CN112218386B - Application program service path establishing method and device for multi-card terminal, storage medium and terminal - Google Patents

Abstract

An application program service path establishing method and device, a storage medium and a terminal for a multi-card terminal are provided, wherein the method comprises the following steps: acquiring user characteristic information, wherein the user characteristic information is used for representing the current data use scene of the multi-card terminal; selecting a preferred subscriber identity module from the plurality of subscriber identity modules according to the subscriber feature information; determining the preferred APPID according to the preferred user identification card, wherein different APPIDs are associated with different user identification cards for the same application program; and establishing a service path based on the preferred APPID, and transmitting data by the application program through the service path. The scheme of the invention can appoint the user identification card for the specific application program to carry out data communication, and is beneficial to optimizing the operating performance of the multi-card terminal.

Description

Application program service path establishing method and device for multi-card terminal, storage medium and terminal

Technical Field

The invention relates to the technical field of communication, in particular to a method and a device for establishing an application program service path for a multi-card terminal, a storage medium and a terminal.

Background

In the current terminal operating system supporting multiple cards, most of the third-party applications initiate data services by using the current data card, i.e. a currently enabled (or activated) Subscriber Identity Module (SIM) card using data traffic of the current data card. If an application of the multi-card terminal wants to use data traffic of other SIM cards, the operating system needs to switch the data card to the corresponding SIM card. At this time, other applications of the terminal also use the new data card by default.

In the prior art, all application programs of the multi-card terminal can only use the data flow of the same SIM card, cannot meet the communication requirements of different application programs, and also has influence on the operating performance of the multi-card terminal and more influences on the user experience.

Disclosure of Invention

The technical problem solved by the invention is how to enable the multi-card terminal to select different SIM cards for different application programs for data transmission.

In order to solve the foregoing technical problem, an embodiment of the present invention provides a method for establishing an application service path for a multi-card terminal, where the multi-card terminal is associated with multiple subscriber identity cards, and the method includes: acquiring user characteristic information, wherein the user characteristic information is used for representing the current data use scene of the multi-card terminal; selecting a preferred subscriber identity module from the plurality of subscriber identity modules according to the subscriber characteristic information; determining a preferred APPID according to the preferred user identification card, wherein different user identification cards are associated with different APPIDs for the same application program; and establishing a service channel based on the preferred APPID, and carrying out data transmission by the application program through the service channel.

Optionally, the selecting a preferred subscriber identity card from the plurality of subscriber identity cards according to the subscriber feature information includes: determining an incidence relation between a plurality of user characteristic information and a plurality of user identification cards based on historical data statistics; and determining the user identification card associated with the user characteristic information as the preferred user identification card based on the association relationship.

Optionally, the historical data includes a usage record of the subscriber identity module card when the application program historically establishes a service path in different data usage scenarios.

Optionally, the action of acquiring the user feature information is triggered and executed when detecting that the application program is started, detecting that the application program is invoked to a foreground of the multi-card terminal, or receiving a data packet requested to be transmitted by the application program.

Optionally, the association relationship between the multiple subscriber identity cards and the multiple APPIDs corresponding to the application program is obtained from a preset configuration file.

Optionally, the action of acquiring the user characteristic information is triggered to be executed when the application program initiates a network request.

Optionally, the association relationship between the multiple subscriber identity cards and the multiple APPIDs corresponding to the application program is obtained from the application program through a preset interface.

Optionally, the user characteristic information is at least selected from: geographical location information and time information.

Optionally, the establishing a service path based on the preferred APPID includes: acquiring a TD parameter and a URSP rule corresponding to the preferred APPID; and establishing a PDU session based on the TD parameters and the URSP rules.

In order to solve the foregoing technical problem, an embodiment of the present invention further provides an application program service path establishing apparatus for a multi-card terminal, where the multi-card terminal is associated with a plurality of subscriber identity cards, and the apparatus includes: the system comprises an acquisition module, a processing module and a display module, wherein the acquisition module is used for acquiring user characteristic information, and the user characteristic information is used for representing the current data use scene of the multi-card terminal; the selection module is used for selecting a preferred user identification card from the plurality of user identification cards according to the user characteristic information; the determining module is used for determining the preferred APPID according to the preferred user identification card, wherein for the same application program, different user identification cards are associated with different APPIDs; and the communication module is used for establishing a service path based on the preferred APPID, and the application program carries out data transmission through the service path.

To solve the above technical problem, an embodiment of the present invention further provides a storage medium, on which a computer program is stored, and the computer program executes the steps of the above method when being executed by a processor.

In order to solve the above technical problem, an embodiment of the present invention further provides a terminal, including a memory and a processor, where the memory stores a computer program capable of running on the processor, and the processor executes the steps of the method when running the computer program.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a method for establishing an application program service path of a multi-card terminal, wherein the multi-card terminal is associated with a plurality of user identification cards, and the method comprises the following steps: acquiring user characteristic information, wherein the user characteristic information is used for representing the current data use scene of the multi-card terminal; selecting a preferred subscriber identity module from the plurality of subscriber identity modules according to the subscriber feature information; determining the preferred APPID according to the preferred user identification card, wherein different APPIDs are associated with different user identification cards for the same application program; and establishing a service path based on the preferred APPID, and transmitting data by the application program through the service path.

Compared with the technical scheme that all application programs of the existing multi-card terminal use the data flow of the same SIM card all the time to establish a service channel, the embodiment combines the APPID parameter to enable the data communication of the user identification card appointed for the specific application program to be possible, and is favorable for optimizing the operating performance of the multi-card terminal. Specifically, a preferred subscriber identity module card most suitable for a specific application program is selected according to the user characteristic information, and a service path is established for the application program based on an APPID (namely, the preferred APPID) associated with the preferred subscriber identity module card, so that the application program can transmit data of the preferred subscriber identity module card as a data card.

Further, the multi-card terminal can select different subscriber identity cards for different applications and access different network slices negotiated with the operator. Specifically, during the data transmission by the application program using the preferred subscriber identity card to establish the service path, the subscriber identity cards used by other application programs of the multi-card terminal to establish the service path are not limited to the preferred subscriber identity card. That is, all applications of the multi-card terminal may execute the present embodiment to perform data transmission based on the same or different subscriber identity cards. Thus, different applications can select the subscriber identity card which is most suitable for the applications as the data card for data transmission, instead of using the same data card for all applications as in the prior art.

Drawings

Fig. 1 is a flowchart of an application service path establishment method for a multi-card terminal according to an embodiment of the present invention;

FIG. 2 is a flowchart of one embodiment of step S102 of FIG. 1;

fig. 3 is a schematic structural diagram of an application program service path establishing apparatus for a multi-card terminal according to an embodiment of the present invention.

Detailed Description

As noted in the background, existing multi-card terminals do not support the personalized selection of data cards by applications. However, for a multi-card terminal, data traffic of different SIM cards usually differs, and the traffic demand of different applications also differs.

For example, the multi-card terminal associates two SIM cards, namely, SIM card 1 and SIM card 2, where the data traffic of SIM card 1 is large but the current data card of the multi-card terminal is SIM card 2. If the current application program 1 running in the foreground has a large demand for traffic, it is obviously inappropriate to use the SIM card 2 as a data card, which greatly increases the use cost of the user and affects the user experience. If the data card is switched to the SIM card 1, although the traffic usage requirement of the application 1 is satisfied, if the application 2 called to the foreground in the next usage process is actually more suitable for the traffic using the SIM card 2, the application 2 can only use the data traffic of the SIM card 1 following the application 1 based on the prior art.

In order to solve the foregoing technical problem, an embodiment of the present invention provides a method for establishing an application service path for a multi-card terminal, where the multi-card terminal is associated with multiple subscriber identity cards, and the method includes: acquiring user characteristic information, wherein the user characteristic information is used for representing the current data use scene of the multi-card terminal; selecting a preferred subscriber identity module from the plurality of subscriber identity modules according to the subscriber feature information; determining the preferred APPID according to the preferred user identification card, wherein different APPIDs are associated with different user identification cards for the same application program; and establishing a service path based on the preferred APPID, and transmitting data by the application program through the service path.

The embodiment combines the APPID parameter to enable the data communication of the user identification card appointed for the specific application program to be possible, and is beneficial to optimizing the operating performance of the multi-card terminal. Specifically, a preferred subscriber identity module card most suitable for a specific application program is selected according to the user characteristic information, and a service path is established for the application program based on an APPID (namely, the preferred APPID) associated with the preferred subscriber identity module card, so that the application program can transmit data of the preferred subscriber identity module card as a data card.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Fig. 1 is a flowchart of a method for establishing an application service path for a multi-card terminal according to an embodiment of the present invention.

The present embodiment may be executed by a multi-card terminal, for example, by an Operating System (OS) of the multi-card terminal.

Specifically, the multi-card terminal is associated with a plurality of subscriber identity cards, and at least one subscriber identity card of the plurality of subscriber identity cards and other subscriber identity cards belong to different operators. The user identification card is used for uniquely identifying a user, and corresponds to the user. And after the user identification card is inserted into the multi-card terminal, the user identification card is associated with the multi-card terminal, and an operating system of the multi-card terminal can call the user identification card. For example, the operating system may establish a service path for an application program using data traffic of the subscriber identity card, and the application program may perform data transmission based on the service path. At this time, the subscriber identity card may be regarded as a data card.

That is, the data card refers to a SIM card using its data traffic, and a service path of an application is established based on the data card. The traffic path may include a path for transmitting traffic data such as voice, video, etc. Furthermore, the call includes a voice call, a video call, etc., and those skilled in the art may also change more embodiments according to actual needs, which are not described herein. Further, the call refers to transmitting traffic data on a traffic channel.

More specifically, referring to fig. 1, the method for establishing an application service path for a multi-card terminal according to this embodiment may include the following steps:

step S101, obtaining user characteristic information, wherein the user characteristic information is used for representing the current data use scene of the multi-card terminal;

step S102, selecting a preferred user identification card from the plurality of user identification cards according to the user characteristic information;

step S103, determining the preferred APPID according to the preferred user identification card, wherein different APPIDs are associated with different user identification cards for the same application program;

and step S104, establishing a service channel based on the preferred APPID, and transmitting data by the application program through the service channel.

In one implementation, a data usage scenario of the application may be determined, and an association between the data usage scenario and a subscriber identity card may be established, where the association may be used to characterize the subscriber identity card that the application is prone to select in the data usage scenario.

In particular, the user characteristic information may be selected from at least: geographical location information and time information.

For example, a data usage scenario at the office during the day may be associated with SIM card 1, and a data usage scenario at home at night may be associated with SIM card 2.

Further, after step S101 is executed to obtain the user feature information representing the current data usage scenario, step S102 may be executed to determine the most suitable currently selected user identification card according to the aforementioned association relationship.

In one implementation, referring to fig. 2, the step S102 may include the following steps:

step S1021, determining the incidence relation between the plurality of user characteristic information and the plurality of user identification cards based on historical data statistics;

step S1022, based on the association relationship, determining the subscriber identity card associated with the user feature information as the preferred subscriber identity card.

Specifically, the historical data may include a subscriber identity card usage record of the application program when the application program historically establishes a traffic path under different data usage scenarios.

Further, the historical data may also include a user identification card usage record of other applications similar to the type of the application when the service path is established in different data usage scenarios historically.

The multi-card terminal may perform statistical analysis on historical usage records of a plurality of application programs that are the same as or similar to the application program, create an application scenario (i.e., a data usage scenario) of the application program in advance according to the statistical analysis on the historical data, and establish a correspondence between the application scenario and the user identification card. Assuming that the statistical result indicates that the user mostly activates the data network of the SIM card 2 in the office and mostly activates the data network of the SIM card 1 at home, accordingly, the application scenario at home may be associated with the SIM card 1 of the multi-card terminal, and the application scenario at office may be associated with the SIM card 2 of the multi-card terminal. When the application program is used, the multi-card terminal is started, an operating system of the multi-card terminal can determine a current data use scene based on position information and the like, and queries a pre-established association relation to determine the adaptive user identification card.

In one implementation, the step S101 may be actively performed by an operating system of the multi-card terminal.

For example, when it is detected that the application program is started, the operating system actively acquires the user feature information and executes a subsequent process, thereby establishing a service path for the application program.

For another example, when it is detected that the application is invoked to the foreground of the multi-card terminal, the operating system may actively acquire the user feature information and execute a subsequent process, thereby establishing a service path for the application. Wherein, the foreground is a concept corresponding to the background, and the service path can be disconnected when the application program is returned to the background of the multi-card terminal.

For another example, the operating system may execute the step S101 and subsequent processes when receiving a data packet requested to be transmitted by the application program, establish a service path for the application program, and transmit the data packet.

For another example, the operating system may execute the step S101 when the application program is initially installed in the multi-card terminal, so as to establish a service path for the application program as soon as possible, thereby reducing processing delay when a data packet needs to be transmitted actually.

In one embodiment, APPID is an abbreviation for Application Identification (Application Identification) used to identify an Application program. In this specific implementation, the APPID may be divided into number segments according to the operators, and the operating system of the multi-card terminal may identify corresponding operator information according to the number segments. For example, the association relationship between the divided number segments and the operators can be written into a configuration file of the operating system in advance for query. For a specific application, if a contract with an operator is required to use a network slice, the operator allocates APPIDs for the application and issues an allocation result in the form of a white paper.

Further, since the operator may be associated with a subscriber identity card, the profile may store an association relationship between the subscriber identity card and an APPID.

Further, in this embodiment, a plurality of APPIDs may be allocated to the same application, and the APPIDs are associated with different subscriber identity cards respectively.

In a specific implementation, the association relationship between the multiple subscriber identity cards and the multiple APPIDs corresponding to the application program may be obtained from a preset configuration file.

For example, in an application scenario at home, the application program may be associated with the SIM card 1, and the APPID1 associated with the application program is the APPID of the application program in the APPID number segment of the operator to which the SIM card 1 belongs.

For another example, in an application scenario of an office, the application program may be associated with the SIM card 2, and the APPID2 associated with the application program is the APPID of the application program in the APPID number segment of the operator to which the SIM card 2 belongs.

For example, when a data transmission request of the application program is received, the operating system may determine a current data usage scenario based on location information and the like, and query a pre-established correspondence in the preset configuration file to determine an adapted preferred APPID.

In one implementation, the step S101 may be triggered to be executed when the application program initiates a network request. Further, the association relationship between the multiple subscriber identity cards and the multiple APPIDs corresponding to the application program may be obtained from the application program through a preset interface.

For example, the application may execute the step S101 to obtain the user feature information when initiating the network request, and send the obtained user feature information and the association relationships between the multiple subscriber identity cards and the multiple APPIDs to the operating system through the preset interface. In response to receiving the above information through the preset interface, the operating system may execute step S102 and step S103 to determine the preferred APPID.

For another example, the step S102 may be executed by the application program. Correspondingly, the user identification cards which are transmitted through the preset interface can be the preferred user identification cards, and the association relations between the user identification cards and the APPIDs are obtained. In response to receiving the above information through the preset interface, the operating system may execute the step S103 to determine the preferred APPID.

For another example, the step S103 may be executed by the application program. Correspondingly, the APPID is transmitted through a preset interface to be the preferred APPID.

In one implementation, the user characteristic information may be determined by a user using the application program by selecting from a window pop-up on an interactive interface of the multi-card terminal.

Or, the user selected on the interactive interface can be the plurality of user identification cards, and the selection result of the user is determined as the preferred user identification card. Further, said step S103 is performed to determine the associated preferred APPID.

In one implementation, the step S104 may include the steps of: acquiring a channel Descriptor (TD) parameter and a user equipment routing option Policy (URSP) rule corresponding to the preferred APPID; and establishing a Protocol Data Unit (PDU) session based on the TD parameter and the URSP rule. One path of PDU session corresponds to one path of data bearer, which is used for transmitting data received and transmitted by the application process bound with the PDU session.

Specifically, in the definition of the URSP rule in the 3GPP protocol, there is an application Identifier (Identifier) parameter in the TD parameter. The parameter contains two parts: APPID and operating system ID (OSId). Wherein, the APPID is used to identify specific application information, and the APPID can be used for URSP rule matching.

The URSP is one of Policy information provided by a 5G Core-network (5G Core-network, abbreviated as 5 GC) from a Policy Control Function (PCF) to a User Equipment (User Equipment, abbreviated as UE). The UE (e.g. the multi-card terminal) uses this policy to determine how to route the data outbound path. With the URSP rule, the UE can determine whether the detected application can be associated with an already established PDU session, can be routed to a non-3GPP (non-3 GPP) path outside of the PDU session, or can establish a new PDU session.

In particular, a URSP may contain one or more URSP rules. The URSP rules may include: URSP priority; TD parameters, which may include: 1) A Match-all Traffic descriptor, or 2) at least one of the following parameters: a. one or more application identifiers (appiication identifiers); b. one or more IP descriptors (IPDescriptors) including a destination IP address or IPV6 prefix, a destination port number, and an IP protocol type; c. one or more non-IP path destination information Descriptors (non-IP Descriptors), and IP description Fu Huchi; d. one or more Data Network names (DNN for short); e. one or more Connection Capabilities (Connection Capabilities); f. one or more destination Descriptors (Domain Descriptors), such as destination FQDN(s) (formal Domain Name); 3. one or more routing descriptors (Route Selection descriptors) containing the following parameters: 1) PDU Session Type (PDU Session Type) and the following parameters: a. session and Service Continuity Mode (SSC Mode for short); b. one or more Single Network Slice Selection Assistance Information (S-NSSAI for short); c. one or more DNNs; d. preferred Access Type (3 GPP or non-3 GPP) (Preferred Access Type); e. multi-access Preference (Multi-access Preference); f. a Time window (Time window); g. location criterion (Location criterion); 2) User plane traffic offload (Non-subscriber Non-3GPP offload indication) performed through Non-3GPP access without passing through Non-3GPP InterWorking Function (N3 GPP InterWorking Function, abbreviated as N3 IWF) or User Port Function (User Port Function, abbreviated as UPF).

The operating system of the multi-card terminal acquires a TD parameter associated with an application program, and after acquiring a URSP rule list from a network, the multi-card terminal matches a corresponding Record Selection Descriptor (RSD) according to a rule evaluated by the URSP, and then selects a data route according to a route path represented by the RSD parameter.

An important input datum in the URSP rule is the parameters in the TD, which can be carried by the application when initiating a network request. The present embodiment is based on the way that TD parameters are carried when an application initiates a network request, and the application needs to transfer APPID to the operating system through a specific interface and then use it for URSP rule matching.

In step S104, after matching the preferred APPID, the TD parameter may be obtained, and then a PDU session is established according to the URSP rule. And obtaining the TD parameters through the preset configuration file by the preferred APPID. Or, the TD parameter corresponding to the preferred APPID may also be obtained by an operator server.

In a typical application scenario, the user characteristic data may be obtained based on a clock, a positioning module, etc. of the multi-card terminal to determine the corresponding preferred subscriber identity card. Further, a preferred APPID corresponding to the application program is obtained by querying a preset configuration file based on a preferred user identification card, and then a corresponding URSP rule is matched based on the preferred APPID. After matching is successful, a radio bearer is established or multiplexed according to the URSP rule, connection is established with the network, and the network slice accessed to is known.

For the same application program, different URSP rules are matched according to different APPIDs, and the matching result determines whether to establish a new bearer or an old bearer and also determines which network slice to reuse.

With the URSP rule, the multi-card terminal can determine whether a detected application can be associated with an already established PDU session, can be routed to a non-3GPP path outside of the PDU session, or can establish a new PDU session. For example, the corresponding routing descriptor RSD is matched according to the rule evaluated by the URSP, and then the data route is selected according to the routing path indicated by the RSD parameter.

Therefore, by adopting the embodiment and combining the APPID parameter, the data communication of the user identification card appointed for the specific application program becomes possible, and the optimization of the operating performance of the multi-card terminal is facilitated. Specifically, a preferred subscriber identity module card most suitable for a specific application program is selected according to the user characteristic information, and a service path is established for the application program based on an APPID (namely, the preferred APPID) associated with the preferred subscriber identity module card, so that the application program can transmit data of the preferred subscriber identity module card as a data card.

In particular, the user may perform a corresponding data service by selecting a different operator card. Alternatively, the operating system executing the multi-card terminal of the present embodiment may also automatically select the corresponding SIM card for the user.

Further, the multi-card terminal can select different subscriber identity cards for different applications and access different network slices negotiated with the operator. Specifically, during the data transmission by the application program using the preferred subscriber identity card to establish the service path, the subscriber identity cards used by other application programs of the multi-card terminal to establish the service path are not limited to the preferred subscriber identity card. That is, all applications of the multi-card terminal may execute the present embodiment to perform data transmission based on the same or different subscriber identity cards. Thereby, different applications are enabled to select the subscriber identity card that best suits themselves as a data card for data transmission, instead of having to use the same data card for all applications as in the prior art.

Fig. 3 is a schematic structural diagram of an application program service path establishing apparatus for a multi-card terminal according to an embodiment of the present invention. Those skilled in the art understand that the application program service path establishing apparatus 3 for a multi-card terminal according to this embodiment may be used to implement the method technical solution described in the above embodiments of fig. 1 and fig. 2. The multi-card terminal is associated with a plurality of subscriber identity cards.

Specifically, referring to fig. 3, the application program service path establishing apparatus 3 for a multi-card terminal according to this embodiment may include: an obtaining module 31, configured to obtain user feature information, where the user feature information is used to represent a current data usage scenario of the multi-card terminal; a selection module 32, configured to select a preferred subscriber identity card from the plurality of subscriber identity cards according to the subscriber feature information; a determining module 33, configured to determine a preferred APPID according to the preferred subscriber identity card, where different APPIDs are associated with different subscriber identity cards for a same application; and the communication module 34 is configured to establish a service path based on the preferred APPID, and the application program performs data transmission through the service path.

For more contents of the operation principle and operation mode of the application program service path establishing apparatus 3 for a multi-card terminal, reference may be made to the related description in fig. 1 and fig. 2, and details are not repeated here.

Further, the embodiment of the present invention also discloses a storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method technical solution described in the above embodiments shown in fig. 1 and fig. 2 is executed. Preferably, the storage medium may include a computer-readable storage medium such as a non-volatile (non-volatile) memory or a non-transitory (non-transient) memory. The storage medium may include ROM, RAM, magnetic or optical disks, etc.

Further, the embodiment of the present invention further discloses a terminal, which includes a memory and a processor, where the memory stores a computer program capable of running on the processor, and the processor executes the technical solution of the method in the embodiment shown in fig. 1 and fig. 2 when running the computer program. Specifically, the terminal may be a multi-card terminal.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method for establishing an application service path for a multi-card terminal, said multi-card terminal being associated with a plurality of subscriber identity cards, said method comprising:

acquiring user characteristic information, wherein the user characteristic information is used for representing the current data use scene of the multi-card terminal;

selecting a preferred subscriber identity module from the plurality of subscriber identity modules according to the subscriber feature information;

determining the preferred APPID according to the preferred user identification card, wherein different APPIDs are associated with different user identification cards for the same application program;

establishing a service path based on the preferred APPID, and transmitting data by the application program through the service path;

wherein the selecting a preferred subscriber identity card from the plurality of subscriber identity cards according to the subscriber feature information comprises:

determining an incidence relation between a plurality of user characteristic information and a plurality of user identification cards based on historical data statistics, wherein the historical data comprises user identification card usage records of the application program when the application program historically establishes service paths under different data usage scenes, and user identification card usage records of other application programs similar to the type of the application program historically establishes service paths under different data usage scenes;

and determining the user identification card associated with the user characteristic information as the preferred user identification card based on the association relationship.

2. The method according to claim 1, wherein the act of obtaining the user profile is triggered to be performed upon detecting the application program starting, detecting the application program calling to a foreground of the multi-card terminal, or receiving a data packet requested to be transmitted by the application program.

3. The method according to claim 2, wherein the association relationship between the plurality of subscriber identity cards and the plurality of APPIDs corresponding to the application program is obtained from a preset configuration file.

4. The method of claim 1, wherein the act of obtaining user profile information is triggered when the application initiates a network request.

5. The method according to claim 4, wherein the association relationship between the plurality of subscriber identity cards and the plurality of APPIDs corresponding to the application program is obtained from the application program through a preset interface.

6. The method of claim 1, wherein the user characteristic information is at least selected from the group consisting of: geographical location information and time information.

7. The method according to claim 1, wherein the establishing a traffic path based on the preferred APPID comprises:

acquiring a TD parameter and a URSP rule corresponding to the preferred APPID;

and establishing a PDU session based on the TD parameters and the URSP rules.

8. An apparatus for establishing an application service path for a multi-card terminal, the multi-card terminal being associated with a plurality of subscriber identity cards, the apparatus comprising:

the system comprises an acquisition module, a processing module and a display module, wherein the acquisition module is used for acquiring user characteristic information, and the user characteristic information is used for representing the current data use scene of the multi-card terminal;

the selection module is used for selecting a preferred user identification card from the plurality of user identification cards according to the user characteristic information;

the determining module is used for determining the preferred APPID according to the preferred user identification card, wherein different APPIDs are associated with different user identification cards for the same application program;

the communication module is used for establishing a service channel based on the preferred APPID, and the application program carries out data transmission through the service channel;

wherein the selection module performs the steps of:

determining an incidence relation between a plurality of user characteristic information and a plurality of user identification cards based on historical data statistics, wherein the historical data comprises user identification card usage records of the application program when the application program historically establishes service paths under different data usage scenes, and user identification card usage records of other application programs similar to the type of the application program historically establishes service paths under different data usage scenes;

and determining the user identification card associated with the user characteristic information as the preferred user identification card based on the association relationship.

9. A storage medium having a computer program stored thereon, the computer program, when being executed by a processor, performing the steps of the method according to any one of claims 1 to 7.

10. A terminal comprising a memory and a processor, the memory having stored thereon a computer program operable on the processor, wherein the processor, when executing the computer program, performs the steps of the method of any of claims 1 to 7.

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