CN115134931A - Dual-card data service implementation method and dual-card dual-standby terminal - Google Patents
Dual-card data service implementation method and dual-card dual-standby terminal Download PDFInfo
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- H—ELECTRICITY
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- H04W76/15—Setup of multiple wireless link connections
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- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
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Abstract
The present disclosure provides a method, a system, a computer device and a storage medium for implementing a dual-card data service, wherein the method includes: detecting whether the terminal enables an application which needs to use a data service at present; if the number of the applications is enabled, judging whether the number of the applications is more than 1; and if the number of the application data is more than 1, dividing the data volume of each application into two groups, and connecting the data by using two cards of the terminal according to the division result. According to the technical scheme, under the condition that the terminal has started more than one application needing data service, a data volume balancing mechanism is started, the data volume of each application is divided into two groups and then the two cards of the terminal are used for data connection, data uploading and downloading of multiple applications are achieved by using the two cards at the same time, the capacity of the dual-card dual-standby terminal is fully utilized, and the speed requirements of users on different services are met.
Description
Technical Field
The present disclosure relates to the field of communications technologies, and in particular, to a method for implementing a dual-card data service and a dual-card dual-standby terminal.
Background
Currently, no matter the 4G (the 4th Generation mobile communication technology, fourth Generation mobile communication technology) dual-card mobile phone, or the 5G (the 5th Generation mobile communication technology ) dual-card mobile phone already on the market, although two cards can be in standby state in the 5G network, only one card can use data service at the same time, and the other card can only use voice, short message and multimedia message services. However, some services, such as online games, online video services, etc., all have ultra-high speed requirements, and at the same time, only one card can be used for uploading and downloading data, which makes it difficult to meet the speed requirements of users for different services.
Disclosure of Invention
The present disclosure has been made to at least partially solve the technical problems occurring in the prior art.
According to an aspect of the embodiments of the present disclosure, a method for implementing a dual-card data service is provided, where the method is applied to a dual-card dual-standby terminal, and the method includes:
detecting whether the terminal enables an application which needs to use a data service at present;
if the number of the applications is enabled, judging whether the number of the applications is more than 1;
and if the number of the application data is more than 1, dividing the data volume of each application into two groups, and connecting the data by using two cards of the terminal according to the division result.
According to another aspect of the embodiments of the present disclosure, there is provided a dual card dual standby terminal, including:
the detection module is used for detecting whether the terminal enables the application which needs to use the data service currently;
the first judging module is used for judging whether the number of the applications is more than 1 when the detecting module detects that the terminal has started the applications needing to use the data service currently;
the dividing module is used for dividing the data volume of each application into two groups when the first judging module judges that the number of the applications is more than 1; and the number of the first and second groups,
and the data connection module is used for performing data connection by using the two cards of the terminal according to the division result of the division module.
The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:
according to the method for realizing the dual-card data service, when the terminal has started more than one application needing the data service at present, a data volume balancing mechanism is started, the data volume of each application is divided into two groups and then the two cards of the terminal are used for data connection, so that the data uploading and downloading of multiple applications are simultaneously carried out by using the two cards, the capacity of the dual-card dual-standby terminal is fully utilized, and the speed requirements of users on different services are met.
Additional features and advantages of the disclosure will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the disclosure. The objectives and other advantages of the disclosure may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
Drawings
The accompanying drawings are included to provide a further understanding of the disclosed embodiments and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the example serve to explain the principles of the disclosure and not to limit the disclosure.
Fig. 1 is a schematic flowchart of a method for implementing a dual-card data service according to an embodiment of the present disclosure;
fig. 2 is a block diagram of a structure of a dual-card dual-standby terminal according to an embodiment of the present disclosure;
fig. 3 is an architecture diagram of a dual-card dual-standby terminal according to an embodiment of the present disclosure.
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the following detailed description of the embodiments of the present disclosure is provided with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.
It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order; also, the embodiments and features of the embodiments in the present disclosure may be arbitrarily combined with each other without conflict.
Fig. 1 is a schematic flow chart of a method for implementing a dual-card data service according to an embodiment of the present disclosure. As shown in fig. 1, the method is applied to a dual-card dual-standby terminal, and includes the following steps S101 to S103.
S101, detecting whether the terminal currently starts an application needing to use the data service, and if the terminal is started, executing a step S102; if not, continuing to detect;
s102, judging whether the number of the applications is more than 1, and if so, executing the step S103;
and S103, starting a data quantity balancing mechanism, equally dividing the data quantity of each application into two groups, and connecting data by using two cards of the terminal according to a division result, namely using the two cards to transmit data services.
In the embodiment, under the condition that the terminal has started more than one application needing data service, a data volume balancing mechanism is started, the data volume of each application is divided into two groups and then the two cards of the terminal are used for data connection, so that the data uploading and downloading of multiple applications are simultaneously carried out by using the two cards, the capacity of the dual-card dual-standby terminal is fully utilized, and the speed requirements of users on different services are met.
In a specific embodiment, in step S103, the data size of each application is divided into two groups, specifically:
and dividing the data volume of each application into two groups in real time according to the data volume change condition of each application.
The data volume balancing mechanism adopted in this embodiment is a dynamic mechanism, and can follow up the change of the data volume of each application in real time, and distribute the real-time data volume of each application between two cards of the terminal.
When it is determined in step S102 that the number of applications is only 1,
as an optional implementation manner, the following step S104 is further included:
and S104, if the data service provided by a single card can meet the application, using the data service default card of the terminal to perform data connection, namely using the data service default card to perform data service transmission.
The data service default card can also be called as a default mobile data card, and can be selected automatically by the system or selected by the user.
As another optional implementation, the following step S105 is further included:
and S105, if the data service provided by a single card cannot meet the application, dividing the data volume of the application into two groups, and using the two cards of the terminal for data connection, namely using the two cards for data service transmission.
In this embodiment, for the case that the terminal currently only enables one application that needs to use the data service, it may be selected to use a single card to provide the data service or to use two cards to provide the data service according to the requirement of the application on the network rate. Specifically, if a single card can provide better data service for the application, a data service default card of the terminal is used for data connection; and if a single card cannot provide better data service for the application, dividing the data volume of the application into two groups, and using two cards of the terminal for data connection.
In a specific embodiment, after detecting that the terminal has currently enabled the application that needs to use the data service in step S101, the following steps S106 and S107 are further included.
S106, judging whether the double-card acceleration function of the terminal is started or not, and if so, executing the step S102; if not, go to step S107;
and S107, performing data connection by using a data service default card of the terminal, namely performing data service transmission by using the data service default card.
The terminal is internally preset with a double-card acceleration function and provides related options for a user to select, if the user needs to start a service for uploading or downloading data services simultaneously in a double-card mode, the double-card acceleration function is selected to be started on the terminal, and once the user starts the function on the terminal, the terminal can start the function of simultaneously surfing the internet by using double cards after detecting that the application needing to use the data services is started at present.
In the embodiment, a user can select whether to start the 'dual-card acceleration' function of the terminal according to the actual service requirement, if so, the dual-card data service concurrent service of the terminal is started, and the capability of the dual-card dual-standby terminal is fully exerted to meet the high-rate service requirement; and if the data service is not started, the data service default card is still used for data connection.
In a specific embodiment, both cards of the terminal can access a 5G network. In other words, the terminal is a dual-card dual-5G terminal.
When the dual-card dual-5G terminal is started, the dual-card dual-5G terminal can be normally standby in two 5G cells respectively. Because the speed of the 5G network can reach 20Gbit/s, which is obviously superior to that of the 4G network, the embodiment simultaneously uses two 5G cards to upload and download data, and basically can meet the speed requirement of enabling a plurality of services by a user at the same time.
The video front ends of the existing dual-card dual-5G terminals are all 1T4R, namely 4 antennas receive data and 1 antenna transmits data, or 2T4R, namely 4 antennas receive data and 2 antennas transmit data. Taking 2T4R as an example, 4 antennas need to be configured, two of which are main set antennas and can receive and transmit data, and the other two of which are diversity antennas and can only receive data. In order to realize that two cards of a dual-card dual-5G terminal can simultaneously receive and transmit data, the embodiment of the disclosure adds a whole set of antennas (i.e. adds 4 antennas, namely two main set antennas and two diversity antennas, or one main set antenna and three diversity antennas) on the basis of the existing terminal architecture to meet the requirement of simultaneously transmitting and receiving data.
According to the method for realizing the dual-card data service, after the fact that the terminal currently starts the application needing the data service is detected, when the 'dual-card acceleration' function of the terminal is started and the number of the application is more than one, a data quantity balancing mechanism is started, the data quantity of each application is divided into two groups, then the two cards of the terminal are used for data connection, the data uploading and downloading of multiple applications are achieved by using the two cards at the same time, the capacity of the dual-card dual-standby terminal is fully utilized, and the speed requirements of users on different services are met.
Fig. 2 is a block diagram of a structure of a dual-card dual-standby terminal according to an embodiment of the present disclosure. As shown in fig. 2, the terminal includes: the device comprises a detection module 21, a first judgment module 22, a dividing module 23 and a data connection module 24.
The detection module 21 is configured to detect whether the terminal currently enables an application that needs to use a data service; the first determining module 22 is configured to determine whether the number of the applications is greater than 1 when the detecting module 21 detects that the terminal has currently enabled the applications that need to use the data service; the dividing module 23 is configured to, when the first determining module 22 determines that the number of the applications is greater than 1, start a data amount balancing mechanism, and equally divide the data amount of each application into two groups; the data connection module 24 is configured to use two cards of the terminal for data connection according to the division result of the division module 23, i.e. to use two cards for data service transmission.
In the embodiment, under the condition that the terminal has started more than one application needing data service, a data volume balancing mechanism is started, the data volume of each application is divided into two groups and then the two cards of the terminal are used for data connection, so that the two cards are used for uploading and downloading data at the same time, the capability of the dual-card dual-standby terminal is fully utilized, and the speed requirements of users on different services are met.
In a specific embodiment, the dividing module 23 is specifically configured to divide the data amount of each application into two groups in real time according to a variation of the data amount of each application.
The data volume balancing mechanism adopted in this embodiment is a dynamic mechanism, and can follow up the change of the data volume of each application in real time, and distribute the real-time data volume of each application between two cards of the terminal.
In a specific embodiment, the data connection module 24 is further configured to, when the first determining module 22 determines that the number of the applications is only 1, use a data service default card of the terminal to perform data connection if the data service provided by a single card can meet the applications; or, if the data service provided by a single card cannot meet the application, dividing the data volume of the application into two groups, and using two cards of the terminal for data connection, namely using two cards for data service transmission.
In a specific embodiment, the terminal further includes: a second decision module 25.
The second judging module 25 is configured to judge whether the "dual card acceleration" function of the terminal is turned on.
Correspondingly, the first determining module 22 is specifically configured to, after the second determining module 25 determines that the "dual card acceleration" function of the terminal is started, perform an operation of determining whether the number of the applications is greater than 1; the data connection module 24 is further configured to perform data connection by using a data service default card of the terminal after the second determination module 25 determines that the "dual card acceleration" function of the terminal is not started.
The terminal is internally preset with a double-card acceleration function and provides related options for a user to select, if the user needs to start a service for uploading or downloading data services simultaneously in a double-card mode, the double-card acceleration function is selected to be started on the terminal, and once the user starts the function on the terminal, the terminal can start the function of simultaneously surfing the internet by using double cards after detecting that the application needing to use the data services is started at present.
In the embodiment, a user can select whether to start the 'dual-card acceleration' function of the terminal according to the actual service requirement, if so, the dual-card data service concurrent service of the terminal is started, and the capability of the dual-card dual-standby terminal is fully exerted to meet the high-rate service requirement; and if the terminal is not started, still using the data service default card of the terminal for data connection.
In a specific embodiment, both cards of the terminal can access the 5G network. In other words, the terminal is a dual-card dual-5G terminal.
When the dual-card dual-5G terminal is started, the dual-card dual-5G terminal can be normally standby in two 5G cells respectively. Because the speed of the 5G network can reach 20Gbit/s, which is obviously superior to that of the 4G network, the embodiment simultaneously uses two 5G cards to upload and download data, and basically can meet the speed requirement that a user simultaneously starts a plurality of services.
The video front ends of the existing dual-card dual-5G terminals are all 1T4R, namely 4 antennas receive data and 1 antenna transmits data, or 2T4R, namely 4 antennas receive data and 2 antennas transmit data. Taking 2T4R as an example, 4 antennas need to be configured, two of which are main set antennas and can receive and transmit data, and the other two of which are diversity antennas and can only receive data. In order to realize that two cards of a dual-card dual-5G terminal can simultaneously receive and transmit data, the embodiment of the disclosure adds a whole set of antennas (i.e. adds 4 antennas, namely two main set antennas and two diversity antennas, or one main set antenna and three diversity antennas) on the basis of the existing terminal architecture to meet the requirement of simultaneously transmitting and receiving data.
Taking 2T4R as an example, as shown in fig. 3, the terminal further includes two sets of antennas, each set of antennas includes two main set antennas and two diversity antennas, that is, four main set antennas (see front end 1, front end 2, front end 5, and front end 6 in fig. 3) and four diversity antennas (see front end 3, front end 4, front end 7, and front end 8 in fig. 3), where the main set antennas are used for transmitting and receiving data, and the diversity antennas are only used for receiving data. The Application Processor (AP) in fig. 3 is a very large scale integrated circuit that extends audio and video functions and dedicated interfaces on the basis of a low power consumption CPU to execute multimedia function applications; the baseband processor (Modem) is responsible for terminal data processing and storage, the main components are units such as a Digital Signal Processor (DSP), a Microcontroller (MCU), a memory (SRAM, Flash) and the like, and the main functions are baseband coding/decoding, voice coding and the like.
According to the dual-card dual-standby terminal provided by the embodiment of the disclosure, after the application requiring data service is detected to be started at present, when the 'dual-card acceleration' function of the terminal is started and the number of the applications is more than one, a data quantity balancing mechanism is started, and the data quantity of each application is divided into two groups and then two cards of the terminal are used for data connection, so that the data uploading and downloading of multiple applications by using the two cards are realized, the capability of the dual-card dual-standby terminal is fully utilized, and the speed requirements of users on different services are met.
It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by several physical components in cooperation. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.
Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present disclosure, and not for limiting the same; while the present disclosure has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the scope of the embodiments of the present disclosure by the essence of the corresponding technical solutions.
Claims (10)
1. A method for realizing dual-card data service is applied to a dual-card dual-standby terminal, and is characterized in that the method comprises the following steps:
detecting whether the terminal enables an application which needs to use a data service at present;
if the number of the applications is enabled, judging whether the number of the applications is more than 1;
and if the number of the application data is more than 1, dividing the data volume of each application into two groups, and connecting the data by using two cards of the terminal according to the division result.
2. The method according to claim 1, characterized in that the data volume of each of said applications is divided into two groups, in particular:
and dividing the data volume of each application into two groups in real time according to the data volume change condition of each application.
3. The method of claim 1, further comprising:
if the number of the applications is only 1, using a data service default card of the terminal to perform data connection; or dividing the applied data volume into two groups equally, and performing data connection by using two cards of the terminal.
4. The method of claim 1, further comprising:
judging whether a double-card acceleration function of the terminal is started or not;
if the number of the applications is larger than 1, executing a step of judging whether the number of the applications is larger than 1;
and if not, using the data service default card of the terminal to perform data connection.
5. Method according to any of claims 1-4, characterized in that both cards of the terminal have access to a 5G network.
6. A dual card dual standby terminal, comprising:
the detection module is used for detecting whether the terminal enables the application which needs to use the data service currently;
the first judging module is used for judging whether the number of the applications is more than 1 when the detecting module detects that the terminal has started the applications needing to use the data service currently;
the dividing module is used for dividing the data volume of each application into two groups when the first judging module judges that the number of the applications is more than 1; and the number of the first and second groups,
and the data connection module is used for performing data connection by using the two cards of the terminal according to the division result of the division module.
7. The dual-card dual-standby terminal according to claim 6, wherein the dividing module is specifically configured to divide the data volume of each application into two groups in real time according to the data volume variation of each application.
8. The dual-card dual-standby terminal according to claim 6, wherein the data connection module is further configured to use a data service default card of the terminal for data connection when the first determining module determines that the number of the applications is only 1; or dividing the applied data volume into two groups equally, and performing data connection by using two cards of the terminal.
9. The dual-card dual-standby terminal according to claim 6, further comprising:
the second judgment module is used for judging whether the 'double-card acceleration' function of the terminal is started or not;
the first determining module is specifically configured to, after the second determining module determines that the "dual card acceleration" function of the terminal is started, perform an operation of determining whether the number of applications is greater than 1;
the data connection module is further configured to perform data connection using the data service default card of the terminal after the second determination module determines that the "dual card acceleration" function of the terminal is not started.
10. The dual-card dual-standby terminal according to any one of claims 6 to 9, wherein both cards of the terminal can access a 5G network;
the terminal also comprises two sets of antennas, wherein each set of antenna comprises two main set antennas and two diversity antennas, or one main set antenna and three diversity antennas, wherein the main set antennas are used for transmitting and receiving data, and the diversity antennas are only used for receiving data.
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