh)
Inventor
李靖
卢哲军
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to PCT/CN2020/134281 priority Critical patent/WO2022120524A1/en
Priority to CN202080052347.4A priority patent/CN114916250B/en
Publication of WO2022120524A1 publication Critical patent/WO2022120524A1/en

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

Definitions

  • the present application relates to the field of communications, and in particular, to a method, device and system for switching between non-independent networking and independent networking.
  • the 5th generation (5G) communication technology in the 3rd generation partnership project (3GPP) technical specification, based on factors such as deployment cost, time, and service experience, a proposal including stand-alone (stand- Alone, SA) networking and non-standalone (non-stand alone, NSA) networking and other 5G and fourth generation (4th generation, 4G) communication interoperability solutions.
  • SA stand-alone
  • non-standalone non-stand alone
  • 4th generation, 4G fourth generation
  • the SA networking solution is that the 5G new radio (NR) directly accesses the 5G core network, the control signaling is completely independent of the 4G network, and the collaboration between the 5G network and the 4G network is achieved through core network interoperability.
  • NSA networking supports dual connectivity features such as evolved universal terrestrial radio access (E-UTRA) and new wireless dual connectivity (E-UTRA NR dual connectivity, EN-DC).
  • E-UTRA evolved universal terrestrial radio access
  • E-UTRA NR dual connectivity EN-DC
  • the networking solution is to anchor the 5G control signaling on the 4G base station, and access the evolved packet core (EPC) or the next generation core (NGC) of the 5G communication system through the 4G base station.
  • EPC evolved packet core
  • NNC next generation core
  • the NSA network and the SA network are mainly used in the hybrid network, and there are many overlapping areas where the NSA network and the SA network are deployed. It is necessary to switch between NSA networking and SA networking.
  • FDD frequency division duplex
  • LTE long term evolution
  • GPS global positioning system
  • 4G regular services other than coordinated multipoint communication some operators have abandoned the deployment of GPS receivers in 4G base stations, that is, some base stations in the existing 4G network lack GPS signal synchronization, which causes some LTE base stations and NR base stations to be out of time synchronization. In this case, 5G-enabled terminals may not be able to switch from NSA networking to SA networking, affecting user experience.
  • the present application provides a method, device and system for switching between NSA networking and SA networking in combination with various embodiments, which are used to ensure smooth switching of terminals between NSA networking and SA networking, as well as communication services for terminals quality.
  • the wireless communication device may be the entire computer of the computing device, or may be part of the device in the computing device, such as a chip related to a wireless communication function, such as a system chip, communication chip.
  • the system-on-a-chip is also called a system-on-chip, or a SoC chip.
  • the wireless communication device may be a terminal such as a smart phone, or may be a system chip or a communication chip that can be provided in the terminal.
  • the communication chip may include one or more of a radio frequency processing chip and a baseband processing chip. Baseband processing chips are also sometimes called modems or baseband processors.
  • the communication chip may be integrated inside the SoC chip or not integrated with the SoC chip.
  • the baseband processing chip is integrated in the SoC chip, and the radio frequency processing chip is not integrated with the SoC chip.
  • an embodiment of the present application provides a communication method, including:
  • the terminal when the UE resides in the first cell and the second cell, when the time of the first cell and the first NR cell is not synchronized, since the measurement interval cannot be aligned with the synchronization signal block of the first NR cell, generally the terminal does not measure with high probability. Even with the measurement result of the first NR cell, the terminal cannot report the measurement report of the first NR cell and switch to the first NR cell. The measurement report message of the first NR cell is reported according to the measurement result of the second NR cell measured in response to the second measurement instruction message of the second cell. Communication quality and communication continuity of the UE.
  • the method further includes: receiving a second RRC connection reconfiguration message, where the second RRC connection reconfiguration is used to instruct the UE to release the secondary cell group; release the secondary cell group; receive a handover message, The handover message is used to instruct the UE to handover to the first NR cell.
  • the method further includes: the UE camping on the first NR cell.
  • the terminal can switch from the dual-connection state of camping on the first cell and the second cell to the single-connection state camping on the first NR cell, that is, from the NSA
  • the networking is switched to SA networking.
  • the first measurement indication message is an RRC connection reconfiguration message
  • the second test indication message is an RRC reconfiguration message
  • the first measurement indication message is further used to indicate that the reporting configuration of the first NR cell is a B1 event or a B2 event.
  • the second measurement indication message is further used to indicate that the reporting configuration of the second NR cell is one of an A1 event, an A2 event, an A3 event, an A4 event and an A5 event.
  • the first cell is an evolved universal terrestrial radio access E-UTRA cell
  • the second cell is an NR cell.
  • the above method can ensure that the terminal can report the measurement of the NR cell to be switched in time when the LTE base station and the NR base station are out of sync.
  • the report ensures the smooth switching between the NSA networking and the SA networking, and avoids staying in the NSA networking for a long time and eventually returning to the LTE single-connection state.
  • an embodiment of the present application provides a wireless communication device, including: a receiving unit and a sending unit;
  • the receiving unit is configured to receive a first measurement instruction message from the first cell, where the first measurement instruction message is used to instruct the user equipment UE to measure the first new wireless NR cell; the receiving unit is further configured to receive the first measurement instruction message from the second cell.
  • the second measurement indication message, the second measurement indication message is used to instruct the UE to measure the second NR cell, wherein the first NR cell and the second NR cell are the same cell; the sending unit is used for the first cell and the second NR cell.
  • a measurement report message of the first NR cell is sent according to the measurement result of the second NR cell.
  • the communication apparatus further includes a processing unit, and the receiving unit is further configured to receive a second RRC connection reconfiguration message, where the second RRC connection reconfiguration is used to instruct the UE to release the secondary cell group; the The processing unit is further configured to release the secondary cell group; the receiving unit is further configured to receive a handover message, where the handover message is used to instruct the UE to switch to the first NR cell.
  • the first measurement indication message is an RRC connection reconfiguration message
  • the second test indication message is an RRC reconfiguration message
  • the first measurement indication message is further used to indicate that the reporting configuration of the first NR cell is a B1 event or a B2 event.
  • the second measurement indication message is further used to indicate that the reporting configuration of the second NR cell is one of an A1 event, an A2 event, an A3 event, an A4 event and an A5 event.
  • the first cell is an evolved universal terrestrial radio access E-UTRA cell
  • the second cell is an NR cell.
  • the above method can ensure that the terminal can report the measurement of the NR cell to be switched in time when the LTE base station and the NR base station are out of sync.
  • the report ensures the smooth switching between the NSA networking and the SA networking, and avoids staying in the NSA networking for a long time and eventually returning to the LTE single-connection state.
  • an embodiment of the present application provides a computer-readable storage medium, where program codes are stored in the computer-readable storage medium, and when the program codes are executed by a terminal or a processor in the terminal, to implement the steps from the first aspect to the Any aspect of the second aspect or any possible implementation of the method in any aspect.
  • an embodiment of the present application provides a computer program product, when program codes included in the computer program product are executed by a processor in a terminal, to implement any one of the first aspect to the second aspect or any one of any aspect. A possible implementation of this method.
  • an embodiment of the present application provides a communication system, including: a wireless network device, and a wireless communication apparatus including the third aspect or any possible implementation manner of the third aspect.
  • the wireless network device may be a wireless network device of an E-UTRA cell.
  • FIG. 1 is a schematic structural diagram of a communication system according to an embodiment of the present application.
  • FIG. 2 is a schematic structural diagram of a non-independent networking according to an embodiment of the present application
  • FIG. 3 is a schematic flowchart of switching from a non-independent networking to an independent networking according to an embodiment of the present application
  • FIG. 3 is a schematic diagram of a terminal measurement configuration when a long-term evolution base station and a new radio base station are time synchronized according to an embodiment of the present application;
  • FIG. 4 is a schematic diagram of a terminal measurement configuration when a long-term evolution base station and a new radio base station are not time-synchronized according to an embodiment of the present application;
  • FIG. 5 is a schematic flowchart of a communication method provided by an embodiment of the present application.
  • FIG. 6 is a schematic flowchart of a communication method for switching between a non-independent networking and an independent networking according to an embodiment of the present application
  • FIG. 7 is a schematic structural diagram of a communication device according to an embodiment of the present application.
  • FIG. 8 is a schematic structural diagram of a communication device according to an embodiment of the present application.
  • FIG. 9 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present application.
  • the embodiments of the present application provide a method, device and system for switching between non-independent networking and independent networking, so as to ensure the quality of service of terminal communication under NSA networking and SA networking.
  • FIG. 1 is a schematic structural diagram of a communication system according to an embodiment of the present application.
  • a communication system 00 there are one or more terminals 01 in communication with a radio access network (RAN).
  • the RAN includes one or more network devices 02 .
  • the communication system may further include a core network (core network) that can communicate with the RAN, where the core network may be the EPC of the 4G communication system or the NGC of the 5G communication system.
  • the communication system may also include one or more external networks interconnected with the core network. For example, Internet, public switched telephone network, etc.
  • the communication system can be used as an example of a mobile communication system based on 3GPP technical specifications, and can also cover wireless communication systems based on other wireless communication standards, such as 802 of the Institute of Electrical and Electronics Engineers (IEEE). Series, such as 802.11, 802.15, 802.20 and other wireless communication standards.
  • IEEE Institute of Electrical and Electronics Engineers
  • the terminal 01 may also be called a user equipment (user equipment, UE), a mobile station (mobile station, MS) or a subscriber unit (subscriber unit, SU). In the description of the embodiments of this application, no distinction is made between a terminal and a UE. .
  • the terminal can specifically be, but is not limited to, a mobile phone, a tablet computer, a laptop computer, a wearable device (smart watch, smart bracelet, smart helmet, smart glasses, etc.), and other devices with wireless connectivity. Connected communication devices, such as various IoT devices, including smart home devices (smart meters, smart home appliances, etc.), smart vehicles, etc.
  • the network device 02 is a computing device with a wireless communication function.
  • the network device 02 may be a wireless access network device such as a base station.
  • the base station may specifically be an evolved Node B (evolved Node B, eNB or eNodeB) of a 4G communication system, or a next generation Node B (gNodeB or gNB) of a 5G communication system, or other possible wireless access technologies.
  • eNB evolved Node B
  • gNodeB or gNB next generation Node B
  • the physical form and transmit power of the base station can also be various, such as a macro base station (macro base station) or a micro base station (micro base station).
  • FIG. 2 is a schematic structural diagram of a non-independent networking according to an embodiment of the present application.
  • LTE Long Term Evolution
  • LTE eNB Long Term Evolution Evolved Node B
  • gNB Next Generation Node B
  • EPC Evolved Packet Core
  • the LTE eNB acts as the master node and is connected to the EPC in the control plane
  • the gNB acts as the secondary node.
  • the control plane signaling is anchored on the LTE eNB, and the user plane can be served by the LTE eNB or the gNB independently, or by the LTE eNB and the gNB simultaneously.
  • the serving cell associated with the master node is called a master cell group (MCG), and the serving cell associated with the secondary node is called a secondary cell group (SCG).
  • MCG master cell group
  • SCG secondary cell group
  • the network configures the terminal with an MCG, and zero or one SCG.
  • the LTE eNB configures a measurement event for the terminal to trigger the terminal to measure the NR neighbor cell. According to the measurement result reported by the terminal, the LTE eNB selects the NR neighbor cell that meets the conditions and adds it to the SCG.
  • the network device can configure the terminal to perform different types of measurements, such as NR measurement, E-UTRA frequency inter-radio access technology (Inter-RAT) measurement (also called inter-system measurement), refer to 3GPP technology Specification (such as 3GPP TS38.133 V16.5.0), for UE in synchronous (intra-band) EN-DC state, when E-UTRA primary cell (primary cell, PCell) and secondary primary cell (primary When the secondary cell, PSCell) configures the UE to monitor the same NR carrier frequency layer, as long as the system frame number (SFN) is aligned with the slot boundary, the NR carrier frequency layer shall only be included in the effective NR.
  • SFN system frame number
  • RSSI measurement timing configuration (RMTC) configuration (rmtc-Config) indication of different NR carrier frequency layers with CCA.
  • the measurement combination can be performed only when the following conditions are met:
  • the carrier frequency of LTE and the carrier frequency of NR belong to the same frequency band
  • the common SSB position QCL indication is the same as the cell list of the SSB position QCL (ssb-PositionQCL) on the NR carrier frequency layer with CCA
  • the RMTC configuration indication of the NR carrier frequency layer with CCA is the same.
  • the network device can configure the UE to perform SSB-based measurements and report the measurement results.
  • FIG. 3 is a schematic diagram of UE measurement when a long-term evolution base station and a new radio base station are time synchronized according to an embodiment of the present application.
  • LTE Long Term Evolution
  • SMTC synchronization signal block measurement timing configuration
  • NR new radio
  • the LTE base station and the NR base station are time synchronized, and the SSB of the NR SCG cell of the UE is synchronized with the SSB of the NR neighboring cell, and the time is the same.
  • the LTE measurement interval is 40 milliseconds (ms) and the measurement duration is 6ms
  • the SMTC period is 20ms and the measurement duration is 5ms. It can be seen from the figure that the LTE measurement overlaps the SSB of the NR SCG cell in the time domain, and the SMTC measurement overlaps the SSB of the NR adjacent cell in the time domain.
  • the UE can measure the SSB of the NR adjacent cell, and then can Switch from NSA networking to SA networking.
  • FIG. 4 is a schematic diagram of UE measurement when a long-term evolution base station and a new radio base station are not time synchronized according to an embodiment of the present application. Similar to Fig. 3, for the UE residing in the NSA network, Fig. 4 shows another long-term evolution measurement interval, synchronization signal block measurement timing configuration, new radio synchronization signal block of neighboring cell group cells, neighboring cells. The distribution of parameters such as new radio synchronization signal blocks in the time domain. Among them, the LTE base station and the NR base station are not time synchronized, and the SSB of the NR SCG cell of the UE is not synchronized with the SSB of the NR neighboring cell, and the distribution is staggered in the time domain.
  • the LTE measurement interval is 40 milliseconds (ms) and the measurement duration is 6ms
  • the SMTC period is 20ms and the measurement duration is 5ms. It can be seen from the figure that the LTE measurement is staggered from the SSB of the NR SCG cell in the time domain, and the SMTC measurement is staggered from the SSB of the NR neighbor in the time domain. For UEs that do not support extended gap, the NR neighbor cannot be measured normally Area.
  • the UE For the UE residing on the NSA network, as it moves from the NSA network environment to the SA network environment, the signal quality of the serving cell, the NR SCG cell, and the NR neighbor cell gradually changes. However, the UE may not be able to measure the NR neighbor cells normally and the SCG signal is continuously weakened, the communication rate of the UE will continue to decrease, and the user communication experience will be seriously affected. If the UE releases the SCG cell, the UE needs to disconnect the EN-DC and return to the LTE single mode. At this time, the UE needs to receive the B1 event measurement configuration sent by the network device, and can trigger the handover to the SA networking by extending the measurement interval and reporting the B1 event.
  • the network device will not deliver the B1 event measurement configuration in every measurement configuration message.
  • the UE may have to wait for a long time to receive the B1 event measurement configuration, which will cause the user to return to the SA network area after a period of time 5G SA networking.
  • an embodiment of the present application provides a communication method for switching between NSA networking and SA networking, so as to solve the above problem.
  • FIG. 5 is a schematic flowchart of a communication method provided by an embodiment of the present application.
  • the communication method may be performed by a wireless communication device, and the wireless communication device may be an entire computer (for example, a terminal) of the computing device, or may be a part of the device in the computing device (for example, a communication chip or a system chip inside the terminal),
  • the following is an introduction by taking a terminal (such as a user equipment) executing the communication method as an example.
  • the method 500 includes:
  • S501 The user equipment receives a first measurement indication message from the first cell, where the first measurement indication message is used to instruct the user equipment to measure the first new radio cell.
  • S502 The user equipment receives a second measurement indication message from the second cell, where the second measurement indication message is used to instruct the user equipment to measure a second new radio cell, where the first new radio cell and the second new radio cell are the same community.
  • the network device may instruct the UE to measure the signal quality of neighboring cells through an air interface message, and specify the cell to be measured in the air interface message.
  • the fact that the first NR cell and the second NR cell are the same cell can also be understood that the frequency of the first NR cell and the frequency of the second NR cell are located on the same frequency band.
  • the UE when the time of the first cell and the first NR cell is not synchronized, the UE generally cannot obtain the SSB of the first NR cell by measuring the measurement interval of the LTE.
  • the UE may configure the reporting of the measurement report as an event-triggered (event-triggered) report or a periodic (periodical) report according to the configuration of the network device. If the measurement on the first NR cell is configured as event-triggered reporting, the UE cannot measure the SSB of the first NR cell within a period of time, and the UE cannot report the measurement result of the first NR cell.
  • the network device cannot acquire the signal quality of the first NR cell, nor instruct the UE to switch from the first cell to the first NR cell.
  • the UE can obtain the measurement result of the first NR cell through SMTC measurement, and will judge the first NR cell according to the measurement result of the second NR cell. Whether the measurement result of the NR cell meets the reporting event requirement, when the reporting event requirement is met, a measurement report message of the first NR cell may be sent.
  • the method 500 further includes: one or more steps of S504, S505, and S506.
  • S504 Receive a second RRC connection reconfiguration message, where the second RRC reconfiguration message is used to instruct the UE to release the secondary cell group.
  • S506 Receive a handover message, where the third RRC reconfiguration message is used to instruct the UE to handover to the first NR cell.
  • the network device may instruct the UE to switch from the first cell to the first NR cell when the measurement result of the first NR cell satisfies the handover condition.
  • FIG. 6 is a schematic flowchart of a communication method for switching between a non-independent networking and an independent networking according to an embodiment of the present application.
  • the communication method may be performed by a wireless communication device, and the wireless communication device may be an entire computer (for example, a terminal) of the computing device, or may be a part of the device in the computing device (for example, a communication chip or a system chip inside the terminal), The following is an introduction by taking the terminal executing the communication method as an example.
  • the method 600 includes:
  • the user equipment receives a first RRC connection reconfiguration message from a first cell, where the first RRC connection reconfiguration message is used to instruct the user equipment to measure the first new radio cell and report conditions according to the first event Report, the first event is B1 event or B2 event.
  • the first cell is an E-UTRA cell and the second cell is an NR cell.
  • the network device of the first cell eg, an LTE eNB
  • the LTE eNB sends a first radio resource control (radio resource control, RRC) connection reconfiguration (RRCConnectionReconfiguration) message to the terminal, where the first RRC connection reconfiguration message includes a measurement configuration (measConfig) information element and a report configuration (ReportConfig) message ) cell, the measurement configuration cell carries a measurement object (MeasObjectNR) field, and the report configuration cell carries a report type (reportType) field and an event identification (event identification, eventID) field.
  • the network device may specify the first NR cell to be measured specifically through the measurement object information.
  • the UE can configure the reporting of the measurement report as an event-triggered report or a periodic report according to the configuration of the network device.
  • the UE determines the measurement object according to the measurement configuration in the first RRC connection reconfiguration message, and in the measurement result obtained by the terminal, if the corresponding measurement result meets the reporting standard, the measurement report of the corresponding NR cell will be reported.
  • the signal quality of the NR cell in this application can be based on reference signal receiving power (reference signal receiving power, RSRP), RSSI, reference signal receiving quality (reference signal receiving quality, RSRQ), signal-to-interference-noise ratio (signal-to-interference-noise ratio). to interference plus noise ratio, SINR) to determine one or more parameters.
  • reference signal receiving power reference signal receiving power
  • RSSI reference signal receiving power
  • RSRQ reference signal receiving quality
  • SINR interference plus noise ratio
  • the user equipment receives a radio resource control reconfiguration message from the second cell, where the radio resource control reconfiguration message is used to instruct the user equipment to measure the second new radio cell, wherein the first new radio cell and the second NR The cell is the same cell.
  • the network device of the second cell can configure a measurement event for the UE to trigger the measurement of the NR neighboring cell (eg, the second NR cell) by the terminal.
  • the first NR cell and the second NR cell are the same cell, that is, the frequency points of the first NR cell and the second NR cell are in the same frequency band.
  • the NR gNB sends an RRC reconfiguration (RRCReconfiguration) message to the UE, where the RRC reconfiguration message includes a measurement configuration (measConfig) information element and a reporting configuration (ReportConfig) information element, and the measurement configuration information element carries a measurement object (MeasObjectNR) field, the report configuration information element carries a report type (reportType) field and an event identification (event identification, eventID) field.
  • the network device may specify the second NR cell to be measured specifically through the measurement object information.
  • the reporting type corresponding to the RRC reconfiguration message is event-triggered, and the event identity is identified as event A1 (eventA1), event A2 (eventA2), event A3 (eventA3), event A4 (eventA4), and event A5 (eventA5). one or more.
  • the UE when the time of the first cell and the first NR cell are not synchronized, the UE cannot obtain the SSB of the first NR cell by measuring the LTE measurement interval, and the UE cannot report the measurement result of the first NR cell.
  • the network device cannot acquire the signal quality of the first NR cell, nor instruct the UE to switch from the first cell to the first NR cell.
  • the UE can obtain the measurement result of the second NR cell through SMTC measurement.
  • the first NR cell and the second NR cell are the same cell, but the measurement method is different.
  • the signal quality of the second NR cell is measured through SMTC by using the measurement command of the second cell, and the obtained measurement result can be used to evaluate the first NR cell. Signal quality of an NR cell. It is determined whether the measurement result of the first NR cell meets the event reporting requirement according to the measurement result of the second NR cell, and when the event reporting requirement is met, a measurement report message of the first NR cell may be sent.
  • the user equipment receives a second radio resource control connection reconfiguration message, where the radio resource control connection reconfiguration message is used to instruct the user equipment to release the secondary cell group.
  • the NR configuration (nr-Config) information element in the second RRC connection reconfiguration message is set to indicate the release of the NR connection. For example, if the NR configuration information element is set to carry EN-DC release information, it is considered that the UE is instructed to release the SCG.
  • the UE releases the SCG and enters the LTE single connection state.
  • S606 The user equipment receives a handover message, where the handover message is used to instruct the user equipment to hand over to the first new radio cell.
  • the handover message may be an E-UTRA mobility command (MobilityFromE-UTRACommand) message, which may indicate that the cell to be camped on is the first NR cell.
  • E-UTRA mobility command MobilityFromE-UTRACommand
  • targetRAT-Type target radio access technology type
  • S607 The user equipment camps on the first new wireless cell.
  • the SSB of the second NR cell cannot be obtained by measuring the measurement interval indicated by the network device, and the measurement interval cannot be extended based on the time limit.
  • the UE will not report the measurement report information, and then the UE signal from the NSA networking environment to the SA networking environment will become worse and worse, or even disconnected from the network.
  • switch from the NSA networking to the SA networking as soon as possible to improve the communication rate and ensure smooth handover and user experience.
  • FIG. 7 is a schematic structural diagram of a wireless communication apparatus provided by an embodiment of the present application.
  • the wireless communication apparatus may be a whole computer (for example, a terminal) of a computing device, or may be a part of a device in the computing device (for example, an internal terminal of a terminal) communication chip, system chip), the wireless communication device can be used for the communication device can be used to perform the communication method for switching between the non-independent networking and the independent networking provided by the embodiment of the present application, such as the communication related to FIG. 5 to FIG. 6 .
  • the technical details and technical effects of the method 500 and the communication method 600, as well as various optional embodiments, may be described with reference to FIG. 5 to FIG. 6 .
  • the wireless communication device 70 includes: a receiving unit 710 , a processing unit 720 and a sending unit 730 .
  • the receiving unit 710 is configured to receive a first measurement indication message from the first cell, where the first measurement indication message is used to instruct the user equipment UE to measure the first new wireless NR cell, and to receive the first measurement indication message from the second cell. Two measurement indication messages, where the second measurement indication message is used to instruct the UE to measure a second NR cell, where the first NR cell and the second NR cell are the same cell.
  • the sending unit 730 is configured to send a measurement report message of the first NR cell according to the measurement result of the second NR cell when the time of the first cell and the first NR cell is not synchronized.
  • the receiving unit 710 is further configured to receive a second radio resource control connection reconfiguration message, where the radio resource control connection reconfiguration message is used to instruct the user equipment to release the secondary cell group.
  • the processing unit 720 is configured to release the secondary cell group.
  • the receiving unit 710 is further configured to receive a handover message, where the handover message is used to instruct the user equipment to hand over to the first new radio cell.
  • the processing unit 720 is configured to camp on the first NR cell.
  • the wireless communication device in this embodiment of the present application may be implemented by software, for example, a computer program or instruction having the above-mentioned functions, and the corresponding computer program or instruction may be stored in a memory inside the terminal, and read by a processor.
  • the above-mentioned functions are realized by fetching the corresponding computer programs or instructions inside the memory.
  • the wireless communication apparatus in the embodiments of the present application may also be implemented by hardware.
  • the receiving unit 710 is a receiver
  • the processing unit 720 is a processor
  • the sending unit 730 is a transmitter.
  • the above-mentioned sending unit 730 and the receiving unit 710 of the terminal may be the same or different physical entities. When they are the same physical entity, they can be collectively referred to as transceiver units or transceivers.
  • the wireless communication apparatus in this embodiment of the present application may also be implemented by a combination of a processor and a software module.
  • FIG. 8 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present application.
  • the wireless communication device may be a wireless communication device or a terminal in this embodiment of the present application, and may implement the wireless communication method shown in FIG. 3 or FIG. 8 and the above-mentioned optional embodiments.
  • the wireless communication apparatus 80 includes: a processor 801 , and a memory 802 coupled with the processor 801 . It should be understood that although only one processor and one memory are shown in Figure 8 .
  • Wireless communication device 801 may include other numbers of processors and memories.
  • the memory 802 is used for storing computer programs or computer instructions. These computer programs or instructions can be divided into two categories based on function. When one type of computer program or instruction is executed by the processor 801 , the wireless communication apparatus 80 implements the steps of the terminal in the wireless communication method of the embodiment of the present invention. Such computer programs or instructions may be referred to as terminal function programs.
  • the terminal function program may include program codes for implementing the wireless communication method shown in FIG. 3 .
  • the wireless communication device 80 may further include a connecting line 800, a transmitting circuit 803, a receiving circuit 804, an antenna 805, an input/output (I/O) interface 806, and the like.
  • the transmitting circuit and the receiving circuit can be coupled to the antenna to wirelessly connect with other communication devices.
  • the transmitting circuit and the receiving circuit can also be integrated into a transceiver, and the antenna can be a radio frequency antenna supporting multiple frequencies.
  • the I/O interface provides the possibility to interact with other communication devices or users.
  • the I/O interface may be a common public radio interface (common public radio interface, CPRI) interface, an Ethernet interface, a USB interface, and the like.
  • the I/O interface can be a screen, a keyboard, a microphone, a speaker, a USB interface, and the like.
  • Various components inside the wireless communication device 80 can be coupled together through various connecting lines (eg, a bus system), wherein the bus system can include a power bus, a control bus, a status signal bus, and the like in addition to a data bus.
  • the various buses are collectively referred to as bus systems in this document.
  • processor 801 and memory 802 may be implemented by a processing unit and a storage unit instead, wherein the processing unit and the storage unit may be implemented by codes having corresponding functions.
  • the storage unit is used to store program instructions; the processing unit is used to execute the program instructions in the storage unit, so as to implement the related wireless communication method shown in any of FIG. 5 to FIG. 6 and the above-mentioned optional embodiments.
  • FIG. 9 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present application.
  • the wireless communication device may be a wireless communication device or a terminal in this embodiment of the present application, and may implement the wireless communication method shown in FIG. 3 or FIG. 8 and the above-mentioned optional embodiments.
  • the wireless communication apparatus 90 includes: a processor 901 , and an interface circuit 902 coupled with the processor 801 . It should be understood that although only one processor and one interface circuit are shown in FIG. 9 .
  • Wireless communication apparatus 801 may include other numbers of processors and interface circuits.
  • the interface circuit 902 is used to communicate with other components of the terminal, such as memory or other processors.
  • the processor 901 is used for signal interaction with other components through the interface circuit 902 .
  • the interface circuit 902 may be an input/output interface of the processor 901 .
  • the processor 901 reads computer programs or instructions in a memory coupled thereto through the interface circuit 902, and decodes and executes the computer programs or instructions.
  • these computer programs or instructions may include the above-mentioned terminal function program, and may also include the above-mentioned function program applied to the wireless communication device in the terminal.
  • the terminal or the wireless communication device in the terminal can be made to implement the solution in the wireless communication method provided by the embodiments of this application.
  • these terminal function programs are stored in a memory outside the wireless communication device 90 .
  • the above-mentioned terminal function program is decoded and executed by the processor 901, part or all of the above-mentioned terminal function program is temporarily stored in the memory.
  • these terminal function programs are stored in a memory inside the wireless communication device 90 .
  • the wireless communication device 90 can be provided in the terminal of the wireless communication system of the embodiment of the present invention.
  • parts of the terminal function programs are stored in a memory outside the wireless communication device 90
  • other parts of the terminal function programs are stored in a memory inside the wireless communication device 90 .
  • wireless communication apparatuses shown in any one of FIGS. 7 to 9 may be combined with each other, and the wireless communication apparatuses shown in any one of FIGS. 7 to 9 and the relevant design details of each optional embodiment may refer to each other, and may also refer to FIG. 5 or any of the wireless communication methods shown in FIG. 6 and related design details of each optional embodiment. It will not be repeated here.
  • At least one (a) of a, b or c can mean: a, b, c, "a and b", “a and c", “b and c", or "a and b and c" ", where a, b, c can be single or multiple.
  • the above-mentioned embodiments of the present application may be implemented in whole or in part by software, hardware, firmware or any combination thereof.
  • software When implemented in software, it can be implemented in whole or in part in the form of a computer program product.
  • the computer program product includes one or more computer instructions. When the computer program instructions are loaded and executed on a computer, all or part of the processes or functions according to the embodiments of the present application are generated.
  • the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable device.
  • the computer instructions may be stored on or transmitted from one computer readable storage medium to another computer readable storage medium, for example, the computer instructions may be transmitted over a wire from a website site, computer, server or data center (eg coaxial cable, optical fiber, etc.) or wireless (eg infrared, radio, microwave, etc.) means to another website site, computer, server or data center.
  • the computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that includes one or more available media integrated.
  • the available medium may be a magnetic medium, such as a floppy disk, a hard disk, and a magnetic tape; an optical medium, such as a DVD; or a semiconductor medium, such as a solid state disk (Solid State Disk, SSD), and the like.
  • a magnetic medium such as a floppy disk, a hard disk, and a magnetic tape
  • an optical medium such as a DVD
  • a semiconductor medium such as a solid state disk (Solid State Disk, SSD), and the like.
  • the memory refers to a device or circuit with data or information storage capability, and can provide instructions and data to the processor.
  • Memory includes read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), non-volatile random access memory (NVRAM), programmable read-only memory or electrically erasable programmable memory, registers, etc.

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Abstract

Embodiments of the present application provide a handover method, apparatus, and system for a non-standalone (NSA) network and a standalone (SA) network, being used for solving the problem of a low communication rate caused by unsynchronized time between a 4G base station and a 5G base station, and ensuring the smooth handover of a terminal between the NSA network and the SA network. The method mainly comprises: for a terminal in an evolved universal terrestrial radio access (E-UTRA) and new radio (NR) dual connectivity (EN-DC) state, receiving, from an E-UTRA cell, an instruction of measuring a first NR cell, and from an NR cell, an indication of measuring a second cell; and when the time of the E-UTRA cell and the time of the first NR cell are not synchronized, according to a measurement result of a second NR cell, reporting a measurement report message of the first NR cell, wherein the first NR cell and the second NR cell are the same cell.

Description

非独立组网与独立组网的切换方法、装置与系统Method, device and system for switching between non-independent networking and independent networking 技术领域technical field
本申请涉及通信领域,尤其涉及一种非独立组网与独立组网的切换方法、装置与系统。The present application relates to the field of communications, and in particular, to a method, device and system for switching between non-independent networking and independent networking.
背景技术Background technique
第三代合作伙伴计划(3rd generation partnership project,3GPP)技术规范关于第五代(5th generation,5G)通信技术的讨论过程中,基于部署成本、时间、业务体验等因素,提出了包括独立(stand alone,SA)组网和非独立(non-stand alone,NSA)组网等5G与第四代(4th generation,4G)通信互操作方案。其中,SA组网方案是5G新无线(new radio,NR)直接接入5G核心网,控制信令完全不依赖于4G网络,通过核心网互操作来实现5G网络与4G网络的协同。NSA组网支持演进的通用陆基无线接入(evolved universal terrestrial radio access,E-UTRA)与新无线的双连接(E-UTRA NR dual connectivity,EN-DC)等双连接特性,具体地,NSA组网方案是将5G的控制信令锚定在4G基站上,通过4G基站接入演进型分组核心网(evolved packet core,EPC)或5G通信系统的下一代核心网(next generation core,NGC)。在运营商的5G网络建设中,是以NSA组网与SA组网混合部网为主的,存在较多NSA组网与SA组网部署的交叠区域,因此,用户在实际使用过程中,需要进行NSA组网与SA组网的切换。During the discussion of the 5th generation (5G) communication technology in the 3rd generation partnership project (3GPP) technical specification, based on factors such as deployment cost, time, and service experience, a proposal including stand-alone (stand- Alone, SA) networking and non-standalone (non-stand alone, NSA) networking and other 5G and fourth generation (4th generation, 4G) communication interoperability solutions. Among them, the SA networking solution is that the 5G new radio (NR) directly accesses the 5G core network, the control signaling is completely independent of the 4G network, and the collaboration between the 5G network and the 4G network is achieved through core network interoperability. NSA networking supports dual connectivity features such as evolved universal terrestrial radio access (E-UTRA) and new wireless dual connectivity (E-UTRA NR dual connectivity, EN-DC). Specifically, NSA The networking solution is to anchor the 5G control signaling on the 4G base station, and access the evolved packet core (EPC) or the next generation core (NGC) of the 5G communication system through the 4G base station. . In the operator's 5G network construction, the NSA network and the SA network are mainly used in the hybrid network, and there are many overlapping areas where the NSA network and the SA network are deployed. It is necessary to switch between NSA networking and SA networking.
对于频分复用(frequency division duplex,FDD)的长期演进(long term evolution,LTE)基站,无需全球定位系统(global position system,GPS)信号同步时间也可以正常进行除站间载波聚合、上行协作多点(coordinated multipoint)通信以外的4G常规业务,部分运营商放弃在4G基站部署GPS接收器,即4G现网中存在部分基站缺少GPS信号同步,这导致部分LTE基站与NR基站时间不同步,支持5G的终端在这种情况下可能无法从NSA组网切换至SA组网,影响用户体验。For frequency division duplex (FDD) long term evolution (LTE) base stations, the carrier aggregation and uplink cooperation between stations can be performed normally without the need for global positioning system (GPS) signal synchronization time. For 4G regular services other than coordinated multipoint communication, some operators have abandoned the deployment of GPS receivers in 4G base stations, that is, some base stations in the existing 4G network lack GPS signal synchronization, which causes some LTE base stations and NR base stations to be out of time synchronization. In this case, 5G-enabled terminals may not be able to switch from NSA networking to SA networking, affecting user experience.
因此,针对于基站时间不同步的情况下,如何进行NSA组网与SA组网平滑切换的方案值得研究。Therefore, it is worth studying how to perform smooth handover between NSA networking and SA networking when the base station time is not synchronized.
发明内容SUMMARY OF THE INVENTION
本申请结合多种实施方式,提供了一种NSA组网与SA组网的切换方法、装置与系统,用于保障终端在NSA组网与SA组网之间的平滑切换,以及终端的通信服务质量。The present application provides a method, device and system for switching between NSA networking and SA networking in combination with various embodiments, which are used to ensure smooth switching of terminals between NSA networking and SA networking, as well as communication services for terminals quality.
应理解,本申请实施例中的方法可以由无线通信装置执行,该无线通信装置可以是计算设备的整机,也可以是该计算设备中的部分器件,例如无线通信功能相关的芯片,如系统芯片、通信芯片。其中,系统芯片也称为片上系统,或称为SoC芯片。具 体地,无线通信装置可以是诸如智能手机这样的终端,也可以是能够被设置在终端中的系统芯片或通信芯片。通信芯片可以包括射频处理芯片和基带处理芯片的一种或多种。基带处理芯片有时也称为调制解调器(modem)或基带处理器。在物理实现中,通信芯片可集成在SoC芯片内部,也可以不与SoC芯片集成。例如,基带处理芯片集成在SoC芯片中,射频处理芯片不与SoC芯片集成。It should be understood that the methods in the embodiments of the present application may be executed by a wireless communication device, and the wireless communication device may be the entire computer of the computing device, or may be part of the device in the computing device, such as a chip related to a wireless communication function, such as a system chip, communication chip. Among them, the system-on-a-chip is also called a system-on-chip, or a SoC chip. Specifically, the wireless communication device may be a terminal such as a smart phone, or may be a system chip or a communication chip that can be provided in the terminal. The communication chip may include one or more of a radio frequency processing chip and a baseband processing chip. Baseband processing chips are also sometimes called modems or baseband processors. In physical implementation, the communication chip may be integrated inside the SoC chip or not integrated with the SoC chip. For example, the baseband processing chip is integrated in the SoC chip, and the radio frequency processing chip is not integrated with the SoC chip.
第一方面,本申请实施例提供一种通信方法,包括:In a first aspect, an embodiment of the present application provides a communication method, including:
接收来自第一小区的第一测量指示消息,该第一测量指示消息用于指示用户设备UE测量第一新无线NR小区;接收来自第二小区的第二测量指示消息,该第二测量指示消息用于指示UE测量第二NR小区,其中,该第一NR小区与第二NR小区为同一小区;在该第一小区与该第一NR小区时间不同步时,根据该第二NR小区的测量结果,发送该第一NR小区的测量报告消息。Receive a first measurement indication message from the first cell, where the first measurement indication message is used to instruct the user equipment UE to measure the first new wireless NR cell; receive a second measurement indication message from the second cell, the second measurement indication message It is used to instruct the UE to measure the second NR cell, where the first NR cell and the second NR cell are the same cell; when the time of the first cell and the first NR cell is not synchronized, according to the measurement of the second NR cell As a result, a measurement report message for the first NR cell is sent.
应理解,UE驻留在第一小区和第二小区,在第一小区与第一NR小区时间不同步时,由于测量间隔无法与第一NR小区的同步信号块对齐,一般终端大概率测量不到第一NR小区的测量结果,终端也无法上报第一NR小区的测量报告并切换至第一NR小区中。根据响应于第二小区的第二测量指示消息测得的第二NR小区的测量结果,上报第一NR小区的测量报告消息,可以在第一NR小区的测量结果满足上报条件时及时上报,提高UE的通信质量和通信连续性。It should be understood that, when the UE resides in the first cell and the second cell, when the time of the first cell and the first NR cell is not synchronized, since the measurement interval cannot be aligned with the synchronization signal block of the first NR cell, generally the terminal does not measure with high probability. Even with the measurement result of the first NR cell, the terminal cannot report the measurement report of the first NR cell and switch to the first NR cell. The measurement report message of the first NR cell is reported according to the measurement result of the second NR cell measured in response to the second measurement instruction message of the second cell. Communication quality and communication continuity of the UE.
在一种可能的实施方式中,该方法还包括:接收第二RRC连接重配置消息,该第二RRC连接重配置用于指示该UE释放辅小区组;释放该辅小区组;接收切换消息,该切换消息用于指示该UE切换到该第一NR小区。In a possible implementation manner, the method further includes: receiving a second RRC connection reconfiguration message, where the second RRC connection reconfiguration is used to instruct the UE to release the secondary cell group; release the secondary cell group; receive a handover message, The handover message is used to instruct the UE to handover to the first NR cell.
在一种可能的实施方式中,该方法还包括:UE驻留在第一NR小区。In a possible implementation manner, the method further includes: the UE camping on the first NR cell.
应理解,终端接收到上述RRC释放消息和第二RRC重配置消息,可以驻留在第一小区和第二小区的双连接状态切换至驻留在第一NR小区的单连接状态,即从NSA组网切换至SA组网。It should be understood that after receiving the above-mentioned RRC release message and the second RRC reconfiguration message, the terminal can switch from the dual-connection state of camping on the first cell and the second cell to the single-connection state camping on the first NR cell, that is, from the NSA The networking is switched to SA networking.
在一种可能的实施方式中,该第一测量指示消息为RRC连接重配置消息,该第二测试指示消息为RRC重配置消息。In a possible implementation manner, the first measurement indication message is an RRC connection reconfiguration message, and the second test indication message is an RRC reconfiguration message.
在一种可能的实施方式中,该第一测量指示消息还用于指示该第一NR小区的上报配置为B1事件或B2事件。In a possible implementation manner, the first measurement indication message is further used to indicate that the reporting configuration of the first NR cell is a B1 event or a B2 event.
在一种可能的实施方式中,该第二测量指示消息还用于指示该第二NR小区的上报配置为A1事件、A2事件、A3事件、A4事件和A5事件中的一个。In a possible implementation manner, the second measurement indication message is further used to indicate that the reporting configuration of the second NR cell is one of an A1 event, an A2 event, an A3 event, an A4 event and an A5 event.
在一种可能的实施方式中,该第一小区为演进的通用陆基无线接入E-UTRA小区,该第二小区为NR小区。In a possible implementation manner, the first cell is an evolved universal terrestrial radio access E-UTRA cell, and the second cell is an NR cell.
应理解,对于处于EN-DC状态的终端,从NSA组网环境走向SA组网环境,通过上述方法可以在LTE基站与NR基站不同步的时候,保障终端可以及时上报待切换的NR小区的测量报告,进而保障NSA组网与SA组网的平滑切换,避免长期滞留在NSA组网最终回到LTE单连接状态。It should be understood that, for a terminal in the EN-DC state, from the NSA networking environment to the SA networking environment, the above method can ensure that the terminal can report the measurement of the NR cell to be switched in time when the LTE base station and the NR base station are out of sync. The report ensures the smooth switching between the NSA networking and the SA networking, and avoids staying in the NSA networking for a long time and eventually returning to the LTE single-connection state.
第二方面,本申请实施例提供了一种无线通信装置,包括:接收单元及发送单元;In a second aspect, an embodiment of the present application provides a wireless communication device, including: a receiving unit and a sending unit;
该接收单元,用于接收来自第一小区的第一测量指示消息,该第一测量指示消息用于指示用户设备UE测量第一新无线NR小区;该接收单元还用于接收来自第二小区的第二测量指示消息,该第二测量指示消息用于指示UE测量第二NR小区,其中, 该第一NR小区与第二NR小区为同一小区;该发送单元用于在该第一小区与该第一NR小区时间不同步时,根据该第二NR小区的测量结果,发送该第一NR小区的测量报告消息。The receiving unit is configured to receive a first measurement instruction message from the first cell, where the first measurement instruction message is used to instruct the user equipment UE to measure the first new wireless NR cell; the receiving unit is further configured to receive the first measurement instruction message from the second cell The second measurement indication message, the second measurement indication message is used to instruct the UE to measure the second NR cell, wherein the first NR cell and the second NR cell are the same cell; the sending unit is used for the first cell and the second NR cell. When the time of the first NR cell is not synchronized, a measurement report message of the first NR cell is sent according to the measurement result of the second NR cell.
在一种可能的实施方式中,该通信装置还包括处理单元,该接收单元还用于接收第二RRC连接重配置消息,该第二RRC连接重配置用于指示该UE释放辅小区组;该处理单元还用于释放该辅小区组;该接收单元还用于接收切换消息,该切换消息用于指示该UE切换到该第一NR小区。In a possible implementation manner, the communication apparatus further includes a processing unit, and the receiving unit is further configured to receive a second RRC connection reconfiguration message, where the second RRC connection reconfiguration is used to instruct the UE to release the secondary cell group; the The processing unit is further configured to release the secondary cell group; the receiving unit is further configured to receive a handover message, where the handover message is used to instruct the UE to switch to the first NR cell.
在一种可能的实施方式中,该第一测量指示消息为RRC连接重配置消息,该第二测试指示消息为RRC重配置消息。In a possible implementation manner, the first measurement indication message is an RRC connection reconfiguration message, and the second test indication message is an RRC reconfiguration message.
在一种可能的实施方式中,该第一测量指示消息还用于指示该第一NR小区的上报配置为B1事件或B2事件。In a possible implementation manner, the first measurement indication message is further used to indicate that the reporting configuration of the first NR cell is a B1 event or a B2 event.
在一种可能的实施方式中,该第二测量指示消息还用于指示该第二NR小区的上报配置为A1事件、A2事件、A3事件、A4事件和A5事件中的一个。In a possible implementation manner, the second measurement indication message is further used to indicate that the reporting configuration of the second NR cell is one of an A1 event, an A2 event, an A3 event, an A4 event and an A5 event.
在一种可能的实施方式中,该第一小区为演进的通用陆基无线接入E-UTRA小区,该第二小区为NR小区。In a possible implementation manner, the first cell is an evolved universal terrestrial radio access E-UTRA cell, and the second cell is an NR cell.
应理解,对于处于EN-DC状态的终端,从NSA组网环境走向SA组网环境,通过上述方法可以在LTE基站与NR基站不同步的时候,保障终端可以及时上报待切换的NR小区的测量报告,进而保障NSA组网与SA组网的平滑切换,避免长期滞留在NSA组网最终回到LTE单连接状态。It should be understood that, for a terminal in the EN-DC state, from the NSA networking environment to the SA networking environment, the above method can ensure that the terminal can report the measurement of the NR cell to be switched in time when the LTE base station and the NR base station are out of sync. The report ensures the smooth switching between the NSA networking and the SA networking, and avoids staying in the NSA networking for a long time and eventually returning to the LTE single-connection state.
第三方面,本申请实施例提供一种计算机可读存储介质,该计算机可读存储介质中存储了程序代码,该程序代码被终端或终端中的处理器执行时,以实现如第一方面至第二方面任一方面或任意方面中任一种可能的实施方式该的方法。In a third aspect, an embodiment of the present application provides a computer-readable storage medium, where program codes are stored in the computer-readable storage medium, and when the program codes are executed by a terminal or a processor in the terminal, to implement the steps from the first aspect to the Any aspect of the second aspect or any possible implementation of the method in any aspect.
第四方面,本申请实施例提供一种计算机程序产品,该计算机程序产品包含的程序代码被终端中的处理器执行时,以实现如第一方面至第二方面任一方面或任意方面中任一种可能的实施方式该的方法。In a fourth aspect, an embodiment of the present application provides a computer program product, when program codes included in the computer program product are executed by a processor in a terminal, to implement any one of the first aspect to the second aspect or any one of any aspect. A possible implementation of this method.
第五方面,本申请实施例提供一种通信系统,包括:无线网络设备,以及包含如第三方面或第三方面中任一可能的实施方式该的无线通信装置。In a fifth aspect, an embodiment of the present application provides a communication system, including: a wireless network device, and a wireless communication apparatus including the third aspect or any possible implementation manner of the third aspect.
其中,无线网络设备可以是E-UTRA小区的无线网络设备。The wireless network device may be a wireless network device of an E-UTRA cell.
应理解,第二方面至第五方面或任意方面中任一种可能的实施方式所涉及的技术方案细节和技术效果可以参考第一方面或第一方面中任一种可能的实施方式该的技术方面细节和技术效果,不再重复赘述。It should be understood that, for the technical solution details and technical effects involved in any possible implementation of the second aspect to the fifth aspect or any aspect, reference may be made to the technology of the first aspect or any possible implementation of the first aspect The details and technical effects will not be repeated here.
附图说明Description of drawings
图1为本申请实施例提供的一种通信系统的结构示意图;FIG. 1 is a schematic structural diagram of a communication system according to an embodiment of the present application;
图2为本申请实施例提供的一种非独立组网的结构示意图;FIG. 2 is a schematic structural diagram of a non-independent networking according to an embodiment of the present application;
图3为本申请实施例提供的一种非独立组网切换至独立组网的示意性流程图;3 is a schematic flowchart of switching from a non-independent networking to an independent networking according to an embodiment of the present application;
图3为本申请实施例提供的一种长期演进基站与新无线基站时间同步时终端测量配置的示意图;3 is a schematic diagram of a terminal measurement configuration when a long-term evolution base station and a new radio base station are time synchronized according to an embodiment of the present application;
图4为本申请实施例提供的一种长期演进基站与新无线基站时间不同步时终端测量配置的示意图;4 is a schematic diagram of a terminal measurement configuration when a long-term evolution base station and a new radio base station are not time-synchronized according to an embodiment of the present application;
图5为本申请实施例提供的一种通信方法的流程示意图;FIG. 5 is a schematic flowchart of a communication method provided by an embodiment of the present application;
图6为本申请实施例提供的一种非独立组网与独立组网切换的通信方法流程示意图;6 is a schematic flowchart of a communication method for switching between a non-independent networking and an independent networking according to an embodiment of the present application;
图7为本申请实施例提供的一种通信装置的结构示意图;FIG. 7 is a schematic structural diagram of a communication device according to an embodiment of the present application;
图8为本申请实施例提供的一种通信装置的结构示意图;FIG. 8 is a schematic structural diagram of a communication device according to an embodiment of the present application;
图9为本申请实施例提供的一种无线通信装置的结构示意图。FIG. 9 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present application.
应理解,上述结构示意图中,各框图的尺寸和形态仅供参考,不应构成对本申请实施例的排他性的解读。结构示意图所呈现的各框图间的相对位置和包含关系,仅为示意性地表示各框图间的结构关联,而非限制本申请实施例的物理连接方式。It should be understood that, in the above structural schematic diagram, the size and shape of each block diagram are for reference only, and should not constitute an exclusive interpretation of the embodiments of the present application. The relative positions and inclusion relationships among the block diagrams presented in the structural schematic diagram only schematically represent the structural associations between the block diagrams, and do not limit the physical connection manners of the embodiments of the present application.
具体实施方式Detailed ways
下面结合附图并举实施例,对本申请提供的技术方案作进一步说明。应理解,本申请实施例中提供的系统结构和业务场景主要是为了说明本申请的技术方案的可能的实施方式,不应被解读为对本申请的技术方案的唯一限定。本领域普通技术人员可知,随着系统结构的演进和新业务场景的出现,本申请提供的技术方案对类似技术问题同样适用。The technical solutions provided by the present application are further described below with reference to the accompanying drawings and examples. It should be understood that the system structure and service scenarios provided in the embodiments of the present application are mainly to illustrate possible implementations of the technical solutions of the present application, and should not be construed as the only limitations on the technical solutions of the present application. Those of ordinary skill in the art know that with the evolution of the system structure and the emergence of new service scenarios, the technical solutions provided in this application are also applicable to similar technical problems.
应理解,本申请实施例提供了一种非独立组网与独立组网的切换方法、装置与系统,从而保障NSA组网与SA组网下,终端通信的服务质量。It should be understood that the embodiments of the present application provide a method, device and system for switching between non-independent networking and independent networking, so as to ensure the quality of service of terminal communication under NSA networking and SA networking.
由于这些技术方案解决问题的原理相同或相似,在如下具体实施例的介绍中,某些重复之处可能不再赘述,但应视为这些具体实施例之间已有相互引用,可以相互结合。Since the principles for solving problems of these technical solutions are the same or similar, in the introduction of the following specific embodiments, some repetitive parts may not be repeated, but it should be considered that these specific embodiments have been referenced to each other and can be combined with each other.
图1为本申请实施例提供的一种通信系统的结构示意图。参见图1,在通信系统00中,存在一个或多个终端01与无线接入网络(radio acess network,RAN)通信。该RAN包括一个或多个网络设备02。应理解,为了清楚起见,图1仅示出了一个网络设备和一个终端。可选的,该通信系统还可以包括可与RAN相互通信的核心网络(core network),这里的核心网络可以是4G通信系统的EPC,或者5G通信系统的NGC。进一步可选的,该通信系统还可以包括与该核心网络相互连接的一个或更多的外部网络(external network)。例如,英特网、公共交换电话网(public switched telephone network)等。FIG. 1 is a schematic structural diagram of a communication system according to an embodiment of the present application. Referring to FIG. 1, in a communication system 00, there are one or more terminals 01 in communication with a radio access network (RAN). The RAN includes one or more network devices 02 . It should be understood that, for the sake of clarity, only one network device and one terminal are shown in FIG. 1 . Optionally, the communication system may further include a core network (core network) that can communicate with the RAN, where the core network may be the EPC of the 4G communication system or the NGC of the 5G communication system. Further optionally, the communication system may also include one or more external networks interconnected with the core network. For example, Internet, public switched telephone network, etc.
应理解,该通信系统可以作为基于3GPP技术规范的移动通信系统的一个示例,也可以涵盖基于其他无线通信标准的无线通信系统,例如电气电子工程师学会(institute of electrical and electronics engineers,IEEE)的802系列,如802.11、802.15、802.20等无线通信标准。It should be understood that the communication system can be used as an example of a mobile communication system based on 3GPP technical specifications, and can also cover wireless communication systems based on other wireless communication standards, such as 802 of the Institute of Electrical and Electronics Engineers (IEEE). Series, such as 802.11, 802.15, 802.20 and other wireless communication standards.
其中,终端01也可以被称为用户设备(user equipment,UE),移动台(mobile station,MS)或订户单元(subscriber unit,SU),本申请实施例的表述中,对于终端和UE不作区分。终端具体可以是但不限于移动电话、平板电脑(tablet computer),膝上型电脑(laptop computer),可穿戴设备(智能手表、智能手环,智能头盔,智能眼镜等),以及其他具备无线接入能力的通信设备,如各种物联网设备,包括智能家居设备(智能电表、智能家电等),智能车辆等。网络设备02是一种具备无线通信功能的计算设备,应理解的是,网络设备02可以是像基站这样的无线接入网设备。基站具体可以是4G通信系统的演进节点B(evolved Node B,eNB或eNodeB)、或5G通信系统的下一代节点B(next generation Node B,gNodeB或gNB)、或其他可能的无线接入技术中的基站。基站的物理形态和发射功率也可以有多种,例如宏基站(macro base station)或微基站(micro base station)。The terminal 01 may also be called a user equipment (user equipment, UE), a mobile station (mobile station, MS) or a subscriber unit (subscriber unit, SU). In the description of the embodiments of this application, no distinction is made between a terminal and a UE. . The terminal can specifically be, but is not limited to, a mobile phone, a tablet computer, a laptop computer, a wearable device (smart watch, smart bracelet, smart helmet, smart glasses, etc.), and other devices with wireless connectivity. Connected communication devices, such as various IoT devices, including smart home devices (smart meters, smart home appliances, etc.), smart vehicles, etc. The network device 02 is a computing device with a wireless communication function. It should be understood that the network device 02 may be a wireless access network device such as a base station. The base station may specifically be an evolved Node B (evolved Node B, eNB or eNodeB) of a 4G communication system, or a next generation Node B (gNodeB or gNB) of a 5G communication system, or other possible wireless access technologies. base station. The physical form and transmit power of the base station can also be various, such as a macro base station (macro base station) or a micro base station (micro base station).
图2为本申请实施例提供的一种非独立组网的结构示意图。参见图2,在NSA组网中,长期演进(LTE)演进节点B(LTE eNB)和下一代节点B(gNB)都与4G通信系统的核心网演进型分组核心网(EPC)相连。这里,LTE eNB作为主节点(master node)在控制面与EPC相连,gNB作为辅节点(secondary node)。换句话说,控制面信令锚定在LTE eNB上,用户面可以由LTE eNB或gNB独立服务,也可以由LTE eNB与gNB同时服务。与主节点关联的服务小区称作主小区组(master cell group,MCG),与辅节点关联的服务小区称作辅小区组(secondary cell group,SCG)。一般,网络会给终端配置MCG,以及零个或一个SCG。在终端接入LTE网络后,LTE eNB配置给终端一个测量事件来触发终端对NR邻区的测量,LTE eNB根据终端上报的测量结果,选择满足条件的NR邻区添加进SCG。FIG. 2 is a schematic structural diagram of a non-independent networking according to an embodiment of the present application. Referring to Figure 2, in the NSA networking, both the Long Term Evolution (LTE) Evolved Node B (LTE eNB) and the Next Generation Node B (gNB) are connected to the Evolved Packet Core (EPC), the core network of the 4G communication system. Here, the LTE eNB acts as the master node and is connected to the EPC in the control plane, and the gNB acts as the secondary node. In other words, the control plane signaling is anchored on the LTE eNB, and the user plane can be served by the LTE eNB or the gNB independently, or by the LTE eNB and the gNB simultaneously. The serving cell associated with the master node is called a master cell group (MCG), and the serving cell associated with the secondary node is called a secondary cell group (SCG). Typically, the network configures the terminal with an MCG, and zero or one SCG. After the terminal accesses the LTE network, the LTE eNB configures a measurement event for the terminal to trigger the terminal to measure the NR neighbor cell. According to the measurement result reported by the terminal, the LTE eNB selects the NR neighbor cell that meets the conditions and adds it to the SCG.
应理解,网络设备可以配置终端进行不同类型的测量,比如NR测量,E-UTRA频率的异无线接入技术(inter radio access technology,Inter-RAT)测量(也称异系统测量),参考3GPP技术规范(如3GPP TS38.133 V16.5.0),对于处于同步(synchronous)带内(intra-band)EN-DC状态的UE,当E-UTRA主小区(primary cell,PCell)和辅助主小区(primary secondary cell,PSCell)配置该UE监听(monitor)同一个的NR载波频率层时,只要系统帧号(system frame number,SFN)与时隙边界对齐,则该NR载波频率层应仅计入有效NR载波频率层总数一次,除非该配置的要监听的NR载波频率层具有:It should be understood that the network device can configure the terminal to perform different types of measurements, such as NR measurement, E-UTRA frequency inter-radio access technology (Inter-RAT) measurement (also called inter-system measurement), refer to 3GPP technology Specification (such as 3GPP TS38.133 V16.5.0), for UE in synchronous (intra-band) EN-DC state, when E-UTRA primary cell (primary cell, PCell) and secondary primary cell (primary When the secondary cell, PSCell) configures the UE to monitor the same NR carrier frequency layer, as long as the system frame number (SFN) is aligned with the slot boundary, the NR carrier frequency layer shall only be included in the effective NR. The total number of carrier frequency layers once, unless the NR carrier frequency layer to listen to for this configuration has:
(1)不同的接收信号强度指示(received signal strength indicator,RSSI)测量资源(measurement resource);或(1) Different received signal strength indicator (RSSI) measurement resources; or
(2)不同的来自小区的推导的同步信号块(synchronization signal block,SSB)(deriveSSB-IndexFromCell)指示;或(2) Different derived synchronization signal block (SSB) (deriveSSB-IndexFromCell) indications from cells; or
(3)不同的SSB测量定时配置(SSB measurement timing configuration,SMTC);或(3) Different SSB measurement timing configurations (SSB measurement timing configuration, SMTC); or
(4)不同的普通SSB位置准共址(quasi-colocation,QCL)(如,ssb-PositionQCL-Common-r16)指示或带连续载波聚合(contiguous carrier aggregation, CCA)的NR载波频率层上的SSB位置QCL(ssb-PositionQCL)的小区列表;或(4) Different common SSB locations quasi-colocation (QCL) (eg, ssb-PositionQCL-Common-r16) indication or SSB on the NR carrier frequency layer with contiguous carrier aggregation (CCA) a list of cells for the location QCL (ssb-PositionQCL); or
(5)不同的带CCA的NR载波频率层的RSSI测量时间配置(RSSI measurement timing configuration,RMTC)配置(rmtc-Config)指示。(5) RSSI measurement timing configuration (RMTC) configuration (rmtc-Config) indication of different NR carrier frequency layers with CCA.
即,对于处于NSA组网下的UE,若E-UTRA基站与NR基站配置其进行相同的NR频点测量,仅在满足下列条件时,可以进行测量合并:That is, for the UE under the NSA networking, if the E-UTRA base station and the NR base station are configured to perform the same NR frequency measurement, the measurement combination can be performed only when the following conditions are met:
(1)LTE的载波频率与NR的载波频率属于同一频带;(1) The carrier frequency of LTE and the carrier frequency of NR belong to the same frequency band;
(2)LTE侧与NR侧进行了时间同步;(2) The LTE side and the NR side are time synchronized;
(3)RSSI测量资源相同;(3) The RSSI measurement resources are the same;
(4)来自小区的推导的SSB(deriveSSB-IndexFromCell)指示相同;(4) The derived SSB (deriveSSB-IndexFromCell) from the cell indicates the same;
(5)SMTC相同;(5) SMTC is the same;
(6)普通SSB位置QCL指示和带CCA的NR载波频率层上的SSB位置QCL(ssb-PositionQCL)的小区列表相同(6) The common SSB position QCL indication is the same as the cell list of the SSB position QCL (ssb-PositionQCL) on the NR carrier frequency layer with CCA
(7)带CCA的NR载波频率层的RMTC配置指示相同。(7) The RMTC configuration indication of the NR carrier frequency layer with CCA is the same.
若不满足上述条件,则无法进行测量合并,需要将NR测量和E-UTRA频率的异系统测量分别配置两次测量。网络设备可以配置UE进行基于SSB的测量,并上报测量结果。If the above conditions are not met, the measurement combination cannot be performed, and the NR measurement and the inter-system measurement of the E-UTRA frequency need to be configured for two measurements respectively. The network device can configure the UE to perform SSB-based measurements and report the measurement results.
图3为本申请实施例提供的一种长期演进基站与新无线基站时间同步时UE测量的示意图。参考图3,针对于驻留在NSA组网中的UE,图中分别示出了一种长期演进(LTE)测量间隔(measure gap)、同步信号块测量定时配置(SMTC)、新无线(NR)邻小区组(SCG)小区的同步信号块(SSB)、新无线邻区同步信号块等参数在时域上的分布。其中,LTE基站与NR基站进行了时间同步,UE的NR SCG小区的SSB与NR邻区的SSB同步,时间相同。LTE测量间隔为40毫秒(ms)且测量时长为6ms,SMTC周期为20ms且测量时长为5ms。从图上可以看出,LTE测量在时域上与NR SCG小区的SSB有重叠,且SMTC测量在时域上与NR邻区的SSB有重叠,UE可以测量得到NR邻区的SSB,进而可以由NSA组网切换至SA组网。FIG. 3 is a schematic diagram of UE measurement when a long-term evolution base station and a new radio base station are time synchronized according to an embodiment of the present application. Referring to Figure 3, for a UE residing in an NSA network, the figure shows a Long Term Evolution (LTE) measurement gap (measure gap), a synchronization signal block measurement timing configuration (SMTC), a new radio (NR) ) distribution of parameters in the time domain, such as the synchronization signal block (SSB) of the neighbor cell group (SCG) cell, and the synchronization signal block of the new wireless neighbor cell. Among them, the LTE base station and the NR base station are time synchronized, and the SSB of the NR SCG cell of the UE is synchronized with the SSB of the NR neighboring cell, and the time is the same. The LTE measurement interval is 40 milliseconds (ms) and the measurement duration is 6ms, and the SMTC period is 20ms and the measurement duration is 5ms. It can be seen from the figure that the LTE measurement overlaps the SSB of the NR SCG cell in the time domain, and the SMTC measurement overlaps the SSB of the NR adjacent cell in the time domain. The UE can measure the SSB of the NR adjacent cell, and then can Switch from NSA networking to SA networking.
图4为本申请实施例提供的一种长期演进基站与新无线基站时间不同步时UE测量的示意图。类似图3,针对于驻留在NSA组网中的UE,图4分别示出了另一种长期演进测量间隔、同步信号块测量定时配置、邻小区组小区的新无线同步信号块、邻区新无线同步信号块等参数在时域上的分布。其中,LTE基站与NR基站没有进行时间同步,UE的NR SCG小区的SSB与NR邻区的SSB未同步,在时域上错开分布。LTE测量间隔为40毫秒(ms)且测量时长为6ms,SMTC周期为20ms且测量时长为5ms。从图上可以看出,LTE测量在时域上与NR SCG小区的SSB错开分布,SMTC测量在时域上与NR邻区的SSB错开分布,对于不支持延长gap的UE无法正常测量到NR邻区。FIG. 4 is a schematic diagram of UE measurement when a long-term evolution base station and a new radio base station are not time synchronized according to an embodiment of the present application. Similar to Fig. 3, for the UE residing in the NSA network, Fig. 4 shows another long-term evolution measurement interval, synchronization signal block measurement timing configuration, new radio synchronization signal block of neighboring cell group cells, neighboring cells. The distribution of parameters such as new radio synchronization signal blocks in the time domain. Among them, the LTE base station and the NR base station are not time synchronized, and the SSB of the NR SCG cell of the UE is not synchronized with the SSB of the NR neighboring cell, and the distribution is staggered in the time domain. The LTE measurement interval is 40 milliseconds (ms) and the measurement duration is 6ms, and the SMTC period is 20ms and the measurement duration is 5ms. It can be seen from the figure that the LTE measurement is staggered from the SSB of the NR SCG cell in the time domain, and the SMTC measurement is staggered from the SSB of the NR neighbor in the time domain. For UEs that do not support extended gap, the NR neighbor cannot be measured normally Area.
对于驻留在NSA网络的UE,随着其从NSA网络环境向SA网络环境移动的过程中,服务小区、NR SCG小区以及NR邻区的信号质量逐渐变化。但UE可能无法正常测量得到NR邻区且SCG信号不断减弱,UE的通信速率会不断降低,用户通信体验受到严重影响。若UE释放SCG小区,UE需要断开EN-DC重新回到LTE单模态。此时,UE需要收到网络设备发送的B1事件测量配置,通过延长测量间隔上报B1事 件才能触发切换至SA组网中。但网络设备不会在每一条测量配置消息都下发B1事件测量配置,UE可能需要等待很久才能收到B1事件测量配置,这会导致用户进入SA组网区域后,也需要一段时间才能回到5G SA组网。For the UE residing on the NSA network, as it moves from the NSA network environment to the SA network environment, the signal quality of the serving cell, the NR SCG cell, and the NR neighbor cell gradually changes. However, the UE may not be able to measure the NR neighbor cells normally and the SCG signal is continuously weakened, the communication rate of the UE will continue to decrease, and the user communication experience will be seriously affected. If the UE releases the SCG cell, the UE needs to disconnect the EN-DC and return to the LTE single mode. At this time, the UE needs to receive the B1 event measurement configuration sent by the network device, and can trigger the handover to the SA networking by extending the measurement interval and reporting the B1 event. However, the network device will not deliver the B1 event measurement configuration in every measurement configuration message. The UE may have to wait for a long time to receive the B1 event measurement configuration, which will cause the user to return to the SA network area after a period of time 5G SA networking.
为此,本申请实施例提供了一种NSA组网与SA组网切换的通信方法,用于解决上述问题。To this end, an embodiment of the present application provides a communication method for switching between NSA networking and SA networking, so as to solve the above problem.
图5为本申请实施例提供的一种通信方法的流程示意图。该通信方法可以由无线通信装置执行,该无线通信装置可以是计算设备的整机(例如,终端),也可以是该计算设备中的部分器件(例如,终端内部的通信芯片、系统芯片),下面以终端(如用户设备)执行该通信方法为例展开介绍。参考图5,该方法500包括:FIG. 5 is a schematic flowchart of a communication method provided by an embodiment of the present application. The communication method may be performed by a wireless communication device, and the wireless communication device may be an entire computer (for example, a terminal) of the computing device, or may be a part of the device in the computing device (for example, a communication chip or a system chip inside the terminal), The following is an introduction by taking a terminal (such as a user equipment) executing the communication method as an example. Referring to Figure 5, the method 500 includes:
S501:用户设备接收来自第一小区的第一测量指示消息,该第一测量指示消息用于指示用户设备测量第一新无线小区。S501: The user equipment receives a first measurement indication message from the first cell, where the first measurement indication message is used to instruct the user equipment to measure the first new radio cell.
S502:用户设备接收来自第二小区的第二测量指示消息,该第二测量指示消息用于指示用户设备测量第二新无线小区,其中,该第一新无线小区与第二新无线小区为同一小区。S502: The user equipment receives a second measurement indication message from the second cell, where the second measurement indication message is used to instruct the user equipment to measure a second new radio cell, where the first new radio cell and the second new radio cell are the same community.
应理解,UE驻留在第一小区和第二小区,网络设备可以通过空口消息指示UE测量邻区的信号质量,并在空口消息中指定待测量的小区。该第一NR小区与第二NR小区为同一小区也可以理解为该第一NR小区的频点与该第二NR小区的频点位于同一频带上。It should be understood that, when the UE resides in the first cell and the second cell, the network device may instruct the UE to measure the signal quality of neighboring cells through an air interface message, and specify the cell to be measured in the air interface message. The fact that the first NR cell and the second NR cell are the same cell can also be understood that the frequency of the first NR cell and the frequency of the second NR cell are located on the same frequency band.
S503:用户设备在该第一小区与该第一新无线小区时间不同步时,根据该第二新无线小区的测量结果,发送该第一新无线小区的测量报告消息。S503: When the time of the first cell and the first new radio cell is not synchronized, the user equipment sends a measurement report message of the first new radio cell according to the measurement result of the second new radio cell.
应理解,在第一小区与第一NR小区时间不同步时,UE一般无法通过LTE的测量间隔测量得到该第一NR小区的SSB。UE可以根据网络设备的配置,将测量报告的上报配置为事件触发(eventTriggered)上报或周期性(periodical)上报等。若对于第一NR小区的测量被配置为事件触发上报,UE在一段时间内测量不到第一NR小区的SSB,UE将无法上报第一NR小区的测量结果。网络设备无法获取第一NR小区的信号质量,也不会指示UE从第一小区切换至第一NR小区。但由于第一NR小区与第二NR小区为同一小区,相应的测量为同频测量,UE可以通过SMTC测量得到第一NR小区的测量结果,并将根据第二NR小区的测量结果判断第一NR小区的测量结果是否满足上报事件要求,在满足上报事件要求的时候,可以发送第一NR小区的测量报告消息。It should be understood that when the time of the first cell and the first NR cell is not synchronized, the UE generally cannot obtain the SSB of the first NR cell by measuring the measurement interval of the LTE. The UE may configure the reporting of the measurement report as an event-triggered (event-triggered) report or a periodic (periodical) report according to the configuration of the network device. If the measurement on the first NR cell is configured as event-triggered reporting, the UE cannot measure the SSB of the first NR cell within a period of time, and the UE cannot report the measurement result of the first NR cell. The network device cannot acquire the signal quality of the first NR cell, nor instruct the UE to switch from the first cell to the first NR cell. However, since the first NR cell and the second NR cell are the same cell, and the corresponding measurement is the same frequency measurement, the UE can obtain the measurement result of the first NR cell through SMTC measurement, and will judge the first NR cell according to the measurement result of the second NR cell. Whether the measurement result of the NR cell meets the reporting event requirement, when the reporting event requirement is met, a measurement report message of the first NR cell may be sent.
可选的,方法500还包括:S504、S505、S506中的一步或多步。Optionally, the method 500 further includes: one or more steps of S504, S505, and S506.
S504:接收第二RRC连接重配置消息,该第二RRC重配置消息用于指示该UE释放辅小区组。S504: Receive a second RRC connection reconfiguration message, where the second RRC reconfiguration message is used to instruct the UE to release the secondary cell group.
S505:响应于该第二RRC连接重配置消息,释放辅小区组;S505: In response to the second RRC connection reconfiguration message, release the secondary cell group;
S506:接收切换消息,该第三RRC重配置消息用于指示UE切换到该第一NR小区。S506: Receive a handover message, where the third RRC reconfiguration message is used to instruct the UE to handover to the first NR cell.
应理解,网络设备在接收到第一NR小区的测量报告后,在第一NR小区的测量结果满足切换条件时,可以指示UE从第一小区切换至第一NR小区。It should be understood that, after receiving the measurement report of the first NR cell, the network device may instruct the UE to switch from the first cell to the first NR cell when the measurement result of the first NR cell satisfies the handover condition.
应理解,对于驻留在第一小区和第二小区的UE,从第一小区和第二小区的网络环境逐渐走向第一NR小区时,可以保障UE从驻留在第一小区向驻留在第一NR小区切换的平滑性。It should be understood that, for the UE camped on the first cell and the second cell, when the network environment of the first cell and the second cell gradually moves to the first NR cell, it can be guaranteed that the UE camps on the first cell to the camp on the first NR cell. Smoothness of handover of the first NR cell.
为了帮助理解,下面给出更详细的示例。To help understanding, a more detailed example is given below.
图6为本申请实施例提供的一种非独立组网与独立组网切换的通信方法流程示意图。该通信方法可以由无线通信装置执行,该无线通信装置可以是计算设备的整机(例如,终端),也可以是该计算设备中的部分器件(例如,终端内部的通信芯片、系统芯片),下面以终端执行该通信方法为例展开介绍。参考图6,该方法600包括:FIG. 6 is a schematic flowchart of a communication method for switching between a non-independent networking and an independent networking according to an embodiment of the present application. The communication method may be performed by a wireless communication device, and the wireless communication device may be an entire computer (for example, a terminal) of the computing device, or may be a part of the device in the computing device (for example, a communication chip or a system chip inside the terminal), The following is an introduction by taking the terminal executing the communication method as an example. Referring to Figure 6, the method 600 includes:
S601:用户设备接收来自第一小区的第一无线资源控制连接重配置消息,该第一无线资源控制连接重配置消息用于指示该用户设备测量第一新无线小区,并根据第一事件上报条件上报,第一事件为B1事件或B2事件。S601: The user equipment receives a first RRC connection reconfiguration message from a first cell, where the first RRC connection reconfiguration message is used to instruct the user equipment to measure the first new radio cell and report conditions according to the first event Report, the first event is B1 event or B2 event.
应理解,对于处于EN-DC状态的UE,可以驻留在第一小区和第二小区。其中,这里,以第一小区是E-UTRA小区,第二小区为NR小区举例。第一小区的网络设备(如LTE eNB)可以配置给UE一个测量事件来触发终端对NR邻区(如第一NR小区)的测量。It should be understood that for a UE in EN-DC state, it is possible to camp on the first cell and the second cell. Here, it is exemplified that the first cell is an E-UTRA cell and the second cell is an NR cell. The network device of the first cell (eg, an LTE eNB) may configure a measurement event for the UE to trigger the measurement of the NR neighboring cell (eg, the first NR cell) by the terminal.
具体地,LTE eNB向终端发送第一无线资源控制(radio resource control,RRC)连接重配置(RRCConnectionReconfiguration)消息,其中,第一RRC连接重配置消息包括测量配置(measConfig)信元和上报配置(ReportConfig)信元,测量配置信元携带有测量对象(MeasObjectNR)字段,上报配置信元携带上报类型(reportType)字段和事件身份标识(event indentification,eventID)字段。网络设备可以通过测量对象信息来指定具体需要测量的第一NR小区。另外,UE可以根据网络设备的配置,将测量报告的上报配置为事件触发上报或周期性上报等,其中,事件触发上报的类型可以参考3GPP技术规范(如3GPP TS38.331 V16.2.0),表1示出了一些事件触发上报的类型示例。这里,第一RRC连接重配置消息对应的上报类型为事件触发,事件身份标识为事件B1 NR(eventB1-NR)和/或事件B2 NR(eventB2-NR)。Specifically, the LTE eNB sends a first radio resource control (radio resource control, RRC) connection reconfiguration (RRCConnectionReconfiguration) message to the terminal, where the first RRC connection reconfiguration message includes a measurement configuration (measConfig) information element and a report configuration (ReportConfig) message ) cell, the measurement configuration cell carries a measurement object (MeasObjectNR) field, and the report configuration cell carries a report type (reportType) field and an event identification (event identification, eventID) field. The network device may specify the first NR cell to be measured specifically through the measurement object information. In addition, the UE can configure the reporting of the measurement report as an event-triggered report or a periodic report according to the configuration of the network device. The type of the event-triggered report can refer to 3GPP technical specifications (such as 3GPP TS38.331 V16.2.0), table 1 shows some examples of types of event-triggered reporting. Here, the reporting type corresponding to the first RRC connection reconfiguration message is event-triggered, and the event identifier is event B1 NR (eventB1-NR) and/or event B2 NR (eventB2-NR).
表1测量事件上报示例Table 1 Example of measurement event reporting
Figure PCTCN2020134281-appb-000001
Figure PCTCN2020134281-appb-000001
应理解,UE根据该第一RRC连接重配置消息中测量配置确定测量对象,在终端获得的测量结果中,若相应测量结果满足上报标准,则会上报相应的NR小区的测量报告。其中,可选的,本申请中NR小区的信号质量可以根据参考信号接收功率(reference signal receiving power,RSRP)、RSSI、参考信号接收质量(reference signal  receiving quality,RSRQ)、信干噪比(signal to interference plus noise ratio,SINR)中的一个或多个参数来确定。It should be understood that the UE determines the measurement object according to the measurement configuration in the first RRC connection reconfiguration message, and in the measurement result obtained by the terminal, if the corresponding measurement result meets the reporting standard, the measurement report of the corresponding NR cell will be reported. Wherein, optionally, the signal quality of the NR cell in this application can be based on reference signal receiving power (reference signal receiving power, RSRP), RSSI, reference signal receiving quality (reference signal receiving quality, RSRQ), signal-to-interference-noise ratio (signal-to-interference-noise ratio). to interference plus noise ratio, SINR) to determine one or more parameters.
S602:该用户设备接收来自于第二小区的无线资源控制重配置消息,该无线资源控制重配置消息用于指示该用户设备测量第二新无线小区,其中,第一新无线小区与第二NR小区为同一小区。S602: The user equipment receives a radio resource control reconfiguration message from the second cell, where the radio resource control reconfiguration message is used to instruct the user equipment to measure the second new radio cell, wherein the first new radio cell and the second NR The cell is the same cell.
应理解,对于处于EN-DC状态的UE,第二小区的网络设备(如NR gNB)可以配置给UE一个测量事件来触发终端对NR邻区(如第二NR小区)的测量。其中,第一NR小区与第二NR小区为同一小区,即第一NR小区与第二NR小区的频点处于同一频带中。It should be understood that, for the UE in the EN-DC state, the network device of the second cell (eg, the NR gNB) can configure a measurement event for the UE to trigger the measurement of the NR neighboring cell (eg, the second NR cell) by the terminal. The first NR cell and the second NR cell are the same cell, that is, the frequency points of the first NR cell and the second NR cell are in the same frequency band.
具体地,NR gNB向UE发送RRC重配置(RRCReconfiguration)消息,其中,RRC重配置消息包括测量配置(measConfig)信元和上报配置(ReportConfig)信元,测量配置信元携带有测量对象(MeasObjectNR)字段,上报配置信元携带上报类型(reportType)字段和事件身份标识(event indentification,eventID)字段。网络设备可以通过测量对象信息来指定具体需要测量的第二NR小区。这里,RRC重配置消息对应的上报类型为事件触发,事件身份标识为事件A1(eventA1)、事件A2(eventA2)、事件A3(eventA3)、事件A4(eventA4)、以及事件A5(eventA5)中的一个或多种。Specifically, the NR gNB sends an RRC reconfiguration (RRCReconfiguration) message to the UE, where the RRC reconfiguration message includes a measurement configuration (measConfig) information element and a reporting configuration (ReportConfig) information element, and the measurement configuration information element carries a measurement object (MeasObjectNR) field, the report configuration information element carries a report type (reportType) field and an event identification (event identification, eventID) field. The network device may specify the second NR cell to be measured specifically through the measurement object information. Here, the reporting type corresponding to the RRC reconfiguration message is event-triggered, and the event identity is identified as event A1 (eventA1), event A2 (eventA2), event A3 (eventA3), event A4 (eventA4), and event A5 (eventA5). one or more.
S603:在该第一小区与该第一新无线小区的时间不同步时,该用户设备根据该第二新无线小区的测量结果,发送该第一新无线小区的测量报告消息。S603: When the time of the first cell and the first new radio cell are not synchronized, the user equipment sends a measurement report message of the first new radio cell according to the measurement result of the second new radio cell.
应理解,在第一小区与第一NR小区的时间不同步时,UE无法通过LTE的测量间隔测量得到第一NR小区的SSB,则UE将无法上报第一NR小区的测量结果。网络设备无法获取第一NR小区的信号质量,也不会指示UE从第一小区切换至第一NR小区。但由于第一NR小区与第二NR小区为同一小区,相应的测量为同频测量,UE可以通过SMTC测量得到第二NR小区的测量结果。其中,第一NR小区与第二NR小区为同一小区,只是采用的测量方法不同,利用第二小区的测量指令通过SMTC测量第二NR小区的信号质量,所获得的测量结果可以用于评估第一NR小区的信号质量。根据第二NR小区的测量结果判断第一NR小区的测量结果是否满足上报事件要求,在满足上报事件要求的时候,可以发送第一NR小区的测量报告消息。It should be understood that when the time of the first cell and the first NR cell are not synchronized, the UE cannot obtain the SSB of the first NR cell by measuring the LTE measurement interval, and the UE cannot report the measurement result of the first NR cell. The network device cannot acquire the signal quality of the first NR cell, nor instruct the UE to switch from the first cell to the first NR cell. However, since the first NR cell and the second NR cell are the same cell, and the corresponding measurement is intra-frequency measurement, the UE can obtain the measurement result of the second NR cell through SMTC measurement. The first NR cell and the second NR cell are the same cell, but the measurement method is different. The signal quality of the second NR cell is measured through SMTC by using the measurement command of the second cell, and the obtained measurement result can be used to evaluate the first NR cell. Signal quality of an NR cell. It is determined whether the measurement result of the first NR cell meets the event reporting requirement according to the measurement result of the second NR cell, and when the event reporting requirement is met, a measurement report message of the first NR cell may be sent.
S604:该用户设备接收第二无线资源控制连接重配置消息,该无线资源控制连接重配置消息用于指示该用户设备释放辅小区组。S604: The user equipment receives a second radio resource control connection reconfiguration message, where the radio resource control connection reconfiguration message is used to instruct the user equipment to release the secondary cell group.
应理解,第二RRC连接重配置消息中的NR配置(nr-Config)信元设置为指示释放NR连接,例如,设置NR配置信元携带EN-DC释放信息,则认为指示UE释放SCG。It should be understood that the NR configuration (nr-Config) information element in the second RRC connection reconfiguration message is set to indicate the release of the NR connection. For example, if the NR configuration information element is set to carry EN-DC release information, it is considered that the UE is instructed to release the SCG.
S605:该用户设备响应于该第二无线资源控制连接重配置消息,释放辅小区组。S605: The user equipment releases the secondary cell group in response to the second RRC connection reconfiguration message.
应理解,UE释放SCG,进入LTE单连接状态。It should be understood that the UE releases the SCG and enters the LTE single connection state.
S606:该用户设备接收切换消息,该切换消息用于指示用户设备切换到该第一新无线小区。S606: The user equipment receives a handover message, where the handover message is used to instruct the user equipment to hand over to the first new radio cell.
应理解,UE接收到该切换消息,从驻留在E-UTRA小区切换为驻留在第一NR小区。该切换消息可以是由E-UTRA移动命令(MobilityFromE-UTRACommand)消息,可以在该消息中指示待驻留的小区为第一NR小区。例如,通过目标无线接入技术类型(targetRAT-Type)信元指示It should be understood that, upon receiving the handover message, the UE switches from camping on the E-UTRA cell to camping on the first NR cell. The handover message may be an E-UTRA mobility command (MobilityFromE-UTRACommand) message, which may indicate that the cell to be camped on is the first NR cell. For example, indicated by the target radio access technology type (targetRAT-Type) information element
S607:该用户设备驻留到第一新无线小区。S607: The user equipment camps on the first new wireless cell.
应理解,S601至S607的步骤是可选的,可以都执行也可以部分执行。It should be understood that the steps from S601 to S607 are optional, and may be all performed or partially performed.
应理解,在UE的LTE基站与NR基站不同步时,无法用网络设备指示的测量间隔测量得到第二NR小区的SSB,并且基于时间限制,也无法延长测量间隔,UE无法通过测量间隔测到第一NR小区的SSB,UE不会上报测量报告信息,进而由NSA组网环境走向SA组网环境的UE信号会越来越差,甚至断网,通过上述方案,可以使UE在检测到SA组网环境时,尽快由NSA组网切入到SA组网,提高通信速率,保障平滑切换和用户体验。It should be understood that when the LTE base station of the UE is not synchronized with the NR base station, the SSB of the second NR cell cannot be obtained by measuring the measurement interval indicated by the network device, and the measurement interval cannot be extended based on the time limit. In the SSB of the first NR cell, the UE will not report the measurement report information, and then the UE signal from the NSA networking environment to the SA networking environment will become worse and worse, or even disconnected from the network. In the networking environment, switch from the NSA networking to the SA networking as soon as possible to improve the communication rate and ensure smooth handover and user experience.
图7为本申请实施例提供的一种无线通信装置的结构示意图,该无线通信装置可以是计算设备的整机(例如,终端),也可以是该计算设备中的部分器件(例如,终端内部的通信芯片、系统芯片),该无线通信装置可以用于该通信装置可以用于执行本申请实施例提供的非独立组网与独立组网切换的通信方法,如图5至图6相关的通信方法500和通信方法600,以及各可选实施例,技术细节和技术效果可以参考图5至图6相关描述。无线通信装置70包括:接收单元710、处理单元720以及发送单元730。FIG. 7 is a schematic structural diagram of a wireless communication apparatus provided by an embodiment of the present application. The wireless communication apparatus may be a whole computer (for example, a terminal) of a computing device, or may be a part of a device in the computing device (for example, an internal terminal of a terminal) communication chip, system chip), the wireless communication device can be used for the communication device can be used to perform the communication method for switching between the non-independent networking and the independent networking provided by the embodiment of the present application, such as the communication related to FIG. 5 to FIG. 6 . The technical details and technical effects of the method 500 and the communication method 600, as well as various optional embodiments, may be described with reference to FIG. 5 to FIG. 6 . The wireless communication device 70 includes: a receiving unit 710 , a processing unit 720 and a sending unit 730 .
其中,该接收单元710用于接收来自第一小区的第一测量指示消息,该第一测量指示消息用于指示用户设备UE测量第一新无线NR小区,以及用于接收来自第二小区的第二测量指示消息,该第二测量指示消息用于指示UE测量第二NR小区,其中,该第一NR小区与第二NR小区为同一小区。该发送单元730用于在该第一小区与该第一NR小区时间不同步时,根据该第二NR小区的测量结果,发送该第一NR小区的测量报告消息。The receiving unit 710 is configured to receive a first measurement indication message from the first cell, where the first measurement indication message is used to instruct the user equipment UE to measure the first new wireless NR cell, and to receive the first measurement indication message from the second cell. Two measurement indication messages, where the second measurement indication message is used to instruct the UE to measure a second NR cell, where the first NR cell and the second NR cell are the same cell. The sending unit 730 is configured to send a measurement report message of the first NR cell according to the measurement result of the second NR cell when the time of the first cell and the first NR cell is not synchronized.
该接收单元710还用于接收第二无线资源控制连接重配置消息,该无线资源控制连接重配置消息用于指示该用户设备释放辅小区组。该处理单元720用于释放该辅小区组。The receiving unit 710 is further configured to receive a second radio resource control connection reconfiguration message, where the radio resource control connection reconfiguration message is used to instruct the user equipment to release the secondary cell group. The processing unit 720 is configured to release the secondary cell group.
该接收单元710还用于接收切换消息,该切换消息用于指示用户设备切换到该第一新无线小区。该处理单元720用于驻留到第一NR小区。The receiving unit 710 is further configured to receive a handover message, where the handover message is used to instruct the user equipment to hand over to the first new radio cell. The processing unit 720 is configured to camp on the first NR cell.
应理解的是,本申请实施例中的无线通信装置可以由软件实现,例如,具有上述功能的计算机程序或指令来实现,相应计算机程序或指令可以存储在终端内部的存储器中,通过处理器读取该存储器内部的相应计算机程序或指令来实现上述功能。或者,本申请实施例中的无线通信装置还可以由硬件来实现。其中,接收单元710为接收器,处理单元720为处理器,发送单元730为发送器。上述发送单元730可能与该终端的接收单元710为相同或者不同的物理实体。为相同的物理实体时,可以统称为收发单元或者收发器。或者,本申请实施例中的无线通信装置还可以由处理器和软件模块的结合实现。It should be understood that the wireless communication device in this embodiment of the present application may be implemented by software, for example, a computer program or instruction having the above-mentioned functions, and the corresponding computer program or instruction may be stored in a memory inside the terminal, and read by a processor. The above-mentioned functions are realized by fetching the corresponding computer programs or instructions inside the memory. Alternatively, the wireless communication apparatus in the embodiments of the present application may also be implemented by hardware. The receiving unit 710 is a receiver, the processing unit 720 is a processor, and the sending unit 730 is a transmitter. The above-mentioned sending unit 730 and the receiving unit 710 of the terminal may be the same or different physical entities. When they are the same physical entity, they can be collectively referred to as transceiver units or transceivers. Alternatively, the wireless communication apparatus in this embodiment of the present application may also be implemented by a combination of a processor and a software module.
图8为本申请实施例提供的一种无线通信装置的结构示意图。该无线通信装置可以是本申请实施例中的无线通信装置或者终端,并且可以实现图3或图8所示的无线通信方法,以及上述各可选实施例。如图8所示,无线通信装置80包括:处理器801,与处理器801耦合的存储器802。应理解,虽然图8中仅示出了一个处理器和一个存 储器。无线通信装置801可以包括其他数目的处理器和存储器。FIG. 8 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present application. The wireless communication device may be a wireless communication device or a terminal in this embodiment of the present application, and may implement the wireless communication method shown in FIG. 3 or FIG. 8 and the above-mentioned optional embodiments. As shown in FIG. 8 , the wireless communication apparatus 80 includes: a processor 801 , and a memory 802 coupled with the processor 801 . It should be understood that although only one processor and one memory are shown in Figure 8 . Wireless communication device 801 may include other numbers of processors and memories.
其中,存储器802用于存储计算机程序或计算机指令。这些计算机程序或指令可依据功能分为两类。其中一类计算机程序或指令被处理器801执行时,使得无线通信装置80实现本发明实施例的无线通信方法中终端的步骤。这类计算机程序或指令可记为终端功能程序。例如,终端功能程序中可包括实现图3所示无线通信方法的程序代码。The memory 802 is used for storing computer programs or computer instructions. These computer programs or instructions can be divided into two categories based on function. When one type of computer program or instruction is executed by the processor 801 , the wireless communication apparatus 80 implements the steps of the terminal in the wireless communication method of the embodiment of the present invention. Such computer programs or instructions may be referred to as terminal function programs. For example, the terminal function program may include program codes for implementing the wireless communication method shown in FIG. 3 .
此外,该无线通信装置80还可以包括:连接线800,发射电路803、接收电路804、天线805,以及输入/输出(input/output,I/O)接口806等。其中,发射电路和接收电路可以耦合到天线,与其他通信设备无线连接。发射电路和接收电路也可以集成为一个收发机,天线可以为支持多种频率的射频天线。I/O接口提供了与其他通信设备或用户交互的可能性。例如,对于基站,该I/O接口可以为通用公共无线接口(common public radio interface,CPRI)接口,以太网接口,USB接口等。对于终端,该I/O接口可以为屏幕,键盘,话筒,扬声器,USB接口等。该无线通信装置80内部的各个组件可以通过各种连接线(如总线系统)耦合在一起,其中总线系统除包括数据总线之外,还可以包括电源总线、控制总线和状态信号总线等。但是为了清楚说明起见,本文中将各种总线都统称为总线系统。In addition, the wireless communication device 80 may further include a connecting line 800, a transmitting circuit 803, a receiving circuit 804, an antenna 805, an input/output (I/O) interface 806, and the like. Among them, the transmitting circuit and the receiving circuit can be coupled to the antenna to wirelessly connect with other communication devices. The transmitting circuit and the receiving circuit can also be integrated into a transceiver, and the antenna can be a radio frequency antenna supporting multiple frequencies. The I/O interface provides the possibility to interact with other communication devices or users. For example, for a base station, the I/O interface may be a common public radio interface (common public radio interface, CPRI) interface, an Ethernet interface, a USB interface, and the like. For a terminal, the I/O interface can be a screen, a keyboard, a microphone, a speaker, a USB interface, and the like. Various components inside the wireless communication device 80 can be coupled together through various connecting lines (eg, a bus system), wherein the bus system can include a power bus, a control bus, a status signal bus, and the like in addition to a data bus. However, for the sake of clarity, the various buses are collectively referred to as bus systems in this document.
可以理解的是,上述处理器801和存储器802可以由处理单元和存储单元替代实现,其中,处理单元和存储单元可以由具有相应功能的代码实现。存储单元,用于存储程序指令;处理单元,用于执行该存储单元中的程序指令,以实现图5至图6任一所示相关的无线通信方法、以及上述各可选实施例。It can be understood that the above-mentioned processor 801 and memory 802 may be implemented by a processing unit and a storage unit instead, wherein the processing unit and the storage unit may be implemented by codes having corresponding functions. The storage unit is used to store program instructions; the processing unit is used to execute the program instructions in the storage unit, so as to implement the related wireless communication method shown in any of FIG. 5 to FIG. 6 and the above-mentioned optional embodiments.
图9为本申请实施例提供的一种无线通信装置的结构示意图。该无线通信装置可以是本申请实施例中的无线通信装置或者终端,并且可以实现图3或图8所示的无线通信方法,以及上述各可选实施例。如图9所示,无线通信装置90包括:处理器901,与处理器801耦合的接口电路902。应理解,虽然图9中仅示出了一个处理器和一个接口电路。无线通信装置801可以包括其他数目的处理器和接口电路。FIG. 9 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present application. The wireless communication device may be a wireless communication device or a terminal in this embodiment of the present application, and may implement the wireless communication method shown in FIG. 3 or FIG. 8 and the above-mentioned optional embodiments. As shown in FIG. 9 , the wireless communication apparatus 90 includes: a processor 901 , and an interface circuit 902 coupled with the processor 801 . It should be understood that although only one processor and one interface circuit are shown in FIG. 9 . Wireless communication apparatus 801 may include other numbers of processors and interface circuits.
其中,接口电路902用于与终端的其他组件连通,例如存储器或其他处理器。处理器901用于通过接口电路902与其他组件进行信号交互。接口电路902可以是处理器901的输入/输出接口。Among them, the interface circuit 902 is used to communicate with other components of the terminal, such as memory or other processors. The processor 901 is used for signal interaction with other components through the interface circuit 902 . The interface circuit 902 may be an input/output interface of the processor 901 .
例如,处理器901通过接口电路902读取与之耦合的存储器中的计算机程序或指令,并译码和执行这些计算机程序或指令。应理解,这些计算机程序或指令可包括上述终端功能程序,也可以包括上述应用在终端内的无线通信装置的功能程序。当相应功能程序被处理器901译码并执行时,可以使得终端或在终端内的无线通信装置实现本申请实施例所提供的无线通信方法中的方案。For example, the processor 901 reads computer programs or instructions in a memory coupled thereto through the interface circuit 902, and decodes and executes the computer programs or instructions. It should be understood that these computer programs or instructions may include the above-mentioned terminal function program, and may also include the above-mentioned function program applied to the wireless communication device in the terminal. When the corresponding functional program is decoded and executed by the processor 901, the terminal or the wireless communication device in the terminal can be made to implement the solution in the wireless communication method provided by the embodiments of this application.
可选的,这些终端功能程序存储在无线通信装置90外部的存储器中。当上述终端功能程序被处理器901译码并执行时,存储器中临时存放上述终端功能程序的部分或全部内容。Optionally, these terminal function programs are stored in a memory outside the wireless communication device 90 . When the above-mentioned terminal function program is decoded and executed by the processor 901, part or all of the above-mentioned terminal function program is temporarily stored in the memory.
可选的,这些终端功能程序存储在无线通信装置90内部的存储器中。当无线通信装置90内部的存储器中存储有终端功能程序时,无线通信装置90可被设置在本发明 实施例的无线通信系统的终端中。Optionally, these terminal function programs are stored in a memory inside the wireless communication device 90 . When the terminal function program is stored in the memory inside the wireless communication device 90, the wireless communication device 90 can be provided in the terminal of the wireless communication system of the embodiment of the present invention.
可选的,这些终端功能程序的部分内容存储在无线通信装置90外部的存储器中,这些终端功能程序的其他部分内容存储在无线通信装置90内部的存储器中。Optionally, parts of the terminal function programs are stored in a memory outside the wireless communication device 90 , and other parts of the terminal function programs are stored in a memory inside the wireless communication device 90 .
应理解,图7至图9任一所示的无线通信装置可以互相结合,图7至图9任一所示的无线通信装置以及各可选实施例相关设计细节可互相参考,也可以参考图5或图6任一所示的无线通信方法以及各可选实施例相关设计细节。此处不再重复赘述。It should be understood that the wireless communication apparatuses shown in any one of FIGS. 7 to 9 may be combined with each other, and the wireless communication apparatuses shown in any one of FIGS. 7 to 9 and the relevant design details of each optional embodiment may refer to each other, and may also refer to FIG. 5 or any of the wireless communication methods shown in FIG. 6 and related design details of each optional embodiment. It will not be repeated here.
实施例及附图中的术语“第一”、“第二”、“第三”、“第四”等是用于区别类似的对象,而不必用于描述特定的顺序或先后次序。此外,术语“包括”和“具有”以及他们的任何变形,意图在于表示不排他的包含,例如,包含了一系列步骤或单元。方法、系统、产品或设备不必仅限于字面列出的那些步骤或单元,而是可包括没有字面列出的或对于这些过程、方法、产品或设备固有的其它步骤或单元。The terms "first", "second", "third", "fourth" and the like in the embodiments and the accompanying drawings are used to distinguish similar objects, and are not necessarily used to describe a specific order or sequence. Furthermore, the terms "comprising" and "having", and any variations thereof, are intended to mean non-exclusive inclusion, eg, the inclusion of a series of steps or elements. A method, system, product or device is not necessarily limited to those steps or elements literally listed, but may include other steps or elements not literally listed or inherent to the process, method, product or device.
应当理解,在本申请中,“至少一个”是指一个或者多个,“多个”是指两个或两个以上。“和/或”,用于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:只存在A,只存在B以及同时存在A和B三种情况,其中A,B可以是单数或者复数。字符“/”一般表示前后关联对象是一种“或”的关系。“以下至少一项(个)”或其类似表达,是指这些项的任意组合,包括单项(个)或复数项(个)的任意组合。例如,a,b或c中的至少一项(个),可以表示:a,b,c,“a和b”,“a和c”,“b和c”,或“a和b和c”,其中a,吧b,c可以是单个,也可以是多个。It should be understood that, in this application, "at least one" refers to one or more, and "a plurality" refers to two or more. "And/or" is used to describe the relationship between related objects, indicating that there can be three kinds of relationships, for example, "A and/or B" can mean: only A, only B, and both A and B exist , where A and B can be singular or plural. The character "/" generally indicates that the associated objects are an "or" relationship. "At least one item(s) below" or similar expressions thereof refer to any combination of these items, including any combination of single item(s) or plural items(s). For example, at least one (a) of a, b or c, can mean: a, b, c, "a and b", "a and c", "b and c", or "a and b and c" ", where a, b, c can be single or multiple.
应理解,在本申请中,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。本申请提到的“耦合”一词,用于表达不同组件之间的互通或互相作用,可以包括直接相连或通过其他组件间接相连。It should be understood that, in this application, the size of the sequence numbers of the above-mentioned processes does not mean the sequence of execution, and the execution sequence of each process should be determined by its function and internal logic, and should not constitute any implementation process of the embodiments of the present application. limited. The word "coupling" mentioned in this application is used to express the intercommunication or interaction between different components, which may include direct connection or indirect connection through other components.
在本申请的上述实施例中,可以全部或部分地通过软件、硬件、固件或者其任意组合来实现。当使用软件实现时,可以全部或部分地以计算机程序产品的形式实现。该计算机程序产品包括一个或多个计算机指令。在计算机上加载和执行该计算机程序指令时,全部或部分地产生按照本申请实施例该的流程或功能。该计算机可以是通用计算机、专用计算机、计算机网络、或者其他可编程装置。该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,该计算机指令可以从一个网站站点、计算机、服务器或数据中心通过有线(例如同轴电缆、光纤等)或无线(例如红外、无线电、微波等)方式向另一个网站站点、计算机、服务器或数据中心进行传输。该计算机可读存储介质可以是计算机能够存取的任何可用介质或者是包含一个或多个可用介质集成的服务器、数据中心等数据存储设备。该可用介质可以是磁性介质,例如,软盘、硬盘和磁带;可以是光介质,例如DVD;也可以是半导体介质,例如固态硬盘(Solid State Disk,SSD)等。The above-mentioned embodiments of the present application may be implemented in whole or in part by software, hardware, firmware or any combination thereof. When implemented in software, it can be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When the computer program instructions are loaded and executed on a computer, all or part of the processes or functions according to the embodiments of the present application are generated. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable device. The computer instructions may be stored on or transmitted from one computer readable storage medium to another computer readable storage medium, for example, the computer instructions may be transmitted over a wire from a website site, computer, server or data center (eg coaxial cable, optical fiber, etc.) or wireless (eg infrared, radio, microwave, etc.) means to another website site, computer, server or data center. The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that includes one or more available media integrated. The available medium may be a magnetic medium, such as a floppy disk, a hard disk, and a magnetic tape; an optical medium, such as a DVD; or a semiconductor medium, such as a solid state disk (Solid State Disk, SSD), and the like.
本申请实施例中,存储器,是指具有数据或信息存储能力的器件或电路,并可向处理器提供指令和数据。存储器包括只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、非易失性随机存取存储器(NVRAM), 可编程只读存储器或者电可擦写可编程存储器、寄存器等。In the embodiments of the present application, the memory refers to a device or circuit with data or information storage capability, and can provide instructions and data to the processor. Memory includes read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), non-volatile random access memory (NVRAM), programmable read-only memory or electrically erasable programmable memory, registers, etc.
以上该,仅为本申请的具体实施方式,但本申请的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本申请揭露的技术范围内,可轻易想到变化或替换,都应涵盖在本申请的保护范围之内。因此,本申请的保护范围应以该权利要求的保护范围为准。The above are only specific embodiments of the present application, but the protection scope of the present application is not limited to this. Any person skilled in the art who is familiar with the technical scope disclosed in the present application can easily think of changes or substitutions. Covered within the scope of protection of this application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (18)

  1. 一种通信方法,其特征在于,包括:A communication method, comprising:
    接收来自于第一小区的第一无线资源控制RRC连接重配置消息,该第一RRC连接重配置消息用于指示用户设备UE测量第一新无线NR小区;receiving a first radio resource control RRC connection reconfiguration message from the first cell, where the first RRC connection reconfiguration message is used to instruct the user equipment UE to measure the first new radio NR cell;
    接收来自于第二小区的RRC重配置消息,该RRC重配置消息用于指示该UE测量第二NR小区,其中,该第一NR小区与该第二NR小区为同一小区;receiving an RRC reconfiguration message from a second cell, where the RRC reconfiguration message is used to instruct the UE to measure a second NR cell, where the first NR cell and the second NR cell are the same cell;
    在该第一小区与该第一NR小区的时间不同步时,根据该第二NR小区的测量结果,发送该第一NR小区的测量报告消息。When the time of the first cell and the first NR cell are not synchronized, a measurement report message of the first NR cell is sent according to the measurement result of the second NR cell.
  2. 根据权利要求1该的方法,其特征在于,还包括:The method of claim 1, further comprising:
    接收第二RRC连接重配置消息,该第二RRC连接重配置用于指示该UE释放辅小区组;receiving a second RRC connection reconfiguration message, where the second RRC connection reconfiguration is used to instruct the UE to release the secondary cell group;
    释放该辅小区组;release the secondary cell group;
    接收切换消息,该切换消息用于指示该UE切换到该第一NR小区。A handover message is received, where the handover message is used to instruct the UE to hand over to the first NR cell.
  3. 根据权利要求1或2该的通信方法,其特征在于,该第一RRC连接配置消息还用于指示该第一NR小区的上报配置为B1事件或B2事件。The communication method according to claim 1 or 2, wherein the first RRC connection configuration message is further used to indicate that the reporting configuration of the first NR cell is a B1 event or a B2 event.
  4. 根据权利要求1或2该该的通信方法,该第一RRC连接重配置消息包括测量配置信元和上报配置信元,该测量配置信元携带测量对象信息,该测量对象信息为第一NR小区,该上报配置信元携带有事件身份标识信息,该事件身份标识信息为B1事件或B2事件。According to the communication method of claim 1 or 2, the first RRC connection reconfiguration message includes a measurement configuration information element and a reporting configuration information element, the measurement configuration information element carries measurement object information, and the measurement object information is the first NR cell , the reporting configuration information element carries event identification information, and the event identification information is a B1 event or a B2 event.
  5. 根据权利要求1至4任一该的通信方法,其特征在于,该RRC重配置消息用于指示该UE测量第二NR小区的上报配置为A1事件、A2事件、A3事件、A4事件和A5事件中的一个。The communication method according to any one of claims 1 to 4, wherein the RRC reconfiguration message is used to instruct the UE to measure the reporting configuration of the second NR cell as A1 event, A2 event, A3 event, A4 event and A5 event one of the.
  6. 根据权利要求1至5任一该的通信方法,其特征在于,该RRC重配置消息包括测量配置信元和上报配置信元,该测量配置信元携带测量对象信息,该测量对象信息为第二NR小区,该上报配置信元携带有事件身份标识信息,该事件身份标识信息为A1事件、A2事件、A3事件、A4事件和A5事件中的一个。The communication method according to any one of claims 1 to 5, wherein the RRC reconfiguration message includes a measurement configuration information element and a reporting configuration information element, the measurement configuration information element carries measurement object information, and the measurement object information is the second NR cell, the reporting configuration information element carries event identification information, and the event identification information is one of A1 event, A2 event, A3 event, A4 event and A5 event.
  7. 根据权利要求1至6任一该的通信方法,其特征在于,该第一小区为演进的通用陆基无线接入E-UTRA小区,该第二小区为NR小区。The communication method according to any one of claims 1 to 6, wherein the first cell is an Evolved Universal Terrestrial Radio Access (E-UTRA) cell, and the second cell is an NR cell.
  8. 一种通信装置,其特征在于,包括:A communication device, comprising:
    接收单元及发送单元;receiving unit and sending unit;
    该接收单元用于接收来自于第一小区的第一无线资源控制RRC连接重配置消息,该第一RRC连接重配置消息用于指示用户设备UE测量第一新无线NR小区;The receiving unit is configured to receive a first RRC connection reconfiguration message from the first cell, where the first RRC connection reconfiguration message is used to instruct the user equipment UE to measure the first new wireless NR cell;
    该接收单元还用于接收来自于第二小区的RRC重配置消息,该RRC重配置消息用于指示该UE测量第二NR小区,其中,该第一NR小区与该第二NR小区为同一小区;The receiving unit is further configured to receive an RRC reconfiguration message from a second cell, where the RRC reconfiguration message is used to instruct the UE to measure a second NR cell, where the first NR cell and the second NR cell are the same cell ;
    该发送单元用于在该第一小区与该第一NR小区的时间不同步时,根据该第二NR小区的测量结果,发送该第一NR小区的测量报告消息。The sending unit is configured to send a measurement report message of the first NR cell according to the measurement result of the second NR cell when the time of the first cell and the first NR cell are not synchronized.
  9. 根据权利要求8该的通信装置,其特征在于,该方法还包括处理单元;The communication device according to claim 8, wherein the method further comprises a processing unit;
    该接收单元还用于接收第二RRC连接重配置消息,该第二RRC连接重配置用于指示该UE释放辅小区组;The receiving unit is further configured to receive a second RRC connection reconfiguration message, where the second RRC connection reconfiguration is used to instruct the UE to release the secondary cell group;
    该处理单元用于处理该辅小区组;the processing unit is configured to process the secondary cell group;
    该接收单元还用于接收切换消息,该切换消息用于指示该UE切换到该第一NR小区。The receiving unit is further configured to receive a handover message, where the handover message is used to instruct the UE to handover to the first NR cell.
  10. 根据权利要求7或8该的通信装置,其特征在于,该第一RRC连接配置消息还用于指示该第一NR小区的上报配置为B1事件或B2事件。The communication device according to claim 7 or 8, wherein the first RRC connection configuration message is further used to indicate that the reporting configuration of the first NR cell is a B1 event or a B2 event.
  11. 根据权利要求7或8该该的通信装置,该第一RRC连接重配置消息包括测量配置信元和上报配置信元,该测量配置信元携带测量对象信息,该测量对象信息为第一NR小区,该上报配置信元携带有事件身份标识信息,该事件身份标识信息为B1事件或B2事件。According to the communication device according to claim 7 or 8, the first RRC connection reconfiguration message includes a measurement configuration information element and a reporting configuration information element, the measurement configuration information element carries measurement object information, and the measurement object information is the first NR cell , the reporting configuration information element carries event identification information, and the event identification information is a B1 event or a B2 event.
  12. 根据权利要求7至11任一该该的通信装置,其特征在于,该RRC重配置消息用于指示该UE测量第二NR小区的上报配置为A1事件、A2事件、A3事件、A4事件和A5事件中的一个。The communication device according to any one of claims 7 to 11, wherein the RRC reconfiguration message is used to instruct the UE to measure the reporting configuration of the second NR cell as A1 event, A2 event, A3 event, A4 event and A5 one of the events.
  13. 根据权利要求7至11任一该的通信方法,其特征在于,该RRC重配置消息包括测量配置信元和上报配置信元,该测量配置信元携带测量对象信息,该测量对象信息为第二NR小区,该上报配置信元携带有事件身份标识信息,该事件身份标识信息为A1事件、A2事件、A3事件、A4事件和A5事件中的一个。The communication method according to any one of claims 7 to 11, wherein the RRC reconfiguration message includes a measurement configuration information element and a reporting configuration information element, the measurement configuration information element carries measurement object information, and the measurement object information is the second NR cell, the reporting configuration information element carries event identification information, and the event identification information is one of A1 event, A2 event, A3 event, A4 event and A5 event.
  14. 根据权利要求7至13任一该的通信方法,其特征在于,该第一小区为演进的通用陆基无线接入E-UTRA小区,该第二小区为NR小区。The communication method according to any one of claims 7 to 13, wherein the first cell is an Evolved Universal Terrestrial Radio Access (E-UTRA) cell, and the second cell is an NR cell.
  15. 一种计算机可读存储介质,其特征在于:A computer-readable storage medium, characterized in that:
    该计算机可读存储介质中存储了程序代码,该程序代码被终端或终端中的处理器执行时,以实现如权利要求1至7任一该的方法。The computer-readable storage medium stores program codes, which, when executed by the terminal or a processor in the terminal, implement the method according to any one of claims 1 to 7 .
  16. 一种计算机程序产品,其特征在于:A computer program product, characterized in that:
    该计算机程序产品包含的程序代码被终端中的处理器执行时,以实现如权利要求1至7任一该的方法。When the program code contained in the computer program product is executed by the processor in the terminal, the method according to any one of claims 1 to 7 is implemented.
  17. 一种通信系统,其特征在于,包括:无线网络设备,以及包含如权利要求8至14任一该的无线通信装置的终端。A communication system, comprising: a wireless network device, and a terminal including the wireless communication device according to any one of claims 8 to 14.
  18. 一种终端,其特征在于,包含如权利要求8至14任一该的无线通信装置。A terminal, characterized by comprising the wireless communication device according to any one of claims 8 to 14.
PCT/CN2020/134281 2020-12-07 2020-12-07 Handover method, apparatus, and system for non-standalone network and standalone network WO2022120524A1 (en)

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