WO2016192163A1 - Method and system for reducing power consumption of mobile terminal, and mobile terminal - Google Patents

Abstract

The present invention relates to the technical field of communications. Provided are a method and system for reducing power consumption of a mobile terminal, and mobile terminal. The method comprises: detecting network performance of a mobile terminal communication module comprising a first communication module and a second communication module; if the network performance of the first communication module is better than that of the second communication module, then causing the first communication module to remain turned on, and turning off the second communication module; and controlling, according to a network resource allocation of the first communication module, turning on of the second communication module. The present invention can turn off the second communication module when a network resource of the first communication module satisfies a data service downloading requirement, and turn on the second communication module for downloading when the network resource of the first communication module does not satisfy the data service downloading requirement, thereby reducing power consumption of the mobile terminal while satisfying the data service downloading requirement thereof.

Description

Method and system for reducing power consumption of mobile terminal, and mobile terminal

This application is required to be submitted to the Chinese Patent Office on June 5, 2015. The application number is 201510306351.X, and the Chinese patent application titled "A Method and System for Reducing Power Consumption of Mobile Terminals, and Mobile Terminals" is preferred. The entire contents are hereby incorporated by reference.

Technical field

The present invention relates to the field of communications technologies, and in particular, to a method and system for reducing power consumption of a mobile terminal, and a mobile terminal.

Background technique

The existing dual-system dual-mode intelligent terminal has a security system and a common system. When one system runs in the foreground, the other system runs in the background, and the two systems can be quickly switched between and with dual-mode data services. Available for download. After the dual system is running, the dual-mode data service is always open and will detect the network status. When there is a download request in a certain system, the data service resources are usually allocated in two ways: one is to directly allocate the downloaded data service. The resource gives this request until the dual-mode data service resource is allocated; the other is that the dual system each occupies one communication module to perform the download data service resource allocation. Regardless of whether the dual system allocates resources in the order of request, or is downloaded by each of the two systems, the two communication modules are always open. Even if there is no download, the dual mode has power consumption. The shorter standby time is reduced, which affects the use of mobile terminals.

In summary, the prior art obviously has inconveniences and defects in practical use, so it is necessary to improve.

Summary of the invention

In view of the above drawbacks, an object of the present invention is to provide a method and system for reducing power consumption of a mobile terminal, and a mobile terminal capable of reducing power consumption of the mobile terminal while satisfying data communication service demand of the mobile terminal.

In order to achieve the above object, the present invention provides a method for reducing power consumption of a mobile terminal, the method comprising:

Detecting network performance of the mobile terminal communication module, the mobile terminal communication module including the first communication a module and a second communication module;

When the network performance of the first communication module is better than the second communication module, keeping the first communication module open and closing the second communication module;

Controlling activation of the second communication module according to a network resource allocation situation of the first communication module. According to the method of the present invention, the step of controlling the startup of the second communication module according to the network resource allocation of the first communication module includes:

And allocating a data service request to the first communication module when the network resource allocation of the first communication module does not exceed a preset threshold, keeping the second communication module closed;

And the second communication module is started to be used when the network resource allocation of the first communication module exceeds a preset threshold;

And when the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module.

According to the method of the present invention, after the step of allocating a new data service request to the second communication module, the method further includes:

After the second communication module completes the download of the data service, and the new data service request is not received within the preset time threshold, the second communication module is closed.

According to the method of the present invention, the method further comprises:

When the data service request is not received, the network performance of the first communication module is detected every preset time threshold.

The present invention accordingly provides a system for reducing power consumption of a mobile terminal, the system comprising:

a detecting module, configured to detect network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module;

a control module, when the network performance of the first communication module is better than the second communication module, maintaining the first communication module to turn on and off the second communication module, and controlling the network resource allocation according to the first communication module The startup of the second communication module.

According to the system of the present invention, the control module is further configured to allocate a data service request to the first communication module when the network resource allocation of the first communication module does not exceed a preset threshold, and maintain the second communication module The control module is further configured to start the second communication module to be used when the network resource allocation of the first communication module exceeds a preset threshold; the control module is further configured to be used as a network of the first communication module When the resource allocation is completed, the second communication module is started and a new data service request is made. Assigned to the second communication module.

According to the system of the present invention, the control module is further configured to: after the second communication module completes the download of the data service, close the second communication module when a new data service request is not received within a preset time threshold.

According to the system of the present invention, the detecting module is further configured to detect network performance of the first communication module every other preset time threshold when the data service request is not received.

The present invention also provides a mobile terminal comprising a processor and a memory, wherein the memory stores a set of program codes, and the processor is configured to call program code stored in the memory for performing the following operations:

Detecting network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module;

When the network performance of the first communication module is better than the second communication module, keeping the first communication module open and closing the second communication module;

Controlling activation of the second communication module according to a network resource allocation situation of the first communication module.

According to the mobile terminal of the present invention, the specific operation of the processor to control the startup of the second communication module according to the network resource allocation of the first communication module includes:

And allocating a data service request to the first communication module when the network resource allocation of the first communication module does not exceed a preset threshold, keeping the second communication module closed;

And the second communication module is started to be used when the network resource allocation of the first communication module exceeds a preset threshold;

And when the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module.

According to the mobile terminal of the present invention, after the step of assigning a new data service request to the second communication module, the processor further performs:

After the second communication module completes the download of the data service, and the new data service request is not received within the preset time threshold, the second communication module is closed.

According to the mobile terminal of the present invention, the processor further performs:

When the data service request is not received, the network performance of the first communication module is detected every preset time threshold.

The invention detects the network performance of the two communication modules of the mobile terminal, maintains the first communication module with better network performance, and closes the second communication module with poor network performance, and simultaneously allocates network resources according to the first communication module. The situation controls the startup of the second communication module, and the invention can close the second communication module when the network resource of the first communication module can meet the data service download requirement, when the network resource of the first communication module cannot meet the data service download requirement The second communication module is further turned on for downloading, so that the power consumption of the mobile terminal is reduced while satisfying the data service downloading requirement of the mobile terminal.

DRAWINGS

1 is a block diagram of a system for reducing power consumption of a mobile terminal according to the present invention;

2 is a flow chart of a method for reducing power consumption of a mobile terminal according to the present invention;

3 is a flowchart of controlling startup of a second communication module according to a network resource allocation situation of a first communication module;

4 is a flow chart of an application embodiment of the present invention applied to a dual mode dual system mobile terminal;

Figure 5 is a block diagram of a mobile terminal of the present invention.

detailed description

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in FIG. 1 , the present invention is a system 100 for reducing power consumption of a mobile terminal. The system 100 can be applied to mobile terminals such as mobile phones, PDAs (Personal Digital Assistants), and tablet computers. The utility model has two or more communication modules, such as a dual card dual standby mobile terminal, a multi-card multi-standby mobile terminal, a dual standby dual-pass mobile terminal, a multi-standby multi-pass mobile terminal, a dual-mode mobile terminal, a multi-mode mobile terminal, and the like. The system may be a software unit, a hardware unit or a combination of hardware and software built in the mobile terminal. System 100 includes a detection module 10 and a control module 20.

The detecting module 10 is configured to detect network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module.

The control module 20, when the network performance of the first communication module is better than the second communication module, keep the first communication module open and close the second communication module, and control the network resource according to the first communication module The startup of the second communication module is described. The network performance of the communication module is usually passed through The parameters such as width and delay are reflected. The communication module with larger bandwidth and lower delay has better network performance, while the communication module with smaller bandwidth and higher delay has poor network performance.

The invention can close the second communication module when the network resource of the first communication module can meet the data service download requirement, and then open the second communication module to download when the network resource of the first communication module cannot meet the data service download requirement, thereby The mobile terminal reduces the power consumption of the mobile terminal while satisfying the downloading requirements of the data service of the mobile terminal.

Preferably, the control module 20 is further configured to: when the network resource allocation of the first communication module does not exceed the preset threshold, allocate the data service request to the first communication module, and keep the second communication module closed; the control module 20 further uses The second communication module is started to be used when the network resource allocation of the first communication module exceeds a preset threshold; the control module 20 is further configured to: when the network resource of the first communication module is allocated, start the second communication module and A new data service request is assigned to the second communication module. Specifically, the first communication module with better network performance is always kept open, and the data service requests from the system are all sent to the first communication module, and the second communication module is opened when the network resource of the first communication module is about to be used up. Allocating a new data service request to the second communication module when the network resource of the first communication module is allocated, so that the second communication module can be turned off to reduce power consumption when the network resource of the first communication module meets the data service requirement, When the network resource of the first communication module is allocated, the second communication module completes the new data service, which satisfies the data service requirement of the mobile terminal.

Preferably, the control module 20 is further configured to: after the second communication module completes the download of the data service, close the second communication module when a new data service request is not received within a preset time threshold. Specifically, if the second communication module needs to be opened for data service downloading, the mobile terminal may be in a peak period of data service request. If the second communication module completes the data service download and immediately shuts down, it is possible to reopen the second communication module due to a large number of new data service requests during the peak period, which may cause the second communication module to be opened in time during the peak period of the data service request. Delay and increase power consumption. Therefore, in this implementation, after the second communication module completes the download of the data service, the second communication module is closed when the new data service request is not received within a preset time period (for example, 5 minutes), so that the second communication module can be enabled. Timely processing the sudden large amount of data service requirements of mobile terminals.

Preferably, the detecting module is further configured to detect network performance of the first communication module every other preset time threshold when the data service request is not received. Specifically, when there is a data service request, the detecting module can learn the network performance according to the data service downloading situation of the first communication module, and when there is no data service request, it is required to ensure that the first communication module always has good network performance. Meet data services request. Therefore, the present invention detects the network performance of the first communication module every predetermined time period (for example, one minute) when there is no data service request, and if the network performance of the first communication module is poor, the second communication module needs to be enabled. The second communication module is exchanged with the first communication module, and the communication module with better network performance is always turned on. Therefore, the data service downloading requirement of the mobile terminal can be timely responded, and when there is no data service downloading, the detection time interval of the network state is increased, and part of the power consumption is reduced.

The present invention also provides a mobile terminal comprising the above-described system 100 for reducing power consumption of a mobile terminal.

2 is a flow chart of a method of reducing power consumption of a mobile terminal according to the present invention. The method is implemented by system 100 as shown in FIG. 1, the method comprising:

Step S201, detecting network performance of the communication module of the mobile terminal, where the mobile terminal communication module includes a first communication module and a second communication module. This step is implemented by the detection module 10. The network performance of the communication module is usually reflected by parameters such as bandwidth and delay. The communication module with larger bandwidth and lower delay has better network performance, and the network performance of the communication module with smaller bandwidth and higher delay. Poor.

Step S202: When the network performance of the first communication module is better than the second communication module, keep the first communication module open and close the second communication module. This step is implemented by the control module 20.

Step S203, controlling startup of the second communication module according to the network resource allocation of the first communication module. This step is implemented by the control module 20.

Preferably, the method further comprises: detecting the network performance of the first communication module every other preset time threshold when the data service request is not received.

3 is a flow chart for controlling activation of a second communication module according to a network resource allocation situation of the first communication module. The process includes:

Step S301, when the network resource allocation of the first communication module does not exceed the preset threshold, the data service request is allocated to the first communication module, and the second communication module is kept closed.

Step S302, when the network resource allocation of the first communication module exceeds a preset threshold, the second communication module is started to be used;

Step S303, when the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module. Preferably, after the step of allocating the new data service request to the second communication module, the method further includes: after the second communication module completes the download of the data service, the new data service request is not received within the preset time threshold and the first It is closed when the network resource allocation of a communication module does not exceed the preset threshold.

4 is a flow chart of an application embodiment of the present invention applied to a dual mode dual system mobile terminal, the process including:

In step S401, the dual mode data service is opened.

Step S402, detecting network performance of two communication modules.

Step S403, retaining the first communication module with better network performance, and closing the second communication module with relatively poor network performance.

Step S404, receiving a data service request from the dual system.

Step S405, determining whether the network resource allocation of the first communication module exceeds a threshold. Specifically, the threshold can be set to 95%. If yes, go to step S407, otherwise go to step 406.

Step S406, the data service request is allocated to the first communication module.

Step S407, the second communication module is opened. Go to step S408.

Step S408, determining whether the network resource allocation of the first communication module is allocated, if not, returning to step S406, otherwise proceeding to step S409.

Step S409, the new data service request is allocated to the second communication module. Go to step S410.

Step S410, the second communication module data service download is completed.

Step S411, determining whether the second communication module does not receive a new data service request within a preset time period. If yes, go to step S412, otherwise go to S409.

Step S412, the second communication module is turned off.

In summary, the present invention detects the network performance of two communication modules of the mobile terminal, maintains the first communication module with better network performance, and closes the second communication module with poor network performance, and according to the first communication. The network resource allocation of the module controls the startup of the second communication module. The invention can close the second communication module when the network resource of the first communication module can meet the data service download requirement, and the network resource of the first communication module cannot be satisfied. When the data service downloads the demand, the second communication module is further opened for downloading, thereby reducing the power consumption of the mobile terminal while satisfying the downloading requirement of the data service of the mobile terminal.

5 is a block diagram of a mobile terminal according to the present invention. As shown in FIG. 5, the mobile terminal 5 may include: at least one processor 51, such as a CPU, at least one communication bus 52 and a memory 53; and a communication bus 52 for implementing The connection communication between these components; the memory 53 may be a high speed RAM memory or a non-volatile memory such as at least one disk memory. A set of program codes is stored in the memory 53, and the processor 51 is used The program code stored in the memory 53 is called to perform the following operations:

Detecting network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module;

When the network performance of the first communication module is better than the second communication module, keeping the first communication module open and closing the second communication module;

Controlling activation of the second communication module according to a network resource allocation situation of the first communication module.

Optionally, the specific operation of the processor 51 to control the startup of the second communications module according to the network resource allocation of the first communications module includes:

And allocating a data service request to the first communication module when the network resource allocation of the first communication module does not exceed a preset threshold, keeping the second communication module closed;

And the second communication module is started to be used when the network resource allocation of the first communication module exceeds a preset threshold;

And when the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module.

Optionally, after the step of the processor 51 to allocate a new data service request to the second communication module, the method further performs:

After the second communication module completes the download of the data service, and the new data service request is not received within the preset time threshold, the second communication module is closed.

Optionally, the processor 51 further performs:

When the data service request is not received, the network performance of the first communication module is detected every preset time threshold.

The invention may, of course, be embodied in a variety of other embodiments without departing from the spirit and scope of the invention. Changes and modifications are intended to be included within the scope of the appended claims.

Claims (12)

1. A method for reducing power consumption of a mobile terminal, the method comprising:

   Detecting network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module;

   When the network performance of the first communication module is better than the second communication module, keeping the first communication module open and closing the second communication module;

   Controlling activation of the second communication module according to a network resource allocation situation of the first communication module.
2. The method according to claim 1, wherein the step of controlling the startup of the second communication module according to the network resource allocation of the first communication module comprises:

   And allocating a data service request to the first communication module when the network resource allocation of the first communication module does not exceed a preset threshold, keeping the second communication module closed;

   And the second communication module is started to be used when the network resource allocation of the first communication module exceeds a preset threshold;

   And when the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module.
3. The method according to claim 2, wherein the step of allocating a new data service request to the second communication module further comprises:

   After the second communication module completes the download of the data service, and the new data service request is not received within the preset time threshold, the second communication module is closed.
4. The method of claim 1 further comprising:

   When the data service request is not received, the network performance of the first communication module is detected every preset time threshold.
5. A system for reducing power consumption of a mobile terminal, characterized in that the system comprises:

   a detecting module, configured to detect network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module;

   a control module, when the network performance of the first communication module is better than the second communication module, maintaining the first communication module to turn on and off the second communication module, and controlling the network resource allocation according to the first communication module The startup of the second communication module.
6. The system according to claim 5, wherein the control module is further configured to allocate a data service request to the first communication module when a network resource allocation of the first communication module does not exceed a preset threshold. And maintaining the second communication module to be closed; the control module is further configured to start the second communication module to be used when the network resource allocation of the first communication module exceeds a preset threshold; the control module is further used to When the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module.
7. The system according to claim 6, wherein the control module is further configured to: when the second communication module completes the download of the data service, close the new data service request within a preset time threshold. The second communication module is described.
8. The system according to claim 5, wherein the detecting module is further configured to detect network performance of the first communication module every other preset time threshold when the data service request is not received.
9. A mobile terminal, comprising: a processor and a memory, wherein the memory stores a set of program codes, and the processor is configured to call program code stored in the memory for execution The following operations:

   Detecting network performance of the mobile terminal communication module, where the mobile terminal communication module includes a first communication module and a second communication module;

   When the network performance of the first communication module is better than the second communication module, keeping the first communication module open and closing the second communication module;

   Controlling activation of the second communication module according to a network resource allocation situation of the first communication module.
10. The mobile terminal according to claim 9, wherein the specific operation of the processor to control the startup of the second communication module according to the network resource allocation of the first communication module comprises:

    And allocating a data service request to the first communication module when the network resource allocation of the first communication module does not exceed a preset threshold, keeping the second communication module closed;

    And the second communication module is started to be used when the network resource allocation of the first communication module exceeds a preset threshold;

    And when the network resource of the first communication module is allocated, the second communication module is started and a new data service request is allocated to the second communication module.
11. The mobile terminal according to claim 10, wherein after the step of the processor assigning a new data service request to the second communication module, further performing:

    After the second communication module completes the download of the data service, and the new data service request is not received within the preset time threshold, the second communication module is closed.
12. The mobile terminal of claim 9, wherein the processor further performs:

    When the data service request is not received, the network performance of the first communication module is detected every preset time threshold.

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