CN113660653A - Transmission method, transmission device and electronic equipment - Google Patents

Abstract

The application discloses a transmission method, a transmission device and electronic equipment, wherein the corresponding electronic equipment is at least provided with a first identification card and a second identification card based on a dual-card dual-pass DSDA (digital signal acquisition), and monitors service data of the first identification card and the second identification card; responding to the transmission of first service data in a first identification card, and switching second service data transmitted by the first identification card to be transmitted by a second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time.

Description

Transmission method, transmission device and electronic equipment

Technical Field

The present application relates to the field of communications technologies, and in particular, to a transmission method, an apparatus, and an electronic device.

Background

Along with the popularization of intelligent terminals, functions realized by mobile terminals are more and more. Most mobile terminals support a Dual Sim Dual Standby (DSDS) or Dual Sim Dual Active (DSDA) mode, but in the DSDS mode, voice communication or data transmission can only be performed through one Sim card, and in the DSDA mode, if data transmission switching between different SIMs is implemented, cumbersome operations are also required, which reduces processing efficiency and user experience.

Disclosure of Invention

In view of this, the present application provides the following technical solutions:

a transmission method is applied to electronic equipment, the electronic equipment is at least configured with a first identification card and a second identification card based on a dual-card dual-pass DSDA, and the method comprises the following steps:

monitoring the service data of the first identification card and the second identification card;

responding to the first service data transmitted by the first identification card, switching the second service data transmitted by the first identification card to be transmitted by the second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time.

Optionally, the switching the second service data transmitted by the first identity card to be transmitted by the second identity card includes:

and switching the second service data transmitted by the first identification card to the second identification card for transmission, so that the second identification card transmits the second service data while the first identification card transmits the first service data.

Optionally, the method further comprises:

and switching the second service data to be transmitted by the first identification card in response to the completion of the transmission of the first service data at the first identification card.

Optionally, the switching, in response to the transmission of the first service data by the first identification card, the second service data transmitted by the first identification card to be transmitted by the second identification card includes:

responding to the first service data transmitted by the first identification card, and detecting whether a switching condition is met;

if yes, switching the second service data transmitted by the first identification card to be transmitted by the second identification card.

Optionally, the detecting whether the handover condition is satisfied includes:

acquiring second service data to be transmitted when the first identification card transmits first service data;

generating prompt information based on the second service data;

and detecting whether the received feedback information matched with the prompt information meets a switching condition.

Optionally, the detecting whether the handover condition is satisfied includes:

acquiring second service data to be transmitted when the first identification card transmits first service data;

acquiring an application type corresponding to the second service data;

detecting whether the application type meets a switching condition.

Optionally, the detecting whether the handover condition is satisfied includes:

acquiring second service data to be transmitted when the first identification card transmits first service data;

determining the transmission rate of the second identification card for transmitting the service data matched with the second service data;

detecting whether the transmission rate meets a switching condition.

Optionally, the method further comprises:

responding to the transmission of second service data on the first identification card, and if the transmission parameter of the second service data is smaller than a parameter threshold value, switching the second service data to be transmitted by the second identification card.

A transmission device is applied to electronic equipment, the electronic equipment is at least provided with a first identification card and a second identification card based on a dual-card dual-pass DSDA, the device comprises:

the monitoring unit is used for monitoring the service data of the first identification card and the second identification card;

and the switching unit is used for responding to the transmission of first service data by the first identification card and switching second service data transmitted by the first identification card to be transmitted by the second identification card, wherein the first service data and the second service data are mutually influenced when the first service data and the second service data are transmitted by the same identification card at the same time.

An electronic equipment, electronic equipment is based on two calories of bi-pass DSDA and is configured with first identification card and second identification card at least, electronic equipment includes:

the radio frequency circuit at least comprises a modem, a first radio frequency front end module and a second radio frequency front end module;

the transceiver is used for acquiring first service data and second service data of the first identification card;

the modem modulates the first service data and transmits the first service data to a first radio frequency front end module, modulates the second service data and transmits the second service data to a second radio frequency front end module, so that the first radio frequency front end module transmits the first service data to an antenna corresponding to the first identification card for transmission, and meanwhile, the second radio frequency front end module transmits the second service data to an antenna corresponding to the second identification card for transmission.

According to the technical scheme, the transmission method, the transmission device and the electronic equipment disclosed by the application, the corresponding electronic equipment is at least provided with the first identification card and the second identification card based on the double-card double-pass DSDA, and the service data of the first identification card and the second identification card are monitored; responding to the transmission of first service data in a first identification card, and switching second service data transmitted by the first identification card to be transmitted by a second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time. Therefore, in the application, the electronic device can automatically switch the second service data borne by the first identification card to the second identification card when the first identification card transmits the first service data, so that the problem of mutual interference of the first service data and the second service data transmitted by the first identification card at the same time is avoided, the automatic switching of the service data on different identification cards is facilitated, and the processing efficiency and the user experience effect are improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on the provided drawings without creative efforts.

Fig. 1 is a schematic flowchart of a transmission method according to an embodiment of the present application;

fig. 2 is a schematic flow chart of another transmission method according to an embodiment of the present application;

fig. 3 is a schematic flowchart of a transmission method based on different handover conditions according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a transmission device according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of a terminal according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides a transmission method, which is applied to electronic equipment, and correspondingly, the electronic equipment is at least configured with a first identification card and a second identification card based on a dual-card dual-pass DSDA. The Dual SIM Dual Active (DSDA) indicates that the electronic device can not only reside in the network to which the multiple identity cards belong, but also communicate in the network to which the multiple identity cards belong. The identification card may be a Subscriber Identity Module (SIM) card in the electronic device, for example, the first identification card is a first SIM card, the second identification card is a second SIM card, or one of the two SIM cards of the electronic device is determined to be a main card, the other is an auxiliary card, the main card performs service data transmission in a default state, and the auxiliary card performs service data transmission after responding to the switching instruction. Specifically, the electronic device may be a mobile phone, a tablet, or other device capable of setting two or more SIM cards.

Referring to fig. 1, a flow chart of a transmission method provided in an embodiment of the present application is shown, where the transmission method may include the following steps:

s101, monitoring the service data of the first identification card and the second identification card.

The first identification card and the second identification card may be identification cards with the same processing parameters or identification cards with different processing parameters, in this embodiment of the present application, the first identification card is a first SIM card, and the second identification card is a second SIM card. The data transmission corresponding to the data transmission service and the call service can be realized. The data transmission service mainly refers to a service transmitted based on a network such as the internet, such as a video browsing service, a route navigation service, an information browsing service, and the like. The call service mainly includes call services completed based on a call link, such as voice call, video call, and the like.

Generally, a user object corresponding to the electronic device may default to implement corresponding service data transmission through an identification card, for example, the first SIM card is set as a master card, the transmission of internet data is performed through the card, and other cards corresponding to the electronic device perform telephone communication. And the corresponding second SIM card is used as an auxiliary card, and when the electronic equipment is manually switched, the auxiliary card can realize the transmission of certain service data. However, in the embodiment of the present application, the service data of the first identification card and the second identification card are monitored to perform switching and control of subsequent service data transmission. The method mainly monitors the response time of the service data, the transmission parameters (such as transmission rate) of the service data, the mutual influence degree of simultaneous response of the service data and the like.

S102, responding to the first service data transmitted by the first identification card, and switching the second service data transmitted by the first identification card to be transmitted by the second identification card.

The first service data and the second service data have different service types, which mainly means that links for data transmission are different, for example, the first service data is call service data, the second service data is network data service, the call service data is realized through the call link, and the network service data is realized through the network link.

The first identification card bears the first service data and the second service data in a default state, but the first service data and the second service data can affect each other when being transmitted through the same identification card at the same time, for example, when a call request is initiated through the first identification card of the electronic device and a call is realized, video playing realized through the data service of the first identification card originally can be interrupted or a card pause phenomenon occurs. At this time, the service data carried by the first identification card needs to be adjusted to ensure that the service data received by the user is not affected. It should be noted that, in the embodiment of the present application, the switching of service data transmission is automatically implemented by the electronic device, and a user does not need to manually switch the identification card for service data transmission through a setting interface of the electronic device. In one embodiment, when the first identification card starts to transmit the first service data, the second service data originally transmitted by the first identification card is switched to be transmitted by the second identification card. For example, if a user has an incoming call of another user through the first identification card of the electronic device and connects the first identification card, the navigation service data of the first identification card is switched to the second identification card for transmission, so that the user can carry out a telephone call and also can obtain a navigation route, thereby avoiding navigation interruption caused by receiving the telephone call.

In the transmission method provided by the embodiment of the application, the corresponding electronic device is at least configured with a first identification card and a second identification card based on a dual-card dual-pass DSDA (digital signal acquisition), and monitors service data of the first identification card and the second identification card; responding to the transmission of first service data in a first identification card, and switching second service data transmitted by the first identification card to be transmitted by a second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time. Therefore, in the application, the electronic device can automatically switch the second service data borne by the first identification card to the second identification card when the first identification card transmits the first service data, so that the problem of mutual interference of the first service data and the second service data transmitted by the first identification card at the same time is avoided, the automatic switching of the service data on different identification cards is facilitated, and the processing efficiency and the user experience effect are improved.

In a possible implementation manner of the embodiment of the present application, when the first identification card transmits the first service data and the second identification card switches the second service data transmitted by the first identification card to the second identification card for transmission, the first identification card transmits the first service data and the second identification card transmits the second service data. The first identification card and the second identification card are in working states at the same time after the second service data transmitted by the first identification card are switched, the transmission of the first service data and the transmission of the second service data are respectively realized, the mutual influence of the first service data and the second service data in the transmission process of the same identification card is avoided, meanwhile, the manual switching of a user is not needed, the timeliness of the transmission of different service data is ensured, and the missing transmission of key service data is avoided.

Correspondingly, in another possible implementation manner, in response to that first service data is transmitted by a first identification card, switching second service data transmitted by the first identification card to be transmitted by a second identification card, including: and responding to the transmission of the first service data by the first identification card, and switching the second service data of the second service data transmitted by the first identification card to be transmitted by the second identification card after a preset time interval. In this embodiment, in order to reduce the resource waste of switching the identification cards, if the time for the first identification card to transmit the first service data is extreme, such as less than a preset time interval (e.g., the preset time interval is 1 second), the second service data transmitted by the first identification card may not be switched, but if the time is greater than the preset time interval, the second service data is switched to be transmitted by the second identification card. For example, if a user of the electronic device receives an incoming call of another user through the first identification card, and the user selects to interrupt the incoming call, i.e., hangs up the call, so that the transmission time of the call service through the first identification card is less than the preset time interval, the transmission of the original second service data of the first identification card is not performed at this time. In a similar way, if the user answers the incoming call, the second service data is switched to be transmitted by the second identification card.

When the first identification card transmits the first service data, the second service data corresponding to the first identification card is switched to be transmitted by the second identification card, so that the first service data and the second service data are transmitted simultaneously, and the experience effect of a user is ensured. Further, in response to the first service data being transmitted by the first identification card, the second service data is switched to be transmitted by the first identification card. The second identification card switches the transmission of the second service data to the original first identification card for transmission, and the transmission of the service data is ensured to meet the actual use requirements of users.

In an implementation manner of the embodiment of the present application, when the first identification card transmits the first service data, in a process of switching the second service data transmitted by the first identification card to the second identification card for transmission, it is further required to determine whether to switch the second service data to the second identification card according to a corresponding specific scenario. Correspondingly, referring to fig. 2, a schematic flow chart of another transmission method provided in the embodiment of the present application is shown, where the transmission method may include the following steps:

s201, monitoring service data of the first identification card and the second identification card;

s202, responding to the first service data transmitted by the first identification card, detecting whether a switching condition is met, if so, executing S203, and if not, executing S204;

s203, switching the second service data transmitted by the first identification card to be transmitted by the second identification card;

and S204, controlling the first identification card to transmit second service data.

In this embodiment, whether the switching condition is met is determined by detecting information such as the current scene, the state of the first identification card, the state of the second identification card, and the like, that is, the switching condition may be set according to actual application requirements, for example, the switching condition may be a condition of whether the type of the second service data is a corresponding type, the switching condition may also be a condition of whether feedback information of a user corresponds to target information, and the switching condition may also be a condition of whether a transmission parameter of the identification card is within a specific parameter threshold range, so that the second service data transmitted by the first identification card can be switched to the second identification card for transmission as long as the switching condition is met, and the switching accuracy is ensured. Further, if the switching condition is not satisfied, the first identification card transmits the second service data, but the transmission of the second service data may be affected by the transmission of the first service data, and only this influence may not directly affect the experience effect of the user.

The following describes a transmission method according to an embodiment of the present application with different handover conditions. Referring to fig. 3, a schematic flow chart of a transmission method based on different handover conditions according to an embodiment of the present application is shown. The method may comprise the steps of:

s301, monitoring the service data of the first identification card and the second identification card.

S302, responding to the transmission of the first service data in the first identification card, and acquiring second service data to be transmitted when the first identification card transmits the first service data.

And S303, generating prompt information based on the second service data.

S304, whether the received feedback information matched with the prompt information meets the switching condition is detected, and if yes, S309 is executed.

S305, obtaining the application type corresponding to the second service data.

S306, detecting whether the application type meets the switching condition, and if so, executing S309.

S307, determining the transmission rate of the second identification card for transmitting the service data matched with the second service data.

S308, whether the transmission rate meets the switching condition is detected, and if so, S309 is executed.

S309, switching the second service data transmitted by the first identification card to be transmitted by the second identification card.

In this embodiment, when determining whether to switch the second service data transmitted by the first identifier card to be transmitted by the second identifier card, whether to switch the identifier card for the second service data is determined according to the feedback information of the user, the application type of the second service data, and the switching condition corresponding to the transmission rate of the second identifier card.

In an embodiment, when it is monitored that the first identification card needs to transmit the first service data and the second service data is to be transmitted, corresponding prompt information is generated, where the prompt information may include a type of the second service data and prompt information about whether to switch the second service data, and if so, the data traffic is switched to the second identification card, and if so, the second service data is transmitted through the data traffic of the second identification card. And if the feedback information of the user is not switched, the first identification card continues to transmit the second service data. It should be noted that, in the embodiment of the present application, the type of the prompt message is not limited, and the prompt message may default to a text format displayed through an interactive interface of the electronic device, or may determine a transmission type of the prompt message according to a type corresponding to the first service data, where the prompt message may be a voice prompt message if the first service data is a call service. Correspondingly, the receiving of the feedback information of the user can be receiving of corresponding input information through a display interface, or receiving of corresponding feedback voice through an audio acquisition device.

In another embodiment, whether to switch the identification card for transmitting the second service data is determined based on the application type corresponding to the second service data. The application type corresponding to the second service data may refer to whether the service data is affected by real-time transmission, and thus, may be classified into a real-time type and a non-real-time type, where the service data corresponding to the real-time type may include service data generated corresponding to a route guidance application, game data generated corresponding to an online game, and the like. The service data corresponding to the non-real-time type may include service data generated by a video application, service data generated by an audio application, and the like. The application types corresponding to the service data are classified into a real-time type and a non-real-time type because the experience effect of the user may be affected if the real-time type service data is interrupted or is affected by other data in the transmission process. The non-real-time type service data does not greatly affect the experience effect of the user when the user receives other service data. For example, the first service data is call data, the first identification card is a primary SIM card, the second identification card is a secondary SIM card, when a user makes a call through the main SIM card, the original service data transmitted through the main SIM card can be influenced by the telephone call, if the service data is the service data corresponding to the navigation application, if the user makes a call, the navigation data is interrupted, the user may enter an incorrect driving route to influence the normal driving of the user, therefore, the navigation service data is a real-time type service data, if the second service data is monitored to be of the type, the second service data is switched to be transmitted by the second identification card, corresponding to the application scene, when the user makes and receives calls through the main SIM card, the navigation service data is switched to the auxiliary SIM card for transmission, so that the output of the navigation data is not interrupted, and the normal running of the user is ensured. For another example, when the user watches a video through the traffic data generated by the first identification card of the electronic device, when the user receives a call received through the first identification card, the video watching is interrupted if the user answers the call, but the user may not continue to watch the video while answering the call because the user is the same user, so that the terminal of the video does not affect the experience effect of the user, the service data corresponding to the video is determined to be the non-real-time service data, and under the condition, the video service data is not switched to the second identification card for transmission, so as to save the switching resource.

In another embodiment, whether to switch the second service data transmitted by the first identification card to the second identification card is determined based on the transmission rate of the second identification card. The method comprises the steps of firstly determining the transmission rate of the second identification card for transmitting the service data matched with the second service data, and switching the second service data transmitted by the first identification card to the second identification card if the transmission rate meets the switching condition, namely the transmission rate can ensure the smoothness of the transmission of the second service data. In this embodiment, the first identification card and the second identification card have different transmission rates for different service data, for example, the first identification card in the electronic device is a 4G (fourth generation communication technology) SIM card, and the second identification card is a 2G (second generation communication technology) SIM card, and as a result, the transmission rate of the first identification card is greater than that of the second identification card, even when the first identification card receives and transmits the first service data while transmitting the second service data, and after the second service data is switched to the second identification card, because the transmission rate of the second identification card is limited, the transmission effect of the second service data generated by the second identification card cannot meet the experience effect of the user, and corresponding to this scenario, the switching of the transmission of the second service data may not be performed. Further, if the transmission rate of the second identification card can satisfy the transmission of the second service data and the transmission efficiency is greater than or equal to or not lower than the target percentage of the transmission rate of the first identification card, the second service data can be switched to be transmitted by the second identification card, so that the first service data and the second service data can be simultaneously transmitted without mutual interference.

Further, it may also be detected whether the second identification card has a capability of transmitting the second service data, and if the second service data to be transmitted is a high definition video stream and the second identification card does not support the transmission link, even if the first identification card needs to transmit the first service data, the second service data is not switched to be transmitted by the second identification card, so as to avoid waste of switching resources.

Further, the transmission method provided in the embodiment of the present application further includes:

and responding to the transmission of the second service data on the first identification card, and if the transmission parameter of the second service data is smaller than the parameter threshold value, switching the second service data to be transmitted by the second identification card.

In this embodiment, the service data transmitted by the first identification card is monitored in real time, and even if the first identification card does not transmit the first service data, only the second service data is transmitted, and if the state of the second service data transmission does not meet the actual application requirement, the second service data is switched to be transmitted by the second identification card. The state of the second service data transmission is determined according to the transmission parameters of the second service data transmission performed by the first identification card, wherein the transmission parameters include a transmission rate, a network link state parameter, a data response parameter, and the like. Taking the transmission rate as an example, if it is detected that the transmission rate of the first identification card to the second service data is reduced, which results in unsmooth or unclear transmission picture, the second service data may be switched to the second identification card for transmission, so as to ensure high-quality transmission of the service data.

Referring to fig. 4, in the embodiment of the present application, a transmission apparatus is further provided, where the apparatus is applied to an electronic device, and the electronic device is configured with at least a first identification card and a second identification card based on a dual-card dual-pass DSDA.

Specifically, the apparatus in this embodiment may include the following units:

a monitoring unit 401, configured to monitor service data of the first identification card and the second identification card;

a switching unit 402, configured to switch, in response to that a first service data is transmitted by the first identity card, a second service data transmitted by the first identity card to be transmitted by the second identity card, where the first service data and the second service data affect each other when the same identity card transmits at the same time.

In the transmission device provided by the embodiment of the application, the corresponding electronic equipment is at least provided with a first identification card and a second identification card based on a dual-card dual-pass DSDA (digital signal processor), and a monitoring unit monitors service data of the first identification card and the second identification card; the switching unit responds to the first service data transmitted by the first identification card, and switches the second service data transmitted by the first identification card to be transmitted by the second identification card, wherein the first service data and the second service data affect each other when being transmitted by the same identification card at the same time. Therefore, in the application, the electronic device can automatically switch the second service data borne by the first identification card to the second identification card when the first identification card transmits the first service data, so that the problem of mutual interference of the first service data and the second service data transmitted by the first identification card at the same time is avoided, the automatic switching of the service data on different identification cards is facilitated, and the processing efficiency and the user experience effect are improved.

In an embodiment, the switching unit 402 is specifically configured to:

and switching the second service data transmitted by the first identification card to the second identification card for transmission, so that the second identification card transmits the second service data while the first identification card transmits the first service data.

In one embodiment, the transmission device further comprises:

and the back switching unit is used for switching the second service data to be transmitted by the first identification card in response to the first service data being transmitted by the first identification card.

In one embodiment, the switching unit 402 includes:

the first detection subunit is used for responding to the first service data transmitted by the first identification card and detecting whether a switching condition is met;

and the switching subunit is used for switching the second service data transmitted by the first identification card to the second identification card for transmission if the second service data is transmitted by the first identification card.

In one embodiment, the first detecting subunit is specifically configured to:

acquiring second service data to be transmitted when the first identification card transmits first service data;

generating prompt information based on the second service data;

and detecting whether the received feedback information matched with the prompt information meets a switching condition.

In another embodiment, the first detecting subunit is specifically configured to: acquiring second service data to be transmitted when the first identification card transmits first service data;

acquiring an application type corresponding to the second service data;

detecting whether the application type meets a switching condition.

In another embodiment, the first detecting subunit is specifically configured to:

acquiring second service data to be transmitted when the first identification card transmits first service data;

determining the transmission rate of the second identification card for transmitting the service data matched with the second service data;

detecting whether the transmission rate meets a switching condition.

Further, the switching unit is further configured to:

responding to the transmission of second service data on the first identification card, and if the transmission parameter of the second service data is smaller than a parameter threshold value, switching the second service data to be transmitted by the second identification card.

It should be noted that, for the specific implementation of each unit in the present embodiment, reference may be made to the corresponding content in the foregoing, and details are not described here.

Referring to fig. 5, a schematic structural diagram of an electronic device provided in an embodiment of the present application is shown, where the electronic device is configured with at least a first identification card and a second identification card based on a dual-card dual-pass DSDA, and the technical scheme in this embodiment is mainly used to avoid a problem of mutual interference when the first identification card transmits first service data and second service data at the same time, so as to facilitate automatic switching of service data between different identification cards, and improve processing efficiency and user experience.

Specifically, the electronic device in this embodiment may include the following structure:

the transceiver 501, the antenna 503, and the rf circuit 502 disposed between the transceiver 501 and the antenna 503, the rf circuit 502 including at least a modem 5021, a first rf front end module 5022, and a second rf front end module 5023.

The transceiver 501 is configured to obtain first service data and second service data of a first identification card;

the modem 5021 modulates the first service data and transmits the modulated first service data to the first rf front-end module 5022, modulates the second service data and transmits the modulated second service data to the second rf front-end module 5023, so that the first rf front-end module 5021 transmits the first service data to the antenna 503 corresponding to the first tag card and transmits the second service data to the antenna 503 corresponding to the second tag card.

Specifically, the first service data may be a call service, and the second service data may be a data service.

In the electronic device provided in the embodiment of the present application, the modem serves as a service scheduling center, and at least two sets of mutually independent radio frequency front-end resources respectively provide the first service data and the second service data, so that the first service data and the second service data do not have the problems of mutual interference and blocking of services of the other party.

Further, the electronic device further includes:

and the monitoring module is used for monitoring the transmission state information of the first identification card and the second identification card of the electronic equipment, so that the modem modulates the second service data based on the transmission state information.

In one embodiment, the switching the second service data transmitted by the first identity card to be transmitted by the second identity card includes:

and switching the second service data transmitted by the first identification card to the second identification card for transmission, so that the second identification card transmits the second service data while the first identification card transmits the first service data.

In one embodiment, the modem is further configured to:

and responding to the first service data transmitted by the first identification card, switching and modulating the second service data and transmitting the second service data to the first radio frequency front end module so that the first radio frequency front end module transmits the second service data to the antenna corresponding to the first identification card.

In one embodiment, the monitoring module comprises:

the first detection subunit is used for responding to the first service data transmitted by the first identification card and detecting whether a switching condition is met;

and the information generating subunit is configured to generate first information, if so, the first information is used to prompt the modem to switch the second service data transmitted by the first identification card to be transmitted by the second identification card.

In one embodiment, the first detecting subunit is specifically configured to:

acquiring second service data to be transmitted when the first identification card transmits first service data;

generating prompt information based on the second service data;

and detecting whether the received feedback information matched with the prompt information meets a switching condition.

In another embodiment, the first detecting subunit is specifically configured to:

acquiring second service data to be transmitted when the first identification card transmits first service data;

acquiring an application type corresponding to the second service data;

detecting whether the application type meets a switching condition.

In another embodiment, the first detecting subunit is specifically configured to:

acquiring second service data to be transmitted when the first identification card transmits first service data;

determining the transmission rate of the second identification card for transmitting the service data matched with the second service data;

detecting whether the transmission rate meets a switching condition.

Optionally, the monitoring module is further configured to:

and responding to the transmission of second service data on the first identification card, and if the transmission parameter of the second service data is smaller than a parameter threshold value, generating second information, wherein the second information is used for prompting the modem to switch the second service data to be transmitted by the second identification card.

It should be noted that, for the specific implementation of each device in the present embodiment, reference may be made to the corresponding content in the foregoing, and details are not described here.

Referring to fig. 6, a schematic structural diagram of a terminal provided in this embodiment of the present application is shown, where the terminal is configured with at least a first identification card and a second identification card based on a dual-card dual-pass DSDA, and the technical scheme in this embodiment is mainly used to avoid a problem of mutual interference when the first identification card transmits first service data and second service data at the same time, so as to facilitate automatic switching of service data on different identification cards, and improve processing efficiency and user experience.

Specifically, the terminal in this embodiment may include the following structure:

a memory 601 for storing an application program and data generated by the application program;

a processor 602 configured to execute the application to implement:

monitoring the service data of the first identification card and the second identification card;

responding to the first service data transmitted by the first identification card, switching the second service data transmitted by the first identification card to be transmitted by the second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time.

The terminal provided by the embodiment of the application is at least provided with a first identification card and a second identification card based on a double-card double-pass DSDA (digital subscriber identity Module), and the service data of the first identification card and the second identification card are monitored; responding to the transmission of first service data in a first identification card, and switching second service data transmitted by the first identification card to be transmitted by a second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time. Therefore, in the application, the terminal can automatically switch the second service data borne by the first identification card to the second identification card when the first identification card transmits the first service data, so that the problem of mutual interference of the first service data and the second service data transmitted by the first identification card at the same time is avoided, the automatic switching of the service data on different identification cards is facilitated, and the processing efficiency and the user experience effect are improved.

It should be noted that, for the implementation of the processor in the present embodiment, reference may be made to the corresponding contents in the foregoing, and details are not described here.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A transmission method is applied to electronic equipment, the electronic equipment is at least configured with a first identification card and a second identification card based on a dual-card dual-pass DSDA, and the method comprises the following steps:

monitoring the service data of the first identification card and the second identification card;

responding to the first service data transmitted by the first identification card, switching the second service data transmitted by the first identification card to be transmitted by the second identification card, wherein the first service data and the second service data affect each other when the same identification card transmits at the same time.

2. The method of claim 1, wherein switching the second service data transmitted by the first identity card to be transmitted by the second identity card comprises:

and switching the second service data transmitted by the first identification card to the second identification card for transmission, so that the second identification card transmits the second service data while the first identification card transmits the first service data.

3. The method of claim 1, further comprising:

and switching the second service data to be transmitted by the first identification card in response to the completion of the transmission of the first service data at the first identification card.

4. The method of claim 1, wherein switching second service data transmitted by the first identity card to be transmitted by the second identity card in response to transmitting first service data at the first identity card comprises:

responding to the first service data transmitted by the first identification card, and detecting whether a switching condition is met;

if yes, switching the second service data transmitted by the first identification card to be transmitted by the second identification card.

5. The method of claim 4, the detecting whether a handover condition is satisfied, comprising:

acquiring second service data to be transmitted when the first identification card transmits first service data;

generating prompt information based on the second service data;

and detecting whether the received feedback information matched with the prompt information meets a switching condition.

6. The method of claim 4, the detecting whether a handover condition is satisfied, comprising:

acquiring second service data to be transmitted when the first identification card transmits first service data;

acquiring an application type corresponding to the second service data;

detecting whether the application type meets a switching condition.

7. The method of claim 4, the detecting whether a handover condition is satisfied, comprising:

acquiring second service data to be transmitted when the first identification card transmits first service data;

determining the transmission rate of the second identification card for transmitting the service data matched with the second service data;

detecting whether the transmission rate meets a switching condition.

8. The method of claim 1, further comprising:

responding to the transmission of second service data on the first identification card, and if the transmission parameter of the second service data is smaller than a parameter threshold value, switching the second service data to be transmitted by the second identification card.

9. A transmission device is applied to electronic equipment, the electronic equipment is at least provided with a first identification card and a second identification card based on a dual-card dual-pass DSDA, the device comprises:

the monitoring unit is used for monitoring the service data of the first identification card and the second identification card;

and the switching unit is used for responding to the transmission of first service data by the first identification card and switching second service data transmitted by the first identification card to be transmitted by the second identification card, wherein the first service data and the second service data are mutually influenced when the first service data and the second service data are transmitted by the same identification card at the same time.

10. An electronic equipment, electronic equipment is based on two calories of bi-pass DSDA and is configured with first identification card and second identification card at least, electronic equipment includes:

the radio frequency circuit at least comprises a modem, a first radio frequency front end module and a second radio frequency front end module;

the transceiver is used for acquiring first service data and second service data of the first identification card;

the modem modulates the first service data and transmits the first service data to a first radio frequency front end module, modulates the second service data and transmits the second service data to a second radio frequency front end module, so that the first radio frequency front end module transmits the first service data to an antenna corresponding to the first identification card for transmission, and meanwhile, the second radio frequency front end module transmits the second service data to an antenna corresponding to the second identification card for transmission.

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