CN111741163A - Dynamic trigger method for reserved electric quantity and wearable device - Google Patents

Abstract

The invention belongs to the technical field of computers, and provides a dynamic trigger method of reserved electric quantity and wearable equipment, wherein the method comprises the following steps: setting a preset time for endurance under the reserved electric quantity according to the work and rest time of the user; and when the endurance time of the current electric quantity is matched with the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to be in endurance to the preset time. The method and the device estimate the estimated available time of the watch in the state of the pre-electricity quantity by combining the current time and the electricity quantity, further trigger the dynamic trigger mode of the pre-electricity quantity, can flexibly and accurately carry out the dynamic trigger of the pre-electricity quantity, further meet the user requirements to the maximum extent and improve the user experience.

Description

Dynamic trigger method for reserved electric quantity and wearable device

Technical Field

The invention relates to the technical field of computers, in particular to a dynamic trigger method for reserved electric quantity and wearable equipment.

Background

Endurance is an important index of the mobile charging device and is also a core dimension influencing user experience. The reserved electric quantity is used as a power saving mode state, and the time of endurance for a longer time can be ensured when the equipment is in a low electric quantity state.

The traditional reserved electric quantity triggering mode generally adopts a preset fixed threshold, namely when the electric quantity is lower than the threshold, a reserved electric quantity mode is triggered and started, and the equipment is ensured to run under low power consumption. The trigger mode of presetting the fixed threshold value cannot meet the power saving requirements of different user scenes.

Taking a telephone watch as an example, if a child finds that the watch enters the reserved electric quantity after going out in the morning, the watch still has the electricity when the child is free from school, and the traditional scheme can directly lead the child to be unable to get in touch with parents when the child is free from school, so that the user experience is influenced.

Disclosure of Invention

The invention provides a dynamic trigger method for reserved electric quantity and wearable equipment. The method and the device estimate the estimated available time of the watch in the state of the pre-electricity quantity by combining the current time and the electricity quantity, further trigger the dynamic trigger mode of the pre-electricity quantity, can flexibly and accurately carry out the dynamic trigger of the pre-electricity quantity, further meet the user requirements to the maximum extent and improve the user experience.

The technical scheme provided by the invention is as follows:

in one aspect, the present invention provides a dynamic trigger method for reserving electric quantity, including the following steps:

and setting the preset time for endurance under the reserved electric quantity according to the work and rest time of the user.

And when the endurance time of the current electric quantity is matched with the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to be in endurance to the preset time.

Further preferably, when the duration of the current electric quantity matches the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to continue to the preset time, the method further includes the steps of:

and acquiring the endurance time of the current electric quantity.

And calculating the time difference between the endurance time of the current electric quantity and the preset time.

And when the time difference is in an expected range of the time difference, determining that the endurance time of the current electric quantity is matched with the preset time.

Further preferably, the obtaining of the endurance time of the current electric quantity includes:

and acquiring the current time and the current electric quantity.

And calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

Further preferably, after the performing of the dynamic triggering of the reserved electric quantity, entering a reserved electric quantity mode to enable the current electric quantity to continue the journey to the preset time, the method includes:

and adjusting the background use item number to reduce the background use rate, adjusting the screen brightness and adjusting the screen-on duration to be the default screen-on duration.

Further preferably, the step of setting the preset duration of the reserved electric quantity according to the work and rest time of the user includes the steps of:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest.

And setting the corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest times.

The setting method comprises default setting and/or custom setting.

In another aspect, the present invention also provides a wearable device, including:

and the setting module is used for setting the preset time of endurance under the reserved electric quantity according to the work and rest time of the user.

And the triggering module is used for performing dynamic triggering on the reserved electric quantity when the endurance time of the current electric quantity is matched with the preset time, and entering a reserved electric quantity mode to enable the current electric quantity to continue to the preset time.

Further preferably, the wearable device further comprises:

and the acquisition module is used for acquiring the endurance time of the current electric quantity.

And the calculating module is used for calculating the time difference between the endurance time of the current electric quantity and the preset time.

And the determining module is used for determining that the endurance time of the current electric quantity is matched with the preset time when the time difference is in an expected range of the time difference.

Further preferably, the obtaining module is further configured to:

and acquiring the current time and the current electric quantity.

And calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

Further preferably, the wearable device further comprises:

and the adjusting module is used for adjusting the number of background use items so as to reduce the background use rate, adjust the screen brightness and adjust the screen-on duration to be default screen-on duration.

Further preferably, the setting module is further configured to:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest.

And setting the corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest times.

The setting method comprises default setting and/or custom setting.

The dynamic trigger method for the reserved electric quantity and the wearable device provided by the invention at least have the following beneficial effects:

1) the method and the device estimate the estimated available time of the watch in the state of the pre-electricity quantity by combining the current time and the electricity quantity, further trigger the dynamic trigger mode of the pre-electricity quantity, can flexibly and accurately carry out the dynamic trigger of the pre-electricity quantity, further meet the user requirements to the maximum extent and improve the user experience.

2) Through above scheme, according to the work and rest time that user self corresponds, can be nimble and have corresponding setting to reserve the preset time of continuation of the journey under the electric quantity to guarantee that user equipment's electric quantity can use preset time, make the head of a family can contact with the student in real time, and then guaranteed user's safety.

3) And if the current electric quantity just can continue to the preset time, immediately starting the reserved electric quantity and dynamically triggering the reserved electric quantity. The electric quantity of the user equipment can be guaranteed to be used for the preset time, so that parents can contact with students in real time, and the safety of the users is guaranteed.

Drawings

The invention is described in further detail below with reference to the following figures and detailed description:

fig. 1 is a schematic flow chart of an embodiment of a dynamic triggering method for reserving electric power according to the present invention;

fig. 2 is a schematic flow chart of another embodiment of a dynamic triggering method for reserving electric power according to the present invention;

fig. 3 is a schematic flow chart of a dynamic triggering method for reserving electric power according to another embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of a wearable device of the present invention;

FIG. 5 is a schematic structural diagram of another embodiment of a wearable device in accordance with the present invention;

fig. 6 is a schematic structural diagram of a wearable device according to another embodiment of the invention.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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".

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

In this context, it is to be understood that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

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.

In one aspect, as shown in fig. 1, an embodiment of a dynamic triggering method for reserving power provided by the present invention includes the following steps:

and S110, setting the preset time of endurance under the reserved electric quantity according to the work and rest time of the user.

Specifically, the user may include a student, the work and rest time is set in advance, and the work and rest time may include one or more of the following: the family member sets the work and rest time of the user, the system sets the work and rest time of the user by default, and the work and rest time of the student can be judged according to the study time and the home arrival time of the student. For example, if the student arrives at home at 9 points, the preset time is set to 9 points. The reserved electric quantity is used as a power saving mode state, and the time of endurance for a longer time can be ensured when the equipment is in a low electric quantity state.

Illustratively, when the time for the student to go home is detected to be about 9 points, the device automatically sets the preset time to be 9 points and the required electric quantity for the student to continue the journey to the preset time on the device used by the student.

Illustratively, parents set up preset time to 9 points on the equipment that the student used according to student's actual conditions, equipment according to preset time can generate the electric quantity that the continuation of journey reaches preset time needs.

Illustratively, the device obtains that the work and rest time of students at a certain stage is approximately between 8 and 9 points according to big data analysis, the device autonomously selects the latest time, namely 9 points, as the preset time, and calculates the electric quantity required by the time of endurance to the preset time.

Through above scheme, according to the work and rest time that user self corresponds, can be nimble and have corresponding setting to reserve the preset time of continuation of the journey under the electric quantity to guarantee that user equipment's electric quantity can use preset time, make the head of a family can contact with the student in real time, and then guaranteed user's safety.

And S120, when the endurance time of the current electric quantity is matched with the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to be in endurance to the preset time.

Specifically, the current electric quantity is acquired in real time, when the endurance time of the current electric quantity is matched with the preset time, the reserved electric quantity is dynamically triggered, and a reserved electric quantity mode is entered to enable the current electric quantity to continue to the preset time. The current electric quantity comprises the residual electric quantity of the equipment in the current time, and the endurance time of the current electric quantity, namely the specific time that the equipment can be endurance, can be calculated based on the residual electric quantity. And if the current electric quantity just can continue to the preset time, immediately starting the reserved electric quantity and dynamically triggering the reserved electric quantity. The electric quantity of the user equipment can be guaranteed to be used for the preset time, so that parents can contact with students in real time, and the safety of the users is guaranteed.

Further preferably, when the duration of the current electric quantity matches the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to continue to the preset time, the method further includes the steps of:

and acquiring the endurance time of the current electric quantity.

And calculating the time difference between the endurance time of the current electric quantity and the preset time.

And when the time difference is in an expected range of the time difference, determining that the endurance time of the current electric quantity is matched with the preset time.

Further preferably, the obtaining of the endurance time of the current electric quantity includes:

and acquiring the current time and the current electric quantity.

And calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

Further preferably, the acquiring the current time and the current electric quantity includes:

and acquiring the current time in real time, and acquiring the corresponding current electric quantity based on the current time.

Further preferably, after the performing of the dynamic triggering of the reserved power amount, the method includes the steps of:

and adjusting the background use item number to reduce the background use rate, adjusting the screen brightness and adjusting the screen-on duration to be the default screen-on duration.

Further preferably, the step of setting the preset duration of the reserved electric quantity according to the work and rest time of the user includes the steps of:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest.

And setting the corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest times.

The setting method comprises default setting and/or custom setting.

Specifically, the user may be a student, for example, according to the type of the user, or the student stage where the user is located may be known according to the age of the user, for example, the user may be a schoolchild, a middle school student, or the like. Or judging the type of the user according to the age of the user when the user type cannot be obtained. Or when the age of the user cannot be obtained, obtaining the work and rest time of the user by utilizing big data analysis according to the type of the user and daily work and rest. The problem of inaccurate work and rest time caused by incomplete user data is avoided.

In one aspect, as shown in fig. 2, another embodiment of the present invention provides a method for dynamically triggering reserved power, including the following steps:

s210, setting the preset time of endurance under the reserved electric quantity according to the work and rest time of the user.

Specifically, the user may include a student, the work and rest time is set in advance, and the work and rest time may include one or more of the following: the family member sets the work and rest time of the user, the system sets the work and rest time of the user by default, and the work and rest time of the student can be judged according to the study time and the home arrival time of the student. For example, if the student arrives at home at 9 points, the preset time is set to 9 points. The reserved electric quantity is used as a power saving mode state, and the time of endurance for a longer time can be ensured when the equipment is in a low electric quantity state.

Illustratively, when the time for the student to go home is detected to be about 9 points, the device automatically sets the preset time to be 9 points and the required electric quantity for the student to continue the journey to the preset time on the device used by the student.

Illustratively, parents set up preset time to 9 points on the equipment that the student used according to student's actual conditions, equipment according to preset time can generate the electric quantity that the continuation of journey reaches preset time needs.

Illustratively, the device obtains that the work and rest time of students at a certain stage is approximately between 8 and 9 points according to big data analysis, the device autonomously selects the latest time, namely 9 points, as the preset time, and calculates the electric quantity required by the time of endurance to the preset time.

Through above scheme, according to the work and rest time that user self corresponds, can be nimble and have corresponding setting to reserve the preset time of continuation of the journey under the electric quantity to guarantee that user equipment's electric quantity can use preset time, make the head of a family can contact with the student in real time, and then guaranteed user's safety.

S220, the endurance time of the current electric quantity is obtained.

And S230, calculating the time difference between the endurance time of the current electric quantity and the preset time.

And S240, when the time difference is in an expected range of the time difference, determining that the endurance time of the current electric quantity is matched with the preset time.

Specifically, according to the time difference between the current time and the preset time, the current electric quantity of the device such as a watch can be calculated to meet the requirement at least for a long time, and the requirement can include that the electric quantity can continue to travel to the student.

And S250, when the endurance time of the current electric quantity is matched with the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to continue to the preset time.

Specifically, the current electric quantity is acquired in real time, when the endurance time of the current electric quantity is matched with the preset time, the reserved electric quantity is dynamically triggered, and a reserved electric quantity mode is entered to enable the current electric quantity to continue to the preset time. The current electric quantity comprises the residual electric quantity of the equipment in the current time, and the endurance time of the current electric quantity, namely the specific time that the equipment can be endurance, can be calculated based on the residual electric quantity.

And if the current electric quantity just can continue to the preset time, immediately starting the reserved electric quantity and dynamically triggering the reserved electric quantity. The electric quantity of the user equipment can be guaranteed to be used for the preset time, so that parents can contact with students in real time, and the safety of the users is guaranteed.

Further preferably, the obtaining of the endurance time of the current electric quantity includes:

and acquiring the current time and the current electric quantity.

And calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

Further preferably, the acquiring the current time and the current electric quantity includes:

and acquiring the current time in real time, and acquiring the corresponding current electric quantity based on the current time.

Further preferably, after the performing of the dynamic triggering of the reserved power amount, the method includes the steps of:

and adjusting the background use item number to reduce the background use rate, adjusting the screen brightness and adjusting the screen-on duration to be the default screen-on duration.

Further preferably, the step of setting the preset duration of the reserved electric quantity according to the work and rest time of the user includes the steps of:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest.

Setting corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest time;

the setting method comprises default setting and/or custom setting.

In one aspect, as shown in fig. 3, an embodiment of a dynamic triggering method for reserving power provided by the present invention includes the following steps:

and S310, setting the preset time of endurance under the reserved electric quantity according to the work and rest time of the user.

Specifically, the user may include a student, the work and rest time is set in advance, and the work and rest time may include one or more of the following: the family member sets the work and rest time of the user, the system sets the work and rest time of the user by default, and the work and rest time of the student can be judged according to the study time and the home arrival time of the student. For example, if the student arrives at home at 9 points, the preset time is set to 9 points. The reserved electric quantity is used as a power saving mode state, and the time of endurance for a longer time can be ensured when the equipment is in a low electric quantity state.

Illustratively, when the time for the student to go home is detected to be about 9 points, the device automatically sets the preset time to be 9 points and the required electric quantity for the student to continue the journey to the preset time on the device used by the student.

Illustratively, parents set up preset time to 9 points on the equipment that the student used according to student's actual conditions, equipment according to preset time can generate the electric quantity that the continuation of journey reaches preset time needs.

Illustratively, the device obtains that the work and rest time of students at a certain stage is approximately between 8 and 9 points according to big data analysis, the device autonomously selects the latest time, namely 9 points, as the preset time, and calculates the electric quantity required by the time of endurance to the preset time.

Through above scheme, according to the work and rest time that user self corresponds, can be nimble and have corresponding setting to reserve the preset time of continuation of the journey under the electric quantity to guarantee that user equipment's electric quantity can use preset time, make the head of a family can contact with the student in real time, and then guaranteed user's safety.

And S320, when the endurance time of the current electric quantity is matched with the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to be in endurance to the preset time.

Specifically, the current electric quantity is acquired in real time, when the endurance time of the current electric quantity is matched with the preset time, the reserved electric quantity is dynamically triggered, and a reserved electric quantity mode is entered to enable the current electric quantity to continue to the preset time. The current electric quantity comprises the residual electric quantity of the equipment in the current time, and the endurance time of the current electric quantity, namely the specific time that the equipment can be endurance, can be calculated based on the residual electric quantity.

And if the current electric quantity just can continue to the preset time, immediately starting the reserved electric quantity and dynamically triggering the reserved electric quantity. The electric quantity of the user equipment can be guaranteed to be used for the preset time, so that parents can contact with students in real time, and the safety of the users is guaranteed.

S330, adjusting the number of background use items to reduce the background use rate, adjusting the screen brightness and adjusting the screen-on duration to be the default screen-on duration.

For example, after the reserved power is turned on, the following steps may be performed to reduce the power loss: first, some necessary functions are retained, and other applications in the background are closed. And secondly, reducing the screen brightness and the default screen-on duration. And thirdly, partial functions of the application terminal are disabled, and only the functions of the device are reserved for use.

In one aspect, as shown in fig. 4, the present invention also provides an embodiment of a wearable device 40, comprising:

the setting module 401 is configured to set a preset time for a duration of the reserved electric power according to the work and rest time of the user.

Specifically, the user may include a student, the work and rest time is set in advance, and the work and rest time may include one or more of the following: the family member sets the work and rest time of the user, the system sets the work and rest time of the user by default, and the work and rest time of the student can be judged according to the study time and the home arrival time of the student. For example, if the student arrives at home at 9 points, the preset time is set to 9 points. The reserved electric quantity is used as a power saving mode state, and the time of endurance for a longer time can be ensured when the equipment is in a low electric quantity state.

Illustratively, when the time for the student to go home is detected to be about 9 points, the device automatically sets the preset time to be 9 points and the required electric quantity for the student to continue the journey to the preset time on the device used by the student.

Illustratively, parents set up preset time to 9 points on the equipment that the student used according to student's actual conditions, equipment according to preset time can generate the electric quantity that the continuation of journey reaches preset time needs.

Illustratively, the device obtains that the work and rest time of students at a certain stage is approximately between 8 and 9 points according to big data analysis, the device autonomously selects the latest time, namely 9 points, as the preset time, and calculates the electric quantity required by the time of endurance to the preset time.

Through above scheme, according to the work and rest time that user self corresponds, can be nimble and have corresponding setting to reserve the preset time of continuation of the journey under the electric quantity to guarantee that user equipment's electric quantity can use preset time, make the head of a family can contact with the student in real time, and then guaranteed user's safety.

A triggering module 402, configured to perform dynamic triggering on the reserved electric quantity when the endurance time of the current electric quantity matches the preset time, and enter a reserved electric quantity mode to enable the current electric quantity to continue to the preset time.

Specifically, wearable equipment includes the wrist-watch, sets up the preset time on the wrist-watch, when the time of endurance of current electric quantity equals preset time, the wrist-watch can carry out automatically reserve the dynamic trigger of electric quantity.

The method and the device estimate the estimated available time of the watch in the state of the pre-electricity quantity by combining the current time and the electricity quantity, further trigger the dynamic trigger mode of the pre-electricity quantity, can flexibly and accurately carry out the dynamic trigger of the pre-electricity quantity, further meet the user requirements to the maximum extent and improve the user experience.

Specifically, the wearable device can acquire the current electric quantity in real time, when the endurance time of the current electric quantity is matched with the preset time, the dynamic triggering of the reserved electric quantity is carried out, and the wearable device enters a reserved electric quantity mode to enable the current electric quantity to continue to the preset time. The current electric quantity comprises the residual electric quantity of the wearable device at the current time, and the endurance time of the current electric quantity, namely the specific time that the wearable device can last endurance, namely the preset time, can be calculated based on the residual electric quantity. And if the current electric quantity just can continue to the preset time, immediately starting the reserved electric quantity and dynamically triggering the reserved electric quantity. The electric quantity of the user equipment can be guaranteed to be used for the preset time, so that parents can contact with students in real time, and the safety of the users is guaranteed.

In one aspect, as shown in fig. 5, the present invention also provides another embodiment of a wearable device 40, comprising:

the setting module 401 is configured to set a preset time for a duration of the reserved electric power according to the work and rest time of the user.

A triggering module 402, configured to perform dynamic triggering on the reserved electric quantity when the endurance time of the current electric quantity matches the preset time, and enter a reserved electric quantity mode to enable the current electric quantity to continue to the preset time.

An obtaining module 403, configured to obtain a duration of the current electric quantity.

A calculating module 404, configured to calculate a time difference between the endurance time of the current electric quantity and the preset time.

A determining module 405, configured to determine that the endurance time of the current electric quantity matches the preset time when the time difference is within an expected range of the time difference.

Further preferably, the obtaining module is further configured to:

and acquiring the current time and the current electric quantity.

And calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

Further preferably, the setting module is further configured to:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest.

And setting the corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest times.

The setting method comprises default setting and/or custom setting.

Further preferably, the obtaining module is further configured to:

and acquiring the current time in real time, and acquiring the corresponding current electric quantity based on the current time.

In one aspect, as shown in fig. 6, the present invention also provides another embodiment of a wearable device 40, comprising:

the setting module 401 is configured to set a preset time for a duration of the reserved electric power according to the work and rest time of the user.

A triggering module 402, configured to perform dynamic triggering on the reserved electric quantity when the endurance time of the current electric quantity matches the preset time, and enter a reserved electric quantity mode to enable the current electric quantity to continue to the preset time.

An obtaining module 403, configured to obtain a duration of the current electric quantity.

A calculating module 404, configured to calculate a time difference between the endurance time of the current electric quantity and the preset time.

A determining module 405, configured to determine that the endurance time of the current electric quantity matches the preset time when the time difference is within an expected range of the time difference.

Further preferably, the obtaining module is further configured to:

and acquiring the current time and the current electric quantity.

And calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

Further preferably, the obtaining module is further configured to:

and acquiring the current time in real time, and acquiring the corresponding current electric quantity based on the current time.

And the adjusting module 406 is used for adjusting the number of background use items to reduce the background use rate, adjust the screen brightness, and adjust the screen-on duration to be the default screen-on duration.

The method and the device estimate the estimated available time of the watch in the state of the pre-electricity quantity by combining the current time and the electricity quantity, further trigger the dynamic trigger mode of the pre-electricity quantity, can flexibly and accurately carry out the dynamic trigger of the pre-electricity quantity, further meet the user requirements to the maximum extent and improve the user experience.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described system embodiments are merely exemplary, and it is exemplary that the division of the modules or units is only one logical division, and there may be other divisions when actually implemented, and it is exemplary that a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

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 (10)

1. A dynamic triggering method for reserving electric quantity is characterized by comprising the following steps:

setting a preset time for endurance under the reserved electric quantity according to the work and rest time of the user;

and when the endurance time of the current electric quantity is matched with the preset time, performing dynamic triggering of the reserved electric quantity, and entering a reserved electric quantity mode to enable the current electric quantity to be in endurance to the preset time.

2. The method for dynamically triggering reserved electric quantity according to claim 1, wherein when the duration of the current electric quantity matches the preset time, the method for dynamically triggering reserved electric quantity enters a reserved electric quantity mode to enable the current electric quantity to continue to the preset time, and further comprising the steps of:

acquiring the endurance time of the current electric quantity;

calculating the time difference between the endurance time of the current electric quantity and the preset time;

and when the time difference is in an expected range of the time difference, determining that the endurance time of the current electric quantity is matched with the preset time.

3. The dynamic trigger method for reserving electric quantity according to claim 2, wherein said obtaining the endurance time of the current electric quantity comprises the steps of:

acquiring current time and current electric quantity;

and calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

4. The method for dynamically triggering reserved power according to claim 1, wherein after the dynamically triggering of the reserved power is performed and a reserved power mode is entered to enable the current power to continue to run for the preset time, the method comprises the following steps:

and adjusting the background use item number to reduce the background use rate, adjusting the screen brightness and adjusting the screen-on duration to be the default screen-on duration.

5. The dynamic trigger method for reserved electric quantity according to any one of claims 1 to 4, wherein the preset time for endurance under the reserved electric quantity is set according to the work and rest time of a user, and the method comprises the following steps:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest;

setting corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest time;

the setting method comprises default setting and/or custom setting.

6. A wearable device, comprising:

the setting module is used for setting the preset time of endurance under the reserved electric quantity according to the work and rest time of the user;

and the triggering module is used for performing dynamic triggering on the reserved electric quantity when the endurance time of the current electric quantity is matched with the preset time, and entering a reserved electric quantity mode to enable the current electric quantity to continue to the preset time.

7. The wearable device of claim 6, further comprising:

the acquisition module is used for acquiring the endurance time of the current electric quantity;

the calculation module is used for calculating the time difference between the endurance time of the current electric quantity and the preset time;

and the determining module is used for determining that the endurance time of the current electric quantity is matched with the preset time when the time difference is in an expected range of the time difference.

8. The wearable device of claim 7, wherein the acquisition module is further configured to:

acquiring current time and current electric quantity;

and calculating the endurance time of the current electric quantity by utilizing the power consumption model of the reserved electric quantity based on the current time and the current electric quantity.

9. The wearable device of claim 6, further comprising:

and the adjusting module is used for adjusting the number of background use items so as to reduce the background use rate, adjust the screen brightness and adjust the screen-on duration to be default screen-on duration.

10. The wearable device according to any of claims 6-9, wherein the setup module is further configured to:

setting different work and rest time according to the characteristic information of the user; the characteristic information comprises type, age and daily work and rest;

setting corresponding preset time for continuing the journey under the reserved electric quantity based on the different work and rest time;

the setting method comprises default setting and/or custom setting.

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