WO2020228497A1 - 网络连接的控制方法、终端及存储介质 - Google Patents

网络连接的控制方法、终端及存储介质 Download PDF

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Publication number
WO2020228497A1
WO2020228497A1 PCT/CN2020/086115 CN2020086115W WO2020228497A1 WO 2020228497 A1 WO2020228497 A1 WO 2020228497A1 CN 2020086115 W CN2020086115 W CN 2020086115W WO 2020228497 A1 WO2020228497 A1 WO 2020228497A1
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WIPO (PCT)
Prior art keywords
terminal
base station
connection mode
detection result
dual connection
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Application number
PCT/CN2020/086115
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English (en)
French (fr)
Inventor
唐凯
王燕
杨兴随
谭正鹏
Original Assignee
Oppo广东移动通信有限公司
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Publication of WO2020228497A1 publication Critical patent/WO2020228497A1/zh

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    • H04W52/0258Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity controlling an operation mode according to history or models of usage information, e.g. activity schedule or time of day
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • This application relates to wireless technology, and in particular to a method, terminal, and storage medium for controlling network connections.
  • the terminal can work in a dual connection (Dual Connection, DC) mode.
  • DC Dual Connection
  • the terminal communicates with both the primary base station and the secondary base station.
  • the terminal communicates with both the Long Term Evolution (LTE) base station and the NR base station in the NSA, resulting in excessive power consumption of the terminal.
  • LTE Long Term Evolution
  • embodiments of the present application provide a network connection control method, terminal, and storage medium.
  • the embodiment of the present application provides a method for controlling a network connection, including:
  • the terminal supports dual connection mode, and in the dual connection mode, the terminal communicates with both the first base station and the second base station; the first base station Is the primary base station; the second base station is the secondary base station;
  • the dual connection mode is disabled for the terminal
  • the terminal has not activated the call service corresponding to the second base station.
  • disabling the dual connection mode for the terminal includes:
  • the dual connection mode is disabled for the terminal.
  • the disabling dual connectivity mode for the terminal according to the second detection result includes:
  • the second detection result indicates that the terminal is in the dual connection mode
  • information for determining the disabling of the dual connection mode is sent to the first base station to disable the dual connection mode for the terminal.
  • the sending the information for determining the disabling dual connectivity mode to the first base station includes:
  • the sending the information for determining the disabling dual connectivity mode to the first base station includes:
  • the disabling dual connectivity mode for the terminal according to the second detection result includes:
  • the terminal When the second detection result indicates that the terminal is in the single connection mode, during the voice call of the terminal, it does not respond to the information for enabling the dual connection mode sent by the first base station; in the single connection mode , The terminal communicates with the first base station.
  • the non-response to the information for enabling the dual connectivity mode sent by the first base station includes:
  • the measurement request is used to instruct the terminal to measure the second base station;
  • the measurement request is sent by the first base station; the measurement request is used to instruct the terminal to measure the second base station;
  • the first threshold is updated from a first value to a second value; the first value is less than the second value; the first threshold is the reporting threshold for the measurement report of the second base station;
  • the measurement request sent by the base station does not report a measurement report for the measurement request when the measurement value is less than the second value; the measurement request is used to instruct the terminal to measure the second base station.
  • the disabling the dual connection mode for the terminal includes:
  • the dual connection mode is disabled for the terminal.
  • the detecting whether the terminal is in a voice call includes:
  • control method further includes:
  • the dual connection mode is enabled for the terminal.
  • the embodiment of the present application also provides a terminal, including:
  • the detection unit is configured to detect whether the terminal is in a voice call, and obtain a first detection result; the terminal supports a dual connection mode, and in the dual connection mode, the terminal communicates with both the first base station and the second base station;
  • the first base station is a primary base station; the second base station is a secondary base station;
  • a disabling unit configured to disable the dual connection mode for the terminal when the first detection result indicates that the terminal is in a voice call
  • the terminal has not activated the call service corresponding to the second base station.
  • the embodiment of the present application also provides a terminal, including a processor and a memory configured to store a computer program that can run on the processor,
  • the processor is configured to execute the steps of the above-mentioned network connection control method when running the computer program.
  • the embodiment of the present application also provides a storage medium on which a computer program is stored, and when the computer program is executed by a processor, the steps of the above-mentioned network connection control method are realized.
  • the embodiment of the present application also provides a storage medium on which a computer program is stored, and when the computer program is executed by a processor, the steps of any of the above-mentioned network connection control methods are realized.
  • the terminal does not enable the call service corresponding to the secondary base station
  • the dual-connection mode is disabled for the terminal, and the terminal is switched to work in single-connection mode.
  • disconnecting the connection with the secondary base station will not affect the voice call, and only communicate with the primary base station.
  • the primary base station and the secondary base station communicate, which saves the terminal's consumption.
  • the battery power extends the standby time of the terminal.
  • FIG. 1 is a schematic diagram of a dual connectivity architecture according to an embodiment of the application
  • FIG. 2 is a schematic structural diagram of a communication module of a terminal in a dual connection mode according to an embodiment of the application;
  • FIG. 3 is a schematic diagram of an implementation process of a method for controlling a network connection according to an embodiment of the application
  • FIG. 4 is a schematic diagram of the implementation process of the control function of the terminal opening the network connection according to the embodiment of the application;
  • FIG. 5 is a schematic diagram of an implementation process of a method for controlling a network connection according to another embodiment of the application.
  • FIG. 6 is a schematic diagram of an implementation process of a method for controlling a network connection according to another embodiment of this application.
  • FIG. 7 is a schematic diagram of an implementation flow of a terminal in an embodiment of the application using a dual connection disable operation
  • FIG. 8 is a schematic diagram of the implementation flow of a terminal using a dual connection disable operation according to another embodiment of the application.
  • FIG. 9 is a schematic structural diagram of a connection mode control device according to an embodiment of the application.
  • FIG. 10 is a schematic structural diagram of a terminal according to an embodiment of the application.
  • the network connection control method provided in the embodiment of the present application can be applied to the dual connection architecture in the NSA networking mode as shown in FIG. 1.
  • the terminal 101 can establish an air interface connection with the primary base station 102 (also referred to as the primary node) to realize communication with the primary base station 102; the terminal 101 can also communicate with the primary base station 102 and the secondary base station 103 (also referred to as the secondary node) at the same time. ) Establish an air interface connection, thereby realizing communication with the primary base station 102 and the secondary base station 103 at the same time.
  • the terminal 101 In the dual connection mode, the terminal 101 simultaneously establishes two connections with the primary base station 102 and the secondary base station 103, where the primary base station 102 is mainly responsible for transmitting signaling, and the secondary base station 103 is responsible for transmitting data.
  • the terminal 101 In the single connection mode, the terminal 101 establishes a connection with the primary base station 102, but does not establish a connection with the secondary base station 103, and the primary base station 102 is responsible for transmitting signaling and data.
  • the technical solution of the embodiment of the present application is mainly aimed at a terminal that can work in a dual connection mode and a single connection mode.
  • the embodiment of the application does not limit the types of the primary base station 102 and the secondary base station 103.
  • the dual connection mode is the evolved Universal Mobile Telecommunications System (UMTS) Terrestrial Radio Access (EUTRA, Evolved-UMTS Terrestrial Radio Access) and the NR dual connection (EN-DC, EUTRA-NR Dual) Connectivity) mode or next generation EN-DC (NGEN-DC, next generation EN-DC) mode.
  • UMTS Universal Mobile Telecommunications System
  • EUTRA Evolved-UMTS Terrestrial Radio Access
  • NR dual connection EN-DC, EUTRA-NR Dual
  • NGEN-DC next generation EN-DC
  • next generation EN-DC next generation EN-DC
  • the dual connection mode is not limited to the foregoing EN-DC mode or NGEN-DC mode, and the embodiment of the present application does not limit the specific type of the dual connection mode.
  • the deployment mode of the primary base station 102 and the secondary base station 103 can be co-site deployment (e.g., NR base station and LTE base station can be set on one physical device), or non-co-site deployment (e.g., NR base station and LTE base station).
  • the base station can be set on different physical devices), which is not limited in this application.
  • the LTE base station may also be called an evolved base station (eNB, evolved Node B), and the NR base station may also be called a next generation base station (gNB, next generation Node B).
  • eNB evolved Node B
  • gNB next generation Node B
  • the relationship between the coverage of the primary base station 102 and the secondary base station 103 may not be limited in this application.
  • the primary base station 102 and the secondary base station 103 may overlap.
  • the specific type of the terminal 101 is not limited in this application. It can be any user equipment that supports the aforementioned dual connection mode, such as a smart phone, a personal computer, a notebook computer, a tablet computer, and a portable wearable device.
  • Figure 2 is a structural diagram of the communication module of the terminal in the dual connection mode.
  • the terminal in order for the terminal to communicate with two base stations at the same time, it needs to have two sets of communication modules, which correspond to two base stations respectively.
  • the first modem and the first radio frequency path (including the first radio frequency circuit and the first radio frequency antenna) form a first set of communication modules, and the first set of communication modules corresponds to the main base station.
  • the second modem module (modem) and the second radio frequency path (including the second radio frequency circuit and the second radio frequency antenna) form a second set of communication modules, and the second set of communication modules corresponds to the secondary base station.
  • the first modem is a 4G modem
  • the second modem is a 5G modem
  • the first radio frequency circuit is 4G RF
  • the second radio frequency circuit is 5G RF.
  • the first communication module and the second communication module work at the same time, and the terminal communicates with the main base station and the secondary base station at the same time. Compared with the single connection mode, the terminal only needs to communicate with the main base station. The terminal in the dual connection mode More power consumption.
  • FIG. 3 is a schematic diagram of the implementation process of the network connection control method provided by an embodiment of the application. As shown in FIG. 3, the network connection control method includes:
  • S301 Detect whether the terminal is in a voice call, and obtain a first detection result.
  • the terminal supports a dual connection mode.
  • the terminal communicates with the first base station and the second base station.
  • the first base station is the primary base station and the second base station is the secondary base station.
  • detecting whether the terminal is in a voice call includes:
  • the terminal's network connection control function When the terminal's network connection control function is turned on, it detects whether the terminal is in a voice call.
  • Figure 4 is a schematic diagram of the implementation process of the terminal opening the network connection control function.
  • the meaning of the network connection control function refers to the optimization of the terminal’s network connection.
  • the terminal enabling the network connection control function includes the following process:
  • the terminal judges whether an operation to open the network connection control function is received.
  • the terminal displays a user interface that includes an option to enable the network connection control function, and the user can trigger an operation to select the option corresponding to the network connection control function, thereby enabling the network connection control function.
  • the user's operation may be a touch operation, a key operation, a voice operation, a gesture operation, or the like.
  • the optimization of the network connection of the terminal includes at least: when the terminal transmits data through the second base station, if there are applications running in the terminal that consume a lot of power, the dual connection mode is disabled for the terminal.
  • the first base station is an LTE base station
  • the second base station is an NR base station.
  • the terminal has not activated the call service corresponding to the second base station, that is, the terminal is not activated or the NR call service is not activated in the terminal.
  • the terminal makes a voice call, which can be a voice call in the Packet Switched (PS) domain based on an LTE call service, or can be a voice call in a Circuit Switched (CS) domain based on a 2G/3G network.
  • PS Packet Switched
  • CS Circuit Switched
  • the terminal Since the terminal has not activated the call service corresponding to the second base station, when it is detected that the terminal is making a voice call, the voice call is completed through the terminal and the first base station. At this time, the second base station does not participate in the voice call process, and the terminal Disable the dual connection mode, switch the terminal to the single connection mode, and the terminal only communicates with the first base station, thereby reducing the power consumption of the terminal and extending the standby time of the terminal.
  • disabling the dual connection mode for the terminal includes:
  • S3021 Detect whether the terminal uses data services while conducting a voice call, and obtain a third detection result
  • the voice call made by the terminal is not completed with the second base station
  • the terminal uses a data service while making a voice call
  • the data service may still be completed based on the communication between the terminal and the second base station.
  • the dual connection mode is not disabled for the terminal. For example, if the terminal is using applications such as e-mail, instant messaging, or browser while making a voice call, in this case, do not disable the dual connection mode for the terminal; if the terminal is making a voice call, the front desk of the terminal is not running other requirements For data transmission applications, which means that the terminal does not use data services during a voice call, the dual connection mode is disabled for the terminal.
  • disabling the dual connection mode for the terminal includes:
  • the disabling the dual connection mode for the terminal according to the second detection result includes:
  • the second detection result indicates that the terminal is in the dual connection mode
  • information for determining the disabling of the dual connection mode is sent to the first base station, so as to disable the dual connection mode for the terminal.
  • the terminal communicates with both the first base station and the second base station.
  • the second base station is responsible for data transmission
  • the first base station is mainly responsible for signaling transmission
  • the terminal forms a dual connection architecture with the first and second base stations.
  • sending the information for determining the disabling of the dual connectivity mode to the first base station includes:
  • the wireless capability information is reported to the first base station, and the wireless capability information is used to indicate to the first base station that the terminal does not support access to the second base station, so as to disable the dual connection mode for the terminal.
  • Radio capability information is information that is reported by the terminal to the first base station to characterize the radio capability of the terminal.
  • the wireless capability information reported by the terminal to the first base station is used to indicate that the terminal does not support the access technology of the second base station.
  • reporting wireless capability information to the first base station includes:
  • the re-registration request information sent by the terminal to the first base station may carry the aforementioned wireless capability information.
  • the first base station can parse out the aforementioned wireless capability information from the re-registration request.
  • the re-registration request information may not carry wireless capability information.
  • a capability report indication message may be sent to the terminal.
  • the capability report indication message is used to instruct the terminal to send wireless capability information to the first base station.
  • the terminal may send the above wireless capability information to the first base station according to the capability report indication message to avoid the first base station. Configure the dual connection mode for the terminal so that the dual connection mode is disabled for the terminal.
  • reporting wireless capability information to the first base station includes:
  • TAU Tracking Area Update
  • the TAU request carries indication information to indicate that the terminal needs to update wireless capability information.
  • the first base station sends a capability report indication message to the terminal based on the TAU request, and the capability report indication message is used to instruct the terminal to send wireless capability information to the first base station.
  • Capability information the terminal can send to the first base station the wireless capability information indicating that the terminal does not support the access technology of the second base station according to the capability report instruction message, so as to avoid the first base station from configuring the dual connection mode for the terminal, thereby realizing the terminal Disable dual connection mode.
  • sending to the first base station information for determining that the terminal is forbidden to connect with the second base station includes:
  • SCG failure information Sending secondary cell group failure information (SCG failure information) to the first base station, where the secondary cell group failure information is used to indicate that the terminal fails to connect with the second base station.
  • the first base station configures the dual connection mode for the terminal again according to the measurement report sent by the terminal for the second base station.
  • the failure information does not carry the measurement report for the second base station, that is, it does not carry the measurement result for the second base station. Therefore, the terminal will receive the release of the secondary cell group indication issued by the first base station according to the secondary cell group failure information, and According to the instruction to release the secondary cell group, the terminal is switched from the dual connection mode to the single connection mode.
  • the first base station is an LTE base station
  • the second base station is an NR base station.
  • the process of the terminal adopting the dual connection disable operation includes:
  • Step 1 The terminal initiates the NR SCG failure information process to the LTE base station.
  • the terminal sets the failureType field in the NR SCG failure information message to "t310-Expiry", indicating that the connection between the terminal and the NR base station has failed.
  • the NR SCG failure information message does not contain the measurement results for the NR base station.
  • Step 2 The LTE base station sends an indication of releasing the secondary cell group to the terminal.
  • the indication of releasing the secondary cell group is used to instruct the terminal to release the dual connection, that is, to instruct the terminal to release the connection with the NR base station.
  • the LTE base station can send a release SCG indication to the UE through an RRC connection reconfiguration (RRC connection reconfiguration) message.
  • RRC connection reconfiguration RRC connection reconfiguration
  • Step 3 The terminal releases the dual connection according to the instruction to release the secondary cell group, that is, releases the connection with the NR base station;
  • Step 4 After releasing the dual connection, the LTE base station sends a measurement request for the NR base station to the terminal.
  • the measurement request is reported based on the event threshold numbered B1.
  • step 5 After receiving the measurement request for the NR base station, the terminal does not report the measurement result for the NR base station, that is, step 5 is not performed.
  • the terminal after receiving the measurement request, the terminal does not perform measurement on the second base station according to the measurement request. For example, the terminal directly discards the measurement request after receiving the measurement request.
  • the terminal since the terminal directly ignores the measurement request, the terminal will not perform measurement on the second base station according to the measurement request, and therefore will not obtain a measurement report for the first base station, and will not execute Operation of sending a measurement report to the first base station.
  • the disabling the dual connection mode for the terminal according to the second detection result includes:
  • the second detection result indicates that the terminal is in single connection mode, during the voice call of the terminal, it does not respond to the information sent by the first base station for enabling the dual connection mode; in the single connection mode, the terminal and the first base station To communicate.
  • the terminal may not respond to the information for enabling the dual connectivity mode sent by the first base station in one of the following ways:
  • the first way is to directly ignore the measurement request sent by the first base station.
  • the measurement request is used to instruct the terminal to measure the second base station;
  • the measurement report for the measurement request is ignored; the measurement request is sent by the first base station; the measurement request is used to instruct the terminal to measure the second base station;
  • the third method is to update the first threshold from the first value to the second value; the first value is less than the second value; the first threshold is the reporting threshold for the measurement report of the second base station; for the measurement request sent by the first base station , When the measurement value is less than the second value, the measurement report for the measurement request is not reported; the measurement request is used to instruct the terminal to measure the second base station.
  • the terminal after receiving the measurement request, the terminal does not perform measurement on the second base station according to the measurement request. For example, the terminal directly discards the measurement request after receiving the measurement request.
  • the terminal since the terminal directly ignores the measurement request, the terminal does not perform measurement on the second base station according to the measurement request, and therefore will not obtain a measurement report for the second base station, and will not execute the measurement report for the second base station. Operation of sending a measurement report to the first base station.
  • the terminal after receiving the measurement request, the terminal will respond to the measurement request to measure the second base station to obtain a measurement report for the second base station. However, the terminal will not send the measurement report for the second base station to The first base station, for example, the terminal discards the measurement report for the second base station, and does not save the measurement report for the second base station.
  • the terminal measures the second base station based on the measurement request, the terminal does not perform the operation of sending a measurement report for the second base station to the first base station.
  • the terminal may set the second value as the sum of the first value and the target value.
  • the target value is positive.
  • the probability of the terminal reporting the measurement report for the second base station to the first base station can be reduced. For example, suppose that in the measurement report for the second base station, the signal quality is 5, the first value is 4, and the target value is 2.
  • the terminal Before updating the measurement report threshold of the second base station, because 5 is greater than 4, the terminal can The measurement report is reported to the first base station; however, after the measurement report reporting threshold of the second base station is updated, since 5 is less than (4+2), the terminal cannot report the measurement report to the first base station.
  • the target value can be set as required.
  • the larger the target value the lower the probability of the terminal reporting the measurement report for the second base station to the first base station.
  • the probability that the terminal reports the measurement report for the second base station to the first base station is 0, that is, the terminal cannot report the measurement report for the second base station to the first base station.
  • the maximum signal quality is 7
  • the measurement report threshold of the second base station before the update is 4, and the target value is 4.
  • 7 is less than (4+4).
  • the signal quality in the measurement report cannot be greater than 8, so even if the signal quality in the measurement report for the second base station is the maximum value of 7, the terminal cannot send the measurement report for the second base station to the first base station.
  • the dual connection disable operation is realized by the way that the terminal does not report the measurement report of the second base station to the first base station, because the first base station needs to report according to the terminal
  • the second base station measurement report configures the dual connection mode. Therefore, if the terminal does not send the second base station measurement report to the first base station, the first base station cannot configure the dual connection mode. At this time, the terminal is still in the single connection mode.
  • the first base station is an LTE base station
  • the second base station is an NR base station.
  • the process of the terminal using the dual connection disable operation includes:
  • Step 1 The terminal is in single connection mode
  • Step 2 The LTE base station issues an NR base station measurement request to the terminal;
  • the NR base station measurement request is reported based on the event threshold numbered B1.
  • Step 3 Do not respond to the NR base station measurement request.
  • the terminal after receiving the NR base station measurement request, the terminal can continue or suspend the NR base station measurement request, but does not report the NR base station measurement report, that is, step 4 is not performed.
  • the LTE base station Since the LTE base station has not received the measurement result for the NR base station, it will not configure the EN-DC mode. At this time, the terminal is still in the single connection mode and only communicates with the LTE base station.
  • the terminal can restart to report the measurement report for the NR base station To reconfigure the dual connection mode.
  • the method for controlling network connection further includes:
  • the dual connection mode is enabled for the terminal.
  • the terminal can restart to report the measurement report for the NR base station to reconfigure the dual connection mode.
  • the terminal does not enable the call service corresponding to the secondary base station
  • the dual-connection mode is disabled for the terminal, and the terminal is switched to work in single-connection mode.
  • disconnecting the connection with the secondary base station will not affect the voice call, and only communicate with the primary base station.
  • the primary base station and the secondary base station communicate, which saves the terminal's consumption.
  • the battery power extends the standby time of the terminal.
  • the embodiment of the present application also provides a terminal.
  • the terminal includes:
  • the detection unit 91 is configured to detect whether the terminal is in a voice call, and obtain the first detection result; the terminal supports dual connection mode, in which the terminal communicates with both the first base station and the second base station; the first base station is the main Base station; the second base station is a secondary base station;
  • the disabling unit 92 is configured to disable the dual connection mode for the terminal when the first detection result indicates that the terminal is making a voice call;
  • the terminal has not activated the call service corresponding to the second base station.
  • the disabling unit 92 is configured to:
  • the connection mode of the terminal is detected to obtain the second detection result
  • the dual connection mode is disabled for the terminal.
  • the disabling unit 92 is configured to:
  • the second detection result indicates that the terminal is in the dual connection mode
  • information for determining the disabling of the dual connection mode is sent to the first base station, so as to disable the dual connection mode for the terminal.
  • the disabling unit 92 is configured to:
  • the disabling unit 92 is configured to:
  • the disabling unit 92 is configured to:
  • the terminal When the second detection result indicates that the terminal is in single connection mode, during the voice call of the terminal, it does not respond to the information sent by the first base station for enabling dual connection mode; in the single connection mode, the terminal communicates with the first base station .
  • the disabling unit 92 is configured to:
  • the measurement request is used to instruct the terminal to measure the second base station;
  • the measurement request is sent by the first base station; the measurement request is used to instruct the terminal to measure the second base station;
  • the first threshold is the reporting threshold for the measurement report of the second base station; for the measurement request sent by the first base station, the measurement When the value is less than the second value, the measurement report for the measurement request is not reported; the measurement request is used to instruct the terminal to measure the second base station.
  • the disabling unit 92 is configured to:
  • the dual connection mode is disabled for the terminal.
  • the detection unit 91 is configured to:
  • the terminal's network connection control function When the terminal's network connection control function is turned on, it detects whether the terminal is in a voice call.
  • the network connection control device further includes:
  • the enabling unit is configured to enable the dual connection mode for the terminal after the terminal's voice call ends.
  • the terminal provided in the above embodiment controls the network connection
  • only the division of the above program modules is used as an example for illustration.
  • the above processing can be allocated by different program modules as needed. That is, the internal structure of the device is divided into different program modules to complete all or part of the processing described above.
  • the embodiments of the method for controlling the connection between the terminal and the network provided in the above embodiments belong to the same concept, and the specific implementation process is detailed in the method embodiments, and will not be repeated here.
  • FIG. 10 is a schematic diagram of the hardware composition structure of a terminal according to an embodiment of the application. As shown in FIG. 10, the terminal 100 includes:
  • the communication interface 1001 can exchange information with other devices such as network devices;
  • the processor 1002 is connected to the communication interface 1001 to implement information interaction with other devices, and when configured to run a computer program, it executes the method provided by one or more technical solutions on the terminal side.
  • the computer program is stored in the memory 1003.
  • bus system 1004. the various components in the terminal 100 are coupled together through the bus system 1004. It can be understood that the bus system 1004 is configured to implement connection and communication between these components. In addition to the data bus, the bus system 1004 also includes a power bus, a control bus, and a status signal bus. However, for clarity of description, various buses are marked as the bus system 1004 in FIG. 10.
  • the memory 1003 in the embodiment of the present application is configured to store various types of data to support the operation of the terminal 1000. Examples of such data include: any computer program configured to operate on the terminal 100.
  • the memory 1003 may be a volatile memory or a non-volatile memory, and may also include both volatile and non-volatile memory.
  • the non-volatile memory can be a read only memory (ROM, Read Only Memory), a programmable read only memory (PROM, Programmable Read-Only Memory), an erasable programmable read only memory (EPROM, Erasable Programmable Read- Only Memory, Electrically Erasable Programmable Read-Only Memory (EEPROM), Ferromagnetic Random Access Memory (FRAM), Flash Memory, Magnetic Surface Memory , CD-ROM, or CD-ROM (Compact Disc Read-Only Memory); magnetic surface memory can be magnetic disk storage or tape storage.
  • the volatile memory may be random access memory (RAM, Random Access Memory), which is used as an external cache.
  • RAM random access memory
  • SRAM static random access memory
  • SSRAM synchronous static random access memory
  • DRAM Dynamic Random Access Memory
  • SDRAM Synchronous Dynamic Random Access Memory
  • DDRSDRAM Double Data Rate Synchronous Dynamic Random Access Memory
  • ESDRAM enhanced Type synchronous dynamic random access memory
  • SLDRAM SyncLink Dynamic Random Access Memory
  • direct memory bus random access memory DRRAM, Direct Rambus Random Access Memory
  • DRRAM Direct Rambus Random Access Memory
  • the memory 1003 described in the embodiment of the present application includes but is not limited to these and any other suitable types of memory.
  • the methods disclosed in the foregoing embodiments of the present application may be applied to the processor 1002 or implemented by the processor 1002.
  • the processor 1002 may be an integrated circuit chip with signal processing capabilities. In the implementation process, the steps of the foregoing method can be completed by hardware integrated logic circuits in the processor 1002 or instructions in the form of software.
  • the aforementioned processor 1002 may be a general-purpose processor, a DSP, or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components, and the like.
  • the processor 1002 may implement or execute the methods, steps, and logical block diagrams disclosed in the embodiments of the present application.
  • the general-purpose processor may be a microprocessor or any conventional processor.
  • the steps of the method disclosed in the embodiments of the present application can be directly embodied as being executed and completed by a hardware decoding processor, or executed by a combination of hardware and software modules in the decoding processor.
  • the software module may be located in a storage medium.
  • the storage medium is located in the memory 1003.
  • the processor 1002 reads the program in the memory 1003 and completes the steps of the foregoing method in combination with its hardware.
  • the embodiment of the present application also provides a storage medium, that is, a computer storage medium, specifically a computer-readable storage medium, such as a first memory 1003 storing a computer program, which can be processed by the terminal.
  • the device 1002 executes to complete the steps described in the foregoing method.
  • the computer-readable storage medium may be a memory such as FRAM, ROM, PROM, EPROM, EEPROM, Flash Memory, magnetic surface memory, optical disc, or CD-ROM.
  • the disclosed device, terminal, and method may be implemented in other ways.
  • the device embodiments described above are merely illustrative.
  • the division of the units is only a logical function division, and there may be other divisions in actual implementation, such as: multiple units or components can be combined, or It can be integrated into another system, or some features can be ignored or not implemented.
  • the coupling, or direct coupling, or communication connection between the components shown or discussed may be indirect coupling or communication connection through some interfaces, devices or units, and may be electrical, mechanical or other forms of.
  • the units described above as separate components may or may not be physically separate, and the components displayed as units may or may not be physical units, that is, they may be located in one place or distributed on multiple network units; Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • the functional units in the embodiments of the present application can all be integrated into one processing unit, or each unit can be individually used as a unit, or two or more units can be integrated into one unit;
  • the unit can be implemented in the form of hardware, or in the form of hardware plus software functional units.
  • the foregoing program can be stored in a computer readable storage medium. When the program is executed, it is executed. Including the steps of the foregoing method embodiment; and the foregoing storage medium includes: various media that can store program codes, such as a mobile storage device, ROM, RAM, magnetic disk, or optical disk.
  • the above-mentioned integrated unit of this application is implemented in the form of a software function module and sold or used as an independent product, it can also be stored in a computer readable storage medium.
  • the computer software product is stored in a storage medium and includes several instructions for A computer device (which may be a personal computer, a server, or a network device, etc.) executes all or part of the methods described in the various embodiments of the present application.
  • the aforementioned storage media include: removable storage devices, ROM, RAM, magnetic disks, or optical disks and other media that can store program codes.

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Abstract

本申请实施例公开了一种网络连接的控制方法、终端及存储介质。其中,网络连接的控制方法,包括:终端检测所述终端是否在进行语音通话,得到第一检测结果;所述终端支持双连接模式,在双连接模式下,所述终端与第一基站和第二基站均进行通信;所述第一基站为主基站;所述第二基站为辅基站;当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式;其中,所述终端未启用所述第二基站对应的通话业务。

Description

网络连接的控制方法、终端及存储介质
相关申请的交叉引用
本申请基于申请号为201910405971.7,申请日为2019年5月16日,以及申请号为201910869835.3、申请日为2019年9月16日的中国专利申请提出,并要求上述中国专利申请的优先权,上述中国专利申请的全部内容在此引入本申请作为参考。
技术领域
本申请涉及无线技术,具体涉及一种网络连接的控制方法、终端及存储介质。
背景技术
在第五代(5th Generation,5G)移动通信新空口(New Radio,NR)的非独立(Non-Standalone,NSA)组网方式下,终端可以工作在双连接(Dual Connection,DC)模式。在双连接模式下,终端与主基站和辅基站均进行通信,例如,终端与NSA中的长期演进(Long Term Evolution,LTE)基站和NR基站均进行通信,导致终端的功耗过大。
发明内容
为解决相关技术问题,本申请实施例提供了一种网络连接的控制方法、终端及存储介质。
本申请实施例提供了一种网络连接的控制方法,包括:
检测所述终端是否在进行语音通话,得到第一检测结果;所述终端支持双连接模式,在双连接模式下,所述终端与第一基站和第二基站均进行通信;所述第一基站为主基站;所述第二基站为辅基站;
当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式;
其中,所述终端未启用所述第二基站对应的通话业务。
其中,上述方案中,所述当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式,包括:
当所述第一检测结果表征所述终端在进行语音通话,检测所述终端的连接模式,得到第二检测结果;
根据所述第二检测结果,对所述终端禁用双连接模式。
上述方案中,所述根据所述第二检测结果,对所述终端禁用双连接模式,包括:
当所述第二检测结果表征所述终端处于双连接模式,向所述第一基站发送用于确定禁用双连接模式的信息,以对所述终端禁用双连接模式。
上述方案中,所述向所述第一基站发送用于确定禁用双连接模式的信息,包括:
向所述第一基站上报无线能力信息,所述无线能力信息用于向所述第一基站指示所述终端不支持接入所述第二基站。
上述方案中,所述向所述第一基站发送用于确定禁用双连接模式的信息,包括:
向所述第一基站发送辅小区群失败信息,所述辅小区群失败信息用于指示所述终端与所述第二基站连接失败。
上述方案中,所述根据所述第二检测结果,对所述终端禁用双连接模式,包括:
当所述第二检测结果表征所述终端处于单连接模式,在所述终端的语音通话过程中,不响应所述第一基站发送的用于使能双连接模式的信息;在单连接模式下,所述终端与所述第一基站进行通信。
上述方案中,所述不响应所述第一基站发送的用于使能双连接模式的信息,包括:
直接忽略所述第一基站发送的测量请求;所述测量请求用于指示所述终端对所述第二基站进行测量;
或者,
忽略针对测量请求的测量报告;所述测量请求是所述第一基站发送的;所述测量请求用于指示所述终端对所述第二基站进行测量;
或者,
将第一门限由第一值更新至第二值;所述第一值小于所述第二值;所述第一门限为针对所述第二基站的测量报告的上报门限;针对所述第一基站发送的测量请求,在测量值小于所述第二值时不上报针对测量请求的测量报告;所述测量请求用于指示所述终端对所述第二基站进行测量。
上述方案中,所述对所述终端禁用双连接模式,包括:
检测所述终端是否在进行语音通话的同时使用数据业务,得到第三检测结果;
当所述第三检测结果表征所述终端在进行语音通话的同时未使用数据业务时,对所述终端禁用双连接模式。
上述方案中,所述检测所述终端是否在进行语音通话,包括:
当所述终端的网络连接控制功能开启时,检测所述终端是否在进行语音通话。
上述方案中,所述控制方法还包括:
在所述终端的语音通话结束后,对所述终端使能双连接模式。
本申请实施例还提供了一种终端,包括:
检测单元,配置为检测所述终端是否在进行语音通话,得到第一检测结果;所述终端支持双连接模式,在双连接模式下,所述终端与第一基站和第二基站均进行通信;所述第一基站为主基站;所述第二基站为辅基站;
禁用单元,配置为当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式;
其中,所述终端未启用所述第二基站对应的通话业务。
本申请实施例还提供了一种终端,包括:处理器和配置为存储能够在处理器上运行的计算机程序的存储器,
其中,所述处理器配置为运行所述计算机程序时,执行上述网络连接的控制方法的步骤。
本申请实施例还提供了一种存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现上述网络连接的控制方法的步骤。
本申请实施例还提供了一种存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现上述任一网络连接的控制方法的步骤。
在本申请实施例中,对于终端未启用辅基站对应的通话业务的情况,当检测到终端在进行语音通话时,对终端禁用双连接模式,终端切换至单连接模式下工作,由于语音通话不基于终端与辅基站的通信进行,断开与辅基站的连接并不会影响到语音通话,且仅与主基站通信,相比于终端同时主基站和辅基站均进行通信,节省了终端的耗电量,延长了终端的待机时间。
附图说明
图1为本申请实施例的一种双连接的架构示意图;
图2为本申请实施例的终端在双连接模式下的通信模块结构示意图;
图3为本申请实施例的网络连接的控制方法的实现流程示意图;
图4为本申请实施例的终端开启网络连接的控制功能的实现流程示意图;
图5为本申请另一实施例的网络连接的控制方法的实现流程示意图;
图6为本申请又一实施例的网络连接的控制方法的实现流程示意图;
图7为本申请实施例的终端采用双连接禁用操作的实现流程示意图;
图8为本申请另一实施例的终端采用双连接禁用操作的实现流程示意 图;
图9为本申请实施例的连接模式的控制装置的结构示意图;
图10为本申请实施例的终端的结构示意图。
具体实施方式
本申请实施例提供的网络连接的控制方法,可以应用于如图1所示的NSA组网方式下的双连接架构中。其中,终端101可以与主基站102(也称为主节点)建立空口连接,从而实现与主基站102之间的通信;终端101还可以同时与主基站102和辅基站103(也称为辅节点)建立空口连接,从而同时实现与主基站102和辅基站103之间的通信。
终端101在双连接模式下,与主基站102和辅基站103同时建立两个连接,其中,主基站102主要负责传输信令,辅基站103负责传输数据。终端101在单连接模式下,与主基站102建立连接,不与辅基站103建立连接,主基站102负责传输信令和数据。本申请实施例的技术方案主要针对能够工作在双连接模式及单连接模式下的终端。
图1所示的主基站102和辅基站103,在一个例子中,主基站102为LTE基站,辅基站103为NR基站。在另一个例子中,主基站102为NR基站,辅基站103也为NR基站。在又一个例子中,主基站102为NR基站,辅基站103为LTE基站。本申请实施例对主基站102和辅基站103的类型不做限制。
在一个示例中,双连接模式为进化的通用移动通信系统(UMTS,Universal Mobile Telecommunications System)陆地无线接入(EUTRA,Evolved-UMTS Terrestrial Radio Access)和NR双连接(EN-DC,EUTRA-NR Dual Connectivity)模式或下一代EN-DC(NGEN-DC,next generation EN-DC)模式,这种情况下,主基站102为LTE基站,辅基站103为NR基站,终端101与LTE基站和NR基站均进行通信。
需要说明的是,双连接模式并不局限于上述EN-DC模式或NGEN-DC模式,本申请实施例对于双连接模式的具体类型不做限定。
具体实现时,主基站102和辅基站103的部署方式可以为共站部署(如,NR基站和LTE基站可以设置在一个实体设备上),也可以为非共站部署(如,NR基站和LTE基站可以设置在不同实体设备上),本申请对此可以不做限定。这里,LTE基站也可以称为演进基站(eNB,evolved Node B),NR基站也可以称为下一代基站(gNB,next generation Node B)。需要说明的是,对于主基站102和辅基站103覆盖范围的相互关系本申请可以不做限定,例如主基站102和辅基站103可以重叠覆盖。
对于终端101的具体类型,本申请可以不做限定,其可以为任何支持上述双连接模式的用户设备,例如可以为智能手机、个人计算机、笔记本 电脑、平板电脑和便携式可穿戴设备等。
图2为终端在双连接模式下的通信模块的结构图,如图2所示,终端为实现与两个基站的同时通信,需要具备两套通信模块,两套通信模块分别对应两个基站。其中,第一调制解调模块(modem)和第一射频通路(包括第一射频电路和第一射频天线)形成第一套通信模块,第一套通信模块对应主基站。第二调制解调模块(modem)和第二射频通路(包括第二射频电路和第二射频天线)形成第二套通信模块,第二套通信模块对应辅基站。在一个示例中,第一modem为4G modem,第二modem为5G modem,第一射频电路为4G RF,第二射频电路为5G RF。双连接模式下,第一通信模块和第二通信模块同时工作,终端与主基站和辅基站同时进行通信,相比于单连接模式下终端只需要与主基站进行通信,双连接模式下的终端耗电量更大。
下面将通过实施例并结合附图具体地对本申请的技术方案以及本申请的技术方案如何解决上述技术问题进行详细说明。下面这几个具体的实施例可以相互结合,对于相同或相似的概念或过程可能在某些实施例中不再赘述。
图3为本申请实施例提供的网络连接的控制方法的实现流程示意图,如图3示出的,网络连接的控制方法包括:
S301:检测终端是否在进行语音通话,得到第一检测结果。
这里,终端支持双连接模式,在双连接模式下,终端与第一基站和第二基站均进行通信,第一基站为主基站,第二基站为辅基站。通过查找终端正在运行的进程,检测终端是否在进行语音通话。
在一个实施例中,检测终端是否在进行语音通话,包括:
当终端的网络连接控制功能开启时,检测终端是否在进行语音通话。
参照图4,图4为终端开启网络连接控制功能的实现流程示意图,这里,网络连接控制功能的含义是指对终端的网络连接进行优化,在网络连接控制功能开启的状态下,当终端进在进行语音通话,且该语音通话不是基于与第二基站通信实现的,即终端未启用第二基站对应的通话业务时,对终端禁用双连接模式。如图4所示,终端开启网络连接控制功能包括以下流程:
1、终端判断是否接收到了开启网络连接控制功能的操作。
这里,终端展示用户界面,该用户界面包括开启网络连接控制功能的选项,用户可以触发操作来选中网络连接控制功能对应的选项,从而开启网络连接控制功能。这里,用户的操作可以是触摸操作或按键操作或语音操作或手势操作等。
2、如果接收到开启网络连接控制功能的操作,则对终端的网络连接进行优化。
这里,对终端的网络连接的优化至少包括:当终端通过第二基站进行 数据传输时,若终端中运行的应用里存在耗电量大的应用,则对终端禁用双连接模式。
3、如果未接收到开启网络连接控制功能的控制指令,则不对终端的网络连接进行优化。
在一个示例中,第一基站为LTE基站,第二基站为NR基站,这里,终端未启用第二基站对应的通话业务,即终端未开通或者在终端未启用NR通话业务,这种情况下,终端进行语音通话,可以为基于LTE通话业务进行分组交换(Packet Switched,PS)域的语音通话,或者可以为基于2G/3G网络进行电路交换(Circuit Switched,CS)域的语音通话。
S302:当第一检测结果表征终端在进行语音通话,对终端禁用双连接模式。
由于终端未启用第二基站对应的通话业务,那么当检测到终端在进行语音通话时,该语音通话通过终端与第一基站通信完成,此时,第二基站并不参与语音通话过程,对终端禁用双连接模式,将终端切换至单连接模式,终端仅与第一基站进行通信,从而减少终端的电量消耗,延长终端的待机时间。
在一个实施例中,如图5所示,对终端禁用双连接模式,包括:
S3021:检测终端是否在进行语音通话的同时使用数据业务,得到第三检测结果;
S3022:当第三检测结果表征终端在进行语音通话的同时未使用数据业务时,对终端禁用双连接模式。
这里,虽然终端进行的语音通话不通过与第二基站完成,但若终端在进行语音通话的同时使用数据业务,那么该数据业务仍有可能基于终端与第二基站的通信完成,此时,考虑以保证数据业务的传输速率,不对终端禁用双连接模式。例如,终端在语音通话的同时,在使用电子邮箱、即时通讯或者浏览器等应用,那么在该情况下,不对终端禁用双连接模式;若终端在语音通话的同时,终端的前台未运行其他需要进行数据传输的应用,即代表终端未在语音通话的同时使用数据业务,则对终端禁用双连接模式。
在一个实施例中,如图6所示,当第一检测结果表征终端在进行语音通话,对终端禁用双连接模式,包括:
S3023:当第一检测结果表征所述终端在进行语音通话,检测终端的连接模式,得到第二检测结果;
S3024:根据第二检测结果,对终端禁用双连接模式。
在图6对应的实施例的基础之上,在一个实施例中,所述根据第二检测结果,对终端禁用双连接模式,包括:
当第二检测结果表征终端处于双连接模式,向第一基站发送用于确定禁用双连接模式的信息,以对终端禁用双连接模式。
在双连接模式下,终端与第一基站和第二基站均进行通信,其中,第 二基站负责传输数据,第一基站主要负责传输信令,终端与第一基站和第二基站形成双连接架构,参照图1。
在一个实施例中,向第一基站发送用于确定禁用双连接模式的信息,包括:
向第一基站上报无线能力信息,无线能力信息用于向第一基站指示终端不支持接入第二基站,以对终端禁用双连接模式。
无线能力信息(radio capability information)是终端向第一基站上报的用于表征终端无线能力的信息。在本申请实施例中,终端向第一基站上报的无线能力信息用于指示终端不支持第二基站的接入技术。
在一个实施例中,向第一基站上报无线能力信息,包括:
向第一基站发送重新注册请求信息,以通过重新注册向第一基站上报无线能力信息。
这里,终端向第一基站发送的重新注册请求信息可以携带有上述无线能力信息,这样一来,第一基站在接收到该重新注册请求后,可以从该重新注册请求中解析出上述无线能力信息,以避免第一基站对终端配置双连接模式,从而实现对终端禁用双连接模式;此外,重新注册请求信息也可以不携带无线能力信息,第一基站在接收到终端发送的重新注册请求之后,可以向终端发送能力上报指示消息,该能力上报指示消息用于指示终端向第一基站发送无线能力信息,终端可以根据该能力上报指示消息向第一基站发送上述无线能力信息,以避免第一基站对终端配置双连接模式,从而实现对终端禁用双连接模式。
在一个实施例中,向第一基站上报无线能力信息,包括:
向第一基站发送跟踪区域更新(TAU,Tracking Area Update)TAU请求,所述TAU请求携带无线能力信息。
在TAU请求中,携带有指示信息,用于指示终端需要更新无线能力信息,第一基站基于该TAU请求向终端发送能力上报指示消息,该能力上报指示消息用于指示终端向第一基站发送无线能力信息,终端可以根据该能力上报指示消息向第一基站发送用于指示终端不支持第二基站的接入技术的无线能力信息,以避免第一基站对终端配置双连接模式,从而实现对终端禁用双连接模式。
在一个实施例中,向第一基站发送用于确定禁止所述终端与第二基站连接的信息,包括:
向第一基站发送辅小区群失败信息(SCG failure information),辅小区群失败信息用于指示终端与第二基站连接失败。
实际应用时,为了避免终端在释放双连接之后,即终端释放与第二基站的连接后,第一基站根据终端发送的针对第二基站的测量报告再次为终端配置双连接模式,在辅小区群失败信息中不携带针对第二基站的测量报告,即不携带针对第二基站的测量结果,由此,终端将接收到第一基站根 据辅小区群失败信息下发的释放辅小区群指示,并根据释放辅小区群指示,将终端由双连接模式切换至单连接模式。
在一示例中,第一基站为LTE基站,第二基站为NR基站,如图7所示,终端采用双连接禁用操作的过程,包括:
步骤1:终端向LTE基站发起NR SCG failure information流程。
这里,终端将NR SCG failure information消息中的failureType字段设置为“t310-Expiry”,表示终端与NR基站的连接失败。
在NR SCG failure information消息中,不包含针对NR基站的测量结果。
步骤2:LTE基站向所述终端发送释放辅小区群指示。
这里,所述释放辅小区群指示用于指示终端释放双连接,即指示终端释放与NR基站的连接。
其中,LTE基站可以通过RRC连接重配置(RRC connection reconfiguration)消息实现向UE发送释放辅小区群(release SCG)指示。
步骤3:终端根据释放辅小区群指示,释放双连接,即释放与NR基站的连接;
步骤4:释放双连接后,LTE基站向终端发送针对NR基站的测量请求。
这里,测量请求基于编号为B1的事件门限上报。
当终端收到针对NR基站的测量请求后,不上报针对NR基站的测量结果,即不执行步骤5。
这里,终端接收到测量请求后,并不根据测量请求对第二基站进行测量,比如,终端收到测量请求后,直接将测量请求丢弃等。这里,由于终端直接忽略了测量请求,因此终端并不会根据测量请求对第二基站进行测量,从而也就不会得到针对第一基站的测量报告,也就不会执行将针对第二基站的测量报告发送至第一基站的操作。
在图6对应的实施例的基础之上,在一个实施例中,所述根据第二检测结果,对终端禁用双连接模式,包括:
当第二检测结果表征终端处于单连接模式,在终端的语音通话过程中,不响应第一基站发送的用于使能双连接模式的信息;在单连接模式下,所述终端与第一基站进行通信。
在一个实施例中,终端可以通过以下方式之一不响应第一基站发送的用于使能双连接模式的信息:
第一种方式,直接忽略第一基站发送的测量请求述测量请求用于指示所述终端对第二基站进行测量;
第二种方式,忽略针对测量请求的测量报告;测量请求是第一基站发送的;测量请求用于指示终端对第二基站进行测量;
第三种方式,将第一门限由第一值更新至第二值;第一值小于第二值;第一门限为针对第二基站的测量报告的上报门限;针对第一基站发送的测量请求,在测量值小于第二值时不上报针对测量请求的测量报告;测量请 求用于指示终端对第二基站进行测量。
其中,在第一种方式中,终端接收到测量请求后,并不根据测量请求对第二基站进行测量,比如,终端收到测量请求后,直接将测量请求丢弃等。这里,由于终端直接忽略了测量请求,因此终端并不会根据测量请求对第二基站进行测量,从而也就不会得到针对第二基站的测量报告,也就不会执行将针对第二基站的测量报告发送至第一基站的操作。
在第二种方式中,终端接收到测量请求后,会响应测量请求对第二基站进行测量,从而得到针对第二基站的测量报告,但是,终端不会将针对第二基站的测量报告发送给第一基站,比如,终端将针对第二基站的测量报告丢弃,而不保存针对第二基站的测量报告等。这里,虽然终端基于测量请求对第二基站进行了测量,但是终端并不会执行将针对第二基站的测量报告发送给第一基站的操作。
在第三种方式中,实际应用时,终端可以将第二值设置为第一值与目标值之和。其中,目标值为正值。通过将第二基站测量报告上报门限更新为第一值与目标值之和,可以减小终端向第一基站上报针对第二基站的测量报告的概率。例如,假设在针对第二基站的测量报告中,信号质量为5,第一值为4,目标值为2,则更新第二基站的测量报告上报门限之前,由于5大于4,因此终端可以将该测量报告上报至第一基站;然而,当更新第二基站的测量报告上报门限之后,由于5小于(4+2),因此终端不能将该测量报告上报至第一基站。
这里,实际应用时,当可以根据需要设置目标值。目标值越大,则终端向第一基站上报针对第二基站的测量报告的概率越小。当目标值大于或等于一定阈值时,终端向第一基站上报针对第二基站的测量报告的概率为0,即终端无法向第一基站上报针对第二基站的测量报告。比如,假设信号质量的最大值为7,更新前的第二基站测量报告上报门限为4,目标值为4,则更新上报门限之后,由于7小于(4+4),因此针对第二基站的测量报告中信号质量无法大于8,因此即使针对第二基站的测量报告中信号质量为最大值7,终端也无法将针对第二基站的测量报告发送至第一基站。
从上面的描述可以看出,当终端处于单连接模式下时,双连接禁用操作是通过终端不向第一基站上报第二基站测量报告的方式来实现的,由于第一基站需要根据终端上报的第二基站测量报告来配置双连接模式,因此在终端不向第一基站发送第二基站测量报告的情况下,第一基站无法配置双连接模式,此时,终端仍然处于单连接模式。
在一示例中,第一基站为LTE基站,第二基站为NR基站,如图8所示,终端采用双连接禁用操作的过程,包括:
步骤1:终端处于单连接模式;
步骤2:LTE基站向终端下发NR基站测量请求;
这里,NR基站测量请求基于编号为B1的事件门限上报。
步骤3:不响应NR基站测量请求。
这里,实际应用时,收到NR基站测量请求后,终端可以继续或暂停NR基站测量请求,但不上报NR基站测量报告,即不执行步骤4。
由于LTE基站没有收到针对NR基站的测量结果,所以不会配置EN-DC模式,此时终端依然处在单连接模式下,仅与LTE基站进行通信。
当然,实际应用时,当需要使用NR基站对应的通信业务,或有条件使用NR基站对应的通信业务时(比如NR网络的信号质量很强等),终端可以重新启动上报针对NR基站的测量报告,来重新配置双连接模式。
在一个实施例中,网络连接的控制方法还包括:
在终端的语音通话结束后,对终端使能双连接模式。
在实际应用中,当终端的语音通话结束后,终端可以重新启动上报针对NR基站的测量报告,来重新配置双连接模式。
在本申请实施例中,对于终端未启用辅基站对应的通话业务的情况,当检测到终端在进行语音通话时,对终端禁用双连接模式,终端切换至单连接模式下工作,由于语音通话不基于终端与辅基站的通信进行,断开与辅基站的连接并不会影响到语音通话,且仅与主基站通信,相比于终端同时主基站和辅基站均进行通信,节省了终端的耗电量,延长了终端的待机时间。
为实现本申请实施例的方法,本申请实施例还提供了一种终端,如图9所示,该终端包括:
检测单元91,配置为检测终端是否在进行语音通话,得到第一检测结果;终端支持双连接模式,在双连接模式下,终端与第一基站和第二基站均进行通信;第一基站为主基站;第二基站为辅基站;
禁用单元92,配置为当第一检测结果表征终端在进行语音通话,对终端禁用双连接模式;
其中,终端未启用第二基站对应的通话业务。
其中,在一实施例中,所述禁用单元92,配置为:
当第一检测结果表征终端在进行语音通话,检测终端的连接模式,得到第二检测结果;
根据第二检测结果,对终端禁用双连接模式。
在一实施例中,所述禁用单元92,配置为:
当第二检测结果表征终端处于双连接模式,向第一基站发送用于确定禁用双连接模式的信息,以对终端禁用双连接模式。
在一实施例中,所述禁用单元92,配置为:
向第一基站上报无线能力信息,无线能力信息用于向第一基站指示终端不支持接入第二基站。
在一实施例中,所述禁用单元92,配置为:
向第一基站发送辅小区群失败信息,辅小区群失败信息用于指示终端 与第二基站连接失败。
在一实施例中,所述禁用单元92,配置为:
当第二检测结果表征终端处于单连接模式,在终端的语音通话过程中,不响应第一基站发送的用于使能双连接模式的信息;在单连接模式下,终端与第一基站进行通信。
在一实施例中,所述禁用单元92,配置为:
直接忽略第一基站发送的测量请求;测量请求用于指示终端对第二基站进行测量;
或者,
忽略针对测量请求的测量报告;测量请求是第一基站发送的;测量请求用于指示终端对第二基站进行测量;
或者,
将第一门限由第一值更新至第二值;第一值小于所述第二值;第一门限为针对第二基站的测量报告的上报门限;针对第一基站发送的测量请求,在测量值小于第二值时不上报针对测量请求的测量报告;测量请求用于指示终端对第二基站进行测量。
在一实施例中,所述禁用单元92,配置为:
检测终端是否在进行语音通话的同时使用数据业务,得到第三检测结果;
当第三检测结果表征终端在进行语音通话的同时未使用数据业务时,对终端禁用双连接模式。
在一实施例中,所述检测单元91,配置为:
当终端的网络连接控制功能开启时,检测终端是否在进行语音通话。
在一实施例中,网络连接的控制装置还包括:
使能单元,,配置为在终端的语音通话结束后,对终端使能双连接模式。
需要说明的是:上述实施例提供的终端在进行网络连接的控制时,仅以上述各程序模块的划分进行举例说明,实际应用中,可以根据需要而将上述处理分配由不同的程序模块完成,即将装置的内部结构划分成不同的程序模块,以完成以上描述的全部或者部分处理。另外,上述实施例提供的终端与网络连接的控制方法实施例属于同一构思,其具体实现过程详见方法实施例,这里不再赘述。
基于上述程序模块的硬件实现,且为了实现本申请实施例的方法,本申请实施例还提供了一种终端。图10为本申请实施例终端的硬件组成结构示意图,如图10所示,终端100包括:
通信接口1001,能够与其它设备比如网络设备等进行信息交互;
处理器1002,与所述通信接口1001连接,以实现与其它设备进行信息交互,配置为运行计算机程序时,执行上述终端侧一个或多个技术方案提供的方法。而所述计算机程序存储在存储器1003上。
当然,实际应用时,终端100中的各个组件通过总线系统1004耦合在一起。可理解,总线系统1004配置为实现这些组件之间的连接通信。总线系统1004除包括数据总线之外,还包括电源总线、控制总线和状态信号总线。但是为了清楚说明起见,在图10中将各种总线都标为总线系统1004。
本申请实施例中的存储器1003配置为存储各种类型的数据以支持终端1000的操作。这些数据的示例包括:配置为在终端100上操作的任何计算机程序。
可以理解,存储器1003可以是易失性存储器或非易失性存储器,也可包括易失性和非易失性存储器两者。其中,非易失性存储器可以是只读存储器(ROM,Read Only Memory)、可编程只读存储器(PROM,Programmable Read-Only Memory)、可擦除可编程只读存储器(EPROM,Erasable Programmable Read-Only Memory)、电可擦除可编程只读存储器(EEPROM,Electrically Erasable Programmable Read-Only Memory)、磁性随机存取存储器(FRAM,ferromagnetic random access memory)、快闪存储器(Flash Memory)、磁表面存储器、光盘、或只读光盘(CD-ROM,Compact Disc Read-Only Memory);磁表面存储器可以是磁盘存储器或磁带存储器。易失性存储器可以是随机存取存储器(RAM,Random Access Memory),其用作外部高速缓存。通过示例性但不是限制性说明,许多形式的RAM可用,例如静态随机存取存储器(SRAM,Static Random Access Memory)、同步静态随机存取存储器(SSRAM,Synchronous Static Random Access Memory)、动态随机存取存储器(DRAM,Dynamic Random Access Memory)、同步动态随机存取存储器(SDRAM,Synchronous Dynamic Random Access Memory)、双倍数据速率同步动态随机存取存储器(DDRSDRAM,Double Data Rate Synchronous Dynamic Random Access Memory)、增强型同步动态随机存取存储器(ESDRAM,Enhanced Synchronous Dynamic Random Access Memory)、同步连接动态随机存取存储器(SLDRAM,SyncLink Dynamic Random Access Memory)、直接内存总线随机存取存储器(DRRAM,Direct Rambus Random Access Memory)。本申请实施例描述的存储器1003在包括但不限于这些和任意其它适合类型的存储器。
上述本申请实施例揭示的方法可以应用于处理器1002中,或者由处理器1002实现。处理器1002可能是一种集成电路芯片,具有信号的处理能力。在实现过程中,上述方法的各步骤可以通过处理器1002中的硬件的集成逻辑电路或者软件形式的指令完成。上述的处理器1002可以是通用处理器、DSP,或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。处理器1002可以实现或者执行本申请实施例中的公开的各方法、步骤及逻辑框图。通用处理器可以是微处理器或者任何常规的处理器等。结合本申请实施例所公开的方法的步骤,可以直接体现为硬件译码处理器执行完成,或者用译码处理器中的硬件及软件模块组合执行完成。软件模 块可以位于存储介质中,该存储介质位于存储器1003,处理器1002读取存储器1003中的程序,结合其硬件完成前述方法的步骤。
可选地,所述处理器1002执行所述程序时实现本申请实施例的各个方法中由终端实现的相应流程,为了简洁,在此不再赘述。
在示例性实施例中,本申请实施例还提供了一种存储介质,即计算机存储介质,具体为计算机可读存储介质,例如包括存储计算机程序的第一存储器1003,上述计算机程序可由终端的处理器1002执行,以完成前述方法所述步骤。计算机可读存储介质可以是FRAM、ROM、PROM、EPROM、EEPROM、Flash Memory、磁表面存储器、光盘、或CD-ROM等存储器。
在本申请所提供的几个实施例中,应该理解到,所揭露的装置、终端和方法,可以通过其它的方式实现。以上所描述的设备实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,如:多个单元或组件可以结合,或可以集成到另一个系统,或一些特征可以忽略,或不执行。另外,所显示或讨论的各组成部分相互之间的耦合、或直接耦合、或通信连接可以是通过一些接口,设备或单元的间接耦合或通信连接,可以是电性的、机械的或其它形式的。
上述作为分离部件说明的单元可以是、或也可以不是物理上分开的,作为单元显示的部件可以是、或也可以不是物理单元,即可以位于一个地方,也可以分布到多个网络单元上;可以根据实际的需要选择其中的部分或全部单元来实现本实施例方案的目的。
另外,在本申请各实施例中的各功能单元可以全部集成在一个处理单元中,也可以是各单元分别单独作为一个单元,也可以两个或两个以上单元集成在一个单元中;上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。
本领域普通技术人员可以理解:实现上述方法实施例的全部或部分步骤可以通过程序指令相关的硬件来完成,前述的程序可以存储于一计算机可读取存储介质中,该程序在执行时,执行包括上述方法实施例的步骤;而前述的存储介质包括:移动存储设备、ROM、RAM、磁碟或者光盘等各种可以存储程序代码的介质。
或者,本申请上述集成的单元如果以软件功能模块的形式实现并作为独立的产品销售或使用时,也可以存储在一个计算机可读取存储介质中。基于这样的理解,本申请实施例的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机、服务器、或者网络设备等)执行本申请各个实施例所述方法的全部或部分。而前述的存储介质包括:移动存储设备、ROM、RAM、磁碟或者光盘等各种可以存储程序代码的介质。
需要说明的是:“第一”、“第二”等是用于区别类似的对象,而不必用 于描述特定的顺序或先后次序。
另外,本申请实施例所记载的技术方案之间,在不冲突的情况下,可以任意组合。
以上所述,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所述权利要求的保护范围为准。

Claims (13)

  1. 一种网络连接的控制方法,应用于终端,包括:
    检测所述终端是否在进行语音通话,得到第一检测结果;所述终端支持双连接模式,在双连接模式下,所述终端与第一基站和第二基站均进行通信;所述第一基站为主基站;所述第二基站为辅基站;
    当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式;
    其中,所述终端未启用所述第二基站对应的通话业务。
  2. 根据权利要求1所述的控制方法,其中,所述当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式,包括:
    当所述第一检测结果表征所述终端在进行语音通话,检测所述终端的连接模式,得到第二检测结果;
    根据所述第二检测结果,对所述终端禁用双连接模式。
  3. 根据权利要求2所述的控制方法,其中,所述根据所述第二检测结果,对所述终端禁用双连接模式,包括:
    当所述第二检测结果表征所述终端处于双连接模式,向所述第一基站发送用于确定禁用双连接模式的信息,以对所述终端禁用双连接模式。
  4. 根据权利要求3所述的控制方法,其中,所述向所述第一基站发送用于确定禁用双连接模式的信息,包括:
    向所述第一基站上报无线能力信息,所述无线能力信息用于向所述第一基站指示所述终端不支持接入所述第二基站。
  5. 根据权利要求3所述的控制方法,其中,所述向所述第一基站发送用于确定禁用双连接模式的信息,包括:
    向所述第一基站发送辅小区群失败信息,所述辅小区群失败信息用于指示所述终端与所述第二基站连接失败。
  6. 根据权利要求2所述的控制方法,其中,所述根据所述第二检测结果,对所述终端禁用双连接模式,包括:
    当所述第二检测结果表征所述终端处于单连接模式,在所述终端的语音通话过程中,不响应所述第一基站发送的用于使能双连接模式的信息;在单连接模式下,所述终端与所述第一基站进行通信。
  7. 根据权利要求6所述的控制方法,其中,所述不响应所述第一基站发送的用于使能双连接模式的信息,包括:
    直接忽略所述第一基站发送的测量请求;所述测量请求用于指示所述终端对所述第二基站进行测量;
    或者,
    忽略针对测量请求的测量报告;所述测量请求是所述第一基站发送的;所述测量请求用于指示所述终端对所述第二基站进行测量;
    或者,
    将第一门限由第一值更新至第二值;所述第一值小于所述第二值;所述第一门限为针对所述第二基站的测量报告的上报门限;针对所述第一基站发送的测量请求,在测量值小于所述第二值时不上报针对测量请求的测量报告;所述测量请求用于指示所述终端对所述第二基站进行测量。
  8. 根据权利要求1所述的控制方法,其中,所述对所述终端禁用双连接模式,包括:
    检测所述终端是否在进行语音通话的同时使用数据业务,得到第三检测结果;
    当所述第三检测结果表征所述终端在进行语音通话的同时未使用数据业务时,对所述终端禁用双连接模式。
  9. 根据权利要求1所述的控制方法,其中,所述检测所述终端是否在进行语音通话,包括:
    当所述终端的网络连接控制功能开启时,检测所述终端是否在进行语音通话。
  10. 根据权利要求1所述的控制方法,其中,所述控制方法还包括:
    在所述终端的语音通话结束后,对所述终端使能双连接模式。
  11. 一种终端,包括:
    检测单元,配置为检测所述终端是否在进行语音通话,得到第一检测结果;所述终端支持双连接模式,在双连接模式下,所述终端与第一基站和第二基站均进行通信;所述第一基站为主基站;所述第二基站为辅基站;
    禁用单元,配置为当所述第一检测结果表征所述终端在进行语音通话,对所述终端禁用双连接模式;
    其中,所述终端未启用所述第二基站对应的通话业务。
  12. 一种终端,包括:处理器和配置为存储能够在处理器上运行的计算机程序的存储器,
    其中,所述处理器配置为运行所述计算机程序时,执行权利要求1至10任一项所述的网络连接的控制方法的步骤。
  13. 一种存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现权利要求1至10任一项所述的网络连接的控制方法的步骤。
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