CN104777759B - A kind of control method, device and electronic equipment - Google Patents
A kind of control method, device and electronic equipment Download PDFInfo
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- CN104777759B CN104777759B CN201410010341.7A CN201410010341A CN104777759B CN 104777759 B CN104777759 B CN 104777759B CN 201410010341 A CN201410010341 A CN 201410010341A CN 104777759 B CN104777759 B CN 104777759B
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- collecting unit
- time interval
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/042—Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/20—Pc systems
- G05B2219/26—Pc applications
- G05B2219/2612—Data acquisition interface
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- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Automation & Control Theory (AREA)
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Abstract
The embodiment of the present invention provides a kind of control method, device and electronic equipment, and this method is applied to the electronic equipment with the collecting unit for information gathering, and when electronic equipment is in running order, collecting unit has enabled state and non-enabled state;Wherein method includes:Detect the first parameter;The dbjective state switching time interval of collecting unit is determined according to the first parameter, dbjective state switching time switches to the n-hour of enabled state at intervals of collecting unit n-th from non-enabled state, the time interval at the N+1 moment of enabled state is switched to from non-enabled state with collecting unit the N+1 times, wherein, collecting unit is less than the power consumption in enabled state in the power consumption of non-enabled state;Collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.The time interval that the present invention can carry out information gathering to the collecting unit of electronic equipment makees adaptive dynamic adjustment, reduces the power consumption of electronic equipment, ensure that the continuation of the journey of electronic equipment.
Description
Technical field
The present invention relates to part awakening technology field, set more specifically to a kind of control method, device and electronics
It is standby.
Background technology
There is numerous collecting units in electronic equipment at present:Collecting unit is substantially carried out the collection of information, so as to electronics
Equipment carries out processing to the information gathered.Collecting unit make it that the function of electronic equipment is more diversified, but numerous
The work of collecting unit also bring substantial amounts of power consumption for electronic equipment, how on the function operation and power consumption of electronic equipment
Seeking balance turns into the research point that those skilled in the art extremely pay close attention to.
The working condition of the collecting unit in electronic equipment manually controls by user at present, using regular time
Interval is operated, if user it is inartificial setting collecting unit working condition for close, then collecting unit will always
It is operated using fixed time interval, this will bring substantial amounts of powder consumption of electronic equipment, and strong influence electronic equipment continues
Boat;As can be seen that existing collecting unit is operated using fixed time interval, and closed in not manual control collecting unit
In the case of closing, collecting unit will always be in opening, and this will cause electronic equipment larger power consumption to be present, influence electronics
The continuation of the journey of equipment.
The content of the invention
In view of this, the embodiment of the present invention provides a kind of control method, device and electronic equipment, to solve existing artificial control
Collecting unit processed is operated using fixed time interval, and existing powder consumption of electronic equipment is larger, influences electronic equipment
The problem of continuation of the journey.
To achieve the above object, the embodiment of the present invention provides following technical scheme:
A kind of control method, applied to electronic equipment, the electronic equipment has the collecting unit for information gathering,
When the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, and methods described includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the target
State switching time at intervals of the collecting unit n-th from the non-enabled state switch to the N of the enabled state when
Carve, between the time at the N+1 times N+1 moment for switching to the enabled state from the non-enabled state of the collecting unit
Every, wherein, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.
The embodiment of the present invention also provides a kind of control device, and applied to electronic equipment, the electronic equipment, which has, to be used to believe
The collecting unit of collection is ceased, when the electronic equipment is in running order, the collecting unit has enabled state and non-made
Energy state, described device include:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter,
Wherein, the dbjective state switching time switches to described make at intervals of the collecting unit n-th from the non-enabled state
The n-hour of energy state, and the N+1 times N+ that the enabled state is switched to from the non-enabled state of the collecting unit
The time interval at 1 moment, wherein, the collecting unit is less than the work(in the enabled state in the power consumption of the non-enabled state
Consumption;
First control acquisition module, for controlling the collecting unit to be carried out according to dbjective state switching time interval
Information gathering.
The embodiment of the present invention also provides a kind of electronic equipment, and the electronic equipment has the collection list for information gathering
Member, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, the electronics
Equipment includes control device described above.
Based on above-mentioned technical proposal, control method provided in an embodiment of the present invention, by detecting the first parameter, so as to basis
First parameter determines the dbjective state switching time interval of collecting unit, and dbjective state switching time is at intervals of the collecting unit
N-th switches to the n-hour of enabled state from non-enabled state, and the collecting unit is cut for the N+1 times from non-enabled state
The time interval at the N+1 moment of enabled state is shifted to, wherein, collecting unit is less than in institute in the power consumption of the non-enabled state
The power consumption of enabled state is stated, by controlling the collecting unit to enter row information according to interval of identified dbjective state switching time
Collection, it is achieved thereby that the automatic dynamic for the time interval for carrying out information gathering to the collecting unit of electronic equipment adjusts, ensure
Collecting unit is not to carry out information gathering using fixed time interval always, but can be carried out by first parameter adaptive
The adjustment of the time interval for the information gathering answered, the power consumption of electronic equipment is greatly reduced, ensure that the continuation of the journey of electronic equipment.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are the present invention
Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can also basis
These accompanying drawings obtain other accompanying drawings.
Fig. 1 is the first pass figure of control method provided in an embodiment of the present invention;
Fig. 2 is the second flow chart of control method provided in an embodiment of the present invention;
Fig. 3 is the 3rd flow chart of control method provided in an embodiment of the present invention;
Fig. 4 is the 4th flow chart of control method provided in an embodiment of the present invention;
Fig. 5 is the 5th flow chart of control method provided in an embodiment of the present invention;
Fig. 6 is the 6th flow chart of control method provided in an embodiment of the present invention;
Fig. 7 is the 7th flow chart of control method provided in an embodiment of the present invention;
Fig. 8 is the first pass figure at determination dbjective state switching time interval provided in an embodiment of the present invention;
Fig. 9 is the second flow chart at determination dbjective state switching time interval provided in an embodiment of the present invention;
Figure 10 is the 8th flow chart of control method provided in an embodiment of the present invention;
Figure 11 is the 9th flow chart of control method provided in an embodiment of the present invention;
Figure 12 is the first structured flowchart of control device provided in an embodiment of the present invention;
Figure 13 is second of structured flowchart of control device provided in an embodiment of the present invention;
Figure 14 is the first structured flowchart of the provided in an embodiment of the present invention first control acquisition module;
Figure 15 is the first alternative construction block diagram of determining module provided in an embodiment of the present invention;
Figure 16 is second of alternative construction block diagram of the provided in an embodiment of the present invention first control acquisition module;
Figure 17 is the third structured flowchart of control device provided in an embodiment of the present invention;
Figure 18 is second of alternative construction block diagram of determining module provided in an embodiment of the present invention;
Figure 19 is the third structured flowchart of determining module provided in an embodiment of the present invention;
Figure 20 is the first structured flowchart of detection module provided in an embodiment of the present invention;
Figure 21 is the 4th kind of structured flowchart of determining module provided in an embodiment of the present invention;
Figure 22 is second of structured flowchart of detection module provided in an embodiment of the present invention;
Figure 23 is the first structured flowchart of the second detection unit provided in an embodiment of the present invention;
Figure 24 is the 5th kind of structured flowchart of determining module provided in an embodiment of the present invention;
Figure 25 is the 6th kind of structured flowchart of determining module provided in an embodiment of the present invention;
Figure 26 is the 7th kind of structured flowchart of determining module provided in an embodiment of the present invention;
Figure 27 is the 8th kind of structured flowchart of determining module provided in an embodiment of the present invention;
Figure 28 is the third structured flowchart of detection module provided in an embodiment of the present invention;
Figure 29 is the 9th kind of structured flowchart of determining module provided in an embodiment of the present invention;
Figure 30 is the provided in an embodiment of the present invention 5th the first structured flowchart for determining execution unit;
Figure 31 is the provided in an embodiment of the present invention 5th second of structured flowchart for determining execution unit.
Embodiment
To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention
In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is
Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art
The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.
Fig. 1 is the first pass figure of control method provided in an embodiment of the present invention, and this method can be applied to have collection single
The electronic equipment of member, the collecting unit can be used for being acquired information, and in embodiments of the present invention, collecting unit has enabled
State and non-enabled state, when collecting unit is in enabled state, the collection of row information will be entered, collecting unit is in non-enabled shape
During state, by without the collection of information;Reference picture 1, this method can include:
Step S100, the first parameter is detected;
Optionally, the first parameter can be corresponding with the predetermined state of electronic equipment, and predetermined state can be electronic equipment
Mobile status, state of charge, geographical position variable condition etc.;According to the difference of the type of collecting unit, first detected
The type of parameter can also be adjusted, and for the type for the first parameter to be detected, the embodiment of the present invention is not restricted.
Step S110, the dbjective state switching time interval of the collecting unit is determined according to first parameter;
Optionally, can be that collecting unit is neighbouring be in enabled state twice at the state switching time interval of collecting unit
Time interval;Dbjective state switching time interval can be the mesh at state switching time to be determined interval of the embodiment of the present invention
Scale value, in embodiments of the present invention, corresponding with dbjective state switching time interval is reset condition switching time interval, former
State beginning, interval switching time may be considered the laststate switching time interval at dbjective state switching time interval.
Optionally, for ease of understanding, t1 can be set, t2, t3 ... tn time series, wherein current time are t3, t1 and t2
For last time, t4~tn is future time instance, and the state switching time interval of each adjacent moment collecting unit is different;Then
In state switching time to be determined at t3 moment at intervals of dbjective state switching time interval, state is cut used by the t2 moment
It is reset condition switching time interval to change time interval, and over time, the t4 moment is changed into current time, then corresponding,
State switching time to be determined at t4 moment at intervals of dbjective state switching time interval, the shape that the t3 moment determines and used
State switching time interval is changed into reset condition switching time interval.
Specifically, dbjective state switching time interval can be collecting unit n-th be switched to from non-enabled state it is enabled
The n-hour of state, and the time interval at the N+1 times N+1 moment that enabled state is switched to from non-enabled state of collecting unit,
That is the time difference at N+1 moment and n-hour;Due to the collection of row information will be entered in enabled state collecting unit, therefore gather
Unit is less than the power consumption of enabled state in the power consumption of non-enabled state.
Step S120, the collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.
Optionally, the embodiment of the present invention can when collecting unit starts or before, determine between dbjective state switching time
Every after dbjective state switching time interval is determined, controllable collecting unit is according to target-like when collecting unit starts
The collection of row information is entered at state switching time interval;Optionally, the embodiment of the present invention also can be in running order in collecting unit
When, dbjective state switching time interval is determined, by the state switching time interval of collecting unit by between reset condition switching time
Every being adjusted to dbjective state switching time interval, identified dbjective state switching time interval and between reset condition switching time
Every difference, so as to realize that the dynamic at state switching time interval adjusts, i.e., dbjective state switching time interval can be according to being detected
The first parameter carry out adaptive adjustment.Method shown in Fig. 1 can be applied to the whole process of the collecting unit work whole story, can also apply
In any instant of the collecting unit work whole story.
Control method provided in an embodiment of the present invention, by detecting the first parameter, so as to determine to gather according to the first parameter
The dbjective state switching time interval of unit, dbjective state switching time is at intervals of the collecting unit n-th from non-enabled shape
State switches to the n-hour of enabled state, and the collecting unit switches to the of enabled state from non-enabled state the N+1 times
The time interval at N+1 moment, wherein, collecting unit is less than the work(in the enabled state in the power consumption of the non-enabled state
Consumption, by controlling the collecting unit to carry out information gathering according to interval of identified dbjective state switching time;So that
The time interval that the collecting unit of electronic equipment carries out information gathering can carry out adaptive dynamic adjustment according to the first parameter,
Rather than information gathering is carried out using fixed time interval always, the power consumption of electronic equipment is reduced, ensure that electronic equipment
Continuation of the journey.
Optionally, in embodiments of the present invention, the first parameter can be corresponding with the predetermined state of electronic equipment, such as the first ginseng
Number can be with the scene and state at characterization of electronic equipment, so as to determine the target-like of the collecting unit by the first parameter
State switching time interval, it is ensured that under the scene and state at electronic equipment, the accuracy of collecting unit information gathering;
Collecting unit carries out the adaptive dynamic adjustment of the time interval of information gathering simultaneously, and enabling to the power consumption of electronic equipment is
State is adjustable;As can be seen that control method provided in an embodiment of the present invention can gather in the power consumption and collecting unit of electronic equipment
Reach balance in the accuracy of information, in the case where ensureing the accuracy of collecting unit information gathering, reduce electronic equipment
Power consumption, ensure that the continuation of the journey of electronic equipment.
Optionally, in embodiments of the present invention, collecting unit can be the unit that can arbitrarily carry out information gathering, such as
The collecting unit of monochrome information is gathered, the collecting unit of acoustic information is gathered, gathers collecting unit of positional information etc..
Already described above, the embodiment of the present invention can be when collecting unit be in running order, when carrying out dbjective state switching
Between the determination that is spaced, so as in the course of work of collecting unit, enter Mobile state adjustment to state switching time interval so that adopt
Collection unit can enter the collection of row information by the state switching time interval of dynamic adjustment, so as in the course of work of collecting unit
In, realize that the dynamic of powder consumption of electronic equipment is adjustable, reduce the power consumption of electronic equipment, ensure that the continuation of the journey of electronic equipment.It is corresponding
, Fig. 2 shows corresponding control method flow, and Fig. 2 is the second flow chart of control method provided in an embodiment of the present invention, is joined
According to Fig. 2, this method can include:
Step S200, the first parameter is detected;
Step S210, the collecting unit is controlled to carry out information gathering according to reset condition switching time interval;
Compared to method shown in Fig. 1, reset condition switching time interval may be considered collecting unit the M times from non-enabled shape
State switches to the M moment of enabled state, and the M+1 times M+1 that enabled state is switched to from non-enabled state of collecting unit
The time interval at moment, wherein M are less than N;I.e. it is believed that reset condition switching time interval is dbjective state switching time interval
Previous status switching time interval.
Step S220, the dbjective state switching time interval of the collecting unit is determined according to first parameter;
Step S230, the neighbouring time interval in enabled state twice of the collecting unit is cut by the reset condition
Change time interval and switch to dbjective state switching time interval;
Step S240, the collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.
Optionally, when the neighbouring time interval for carrying out information gathering twice of collecting unit can be switched by the reset condition
Between interval switch to dbjective state switching time interval, so as to control the collecting unit to switch according to the dbjective state
Time interval carries out information gathering.
The state switching time interval that t1, t2, t3 ... tn time series, and each adjacent moment collecting unit can be set is not
With, if the state switching time of t3 moment collecting units is at intervals of dbjective state switching time interval, t2 moment collecting units
State switching time at intervals of reset condition switching time interval, then between the reset condition switching time at t2 moment is determined
Every rear, and before the t2 moment carries out information gathering according to reset condition switching time interval, the embodiment of the present invention detectable the
One parameter, the state switching time interval of collecting unit according to first parameter determines the t3 moment, so as to be adopted described
The neighbouring time interval for carrying out information gathering twice of collection unit switches to the target by reset condition switching time interval
State switching time interval, to control the collecting unit to carry out letter according to dbjective state switching time interval at the t3 moment
Breath collection.
Optionally, method shown in Fig. 2 is after the first parameter is detected, and controls the collecting unit to be cut according to reset condition
Change time interval and carry out information gathering;I.e. the embodiment of the present invention can be when controlling the collecting unit to switch according to reset condition
Between before interval carries out information gathering, that is, set about carrying out the determination at dbjective state switching time interval, it is seen that the embodiment of the present invention
The sequential for determining dbjective state switching time interval is continuous, and the embodiment of the present invention can determine the original shape of last moment
After state switching time interval, before carrying out information gathering using the reset condition switching time interval of the last moment, that is, open
Begin to carry out the determination at dbjective state switching time interval, during so as to ensure that dbjective state switches in the course of work of collecting unit
Between the determination that is spaced carry out in real time, so as to the accuracy at dbjective state switching time interval determined by improving.Pass through Fig. 2
Shown method in the course of work of collecting unit, can realize that the real-time dynamic at the state switching time interval of collecting unit can
Adjust, and interval of identified dbjective state switching time has higher accuracy, so as to realize the dynamic of powder consumption of electronic equipment
It is adjustable, realize the purpose for reducing powder consumption of electronic equipment.
Fig. 3 is the 3rd flow chart of control method provided in an embodiment of the present invention, and reference picture 3, this method can include:
Step S300, the collecting unit is controlled to carry out information gathering according to reset condition switching time interval;
Step S310, the first parameter is detected;
Step S320, the dbjective state switching time interval of the collecting unit is determined according to first parameter;
Step S330, the collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.
The state switching time interval that t1, t2, t3 ... tn time series, and each adjacent moment collecting unit can be set is not
With, if the state switching time of t3 moment collecting units is at intervals of dbjective state switching time interval, t2 moment collecting units
State switching time at intervals of reset condition switching time interval, then enter at the t2 moment according to reset condition switching time interval
After row information collection, the embodiment of the present invention can detect the first parameter, when determining the state switching of collecting unit described in the t3 moment
Between be spaced, so as to by the neighbouring time interval of information gathering that carries out twice of the collecting unit by the reset condition switching time
Interval switches to dbjective state switching time interval, to control the collecting unit according to the dbjective state at the t3 moment
Switching time interval progress information gathering.
Method shown in Fig. 3 can start after collecting unit carries out information gathering according to reset condition switching time interval
The determination at dbjective state switching time interval is carried out, so as to ensure that the orderly determination at state switching time interval.
Understood with reference to shown in Fig. 2 and Fig. 3, the embodiment of the present invention is determining the collecting unit according to first parameter
Before dbjective state switching time interval, or before the first parameter is detected, collecting unit is according to reset condition switching time interval
Enter the collection of row information, can after the dbjective state switching time interval of the collecting unit is determined according to the first parameter
The neighbouring time interval for carrying out information gathering twice of collecting unit is switched to by reset condition switching time interval described
Dbjective state switching time interval.
It is already described above, the embodiment of the present invention can collecting unit start when or before, carry out dbjective state switching time
The determination at interval;Corresponding, Fig. 4 shows the 4th flow chart of control method provided in an embodiment of the present invention, and reference picture 4 should
Method can include:
Step S400, the first parameter is detected;
Step S410, when starting the collecting unit, the target of the collecting unit is determined according to first parameter
State switching time interval;
Step S420, start the collecting unit, control the collecting unit according between the dbjective state switching time
Every progress information gathering.
Another control method flow can be:Detect the first parameter;Before the collecting unit is started, according to described
First parameter determines the dbjective state switching time interval of the collecting unit;Start the collecting unit, control the collection
Unit carries out information gathering according to dbjective state switching time interval.
Optionally, collecting unit start when or before, the embodiment of the present invention can be from multiple candidate state switching times
Dbjective state switching time interval is determined in interval, or the target-like is calculated according to the first parameter detected
State switching time interval.
The embodiment of the present invention when collecting unit starts or before, carry out the determination at dbjective state switching time interval,
Collecting unit be may be such that when repeatedly being started, information gathering is carried out using different dbjective state switching time intervals;Make
Collecting unit can be started with the dbjective state switching time interval of dynamically changeable, ensure that collecting unit on startup
The power consumption of electronic equipment is adjustable, and collecting unit in each start used dbjective state switching time interval with being examined
The first parameter surveyed is corresponding, ensures that collecting unit can carry out the adaptive of dbjective state switching time interval according to the first parameter
Should be dynamically determined so that collecting unit start when the guaranteed information gathering accuracy of can dbjective state switching time
Interval, and cause electronic equipment can when collecting unit starts to have relatively low power consumption, the power consumption of electronic equipment is reduced,
It ensure that the continuation of the journey of electronic equipment.
Optionally, after collecting unit startup, the embodiment of the present invention can also be carried out in the course of work of collecting unit
The dynamic adjustment at state switching time interval;Corresponding, Fig. 5 shows the 5th stream of control method provided in an embodiment of the present invention
Journey, the 5th flow occur after collecting unit startup, and reference picture 5, this method can include:
Step S500, the change of the first parameter is monitored;
If the change of first parameter step S510, detected meets preparatory condition, the collecting unit is updated
State switching time interval, to determine more new state switching time interval, the more new state switching time interval with after change
The first parameter it is corresponding;
After collecting unit startup, the embodiment of the present invention can detect to the first parameter, when the first parameter detected
Change when meeting preparatory condition, the state switching time interval of collecting unit can be updated, so as to be opened in collecting unit
Realize that the dynamic at the state switching time interval of collecting unit is adjustable after dynamic;Herein more new state switching time interval can be
When the change of first parameter meets preparatory condition, the state switching time interval after updating, more new state switching time interval
Need to be corresponding with the first parameter after change, depending on the visual concrete application situation of setting of mode, do not limit
System.Optionally, when more new state switching time interval can start with the collecting unit or before identified dbjective state
Switching time interval difference.
Step S520, the collecting unit is controlled to carry out information gathering according to the more new state switching time interval.
T1 can be set, t2, t3 ... tn time series, the t1 moment are the Startup time of collecting unit, and t2, t3 ... the tn moment is
Collecting unit start after operation time, then when the t1 moment arrives or before the t1 moment arrives, the embodiment of the present invention can detect the
One parameter, the dbjective state switching time interval of the collecting unit is determined according to first parameter, so as to be adopted at the t1 moment
When collecting unit starting, control collecting unit carries out information gathering according to dbjective state switching time interval so that collecting unit can
Started with the dbjective state switching time interval of dynamically changeable, realize that the dynamic of powder consumption of electronic equipment is adjustable;When in t2,
During the operation time of t3 ... tn collecting units, the embodiment of the present invention can also detect the first parameter, if detecting the first parameter
When change meets preparatory condition, the state switching time interval of collecting unit can be updated, so that the state after renewal
Switching time, interval was corresponding with the first parameter after change, in t2, t3 ... the tn moment, between the state switching time of collecting unit
Every multiple renewal can be carried out.
With reference to shown in Fig. 4 and Fig. 5, the embodiment of the present invention can be when collecting unit be repeatedly started, using different mesh
Mark state switching time interval carries out information gathering, and after collecting unit starts every time, is entered according to the change of the first parameter
The dynamic adjustment at row state switching time interval;So that when collecting unit starts, when being switched with the dbjective state of dynamically changeable
Between be spaced and started, and after collecting unit startup, information gathering is carried out with the state switching time interval of dynamically changeable,
It ensure that the dynamic of collecting unit power consumption at any one time is adjustable.
Optionally, dbjective state switching time interval can be cut from the state of multiple candidates determined by the embodiment of the present invention
Change and selection determination is carried out in time interval, as long as selected dbjective state switching time interval and the first parameter phase detected
It is corresponding;Optionally, a dbjective state switching time interval can correspond to the first parameter of a range intervals, and such as value exists
The first parameter in the range of 1-100 can correspond to a dbjective state switching time interval, and the first parameter in the range of 100-200 is again
Another dbjective state switching time interval can be corresponded to.Target-like is chosen in this state switching time interval from multiple candidates
The mode at state switching time interval, the calculating process at dbjective state switching time interval can be avoided, after it have detected the first parameter,
The selection at interval of quick dbjective state switching time can be carried out, as long as ensureing set candidate state switching time interval tool
There is higher accuracy, the accuracy at selected dbjective state switching time interval can also be ensured;This mode is realized
The quick determination at dbjective state switching time interval, and collecting unit is at repeatedly adjustment state switching time interval,
It is to be carried out according to the state switching time interval of multiple candidates, ensure that the change of interval adjustment of multiple dbjective state switching time
Change stability, may be such that collecting unit adjusts back and forth between the state switching time interval of multiple fixations, ensure that collection is single
The dynamic stability of first power consumption is adjustable.
Obviously, dbjective state switching time interval can also pass through the first detected parameter determined by the embodiment of the present invention
It is calculated in real time;This mode can cause identified dbjective state switching time interval and pair of the first parameter
Answering property is more accurate, ensure that every time identified dbjective state switching time interval is respectively provided with higher accuracy.
Optionally, the embodiment of the present invention can carry out the detection of the first parameter by collecting unit;Corresponding, Fig. 6 is shown
6th flow of control method provided in an embodiment of the present invention, reference picture 6, this method can include:
Step S600, the first parameter that detection collecting unit is gathered;
Optionally, so that collecting unit is carries out the positional information collecting unit of geographical location information collection as an example, in this hair
In bright embodiment, detectable collecting unit gathers respectively when X time switches to enabled state and switches to enabled state the Y times
Electronic equipment geographical location information, wherein Y is more than X;Adopted by the temperature information for carrying out temperature information collection of collecting unit
Exemplified by collecting unit, in embodiments of the present invention, detectable collecting unit switches to enabled state in X time and the Y times switches to
The temperature information gathered respectively during enabled state, so as to when temperature information change is smaller, improve state switching time interval,
When temperature information changes greatly, state switching time interval is reduced.
Step S610, when the first parameter gathered according to collecting unit determines the dbjective state switching of the collecting unit
Between be spaced;
Optionally, so that collecting unit is positional information collecting unit as an example, it is being determined that collecting unit time switches in X
Enabled state and after switching to the displacement of the electronic equipment in interval time of enabled state for the Y times, can pass through the interval
Time determines the displacement of electronic equipment, and the translational speed of electronic equipment is determined according to displacement and interval time, so as to
Dbjective state switching time interval is determined by translational speed;Optionally, the embodiment of the present invention also can directly pass through X time switching
The displacement of electronic equipment in enabled state and the Y times interval time for switching to enabled state, carry out dbjective state
Switching time interval determination.
Step S620, the collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.
The first parameter that the embodiment of the present invention can be gathered by collecting unit carries out dbjective state switching time interval
It is determined that carrying out the acquisition testing of the first parameter without other units, the use of other units can be reduced, it is further to reduce
The power consumption of electronic equipment.Further, dbjective state switching time interval is carried out in the first parameter gathered by collecting unit
Determination on the basis of, the embodiment of the present invention being internally integrated with controlling party provided in an embodiment of the present invention in collecting unit
The control chip of method function, the determination at dbjective state switching time interval is carried out by the control chip, and according to the target
State switching time interval carries out information gathering.
Optionally, detection unit can be included using the electronic equipment for having control method provided in an embodiment of the present invention, should
Detection unit is different from collecting unit, and the embodiment of the present invention can also carry out the detection of the first parameter by detection unit;It is corresponding,
Fig. 7 shows the 7th flow of control method provided in an embodiment of the present invention, reference picture 7, and this method can include:
Step S700, first parameter is detected by the detection unit;
So that collecting unit is positional information collecting unit as an example, the first parameter that detection unit is detected can be and electronics
The related parameter of the change in location of equipment, includes the translational speed of electronic equipment, and collecting unit switches to enabled state in X time
Switched to the Y times in the interval time of enabled state, displacement of electronic equipment etc.;Adopted by temperature information of collecting unit
Exemplified by collecting unit, the first parameter that detection unit is detected can be the parameter related to Changes in weather, including humidity, ultraviolet
Irradiance etc..
Step S710, the first parameter detected according to the detection unit determines that the dbjective state of the collecting unit is cut
Change time interval;
Optionally, by taking the parameter that the first parameter can be related to the change in location of electronic equipment as an example, the present invention is implemented
Example can carry out dbjective state switching time interval according to the displacement for the electronic equipment that detection unit is detected, translational speed
It is determined that.
Step S720, the collecting unit is controlled to carry out information gathering according to dbjective state switching time interval.
The embodiment of the present invention can carry out target-like by the first parameter that the detection unit different from collecting unit is detected
The determination at state switching time interval, the number that collecting unit carries out information gathering can be reduced, so as to reduce the power consumption of collecting unit.
Such as at the beginning of collecting unit starts, the first parameter progress dbjective state that the embodiment of the present invention can be detected by detection unit is cut
The determination of time interval is changed, it is single with control collection so as to it is determined that after dbjective state switching time interval, start collecting unit
Member carries out information gathering according to dbjective state switching time interval, and collecting unit progress information gathering is reduced so as to play
The purpose of number, reduce the power consumption of collecting unit.Optionally, the embodiment of the present invention can also be led at the beginning of collecting unit starts
Cross the first parameter that detection unit is detected and carry out the determination at dbjective state switching time interval, and start it in collecting unit
Afterwards, the information gathered by collecting unit carries out the determination at dbjective state switching time interval, after starting due to collecting unit,
The collection of row information will be entered, therefore after collecting unit startup, the information that directly can be gathered using collecting unit carries out mesh
The determination at mark state switching time interval, and avoid using detection unit, so as to reduce the overall power consumption of electronic equipment.
T1 can be set, t2, t3 ... tn time series, the t1 moment are the Startup time of collecting unit, and t2, t3 ... the tn moment is
Operation time after collecting unit startup, then can detect the first parameter, detected by detection unit in t1 moment, detection unit
The first parameter determine dbjective state switching time interval, so as to reduce the collection information number of collecting unit;And in t2, t3 ...
At the tn moment, because collecting unit had carried out information gathering, therefore the information that can be gathered by collecting unit determines target-like
State switching time interval, so as to carry out the determination at dbjective state switching time interval without using detection unit, reduce detection
The use of unit, the power consumption of electronic equipment can be reduced, ensure the continuation of the journey of electronic equipment.
Below so that collecting unit is positional information collecting unit as an example, control method provided in an embodiment of the present invention is carried out
Description.Optionally, positional information collecting unit can enter row positional information collection by satellite(Such as pass through GPS(Global
Positioning System, global positioning system), the Big Dipper etc. enter row positional information collection), positional information collecting unit may be used also
Gathered with entering row positional information by base station, pass through wifi(Wireless Fidelity)Enter row positional information collection.
Already described above, the embodiment of the present invention can switch to enabled state in X time by collecting unit and the Y times switches to
The geographical location information of the electronic equipment gathered respectively during enabled state realizes the determination at dbjective state switching time interval, and it has
The implementation of body can be:Determine to switch to enabled state from X time in collecting unit by the geographical location information
In the interval time for switching to enabled state to the Y times, the displacement of electronic equipment, by the displacement of electronic equipment and
Interval time determines the translational speed of electronic equipment, so as to determine that the dbjective state of the collecting unit is cut according to translational speed
Change time interval;Determine that the substantially principle at the dbjective state switching time interval of the collecting unit can be with by translational speed
It is:Translational speed is faster, and dbjective state switching time interval is shorter, and translational speed is slower, and dbjective state switching time interval is got over
It is long, but when translational speed is too fast exceed limit value when, shorter dbjective state switching time interval is meaningless, now needs to reduce
Dbjective state switching time interval, or even the switching without dbjective state.
Another implementation can be:Determine from X time to switch in collecting unit according to the geographical location information
In to enabled state to the Y times interval time for switching to enabled state, the displacement of electronic equipment is true according to displacement
The dbjective state switching time interval of the fixed collecting unit.
Already described above, the embodiment of the present invention can also be detected related to the change in location of electronic equipment by detection unit
Parameter carry out the determination at dbjective state switching time interval, its concrete implementation mode can be:Join when change in location is related
When number is translational speed, the determination at dbjective state switching time interval can be directly carried out by translational speed;When change in location phase
Related parameter collecting unit is switched in enabled state and the Y times interval time for switching to enabled state in X time, electronic equipment
Displacement when, translational speed can be calculated by displacement and interval time, so as to determine target-like by translational speed
State switching time interval;When change in location relevant parameter is that collecting unit switches to enabled state in X time and the Y times switches to
In the interval time of enabled state, during the displacement of electronic equipment, directly it can determine that dbjective state switches by displacement
Time interval.
Optionally, the embodiment of the present invention can determine dbjective state switching time interval by translational speed.Specifically, can be first
Determine the translational speed of electronic equipment;If the translational speed is less than predetermined speed, determine dbjective state switching time at intervals of
The very first time interval, the very first time interval be more than the second time interval, the second time interval is that translational speed is more than predetermined speed
When state switching time interval;If the translational speed is more than predetermined speed, determine dbjective state switching time at intervals of
Two time intervals, the second time interval is less than very first time interval, when the very first time is more than predetermined speed at intervals of translational speed
State switching time interval.
Optionally, critical speed when predetermined speed can be user's trip state change, as user walks line state with riding
The critical speed of car state, walk critical speed of line state and running state etc..It is to walk line state and running shape at a predetermined velocity
Exemplified by the critical speed of state, if detecting, the translational speed of electronic equipment is less than predetermined speed, can determine that the trip shape of user
State is to walk line state, it may be determined that dbjective state switching time is at intervals of very first time interval, if detecting the movement of electronic equipment
Speed is more than predetermined speed, then the present condition that goes out that can determine that user is running state, it may be determined that dbjective state switching time interval
For the second time interval, the very first time interval be more than the second time interval.I.e. electronic equipment translational speed by less than predetermined
When speed becomes greater than predetermined speed, reduce the state switching time interval of collecting unit, collecting unit is adopted within the unit interval
The number of collection information will increase, when the translational speed of electronic equipment more than predetermined speed by becoming smaller than predetermined speed, increase
The state switching time interval of collecting unit, the number that collecting unit gathers information within the unit interval will reduce.
It is understood that when translational speed less than predetermined speed by becoming greater than predetermined speed, with translational speed
Increase, the geographical position change of user will be very fast, therefore collecting unit needs more frequently to carry out information gathering, can just protect
The accuracy of the gathered information of card;And when translational speed more than predetermined speed by becoming smaller than predetermined speed, with movement
The reduction of speed, the geographical position change of user is slower, therefore collecting unit more need not frequently carry out information gathering, can
To carry out information gathering with relatively small frequency, so that it may ensure the accuracy of gathered information, so as to less work(
Consumption realizes accurate information gathering;It can be protected by way of the translational speed of electronic equipment determines dbjective state switching time interval
Demonstrate,prove the power consumption of electronic equipment and the balance of collecting unit information gathering accuracy.
Optionally, Fig. 8 shows the first pass figure for determining dbjective state switching time interval, and reference picture 8, the flow can
With including:
Step S800, the translational speed of electronic equipment is determined;
Optionally, can be distinguished by collecting unit when X time switches to enabled state and switches to enabled state the Y times
The geographical location information of the electronic equipment of collection moves the determination of speed;Also can be by collection list that detection unit is detected
Member moves speed in the displacement that X time is switched in enabled state and the Y times interval time for switching to enabled state
The determination of degree, such as detection unit are range sensor;Also the translational speed of electronic equipment can be directly carried out by detection unit
Determination, such as detection unit is velocity sensor.
If step S810, described translational speed is less than predetermined First Speed, the number at dbjective state switching time interval is determined
It is worth for the first value, first value is more than second value, and the second value is translational speed between predetermined First Speed with making a reservation for the
The numerical value at state switching time interval when between two speed;
If step S820, described translational speed determines target-like between predetermined First Speed and predetermined second speed
The numerical value at state switching time interval is second value, and the second value is less than the first value, and first value is less than pre- for translational speed
The numerical value at state switching time interval when determining First Speed;
If step S830, described translational speed is more than predetermined second speed, the number at dbjective state switching time interval is determined
It is worth for the 3rd value, the 3rd value is more than second value, and the second value is translational speed between predetermined First Speed with making a reservation for the
The numerical value at state switching time interval when between two speed.
, also can will be therein it is worth noting that, the either step in step S810, S820 and S830 can individually be implemented
Any at least two step is implemented after being combined.
The dbjective state switching time interval of collecting unit is determined by translational speed, can be very fast in translational speed
When, shorten dbjective state switching time interval, improve the accuracy of positional information collection;When translational speed is slower, extend target
State switching time interval, due to slower translational speed, larger geographical position will not be brought to change, therefore extend target-like
State switching time interval, the accuracy that can't be gathered to positional information influence too much, but during extension dbjective state switching
Between interval can reduce the power consumption of collecting unit, ensure the continuation of the journey of electronic equipment;And when translational speed is too fast exceed limit value when, it is shorter
Dbjective state switching time interval it is meaningless, now need to reduce dbjective state switching time interval, or even without mesh
The switching of mark state, to ensure the continuation of the journey of electronic equipment.
Optionally, the determination method at the interval of dbjective state switching time shown in Fig. 8 can be applied to user's difference trip mode
Scene in, predetermined First Speed can be the critical value of walk speed and the velocity of user, less than predetermined First Speed
Then think that user is in away line state, predetermined second speed can be user's velocity and the vehicles(Such as aircraft, train
Deng)The critical value of speed, then think that user is in the state to ride public transportation means more than predetermined second speed, between predetermined first
Then think that user is in running state between speed and second speed;When user is in away line state, dbjective state can be improved
Switching time interval, with the unit interval reduce collecting unit carry out information gathering number, reduce power consumption;When user is in
During running state, dbjective state switching time time interval can be reduced, enters row information to increase collecting unit within the unit interval
The number of collection, ensure the accuracy of information gathering;When user is in the state to ride public transportation means, due to the motion of high speed
And the validity of information gathering can not be ensured, therefore cocoa improves dbjective state switching time interval, to subtract within the unit interval
Small collecting unit carries out the number of information gathering, reduces power consumption.
Therefore when translational speed from less than predetermined First Speed be changed between predetermined First Speed and predetermined second speed it
Between when, state switching time interval can be switched to second value by the first value, now, second value is between dbjective state switching time
Every first value is more than second value, and so as to increase the number that collecting unit carries out information gathering within the unit interval, lifting is adopted
Collect the accuracy that unit carries out information gathering;When translational speed is by between predetermined First Speed and predetermined second speed, becoming
During for less than predetermined First Speed, state switching time interval can be switched to the first value by second value, the first value is more than second
Value, now, the first value is dbjective state switching time interval, and information gathering is carried out so as to reduce collecting unit within the unit interval
Number, on the basis of information gathering accuracy is ensured reduce collecting unit power consumption;When translational speed is by between predetermined the
, can be by state switching time interval by second value when becoming greater than predetermined second speed between one speed and predetermined second speed
The 3rd value is switched to, now, the 3rd value is dbjective state switching time interval, and the 3rd value is more than second value, so as in unit
The interior number for reducing collecting unit and carrying out information gathering, reduces collecting unit on the basis of information gathering accuracy is ensured
Power consumption;It is changed into when translational speed is from more than predetermined second speed, when between predetermined First Speed and predetermined second speed,
State switching time interval can be switched to second value by the 3rd value, now, second value is dbjective state switching time interval, from
And increasing the number that collecting unit carries out information gathering within the unit interval, lifting collecting unit carries out the accurate of information gathering
Property.
It can be ensured to adopt under different trip modes by the determination method at the interval of dbjective state switching time shown in Fig. 8
Collect the information gathering accuracy of unit, and realize the reduction of powder consumption of electronic equipment.Using user's trip mode of one day as:On on foot
Class, go by taxi airport, and airport lounge is removed in running, goes to another city to go on business by air, airport of running out, and hotel ccommodation of going by foot is
Example, by control method provided in an embodiment of the present invention, following control can be made to the dbjective state switching time interval of collecting unit
System:
Step S10, the first parameter is detected;
Step S11, the translational speed of electronic equipment is determined by the first parameter;
First parameter can directly be translational speed parameter or displacement, geo-location parameter etc..
Step S12, determine that translational speed is less than predetermined First Speed, dbjective state switching time interval is defined as first
Value;
Represent that user is in away line state, the scene of corresponding walk to work less than predetermined First Speed;First value can be from
Chosen in the time interval of multiple candidates(Selected time interval is corresponding with translational speed), can also be according to mobile speed
Degree is calculated.
Step S13, determine that translational speed is more than predetermined second speed, dbjective state switching time interval is defined as the 3rd
Value;
Represent that user is in traffic behavior, the scene on the corresponding airport that goes by taxi more than predetermined second speed.
Step S14, determine that between predetermined First Speed and predetermined second speed, dbjective state is switched for translational speed
Time interval is defined as second value;
Second value is less than the first value and the 3rd value, realizes the increase of the number of collecting unit collection information in the unit interval,
Translational speed represents that user is in running state between predetermined First Speed and predetermined second speed, and corresponding running goes to wait
Room;
Step S15, determine that translational speed is more than predetermined second speed, dbjective state switching time interval is defined as the 3rd
Value;
State switching time interval is adjusted to the 3rd value by second value, realizes that collecting unit gathers information in the unit interval
Number reduction, translational speed represents to be used to be in traffic behavior more than predetermined second speed, and corresponding go by air goes another
The scene that city is gone on business;
Step S16, determine that between predetermined First Speed and predetermined second speed, dbjective state is switched for translational speed
Time interval is defined as second value;
Step S16 correspondingly runs out the scene on airport.
Step S17, determine that translational speed is less than predetermined First Speed, dbjective state switching time interval is defined as first
Value.
Step S17 correspondingly goes by foot the scene of hotel ccommodation.
Optionally, Fig. 9 shows the second flow chart for determining dbjective state switching time interval, and reference picture 9, this method can
With including:
Step S900, determine that electronic equipment switches to enabled state in the collecting unit in X time and the Y times switches to
Displacement in the interval time of enabled state;
Displacement can switch to enabled state in X time by collecting unit and switch to the enabled state time-division for the Y times
The geographical location information for the electronic equipment not gathered is determined;Also can directly be detected by detection unit;Also can pass through
After detection unit moves the detection of speed, determining that collecting unit switches to enabled state and switched to for the Y times in X time makes
Displacement in the interval time of energy state.
If step S910, described displacement is less than predetermined first distance, the number at dbjective state switching time interval is determined
Be worth for the 4th value, the 4th value is more than the 5th value, the 5th value for displacement be more than predetermined first apart from when state
Switching time interval numerical value;
If collecting unit is switched in enabled state and the Y times interval time for switching to enabled state in X time, electronics
The displacement of equipment is less than predetermined first distance, then illustrates electronic equipment displacement and not far, without frequently being believed
Breath collection, therefore dbjective state wakeup time interval can be increased, to realize, collecting unit gathers information number in the unit interval
Reduce, on the basis of information gathering accuracy is ensured, reduce the power consumption of collecting unit.
If step S920, described displacement is more than predetermined first distance, the number at dbjective state switching time interval is determined
Be worth for the 5th value, the 5th value is less than the 4th value, the 4th value for displacement be less than predetermined first apart from when state
Switching time interval numerical value.
If collecting unit is switched in enabled state and the Y times interval time for switching to enabled state in X time, electronics
The displacement of equipment is more than predetermined first distance, then illustrates electronic equipment displacement farther out, it is necessary to carry out frequently information
Collection, to ensure the accuracy of information gathering, therefore can reduce dbjective state wakeup time interval, be adopted with realizing in the unit interval
Collect the increase of unit collection information number.
The dbjective state switching time interval determining method of collecting unit shown in Fig. 9 can be applied to user's different motion scene
Under, the dynamic adjustment at the state switching time interval of collecting unit.If user on treadmill, Spinning when performing physical exercise,
Collecting unit is switched in enabled state and the Y times interval time for switching to enabled state in X time, the movement of electronic equipment
Distance is constant, therefore can increase dbjective state wakeup time interval;And user is when the motion such as being ridden or being jogged,
Collecting unit is switched in enabled state and the Y times interval time for switching to enabled state in X time, the movement of electronic equipment
Distance change is larger, therefore can reduce dbjective state wakeup time interval.
Optionally, step S910 and step S920 can individually be implemented, and combined and implemented without both.
The embodiment of the present invention can switch to enabled state and the Y times in the collecting unit by electronic equipment in X time
The displacement switched in the interval time of enabled state determines dbjective state switching time interval, when displacement is less than in advance
Fixed first apart from when, illustrate that the geographical position situation of change change of electronic equipment is slower, therefore collecting unit need not more frequency
Numerous carry out information gathering, information gathering can be carried out with relatively small frequency, so that it may ensure the accurate of gathered information
Property, realize accurate information gathering so as to less power consumption;When displacement be more than predetermined first apart from when, illustrate user
Geographical position change will be very fast, therefore collecting unit needs more frequently to carry out information gathering, can just ensure what is gathered
The accuracy of information;It can ensure that electronics is set by way of the displacement of electronic equipment determines dbjective state switching time interval
Standby power consumption and the balance of collecting unit information gathering accuracy.
It is worth noting that, above made exemplified by the collecting unit by collecting unit to carry out geographical location information collection
Description, be only better understood from control method provided in an embodiment of the present invention, its should not turn into the scope of the present invention limit
System.Obvious collecting unit can also be collecting unit for carrying out temperature information collection etc..
Optionally, can be Wearable using the electronic equipment for having control method provided in an embodiment of the present invention, should
Wearable includes wearing part, and the wearing part is used for the part that electronic equipment is fixed on to the body of user;
Optionally, the wearing part can be that wrist wears part, for electronic equipment to be fixed on to the wrist of user, the wearing part
Can also wear part, for electronic equipment to be fixed on the user's head.
A few category informations that Wearable is often used for more paying close attention to user are acquired, can in Wearable
Integrated at least a kind of collecting unit for being used to gather information;As Wearable can carry out the collection of geographical location information, or
To the health parameter of user(Such as heartbeat, pulse, cadence etc.)It is acquired;Wearable is due to small volume, therefore
Battery capacity is generally smaller, generally below 1000 milliamperes, but in order to ensure the accuracy of information gathering, therefore often needs
Frequently information gathering is carried out, but this will bring larger power consumption again, therefore solve under Wearable scene, battery holds
Measure the problem of smaller and accurate contradiction of information gathering is particularly significant.It can be solved by control method provided in an embodiment of the present invention
Certainly Wearable battery capacity is smaller, with the accurate contradictory problems of information gathering.The embodiment of the present invention can be set by wearable
Standby interior collecting unit or detection unit detect the first parameter, pass through the target-like that the first detected parameter determines collecting unit
State switching time interval, so as to control the collecting unit to carry out information gathering according to dbjective state switching time interval,
So that dbjective state switching time interval can do adaptive dynamic adjustment according to the first parameter, ensure dbjective state switching time
The determination on demand at interval, so as on the basis of information gathering accuracy is ensured, use less powder consumption of electronic equipment.
It is worth noting yes, the application of collecting unit in the electronic device can be:Electronic equipment can utilize collection
For the information that unit is gathered to the periodic monitoring of realization of goal, electronic equipment can be by information that collecting unit is gathered
Reason, so as to draw the monitoring result to target, in order to ensure in whole monitoring cycle, the accuracy of target monitoring and in real time
Property, this requires collecting unit to have higher information gathering frequency.As electronic equipment can utilize geographical position collecting unit institute
The geographical location information of collection, the drafting of traffic route is carried out, in order to really draw out the situation of route road conditions, it is therefore desirable to
Collecting unit is under higher information gathering frequency state, the mistake that so can just avoid route from drawing(Such as because collection is single
The information gathering frequency of member is not high, may draw originally tortuous route and be in line, so as to draw the route to make mistake).Again
The user's body health parameters information that can be gathered such as electronic equipment using collecting unit(Such as heartbeat, pulse)To the body of user
Body health status is monitored, in order to ensure the real-time of user's body health monitoring and accuracy, therefore with regard to needing to adopt
Collection unit has higher information gathering frequency, and monitoring so just can be timely made when the health of user is bad, is kept away
Exempt from the generation of fortuitous event.Therefore the information gathered in collecting unit is for the situation to the periodic monitoring of realization of goal
Under, the embodiment of the present invention needs to ensure that collecting unit has higher information gathering frequency, is chosen as collecting unit and carries out in real time
Information gathering, can be by the state switching time interval vanishing of collecting unit.
Corresponding, the embodiment of the present invention can determine that the application scenarios for the information that collecting unit is gathered, if collecting unit institute
The information of collection is used for the periodic monitoring of realization of goal, then can maintain the state switching time interval of collecting unit all the time
Less than predetermined time interval, predetermined time interval can be the critical value that collecting unit has higher information gathering frequency.So
The accuracy of target monitoring result can be ensured, and meet the requirement monitored in real time.
Optionally, the embodiment of the present invention can also be by detecting, so as to basis to the dump energy parameter of electronic equipment
The dump energy parameter determines the dbjective state switching time interval of the collecting unit.Figure 10 provides for the embodiment of the present invention
Control method the 8th flow chart, reference picture 10, this method can include:
Step S1000, the dump energy parameter of electronic equipment is detected;
Optionally, there can be the inspection that the software of battery cell monitoring function realizes dump energy parameter by power management chip etc.
Survey.
Step S1100, estimate that the electronic equipment needs the electricity consumed according to the hardware configuration information of the electronic equipment
Amount;
Optionally, hardware configuration information can be CUP types, CPU core number, the hardware configuration parameter such as type of memory.
Step S1200, determine to be used to supply described adopt according to the dump energy parameter, and the electricity for needing to consume
Collect the electricity of cell operation;
If step S1300, being more than predetermined electricity for supplying the electricity of the collecting unit work, determine that dbjective state is cut
The numerical value for changing time interval is the 6th value, and the 6th value is less than the 7th value, and the 7th value is single for supplying the collection
The numerical value at the state switching time interval when electricity of member work is less than predetermined electricity;
If step S1400, being less than predetermined electricity for supplying the electricity of the collecting unit work, determine that dbjective state is cut
The numerical value for changing time interval is the 7th value, and the 7th value is more than the 6th value, and the 6th value is single for supplying the collection
The numerical value at the state switching time interval when electricity of member work is more than predetermined electricity.
Optionally, step S1300, S1400 can individually be implemented.
Optionally, the embodiment of the present invention can be when working more, when reducing state switching for supplying the collecting unit
Between be spaced, to increase the number of collecting unit collection information within the unit interval, lift the information gathering accuracy of collecting unit;
When working less for supplying the collecting unit, enlarging state switching time interval, gathered with reducing within the unit interval
Unit gathers the number of information, reduces the power consumption of collecting unit;So as to keep balance in the accuracy and power consumption of information gathering.
Figure 11 is the 9th flow chart of control method provided in an embodiment of the present invention, and reference picture 11, this method can include:
Step S2000, the dump energy parameter of electronic equipment is detected;
If step S2100, described dump energy parameter is more than predetermined dump energy parameter, dbjective state switching time is determined
The numerical value at interval is the 8th value, and the 8th value is less than the 9th value, and the 9th value is less than predetermined for the dump energy parameter
The numerical value at state switching time interval during dump energy parameter;
If step S2200, described dump energy parameter is less than predetermined dump energy parameter, dbjective state switching time is determined
The numerical value at interval is the 9th value, and the 9th value is more than the 8th value, and the 8th value is more than predetermined for the dump energy parameter
The numerical value at state switching time interval during dump energy parameter.
Optionally, step S2100, S2200 can individually be implemented.
Optionally, the embodiment of the present invention can reduce state switching time interval, with unit when dump energy is more
The number of interior increase collecting unit collection information, lift the information gathering accuracy of collecting unit;When dump energy is less,
Enlarging state switching time interval, to reduce the number of collecting unit collection information within the unit interval, reduce collecting unit
Power consumption;So as to keep balance in the accuracy and power consumption of information gathering.
Control method provided in an embodiment of the present invention can carry out the time of information gathering to the collecting unit of electronic equipment
Interval carries out automatic dynamic adjustment, greatly reduces the power consumption of electronic equipment, ensure that the continuation of the journey of electronic equipment.
Control device provided in an embodiment of the present invention is described below, control device described below is with being described above
Control method can be mutually to should refer to.
Figure 12 is the first structured flowchart of control device provided in an embodiment of the present invention, and the control device can be applied to electricity
Sub- equipment, the electronic equipment has the collecting unit for information gathering, described when the electronic equipment is in running order
Collecting unit has enabled state and non-enabled state;Reference picture 12, the control device can include:
Detection module 100, for detecting the first parameter;
Determining module 200, for the collecting unit is determined according to first parameter dbjective state switching time between
Every, wherein, the dbjective state switching time switches to described at intervals of the collecting unit n-th from the non-enabled state
The n-hour of enabled state, and the collecting unit switch to the of the enabled state from the non-enabled state the N+1 times
The time interval at N+1 moment, wherein, the collecting unit is less than in the enabled state in the power consumption of the non-enabled state
Power consumption;
First control acquisition module 300, for controlling the collecting unit according to dbjective state switching time interval
Carry out information gathering.
Figure 13 is second of structured flowchart of control device provided in an embodiment of the present invention, with reference to shown in Figure 12 and Figure 13,
Control device also includes shown in Figure 13:
Second control acquisition module 400, in the target that the collecting unit is determined according to first parameter
Before state switching time interval, or before the first parameter of the detection, when controlling the collecting unit to switch according to reset condition
Between interval carry out information gathering, reset condition switching time cuts for the M times at intervals of the collecting unit from the non-enabled state
Shift to the M moment of the enabled state, and the collecting unit switched to from the non-enabled state for the M+1 times it is described enabled
The time interval at the M+1 moment of state, M are less than N.
Corresponding, on the basis of control device shown in Figure 13, Figure 14 shows the first of the first control acquisition module 300
Kind alternative construction, reference picture 14, the first control acquisition module 300 can include:
First control unit 310, for by the neighbouring time interval in enabled state twice of the collecting unit by institute
State reset condition switching time interval and switch to dbjective state switching time interval, control the collecting unit according to described
Dbjective state switching time interval carries out information gathering.
Figure 15 shows the first alternative construction of determining module 200, reference picture 15, and determining module 200 can include:
First determining unit 210, for when starting the collecting unit or before, institute is determined according to first parameter
State the dbjective state switching time interval of collecting unit.
Corresponding, on the basis of determining module 200 shown in Figure 15, Figure 16 shows the second of the first control acquisition module
Kind alternative construction, reference picture 16, the first control acquisition module 300 can include:
Start control collecting unit 320, for starting the collecting unit, control the collecting unit according to the target
State switching time interval carries out information gathering.
Corresponding, on the basis of determining module 200 shown in Figure 15, Figure 17 shows control provided in an embodiment of the present invention
The third structured flowchart of device, with reference to shown in Figure 12 and Figure 17, described device also includes:
Parameters variation detection module 500, for monitoring the change of first parameter;
Adjusting module 600, if the change of first parameter for being detected meets preparatory condition, adopted described in renewal
Collect the state switching time interval of unit, to determine more new state switching time interval, the more new state switching time interval
It is corresponding with the first parameter after change;
3rd control acquisition module 700, for controlling the collecting unit according to the more new state switching time interval
Information gathering is carried out, when the more new state switching time interval and the collecting unit start or before identified target-like
State switching time interval is different.
Optionally, Figure 18 shows second of alternative construction of determining module 200, reference picture 18, and determining module 200 can be with
Including:
Unit 220 is chosen, for being determined according to first parameter from multiple candidate target state switching time intervals
The dbjective state switching time interval.
Optionally, Figure 19 shows the third optional knot of determining module 200, reference picture 19, and determining module 200 can wrap
Include:
Computing unit 221, for dbjective state switching time interval to be calculated according to first parameter.
Optionally, Figure 20 shows the first alternative construction of detection module 100, reference picture 20, and detection module 100 can be with
Including:
First detection unit 110, first parameter gathered for detecting the collecting unit.
Corresponding, on the basis of detection module 100 shown in Figure 20, Figure 21 shows that the 4th kind of determining module 200 can
Structure, reference picture 21 are selected, determining module 200 can include:
Second determining unit 230, first parameter for being gathered according to the collecting unit determine the collection
The dbjective state switching time interval of unit.
Optionally, the first parameter that collecting unit is gathered can be:Collecting unit X time switch to enabled state and
The Y times geographical location information for switching to the electronic equipment gathered respectively during enabled state, Y are more than X;It is corresponding, can root
The dbjective state switching time interval of the collecting unit is determined according to the geographical location information.
Optionally, the dbjective state switching time interval for determining the collecting unit according to the geographical location information can be with
It is:Determine that the collecting unit time switches to enabled state in X and switched to for the Y times enabled according to the geographical location information
In the interval time of state, the displacement of the electronic equipment;Electricity is determined according to the displacement and the interval time
The translational speed of sub- equipment;The dbjective state switching time interval of the collecting unit is determined according to the translational speed.Also may be used
To be:Determining that the collecting unit switches to enabled state and switched to for the Y times in X time according to the geographical location information makes
Can be in the interval time of state, the displacement of the electronic equipment;The collecting unit is determined according to the displacement
Dbjective state switching time interval.
Optionally, the electronic equipment can include detection unit;Corresponding, Figure 22 shows that the embodiment of the present invention provides
Detection module 100 second of alternative construction, reference picture 22, detection module 100 can include:
Second detection unit 120, for detecting first parameter, the detection unit and institute by the detection unit
State collecting unit difference.
Optionally, Figure 23 shows the first alternative construction of the second detection unit 120, reference picture 23, the second detection list
Member 120 can include:
First detection sub-unit 121 is related to the change in location of electronic equipment for being detected by the detection unit
Parameter.
Corresponding, on the basis of the second detection unit 120 shown in Figure 23, Figure 24 shows provided in an embodiment of the present invention
5th kind of alternative construction of determining module 200, reference picture 24, determining module 200 can include:
3rd determining unit 240, for determining the target of the collecting unit according to the related parameter of the change in location
State switching time interval.
Optionally, detecting the parameter related to the change in location of electronic equipment by detection unit can be:Pass through detection
Unit detects the translational speed of electronic equipment;It is corresponding, the collecting unit is determined according to the parameter that the change in location is related
Dbjective state switching time interval can be:When determining that the dbjective state of the collecting unit switches according to the translational speed
Between be spaced.
Optionally, detecting the parameter related to the change in location of electronic equipment by detection unit can be:Pass through detection
Unit detects electronic equipment and time switches to enabled state in X in the collecting unit and switch to for the Y times between enabled state
Every the displacement in the time;It is corresponding, the target-like of the collecting unit is determined according to the related parameter of the change in location
State switching time interval includes:According to the displacement and the interval time, the translational speed of electronic equipment is determined;According to
The translational speed determines the dbjective state switching time interval of the collecting unit.
Optionally, detecting the parameter related to the change in location of electronic equipment by detection unit can be:Pass through detection
Unit detects electronic equipment and time switches to enabled state in X in the collecting unit and switch to for the Y times between enabled state
Every the displacement in the time;It is corresponding, the target-like of the collecting unit is determined according to the related parameter of the change in location
State switching time interval can be:The dbjective state switching time interval of the collecting unit is determined according to the displacement.
Optionally, Figure 25 shows the 6th kind of alternative construction of determining module 200 provided in an embodiment of the present invention, reference picture
25, determining module 200 can include:
First translational speed determining unit 201, for determining the translational speed of electronic equipment;
First determines execution unit 202, if be less than predetermined speed for the translational speed, determines that dbjective state switches
Time interval is very first time interval, the very first time interval be more than the second time interval, the second time interval is big for translational speed
State switching time interval when predetermined speed
Second determines execution unit 203, if be more than predetermined speed for the translational speed, determines that dbjective state switches
Time interval is the second time interval, and the second time interval is less than very first time interval, and the very first time is big at intervals of translational speed
State switching time interval when predetermined speed.
Optionally, Figure 26 shows the 7th kind of alternative construction of determining module 200 provided in an embodiment of the present invention, reference picture
26, determining module 200 can include:
Second translational speed determining unit 250, for determining the translational speed of electronic equipment;
3rd determines execution unit 251, if be less than predetermined First Speed for the translational speed, determines dbjective state
The switching time numerical value at interval is the first value, and first value is more than second value, and the second value is translational speed between predetermined
The numerical value at state switching time interval when between First Speed and predetermined second speed;And/or if the translational speed between
When between predetermined First Speed and predetermined second speed, the numerical value for determining dbjective state switching time interval is second value, described
Second value is less than the first value, and described first is worth the number at state switching time interval when being less than predetermined First Speed for translational speed
Value;And/or if when the translational speed is more than predetermined second speed, determine the numerical value at dbjective state switching time interval for the
Three values, the 3rd value are more than second value, and the second value is translational speed between predetermined First Speed and predetermined second speed
Between when state switching time interval numerical value.
Figure 27 shows the 8th kind of alternative construction of determining module 200 provided in an embodiment of the present invention, reference picture 27, it is determined that
Module 200 can include:
Displacement determining unit 260, for determining that electronic equipment switches to enabled shape in the collecting unit in X time
State and the displacement switched to for the Y times in interval time of enabled state, Y are more than X;
4th determines execution unit 261, if the displacement be less than predetermined first apart from when, determine that dbjective state switches
The numerical value of time interval is the 4th value, and the 4th value is more than the 5th value, and the 5th value is more than predetermined first for displacement
Apart from when state switching time interval numerical value;And/or if the displacement be more than predetermined first apart from when, determine mesh
The numerical value at mark state switching time interval is the 5th value, and the 5th value is less than the 4th value, and the 4th value is small for displacement
In predetermined first apart from when state switching time interval numerical value.
Figure 28 shows the third alternative construction of the detection module 100 of offer provided in an embodiment of the present invention, reference picture
28, detection module 100 includes:
Residual capacity measurement unit 130, for detecting the dump energy parameter of electronic equipment.
Corresponding, Figure 29 shows the 9th kind of alternative construction of determining module 200, reference picture 29, and determining module 200 can be with
Including:
5th determines execution unit 270, for determining the target-like of the collecting unit according to the dump energy parameter
State switching time interval.
Optionally, Figure 30 shows the first alternative construction of the 5th determination execution unit 270, and reference picture 30, the 5th is true
Determining execution unit 270 can include:
Subelement 2701 is estimated, for estimating the electronic equipment needs according to the hardware configuration information of the electronic equipment
The electricity of consumption;
Electricity supplies determination subelement 2702, for according to the dump energy parameter, and the electricity for needing to consume
It is determined that the electricity for supplying the collecting unit work;
First determines to perform subelement 2703, if being more than predetermined electricity for the electricity for supplying the collecting unit work
During amount, the numerical value for determining dbjective state switching time interval is the 6th value, and the 6th value is less than the 7th value, and the 7th value is
The numerical value at the state switching time interval when electricity for supplying collecting unit work is less than predetermined electricity;And/or if
When electricity for supplying the collecting unit work is less than predetermined electricity, the numerical value for determining dbjective state switching time interval is
7th value, for the 7th value more than the 6th value, the 6th value is to be more than in advance for supplying the electricity of the collecting unit work
The numerical value at state switching time interval when determining electricity.
Optionally, Figure 31 shows second of alternative construction of the 5th determination execution unit 270, and reference picture 31, the 5th is true
Determining execution unit 270 can include:
Second determines to perform subelement 2710, if be more than predetermined dump energy parameter for the dump energy parameter,
The numerical value for determining dbjective state switching time interval is the 8th value, and the 8th value is less than the 9th value, and the 9th value is described
The numerical value at state switching time interval when dump energy parameter is less than predetermined dump energy parameter;And/or the if remaining electricity
Amount parameter is when being less than predetermined dump energy parameter, and the numerical value for determining dbjective state switching time interval is the 9th value, and the described 9th
Value is more than the 8th value, and the 8th value is more than state switching time during predetermined dump energy parameter for the dump energy parameter
The numerical value at interval.
Control device provided in an embodiment of the present invention can carry out the time of information gathering to the collecting unit of electronic equipment
Interval carries out adaptive dynamic adjustment, greatly reduces the power consumption of electronic equipment, ensure that the continuation of the journey of electronic equipment.
The embodiment of the present invention also provides a kind of electronic equipment, and the electronic equipment can include control device described above,
The description of control device can refer to the description of figure 12 above-Figure 31 corresponding parts, and here is omitted.
Each embodiment is described by the way of progressive in this specification, what each embodiment stressed be and other
The difference of embodiment, between each embodiment identical similar portion mutually referring to.For device disclosed in embodiment
For, because it is corresponded to the method disclosed in Example, so description is fairly simple, related part is said referring to method part
It is bright.
Professional further appreciates that, with reference to the unit of each example of the embodiments described herein description
And algorithm steps, can be realized with electronic hardware, computer software or the combination of the two, in order to clearly demonstrate hardware and
The interchangeability of software, the composition and step of each example are generally described according to function in the above description.These
Function is performed with hardware or software mode actually, application-specific and design constraint depending on technical scheme.Specialty
Technical staff can realize described function using distinct methods to each specific application, but this realization should not
Think beyond the scope of this invention.
Directly it can be held with reference to the step of method or algorithm that the embodiments described herein describes with hardware, processor
Capable software module, or the two combination are implemented.Software module can be placed in random access memory(RAM), internal memory, read-only deposit
Reservoir(ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology
In any other form of storage medium well known in field.
The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or using the present invention.
A variety of modifications to these embodiments will be apparent for those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, it is of the invention
The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one
The most wide scope caused.
Claims (30)
1. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has adopting for information gathering
Collect unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, described
Method includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
Wherein, it is described the dbjective state switching time interval of the collecting unit is determined according to first parameter before, or
Before the first parameter of the detection, methods described also includes:
The collecting unit is controlled to carry out information gathering, reset condition switching time interval according to reset condition switching time interval
The M moment of the enabled state, and the collecting unit are switched to from the non-enabled state for the collecting unit the M times
The time interval at the M+1 times M+1 moment that the enabled state is switched to from the non-enabled state, M are less than N;
The control collecting unit carries out information gathering according to dbjective state switching time interval to be included:
The neighbouring time interval in enabled state twice of the collecting unit is cut by reset condition switching time interval
Dbjective state switching time interval is shifted to, controls the collecting unit to be carried out according to dbjective state switching time interval
Information gathering.
2. control method according to claim 1, it is characterised in that described that the collection is determined according to first parameter
The dbjective state switching time interval of unit includes:
When starting the collecting unit or before, according to first parameter determine the collecting unit dbjective state switch
Time interval;
The control collecting unit carries out information gathering according to dbjective state switching time interval to be included:
Start the collecting unit, control the collecting unit to enter row information according to dbjective state switching time interval and adopt
Collection.
3. control method according to claim 2, it is characterised in that methods described also includes:
Monitor the change of first parameter;
If the change of first parameter detected meets preparatory condition, between the state switching time for updating the collecting unit
Every to determine more new state switching time interval, the more new state switching time interval is relative with the first parameter after change
Should;
The collecting unit is controlled to carry out information gathering, the more new state switching according to the more new state switching time interval
Interval of identified dbjective state switching time is different when time interval starts from the collecting unit or before.
4. control method according to claim 1, it is characterised in that described that the collection is determined according to first parameter
The dbjective state switching time interval of unit includes:
Dbjective state switching time interval is determined from multiple candidate state switching times intervals according to first parameter;
Or
Dbjective state switching time interval is calculated according to first parameter.
5. control method according to claim 1, it is characterised in that the first parameter of the detection includes:
Detect first parameter that the collecting unit is gathered;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
Between the dbjective state switching time that first parameter gathered according to the collecting unit determines the collecting unit
Every.
6. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has adopting for information gathering
Collect unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, described
Method includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
The first parameter of the detection includes:
Detect first parameter that the collecting unit is gathered;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
Between the dbjective state switching time that first parameter gathered according to the collecting unit determines the collecting unit
Every;
First parameter that the detection collecting unit is gathered includes:
Detect the institute that the collecting unit gathers respectively when X time switches to enabled state and switches to enabled state the Y times
The geographical location information of electronic equipment is stated, Y is more than X;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
The dbjective state switching time interval of the collecting unit is determined according to the geographical location information.
7. control method according to claim 6, it is characterised in that described according to determining the geographical location information
The dbjective state switching time interval of collecting unit includes:
Determining that the collecting unit switches to enabled state and switched to for the Y times in X time according to the geographical location information makes
Can be in the interval time of state, the displacement of the electronic equipment;
The translational speed of electronic equipment is determined according to the displacement and the interval time;
The dbjective state switching time interval of the collecting unit is determined according to the translational speed.
8. control method according to claim 6, it is characterised in that described according to determining the geographical location information
The dbjective state switching time interval of collecting unit includes:
Determining that the collecting unit switches to enabled state and switched to for the Y times in X time according to the geographical location information makes
Can be in the interval time of state, the displacement of the electronic equipment;
The dbjective state switching time interval of the collecting unit is determined according to the displacement.
9. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has adopting for information gathering
Collect unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, described
Method includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
The electronic equipment includes detection unit, and the first parameter of the detection includes:
First parameter is detected by the detection unit, the detection unit is different from the collecting unit.
10. control method according to claim 9, it is characterised in that described to pass through the ginseng of detection unit detection first
Number includes:
The parameter related to the change in location of electronic equipment is detected by the detection unit;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
The dbjective state switching time interval of the collecting unit is determined according to the related parameter of the change in location.
11. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
The method of stating includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
Determine the translational speed of the electronic equipment;
If the translational speed is less than predetermined speed, dbjective state switching time is determined at intervals of very first time interval, when first
Between interval be more than the second time interval, between state switching time when the second time interval is more than predetermined speed for translational speed
Every;
If the translational speed is more than predetermined speed, dbjective state switching time is determined at intervals of the second time interval, when second
Between interval be less than very first time interval, between the state switching time when very first time is more than predetermined speed at intervals of translational speed
Every.
12. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
The method of stating includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
Determine the translational speed of the electronic equipment;
If the translational speed is less than predetermined First Speed, the numerical value that determines dbjective state switching time interval is the first value, institute
State the first value and be more than second value, the second value be translational speed between predetermined First Speed and predetermined second speed when
The numerical value at state switching time interval;And/or
If the translational speed between predetermined First Speed and predetermined second speed, determines dbjective state switching time interval
Numerical value be second value, the second value is less than the first value, when first value is less than predetermined First Speed for translational speed
The numerical value at state switching time interval;And/or
If the translational speed is more than predetermined second speed, the numerical value that determines dbjective state switching time interval is the 3rd value, institute
State the 3rd value and be more than second value, the second value be translational speed between predetermined First Speed and predetermined second speed when
The numerical value at state switching time interval.
13. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
The method of stating includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
Determine that the electronic equipment switches to enabled state in the collecting unit in X time and the Y times switches to enabled state
Interval time in displacement, Y is more than X;
If the displacement is less than predetermined first distance, the numerical value for determining dbjective state switching time interval is the 4th value, institute
State the 4th value and be more than the 5th value, the 5th value for displacement be more than predetermined first apart from when state switching time interval
Numerical value;And/or
If the displacement is more than predetermined first distance, the numerical value for determining dbjective state switching time interval is the 5th value, institute
State the 5th value and be less than the 4th value, the 4th value for displacement be less than predetermined first apart from when state switching time interval
Numerical value.
14. control method according to claim 1, it is characterised in that the first parameter of the detection includes:
Detect the dump energy parameter of electronic equipment;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
The dbjective state switching time interval of the collecting unit is determined according to the dump energy parameter.
15. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
The method of stating includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
The first parameter of the detection includes:
Detect the dump energy parameter of electronic equipment;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
The dbjective state switching time interval of the collecting unit is determined according to the dump energy parameter;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to the dump energy parameter:
Estimate that the electronic equipment needs the electricity consumed according to the hardware configuration information of the electronic equipment;
Electricity for supplying the collecting unit work is determined according to the dump energy parameter, and the electricity for needing to consume
Amount;
If being more than predetermined electricity for the electricity for supplying the collecting unit work, the number at dbjective state switching time interval is determined
It is worth and is less than the 7th value for the 6th value, the 6th value, the 7th value is small for supplying the electricity of the collecting unit work
The numerical value at state switching time interval when predetermined electricity;And/or
If being less than predetermined electricity for the electricity for supplying the collecting unit work, the number at dbjective state switching time interval is determined
It is worth and is more than the 6th value for the 7th value, the 7th value, the 6th value is big for supplying the electricity of the collecting unit work
The numerical value at state switching time interval when predetermined electricity.
16. a kind of control method, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
The method of stating includes:
Detect the first parameter;
The dbjective state switching time interval of the collecting unit is determined according to first parameter, wherein, the dbjective state
Switching time switches to the n-hour of the enabled state at intervals of the collecting unit n-th from the non-enabled state, and
The time interval at the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of collecting unit, its
In, the collecting unit is less than the power consumption in the enabled state in the power consumption of the non-enabled state;
The collecting unit is controlled to carry out information gathering according to dbjective state switching time interval;
The first parameter of the detection includes:
Detect the dump energy parameter of electronic equipment;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to first parameter:
The dbjective state switching time interval of the collecting unit is determined according to the dump energy parameter;
It is described to determine that the dbjective state switching time interval of the collecting unit includes according to the dump energy parameter:
If the dump energy parameter is more than predetermined dump energy parameter, determine the numerical value at dbjective state switching time interval for the
Eight values, the 8th value is less than the 9th value, when the 9th value is less than predetermined dump energy parameter for the dump energy parameter
State switching time interval numerical value;
And/or
If the dump energy parameter is less than predetermined dump energy parameter, determine the numerical value at dbjective state switching time interval for the
Nine values, the 9th value is more than the 8th value, when the 8th value is more than predetermined dump energy parameter for the dump energy parameter
State switching time interval numerical value.
17. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
Wherein, described device also includes:
Second control acquisition module, for determining that the dbjective state of the collecting unit switches according to first parameter described
Before time interval, or before the first parameter of the detection, the collecting unit is controlled to enter according to reset condition switching time interval
Row information gathers, described in reset condition switching time switched to from the non-enabled state at intervals of the collecting unit the M time
The M moment of enabled state, and the collecting unit switch to the of the enabled state from the non-enabled state the M+1 times
The time interval at M+1 moment, M are less than N;
The first control acquisition module includes:
First control unit, for by the neighbouring time interval in enabled state twice of the collecting unit by the original shape
State switching time interval switches to dbjective state switching time interval, controls the collecting unit according to the dbjective state
Switching time interval progress information gathering.
18. control device according to claim 17, it is characterised in that the determining module includes:
First determining unit, for when starting the collecting unit or before, the collection is determined according to first parameter
The dbjective state switching time interval of unit;
The first control acquisition module includes:
Start control collecting unit, for starting the collecting unit, control the collecting unit to be cut according to the dbjective state
Change time interval and carry out information gathering.
19. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
The determining module includes:
First determining unit, for when starting the collecting unit or before, the collection is determined according to first parameter
The dbjective state switching time interval of unit;
The first control acquisition module includes:
Start control collecting unit, for starting the collecting unit, control the collecting unit to be cut according to the dbjective state
Change time interval and carry out information gathering;
Described device also includes:
Parameters variation detection module, for monitoring the change of first parameter;
Adjusting module, if the change of first parameter for being detected meets preparatory condition, update the collecting unit
State switching time interval, to determine more new state switching time interval, the more new state switching time interval and change
The first parameter afterwards is corresponding;
3rd control acquisition module, for controlling the collecting unit to enter row information according to the more new state switching time interval
When collection, the more new state switching time interval and collecting unit startup or identified dbjective state switches before
Between be spaced it is different.
20. control device according to claim 17, it is characterised in that the determining module includes:
Unit is chosen, for determining the dbjective state from multiple candidate state switching times intervals according to first parameter
Switching time interval;
Or, computing unit, for dbjective state switching time interval to be calculated according to first parameter.
21. control device according to claim 17, it is characterised in that the detection module includes:
First detection unit, first parameter gathered for detecting the collecting unit;
The determining module includes:
Second determining unit, first parameter for being gathered according to the collecting unit determine the mesh of the collecting unit
Mark state switching time interval.
22. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
The electronic equipment includes detection unit, and the detection module includes:
Second detection unit, for detecting first parameter, the detection unit and the collection by the detection unit
Unit is different.
23. control device according to claim 22, it is characterised in that second detection unit includes:
First detection sub-unit, for detecting the parameter related to the change in location of electronic equipment by the detection unit;
The determining module includes:
3rd determining unit, for determining that the dbjective state of the collecting unit switches according to the related parameter of the change in location
Time interval.
24. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
The determining module includes:
First translational speed determining unit, for determining the translational speed of electronic equipment;
First determines execution unit, if be less than predetermined speed for the translational speed, determines between dbjective state switching time
Be divided into very first time interval, the very first time interval be more than the second time interval, it is predetermined that the second time interval is that translational speed is more than
State switching time interval during speed
Second determines execution unit, if be more than predetermined speed for the translational speed, determines between dbjective state switching time
The second time interval is divided into, the second time interval is less than very first time interval, and the very first time is more than predetermined at intervals of translational speed
State switching time interval during speed.
25. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
The determining module includes:
Second translational speed determining unit, for determining the translational speed of electronic equipment;
3rd determines execution unit, if be less than predetermined First Speed for the translational speed, when determining dbjective state switching
Between the numerical value that is spaced be the first value, first value is more than second value, and the second value is that translational speed is fast between predetermined first
The numerical value at state switching time interval when between degree and predetermined second speed;And/or if the translational speed between predetermined the
When between one speed and predetermined second speed, the numerical value that determines dbjective state switching time interval is second value, the second value
Less than the first value, described first is worth the numerical value at state switching time interval when being less than predetermined First Speed for translational speed;With/
If or, the translational speed is when being more than predetermined second speed, the numerical value that determines dbjective state switching time interval is the 3rd value, institute
State the 3rd value and be more than second value, the second value be translational speed between predetermined First Speed and predetermined second speed when
The numerical value at state switching time interval.
26. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
The determining module includes:
Displacement determining unit, for determining that the electronic equipment switches to enabled state in the collecting unit in X time
The displacement switched to the Y times in the interval time of enabled state, Y are more than X;
4th determines execution unit, if for the displacement be less than predetermined first apart from when, when determining dbjective state switching
Between the numerical value that is spaced be the 4th value, the 4th value is more than the 5th value, the 5th value for displacement be more than predetermined first away from
From when state switching time interval numerical value;And/or if the displacement be more than predetermined first apart from when, determine target
The numerical value at state switching time interval is the 5th value, and the 5th value is less than the 4th value, and the 4th value is less than for displacement
Predetermined first apart from when state switching time interval numerical value.
27. a kind of control device, it is characterised in that applied to electronic equipment, the electronic equipment has for information gathering
Collecting unit, when the electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, institute
Stating device includes:
Detection module, for detecting the first parameter;
Determining module, for determining the dbjective state switching time interval of the collecting unit according to first parameter, wherein,
The dbjective state switching time switches to the enabled state at intervals of the collecting unit n-th from the non-enabled state
N-hour, and the N+1 times N+1 moment that the enabled state is switched to from the non-enabled state of the collecting unit
Time interval, wherein, the collecting unit the non-enabled state power consumption be less than the enabled state power consumption;
First control acquisition module, for controlling the collecting unit to enter row information according to dbjective state switching time interval
Collection;
The detection module includes:
Residual capacity measurement unit, for detecting the dump energy parameter of electronic equipment;
The determining module includes:
5th determines execution unit, when the dbjective state for determining the collecting unit according to the dump energy parameter switches
Between be spaced.
28. control device according to claim 27, it is characterised in that the 5th determination execution unit includes:
Subelement is estimated, for estimating that the electronic equipment needs the electricity consumed according to the hardware configuration information of the electronic equipment
Amount;
Electricity supplies determination subelement, for determining to be used for according to the dump energy parameter, and the electricity for needing to consume
Supply the electricity of the collecting unit work;
First determines to perform subelement, if during for being more than predetermined electricity for supplying the electricity of collecting unit work, really
The numerical value at the state that sets the goal switching time interval is the 6th value, and the 6th value is less than the 7th value, and the 7th value is for supplying
The numerical value at the state switching time interval when electricity to collecting unit work is less than predetermined electricity;And/or if for supplying
When electricity to collecting unit work is less than predetermined electricity, the numerical value for determining dbjective state switching time interval is the 7th
Value, the 7th value are more than the 6th value, and the 6th value is to be more than predetermined electricity for supplying the electricity of the collecting unit work
The numerical value at state switching time interval during amount.
29. control device according to claim 27, it is characterised in that the 5th determination execution unit includes:
Second determines to perform subelement, if the dump energy parameter is more than predetermined dump energy parameter, determines dbjective state
The switching time numerical value at interval is the 8th value, and the 8th value is less than the 9th value, and the 9th value is the dump energy parameter
The numerical value at state switching time interval during less than predetermined dump energy parameter;And/or if the dump energy parameter is less than in advance
When determining dump energy parameter, the numerical value for determining dbjective state switching time interval is the 9th value, and the 9th value is more than the 8th value,
Described 8th is worth the numerical value at state switching time interval when being more than predetermined dump energy parameter for the dump energy parameter.
30. a kind of electronic equipment, it is characterised in that the electronic equipment has the collecting unit for information gathering, described
When electronic equipment is in running order, the collecting unit has enabled state and non-enabled state, and the electronic equipment includes
Control device described in claim any one of 17-29.
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CN201810282673.9A CN108536043B (en) | 2014-01-09 | 2014-01-09 | Control method and device and electronic equipment |
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CN110475012B (en) | 2018-05-10 | 2021-07-06 | 深圳市超捷通讯有限公司 | Electronic device and recommendation method |
TWI706253B (en) * | 2018-05-10 | 2020-10-01 | 富智捷股份有限公司 | Electronic device and recommending method |
CN108809760A (en) * | 2018-06-07 | 2018-11-13 | 郑州云海信息技术有限公司 | The control method and device in sampling period in sampled-data system |
CN110794092B (en) * | 2019-10-28 | 2020-10-23 | 珠海格力电器股份有限公司 | Sensor, control method, device and equipment thereof, and air quality monitoring equipment |
CN113721068A (en) * | 2020-05-26 | 2021-11-30 | 致茂电子(苏州)有限公司 | Error warning module |
CN111930079A (en) * | 2020-06-30 | 2020-11-13 | 西门子工厂自动化工程有限公司 | Data acquisition method, device and system, electronic equipment and storage medium |
CN111964674B (en) * | 2020-10-23 | 2021-01-15 | 四川写正智能科技有限公司 | Method for judging read-write state by combining acceleration sensor and mobile terminal |
CN112631262B (en) * | 2021-03-04 | 2021-07-09 | 长沙智能驾驶研究院有限公司 | Monitoring component control method and device, vehicle, equipment and computer storage medium |
CN113814981B (en) * | 2021-10-18 | 2023-06-20 | 北京云迹科技股份有限公司 | Robot operation method, device, storage medium and robot |
CN114666680A (en) * | 2022-02-28 | 2022-06-24 | 广州番禺电缆集团有限公司 | Intelligent cable for multi-sensor dynamic periodic polling reporting data |
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CN104777759A (en) | 2015-07-15 |
CN108536043B (en) | 2022-03-25 |
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