CN106210832B - Smart bluetooth remote controler low battery method and system based on user behavior analysis - Google Patents
Smart bluetooth remote controler low battery method and system based on user behavior analysis Download PDFInfo
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- CN106210832B CN106210832B CN201610535893.9A CN201610535893A CN106210832B CN 106210832 B CN106210832 B CN 106210832B CN 201610535893 A CN201610535893 A CN 201610535893A CN 106210832 B CN106210832 B CN 106210832B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/422—Input-only peripherals, i.e. input devices connected to specially adapted client devices, e.g. global positioning system [GPS]
- H04N21/42204—User interfaces specially adapted for controlling a client device through a remote control device; Remote control devices therefor
- H04N21/42206—User interfaces specially adapted for controlling a client device through a remote control device; Remote control devices therefor characterized by hardware details
- H04N21/42221—Transmission circuitry, e.g. infrared [IR] or radio frequency [RF]
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C2201/00—Transmission systems of control signals via wireless link
- G08C2201/10—Power supply of remote control devices
- G08C2201/12—Power saving techniques of remote control or controlled devices
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- Human Computer Interaction (AREA)
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Abstract
The present invention discloses a kind of smart bluetooth remote controler low battery scheme and system based on user behavior analysis, it utilizes the both-way communication technology of blue Tooth remote controller, key behavior by statisticalling analyze user's operation remote controller equipment obtains single power consumption, and the power consumption of user key-press behavior in signal period is counted, each cycle average power consumption is obtained by the comparison of multiple period power consumption, remote controler remaining capacity is calculated according to each cycle average power consumption of remote controler and uses number of days, remaining capacity is used into number of days display alarm user on main control device, simultaneously, setting power saving threshold time, when remote controler remaining capacity is less than power saving threshold value using number of days, then enter battery saving mode, to realize the problem of remote controler electricity reminds early warning and reduces power consumption.
Description
Technical field
The present invention relates to intelligent distant control technical fields, and in particular to a kind of smart bluetooth remote control based on user behavior analysis
Device low battery scheme and system.
Background technique
It is distant to start outfit bluetooth for smart machine (such as smart television) based on intelligent operating system (such as android, IOS)
Control device.Bluetooth is compared to infrared, and have lot of advantages: infrared communication technology is a kind of point-to-point Data Transport Protocol, therefore
Remote controler needs to be aligned remotely-controlled equipment operation, while the communication distance of IR remote controller only has 1 ~ 2 meter, and blue Tooth remote controller overcomes
The disadvantages of communication distance is short, needs alignment function, the communication distance of blue Tooth remote controller can achieve 10 meters, therefore apply more
Come in more intelligent television equipments.But blue Tooth remote controller is equivalent to IR remote controller, and power consumption is slightly larger.Bluetooth on the market
The function of its remote control is only utilized in remote controler mostly, and there is no abundant digging utilization blue-tooth technologies on blue Tooth remote controller
Practical value, smart machine end is also without the key of statistical analysis remote controller equipment.
Summary of the invention
In view of this, the present invention provide it is a kind of can according to the key behavior of statistical analysis user's operation remote controller equipment,
Realize that remote controler electricity reminds early warning electricity low with the smart bluetooth remote controler based on user behavior analysis the problem of reducing power consumption
Amount scheme and system.
A kind of smart bluetooth remote controler low battery scheme based on user behavior analysis, it is described based on user behavior analysis
Smart bluetooth remote controler low battery scheme the following steps are included:
Power consumption and single shutdown period power consumption during S1, the single for calculating remote controler are switched on, to obtain remote controler
Single power consumption;
S2, given threshold period count the signal period power consumption of remote controler according to the single power consumption of remote controler;
S3, the multiple period power consumption for counting remote controler, are calculated each cycle average power consumption;
S4, remote controler remaining capacity is calculated according to each cycle average power consumption of remote controler using number of days, and will remains
Remaining electricity is shown on main control device using number of days, for reminding user;
S5, setting power saving threshold time, when remote controler remaining capacity is less than power saving threshold value using number of days, then into power saving mould
Formula, and calculate remote controler remaining capacity under battery saving mode and use number of days, and remind user.
A kind of smart bluetooth remote controler low battery system based on user behavior analysis, it is described based on user behavior analysis
Smart bluetooth remote controler low battery system includes following functions module:
Single power consumption obtains module, power consumption and single shutdown period consumption during the single for calculating remote controler is switched on
Electricity, to obtain the single power consumption of remote controler;
Period power consumption obtains module, is used for the given threshold period, counts remote controler according to the single power consumption of remote controler
Signal period power consumption;
Average power consumption obtains module, and for counting multiple period power consumption of remote controler, it is average that each cycle is calculated
Power consumption;
Surplus reminding module, remote controler remaining capacity, which is calculated, for each cycle average power consumption according to remote controler makes
With number of days, and remaining capacity is shown on main control device using number of days, for reminding user;
Power and energy saving module is used for setting power saving threshold time, when remote controler remaining capacity is less than power saving threshold using number of days
Value then enters battery saving mode, and calculates remote controler remaining capacity under battery saving mode and use number of days, and remind user.
Smart bluetooth remote controler low battery scheme and system of the present invention based on user behavior analysis utilizes bluetooth
The both-way communication technology of remote controler, the key behavior by statisticalling analyze user's operation remote controller equipment obtain single power consumption,
And the power consumption of user key-press behavior in signal period is counted, each cycle is obtained by the comparison of multiple period power consumption and is put down
Remote controler remaining capacity is calculated using number of days, by remaining electricity according to each cycle average power consumption of remote controler in equal power consumption
Amount uses number of days display alarm user on main control device, meanwhile, setting power saving threshold time, when remote controler remaining capacity uses
Number of days is less than power saving threshold value, then enters battery saving mode, to realize the problem of remote controler electricity reminds early warning and reduces power consumption.
Detailed description of the invention
Fig. 1 is the step flow chart element of the smart bluetooth remote controler low battery scheme of the present invention based on user behavior analysis
Figure;
Fig. 2 is the flow diagram of the smart bluetooth remote controler low battery scheme of the present invention based on user behavior analysis;
Fig. 3 is the flow diagram of step S1 in Fig. 2;
Fig. 4 is the flow diagram of step S2 in Fig. 2;
Fig. 5 is another flow chart element of the smart bluetooth remote controler low battery scheme of the present invention based on user behavior analysis
Figure;
Fig. 6 is the flow diagram of step S5 in Fig. 2;
Fig. 7 is the module frame chart of the smart bluetooth remote controler low battery system of the present invention based on user behavior analysis;
Fig. 8 is the single power consumption in the smart bluetooth remote controler low battery system of the present invention based on user behavior analysis
Amount obtains the functional unit block diagram of module;
Fig. 9 is the period power consumption in the smart bluetooth remote controler low battery system of the present invention based on user behavior analysis
Amount obtains the functional unit block diagram of module;
Figure 10 is another module of the smart bluetooth remote controler low battery system of the present invention based on user behavior analysis
Block diagram;
Figure 11 is the power saving section in the smart bluetooth remote controler low battery system of the present invention based on user behavior analysis
The functional unit block diagram of energy module.
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right
The present invention is further elaborated, it should be understood that and the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
As depicted in figs. 1 and 2, it is low to provide a kind of smart bluetooth remote controler based on user behavior analysis for the embodiment of the present invention
Electricity scheme, the smart bluetooth remote controler low battery scheme based on user behavior analysis the following steps are included:
Power consumption and single shutdown period power consumption during S1, the single for calculating remote controler are switched on, to obtain remote controler
Single power consumption.
Wherein, as shown in figure 3, step S1 include it is following step by step:
S11, when pressing the key of remote controler each time, the hair of the electricity percentage current to remote controler when key-press event
The raw time is stored.
Since the shutdown of last main smart machine may be because surprisingly shutting down due to power failure etc., when according to key
Between time of origin may determine that current operation whether be shutdown before last operation, if it is, as last time close
The machine time, using the time point as node calculate last available machine time and remote controler electricity and last unused time at that time and
Remote controler electricity at that time.
S12, the last available machine time for reading remote controler after the booting of main smart machine each time and remote controler at that time
The last unused time of electricity and remote controler and remote controler electricity at that time.
S13, remote controler last time is calculated in remote controler electricity when remote controler electricity and last time are switched on when being shut down according to last time
Power consumption during booting, remote controler electricity is calculated on remote controler when being shut down according to remote controler electricity when this booting and last time
Secondary shutdown period power consumption obtains the single of remote controler according to power consumption and last time shutdown period power consumption during the booting of remote controler last time
Power consumption.
Specifically, remote controler electricity when remote controler electricity E2- last time is switched on when power consumption E21=last time shutdown during last time booting
Measure E1;
Remote controler electricity E2 when remote controler electricity E3- last time shuts down when last time shutdown period power consumption E32=this booting;
So single power consumption calculation method are as follows:
Power consumption E21+ last time shutdown period power consumption E32 during single power consumption E23=last time booting.
S2, given threshold period count the signal period power consumption of remote controler according to the single power consumption of remote controler.
As shown in figure 4, step S2 include it is following step by step:
S21, given threshold period, judge the last power consumption statistical time of distance whether one cycle separation.
S22, if it is, according to the single power consumption of remote controler count remote controler signal period power consumption;It is superimposed
The power consumption of power consumption and shutdown period, obtains signal period power consumption during being switched on each time in a cycle, i.e., single week
Power consumption Ea+ shutdown period power consumption Eb during phase power consumption E0=booting;If it is not, then continuing the single power consumption of record remote controler
Amount.
Assume that threshold period is a week in the embodiment of the present invention, if the time of a power on/off spans two certainly
Right week the record is then split by two notes according to last available machine time, last unused time, this available machine time
Record.If there is such case, while also indicating that a measurement period terminates, then calculating the power consumption in the week, the week is total
Power consumption be total shutdown period power consumption in the week during total booting in power consumption and the week summation.
S3, the multiple period power consumption for counting remote controler, are calculated each cycle average power consumption.
Specifically, being recorded in the local data of main smart machine, after having counted the power consumption in each week according to each
The total power consumption in week calculates arithmetic average and obtains average power consumption weekly.
The calculation method of each cycle average power consumption are as follows:
△ E=(E0+E1+ ...+EN)/N.
Further, as shown in figure 5, further including step S3a: flat to each cycle when often increasing a cycle power consumption newly
Equal power consumption is recalculated.
By constantly recalculating to each cycle average power consumption, optimizing statistical data constantly, lasting amendment is every
Period average power consumption keeps the parameter of each cycle average power consumption more accurate, as sample data is more and more, finally obtains
Mean value result it is also more and more accurate, to more accurately estimate to obtain the time that remaining capacity can be used.
S4, remote controler remaining capacity is calculated according to each cycle average power consumption of remote controler using number of days, and will remains
Remaining electricity is shown on main control device using number of days, for reminding user.
Specifically, the remaining capacity uses number of days D=remote controler residual power percentage/△ E* each cycle number of days.
S5, setting power saving threshold time, when remote controler remaining capacity is less than power saving threshold value using number of days, then into power saving mould
Formula, and calculate remote controler remaining capacity under battery saving mode and use number of days, and remind user.
After residue punctures customized threshold value using number of days, start battery saving mode.The starting method of battery saving mode is as follows:
Remote controler POWER key is pressed, Xiang Zhineng main equipment sends switching on and shutting down ultra-red order, and remote controler end starts a prison simultaneously
Program is listened, for monitoring the shutdown broadcast returned from television, only receives shutdown broadcast, the bluetooth module of remote controler can just close
It closes.
After television receives shutdown command, shutdown broadcast first is sent to remote controler, then execute shutdown process;Remote controler is received
To after shutdown broadcast, remote controler bluetooth module is closed;
If television receives power-on instruction or television when not receiving any instruction, remote controler oracle listener will not be stood
Any broadcast is received, then remote controler starts bluetooth module.If not receiving booting broadcast in time-out time, or do not receive distant
The company of returning for controlling device broadcasts, then closes remote controler bluetooth module.
The battery saving mode includes following two situation:
During booting, the time that the bluetooth module of remote controler enters suspend mode shorten to original 1/2, by remote controller key,
It is capable of the bluetooth module of instant on remote controler;
Under normal use, if remote controler does not have button operation within the sleep threshold time, the bluetooth of remote controler
Module can temporarily be disconnected automatically into suspend mode, bluetooth connection, achieve the purpose that power saving.And in a power-save mode, if distant
Device is controlled within the time of original sleep threshold time half without button operation, the bluetooth module of remote controler can be automatically into suspend mode
Mode, bluetooth connection temporarily disconnect, and achieve the purpose that further power saving, i.e. the time of the bluetooth module suspend mode of remote controler can prolong
It is long, as long as but press remote controller key, it will be able to the bluetooth module of instant on remote controler.
Shutdown period closes the bluetooth module of remote controler, after booting, restarts the bluetooth module of remote controler.
Under normal use, when main smart machine shuts down, the bluetooth module of remote controler is in suspend mode, and bluetooth connects
Temporary disconnection is connect, achievees the purpose that power saving.And in a power-save mode, in the shutdown of main smart machine, the bluetooth module of remote controler
In close pattern, bluetooth connection is disconnected, and achievees the purpose that further power saving.I.e. the working time of bluetooth module can shorten, no
When excessive main smart machine is switched on, the bluetooth module of remote controler will be restarted immediately.
After battery saving mode starting, referring to power consumption calculating means above-mentioned, remote controler electricity under battery saving mode is recalculated
Residue uses number of days, and reminds user on main smart machine.
It is specific as shown in fig. 6, step S5 include it is following step by step:
S51, calculate remote controler in a power-save mode single booting during power consumption and single shutdown period power consumption, thus
Obtain the single power consumption of remote controler under battery saving mode;
S52, it is consumed according to the signal period of remote controler under the single power consumption statistics battery saving mode of remote controler under battery saving mode
Electricity;
S53, the multiple period power consumption of statistics remote controler in a power-save mode, it is flat to be calculated each cycle under battery saving mode
Equal power consumption;
S54, that remote controler is calculated under battery saving mode according to each cycle average power consumption of remote controler under battery saving mode is surplus
Remaining electricity uses number of days, and remaining capacity under battery saving mode is shown on main control device using number of days, for reminding user.
Based on above-mentioned smart bluetooth remote controler low battery method, the present invention also provides a kind of intelligence based on user behavior analysis
Energy blue Tooth remote controller low battery system, as shown in fig. 7, the smart bluetooth remote controler low battery system based on user behavior analysis
System includes following functions module:
Single power consumption obtains module, power consumption and single shutdown period consumption during the single for calculating remote controler is switched on
Electricity, to obtain the single power consumption of remote controler;
Period power consumption obtains module, is used for the given threshold period, counts remote controler according to the single power consumption of remote controler
Signal period power consumption;
Average power consumption obtains module, and for counting multiple period power consumption of remote controler, it is average that each cycle is calculated
Power consumption;
Surplus reminding module, remote controler remaining capacity, which is calculated, for each cycle average power consumption according to remote controler makes
With number of days, and remaining capacity is shown on main control device using number of days, for reminding user;
Power and energy saving module is used for setting power saving threshold time, when remote controler remaining capacity is less than power saving threshold using number of days
Value then enters battery saving mode, and calculates remote controler remaining capacity under battery saving mode and use number of days, and remind user.
As shown in figure 8, the single power consumption computing module includes following functions unit:
Real time electrical quantity storage unit, for when pressing the key of remote controler each time, the electricity hundred current to remote controler
The time of origin of when key-press event is divided to be stored;
Single data-reading unit, for reading the last booting of remote controler after main smart machine booting each time
The last unused time of time and remote controler electricity and remote controler at that time and remote controler electricity at that time;
Single power consumption computing unit, remote controler electricity when remote controler electricity and last time are switched on when for being shut down according to last time
Be calculated remote controler last time booting during power consumption, according to this booting when remote controler electricity and last time shut down when remote controler electricity
Remote controler last time shutdown period power consumption is calculated in amount, is consumed according to power consumption and last time shutdown period during the booting of remote controler last time
Electricity obtains the single power consumption of remote controler.
As shown in figure 9, it includes following functions unit that the period power consumption, which obtains module:
Period judging unit is used for the given threshold period, judges whether the last power consumption statistical time of distance is spaced one
A period;
Period power consumption computing unit, for counting distant according to the single power consumption of remote controler when meeting a cycle
Control the signal period power consumption of device.
As shown in Figure 10, the smart bluetooth remote controler low battery system based on user behavior analysis further includes a data
Optimization module, the data-optimized module are used to carry out each cycle average power consumption when often increasing a cycle power consumption newly
It recalculates.
As shown in figure 11, the power and energy saving module includes following functions unit:
Single energy conservation power consumption obtain module, for calculate remote controler in a power-save mode single booting during power consumption and
Single shutdown period power consumption, to obtain the single power consumption of remote controler under battery saving mode;
Period energy conservation power consumption obtains module, for counting power saving mould according to the single power consumption of remote controler under battery saving mode
The signal period power consumption of remote controler under formula;
Average energy conservation power consumption obtains module, for counting the multiple period power consumption of remote controler in a power-save mode, counts
Calculation obtains each cycle average power consumption under battery saving mode;
Energy saving surplus reminding module, for province to be calculated according to each cycle average power consumption of remote controler under battery saving mode
Remote controler remaining capacity uses number of days under power mode, and remaining capacity under battery saving mode is shown on main control device using number of days
Show, for reminding user.
Smart bluetooth remote controler low battery scheme and system of the present invention based on user behavior analysis utilizes bluetooth
The both-way communication technology of remote controler, the key behavior by statisticalling analyze remote controller equipment obtain single power consumption, and to single
The power consumption of user key-press behavior is counted in period, obtains each cycle average consumption by the comparison of multiple period power consumption
Amount is calculated remote controler remaining capacity using number of days according to each cycle average power consumption of remote controler, remaining capacity is used
Number of days display alarm user on main control device, meanwhile, setting power saving threshold time, when remote controler remaining capacity is small using number of days
In power saving threshold value, then enter battery saving mode, to realize the problem of remote controler electricity reminds early warning and reduces power consumption.
Apparatus above embodiment and embodiment of the method are one-to-one, the simple places of Installation practice, referring to method reality
Apply example.
Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other
The difference of embodiment, the same or similar parts in each embodiment may refer to each other.
Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure
And algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and
The interchangeability of software generally describes each exemplary composition and step according to functionality in the above description.This
A little functions are implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Specially
Industry technical staff can use different methods to achieve the described function each specific application, but this realization is not
It should be more than the scope of the present invention.
The step of method described in conjunction with the examples disclosed in this document or algorithm, can directly be held with hardware, processor
The combination of capable software module or the two is implemented.Software module can be placed in random access memory, memory, read-only memory,
Electrically programmable ROM, electricity can sassafras except in programming ROM, register, hard disk, moveable magnetic disc, CD-ROM or technical field institute it is public
In the storage medium for any other forms known.
The embodiment of the present invention is described with above attached drawing, but the invention is not limited to above-mentioned specific
Embodiment, the above mentioned embodiment is only schematical, rather than restrictive, those skilled in the art
Under the inspiration of the present invention, without breaking away from the scope protected by the purposes and claims of the present invention, it can also make very much
Form, all of these belong to the protection of the present invention.
Claims (8)
1. a kind of smart bluetooth remote controler low battery method based on user behavior analysis, which is characterized in that described to be based on user
The smart bluetooth remote controler low battery scheme of behavioural analysis the following steps are included:
Power consumption and single shutdown period power consumption during S1, the single for calculating remote controler are switched on, to obtain the list of remote controler
Secondary power consumption;
S11, when pressing the key of remote controler each time, when current to the remote controler electricity percentage when generation of key-press event
Between stored;
S12, the last available machine time for reading remote controler after the booting of main smart machine each time and remote controler electricity at that time
The last unused time and remote controler electricity at that time of amount and remote controler;
S13, the booting of remote controler last time is calculated in remote controler electricity when remote controler electricity and last time are switched on when being shut down according to last time
Period power consumption, remote controler last time pass is calculated in remote controler electricity when being shut down according to remote controler electricity when this booting and last time
Power consumption during machine obtains the single power consumption of remote controler according to power consumption and last time shutdown period power consumption during the booting of remote controler last time
Amount;
S2, given threshold period count the signal period power consumption of remote controler according to the single power consumption of remote controler;
S3, the multiple period power consumption for counting remote controler, are calculated each cycle average power consumption;
S4, remote controler remaining capacity is calculated according to each cycle average power consumption of remote controler using number of days, and will be remaining electric
Amount is shown on main control device using number of days, for reminding user;
S5, setting power saving threshold time, when remote controler remaining capacity using number of days be less than power saving threshold value, then enter battery saving mode,
And it calculates remote controler remaining capacity under battery saving mode and uses number of days, and remind user.
2. the smart bluetooth remote controler low battery method based on user behavior analysis according to claim 1, which is characterized in that
The step S2 include it is following step by step:
S21, given threshold period, judge the last power consumption statistical time of distance whether one cycle separation;
S22, if it is, according to the single power consumption of remote controler count remote controler signal period power consumption, if it is not, then
Continue the single power consumption of record remote controler.
3. the smart bluetooth remote controler low battery method based on user behavior analysis according to claim 1, which is characterized in that
Further include step S3a: when often increasing a cycle power consumption newly, each cycle average power consumption being recalculated.
4. the smart bluetooth remote controler low battery method based on user behavior analysis according to claim 1, which is characterized in that
The battery saving mode includes following two situation:
During booting, the time that the bluetooth module of remote controler enters suspend mode shorten to original 1/2, by remote controller key, energy
The bluetooth module of enough instant on remote controlers;
Shutdown period closes the bluetooth module of remote controler, after booting, restarts the bluetooth module of remote controler.
5. the smart bluetooth remote controler low battery method based on user behavior analysis according to claim 1, which is characterized in that
The step S5 include it is following step by step:
S51, calculate remote controler in a power-save mode single booting during power consumption and single shutdown period power consumption, to obtain
The single power consumption of remote controler under battery saving mode;
S52, the signal period power consumption that remote controler under battery saving mode is counted according to the single power consumption of remote controler under battery saving mode;
S53, the multiple period power consumption of statistics remote controler in a power-save mode, are calculated each cycle under battery saving mode and averagely consume
Electricity;
S54, the remaining electricity of remote controler under battery saving mode is calculated according to each cycle average power consumption of remote controler under battery saving mode
Amount uses number of days, and remaining capacity under battery saving mode is shown on main control device using number of days, for reminding user.
6. a kind of smart bluetooth remote controler low battery system based on user behavior analysis, which is characterized in that described to be based on user
The smart bluetooth remote controler low battery system of behavioural analysis includes following functions module:
Single power consumption obtains module, power consumption and single shutdown period power consumption during the single for calculating remote controler is switched on
Amount, to obtain the single power consumption of remote controler;
Period power consumption obtains module, is used for the given threshold period, and the list of remote controler is counted according to the single power consumption of remote controler
A period power consumption;
Average power consumption obtains module and each cycle average consumption is calculated for counting multiple period power consumption of remote controler
Amount;
Surplus reminding module is calculated remote controler remaining capacity for each cycle average power consumption according to remote controler and uses day
Number, and remaining capacity is shown on main control device using number of days, for reminding user;
Power and energy saving module, be used for setting power saving threshold time, when remote controler remaining capacity using number of days be less than power saving threshold value, then
Into battery saving mode, and calculates remote controler remaining capacity under battery saving mode and use number of days, and remind user;
It includes following functions unit that the single power consumption, which obtains module:
Real time electrical quantity storage unit, for when pressing the key of remote controler each time, the electricity percentage current to remote controler
And the time of origin of key-press event is stored;
Single data-reading unit, for reading the last available machine time of remote controler after main smart machine booting each time
And remote controler electricity and remote controler at that time the last unused time and remote controler electricity at that time;
Single power consumption computing unit, remote controler electricity calculates when remote controler electricity and last time are switched on when for being shut down according to last time
Obtain remote controler last time booting during power consumption, according to this booting when remote controler electricity and last time shut down when remote controler voltameter
Calculation obtains remote controler last time shutdown period power consumption, is obtained according to power consumption and last time shutdown period power consumption during the booting of remote controler last time
To the single power consumption of remote controler.
7. the smart bluetooth remote controler low battery system based on user behavior analysis according to claim 6, which is characterized in that
It includes following functions unit that the period power consumption, which obtains module:
Period judging unit is used for the given threshold period, judges whether the last power consumption statistical time of distance is spaced a week
Phase;
Period power consumption computing unit, for counting remote controler according to the single power consumption of remote controler when meeting a cycle
Signal period power consumption.
8. the smart bluetooth remote controler low battery system based on user behavior analysis according to claim 6, which is characterized in that
The smart bluetooth remote controler low battery system based on user behavior analysis further includes a data-optimized module, and the data are excellent
Change module to be used to recalculate each cycle average power consumption when often increasing a cycle power consumption newly.
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