CN105657795A - Network control method and device - Google Patents

Abstract

The invention provides an embodiment of a network control method. The embodiment is applied to a terminal with two network communication modules; and the types of the network systems of the two network communication modules are different. In the event that both the two network communication modules of the terminal are opened, the working state of the terminal is determined; and, when the working state accords with a preset closing condition, the network communication module, the network system type of which is a service data type, in the two network communication modules is closed. Visibly, in the embodiment, the terminal can close the network communication module performing service data transmission in the two network communication modules in a certain working state, such that the technical effect that the electric energy consumption of the terminal is reduced can be achieved. The invention further provides a network control device used for ensuring application and implementation of the method in practice.

Description

Network control method and device

Technical Field

The present application relates to the field of terminal technologies, and in particular, to a network control method and apparatus applied to a terminal.

Background

At present, some mobile phones can realize the function of single-card dual-standby. In order to realize dual standby, the mobile phone is provided with two network communication modules, and the network communication modules are used for finishing data interaction between the mobile phone and a network side. In the single-card dual-standby mobile phone, the power consumption of the mobile phone is high.

Disclosure of Invention

In view of this, the present application provides a network control method, which is applied to a terminal such as a mobile phone and the like provided with two network communication modules, and is used for solving the technical problem of high power consumption of the terminal such as the mobile phone and the like. In addition, the application also provides a network control device for ensuring the application and implementation of the method in practice.

In order to achieve the purpose, the technical scheme provided by the application is as follows:

the application provides a network control method, which is applied to a terminal provided with two network communication modules, wherein the two network communication modules have respective network standards, and the types of the two network standards are different, and the method comprises the following steps:

determining the working state of the terminal under the condition that two network communication modules of the terminal are both started;

and under the condition that the working state meets a preset closing condition, closing the network communication module of which the network standard is the service data type network standard in the two network communication modules.

Optionally, in the network control method, the determining the working state of the terminal includes:

determining the idle time of the terminal and the type of service data interacted between the terminal and a network side; the service data type is the type of service data interacted between the terminal and the network side through the network communication module with the network standard as the service data type network standard.

Optionally, in the network control method, the determining an idle duration of the terminal includes:

determining the duration of the terminal in a screen locking state;

or,

and determining the time length of the terminal in the static state.

Optionally, in the network control method, determining a service data type of the terminal interacting with the network side includes:

and determining the type of the service data interacted between the terminal and the network side according to the data volume of the service data interacted between the terminal and the network side.

Optionally, in the network control method, determining a service data type of the terminal interacting with the network side includes:

and determining the content of the service data interacted between the terminal and the network side, and determining the interaction type as the service data type interacted between the terminal and the network side.

The application also provides a network control device, which is applied to a terminal provided with two network communication modules, wherein the two network communication modules have respective network types, the two network types are different in type, and the device comprises:

the working state determining module is used for determining the working state of the terminal under the condition that the two network communication modules of the terminal are both opened;

and the network module closing module is used for closing the network communication module of which the network standard is the service data type network standard in the two network communication modules under the condition that the working state meets the preset closing condition.

Optionally, in the network control device, the operating state determining module includes:

the idle time length determining submodule is used for determining the idle time length of the terminal;

the data type determining submodule is used for determining the service data type of the interaction between the terminal and the network side; the service data type is the type of service data interacted between the terminal and the network side through the network communication module with the network standard as the service data type network standard.

Optionally, in the network control device, the idle time period determining submodule includes:

the first idle time length determining unit is used for determining the time length of the terminal in the screen locking state;

and the second idle time length determining unit is used for determining the time length of the terminal in the static state.

Optionally, in the network control apparatus described above, the data type determining sub-module includes:

and the first data type determining unit is used for determining the interactive service data type of the terminal and the network side according to the data volume of the interactive service data of the terminal and the network side.

Optionally, in the network control apparatus described above, the data type determining sub-module includes:

and the second data type determining unit is used for determining the content of the service data interacted between the terminal and the network side, and determining the interaction type as the service data type interacted between the terminal and the network side.

The application provides an embodiment of a network control method, which is applied to a terminal provided with two network communication modules, wherein the types of network types of the two network communication modules are different. In the embodiment, the working state of the terminal is determined under the condition that the two network communication modules of the terminal are both opened, and the network communication module with the network standard of the service data type in the two network communication modules is closed under the condition that the working state meets the preset closing condition. Therefore, in this embodiment, the terminal may close the network communication module for transmitting the service data in the two network communication modules in a certain working state, so as to achieve the technical effect of reducing the power consumption of the terminal.

Of course, it is not necessary for any product to achieve all of the above-described advantages at the same time for the practice of the present application.

Drawings

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

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

fig. 2 is a schematic structural diagram of a network control device 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.

Referring to fig. 1, a flow of a network control method provided in an embodiment of the present application is shown. The embodiment is applied to a terminal provided with two network communication modules, and it should be noted that the terminal may be specifically, but not limited to, a mobile phone, a PAD, and the like. The network communication module is used for performing data interaction with the network side, such as uploading service data to the network side or downloading the service data from the network side. The two network communication modules have respective network modes, and the network modes represent the mode of data interaction between the network communication modules and the network side. It should be noted that the types of the two network systems are not the same. For example, the network systems are an LTE (long term evolution) network system and a 2G/3G network system, respectively. Correspondingly, the network communication module using the LTE network standard can be called as an LTE network communication module, and the network communication module using the 2G/3G network standard can be called as a 2G/3G network communication module.

As shown in fig. 1, the embodiment of the network control method may specifically include steps S101 to S102. Wherein:

step S101: and determining the working state of the terminal under the condition that the two network communication modules of the terminal are both opened.

The network communication modules arranged in the terminal can be both started, and then the two network communication modules consume electric energy on the terminal. In this case, therefore, the operating state of the terminal is first determined.

The working state of the terminal is used for indicating the state that the terminal uses one of the two network communication modules. Specifically, the working state of the terminal may include an idle duration of the terminal and a type of service data interacted between the terminal and the network side. Accordingly, a specific implementation manner of determining the operating state of the terminal may specifically include the following step a 1:

step A1: determining the idle time of the terminal and the type of service data interacted between the terminal and a network side; the service data type is the type of service data interacted between the terminal and the network side through the network communication module with the network standard as the service data type network standard.

The idle duration of the terminal indicates a time length of the terminal in an idle state, and more specifically, the idle state is a user non-operation state. The network systems of the two network communication modules arranged on the terminal are different, wherein one network system is a network system of a network system service data type, the network system of the service data type refers to the interaction of the network communication module and the service data performed by a network side, and the network system of the service data type is as the LTE network system.

And the terminal interacts business data with the network side through the network communication module. The network communication modules have different network systems, and the data types of the interaction between the terminal and the network side are different. As described above, the network standard of the network communication module is the LTE network standard, the data interacted between the terminal and the network side is the service data, the network standard of the network communication module is the 2G/3G network standard, and the data interacted between the terminal and the network side is the voice data.

When the working state of the terminal is determined, besides the idle time of the terminal, the type of the service data interacted by the terminal through the network communication module needs to be determined. The state of the network communication module with the network standard as the service data type network standard can be determined by using the idle time of the terminal and the type of the service data interacted with the terminal.

Step S102: and under the condition that the working state meets a preset closing condition, closing the network communication module of which the network standard is the service data type network standard in the two network communication modules.

In implementation, a shut-off condition is preset, and for convenience of description, the shut-off condition is referred to as a preset shut-off condition. And if the working state of the terminal meets the preset closing condition, closing the network communication module corresponding to the network type of the service data type. It should be noted that the specific implementation form of the preset closing condition corresponds to the specific implementation form of the operating state determined in step S101, that is, the specific implementation form of the operating state of the terminal determined in step S101 is different, and then the specific implementation form of the preset closing condition is also different. The specific form of the preset closing condition can be referred to below, and is not described herein.

As can be seen from the above technical solutions, the network control method provided in this embodiment is applied to a terminal provided with two network communication modules, where the types of network systems of the two network communication modules are different. In the embodiment, the working state of the terminal is determined under the condition that the two network communication modules of the terminal are both opened, and the network communication module with the network standard of the service data type in the two network communication modules is closed under the condition that the working state meets the preset closing condition. Therefore, in this embodiment, the terminal may close the network communication module for transmitting the service data in the two network communication modules in a certain working state, so as to achieve the technical effect of reducing the power consumption of the terminal.

In practical applications, the specific implementation manner of turning off the network communication module may be to turn off only the radio frequency unit in the network communication module, or to turn off all service units used in the network communication module on the basis of turning off the radio frequency unit. The radio frequency unit is a unit for transmitting radio frequency signals by the network communication module, and the radio frequency unit is a main power consumption unit of the network communication module. Therefore, the radio frequency unit in the network communication module is turned off, so that more electric energy can be saved.

It should be noted that, in the above embodiment, a specific implementation manner of determining the working state of the terminal may be to determine only the idle duration of the terminal, may also determine only the type of service data interacted between the terminal and the network side, and of course, may also determine both of them. Determining an implementation of both aspects can lead to a better user experience than determining an implementation of only one aspect.

Specifically, if the idle duration of the terminal reaches the preset idle duration, but the network communication module performing the service data interaction is performing the interaction of important data, only when the idle duration of the terminal reaches the preset idle duration, the network communication module performing the service data interaction is closed, which further causes the failure of the data interaction and reduces the user experience.

If the network communication module terminal performing the service data interaction is performing the non-important data interaction, but the idle time of the terminal does not reach the preset idle time, it indicates that the terminal is not in the standby state, and the user is using the terminal, so that if the network communication module performing the service data interaction in the terminal is closed at this time, the user can clearly perceive that the data interaction is not smooth due to the closing of the network communication module, and the user experience is poor.

However, the working state of the terminal is determined by combining the idle time of the terminal and the type of the service data interacted between the terminal and the network side, and when the network communication module is closed, the preset closing condition corresponding to the idle time needs to be met in the two aspects.

It should be noted that, the above-mentioned determining the idle time of the terminal and the sequence of the service data types interacted between the terminal and the network side is not specifically limited in this application, and the idle time may be determined first, and the service data type may also be determined first. For simplicity of implementation, the idle duration of the terminal is preferably determined first. Namely, the service data type of the interaction between the terminal and the network side is determined again under the condition that the idle time of the terminal meets the preset time in the preset closing condition.

In the above embodiment, after the network communication module performing service data interaction in the two network communication modules is closed, the interaction between the terminal and the network-side service data may be changed to use the network communication module that is not closed in the two network communication modules. For example, the two network communication modules are an LTE network communication module and a 2G/3G network communication module, respectively, and after the LTE network communication module is closed in the above embodiment, the network side may select to perform service data interaction through the 2G/3G network communication module. Therefore, the service data interaction between the terminal and the network side can still be normally carried out, and the user experience cannot be reduced.

In practical applications, a specific implementation manner of the step a1 for determining the idle duration of the terminal may include the step B1.

Step B1: and determining the duration of the terminal in the screen locking state.

When the terminal is in the screen locking state, the terminal can be considered to be in an idle state. The expression mode of the terminal screen locking state can be various, and the duration of the terminal in the screen locking state can be determined according to different specific expression modes of the screen locking, so that the idle duration of the terminal is determined.

Wherein, be provided with the display screen on the terminal, a specific mode of lock screen state is to close the display screen. Specifically, the terminal may set a lighting time period of the display screen, and close the display screen when the lighting time period of the display screen reaches the set lighting time period. Therefore, the time length of closing the display screen of the terminal can be monitored, and the monitored time length is determined as the time length of the terminal in the screen locking state, namely the idle time length of the terminal.

Alternatively, another specific implementation manner of the step a1 for determining the idle duration of the terminal may include the step C1.

Step C1: and determining the time length of the terminal in the static state.

The terminal can be provided with a gravity sensor to acquire data acquired by the gravity sensor, and the data acquired by the gravity sensor is continuously acquired under the condition that the acquired data indicate that the terminal is in a static state, so that the time length of the terminal in the static state is determined.

In addition, the terminal can be further provided with a distance sensor, and the distance sensor is used for the distance between the terminal and an opposite object. Therefore, the distance acquired by the distance sensor can be used as a basis for judging whether the terminal is in an idle state or not. When the distance acquired by the distance sensor is smaller than a preset threshold value, the terminal is in a use state, otherwise, the terminal is in an idle state. And then, continuously judging the duration that the distance between the terminal and the opposite object is continuously smaller than a preset threshold value, and taking the duration as the idle duration of the terminal.

Step a1 needs to determine not only the idle duration of the terminal, but also the type of service data exchanged between the terminal and the network. Specifically, one implementation manner of determining the service data type is as follows:

and determining the type of the service data interacted between the terminal and the network side according to the data volume of the service data interacted between the terminal and the network side.

The type of service data interacted between the terminal and the network side can be determined according to the data volume. Specifically, a data amount threshold may be preset, and the service data exceeding the data amount threshold may be determined as large-sized service data, otherwise, as small-sized service data. The service data types determined according to the data volume comprise large-scale service data and small-scale service data.

Of course, another implementation of determining the type of the service data may be:

and determining the content of the service data interacted between the terminal and the network side, and determining the interaction type as the service data type interacted between the terminal and the network side.

The corresponding relation between the content of the service data and the type of the service data is preset, and the type of the service data interacted between the terminal and the network side is determined according to the content of the service data interacted between the terminal and the network side. It should be noted that the service data type of the terminal and the network side interaction determined according to the interaction type includes important service data and non-important service data.

For example, the service data type corresponding to the service data content "package download" is preset as an important service data type, and the service data type corresponding to the service data content "program update" is also preset as a non-important service data type. Of course, the two service data contents are only exemplary, and the application is not limited thereto.

Correspondingly, under the condition that the idle time of the terminal and the service data type of the interaction between the terminal and the network side are used for representing the working state of the terminal, a preset closing condition corresponding to the working state needs to be preset. Specifically, the preset shutdown condition includes two aspects, which correspond to the idle duration and the service data type, respectively, where the aspect corresponding to the idle duration may be referred to as a preset shutdown duration, and the aspect corresponding to the service data type may be referred to as a preset shutdown data type.

The preset shutdown data type corresponds to a mode of determining the service data type. Specifically, in the case where the type of the service data is determined according to the data volume, the shutdown data type is preset as small-sized service data, and in the case where the type of the service data is determined according to the content of the service data, the shutdown data type is preset as non-important service data.

And only when the idle time of the terminal meets the preset shutdown time and the type of the service data interacted between the terminal and the network side is the preset shutdown data type, closing the network communication module with the network type being the service data type network type.

The network control device provided in the embodiments of the present application is described below, and it should be noted that for the description of the network control device, reference may be made to the network control method provided above, and details are not described below.

Referring to fig. 2, a structure of a network control apparatus provided in an embodiment of the present application is shown. The device is applied to a terminal provided with two network communication modules, wherein the two network communication modules have respective network systems, and the types of the two network systems are different. As shown in fig. 2, the apparatus may specifically include: an operating state determining module 101 and a network module closing module 102.

A working state determining module 101, configured to determine a working state of the terminal when both of the two network communication modules of the terminal are turned on;

and the network module closing module 102 is configured to close a network communication module of which a network standard is a service data type network standard in the two network communication modules when the working state meets a preset closing condition.

As can be seen from the above technical solutions, after the working state determining module 101 in this embodiment determines the working state of the terminal, the network module closing module 102 closes one of the two network communication modules when the working state meets the preset closing condition, so as to avoid the consumption of the terminal power by the network communication module under some preset closing conditions.

Optionally, the operating state determining module includes:

the idle time length determining submodule is used for determining the idle time length of the terminal;

the data type determining submodule is used for determining the service data type of the interaction between the terminal and the network side; the service data type is the type of service data interacted between the terminal and the network side through the network communication module with the network standard as the service data type network standard.

Optionally, the idle duration determination submodule includes:

the first idle time length determining unit is used for determining the time length of the terminal in the screen locking state;

and the second idle time length determining unit is used for determining the time length of the terminal in the static state.

Optionally, the data type determining sub-module includes:

and the first data type determining unit is used for determining the interactive service data type of the terminal and the network side according to the data volume of the interactive service data of the terminal and the network side.

Optionally, the data type determining sub-module includes:

and the second data type determining unit is used for determining the content of the service data interacted between the terminal and the network side, and determining the interaction type as the service data type interacted between the terminal and the network side.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the same element.

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 network control method is characterized in that the method is applied to a terminal provided with two network communication modules, the two network communication modules have respective network standards, and the two network standards are different in type, and the method comprises the following steps:

determining the working state of the terminal under the condition that two network communication modules of the terminal are both started;

and under the condition that the working state meets a preset closing condition, closing the network communication module of which the network standard is the service data type network standard in the two network communication modules.

2. The network control method according to claim 1, wherein the determining the operating state of the terminal comprises:

determining the idle time of the terminal and the type of service data interacted between the terminal and a network side; the service data type is the type of service data interacted between the terminal and the network side through the network communication module with the network standard as the service data type network standard.

3. The network control method of claim 2, wherein the determining the idle duration of the terminal comprises:

determining the duration of the terminal in a screen locking state;

or,

and determining the time length of the terminal in the static state.

4. The network control method according to claim 2, wherein determining the type of the service data interacted between the terminal and the network side comprises:

and determining the type of the service data interacted between the terminal and the network side according to the data volume of the service data interacted between the terminal and the network side.

5. The network control method according to claim 2, wherein determining the type of the service data interacted between the terminal and the network side comprises:

and determining the content of the service data interacted between the terminal and the network side, and determining the interaction type as the service data type interacted between the terminal and the network side.

6. A network control device is applied to a terminal provided with two network communication modules, the two network communication modules have respective network standards, and the two network standards are different in type, and the device comprises:

the working state determining module is used for determining the working state of the terminal under the condition that the two network communication modules of the terminal are both opened;

and the network module closing module is used for closing the network communication module of which the network standard is the service data type network standard in the two network communication modules under the condition that the working state meets the preset closing condition.

7. The network control apparatus of claim 6, wherein the operating state determining module comprises:

the idle time length determining submodule is used for determining the idle time length of the terminal;

the data type determining submodule is used for determining the service data type of the interaction between the terminal and the network side; the service data type is the type of service data interacted between the terminal and the network side through the network communication module with the network standard as the service data type network standard.

8. The network control apparatus of claim 7, wherein the idle duration determination submodule comprises:

the first idle time length determining unit is used for determining the time length of the terminal in the screen locking state;

and the second idle time length determining unit is used for determining the time length of the terminal in the static state.

9. The network control apparatus of claim 7, wherein the data type determination sub-module comprises:

and the first data type determining unit is used for determining the interactive service data type of the terminal and the network side according to the data volume of the interactive service data of the terminal and the network side.

10. The network control apparatus of claim 7, wherein the data type determination sub-module comprises:

and the second data type determining unit is used for determining the content of the service data interacted between the terminal and the network side, and determining the interaction type as the service data type interacted between the terminal and the network side.