WO2015154388A1 - Network mode switching method, device and terminal - Google Patents

Abstract

Provided are a network mode switching method, device and terminal, the method comprising: monitoring the terminal status and obtaining a network mode parameter; determining whether the terminal satisfies the switching condition of switching from a current first network mode to a second network mode, and obtaining a first determination result, the second speed of the terminal in the second network mode being lower than the first speed of the terminal in the current first network mode; when the first determination result indicates that the terminal satisfies the switching condition, determining a target network mode matching the network mode parameter in the second network mode; and switching the terminal from the first network mode to the target network mode. The present invention can switch a terminal from an unnecessarily high speed network mode to a low speed network mode, reducing the radio frequency power consumption of the terminal, thus extending terminal stand-by time and improving user experience.

Description

Network mode switching method, device and terminal Technical field

The present invention relates to the field of terminals, and in particular, to a network mode switching method, apparatus, and terminal.

Background technique

In the field of portable devices, the use of smart terminals is increasing in people's work and life. The ever-increasing use of demand continues to flood the entire terminal industry, and mobile terminals have to undertake personal work and entertainment needs while providing basic communication functions. The functions of the mobile phone platform are constantly expanding, and various mobile phone applications are constantly being generated. The time for users to use the mobile phone every day is also increasing. In this context, how to extend the life time of mobile phones to enhance the customer experience, or how to reduce the power consumption of mobile phones has become an increasingly important research topic.

Radio frequency power consumption is often the “big family” of mobile phone power consumption. Radio frequency power consumption refers to the power consumption of mobile phone RF circuits. The mobile phone RF circuit refers to the processing of the RF band signal circuit, which generally includes a power amplifier (for transmission), a low noise amplifier (for receiving), an antenna, and some auxiliary circuits. That is to say, the radio frequency power consumption is mainly the power consumption caused by the communication between the terminal and the base station, and the main part of the communication is that the terminal needs to perform network searching, data service and call. In addition, all major operators are currently commercializing Long Term Evolution (LTE) networks, and both require support for similar technologies such as GAM and LTE network synchronization support technologies (Simultaneous GSM and LTE, SGLTE) and LTE network-based voice technology (Simultaneous Voice). And voice synchronization technology such as LTE, SVLTE), and thus power consumption for radio frequency will be further enhanced.

It has been found through experiments that the existing terminals have at least the following problems when radio frequency power consumption occurs:

<Question 1> After inserting a non-4G card, the mobile terminal frequently performs LTE to find the network, causing power consumption;

<Question 2> In the state where the data service is closed, the mobile terminal has the useless standby of the LTE (Frequency Division Duplex FDD/Time Division Duplex TDD) network, causing power consumption;

<Question 3> In the case of low data amount standby, data transmission is performed using an unnecessary high-speed data (4G or 3G) network, causing power consumption.

That is to say, when the terminal is in some low-speed network mode, due to the unnecessary high-speed network mode being turned on, the terminal radio frequency power consumption is increased, and the standby time is shortened.

Summary of the invention

The object of the present invention is to provide a network mode switching method, device and terminal, which automatically switch a terminal from an unnecessary high-speed network mode to a low-speed network mode, thereby reducing the radio frequency power consumption of the terminal, thereby extending the standby time of the terminal and improving the user. Experience.

In order to achieve the above object, an embodiment of the present invention provides a network mode switching method, which is used for a terminal. The method includes: listening to the terminal status, acquiring a network mode parameter, and determining whether the terminal meets the current a switching condition of the network mode switching to the second network mode, obtaining a first determination result; wherein, the second rate of the terminal in the second network mode is lower than the first network mode in which the terminal is currently located a rate; determining, when the first determination result indicates that the terminal is required to meet the handover condition, determining, in the second network mode, a target network mode that matches the network mode parameter; The first network mode switches to the target network mode.

The network mode switching method, where the network mode parameter includes a type parameter of a user identification card of the terminal, a network state parameter of the terminal in a first network mode, and a current data traffic state parameter of the terminal. At least one of them.

The network mode switching method, wherein, when the network mode parameter is a type parameter of a user identification card of the terminal, determining whether the terminal satisfies a first network mode to a second network mode The switching result of the switching is obtained by: determining, according to the type parameter of the user identification card of the terminal, whether the user identification card belongs to the fourth generation mobile communication technology 4G card, and identifying the user When the card does not belong to the 4G card, it is determined that the first determination result is that the terminal satisfies the switching condition.

The network mode switching method, wherein the network mode parameter further includes a card status parameter of the user identification card, the method further comprising: determining, according to the card status parameter, whether the user identification card is in a ready state, Obtaining a second determination result; the determining whether the terminal meets a handover condition that is switched from the first network mode to the second network mode, and obtaining the first determination result is specifically: when the second determination result indicates After the user identification card is in the ready state, it is determined whether the user identification card belongs to the 4G card according to the type parameter of the user identification card, and the first determination result is obtained.

The network mode switching method, wherein the method further includes: determining whether the terminal is using a data service, and obtaining a third determination result; and determining whether the terminal meets a first network mode that is currently in use And determining, by the second network mode switching condition, that the first determining result is: when the third determining result indicates that the terminal does not use the data service, determining, according to the network state parameter, that the terminal is currently located first Whether the network mode is a network mode in which a data service is used, and the first network mode in which the terminal is currently located When the network mode of the data service is used, determining that the first determination result is that the terminal satisfies the switching condition.

The network mode switching method, wherein the determining whether the terminal satisfies a handover condition that is currently switched from the first network mode to the second network mode, and obtaining the first determination result is specifically: when the third determination When the result indicates that the terminal is using the data service, determining, according to the data traffic state parameter, whether the average traffic value of the terminal within a first preset time threshold is lower than a preset average traffic threshold, and at the terminal When the average flow rate value in the first preset time threshold range is lower than the preset average flow rate threshold, determining that the first determination result is that the terminal meets the switching condition.

In order to achieve the above object, an embodiment of the present invention further provides a network mode switching apparatus, which is used for a terminal, where the apparatus includes: a monitoring module, configured to monitor the state of the terminal, and acquire a network mode parameter; the first determining module, setting Obtaining a first determination result, in order to determine whether the terminal meets a handover condition that is switched from the first network mode to the second network mode, where the second rate of the terminal in the second network mode is lower than a first rate in the first network mode in which the terminal is currently located; a determining module, configured to determine, in the second network mode, when the first determining result indicates that the terminal needs to meet the switching condition The target network mode matched by the network mode parameter; the switching module is configured to switch the terminal from the first network mode to the target network mode.

The network mode switching device, wherein the network mode parameter includes a type parameter of a user identification card of the terminal, a network state parameter of the terminal in a first network mode, and a current data traffic state parameter of the terminal. At least one of them.

The network mode switching device, wherein, when the network mode parameter is a type parameter of a user identification card of the terminal, the first determining module includes: a first determining sub-module, configured according to the terminal Determining whether the user identification card belongs to the fourth generation mobile communication technology 4G card, and determining that the first determination result is that the terminal is satisfied when the user identification card does not belong to the 4G card The switching condition.

The network mode switching device, wherein the network mode parameter further includes a card status parameter of the user identification card, the device further comprising: a second determining module, configured to determine the user according to the card status parameter Determining whether the card is in a ready state, obtaining a second determination result; the first determining sub-module is specifically: when the second determination result indicates that the user identification card is in a ready state, according to the type parameter of the user identification card And determining whether the user identification card belongs to a 4G card, and obtaining the first determination result.

The network mode switching device, wherein the device further includes: a third determining module, configured to determine whether the terminal is using a data service, and obtain a third determination result; the first determining module specifically includes: a second determining sub-module, configured to determine, according to the network state parameter, whether the first network mode in which the terminal is currently located is using a data service, when the third determining result indicates that the terminal does not use the data service And a network mode, and when the first network mode in which the terminal is currently located is a network mode in which a data service is used, determining that the first determination result is that the terminal meets the handover condition.

The network mode switching device, wherein the first determining module includes: a third determining submodule, configured to: when the third determining result indicates that the terminal is using data services, according to the data traffic state parameter, Determining whether the average traffic value of the terminal within a first preset time threshold is lower than a preset average traffic threshold, and the average traffic value of the terminal within a first preset time threshold is lower than a preset average traffic When the threshold is determined, the first determination result is determined that the terminal satisfies the switching condition.

In order to achieve the above object, an embodiment of the present invention further provides a terminal, where the terminal includes the network mode switching device according to any one of the above.

The embodiment of the present invention has at least one of the following beneficial effects: in the embodiment of the present invention, the network mode supported by the user identification card can be dynamically configured according to the type parameter of the user identification card of the terminal, thereby avoiding an unnecessary network searching process. The radio frequency power consumption of the terminal is reduced. In the embodiment of the present invention, the network mode can be dynamically adjusted according to the current network state parameter, the unused network resident is removed, the frequent network monitoring process is avoided, and the terminal radio frequency power consumption is reduced. In the embodiment of the present invention, the data service network can be dynamically adjusted according to the data traffic state parameter, and the unnecessary high-speed data service network is closed, thereby reducing the terminal radio frequency power consumption, extending the standby time of the terminal, and improving the user experience.

DRAWINGS

FIG. 1 is a schematic flowchart of a network mode switching method according to an embodiment of the present disclosure;

2 is a schematic flowchart of a state of a listening terminal according to an embodiment of the present invention;

FIG. 3 is a schematic flowchart of performing network mode switching according to a type parameter of a user identification card according to an embodiment of the present disclosure;

4 is a schematic flowchart of performing network mode switching according to a network state parameter according to an embodiment of the present invention;

FIG. 5 is a schematic flowchart of performing network mode switching according to a data traffic state parameter according to an embodiment of the present disclosure;

FIG. 6 is a schematic structural diagram of a network mode switching apparatus according to an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a listening module in a network mode switching apparatus according to an embodiment of the present invention.

detailed description

The technical problems, the technical solutions, and the advantages of the embodiments of the present invention will be more clearly described in the following description.

The embodiment of the present invention provides a network mode switching method, which is used in a terminal. The method is as shown in FIG. 1 and includes:

Step 11: Listen to the status of the terminal, and obtain a network mode parameter.

Step 12: Determine whether the terminal meets a handover condition that is switched from the first network mode to the second network mode, and obtain a first determination result. The second rate of the terminal in the second network mode is low. a first rate in a first network mode in which the terminal is currently located;

Step 13: When the first determination result indicates that the terminal needs to meet the handover condition, determine, in the second network mode, a target network mode that matches the network mode parameter;

Step 14: Switch the terminal from the first network mode to the target network mode.

In the method provided by the embodiment of the present invention, when the terminal is in an unnecessary high-speed network mode, the second rate of the terminal in the second network mode is lower than the first mode in the first network mode where the terminal is currently located. Rate, where the second rate is the highest uplink rate or the highest downlink rate, and correspondingly, the first rate is the highest uplink rate or the highest downlink rate, that is, the terminal satisfies the first network mode from the current network mode to the second network. When the mode is switched, the terminal automatically switches to the low-speed network mode that matches the network mode parameters, reducing the radio frequency power consumption of the terminal, thereby extending the standby time of the terminal and improving the user experience.

In the above network mode switching method, preferably, the network mode parameter includes a type parameter of a user identification card of the terminal, a network state parameter of the terminal in a first network mode, and a current data traffic state of the terminal. At least one of the parameters.

In an actual application, a customized background service may be extended on the terminal, so that the service is triggered after the terminal is started, and the terminal status is monitored to obtain the network mode parameter. The specific process is shown in Figure 2, including:

Step 21: Registering a notification of power-on, for automatically starting subsequent logical processing after receiving the booting process;

In step 22, after receiving the message that the power-on is completed, the service of the customized extension is started, and the service is mainly used for terminal state monitoring to obtain network mode parameters.

Step 23: Registering a card state change receiver, a network state change receiver, and a callback process for changing the data state, and receiving a change message when the network mode parameter is changed.

The network mode switching method provided by the embodiment of the present invention is separately described below for the foregoing network mode parameters.

<Type parameter of user identification card>

When the network mode parameter is a type parameter of the user identification card of the terminal, determining whether the terminal satisfies a switching condition that is switched from the first network mode to the second network mode, and obtains a first determination The result is specifically:

Determining, according to the type parameter of the user identification card of the terminal, whether the user identification card belongs to the fourth generation mobile communication technology 4G card, and determining the first determination when the user identification card does not belong to the 4G card As a result, the terminal satisfies the switching condition.

Specific applications are pre-stored on current 4G cards. For example, the universal integrated circuit card UICC has pre-stored information such as user information, authentication key, payment method, etc., and the pre-stored application program includes electronic signature authentication and the like. The card can be determined to be a UICC card by reading the application type on the UICC. Therefore, in the embodiment of the present invention, specifically, it is possible to determine whether the user identification card is a 4G card according to the application type by reading the application type on the user identification card of the terminal.

It has been proved by experiments that if the terminal inserts a non-4G card, the terminal will frequently perform LTE to find the network, thereby causing power consumption. Therefore, when the user identification card does not belong to the 4G card according to the type parameter of the user identification card, it is determined that the network mode switching of the terminal is required at this time.

The target network mode can be determined based on the type parameter of the subscriber identity card. For example, when the type parameter of the inserted subscriber identity card indicates that the card is a telecommunications 3G card, the target network mode is preferably an EvDO, CDMA auto network mode; if a telecommunications 2G card is inserted, then the target network mode is preferably CDMA Only mode.

It should be noted that the above-mentioned acquisition of the type parameter of the subscriber identity card is generally established after the subscriber identity card is already in the ready state. That is, the network mode parameter further includes a card status parameter of the user identification card, and the method further includes:

Determining, according to the card status parameter, whether the user identification card is in a ready state, and obtaining a second determination result;

Determining whether the terminal satisfies a handover condition that is switched from the first network mode to the second network mode, and obtains the first determination result specifically:

After the second determination result indicates that the user identification card is in the ready state, determining whether the user identification card belongs to the 4G card according to the type parameter of the user identification card, and obtaining the first determination result.

When the status of the user identification card of the terminal changes, it is necessary to determine whether the user identification card is in the ready state. The card status change of the subscriber identity card generally occurs during the process of the terminal power on/off. If the subscriber identity card is not in the ready state, it is necessary to continue to wait for subsequent acquisition of the card state parameters until the card state changes.

The detailed process of switching the network mode according to the type parameter of the user identification card is as shown in FIG. 3, including:

Step 31: Receive a card status change message, and after the card status is changed, the card status change receiver registered in step 23 receives the notification;

Step 32: Analyze the card status parameter, determine whether the current status of the user identification card is in the ready Ready state, and if yes, proceed to step 33, otherwise continue to wait for subsequent card status change notifications;

Step 33: Read the application type on the user identification card (may also determine whether the card belongs to the 4G user card together with the number of applications);

Step 34, by the application type to determine whether it is a 4G user card, if it is a 4G user card, then temporarily do not process, continue to standby, otherwise proceeds to step 35;

Step 35: Determine a target network mode corresponding to the parameter type of the user identification card, and switch to the target network mode, that is, turn off the automatic mode, and only enable the 3G or 2G corresponding network mode to stand by;

In step 36, after the network mode adjustment is completed, the network standby is started.

The above process can dynamically configure the network mode supported by the user identification card according to the type parameter of the user identification card of the terminal, thereby avoiding an unnecessary network searching process and reducing the terminal radio frequency power consumption.

In addition to the non-4G card inserted in the terminal, the terminal will cause unnecessary consumption of power. In the case where the data service is not used, there is also a problem that the LTE network is useless. Therefore, in the embodiment of the present invention, the network mode switching may also be performed according to the terminal network state parameter, and the specific process is as follows.

<network status parameter>

The method further includes:

Determining whether the terminal is using the data service, and obtaining a third determination result;

Determining whether the terminal satisfies a handover condition that is switched from the first network mode to the second network mode, and obtains a first determination result:

When the third determination result indicates that the terminal does not use the data service, determine, according to the network state parameter, whether the first network mode in which the terminal is currently located is a network mode in which a data service is used, and in the terminal When the first network mode currently in use is a network mode in which the data service is used, determining that the first determination result is that the terminal satisfies the switching condition.

If the terminal does not currently use the data service, but the network type parameter indicates that the terminal is registered to the first network mode that needs to use the data service, for example, a 4G or 3G network, then the network mode of the terminal needs to be switched at this time.

There are many methods for judging whether the data service is being used, and whether the terminal currently has data traffic generated or whether the terminal has opened the data service or the like.

When determining the target network mode, the target network mode can preferably be determined directly as a normal voice network.

The detailed process of switching the network mode according to the network state parameters of the terminal is as shown in FIG. 4, including:

Step 41: Receive a message that the network status parameter is changed, and trigger a process for the network status change.

Step 42: Determine whether the terminal is using the data service, and determine whether the data service is opened by using the data service.

Step 43: If the data service is open, enter a process of performing network mode switching processing according to the data traffic parameter;

Step 44: If the data service is not opened, obtain a network state parameter of the first network mode where the terminal is currently located;

Step 45, determining whether the current network is registered to the 4G or 3G network using the data service through the network status parameter, if not registered to the 4G or 3G network, then using the normal voice network for standby, otherwise proceeds to step 46;

Step 46: If the terminal has not registered to the 4G network, since the terminal does not currently use the data service, then the unnecessary 4G or 3G network is closed to avoid unnecessary network searching and hosting process;

In step 47, the voice network is used normally.

The above process can dynamically adjust the network mode according to the current network state parameters, remove unused network resident, avoid frequent network monitoring processes, and reduce terminal radio frequency power consumption.

In the above process, if the terminal is using data services, it is necessary to determine whether network mode switching is required according to the data traffic status parameter. The process is as follows.

<data flow status parameter>

Determining whether the terminal satisfies a handover condition that is switched from the first network mode to the second network mode, and obtains the first determination result specifically:

When the third determination result indicates that the terminal is using the data service, determining, according to the data traffic state parameter, whether the average traffic value of the terminal within a first preset time threshold is lower than a preset average traffic threshold. And determining, when the average traffic value of the terminal in the first preset time threshold is lower than the preset average traffic threshold, that the first determining result is that the terminal meets the switching condition.

In an embodiment of the invention, preferably, an empirical value, for example 10 minutes, can be selected by initiating a timer, timed. The average terminal traffic value of the terminal within the first preset time threshold is calculated by calculating the uplink and downlink traffic within the first preset time threshold. The preset average flow threshold can also be set based on empirical values, for example set to 5k.

If the average traffic value of the terminal is higher than the preset average traffic threshold, the terminal is in the network mode of high-speed data service transmission. In this case, the network mode may not be switched. Otherwise, the terminal may be switched to the lower-speed network mode. Of course, at this time, it is possible to further determine whether network mode switching is required by the network state parameter of the terminal. If the terminal itself is already in the low-speed network mode, no handover is required. If the terminal itself is in a high-speed network mode, such as 4G or 3G mode, it can be switched to a low-speed 2G network mode.

The detailed process of switching the network mode according to the network state parameters of the terminal is as shown in FIG. 5, including:

Step 51, receiving a data registration change message;

Step 52: Start a timer, and the set time threshold may be an empirical value, such as 10 minutes;

Step 53: Start to count the uplink and downlink data traffic values of the terminal in the time threshold, and calculate an average traffic value per second in the time range;

Step 54: Set an average traffic threshold value within a time threshold according to an empirical value, for example, 5 k. If the average traffic calculated in step 53 is less than the traffic threshold, it is considered to be a low-speed data transmission, and if it is greater than the traffic threshold, it is considered to be a high-speed data. Transmission, in this case no network switching;

Step 55: If the network is a low-speed network, the network state parameter of the terminal needs to be obtained.

Step 56, it is determined whether to register to the 4G or 3G network, if not, then use the 2G network standby, normal standby, otherwise proceed to step 57;

Step 57, if the 4G or 3G network has been registered, then the 4G or 3G network is shut down and switched to 2G Mode;

In step 58, the data is re-established using the 2G network to ensure low-traffic data requirements;

In step 59, after the above steps are adjusted, the normal network is standby.

Of course, if the network mode of the terminal has been switched to the low-speed network mode in the above process, once the uplink and downlink data traffic of the terminal is always in the full load state within a certain time range, for example, 1 minute, the high-speed network mode is automatically switched. Chain-building transmission to enhance the user experience.

The foregoing process can dynamically adjust the data service network according to the data traffic state parameter, close the unnecessary high-speed data service network, achieve the purpose of reducing the terminal radio frequency power consumption, extend the terminal standby time, and improve the user experience.

When the network mode switching is performed according to the network mode parameter, in order to further improve the user experience, the user reverse operation entry should be provided on the terminal. That is, after switching from the high speed network mode to the low speed network mode, the terminal user is notified that the power saving mode has been entered. At the same time, the user is prompted to cancel the switch and return to the original high-speed network mode.

Of course, after the terminal is switched from the relatively high-speed first network mode to the lower-speed second network mode, the terminal can be monitored at any time. Once the terminal needs the status display to require a faster network rate, it can be switched back at any time. High-speed network mode.

The embodiment of the present invention further provides a network mode switching device, which is used in a terminal, and the device, as shown in FIG. 6, includes:

The monitoring module 61 is configured to monitor the state of the terminal and obtain a network mode parameter.

The first determining module 62 is configured to determine whether the terminal meets a switching condition that is switched from the first network mode to the second network mode, and obtains a first determination result; wherein the terminal is in the second network mode The second rate is lower than the first rate in the first network mode in which the terminal is currently located;

The determining module 63 is configured to determine, in the second network mode, a target network mode that matches the network mode parameter, when the first determining result indicates that the terminal needs to meet the switching condition;

The switching module 64 is configured to switch the terminal from the first network mode to the target network mode.

The network mode switching device, wherein the network mode parameter includes a type parameter of a user identification card of the terminal, a network state parameter of the terminal in a first network mode, and a current data traffic state parameter of the terminal. At least one of them.

In the above network mode switching device, when the network mode parameter is a type parameter of the user identification card of the terminal, the first determining module includes:

The first determining sub-module is configured to determine, according to the type parameter of the user identification card of the terminal, whether the user identification card belongs to a fourth-generation mobile communication technology 4G card, and the user identification card does not belong to the 4G card And determining, by the first determination result, that the terminal meets the handover condition.

The network mode switching device, wherein the network mode parameter further includes a card status parameter of the user identification card, and the device further includes:

The second determining module is configured to determine, according to the card status parameter, whether the user identification card is in a ready state, and obtain a second determination result;

The first determining submodule is specifically:

After the second determination result indicates that the user identification card is in the ready state, determining whether the user identification card belongs to the 4G card according to the type parameter of the user identification card, and obtaining the first determination result.

The above network mode switching device, wherein the device further includes:

The third determining module is configured to determine whether the terminal is using the data service, and obtain a third determination result;

The first determining module specifically includes:

a second determining sub-module, configured to determine, according to the network state parameter, whether the first network mode currently in which the terminal is located is a usage data service, when the third determination result indicates that the terminal does not use the data service The network mode, and when the first network mode in which the terminal is currently located is a network mode in which a data service is used, determining that the first determination result is that the terminal satisfies the switching condition.

The network mode switching device, wherein the first determining module comprises:

The third determining sub-module is configured to determine, according to the data traffic state parameter, an average flow value of the terminal within a first preset time threshold range, when the third determining result indicates that the terminal is using the data service Whether it is lower than the preset average traffic threshold, and when the average traffic value of the terminal within the first preset time threshold range is lower than the preset average traffic threshold, determining that the first determination result is that the terminal meets the Switch conditions.

The specific structure of the monitoring module 61 is as shown in FIG. 7, and includes:

The service extension module 71 is mainly responsible for constructing a background monitoring service of the custom extension;

The card status monitoring module 72 is mainly responsible for authenticating the card status and judging the card type, processing the card status, and determining the card type after the card is in the Ready state. If the card is a 4GlTE card, then the network type is not subsequently switched, and vice versa. The card type is 3G or 2G card, then the subsequent switch card is the corresponding network mode;

The network monitoring module 73 is mainly responsible for monitoring the network status of the terminal, and subsequently controlling the network type when switching standby;

The data monitoring module 74 is mainly responsible for monitoring the data traffic. If the traffic is always in a low traffic state within a limited time range, the high-speed data network needs to be subsequently shut down.

In the embodiment of the present invention, by using a background service that is customized and extended after booting, the current network status and data status are monitored, the network mode of the terminal is dynamically adjusted, and an unnecessary network mode in the current scenario is closed, thereby removing unnecessary network search, Registration, data building process, in order to achieve the purpose of power saving, greatly enhance the user experience.

The embodiment of the present invention further provides a terminal, where the terminal includes the network mode switching device according to any one of the above.

The above description is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Industrial applicability

As described above, the above-mentioned embodiments and the preferred embodiments can avoid unnecessary network searching processes and reduce the radio frequency power consumption of the terminal. The frequent network monitoring process can be avoided, and the terminal radio frequency power consumption can be reduced. In the embodiment of the present invention, It can reduce the terminal radio frequency power consumption, extend the terminal standby time, and improve the user experience.

Claims (13)

1. A network mode switching method is used for a terminal, and the method includes:

   Monitoring the status of the terminal, and acquiring network mode parameters;

   Determining whether the terminal satisfies a handover condition that is switched from the first network mode to the second network mode, and obtains a first determination result; wherein, the second rate of the terminal in the second network mode is lower than the The first rate in the first network mode in which the terminal is currently located;

   Determining, in the second network mode, a target network mode that matches the network mode parameter, when the first determination result indicates that the terminal needs to meet the handover condition;

   Switching the terminal from the first network mode to the target network mode.
2. The network mode switching method according to claim 1, wherein the network mode parameter comprises a type parameter of a user identification card of the terminal, a network state parameter of the terminal in a first network mode, and a current status of the terminal. At least one of the data flow status parameters.
3. The network mode switching method according to claim 2, wherein when the network mode parameter is a type parameter of a user identification card of the terminal, the determining whether the terminal satisfies a first network mode currently located The switching condition for switching to the second network mode obtains the first determination result specifically:

   Determining, according to the type parameter of the user identification card of the terminal, whether the user identification card belongs to the fourth generation mobile communication technology 4G card, and determining the first determination when the user identification card does not belong to the 4G card As a result, the terminal satisfies the switching condition.
4. The network mode switching method of claim 3, wherein the network mode parameter further comprises a card status parameter of the user identification card, the method further comprising:

   Determining, according to the card status parameter, whether the user identification card is in a ready state, and obtaining a second determination result;

   Determining whether the terminal satisfies a handover condition that is switched from the first network mode to the second network mode, and obtains the first determination result specifically:

   After the second determination result indicates that the user identification card is in the ready state, determining whether the user identification card belongs to the 4G card according to the type parameter of the user identification card, and obtaining the first determination result.
5. The network mode switching method according to claim 2, wherein the method further comprises:

   Determining whether the terminal is using the data service, and obtaining a third determination result;

   Determining whether the terminal satisfies a handover condition that is switched from the first network mode to the second network mode, and obtains the first determination result specifically:

   When the third determination result indicates that the terminal does not use the data service, determine, according to the network state parameter, whether the first network mode in which the terminal is currently located is a network mode in which a data service is used, and in the terminal When the first network mode currently in use is a network mode in which the data service is used, determining that the first determination result is that the terminal satisfies the switching condition.
6. The network mode switching method according to claim 3, wherein the determining whether the terminal satisfies a handover condition that is currently switched from the first network mode to the second network mode, and obtaining the first determination result is specifically:

   When the third determination result indicates that the terminal is using the data service, determining, according to the data traffic state parameter, whether the average traffic value of the terminal within a first preset time threshold is lower than a preset average traffic threshold. And determining, when the average traffic value of the terminal in the first preset time threshold is lower than the preset average traffic threshold, that the first determining result is that the terminal meets the switching condition.
7. A network mode switching device is provided for a terminal, the device comprising:

   a monitoring module, configured to monitor the state of the terminal, and obtain a network mode parameter;

   a first determining module, configured to determine whether the terminal meets a switching condition that is switched from the first network mode to the second network mode, to obtain a first determination result, where the terminal is in the second network mode The second rate is lower than the first rate in the first network mode in which the terminal is currently located;

   a determining module, configured to determine, in the second network mode, a target network mode that matches the network mode parameter, when the first determination result indicates that the terminal needs to meet the switching condition;

   And a switching module configured to switch the terminal from the first network mode to the target network mode.
8. The network mode switching device according to claim 7, wherein the network mode parameter comprises a type parameter of a subscriber identity card of the terminal, a network state parameter of the terminal in a first network mode, and a current state of the terminal. At least one of the data flow status parameters.
9. The network mode switching device according to claim 8, wherein when the network mode parameter is a type parameter of the user identification card of the terminal, the first determining module specifically includes:

   The first determining sub-module is configured to determine, according to the type parameter of the user identification card of the terminal, whether the user identification card belongs to a fourth-generation mobile communication technology 4G card, and the user identification card does not belong to the 4G card And determining, by the first determination result, that the terminal meets the handover condition.
10. The network mode switching device of claim 9, wherein the network mode parameter further comprises a card status parameter of the user identification card, the device further comprising:

    The second determining module is configured to determine, according to the card status parameter, whether the user identification card is in a ready state, and obtain a second determination result;

    The first determining submodule is specifically:

    After the second determination result indicates that the user identification card is in the ready state, determining whether the user identification card belongs to the 4G card according to the type parameter of the user identification card, and obtaining the first determination result.
11. The network mode switching device of claim 8, wherein the device further comprises:

    The third determining module is configured to determine whether the terminal is using the data service, and obtain a third determination result;

    The first determining module specifically includes:

    a second determining sub-module, configured to determine, according to the network state parameter, whether the first network mode in which the terminal is currently located is using a data service, when the third determining result indicates that the terminal does not use the data service And a network mode, and when the first network mode in which the terminal is currently located is a network mode in which a data service is used, determining that the first determination result is that the terminal meets the handover condition.
12. The network mode switching device of claim 11, wherein the first determining module comprises:

    The third determining sub-module is configured to determine, according to the data traffic state parameter, an average flow value of the terminal within a first preset time threshold range, when the third determining result indicates that the terminal is using the data service Whether it is lower than the preset average traffic threshold, and when the average traffic value of the terminal within the first preset time threshold range is lower than the preset average traffic threshold, determining that the first determination result is that the terminal meets the Switch conditions.
13. A terminal comprising the network mode switching device according to any one of claims 7-12.

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