CN108834190B - Weak network power consumption optimization method and intelligent terminal - Google Patents
Weak network power consumption optimization method and intelligent terminal Download PDFInfo
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- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0011—Control or signalling for completing the hand-off for data sessions of end-to-end connection
- H04W36/0016—Hand-off preparation specially adapted for end-to-end data sessions
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0083—Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
- H04W36/0085—Hand-off measurements
- H04W36/0088—Scheduling hand-off measurements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0251—Power saving arrangements in terminal devices using monitoring of local events, e.g. events related to user activity
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Abstract
The invention discloses a weak network power consumption optimization method and an intelligent terminal, and relates to the technical field of communication. When the network environment where the user is located is abnormal and complex, the intelligent terminal is more power-consumptive when being connected with the network under the condition of weak network, the method comprises the following steps: after the intelligent terminal enters a screen locking state, analyzing whether the signal intensity of a received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter; when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system; according to a switching list and switching times, acquiring system recovery time corresponding to the switching times in the switching list; when the duration of the first network system reaches the system recovery time, updating the switching times; and recovering to the second network system. The invention reduces the power consumption of the network signal to the intelligent terminal and increases the endurance time of the intelligent terminal.
Description
Technical Field
The invention relates to the technical field of communication, in particular to a weak network power consumption optimization method and an intelligent terminal.
Background
With the development of science and technology, the life of people is changing day by day, and the intelligent terminal also gradually enters the life of people and brings huge changes to the life of people. Meanwhile, the intelligent terminal is gradually reduced in the development process, but due to the reduction of the size of the intelligent terminal, the battery capacity of the intelligent terminal is difficult to make a great progress, and therefore the power consumption problem of the intelligent terminal is also gradually highlighted.
When the network environment where the user is located is abnormally complex, the environment with poor network signals and poor signal quality is frequently encountered, the network searching and network injecting processes initiated by the intelligent terminal are relatively power-consuming processes before data transmission, and the intelligent terminal is more power-consuming in the environment with poor network signals or poor signal quality, namely the intelligent terminal is connected with the network under the condition of weak network, so that the power consumption of the intelligent terminal is further increased, and the standby time of the intelligent terminal is reduced.
Disclosure of Invention
The invention aims to provide a weak network power consumption optimization method and an intelligent terminal, which reduce the power consumption of network signals to the intelligent terminal and increase the endurance time of the intelligent terminal.
The technical scheme provided by the invention is as follows:
a weak network power consumption optimization method comprises the following steps:
after the intelligent terminal enters a screen locking state, analyzing whether the signal intensity of a received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter;
when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system;
according to a switching list and switching times, acquiring system recovery time corresponding to the switching times in the switching list;
when the duration of the first network system reaches the system recovery time, updating the switching times;
and recovering to the second network system.
Further, the system recovery time corresponding to the updated switching times is greater than the system recovery time corresponding to the switching times before updating.
Further, after updating the switching times, before resuming to the second network type, the method further includes:
analyzing whether the switching times reach preset disconnection times or not;
when the switching times meet the requirement of preset disconnection times, disconnecting the network; otherwise, the system is recovered to the second network system.
Further, the recovering to the second network system further includes:
when the intelligent terminal detects that the current time reaches the preset sleep time, analyzing whether the intelligent terminal is in a preset sleep time end and is not in a standing state and bright;
when the intelligent terminal is not on screen when standing within a preset sleep time end, disconnecting the network;
and when the intelligent terminal detects that the current time reaches the preset awakening time, switching to a second network system, and resetting the switching times.
Further, the recovering to the second network system further includes:
and when the intelligent terminal is on screen, switching to a second network system, and resetting the switching times.
One of the objects of the present invention is to provide an intelligent terminal, including:
the screen detection module is used for detecting whether the intelligent terminal enters a screen locking state or not;
the signal analysis module analyzes whether the signal intensity of the received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter after the screen detection module detects that the intelligent terminal enters a screen locking state;
the time module is used for acquiring the duration when the signal intensity is lower than a preset intensity parameter or the signal quality is lower than a preset quality parameter;
the system switching module controls the intelligent terminal to be switched to a first network system when the signal intensity is lower than a preset intensity parameter or the signal quality is lower than a preset quality parameter and the preset duration is maintained;
the system list module is used for storing a switching list and switching times and acquiring system recovery time corresponding to the switching times in the switching list;
the time module is also used for detecting the duration of the first network system;
when the time module detects that the duration of the first network system reaches the system recovery time, the system list module updates the switching times;
and the system switching module controls the intelligent terminal to recover to a second network system.
Further, the system recovery time corresponding to the updated switching times in the switching list is greater than the system recovery time corresponding to the switching times before updating.
Further, the system list module is further configured to analyze whether the switching times reach preset disconnection times;
when the switching times meet the requirement of preset disconnection times, the system switching module controls the intelligent terminal to disconnect the network; otherwise, the system switching module controls the intelligent terminal to recover to the second network system.
Further, the device also comprises a standing detection module;
the time module is also used for detecting whether the current time reaches a preset sleep time and a preset wake-up time;
when the time module detects that the current time reaches a preset sleep time, the standing module analyzes whether the intelligent terminal stands in a preset sleep time end or not, and the screen detection module analyzes whether the intelligent terminal is on screen or not in the preset sleep time end;
when the intelligent terminal is not on screen when standing still within a preset sleep time end, the system switching module controls the intelligent terminal to disconnect the network;
when the time module detects that the current time reaches the preset awakening time, the system switching module controls the intelligent terminal to recover to the second network system, and the system list module resets the switching times.
Further, when the screen detection module detects that the intelligent terminal is on, the system switching module controls the intelligent terminal to recover to the second network system, and the system list module resets the switching times.
Compared with the prior art, the weak network power consumption optimization method and the intelligent terminal provided by the invention have the following beneficial effects:
1. when the duration of the first network system reaches the system recovery time, the fact that the intelligent terminal is maintained for a period of time at the current low system is indicated, and in the time end, the intelligent terminal does not need to search for network signals, so that the power consumption of the intelligent terminal by the network signals is reduced, and the endurance time of the intelligent terminal is prolonged.
2. In the process of the system-in-process replacement of the intelligent terminal, and the intelligent terminal is in the network state of the weak network, the intelligent terminal can continuously prolong the time for reentering the second network system, namely, the time for analyzing the current network state of the intelligent terminal again is continuously prolonged, so that the times for analyzing the current network state by the intelligent terminal are reduced, the power consumption of the intelligent terminal is further reduced, and the endurance time of the intelligent terminal is prolonged.
3. When the switching times reach the preset disconnection times, the intelligent terminal is still in a relatively poor network environment, no matter how to search and inject the network, a relatively good network cell cannot be obtained, therefore, the intelligent terminal can be directly disconnected from the network, the possibility that the intelligent terminal continues to search and inject the network is reduced, and the power consumption of the intelligent terminal is reduced.
4. When the intelligent terminal is at night, the user has less operation on the intelligent terminal, so that the intelligent terminal does not need to be in a second network system; therefore, whether the user successfully sleeps or not is analyzed by presetting the sleep time and analyzing whether the intelligent terminal is static or not and is not bright in the sleep time end.
5. After the user turns on the screen of the intelligent terminal, the intelligent terminal can detect that the user needs to use the intelligent terminal and the network function of the intelligent terminal, so that the intelligent terminal can be automatically switched to a second network system to ensure normal use of the intelligent terminal.
Drawings
The above features, technical features, advantages and implementation manners of the weak network power consumption optimization method and the intelligent terminal will be further described in the following detailed description of preferred embodiments in a clearly understandable manner with reference to the accompanying drawings.
FIG. 1 is a flow chart diagram of a weak network power consumption optimization method of the present invention;
FIG. 2 is a schematic flow chart of another weak network power consumption optimization method of the present invention;
FIG. 3 is a schematic flow chart of another weak network power consumption optimization method of the present invention;
FIG. 4 is a flow chart of another weak network power consumption optimization method according to the present invention;
FIG. 5 is a schematic structural diagram of an intelligent terminal according to the present invention;
fig. 6 is a schematic structural diagram of another intelligent terminal of the invention.
The reference numbers illustrate: 10. the system comprises a screen detection module, 20, a signal analysis module, 30, a time module, 40, a system switching module, 50, a system list module and 60, a standing detection module.
Detailed Description
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.
For the sake of simplicity, only the parts relevant to the invention are schematically shown in the drawings, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".
According to an embodiment provided by the present invention, as shown in fig. 1, a weak network power consumption optimization method includes:
s10, after the intelligent terminal enters the screen locking state, analyzing whether the signal intensity of the received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
In this embodiment, the intelligent terminal mainly refers to a mobile intelligent terminal such as a mobile phone or a watch, and particularly refers to a wearable intelligent mobile terminal; the screen locking state mainly means that a user actively closes a screen of the intelligent terminal, or the intelligent terminal automatically enters the screen locking state after a period of time, or the intelligent terminal enters the screen locking state after receiving a signal for arbitrarily controlling the intelligent terminal to enter the screen locking state.
Under the screen locking state, the intelligent terminal can receive the network signal and continuously analyze the quality and the strength of the network signal. In this embodiment, the preset strength parameter mainly refers to-80 to-120 decibel milliwatts (dBm), and is preferably-90 dBm, and since the network signal received by the intelligent terminal is better when the network signal received by the intelligent terminal is in-60 to-80 dBm, the intelligent terminal is in a stronger network state, and when the signal strength of the network signal received by the intelligent terminal is less than-80 dBm, the signal strength of the network signal received by the intelligent terminal is lower, and the network of the intelligent terminal is poorer. Therefore, the intelligent terminal can detect whether the currently received network signal is larger than-90 dBm or not to judge whether the signal intensity of the network signal currently received by the intelligent terminal in the screen locking state is poor or not, and meanwhile, whether the network signal is in the poor network state or not is determined according to a specific preset intensity signal.
Meanwhile, the intelligent terminal can also analyze the signal quality of the received network signal, in this embodiment, the preset quality parameter mainly refers to 40% to 100%, and preferably 50%, since the signal quality of the network signal received by the intelligent terminal is more than 50%, a good network environment can be obtained, and when the signal quality of the received network signal is less than 50%, the signal of the intelligent terminal is difficult to transmit, and the network environment is still poor, the intelligent terminal analyzes whether the network environment of the intelligent terminal is poor by analyzing the signal quality of the received network signal.
S11, when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system;
and when the signal strength is lower than the preset strength parameter or the signal quality is lower than the preset quality parameter, namely the signal quality of the network signal received by the intelligent terminal is lower than 50%, or the signal strength of the received network signal is lower than-80 dBm, the received network signal is poor.
Meanwhile, whether the network signal currently received by the intelligent terminal is poor in duration or not is further determined through setting of the preset duration time, the preset duration time can be one minute to half an hour, and the preset duration time can be freely set by a user.
When the signal intensity received by the intelligent terminal is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, the fact that the current network environment of the intelligent terminal is abnormal and complex is shown, the network searching and network injecting processes in the current state are power-consuming, and meanwhile due to the fact that the size of the intelligent terminal is small, the battery of the intelligent terminal is small, and the power consumption problem is more prominent.
Therefore, the intelligent terminal is directly switched to a first network mode under the environment with poor network access, the first network mode mainly refers to a 2G network mode or a 3G network mode, and the intelligent terminal can change the mode according to the mode which can be currently supported.
S20, according to the switching list and the switching times, obtaining the system recovery time corresponding to the switching times in the switching list.
A switching list is arranged in the intelligent terminal, at least two groups of corresponding data are contained in the switching list, one group of data is switching times, and the other group of data is system recovery time corresponding to each switching time.
The intelligent terminal is further stored with a switching frequency which indicates the frequency of switching the intelligent terminal into the first network system, and the intelligent terminal can obtain the system recovery time according to the switching frequency and by combining the switching list, wherein the system recovery time is the time for the intelligent terminal to maintain the first network system, namely the 2G or 3G network mode.
And S30, updating the switching times when the duration of the first network system reaches the system recovery time.
And S50, restoring to the second network system.
In this embodiment, the second network type mainly refers to a 4G network, and when the duration of the first network type reaches the system recovery time, it indicates that the intelligent terminal currently maintains a period of time in the low system, and in this time period, the intelligent terminal does not need to search for a network signal, so that the power consumption of the network signal on the intelligent terminal is reduced, and the duration of the intelligent terminal is increased.
And when the intelligent terminal passes through the 3G network or the 2G network which is maintained for a period of time, the second network system is recovered again to further judge whether the current network environment is still poor, and when the environment of the intelligent terminal is still poor, the intelligent terminal can execute the steps again to re-enter the first network system, namely, the 3G network or the 2G network, so as to reduce the power consumption of the intelligent terminal.
And when the intelligent terminal reenters a place with better network signals and recovers to the second network system, the intelligent terminal can continue to be under the screen locking in the second network system without reentering the first network system.
The switching times can be updated at any time when the intelligent terminal is in the first network system, and in this embodiment, the switching times are selected to be changed after the intelligent terminal maintains the system recovery time, so that the intelligent terminal can obtain the system recovery time according to the times that the intelligent terminal has been switched to the first network system when the intelligent terminal just enters the first network system, and the updated switching times can be used as a factor for switching from the second network system to the first network system next time and obtaining the system recovery time from the switching list.
For example, the initial switching number of times is 0, when the intelligent terminal is switched to the first network system, the intelligent terminal can obtain the system recovery time with the switching number of times being 0 from the switching list, for example, five minutes, and within five minutes of maintaining the first network system by the intelligent terminal, the intelligent terminal can update the switching number of times at any time, that is, the switching number of times is increased by one to become 1, preferably, the intelligent terminal can perform switching when five minutes are about to end, and after five minutes, the intelligent terminal recovers to the second network system; when the intelligent terminal needs to be switched to the first network system again, the intelligent terminal can obtain the system recovery time from the switching list according to the data with the switching frequency of 1 so as to maintain the first network system of the intelligent terminal.
Meanwhile, in the embodiment, the switching times can be updated according to an increasing method, and can also be updated in a decreasing method.
And the system recovery time corresponding to the updated switching times is greater than the system recovery time corresponding to the switching times before updating.
After the first network system is switched, the time for the intelligent terminal to maintain the first network system is gradually increased. For example, the number of times of switching starts from 0, and when switching is performed each time, the number of times of switching is increased by one, and the system recovery time corresponding to 1 in the switching list in this embodiment is greater than the system recovery time corresponding to 0.
Through the setting of the list rules, the intelligent terminal can continuously prolong the time for reentering the second network system when the system is changed and the intelligent terminal is in the network state of the weak network, namely, the time for analyzing the current network state of the intelligent terminal again is continuously prolonged, so that the times for analyzing the current network state by the intelligent terminal are reduced, the power consumption of the intelligent terminal is further reduced, and the endurance time of the intelligent terminal is prolonged.
In this implementation, when the intelligent terminal was used for the first time, also be equipped with built-in parameter in the intelligent terminal, preset intensity parameter promptly, preset quality parameter, preset duration and standard recovery time all are built-in the intelligent terminal, and the user also can come the above-mentioned parameter of adaptability's adjustment according to own habits and customs when using intelligent terminal, comes further optimization above-mentioned parameter to further optimize intelligent terminal's consumption, increased intelligent terminal's duration.
According to another embodiment provided by the present invention, as shown in fig. 2, a weak network power consumption optimization method includes:
s10, after the intelligent terminal enters the screen locking state, analyzing whether the signal intensity of the received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
S11, when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system;
s20, according to the switching list and the switching times, obtaining the system recovery time corresponding to the switching times in the switching list.
And S30, updating the switching times when the duration of the first network system reaches the system recovery time.
And S40, analyzing whether the switching times reach preset disconnection times.
And S41, disconnecting the network when the switching times meet the requirement of preset disconnection times.
And S50, when the switching times do not meet the requirement of the preset disconnection times, recovering to the second network system.
In this embodiment, when the switching times reach the preset disconnection times, it is indicated that the intelligent terminal is still in an environment with a relatively poor network, and no matter how to search for and annotate the network, a relatively good network cell cannot be obtained, so that the intelligent terminal can directly disconnect the network, the possibility that the intelligent terminal continues to search for and annotate the network is reduced, and then the power consumption of the intelligent terminal is reduced.
The method comprises the steps of confirming that the intelligent terminal needs to be in a state with poor network signals for a long time through setting of preset disconnection times, and achieving network disconnection of the intelligent terminal according to the preset disconnection times.
According to another embodiment provided by the present invention, as shown in fig. 3, a weak network power consumption optimization method includes:
s10, after the intelligent terminal enters the screen locking state, analyzing whether the signal intensity of the received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
S11, when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system;
s20, according to the switching list and the switching times, obtaining the system recovery time corresponding to the switching times in the switching list.
And S30, updating the switching times when the duration of the first network system reaches the system recovery time.
And S50, restoring to the second network system.
S60, when the intelligent terminal detects that the current time reaches the preset sleep time, whether the intelligent terminal is in a standing state and is not on the screen in the preset sleep time end is analyzed.
And S61, when the intelligent terminal is not on screen when standing within the preset sleep time, disconnecting the network.
And S62, when the intelligent terminal detects that the current time reaches the preset awakening time, switching to a second network system, and resetting the switching times.
In this embodiment, when the intelligent terminal is at night, the user has fewer operations on the intelligent terminal, and therefore, the intelligent terminal does not need to be in the second network system. Therefore, whether the user successfully sleeps or not is analyzed by presetting the sleep time and analyzing whether the intelligent terminal is static or not and is not bright in the sleep time end.
When the situation that the intelligent terminal is not on screen when the intelligent terminal is in a standing state within the preset sleep time end is analyzed, the fact that the user puts down the intelligent terminal is shown, and the intelligent terminal enters a sleep state; the intelligent terminal can disconnect the network, the possibility of power consumption generated in the network searching and network injecting processes of the intelligent terminal is avoided, and the endurance time of the intelligent terminal is prolonged.
And when the preset wake-up time is reached, the user is about to wake up, and the intelligence can be switched to the second network system again so as to ensure the normal experience of the user.
In this embodiment, the preset sleep time and the preset wake-up time can be embedded in the intelligent terminal, and the user can change the preset sleep time and the preset wake-up time according to the work and rest time of the user. When the intelligent terminal detects whether the intelligent terminal is in standing or not, whether the position of the intelligent terminal changes or not can be sensed according to the inductor inside the intelligent terminal.
According to still another embodiment provided by the present invention, as shown in fig. 4, a weak network power consumption optimization method includes:
s10, after the intelligent terminal enters the screen locking state, analyzing whether the signal intensity of the received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
S11, when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system;
s20, according to the switching list and the switching times, obtaining the system recovery time corresponding to the switching times in the switching list.
And S30, updating the switching times when the duration of the first network system reaches the system recovery time.
And S50, restoring to the second network system.
And S7, when the intelligent terminal is on screen, switching to a second network system, and resetting the switching times.
In this embodiment, after the intelligent terminal enters the cycle between the first network system and the second network system, and the user turns on the screen of the intelligent terminal, the intelligent terminal can detect that the user needs to use the intelligent terminal and the network function thereof, and therefore, the intelligent terminal can be automatically switched to the second network system to ensure the normal use of the intelligent terminal.
After the user brightens the screen of the intelligent terminal, the intelligent terminal can analyze that the user needs to use the network, the user can brighten the screen of the intelligent terminal again when looking up the nearby network environment, therefore, the intelligent terminal resets the switching times to accelerate the detection of the surrounding network environment, so that the intelligent terminal can be controlled to enter an area with stronger network signals as soon as possible, the consumption of the intelligent terminal in the network searching and network injecting process is reduced, and the standby time of the intelligent terminal is prolonged.
When the embodiment is applied to the third method embodiment, when a user wakes up at night and controls the intelligent terminal to be on the screen, the intelligent terminal can be directly switched to the second network system so as to ensure the normal use of the intelligent terminal by the user; meanwhile, after the intelligent terminal locks the screen again, the intelligent terminal can enter the first network system again according to the switching list, or a plurality of preset sleep times can be built in the intelligent terminal, so that the intelligent terminal can be directly disconnected from the network, the possibility that the intelligent terminal searches and injects the network at night is reduced, the power consumption of the intelligent terminal at night is reduced, and the standby time of the intelligent terminal is prolonged.
According to an embodiment provided by the present invention, as shown in fig. 5, an intelligent terminal includes:
and the screen detection module 10 is used for detecting whether the intelligent terminal enters a screen locking state.
After the screen detection module 10 detects that the intelligent terminal enters the screen locking state, the signal analysis module 20 analyzes whether the signal strength of the received network signal is lower than a preset strength parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
The time module 30 is configured to obtain a duration when the signal strength is lower than a preset strength parameter or the signal quality is lower than a preset quality parameter.
And the system switching module 40, when the signal strength is lower than the preset strength parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, the system switching module 40 controls the intelligent terminal to switch to the first network system.
The system list module 50 is configured to store a switching list and switching times, and acquire system recovery time corresponding to the switching times in the switching list.
The time module 30 is further configured to detect a duration of the first network system.
When the time module 30 detects that the duration of the first network standard reaches the standard recovery time, the standard list module 50 updates the switching times.
The system switching module 40 controls the intelligent terminal to recover to the second network system.
In this embodiment, the intelligent terminal mainly refers to a mobile intelligent terminal such as a mobile phone or a watch, and particularly refers to a wearable intelligent mobile terminal; the screen locking state mainly means that a user actively closes a screen of the intelligent terminal, or the intelligent terminal automatically enters the screen locking state after a period of time, or the intelligent terminal enters the screen locking state after receiving a signal for arbitrarily controlling the intelligent terminal to enter the screen locking state.
Under the screen locking state, the intelligent terminal can receive the network signal and continuously analyze the quality and the strength of the network signal. In this embodiment, the preset strength parameter mainly refers to-80 to-120 decibel milliwatts (dBm), and is preferably-90 dBm, and since the network signal received by the intelligent terminal is better when the network signal received by the intelligent terminal is in-60 to-80 dBm, the intelligent terminal is in a stronger network state, and when the signal strength of the network signal received by the intelligent terminal is less than-80 dBm, the signal strength of the network signal received by the intelligent terminal is lower, and the network of the intelligent terminal is poorer. Therefore, the intelligent terminal can detect whether the currently received network signal is larger than-90 dBm or not to judge whether the signal intensity of the network signal currently received by the intelligent terminal in the screen locking state is poor or not, and meanwhile, whether the network signal is in the poor network state or not is determined according to a specific preset intensity signal.
Meanwhile, the intelligent terminal can also analyze the signal quality of the received network signal, in this embodiment, the preset quality parameter mainly refers to 40% to 100%, and preferably 50%, since the signal quality of the network signal received by the intelligent terminal is more than 50%, a good network environment can be obtained, and when the signal quality of the received network signal is less than 50%, the signal of the intelligent terminal is difficult to transmit, and the network environment is still poor, the intelligent terminal analyzes whether the network environment of the intelligent terminal is poor by analyzing the signal quality of the received network signal.
And when the signal strength is lower than the preset strength parameter or the signal quality is lower than the preset quality parameter, namely the signal quality of the network signal received by the intelligent terminal is lower than 50%, or the signal strength of the received network signal is lower than-80 dBm, the received network signal is poor.
Meanwhile, stability is maintained through setting of the preset duration time, whether the network signal currently received by the intelligent terminal is poor in duration or not is further determined, the preset duration time can be one minute to half an hour, and the preset duration time can be freely set by a user.
When the signal intensity received by the intelligent terminal is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, the fact that the current network environment of the intelligent terminal is abnormal and complex is shown, the network searching and network injecting processes in the current state are power-consuming, and meanwhile due to the fact that the size of the intelligent terminal is small, the battery of the intelligent terminal is small, and the power consumption problem is more prominent.
Therefore, the intelligent terminal is directly switched to a first network mode under the environment with poor network access, the first network mode mainly refers to a 2G network mode or a 3G network mode, and the intelligent terminal can change the mode according to the mode which can be currently supported.
A switching list is arranged in the intelligent terminal, at least two groups of corresponding data are contained in the switching list, one group of data is switching times, and the other group of data is system recovery time corresponding to each switching time.
The intelligent terminal is further stored with a switching frequency which indicates the frequency of switching the intelligent terminal into the first network system, and the intelligent terminal can obtain the system recovery time according to the switching frequency and by combining the switching list, wherein the system recovery time is the time for the intelligent terminal to maintain the first network system, namely the 2G or 3G network mode.
In this embodiment, the second network type mainly refers to a 4G network, and when the duration of the first network type reaches the system recovery time, it indicates that the intelligent terminal currently maintains a period of time in the low system, and in this time period, the intelligent terminal does not need to search for a network signal, so that the power consumption of the network signal on the intelligent terminal is reduced, and the duration of the intelligent terminal is increased.
And when the intelligent terminal passes through the 3G network or the 2G network which is maintained for a period of time, the second network system is recovered again to further judge whether the current network environment is still poor, and when the environment of the intelligent terminal is still poor, the intelligent terminal can execute the steps again to re-enter the first network system, namely, the 3G network or the 2G network, so as to reduce the power consumption of the intelligent terminal.
And when the intelligent terminal reenters a place with better network signals and recovers to the second network system, the intelligent terminal can continue to be under the screen locking in the second network system without reentering the first network system.
The switching times can be updated at any time when the intelligent terminal is in the first network system, and in this embodiment, the switching times are selected to be changed after the intelligent terminal maintains the system recovery time, so that the intelligent terminal can obtain the system recovery time according to the times that the intelligent terminal has been switched to the first network system when the intelligent terminal just enters the first network system, and the updated switching times can be used as a factor for switching from the second network system to the first network system next time and obtaining the system recovery time from the switching list.
For example, the initial switching number of times is 0, when the intelligent terminal is switched to the first network system, the intelligent terminal can obtain the system recovery time with the switching number of times being 0 from the switching list, for example, five minutes, and within five minutes of maintaining the first network system by the intelligent terminal, the intelligent terminal can update the switching number of times at any time, that is, the switching number of times is increased by one to become 1, preferably, the intelligent terminal can perform switching when five minutes are about to end, and after five minutes, the intelligent terminal recovers to the second network system; when the intelligent terminal needs to be switched to the first network system again, the intelligent terminal can obtain the system recovery time from the switching list according to the data with the switching frequency of 1 so as to maintain the first network system of the intelligent terminal.
Meanwhile, in the embodiment, the switching times can be updated according to an increasing method, and can also be updated in a decreasing method.
And the system recovery time corresponding to the updated switching times in the switching list is greater than the system recovery time corresponding to the switching times before updating.
After the first network system is switched, the time for the intelligent terminal to maintain the first network system is gradually increased. For example, the number of times of switching starts from 0, and when switching is performed each time, the number of times of switching is increased by one, and the system recovery time corresponding to 1 in the switching list in this embodiment is greater than the system recovery time corresponding to 0.
Through the setting of the list rules, the intelligent terminal can continuously prolong the time for reentering the second network system when the system is changed and the intelligent terminal is in the network state of the weak network, namely, the time for analyzing the current network state of the intelligent terminal again is continuously prolonged, so that the times for analyzing the current network state by the intelligent terminal are reduced, the power consumption of the intelligent terminal is further reduced, and the endurance time of the intelligent terminal is prolonged.
In this implementation, when the intelligent terminal was used for the first time, also be equipped with built-in parameter in the intelligent terminal, preset intensity parameter promptly, preset quality parameter, preset duration and standard recovery time all are built-in the intelligent terminal, and the user also can come the above-mentioned parameter of adaptability's adjustment according to own habits and customs when using intelligent terminal, comes further optimization above-mentioned parameter to further optimize intelligent terminal's consumption, increased intelligent terminal's duration.
According to another embodiment provided by the present invention, as shown in fig. 5, an intelligent terminal includes:
and the screen detection module 10 is used for detecting whether the intelligent terminal enters a screen locking state.
After the screen detection module 10 detects that the intelligent terminal enters the screen locking state, the signal analysis module 20 analyzes whether the signal strength of the received network signal is lower than a preset strength parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
The time module 30 is configured to obtain a duration when the signal strength is lower than a preset strength parameter or the signal quality is lower than a preset quality parameter.
And the system switching module 40, when the signal strength is lower than the preset strength parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, the system switching module 40 controls the intelligent terminal to switch to the first network system.
The system list module 50 is configured to store a switching list and switching times, and acquire system recovery time corresponding to the switching times in the switching list.
The time module 30 is further configured to detect a duration of the first network system.
When the time module 30 detects that the duration of the first network standard reaches the standard recovery time, the standard list module 50 updates the switching times.
The system switching module 40 controls the intelligent terminal to recover to the second network system.
The system list module 50 is further configured to analyze whether the switching times reach preset disconnection times.
When the switching times meet the requirement of preset disconnection times, the system switching module 40 controls the intelligent terminal to disconnect the network; otherwise, the system switching module 40 controls the intelligent terminal to recover to the second network system.
In this embodiment, when the switching times reach the preset disconnection times, it is indicated that the intelligent terminal is still in an environment with a relatively poor network, and no matter how to search for and annotate the network, a relatively good network cell cannot be obtained, so that the intelligent terminal can directly disconnect the network, the possibility that the intelligent terminal continues to search for and annotate the network is reduced, and then the power consumption of the intelligent terminal is reduced.
The method comprises the steps of confirming that the intelligent terminal needs to be in a state with poor network signals for a long time through setting of preset disconnection times, and achieving network disconnection of the intelligent terminal according to the preset disconnection times.
According to another embodiment provided by the present invention, as shown in fig. 6, an intelligent terminal includes:
and the screen detection module 10 is used for detecting whether the intelligent terminal enters a screen locking state.
After the screen detection module 10 detects that the intelligent terminal enters the screen locking state, the signal analysis module 20 analyzes whether the signal strength of the received network signal is lower than a preset strength parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
The time module 30 is configured to obtain a duration when the signal strength is lower than a preset strength parameter or the signal quality is lower than a preset quality parameter.
And the system switching module 40, when the signal strength is lower than the preset strength parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, the system switching module 40 controls the intelligent terminal to switch to the first network system.
The system list module 50 is configured to store a switching list and switching times, and acquire system recovery time corresponding to the switching times in the switching list.
The time module 30 is further configured to detect a duration of the first network system.
When the time module 30 detects that the duration of the first network standard reaches the standard recovery time, the standard list module 50 updates the switching times.
The system switching module 40 controls the intelligent terminal to recover to the second network system.
Still include the detection module that stews.
The time module 30 is further configured to detect whether the current time reaches a preset sleep time and a preset wake-up time.
When the time module 30 detects that the current time reaches the preset sleep time, the standing module analyzes whether the intelligent terminal stands in a preset sleep time period, and the screen detection module 10 analyzes whether the intelligent terminal is on screen in the preset sleep time period.
When the intelligent terminal is not on screen when standing still within a preset dormancy time end, the system switching module 40 controls the intelligent terminal to disconnect the network.
When the time module 30 detects that the current time reaches the preset wake-up time, the system switching module 40 controls the intelligent terminal to recover to the second network system, and the system list module 50 resets the switching times.
In this embodiment, when the intelligent terminal is at night, the user has fewer operations on the intelligent terminal, and therefore, the intelligent terminal does not need to be in the second network system. Therefore, whether the user successfully sleeps or not is analyzed by presetting the sleep time and analyzing whether the intelligent terminal is static or not and is not bright in the sleep time end.
When the situation that the intelligent terminal is not on screen when the intelligent terminal is in a standing state within the preset sleep time end is analyzed, the fact that the user puts down the intelligent terminal is shown, and the intelligent terminal enters a sleep state; the intelligent terminal can disconnect the network, the possibility of power consumption generated in the network searching and network injecting processes of the intelligent terminal is avoided, and the endurance time of the intelligent terminal is prolonged.
And when the preset wake-up time is reached, the user is about to wake up, and the intelligence can be switched to the second network system again so as to ensure the normal experience of the user.
In this embodiment, the preset sleep time and the preset wake-up time can be embedded in the intelligent terminal, and the user can change the preset sleep time and the preset wake-up time according to the work and rest time of the user. When the intelligent terminal detects whether the intelligent terminal is in standing or not, whether the position of the intelligent terminal changes or not can be sensed according to the inductor inside the intelligent terminal.
According to still another embodiment provided by the present invention, as shown in fig. 5, an intelligent terminal includes:
and the screen detection module 10 is used for detecting whether the intelligent terminal enters a screen locking state.
After the screen detection module 10 detects that the intelligent terminal enters the screen locking state, the signal analysis module 20 analyzes whether the signal strength of the received network signal is lower than a preset strength parameter and whether the signal quality of the network signal is lower than a preset quality parameter.
The time module 30 is configured to obtain a duration when the signal strength is lower than a preset strength parameter or the signal quality is lower than a preset quality parameter.
And the system switching module 40, when the signal strength is lower than the preset strength parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, the system switching module 40 controls the intelligent terminal to switch to the first network system.
The system list module 50 is configured to store a switching list and switching times, and acquire system recovery time corresponding to the switching times in the switching list.
The time module 30 is further configured to detect a duration of the first network system.
When the time module 30 detects that the duration of the first network standard reaches the standard recovery time, the standard list module 50 updates the switching times.
The system switching module 40 controls the intelligent terminal to recover to the second network system.
When the screen detection module 10 detects that the intelligent terminal is on screen, the format switching module 40 controls the intelligent terminal to recover to the second network format, and the format list module 50 resets the switching times.
In this embodiment, after the intelligent terminal enters the cycle between the first network system and the second network system, and the user turns on the screen of the intelligent terminal, the intelligent terminal can detect that the user needs to use the intelligent terminal and the network function thereof, and therefore, the intelligent terminal can be automatically switched to the second network system to ensure the normal use of the intelligent terminal.
After the user brightens the screen of the intelligent terminal, the intelligent terminal can analyze that the user needs to use the network, the user can brighten the screen of the intelligent terminal again when looking up the nearby network environment, therefore, the intelligent terminal resets the switching times to accelerate the detection of the surrounding network environment, so that the intelligent terminal can be controlled to enter an area with stronger network signals as soon as possible, the consumption of the intelligent terminal in the network searching and network injecting process is reduced, and the standby time of the intelligent terminal is prolonged.
With reference to fig. 6, when the present embodiment is applied to the third apparatus embodiment, when the user wakes up at night and controls the smart terminal to be on, the smart terminal can be directly switched to the second network system, so as to ensure normal use of the smart terminal by the user; meanwhile, after the intelligent terminal locks the screen again, the intelligent terminal can enter the first network system again according to the switching list, or a plurality of preset sleep times can be built in the intelligent terminal, so that the intelligent terminal can be directly disconnected from the network, the possibility that the intelligent terminal searches and injects the network at night is reduced, the power consumption of the intelligent terminal at night is reduced, and the standby time of the intelligent terminal is prolonged.
It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (8)
1. A weak network power consumption optimization method is characterized by comprising the following steps:
after the intelligent terminal enters a screen locking state, analyzing whether the signal intensity of a received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter;
when the signal intensity is lower than the preset intensity parameter or the signal quality is lower than the preset quality parameter and the preset duration is maintained, switching to a first network system;
according to a switching list and switching times, acquiring system recovery time corresponding to the switching times in the switching list;
when the duration of the first network system reaches the system recovery time, updating the switching times; the system recovery time corresponding to the updated switching times is longer than the system recovery time corresponding to the switching times before updating;
and recovering to the second network system.
2. The method as claimed in claim 1, wherein after the updating of the switching times, before returning to the second network type, the method further comprises:
analyzing whether the switching times reach preset disconnection times or not;
when the switching times meet the requirement of preset disconnection times, disconnecting the network; otherwise, the system is recovered to the second network system.
3. The weak network power consumption optimization method according to claim 1, further comprising, after reverting to the second network type:
when the intelligent terminal detects that the current time reaches the preset sleep time, analyzing whether the intelligent terminal is in a preset sleep time end and is not in a standing state and bright;
when the intelligent terminal is not on screen when standing within a preset sleep time end, disconnecting the network;
and when the intelligent terminal detects that the current time reaches the preset awakening time, switching to a second network system, and resetting the switching times.
4. The weak network power consumption optimization method according to claim 1, further comprising, after reverting to the second network type:
and when the intelligent terminal is on screen, switching to a second network system, and resetting the switching times.
5. An intelligent terminal, comprising:
the screen detection module is used for detecting whether the intelligent terminal enters a screen locking state or not;
the signal analysis module analyzes whether the signal intensity of the received network signal is lower than a preset intensity parameter and whether the signal quality of the network signal is lower than a preset quality parameter after the screen detection module detects that the intelligent terminal enters a screen locking state;
the time module is used for acquiring the duration when the signal intensity is lower than a preset intensity parameter or the signal quality is lower than a preset quality parameter;
the system switching module controls the intelligent terminal to be switched to a first network system when the signal intensity is lower than a preset intensity parameter or the signal quality is lower than a preset quality parameter and the preset duration is maintained;
the system list module is used for storing a switching list and switching times and acquiring system recovery time corresponding to the switching times in the switching list; in the system recovery time, the intelligent terminal does not need to search network signals;
the time module is also used for detecting the duration of the first network system;
when the time module detects that the duration of the first network system reaches the system recovery time, the system list module updates the switching times; the system recovery time corresponding to the updated switching times in the switching list is greater than the system recovery time corresponding to the switching times before updating;
and the system switching module controls the intelligent terminal to recover to a second network system.
6. The intelligent terminal according to claim 5, wherein:
the system list module is also used for analyzing whether the switching times reach preset disconnection times;
when the switching times meet the requirement of preset disconnection times, the system switching module controls the intelligent terminal to disconnect the network; otherwise, the system switching module controls the intelligent terminal to recover to the second network system.
7. The intelligent terminal according to claim 5, further comprising a rest detection module;
the time module is also used for detecting whether the current time reaches a preset sleep time and a preset wake-up time;
when the time module detects that the current time reaches a preset sleep time, the standing module analyzes whether the intelligent terminal stands in a preset sleep time end or not, and the screen detection module analyzes whether the intelligent terminal is on screen or not in the preset sleep time end;
when the intelligent terminal is not on screen when standing still within a preset sleep time end, the system switching module controls the intelligent terminal to disconnect the network;
when the time module detects that the current time reaches the preset awakening time, the system switching module controls the intelligent terminal to recover to the second network system, and the system list module resets the switching times.
8. The intelligent terminal according to claim 5, wherein:
when the screen detection module detects that the intelligent terminal is on screen, the system switching module controls the intelligent terminal to recover to a second network system, and the system list module resets the switching times.
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