CN110839047A - Method and device for realizing multimode service communication by dual-system terminal - Google Patents

Abstract

The application provides a method and a device for realizing multimode service communication by a dual-system terminal, wherein the method comprises the following steps: establishing a background rild process of a private network wireless interface layer in a system user and an authority root domain; virtualizing a private network rild proxy service process for the private network rild process, wherein the private network rild proxy service process is used for connecting private network applications in a working area to the private network rild process; and connecting to the baseband processor 1 through a private network rild process to perform private network services. The method can realize the private network service on the dual-system terminal.

Description

Method and device for realizing multimode service communication by dual-system terminal

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for a dual-system terminal to implement multi-mode service communications.

Background

The dual-system terminal, namely one terminal can realize two systems, namely a working system and a living system, inherits and enhances the traditional single-system terminal, and can provide the experience of various use scenes for users.

The existing dual-system terminal realizes the dual-system public network service through virtualization of a background (rild) process of a radio interface layer of a public network. The business processes of the working area and the living area can be connected to the rild process of the public network for the business of voice and data communication.

The dual-system terminal supports the services of the public network and cannot support the services of the private network. Basic services of the private network, such as group calling, point calling, data communication and the like, cannot be realized on the dual-system terminal.

Disclosure of Invention

In view of this, the present application provides a method and an apparatus for a dual-system terminal to implement multi-mode service communication, which can implement private network service on the dual-system terminal.

In order to solve the technical problem, the technical scheme of the application is realized as follows:

a method for dual system terminal to realize multi-mode service communication includes:

establishing a background rild process of a private network wireless interface layer in a system user and an authority root domain;

virtualizing a private network rild proxy service process for the private network rild process, wherein the private network rild proxy service process is used for connecting private network applications in a working area to the private network rild process;

and connecting to the baseband processor 1 through a private network rild process to perform private network services.

An apparatus for implementing multi-mode service communication by dual-system terminal, the apparatus comprising: a first establishing unit, a first virtualization unit and a baseband processor 1;

the first establishing unit is used for establishing a background rild process of a private network wireless interface layer in a system user and an authority root domain;

the first virtualization unit is used for virtualizing a private network rild proxy service process for the private network rild process established by the first establishing unit and connecting a private network application of a working area to the private network rild process;

the baseband processor 1 is configured to connect the dedicated network rild process established by the first establishing unit to the baseband processor to perform a dedicated network service.

According to the technical scheme, the private network rild process is established in the root domain, and the private network rild proxy service process is virtualized and used for connecting the private network application of the working area to the private network rild process; and then connected to the baseband processor 1 through a private network rild process to perform private network services. The technical scheme can realize the private network service on the dual-system terminal.

Drawings

Fig. 1 is a schematic flow chart of a dual-system terminal implementing multimode service communication in an embodiment of the present application;

FIG. 2 is a schematic diagram of a menu provided in an embodiment of the present application;

fig. 3 is a schematic diagram of an area architecture of a dual-system terminal for implementing multi-mode service communication in an embodiment of the present application;

fig. 4 is a schematic structural diagram of an apparatus applied to the above-described technology in the embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the technical solutions of the present invention are described in detail below with reference to the accompanying drawings and examples.

The embodiment of the application provides a method for realizing multimode service communication by a dual-system terminal, which is characterized in that a private network rild process is established in a system user and authority (root) domain, and a private network rild proxy service process is virtualized and is used for connecting private network application in a working area to the private network rild process; and then connected to the baseband processor 1 through a private network rild process to perform private network services. The technical scheme can realize the private network service on the dual-system terminal.

In the embodiment of the present application, a framework for implementing a public network service on a dual-system terminal specifically includes:

the dual-system terminal establishes a public network rild process in a root domain;

the dual-system terminal virtualizes a rild proxy service process for the rild process of the public network and is used for connecting public network applications of a working area and a living area to the rild process of the public network.

In the existing implementation, the public network is directly connected to the baseband processor 1 through a public network rild process to perform public network services, and since a private network service function is added in the embodiment of the present application, it is determined whether the public network services are connected to the baseband processor 1 or the baseband processor 2 to perform implementation in different modes, which is specifically implemented as follows.

The following describes in detail a process of implementing multimode service communication by a dual-system terminal according to an embodiment of the present application with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic flow chart of a dual-system terminal implementing multimode service communication in the embodiment of the present application. The method comprises the following specific steps:

step 101, the dual-system terminal establishes a private network rild process in a root domain.

And 102, virtualizing a private network rild proxy service process for the private network rild process by the dual-system terminal, wherein the dual-system terminal is used for connecting the private network application in the working area to the private network rild process.

And (3) virtualizing the private network service, namely virtualizing the established private network rild process in a root domain by means of a dual-system virtualization mechanism. Then, the working area and the living area will be able to use the private network service at the same time. Because the private network service is not required to be operated in the living area at present, the private network service is only carried out in the working area.

And 103, connecting the dual-system terminal to the baseband processor 1 through the private network rild process to perform private network service.

In the embodiment of the present application, when a private network service is performed, the private network is connected to the baseband processor 1 through a private network rild process, and when a public network service is implemented through the baseband processor 1, the private network service cannot be transmitted.

The dual-system terminal sets a network mode for a working area, and the specific implementation mode is as follows:

and providing a network mode selection menu, and setting the currently used network mode according to the selection input by the user.

Referring to fig. 2, fig. 2 is a schematic diagram of a menu provided in the embodiment of the present application. The menu provides network mode selection, which is a private network mode, a public network mode and a dual-network mode.

In specific implementation, the providing mode of the menu is not limited to the schematic diagram shown in fig. 2, and the network mode selection can be provided according to actual needs, so that a user can conveniently and simply set the network mode manually. In fig. 2, the user selects the dual-network mode as an example.

When the set network mode is a private network mode, connecting to the baseband processor 1 through a private network rild process to perform private network service;

in the private network mode, only private network services are supported, and the public network is in a disconnected state.

When the set network mode is a public network mode, connecting the set network mode to the baseband processor 1 through a public network rild process to perform public network service;

and the public network mode supports public network services, and the private network is in a disconnected state.

And when the set network mode is a dual-network mode, connecting to the baseband processor 1 through a private network rild process to perform private network services, and connecting to the baseband processor 2 through a public network rild process to perform public network services.

The dual-network mode is a public and private network dual-card dual-communication mode, which can support private network services and can also receive public network telephone and short message services.

When the set network mode is a dual-network mode, if the working area is switched to the living area, the network mode is switched to a public network mode, and the network mode is connected to the baseband processor 1 through a public network rild process to perform public network service;

and if the living area is switched to the working area, the network mode is switched to a dual-network mode, and the dual-network mode is connected to the baseband processor 2 through a public network rild process to perform public network service.

By the technical scheme, public and private network service dual-card dual-pass matched use can be realized, and a user can perform both private network cluster service and public network telephone and short message service in the public network dual-card dual-pass matched use, so that the service coverage of the user can be better expanded.

The following provides an area architecture for implementing multimode service communication by a dual-system terminal in the embodiment of the present application, with reference to the accompanying drawings.

Referring to fig. 3, fig. 3 is a schematic diagram of an area architecture for a dual-system terminal to implement multimode service communication in the embodiment of the present application.

Fig. 3 is directed to a work area in a dual system, which includes a private network application and a public network application (phone application), and a living area includes a public network application (phone application).

And respectively creating a public network rild process and a private network rild process in the root domain, and virtualizing a public network rild proxy service process and a private network rild proxy service process aiming at the public network rild process and the private network rild process.

The private network application of the working area is connected with the private network rild proxy service process through a private network RILJ application module, namely, communication is carried out; the public network application of the working area is connected with the public network rild proxy service process through a public network RILJ application module, namely, communication is carried out; the public network application of the living area is connected with the public network rild agent service process through a public network RILJ application module, namely, communication is carried out;

the private network service application of the working area is connected to the private network rild proxy service process, the living area does not use the private network service, connection with the private network rild proxy service process is not established, and the dual-system terminal private network service can be completely isolated from the living area.

When the voice service is transmitted, the base band processor is directly connected and communicated with the base band processor through a public network rild process and a private network rild process;

when data service is transmitted, the public network rild process and the private network rild process need to be connected and communicated with the baseband processor through a data connection device interface.

In the embodiment of the application, two baseband processors (a baseband processor 1 and a baseband processor 2) are used for carrying out service transmission in different network modes.

As shown in fig. 2, when the network mode selected and input by the user is the private network mode, the private network is connected to the baseband processor 1 through the private network rild process to perform the private network service; the public network rild process is not connected with any baseband processor; at this time, the public network service cannot be performed.

When the network mode selected and input by the user is a public network mode, connecting the user to the baseband processor 1 through a public network rild process to perform private network service; the private network rild process is not connected with any baseband processor, and the private network service cannot be carried out at the moment.

When the network mode selected and input by the user is the dual-network mode, the user is connected to the baseband processor 1 through the private network rild process to perform private network services, and is connected to the baseband processor 2 through the public network rild process to perform public network services.

The limitation of the public network service is due to the hardware function limitation of the baseband processor 2 (only 2G capability, i.e. incoming call and short message, and data service is not supported), if the function of the baseband processor 2 is improved, the available public network service will not be limited, for example, the baseband processor 1 can provide 4G/3G/2G service, etc.

When the working area is in the dual-network mode and is switched to the living area, the network mode is automatically switched to the public network mode, and the baseband processor 1 is used for supporting public network services, namely the public network services in the living area can only use the baseband processor 1 for communication. When switching back to the work area, the network mode is automatically switched to the dual network mode again, the private network rild is connected to the baseband processor 1 and the public network rild process is connected to the baseband processor 2.

Based on the same inventive concept, the embodiment of the application also provides a device for realizing multimode service communication by the dual-system terminal. Referring to fig. 4, fig. 4 is a schematic structural diagram of an apparatus applied to the above technology in the embodiment of the present application. The device includes: a first establishing unit 401, a first virtualization unit 402, and a baseband processor 1403;

a first establishing unit 401, configured to establish a private network rild process in a root domain;

a first virtualization unit 402, configured to virtualize a private network rild proxy service process for the private network rild process established by the first establishment unit 401, and configured to connect a private network application in a work area to the private network rild process;

the baseband processor 1403 is configured to connect the dedicated network rild process established by the first establishing unit 401 to the baseband processor for performing a dedicated network service.

Preferably, the apparatus further comprises: a second establishing unit 404 and a second virtualization unit 405;

a second establishing unit 404, configured to establish a public network rild process in a root domain;

a second virtualization unit 405, configured to virtualize a public network rild proxy service process for the public network rild process established by the second establishing unit 404, and configured to connect the public network applications in the working area and the living area to the public network rild process.

Preferably, the apparatus further comprises: a setting unit 406 and a baseband processor 2407;

a setting unit 406, configured to set a network mode for the work area:

the baseband processor 1403 is further configured to, when the network mode set by the setting unit 406 is a private network mode, connect to the baseband processor through a private network rild process to perform a private network service; when the network mode set by the setting unit 406 is a public network mode, the network mode is connected to the baseband processor through a public network rild process to perform public network service; when the network mode set by the setting unit 406 is a dual-network mode, the dedicated network is connected to the baseband processor through a dedicated network rild process to perform a dedicated network service;

the baseband processor 2407 is configured to, when the network mode set by the setting unit 406 is a dual-network mode, connect to the baseband processor through a public network rild process to perform a public network service.

Preferably, the first and second liquid crystal films are made of a polymer,

the setting unit 406 is specifically configured to provide a network mode selection menu when setting a network mode for a working area, and set a currently used network mode according to a selection input by a user.

Preferably, the first and second liquid crystal films are made of a polymer,

the baseband processor 1403 is further configured to, when the network mode set by the unit is a dual-network mode, switch the network mode to a public network mode if the working area is switched to the living area, and connect to the baseband processor through a public network rild process to perform a public network service;

the baseband processor 2407 is further configured to switch the network mode to a dual-network mode if the living area is switched to the working area, and connect to the baseband processor through a public network rild process to perform a public network service.

The units of the above embodiments may be integrated into one body, or may be separately deployed; may be combined into one unit or further divided into a plurality of sub-units.

In summary, the private network rild process is established in the root domain, and the private network rild proxy service process is virtualized, so that the private network application in the working area is connected to the private network rild process; and then connected to the baseband processor 1 through a private network rild process to perform private network services. The technical scheme can realize the private network service on the dual-system terminal.

By using the technical scheme provided by the application, the dual-card dual-pass matched use of the public and private network service can be realized. Under the public-private network double-card bi-pass mode, a user can not only perform the cluster service of a private network, but also perform the telephone and short message service of a public network, and the service coverage of the user can be better expanded.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A method for dual system terminal to realize multimode service communication is characterized in that the method comprises:

establishing a background rild process of a private network wireless interface layer in a system user and an authority root domain;

virtualizing a private network rild proxy service process for the private network rild process, wherein the private network rild proxy service process is used for connecting private network applications in a working area to the private network rild process;

and connecting to the baseband processor 1 through a private network rild process to perform private network services.

2. The method of claim 1, further comprising:

establishing a public network rild process in a root domain;

and virtualizing a public network rild proxy service process for the public network rild process, wherein the public network proxy service process is used for connecting public network applications in a working area and a living area to the public network rild process.

3. The method of claim 1, further comprising:

setting a network mode for a working area:

when the set network mode is a private network mode, connecting to the baseband processor 1 through a private network rild process to perform private network service;

when the set network mode is a public network mode, connecting the set network mode to the baseband processor 1 through a public network rild process to perform public network service;

and when the set network mode is a dual-network mode, connecting to the baseband processor 1 through a private network rild process to perform private network services, and connecting to the baseband processor 2 through a public network rild process to perform public network services.

4. The method of claim 3, wherein setting the network mode for the working area comprises:

and providing a network mode selection menu, and setting the currently used network mode according to the selection input by the user.

5. The method of claim 3 or 4, further comprising:

when the set network mode is a dual-network mode, if the working area is switched to the living area, the network mode is switched to a public network mode, and the network mode is connected to the baseband processor 1 through a public network rild process to perform public network service;

and if the living area is switched to the working area, the network mode is switched to a dual-network mode, and the dual-network mode is connected to the baseband processor 2 through a public network rild process to perform public network service.

6. An apparatus for implementing multimode service communication by a dual-system terminal, the apparatus comprising: a first establishing unit, a first virtualization unit and a baseband processor 1;

the first establishing unit is used for establishing a background rild process of a private network wireless interface layer in a system user and an authority root domain;

the first virtualization unit is used for virtualizing a private network rild proxy service process for the private network rild process established by the first establishing unit and connecting a private network application of a working area to the private network rild process;

the baseband processor 1 is configured to connect the dedicated network rild process established by the first establishing unit to the baseband processor to perform a dedicated network service.

7. The apparatus of claim 6, further comprising: a second establishing unit and a second virtualization unit;

the second establishing unit is used for establishing a public network rild process in a root domain;

the second virtualization unit is used for virtualizing a public network rild proxy service process for the public network rild process established by the second establishing unit and connecting the public network application of the working area and the living area to the public network rild process.

8. The apparatus of claim 6, further comprising: a setting unit and a baseband processor 2;

the setting unit is used for setting a network mode aiming at the working area:

the baseband processor 1 is further configured to connect to the baseband processor through a dedicated network rild process to perform a dedicated network service when the network mode set by the setting unit is a dedicated network mode; when the network mode set by the setting unit is a public network mode, connecting the base band processor to the public network through a public network rild process to perform public network service; when the network mode set by the setting unit is a dual-network mode, the special network is connected to the baseband processor through a special network rild process to carry out special network service;

and the baseband processor 2 is configured to connect to the baseband processor through a public network rild process to perform a public network service when the network mode set by the setting unit is a dual-network mode.

9. The apparatus of claim 8,

the setting unit is specifically configured to provide a network mode selection menu when setting a network mode for a work area, and set a currently used network mode according to a selection input by a user.

10. The apparatus according to claim 8 or 9,

the baseband processor 1 is further configured to, when the network mode set by the unit is a dual-network mode, switch the network mode to a public network mode if the working area is switched to the living area, and connect to the baseband processor through a public network rild process to perform a public network service;

the baseband processor 2 is further configured to switch the network mode to the dual-network mode if the living area is switched to the working area, and connect to the baseband processor through a public network rild process to perform a public network service.

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