WO2022017290A1 - Terminal network speed control method and apparatus, terminal, and storage medium - Google Patents

Abstract

Embodiments of the present invention provide a terminal network speed control method and apparatus, a terminal, and a storage medium. The method comprises: monitoring a status parameter of a terminal, the status parameter comprising at least one of the current temperature of the terminal and the current working scenario thereof; and when determining, according to the monitored status parameter, that a preset network speed limit condition is triggered, performing speed limit processing on the network speed of the terminal.

Description

Terminal network speed control method, device, terminal and storage medium

This application claims the priority of a Chinese patent application with application number 202010705821.0 filed with the China Patent Office on July 21, 2020, the entire contents of which are incorporated herein by reference.

technical field

Embodiments of the present invention relate to the field of terminals, for example, to a method, device, terminal, and storage medium for controlling network speed of a terminal.

Background technique

There are more and more terminal applications, and the functions of the applications are becoming more and more abundant and powerful, and the requirements for the energy-saving and battery life performance of the terminal are also increasing day by day. In the related art, in order to prolong the battery life of the terminal, all applications running in the background are controlled, so as to reduce the power consumption of the background applications and prolong the battery life of the terminal. This control method is relatively simple, and it can only control the power consumption of background applications. The control objects are relatively limited, resulting in poor energy saving effect, and problems with heat and battery life during use, which will affect the user experience.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide a terminal network speed control method, device, terminal, and storage medium, aiming to solve the problem that in the related art, only terminal background applications can be managed and controlled to achieve terminal energy saving, the energy saving management and control methods are relatively simple, and the energy saving effect is poor. Issues that affect user experience.

An embodiment of the present invention provides a terminal network speed control method, including: monitoring a state parameter of a terminal, wherein the state parameter includes at least one of a current temperature of the terminal and a current working scene of the terminal; according to When the state parameter determines that the network speed limit condition is triggered, speed limit processing is performed on the network speed of the terminal. After the speed limit processing, the network speed of the terminal is greater than or equal to the minimum network speed threshold corresponding to the current working scene of the terminal. .

An embodiment of the present invention further provides a terminal network speed control device, including: a network policy control module configured to monitor a state parameter of the terminal, wherein the state parameter includes the current temperature of the terminal and the current work of the terminal In at least one of the scenarios, when it is determined that the network speed limit condition is triggered according to the state parameter, speed limit processing is performed on the network speed of the terminal, and after the speed limit processing, the network speed of the terminal is greater than or equal to the current speed of the terminal. The minimum network speed threshold corresponding to the working scenario.

An embodiment of the present invention further provides a terminal, including a processor, a memory, and a communication bus connecting the processor and the memory; the memory stores a computer program, and the computer program can be executed by the processor to achieve The terminal network speed control method as described above.

An embodiment of the present invention further provides a computer-readable storage medium, where the computer-readable storage medium stores a computer program, and the computer program can be executed by a processor to implement the above-mentioned method for controlling network speed of a terminal.

Description of drawings

1 is a schematic flowchart of a method for controlling a terminal network speed according to Embodiment 1 of the present invention;

FIG. 2 is a schematic structural diagram of a terminal network speed control apparatus provided in Embodiment 2 of the present invention;

3 is a schematic flowchart of a method for controlling network speed of a terminal according to Embodiment 2 of the present invention;

4 is a schematic flowchart of state monitoring and policy formulation provided by Embodiment 2 of the present invention;

5 is a schematic flowchart of executing a terminal network speed control strategy according to Embodiment 2 of the present invention;

FIG. 6 is a schematic structural diagram of a terminal according to Embodiment 2 of the present invention.

detailed description

The embodiments of the present invention will be described below with reference to the accompanying drawings. The embodiments described herein are only used to explain the present application, and are not intended to limit the present application.

Example 1:

The embodiments of the present application will be described below with reference to the accompanying drawings and embodiments.

With the development of mobile communication technology, mobile communication technology has been switched from the 4th Generation Mobile Communication Technology (4G) to the 5th Generation Mobile Communication Technology (5G), and even later The sixth generation of mobile communication technology (6-Generation, 6G), the network speed brings a qualitative leap, and the high speed also brings more energy consumption to the terminal. Most of the methods are to manage and control applications running in the background, thereby reducing the power consumption of background applications and extending the battery life of the terminal. This control method is relatively simple, and can only control the power consumption of background applications. The control objects are relatively limited, and the impact of terminal network speed on terminal battery life is not considered, resulting in poor energy saving effect. In response to this problem, this embodiment provides a new terminal network speed control method that can better achieve terminal energy saving and improve terminal battery life performance. When the set network speed limit condition is triggered, the network speed of the terminal can be processed by speed limit, thereby reducing the real-time current of the terminal, and at the same time ensuring that the network speed of the terminal after the speed limit processing is still greater than or equal to the minimum network speed corresponding to the current working scene of the terminal. speed threshold, so as to ensure the normal operation of the terminal in the current working scenario; by limiting the terminal network speed, the real-time current of the terminal is reduced to save energy and improve the battery life of the terminal; at the same time, the terminal network speed limit not only covers the background running of the terminal The application also covers the applications running in the foreground of the terminal, and the application object of speed limit control is more extensive, so the energy saving effect can be improved, and the energy saving control methods of the terminal are also enriched. For ease of understanding, the method for controlling the network speed of the terminal is exemplarily described below in this embodiment.

An example is shown in FIG. 1 , and the method for controlling the network speed of a terminal includes the following steps.

S101: Monitor the state of the terminal to obtain state parameters of the terminal.

In this embodiment, the state parameter of the terminal may include at least one of the current temperature of the terminal and the current working scene of the terminal. In an embodiment, the state parameter of the terminal may further include at least one of the current network speed and the current network standard of the terminal. Which parameters of the monitoring and collecting terminal can be flexibly set according to application requirements.

In this embodiment, the monitoring and collection manner of each state parameter of the terminal in the above example is not limited.

S102: Determine whether the network speed limit condition is triggered according to the obtained state parameter.

In this embodiment, the network speed limit condition of the terminal can be flexibly set according to at least one state parameter in the current temperature of the terminal and the current working scene of the terminal. For example, the set network speed limit conditions may include at least one of the following:

The current temperature of the terminal is greater than the first temperature threshold;

The current working scene of the terminal is switched from the first working scene to the second working scene, and the minimum network speed threshold corresponding to the first working scene is greater than the minimum network speed threshold corresponding to the second working scene;

The current temperature of the terminal in the current working scene is greater than or equal to the second temperature threshold corresponding to the current working scene.

For example, in an example, the network speed limit condition may be set according to the current temperature of the terminal, and the set network speed limit condition at this time may be: the current temperature of the terminal is greater than the first temperature threshold; in this example, no matter what the current temperature of the terminal is In a working scenario, the value of the first temperature threshold may be the same. Of course, in other application examples, different temperature thresholds may also be set according to different working scenarios of the terminal.

For example, in other examples, the working scene of the terminal may include a standby scene, a game scene, a video scene, a voice scene, a browsing scene, a voice multimedia playback scene, and a video multimedia playback scene. In this example, the network speed limit condition can be set according to the temperature of the terminal and the current working scene of the terminal. For example, the network speed limit condition can be: the current temperature of the terminal in the current working scene is greater than or equal to the second temperature corresponding to the current working scene threshold. In this example, the second temperature thresholds corresponding to multiple working scenarios can be preset, and then according to the current working scenario and the current temperature of the terminal, it is determined whether it satisfies: the current temperature of the terminal in the current working scenario is greater than or equal to the current working scenario The condition of the second temperature threshold corresponding to the scene. For example, in one application scenario, the second temperature threshold of the standby scenario may be set to 30°C, and the second temperature threshold of the game scenario may be set to 50°C or 55°C, etc. At this time, when the current working scene of the terminal is a standby scene, when the current temperature of the terminal is greater than or equal to 30°C, it is considered that the network speed limit condition is triggered; when the current working scene of the terminal is a game scene, then when the terminal's current working scene is a game scene, the When the current temperature is greater than or equal to 50°C or 55°C, the network speed limit condition is considered to be triggered. The second temperature thresholds corresponding to different work scenarios can be set to be different, or the second temperature thresholds corresponding to some work scenarios can be set to be the same, and the second temperature thresholds corresponding to some work scenarios are different, which can be flexibly set according to needs, and will not be repeated here. Repeat.

For another example, in some application scenarios, the network speed limit condition can be set according to the change of the working scene of the terminal. For example, the current working scene of the terminal can be switched from the first working scene to the second working scene, and the first working scene The minimum network speed threshold corresponding to the work scene is greater than the minimum network speed threshold corresponding to the second work scene; that is, it is detected that the terminal switches from one work scene to another, and the network speed requirement of the switched work scene is lower than that of the switch. In the previous working scenario, it can be determined to be triggered by the network speed limit condition, and the terminal can perform corresponding network speed limit processing to realize the energy saving of the terminal, and at the same time ensure the normal operation of the terminal in this working environment. For example, in one scenario, it is assumed that the working scene of the terminal at time t1 is the game mode, and at time t2, the working scene of the terminal is switched to the browsing mode, and the browsing mode requires a lower network speed than the game mode, so it can be determined as the network speed at this time. When the speed limit condition is triggered, the network speed of the terminal can be controlled, so that the terminal can perform speed limit processing under the requirements of the browsing mode, thereby improving the battery life of the terminal. In this example, when the terminal switches between two working modes that require the same or little difference in network speed, it can be considered that the network speed restriction condition is not triggered.

Several network speed limit conditions in the above example can be flexibly selected according to requirements.

S103: When it is determined that the network speed limit condition is triggered, speed limit processing is performed on the network speed of the terminal, and the network speed of the terminal after the speed limit processing is greater than or equal to the minimum network speed threshold corresponding to the current working scene of the terminal.

Perform speed limit processing on the terminal network speed, thereby reducing the real-time current of the terminal, and at the same time ensuring that the terminal network speed after the speed limit processing is still greater than or equal to the minimum network speed threshold corresponding to the current working scene of the terminal, thus ensuring that the terminal is in the current working scene. By limiting the terminal network speed, the real-time current of the terminal is reduced to achieve terminal energy saving and improve the battery life of the terminal; at the same time, the terminal network speed limit covers not only the applications running in the background of the terminal, but also the applications running in the foreground of the terminal. The application object of speed control is more extensive, so it can improve the energy saving effect, and also enrich the energy saving control method of the terminal.

Optionally, in some examples, performing speed limiting processing on the network speed of the terminal may include at least one of the following:

Adjust the network speed level of the terminal in the current network standard, that is, the direct speed limit method;

Turn off the target function that can reduce the network speed in the current network standard of the terminal, that is, the speed limit method is realized by turning off the function;

The target network access path of the terminal in the current network standard is restricted, that is, the speed limit mode is realized by restricting the network access path.

For example, in some application scenarios, when the speed limit processing of the terminal's network speed includes disabling the target function that can reduce the network speed in the terminal's current network standard, the terminal's current network standard is the non-independent networking in the 5G network. (None Stand-Alone, NSA) standard, the target function includes the terminal's 5G network connection. That is to say, at this time, by closing the 5G network connection in the NSA network standard, only the 4G network connection can be reserved, so that the terminal network speed can be appropriately reduced while ensuring that the terminal can meet the needs of the current work scenario.

For another example, in other application scenarios, when the speed limit processing on the network speed of the terminal includes restricting the terminal's target network access path in the current network standard, when the current network standard of the terminal is a non-independent networking standard, The target network access route includes access through the 5G network. That is to say, at this time, you can restrict access through the 5G network in the NSA network standard (for example, discard or reject multiple accesses initiated through the 5G network in the NSA network standard), and only allow access through the 4G network. , so that the terminal network speed can be appropriately reduced while ensuring that the terminal can meet the needs of the current work scenario.

For example, when the network speed limitation condition includes that the current temperature of the terminal is greater than the first temperature threshold; when the current temperature of the terminal is greater than the first temperature threshold, the speed limiting processing on the network speed of the terminal includes: From the working temperature and network speed correspondence table corresponding to the current working scene of the terminal, determine the target network speed corresponding to the current working temperature of the terminal, and the target network speed is greater than or equal to the current working scene of the terminal corresponding to minimum internet speed threshold.

Optionally, in some examples of this embodiment, a network speed correspondence table may also be set for corresponding working temperatures in multiple working scenarios of the terminal. In this way, when the network speed limit condition includes: the current temperature of the terminal is greater than the preset temperature threshold, and after the network speed limit condition is triggered, the speed limit processing on the network speed of the terminal may include:

The target network speed corresponding to the current working temperature of the terminal is determined from the correspondence table between the working temperature and the network speed corresponding to the current working scene of the terminal, and the target network speed is greater than or equal to the minimum network speed threshold corresponding to the current working scene of the terminal. Therefore, in different working scenarios of the terminal, a more accurate and precise network speed limit can be realized according to the current temperature of the terminal, thereby realizing a more accurate energy saving control.

It can be seen that the terminal network speed control method provided by this embodiment includes the following three parts:

The first part is the status monitoring of the terminal. Monitor the real-time state parameters of the terminal according to the actual operating state of the current terminal. The state parameters include the current temperature A of the terminal, the current working scene B, the current network speed (that is, the uplink and downlink rates) C and the current network standard D (that is, the situation of the network state) .

The second part is the determination of terminal network speed control strategy. Determine whether the network speed limit condition is triggered according to at least one of the acquired current temperature A and the current working scene B of the terminal, that is, whether the network speed limit condition is satisfied. The current network speed C and network standard D determine the terminal network speed control strategy.

The third part, strategy implementation. Execute the terminal network speed control strategy, and update and record the currently executed network speed control strategy to provide a basis for subsequent network speed control.

This embodiment reduces the real-time current of the terminal by limiting the network speed of the terminal, thereby achieving energy saving of the terminal and improving the battery life of the terminal; at the same time, the network speed limit of the terminal covers not only the applications running in the background of the terminal, but also the applications running in the foreground of the terminal. The application object of the control is more extensive, so the energy saving effect can be improved, and the energy saving control methods of the terminal are also enriched.

Embodiment 2:

In order to facilitate understanding, this embodiment further provides a terminal network speed control device on the basis of the above-mentioned embodiments. The terminal network speed control device can be set in various terminals, including: a network policy control module, which is set to When at least one of the current temperature of the terminal and the current working scene determines that the network speed limit condition is triggered, the network speed of the terminal is subjected to speed limit processing. After the speed limit processing, the network speed of the terminal is greater than or equal to the minimum network speed corresponding to the current working scene of the terminal. For the speed threshold, reference may be made to the above-mentioned embodiments for the control process, which will not be repeated here.

In an example of this embodiment, as shown in FIG. 2, the network policy control module may include a policy decision management unit 21 and a policy execution unit 22, and the terminal network speed control apparatus further includes a state monitoring unit 23, wherein:

The state monitoring unit 23 is configured to monitor the state of the terminal, and monitor the real-time state parameters of the terminal according to the current actual operating state of the terminal. Network standard (that is, the situation of the network status).

The policy decision management unit 21 is configured to determine whether the network speed limit condition is triggered according to at least one of the acquired current temperature of the terminal and the current work scene, that is, whether the network speed limit condition is met, and if so, it can be determined according to the current work scene of the terminal. , the terminal network speed control strategy can also be determined in combination with the terminal's current network speed and network standard.

The strategy execution unit 22 executes the terminal network speed control strategy, and can feed back the execution result to the strategy decision management unit 21. The strategy decision management unit 21 can also be set to update and record the currently executed network speed control strategy to provide a basis for subsequent network speed control .

Using the terminal network speed control device shown in FIG. 2 , the status monitoring unit 23 controls the network speed of the terminal to achieve energy saving, improve battery life, and prevent the terminal from getting hot for a long time. This process includes that when the terminal is running, monitoring and management of network status, working scenarios, uplink and downlink rates, and real-time temperature of the terminal can be started, and when the set network speed limit condition is triggered, the policy decision management unit 21 decides whether to implement the network limit. The strategy or what kind of restriction strategy is implemented, when the terminal network speed control strategy is issued to the strategy execution unit 22, and the actual execution situation is returned to the strategy decision management unit 21 after being executed according to the actual situation, so as to serve as the current reference for the next strategy, so In view of the timely monitoring of the real-time status of the running terminal, and the timely response and processing, the timeliness of exception processing is improved. For ease of understanding, the following uses a process flow chart for illustration. See Figure 3, including the following steps.

S301: After the terminal is started, the terminal network speed control device is started, and the state monitoring unit 23 and the policy decision management unit 21 are operated.

S302: The status monitoring unit 23 decides to report the real-time status according to the status of status management.

For example, the network status needs to be reported in real time to discover the current actual network standard after network standard switching (such as Wireless Fidelity (WiFi)/Data, 4G/5G (NSA/Stand-Alone, SA))), The monitoring and reporting of the work scene includes reporting the current state of the work scene T2, such as standby scene, game scene, video scene, voice scene, browsing scene, voice multimedia playback scene, video multimedia playback scene, etc. The network speed monitoring may include monitoring the application's status. Start, report the current actual rate state T3 in real time according to the set rate gear, monitor the real-time temperature of the terminal, and report the actual temperature value of the terminal according to the set frequency. It can be set to report only when the temperature value exceeds the set temperature threshold, or every time After the temperature value is detected for the first time, it will be reported.

S303: When the policy decision management unit 21 determines that the network speed limit condition is triggered according to at least one of the acquired current temperature of the terminal and the working scene, it can determine the trigger according to the current working scene of the terminal and also in combination with the current network speed and network standard of the terminal. Outbound terminal network speed control strategy. In some examples, the determined terminal network speed control strategy may also be to maintain the terminal's current network speed, that is, not to limit the network speed.

S304: The policy execution unit 22 executes the terminal network speed control policy, and can feed back the execution result to the policy decision management unit 21, and the policy decision management unit 21 can also be set to update and record the currently executed network speed control policy for subsequent network speed control. in accordance with.

For ease of understanding, the following is an example of some application scenarios:

In this application scenario, the network standard and working scenario of the terminal are shown in Table 1 below:

Table 1

The current network speed of the terminal (that is, the network real-time rate): xKB/s or xMB/s, and the average uplink and downlink rates within the cycle time t are reported in real time.

The current temperature of the terminal: It can be obtained through the corresponding temperature sensor. For example, when the temperature reaches above 40°, the status will be reported according to the actual heating interval or cooling status interval. In this embodiment, the temperature of the terminal may be the somatosensory temperature, that is, the temperature that the terminal transmits to the user so that the user can perceive.

Based on the conditions of the above examples, several example application scenarios are described below.

Application Scenario 1: Assume that the current network standard of the acquired terminal is 5G NSA network, the current working scenario is a browsing scenario (such as web pages, reading, Weibo, etc.), the network rate status is 3MB/s, and the current terminal network speed The control strategy is an unlimited strategy. At this time, the real-time somatosensory temperature reported by monitoring is 45°. Assuming that it is greater than the set first temperature threshold, the decision is made according to the above state conditions: the rate of 3MB/s under the NSA network in browsing mode, the temperature rises slightly , the physical sensation is obvious, and a new terminal network speed control strategy can be issued: turn off the current NSA 5G capability (the current 4G under the NSA network can fully support the browsing operation at the current rate, and the current will be much smaller). In another application scenario, if the network standard is an independent network standard at this time, the terminal network speed control policy can be issued as follows: for example, the network speed is limited to 1MB/s. Optionally, in some application scenarios, when it is detected that the temperature of the terminal drops back within a set range, it may also trigger to lift the current network speed limit.

Application Scenario 2: Following the above application scenario 1, assuming that the subsequently acquired working mode is updated from the game scene to the screen-off scene, the current network rate status is 1MB/s, and the current terminal network speed control strategy is to limit the NSA's 5G capability, that is, in the Standby under the 4G network. At this time, you can make decisions according to the scene. Currently, the screen is off, and the applications are all in the background. You can issue the terminal network speed control strategy to limit the data communication of the current background application, and keep the basic data communication alive. For example Set the current network rate status to 0.1MB/s.

Application Scenario 3: Assuming that the current network format of the acquired terminal is WiFi network, the current working scene is a video scene, the network rate status is 29MB/s, and the current terminal network speed control policy is to limit the network rate to 30MB/s, this The real-time somatosensory temperature reported at the time of monitoring is 50°, which is greater than the set temperature threshold. Decisions are made according to the above state conditions: In the video scene, after the rate limit is implemented under the WiFi network, the temperature still rises, and the temperature is obviously hot, and a new terminal can be issued. Network speed control strategy: limit the network speed to 10MB/s (after the rate limit does not affect the normal download transmission, the real-time current will be much smaller, and the temperature and power consumption will be appropriately reduced).

After receiving the terminal network speed control policy, the policy execution unit 22 can execute the terminal network speed control policy, and can feed back the execution result to the policy decision management unit 21. The policy decision management unit 21 can also be set to update and record the currently executed network speed. The control strategy provides the basis for subsequent network speed control.

According to the above application scenario, the reasonable control of the terminal network speed in this embodiment includes monitoring the status parameters of the terminal, and the process of formulating a terminal network speed control strategy according to the monitored parameters. Optionally, an example state The process of monitoring and policy formulation is shown in Figure 4, including the following steps.

S401: Real-time monitoring of the network transmission rate of the terminal, for example, reporting the current rate status to the policy decision management unit 21 according to the set threshold and the current transmission rates of the front and backend.

S402: Real-time monitoring of the terminal working scene. When the working scene of the terminal changes, the policy decision management unit 21 is reported in real time, and a new policy decision is triggered.

S403: Real-time monitoring of the terminal network status. Monitor the actual network status of the current terminal, such as data or WiFi, if it is data, it can be 4G Long Term Evolution (LTE) or 5G NSA or 5G SA, etc. When the network status changes are found, the network status is reported in real time to policy decision management unit 21.

S404: Monitor the heating state (temperature) of the terminal in real time. The actual temperature rise of the current terminal is monitored, and when the relevant temperature threshold condition is triggered, the temperature can be reported to the policy decision management unit 21 in real time.

S405: The strategy decision management unit 21 can record the current terminal network speed control strategy, the current terminal network speed, working scene, network standard, temperature, etc., and decide whether to trigger a new terminal network according to at least one of the current working scene and temperature speed control strategy.

S406: Whether to execute the new terminal network speed control strategy, if yes, go to S408, otherwise, go to S407.

S407: The current state does not need to implement a new strategy, and the current state is maintained.

S408: Execute a new terminal network speed control policy, and issue a policy execution management process.

An example implementation process of the terminal network speed control policy is shown in FIG. 5 , including:

S501: Receive a new terminal network speed control policy issued by the policy decision management unit 21.

S502: Parse the new terminal network speed control strategy, and decide whether the actual measure is a simple network speed limit, if so, go to S503; otherwise, go to S504.

S503: Perform pure network rate limiting, and limit heat generation and power consumption through network rate control.

S504: Relevant capability management and control, such as closing the 5G connection of the terminal in NSA mode, or restricting network access, etc. to achieve network speed limit.

S505: Complete the current network speed limit processing, and return the execution result to the policy decision management unit 21 according to the execution result, which is used as a reference for the next new policy.

As above, the power consumption processing flow of the network rate limit is completed. This process limits the speed of the terminal network. The speed limit of the terminal network covers not only the applications running in the background of the terminal, but also the applications running in the foreground of the terminal. The application object of speed limit control is more extensive. The real-time working current can achieve energy saving of the terminal and improve the battery life of the terminal.

Embodiment three:

This embodiment also provides a terminal, and the terminal may be a variety of mobile intelligent terminals, such as a smart phone, a tablet computer (IPAD), a reader, etc., and may also be a non-mobile terminal. Referring to FIG. 6 , it includes a processor 601 , a memory 602 , and a communication bus 603 connecting the processor 601 and the memory 602 .

The memory 602 stores a computer program, and the computer program can be executed by the processor 601 to implement the method for controlling the network speed of the terminal as described in the above embodiments.

This embodiment also provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, and the computer program can be executed by a processor to implement the terminal network speed control method described in the above multiple embodiments.

The computer-readable storage medium in this embodiment includes volatile or non-volatile implemented in any method or technology for storage of information, such as computer-readable instructions, data structures, computer program modules or other data , removable or non-removable media. Computer-readable storage media include random access memory (Random Access Memory, RAM), read-only memory (Read-Only Memory, ROM), electrically erasable programmable read-only memory (Electrically Erasable Programmable read only memory, EEPROM), flash memory or other memory technology, Compact Disc Read-Only Memory (CD-ROM), Digital Versatile Disc (DVD) or other optical disk storage, magnetic cartridges, magnetic tape, magnetic disk storage or other magnetic storage devices, or available with Any other medium that stores the desired information and can be accessed by a computer.

This embodiment also provides a computer program (or computer software), the computer program can be distributed on a computer-readable medium and executed by a computable device, so as to realize the above-mentioned terminal network speed control method; and in In some cases, at least one of the steps shown or described may be performed in an order different from that described in the above embodiments.

This embodiment also provides a computer program product, including a computer-readable device, on which any of the above-mentioned computer programs is stored. In this embodiment, the computer-readable device may include the computer-readable storage medium as described above.

All or some of the steps in the above disclosed methods, systems, and functional modules/units in an apparatus may be implemented as software (which may be implemented in computer program code executable by a computing apparatus), firmware, hardware, and appropriate combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be composed of several physical components Components execute cooperatively. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit.

Communication media typically embodies computer readable instructions, data structures, computer program modules, or other data in a modulated data signal such as a carrier wave or other transport mechanism, and can include any information delivery media. Therefore, the present application is not limited to any particular combination of hardware and software.

Claims (10)

1. A terminal network speed control method, comprising:

   Monitor state parameters of the terminal, wherein the state parameters include at least one of the following: the current temperature of the terminal and the current working scene of the terminal;

   In the case where it is determined that the network speed limit condition is triggered according to the state parameter, speed limit processing is performed on the network speed of the terminal, and after the speed limit processing, the network speed of the terminal is greater than or equal to that corresponding to the current working scene of the terminal Minimum internet speed threshold.
2. The method according to claim 1, wherein the performing speed limiting processing on the network speed of the terminal comprises at least one of the following:

   Disable the target function that can reduce the network speed in the current network standard of the terminal;

   Adjust the network speed level of the terminal in the current network standard;

   The target network access path of the terminal in the current network standard is restricted.
3. The method according to claim 2, wherein, when the speed limit processing on the network speed of the terminal includes disabling the target function that can reduce the network speed in the current network standard of the terminal, confirming When the current network standard of the terminal is a non-standalone networking standard, the target function includes a fifth-generation mobile communication technology 5G network connection of the terminal.
4. The method according to claim 2, wherein, in the case that the speed limit processing on the network speed of the terminal includes the restriction of the target network access path of the terminal in the current network standard, after confirming the In the case where the current network standard of the terminal is a non-standalone networking standard, the access route to the target network includes accessing through a 5G network.
5. The method according to any one of claims 1-4, wherein the network speed limit condition includes at least one of the following:

   The current temperature of the terminal is greater than the first temperature threshold;

   The current working scene of the terminal is switched from the first working scene to the second working scene, wherein the minimum network speed threshold corresponding to the first working scene is greater than the minimum network speed threshold corresponding to the second working scene;

   The current temperature of the terminal in the current working scene is greater than or equal to the second temperature threshold corresponding to the current working scene.
6. The method of claim 5, wherein, in the case that the network speed limit condition includes that the current temperature of the terminal is greater than a first temperature threshold;

   In the case that the current temperature of the terminal is greater than the first temperature threshold, the performing speed limiting processing on the network speed of the terminal includes:

   Determine the target network speed corresponding to the current working temperature of the terminal from the correspondence table between the working temperature and the network speed corresponding to the current working scene of the terminal, wherein the target network speed is greater than or equal to the current working temperature of the terminal The minimum network speed threshold corresponding to the scene.
7. The method of claim 5, wherein the working scenarios of the terminal include at least two of the following scenarios:

   Standby scene, game scene, video scene, voice scene, browsing scene, voice multimedia playback scene, video multimedia playback scene.
8. A terminal network speed control device, comprising:

   The network policy control module is set to monitor the state parameters of the terminal, wherein the state parameters include at least one of the following: the current temperature of the terminal and the current working scene of the terminal, and the network speed limit is determined according to the state parameters. When the condition is triggered, speed limit processing is performed on the network speed of the terminal, and after the speed limit processing, the network speed of the terminal is greater than or equal to the minimum network speed threshold corresponding to the current working scene of the terminal.
9. A terminal, comprising a processor, a memory and a communication bus connecting the processor and the memory;

   The memory stores a computer program, and the computer program can be executed by the processor to implement the terminal network speed control method according to any one of claims 1-7.
10. A computer-readable storage medium, wherein the computer-readable storage medium stores a computer program, and the computer program can be executed by a processor to realize the terminal network speed according to any one of claims 1-7 Control Method.

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