CN110839275A

CN110839275A - Intelligent power saving method, mobile terminal, electronic equipment and storage medium

Info

Publication number: CN110839275A
Application number: CN201911153794.4A
Authority: CN
Inventors: 闫建伟
Original assignee: Shenzhen China Star Optoelectronics Technology Co Ltd
Current assignee: TCL China Star Optoelectronics Technology Co Ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2020-02-25

Abstract

The invention provides an intelligent power saving method, a mobile terminal, electronic equipment and a storage medium, wherein the method comprises the following steps: acquiring the current position and the current moment of a user; calculating the expected time required by the user to reach the target position and the first time which can be maintained in the normal working mode; calculating a second time that can be maintained in the first power saving mode when the desired time is greater than the first time; when the expected time is equal to the second time, the working mode is switched to a first power saving mode; and when the expected time is greater than the second time, switching the working mode into a first power saving mode or a second power saving mode, wherein the duration in the first power saving mode is the first time, and the duration in the second power saving mode is the time difference between the expected time and the second time. The invention can intelligently control the mobile terminal to enter the power saving mode according to the actual situation of the user, thereby prolonging the service life of the mobile terminal and avoiding the mobile terminal from being incapable of playing the function.

Description

Intelligent power saving method, mobile terminal, electronic equipment and storage medium

Technical Field

The present invention relates to the field of mobile terminal technologies, and in particular, to an intelligent power saving method, a mobile terminal, an electronic device, and a storage medium.

Background

The most core functions of mobile terminals, such as children's telephone watches, mobile phones, etc., are positioning and communication. Parents usually equip children with a mobile terminal capable of positioning and communicating in order to ensure the safety of children during school and the like, such as a child telephone watch and the like, but the child watches generally have preset applications or can download applications from application stores, the applications have certain attractiveness to the children, and the children often cannot control themselves to use the interesting applications, so that the electric quantity of the child watches is consumed quickly. One of the main scenes that parents need to contact children is that before students go home, parents need to know the position of children and judge whether the parents can safely go home. But often the child frequently uses the watch, which is not sufficiently powerful to support him to go home.

Existing mobile terminals, such as child phone watches, usually have a power saving mode, in which the third party application is not allowed to be started, but only the time and core functions, such as positioning and talking, can be seen. The power saving mode of children's wrist-watch on the market at present is that the wrist-watch electric quantity is low just to activation to certain degree usually, just gets into power saving mode for example the electric quantity is less than 15%, but 15% electric quantity to must not insist on children and put home, thereby lead to the unable its normal function of exerting of wrist-watch, influence the result of use of wrist-watch, and can't guarantee children's safety.

Disclosure of Invention

The invention aims to provide an intelligent power saving method, a mobile terminal, electronic equipment and a storage medium, which can intelligently control the mobile terminal to enter a power saving mode and control the time for entering the power saving mode according to the actual conditions of a user, such as the current position of the user, the expected time required for reaching a target position and the like, thereby prolonging the service life of the mobile terminal, being beneficial to ensuring that the user can safely reach the target position and avoiding that the mobile terminal cannot play a function.

The technical scheme provided by the invention is as follows:

the invention provides an intelligent power saving method, which comprises the following steps:

acquiring the current position and the corresponding current moment of a user;

calculating the expected time required by the user to reach the target position and the first time which can be maintained in the normal working mode;

calculating a second time that can be maintained in a first power saving mode when the desired time is greater than the first time;

when the expected time is equal to the second time, switching the working mode from the normal working mode to a first power saving mode;

when the expected time is greater than the second time, switching the working mode to a first power saving mode or a second power saving mode, wherein the duration in the first power saving mode is a first time, and the duration in the second power saving mode is a time difference between the expected time and the second time; the second power saving mode has better power saving effect than the first power saving mode.

The method comprises the steps of calculating the time required by a user to reach a destination and the time which can be maintained by the mobile terminal in a normal mode by positioning the current position of the user, switching the mobile terminal into a first power saving mode when the electric quantity of the mobile terminal is insufficient, switching the mobile terminal into a second power saving mode which saves more power or switching the mobile terminal into the second power saving mode in part of time when the electric quantity is still insufficient, so that the electric quantity of the mobile terminal can be maintained to reach the destination of the user, and the safety of the user is guaranteed.

Further, still include:

after the working mode is switched to the first power saving mode, starting a positioning function and a communication function in the first power saving mode;

and after the working mode is switched to a second power saving mode, all functions are closed in the second power saving mode.

Under the first power saving mode, the mobile terminal can still position and communicate, which is beneficial to ensuring the continuous positioning, and under the second power saving mode, the mobile terminal closes all functions, which can save electric energy to the maximum extent, and the residual electric quantity can be maintained to the destination of the user after the mobile terminal is started.

Further, before said calculating the expected time required for the user to reach the target position, the method further comprises the steps of:

storing a common address of a user, historical stay time periods for staying at the common address, different common paths formed between the common addresses in different time periods, and historical average path time of each common path;

analyzing the common address corresponding to the current position and the historical stay time period of the common address corresponding to the current position at the current moment, and determining the target position.

By storing the common addresses of the users, the historical stay time periods when the users stay at the common addresses and the historical average path time between the common addresses in different time periods, the destinations which the users may reach can be quickly determined according to the current time after the current position of the users is positioned, and therefore whether the electric quantity of the mobile terminal is enough or not can be judged.

Further, the calculating the expected time required by the user to reach the target position specifically comprises the steps of:

determining the current stay time at the current position according to the current time and the historical stay time period of the common address corresponding to the current position;

determining the current path time required for the current position to leave and reach the target position according to the historical average path time of a common path from the common address corresponding to the current position to the target position;

determining the desired time based on the current dwell time and the current approach time.

The current stay time of the user at the current position can be determined through the current time and the historical stay time period of the common address corresponding to the current position, and the expected time of the user reaching the destination can be determined according to the historical average path time from the common address corresponding to the current position to the target position, so that the expected time is compared with the time that the electric quantity of the mobile terminal can be maintained, and whether the power-saving mode is switched or not is determined.

Further, the method also comprises the following steps:

after the user arrives at the target position, acquiring the current stay time period of the user at the current position and the current path time required for the user to leave from the current position and arrive at the target position;

updating the historical frequency and the historical stay time period of the user at the current position by combining the current stay time period and the historical stay time period of the user at the current position;

when the historical frequency reaches a preset standard frequency, recording the current position as the common address, and recording the updated historical stay time period as the historical stay time period corresponding to the common address;

and updating the historical average route time of a common route which is taken as a common address from the current position to the target position in combination with the current route time which is taken as a common address by the user to leave and reach the target position.

By continuously updating the common addresses, the historical stay time periods of the common addresses and the historical average path time from the current position to the target position, the judgment on the user journey, the target position, the expected time and the like can be ensured to be accurate all the time, so that the mobile terminal is ensured to always keep electric quantity before the user reaches the destination, the loss of functions due to insufficient electric quantity is avoided, and the safety of the user is ensured.

The present invention also provides a mobile terminal, comprising:

the acquisition module is used for acquiring the current position and the corresponding current time of the user;

the computing module is used for computing the expected time required by the user to reach the target position and the first time which can be maintained by the mobile terminal in the normal working mode;

the control module is used for switching the working mode of the mobile terminal;

when the expected time is equal to the first time, the control module switches the working mode of the mobile terminal from the normal working mode to a first power saving mode;

when the expected time is greater than the first time, the calculation module calculates a second time which can be maintained by the mobile terminal in the first power saving mode, the control module switches the working mode of the mobile terminal into the first power saving mode or the second power saving mode, the duration in the first power saving mode is the first time, and the duration in the second power saving mode is the time difference between the expected time and the second time;

the second power saving mode has better power saving effect than the first power saving mode.

Further, still include: the storage module is used for storing a common address of a user, historical stay time periods of stay at the common address, different common paths formed among the common addresses in different time periods, and historical average path time of each common path, and the calculation module calculates the expected time according to the current position, the current time and the storage content of the storage module.

Further, still include: and the updating module is used for updating the common address, the historical stay time period corresponding to the common address and the historical average path time of a common path which leaves from the current position and reaches the target position.

The present invention also provides an electronic device comprising:

the memory is used for storing the running program;

and the processor is used for executing the running program stored in the memory and realizing the operation executed by the intelligent power saving method.

The invention also provides a storage medium, wherein at least one instruction is stored in the storage medium, and the instruction is loaded and executed by a processor to realize the operation executed by the intelligent power saving method.

According to the intelligent power saving method, the mobile terminal, the electronic device and the storage medium provided by the invention, the mobile terminal can be intelligently controlled to enter the power saving mode and the time for entering the power saving mode can be controlled according to the actual conditions of the user, such as the current position of the user, the expected time required for reaching the target position and the like, so that the service life of the mobile terminal can be prolonged, the user can be ensured to safely reach the destination, and the mobile terminal can not play a function.

Drawings

The above features, technical features, advantages and implementations of an intelligent power saving method, a mobile terminal, an electronic device, and a storage medium will be further described in the following detailed description of preferred embodiments with reference to the accompanying drawings.

FIG. 1 is a flow chart of one embodiment of an intelligent power saving method of the present invention;

FIG. 2 is a flow chart of another embodiment of an intelligent power saving method of the present invention;

FIG. 3 is a flow chart of another embodiment of an intelligent power saving method of the present invention;

FIG. 4 is a block diagram of one embodiment of a mobile terminal of the present invention;

fig. 5 is a schematic structural diagram of an embodiment of an electronic device of the present invention.

The reference numbers illustrate: 1-an acquisition module; 2-a calculation module; 3-a control module; 4-a storage module; 5-updating the module; 100-a memory; 200-a processor; 300-a communication interface; 400-a communication bus; 500-input/output interface.

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, the drawings only schematically show the parts relevant to the present invention, 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, an embodiment of the present invention provides an intelligent power saving method, including the following steps:

s100, acquiring the current position and the corresponding current time of the user.

When positioning, a positioning device is adopted, for example, the current position of the user is obtained through GPS positioning and the like, and meanwhile, when the user is positioned, positioning is carried out once every a period of time at a certain frequency, so that the judgment on the residual electric quantity is also carried out once every a period of time, and whether the residual electric quantity can be maintained until the user reaches the destination or not can be judged more accurately.

S200, calculating expected time required by the user to reach the target position and first time capable of being maintained in the normal working mode.

The expected time refers to the estimated time of the user reaching the destination, the time is obtained by analyzing the historical travel of the user stored in the database, for example, the child in the school is stored in the database, the past school time of the child and the time of the child to go home are stored in the database, and the estimated time required by the current child to go home can be obtained by analyzing the data.

And S300, when the expected time is greater than the first time, calculating a second time which can be maintained in the first power saving mode.

And S400, when the expected time is equal to the second time, switching the working mode from the normal working mode to the first power saving mode.

Specifically, under normal operating mode, mobile terminal's homoenergetic normal use such as whole application, function, APP opens locate function and conversation function under first power saving mode, and under this mode, mobile terminal still can fix a position and converse promptly, but can not run other functions, if play recreation etc. is favorable to guaranteeing that the location can continuously go on.

In this embodiment, when the expected time is equal to the first time, the operation mode is switched from the normal operation mode to the first power saving mode, in other embodiments, since the expected time is the most probable estimated time, it may still be possible to vary significantly from the actual time due to other emergency conditions, etc., and, therefore, to avoid an accident, the desired time may be set to be close to the first time, the mobile terminal may be switched from the normal operation mode to the first power saving mode, if the first time that the mobile terminal can be maintained in the normal working mode is three hours, and the expected time that the user reaches the destination from the current moment is two and a half hours, the mobile terminal can be switched to the first power saving mode from the normal working mode, so that the situation that the electric quantity of the mobile terminal is not enough to maintain that the user reaches the destination due to inaccurate pre-estimation can be avoided.

S500, when the expected time is greater than the second time, the working mode is switched to a first power saving mode or a second power saving mode, the duration in the first power saving mode is the first time, and the duration in the second power saving mode is the time difference between the expected time and the second time.

Specifically, the second power saving mode has a better power saving effect than the first power saving mode, and in the second power saving mode, the mobile terminal turns off all functions, that is, the mobile terminal is in a power-off state, so that electric energy can be saved to the maximum extent.

In the first power saving mode, when the electric quantity of the mobile terminal is still not enough to maintain that the user reaches the target position, the working mode of the mobile terminal can be adjusted to the second power saving mode, and the specific adjustment scheme can be that the mobile terminal is firstly switched to the first power saving mode, or switched to the second power saving mode in any middle time period, or firstly switched to the second power saving mode and then switched to the first power saving mode, or the first power saving mode and the second power saving mode are alternately switched, and meanwhile, the total duration in the second power saving mode is the time difference between the expected time and the second time, so that the mobile terminal can be ensured to be at least operated in the first power saving mode before the user reaches the target position.

For example, during the school time, the first time that the remaining power of the mobile terminal, such as the child phone watch, can be maintained in the normal mode is three hours, and the expected time of the child from school to home is also three hours or nearly three hours, at this time, the child phone watch can be switched from the normal operation mode to the first power saving mode to ensure that the child is safe to home; if the expected time of the child from school to home is four hours, the second time that the residual electricity of the child telephone watch can be maintained in the first power saving mode is three and a half hours, at the moment, the child telephone watch is switched from the normal working mode to the first power saving mode, the child telephone watch still cannot be maintained to home, at the moment, the child telephone watch can be switched to the second power saving mode, the duration time of the second power saving mode is half an hour, during specific operation, the child telephone watch can be switched to the second power saving mode for half an hour firstly and then to the first power saving mode, or can be switched to the second power saving mode at any time period in the middle, the rest time is switched to the first power saving mode, and can also be switched to the first power saving mode and the second power saving mode alternately, and the total duration time of the second power saving mode is half an hour, so that the child telephone watch can be prevented from being powered off all the, parents who are children can contact the children at critical time, for example, the children can be ensured to be in the on state when the children put a school.

In addition, in this embodiment, the total duration in the second power saving mode is set as the time difference between the expected time and the second time, so that the mobile terminal can be ensured to be operated in at least the first power saving mode before the user reaches the target location.

According to the intelligent power saving method provided by the embodiment of the invention, the mobile terminal can be intelligently controlled to enter the power saving mode, the time for entering the power saving mode, the power saving mode and the like according to the actual conditions of the user, such as the current position of the user, the expected time for reaching the target position and the like, so that the service life of the mobile terminal can be prolonged, the user can be ensured to safely reach the destination, and the mobile terminal can not play a function.

According to another embodiment provided by the present invention, as shown in fig. 2, an embodiment of the present invention provides an intelligent power saving method, including the following steps:

s100, storing the common addresses of the users, historical stay time periods of stay at the common addresses, different common paths formed between the common addresses in different time periods, and historical average path time of each common path.

The storage adopts a database storage, which comprises information among the common addresses of the users, and can also comprise other related information, such as road condition information of the common addresses, average distance information among the common addresses and the like, so as to ensure the accuracy of the estimation of the expected time.

For example, during school, the common addresses include schools, homes, canteens, stations and other places, historical staying time periods when the children stay at schools, such as nine am to twelve am and two pm to five pm, historical staying time periods when the children stay at homes, such as seven pm to seven am, are stored in the database, one or more common paths between the homes and the schools are provided for the children in the morning, one or more common paths between the schools and the children in the evening are provided for the children, each common path has a corresponding historical average path time, and the target positions of the children and the expected time for the children to reach the target positions can be judged by analyzing the current time and the current positions of the children.

S200, acquiring the current position and the corresponding current time of the user.

S300, analyzing the common address corresponding to the current position and the historical stay time period of the common address corresponding to the current position where the current time is, and determining the target position.

By storing the common addresses of the users, the historical stay time periods when the users stay at the common addresses and the historical average path time between the common addresses in different time periods, the target position which the users may reach can be quickly determined according to the current moment after the current position of the users is positioned, and therefore whether the electric quantity of the mobile terminal is sufficient or not is judged.

For example, the current position of the child is school, and the current time is a school period, so that the child may be judged to be at home with a high possibility of the target position, the child's usual route may also be inferred according to the record of the database, and if the current time is morning, the child's current position is at home, so that the child may be judged to be at school with a high possibility of the target position. Through analyzing the historical data in the database, the target position of the user can be accurately judged.

S400, calculating expected time required by the user to reach the target position and first time capable of being maintained in the normal working mode.

Further, the specific step of calculating the expected time required by the user to reach the target position comprises:

determining the current path time required for leaving from the current position to reach the target position according to the historical average path time of a common path from the common address corresponding to the current position to the target position;

the desired time is determined based on the current dwell time and the current approach time.

For example, the child stays in the school for the historical stay time period, such as nine am to twelve am, two pm to five pm, the current time is three pm, and the current position of the child is the school, so that it can be determined that the current stay time of the child at the current position is two hours.

And S500, when the expected time is greater than the first time, calculating a second time which can be maintained in the first power saving mode.

And S600, when the expected time is equal to the second time, switching the working mode from the normal working mode to the first power saving mode.

S700, when the expected time is greater than the second time, switching the working mode to a first power saving mode or a second power saving mode, wherein the duration in the first power saving mode is the first time, and the duration in the second power saving mode is the time difference between the expected time and the second time; the second power saving mode has better power saving effect than the first power saving mode.

For example, if the child stays in the school for a historical staying time period, such as nine am to twelve am, two pm to five pm, the current time is three pm, the current location of the child is the school, and the historical average path time of the child from the school to the home is one hour, it may be determined that the expected time of the child to the home is three hours, and the expected time is compared with the first time that the mobile terminal can maintain in the normal operating mode, so as to determine whether the electric quantity of the user terminal is sufficient, if the electric quantity of the mobile terminal is sufficient, the mobile terminal may be normally used, and if the electric quantity of the mobile terminal is insufficient, the operating mode of the mobile terminal is switched to the first power saving mode or the second power saving mode according to actual conditions.

According to another embodiment provided by the present invention, as shown in fig. 2 and fig. 3, an embodiment of the present invention provides an intelligent power saving method, including the following steps:

S800, acquiring the current stay time period of the user at the current position and the current path time required for the user to leave from the current position to reach the target position.

S801, updating the historical frequency and the historical stay time period of the user at the current position by combining the current stay time period and the historical stay time period of the user at the current position.

S802, when the historical frequency reaches a preset standard frequency, recording the current position as a common address, and recording the updated historical stay time period as the historical stay time period corresponding to the common address.

Specifically, taking the learning and the school leaving of the children as an example, the common addresses of the children can be schools, homes, canteens, stations and the like, wherein the addresses of the schools, the homes and the historical staying time periods can be stored in the database in a direct input mode, and other common addresses can be stored in the database in a frequency judgment mode. For example, when a child stays in a school for a historical stay time period such as nine am to twelve am and two pm to five pm, and the historical frequency of the child staying in a canteen reaches more than ninety percent, it can be determined that the canteen is also a common address where the child stays frequently, and the common address can be stored, and the time period where the child stays in the canteen can be stored as the historical stay time period corresponding to the canteen.

Through updating the common addresses in the database, the number of the common addresses in the database can be expanded, so that the travel of a user can be judged more accurately, the calculation of the expected time for the user to reach the target position is more accurate, the power saving control of the mobile terminal can be more accurate, the deviation in control is avoided, and the normal experience of the user is not influenced.

And S803, updating the historical average path time of a common path which leaves from the current position as the common address and arrives at the target position by combining the current path time which is required by the user to leave from the current position as the common address and arrives at the target position.

Specifically, in the actual process, according to different actual conditions, a certain deviation inevitably exists in expected time calculated according to data stored in a database, in order to improve the accuracy of judgment, the database needs to be continuously expanded, the current route time required by a user to leave from the current position and reach the target position is continuously recorded and stored in the database, the historical average route time of a common route to leave from the current position and reach the target position can be continuously and newly recorded, and the accuracy of judgment on the expected time of the user to reach the target position is further improved.

By continuously updating the common addresses, the historical stay time periods of the common addresses and the historical average path time from the current position to the target position, the judgment on the user journey, the target position, the expected time and the like can be ensured to be always accurate, so that the mobile terminal is ensured to always keep electric quantity before the user reaches the target position, the mobile terminal is prevented from losing functions due to insufficient electric quantity, and the safety of the user is ensured.

According to an embodiment of the present invention, as shown in fig. 4, an embodiment of the present invention provides a mobile terminal, such as a child telephone watch suitable for children, including an obtaining module 1, a calculating module 2, and a control module 3.

The obtaining module 1 is configured to obtain a current location of a user and a corresponding current time.

The obtaining module 1 includes a positioning unit and the like, and when positioning, the current position of the user is obtained by using the positioning unit, for example, a GPS positioning unit and the like, and when positioning the user, the positioning is performed at a certain frequency at intervals, so that the determination of the remaining power is also performed at intervals, and it is possible to more accurately determine whether the remaining power can be maintained until the user reaches the destination.

The calculating module 2 is used for calculating the expected time required by the user to reach the target position and the first time that the mobile terminal can maintain in the normal operation mode.

The control module 3 is configured to switch a working mode of the mobile terminal, where the working mode of the mobile terminal includes a normal working mode, a first power saving mode, and a second power saving mode.

In the normal working mode, all applications, functions, APPs and the like of the mobile terminal can be normally used; in the first power-saving mode, a positioning function and a communication function are started, namely in the first power-saving mode, the mobile terminal can still perform positioning and communication, but cannot run other functions such as game playing and the like, so that the positioning can be continuously performed; the second power saving mode has better power saving effect than the first power saving mode, and under the second power saving mode, the mobile terminal closes all functions, namely, the mobile terminal is in a power-off state, so that electric energy can be saved to the maximum extent.

When the expected time is equal to the first time, the control module switches the working mode of the mobile terminal from the normal working mode to the first power saving mode.

In this embodiment, when the expected time is equal to the first time, the operating mode is switched from the normal operating mode to the first power saving mode, in other embodiments, since the expected time is an estimated time with the highest possibility, and there is still a possibility that a difference between the expected time and an actual time is large because of other emergency situations and the like, in order to avoid an accident, the expected time may be set to be close to the first time, and the mobile terminal is switched from the normal operating mode to the first power saving mode.

When the expected time is greater than the first time, the calculation module calculates a second time which can be maintained by the mobile terminal in the first power saving mode, the control module switches the working mode of the mobile terminal into the first power saving mode or the second power saving mode, the duration in the first power saving mode is the first time, and the duration in the second power saving mode is the time difference between the expected time and the second time.

In the first power saving mode, when the electric quantity of the mobile terminal is still not enough to maintain that the user reaches the target position, the working mode of the mobile terminal can be adjusted to the second power saving mode, and the specific adjustment scheme can be that the mobile terminal is firstly switched to the first power saving mode, is switched to the second power saving mode in any middle time period, or is firstly switched to the second power saving mode and then switched to the first power saving mode, or is alternately switched between the first power saving mode and the second power saving mode, and meanwhile, the total duration in the second power saving mode is the time difference between the expected time and the second time, so that the mobile terminal can be ensured to be at least operated in the first power saving mode before the user reaches the target position.

For example, during the school time, the first time that the remaining power of the mobile terminal, such as the child phone watch, can be maintained in the normal mode is three hours, and the expected time of the child from school to home is also three hours or nearly three hours, at this time, the child phone watch can be switched from the normal operation mode to the first power saving mode to ensure that the child is safe to home; if the expected time of the child from school to home is four hours, the second time that the remaining electricity of the child telephone watch can be maintained in the first power saving mode is three and a half hours, at this time, the child telephone watch is switched from the normal working mode to the first power saving mode, and the child can not be maintained to home, therefore, the child telephone watch can be switched to the second power saving mode, the duration time of the second power saving mode is half an hour, during specific operation, the child telephone watch can be switched to the second power saving mode for half an hour first, then switched to the first power saving mode, or switched to the second power saving mode at any time period in the middle, the rest time is switched to the first power saving mode, and also can be switched to the first power saving mode and the second power saving mode alternately, the total duration time of the second power saving mode is half an hour, so that the child telephone watch can be prevented from being turned off all the time, parents who are children can contact the children at critical time, for example, the children can be ensured to be in the on state when the children put a school.

In this embodiment, the total duration in the second power saving mode is set as the time difference between the expected time and the second time, so that the mobile terminal can be ensured to operate in at least the first power saving mode before the user reaches the target location.

According to the mobile terminal provided by the embodiment of the invention, the mobile terminal can be intelligently controlled to enter the power saving mode, control the time for entering the power saving mode, enter which power saving mode and the like according to the actual conditions of the user, such as the current position of the user, the expected time for reaching the target position and the like, so that the service life of the mobile terminal can be prolonged, the user can be ensured to safely reach the destination, and the mobile terminal can not play a function.

According to another embodiment of the present invention, as shown in fig. 4, an embodiment of the present invention provides a mobile terminal, such as a child telephone watch suitable for children, including: the acquisition module 1 is used for acquiring the current position and the corresponding current time of a user;

the calculating module 2 is used for calculating the expected time required by the user to reach the target position and the first time which can be maintained by the mobile terminal in the normal working mode;

the control module 3 is used for switching the working mode of the mobile terminal;

when the expected time is greater than the first time, the calculation module calculates a second time which can be maintained by the mobile terminal in the first power saving mode, the control module switches the working mode of the mobile terminal into the first power saving mode or the second power saving mode, the duration in the first power saving mode is the first time, and the duration in the second power saving mode is the time difference between the expected time and the second time; the second power saving mode has better power saving effect than the first power saving mode.

Further, still include: the storage module 4 is used for storing the common addresses of the users, historical stay time periods of the common addresses, different common paths formed among the common addresses in different time periods, and historical average path time of each common path, and the calculation module calculates the expected time according to the current position, the current time and the storage content of the storage module 4.

The present children's current position is school, and the present moment is during for putting school, consequently can judge that children's the great possibility of target location is family, also can deduce children's path commonly used according to the record of database, and if the present moment is morning again, children's current position is at home, consequently can judge that children's the great possibility of target location is school. Through analyzing the historical data in the database, the target position of the user can be accurately judged.

According to another embodiment of the present invention, as shown in fig. 4, an embodiment of the present invention provides a mobile terminal, such as a child phone watch suitable for children, including: the acquisition module 1 is used for acquiring the current position and the corresponding current time of a user;

the storage module 4 is used for storing the common addresses of the users, historical stay time periods of the common addresses, different common paths formed among the common addresses in different time periods, and historical average path time of each common path, and the calculation module calculates expected time according to the current position, the current time and the storage content of the storage module 4;

Further, still include: and the updating module 5 is used for updating the common address, the historical stay time period corresponding to the common address and the historical average path time of a common path from the current position to the target position.

Specifically, in the actual process, because the actual conditions of the user are different every day, a certain deviation inevitably exists in the expected time and the like calculated according to the data stored in the data storage module 4, and in order to improve the accuracy of the judgment, the storage module 4 needs to be continuously expanded, so that when the user is positioned, the current stay time period of the user at the current position and the current approach time required by the user to leave from the current position and reach the target position can be obtained and stored in the storage module 4, so that the data in the storage module 4 can be expanded and updated, and the expected time and the like of the user to reach the destination obtained through the analysis of the storage module 4 are more accurate.

Taking the learning and the school leaving of the children as an example, the common addresses of the children can be schools, families, canteens, stations and the like, wherein the addresses of the schools, the families and the historical staying time periods can be stored in the storage module 4 in a direct input mode, and other common addresses can be stored in the storage module 4 in a frequency judgment mode. For example, when a child stays in a school for a historical stay time period such as nine am to twelve am and two pm to five pm, and the historical frequency of the child staying in a canteen reaches more than ninety percent, it can be determined that the canteen is also a common address where the child stays frequently, and the common address can be stored, and the time period where the child stays in the canteen can be stored as the historical stay time period corresponding to the canteen.

Through updating the common addresses in the storage module 4, the number of the common addresses in the storage module 4 can be increased, so that the travel of a user can be judged more accurately, the calculation of the expected time when the user arrives at the target position is more accurate, the power saving control of the mobile terminal can be more accurate, the deviation in control is avoided, and the normal experience of the user is influenced.

In addition, in the actual process, according to the difference of the actual situation, there is inevitably a certain deviation in the expected time calculated according to the data stored in the storage module 4, and in order to improve the accuracy of the judgment, the storage module 4 needs to be continuously expanded, and the historical average path time of a common path from the current position to the target position can be continuously updated by continuously recording the current path time required by the user to leave from the current position to reach the target position and storing the current path time in the storage module 4, so as to improve the accuracy of the judgment of the expected time of the user to reach the target position.

According to an embodiment of the present invention, an intelligent power saving device, such as a child phone watch, includes: the device comprises a device positioning unit, a data storage unit, a data processing unit and a display unit.

The principle of the intelligent power saving device for starting the power saving mode is as follows:

when the position of the user changes, the equipment positioning unit collects positioning data of the user and stores the data into the data storage unit;

if the equipment stays at a certain position, recording corresponding time period and position information;

the data processing unit analyzes the historical data, can know common addresses of the user such as home and school according to the map information and the user positioning data, and stores the common addresses into the data storage unit;

if the user is judged to be in the school and the current position is in the school, determining how long the user still needs to return home according to historical data;

if the current electric quantity of the equipment is not enough to insist that the user goes home, some power-saving operations can be performed before going home, such as entering a power-saving mode, or temporarily shutting down for a period of time, and then starting up the watch when the user learns the watch quickly, wherein the time length of shutting down can be obtained by subtracting the time length of the watch which can support the operation of the watch in the power-saving mode from the time length of the user going home.

As shown in fig. 5, an embodiment of the present invention further provides an electronic device, which includes a memory 100 and a processor 200, where the memory 100 is used to store an execution program, and the processor 200 is used to execute the execution program stored in the memory, so as to implement operations executed by the intelligent power saving method.

Specifically, the electronic device may further include a communication interface 300, a communication bus 400, and an input/output interface 500, wherein the processor 200, the memory 100, the input/output interface 500, and the communication interface 300 complete communication with each other through the communication bus 400.

A communication bus 400 is a circuit that connects the elements described and enables transmission between these elements. For example, the processor 200 receives commands from other elements through the communication bus 400, decrypts the received commands, and performs calculations or data processing according to the decrypted commands. The memory 100 may include program modules such as a kernel (kernel), middleware (middleware), an Application Programming Interface (API), and applications. The program modules may be comprised of software, firmware or hardware, or at least two of the same. The input/output interface 500 forwards commands or data entered by a user via an input/output device (e.g., sensor, keyboard, touch screen). The communication interface 300 connects the electronic device with other network devices, user equipment, networks. For example, the communication interface 300 may be connected to a network by wire or wirelessly to connect to external other network devices or user devices. The wireless communication may include at least one of: wireless fidelity (WiFi), Bluetooth (BT), Near Field Communication (NFC), Global Positioning Satellite (GPS) and cellular communications, among others. The wired communication may include at least one of: universal Serial Bus (USB), high-definition multimedia interface (HDMI), asynchronous transfer standard interface (RS-232), and the like. The network may be a telecommunications network and a communications network. The communication network may be a computer network, the internet of things, a telephone network. The electronic device may be connected to the network through the communication interface 300, and a protocol used for the electronic device to communicate with other network devices may be supported by at least one of an application, an Application Programming Interface (API), middleware, a kernel, and a communication interface.

The embodiment of the invention also provides a storage medium, wherein at least one instruction is stored in the storage medium, and the instruction is loaded and executed by the processor to realize the operation executed by the intelligent power saving method. For example, the computer readable storage medium may be a read-only memory (ROM), a random-access memory (RAM), a compact disc read-only memory (CD-ROM), a magnetic tape, a floppy disk, an optical data storage device, and the like. They may be implemented in program code that is executable by a computing device such that it is executed by the computing device, or separately, or as individual integrated circuit modules, or as a plurality or steps of individual integrated circuit modules. Thus, the present invention is not limited to any specific combination of hardware and software.

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

1. An intelligent power saving method is characterized by comprising the following steps:

acquiring the current position and the corresponding current moment of a user;

2. The intelligent power saving method according to claim 1, further comprising:

3. The intelligent power saving method according to claim 1, further comprising, before the calculating the expected time required for the user to reach the target location, the steps of:

4. The intelligent power saving method according to claim 3, wherein the calculating of the expected time required for the user to reach the target location comprises:

5. The intelligent power saving method according to claim 3, further comprising the steps of:

6. A mobile terminal, comprising:

7. The mobile terminal of claim 6, further comprising:

the storage module is used for storing a common address of a user, historical stay time periods of stay at the common address, different common paths formed among the common addresses in different time periods, and historical average path time of each common path, and the calculation module calculates the expected time according to the current position, the current time and the storage content of the storage module.

8. The mobile terminal according to claim 7, further comprising:

and the updating module is used for updating the common address, the historical stay time period corresponding to the common address and the historical average path time of a common path which leaves from the current position and reaches the target position.

9. An electronic device, comprising:

the memory is used for storing the running program;

a processor for executing the running program stored in the memory to realize the operations performed by the intelligent power saving method according to any one of claims 1 to 5.

10. A storage medium, characterized by: the storage medium stores at least one instruction, and the instruction is loaded and executed by a processor to implement the operations performed by the intelligent power saving method according to any one of claims 1 to 5.