CN106604131A - Intelligent standby method based on user standby habits - Google Patents
Intelligent standby method based on user standby habits Download PDFInfo
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- CN106604131A CN106604131A CN201611118861.5A CN201611118861A CN106604131A CN 106604131 A CN106604131 A CN 106604131A CN 201611118861 A CN201611118861 A CN 201611118861A CN 106604131 A CN106604131 A CN 106604131A
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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
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/442—Monitoring of processes or resources, e.g. detecting the failure of a recording device, monitoring the downstream bandwidth, the number of times a movie has been viewed, the storage space available from the internal hard disk
- H04N21/44213—Monitoring of end-user related data
- H04N21/44218—Detecting physical presence or behaviour of the user, e.g. using sensors to detect if the user is leaving the room or changes his face expression during a TV program
-
- 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
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/443—OS processes, e.g. booting an STB, implementing a Java virtual machine in an STB or power management in an STB
- H04N21/4436—Power management, e.g. shutting down unused components of the receiver
-
- 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
- H04N21/45—Management operations performed by the client for facilitating the reception of or the interaction with the content or administrating data related to the end-user or to the client device itself, e.g. learning user preferences for recommending movies, resolving scheduling conflicts
- H04N21/458—Scheduling content for creating a personalised stream, e.g. by combining a locally stored advertisement with an incoming stream; Updating operations, e.g. for OS modules ; time-related management operations
- H04N21/4586—Content update operation triggered locally, e.g. by comparing the version of software modules in a DVB carousel to the version stored locally
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- Engineering & Computer Science (AREA)
- Multimedia (AREA)
- Signal Processing (AREA)
- Databases & Information Systems (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Social Psychology (AREA)
- General Engineering & Computer Science (AREA)
- Software Systems (AREA)
- Computer Networks & Wireless Communication (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The invention provides an intelligent standby method based on user standby habits, by comprehensive consideration of data of average standby time length, average awakening time length, the number of times of occurrence of a standby instruction in a time period and the number of times of awakening within standby buffering time which are formed in a user using process, a user standby habit database is formed, and difference of different users in using habit is fully considered, thereby setting different standby buffering time aiming at the using habits of users, and awakening instructions of the users can be responded more rapidly within standby buffering time. The intelligent standby method based on user standby habits can effectively shorten time consumed by awakening a television from a standby buffering state, and through switching between the standby buffering state and a standby state, the overall standby power consumption is effectively reduced. The method provided by the invention is simple and convenient to operate, fully considers the difference of user using habits, and the television is more humanized while the system power consumption is reduced.
Description
Technical field
The present invention relates to television standby system regions, more particularly to a kind of intelligent standby side based on the standby custom of user
Method.
Background technology
In current existing internet television or set-top box device, standby system relates generally to following two technologies:
In prior art, user is needed to send standby command by power key, TV or set-top box device system receive standby
Equipment enters standby after instruction, but equipment can be automatically wakened up according to certain cycle (typically 1s), waits user operation instruction.
But this kind of to automatically waken up under state, user can't see interactive interface, if within a certain period of time (typically 1s) is not received by using
Family operational order, equipment can be again introduced into standby.So circulation, until receiving user operation instruction, equipment wakes up and will interaction
Present to user in interface.
In another kind of technology, as long as user presses power key and sends standby command, TV or set-top box device system are being received
After standby command, will control system enter sleep state.Interactive interface no longer shows under sleep state, no longer responds user and removes
All operations outside wake-up.But under this state, system kernel keeps normal operation.
For former technique, equipment receive will necessarily enter after standby command it is standby, it is necessary to waiting facilities is standby to be completed
Afterwards, user just can carry out cancelling the operation of standby command.Such design causes to wait time lengthening under user's holding state, uses
Family experience is poor.And, after device standby, system can circulate wake-up device according to some cycles.So standby, wake-up replaces
Circulation, can cause stand-by power consumption significantly raised.Meanwhile, this method cannot filter out the standby finger that user misoperation is triggered
Order, it is impossible to the standby behavior of intelligent predicting user.
For existing another kind of technology, equipment receives device systems kernel after standby command and is still always maintained at fortune
Row state, does not enter into real standby.System kernel normally runs always, and equipment power dissipation is high.It is different from former technique
It is that this technology can solve the problems, such as that the wakeup time that user misoperation triggers standby command and causes is long.But the technology
Indiscriminate all of standby command can be regarded as into the operation of false triggering and does not allow equipment entrance real standby.This technology
Also without the standby behavior for being capable of intelligent predicting user.
The content of the invention
In order to solve the deficiency of prior art presence, it is an object of the invention to provide one kind can be used for internet electricity
Depending on the method for, set-top box device system standby, this method increase and the standby custom of user is considered, with the standby side of legacy system
Method is compared, and the method for the present invention is more intelligent, and Consumer's Experience is more preferable.
This intelligent standby method based on the standby custom of user is comprised the following steps:
Step 1, receives standby command, then jumps to step 2;
Step 2, according to the data of the standby tcs database of user standby buffer time is determined, control
System enters buffer status, then jumps to step 3;
Step 3, if being not received by waking up instruction within standby buffer time, jumps to step
4;Otherwise jump to step 5;
Step 4, control system enters holding state;
Step 5, when wake-up instruction is received, control system enters working condition.
Wherein, in described step 1, after standby command is received, also include according to standby command occur time more
The step of new user standby tcs database.
Meanwhile, in described step 5, after wake-up instruction is received, also include according to the time for waking up instruction appearance more
The step of new user standby tcs database.
Further, the data of the standby tcs database of described user include:It is average stand-by time length tsv, average
Wakeup time length twv, standby command occurrence number n and wake-up times c in standby buffer time in the period.Wherein, it is described
Average stand-by time length tsv refers to the average time from holding state to wake-up states next time, during described average wake-up
Between length twv refer to average time from wake-up states to holding state next time, wake up in described standby buffer time time
Number c is referred to and the number of times for waking up instruction, standby command occurrence number n in the described period is received in the range of standby buffer time
Refer to and 24 hourly averages in a day are divided into into N number of time period, system receives the number of times of standby command within each time period.
Further, it is long according to the time statistical average stand-by time that standby command occurs in 2 the step of methods described
Spend tsv and standby command occurrence number n in the period;In 5 the step of methods described, according to the time statistics for waking up instruction appearance
Average wakeup time length twv and wake-up times c in standby buffer time, and update corresponding in the standby tcs database of user
Data.
Wherein, in step 2, according to time statistical average stand-by time length tsv for receiving standby command and in the period
After standby command occurrence number n, and the corresponding data after updating in the standby tcs database of user, also including the standby custom of user
Data in database determine standby score value V, the step of determine corresponding standby buffer time further according to standby score value V.
In methods described, determine that the method for corresponding standby buffer time is according to standby score value V:Standby score value V values
More little standby buffer time is longer, and standby score value V values more big standby buffer time is shorter.
Specifically:In this method, the data according to the standby tcs database of user determine standby score value V, including
Standby score value V is determined according to standby command occurrence number n in the period, concrete grammar is as follows:
Judgement receives the period of standby command:If the standby command occurrence number n bigger period receives and treats within the period
Machine is instructed, then be increased even more standby score value V;If the standby command occurrence number n less period receives and treats within the period
Machine is instructed, then increase fewer by standby score value V.
Meanwhile, in this method, the data according to the standby tcs database of user determine standby score value V, including basis
Average stand-by time length tsv determines standby score value V, and concrete grammar is as follows:
Judge average stand-by time length tsv:If average stand-by time length tsv of statistics is less, by current idle
Score value V increased even more;If average stand-by time length tsv of statistics is bigger, current idle score value V is increased fewer.
Meanwhile, in this method, the data according to the standby tcs database of user determine standby score value V, including basis
Average wakeup time length twv determines standby score value V, and concrete grammar is as follows:
Judge average wakeup time length twv:If average wakeup time length twv of statistics is less, by current idle
Score value V increases more;If average wakeup time length twv of statistics is bigger, current idle score value V is increased into fewer.
Meanwhile, in this method, the data according to the standby tcs database of user determine standby score value V, including basis
Wake-up times c determine standby score value V in standby buffer time, and concrete grammar is as follows:
Judge wake-up times c in standby buffer time:If wake-up times c are bigger in the standby buffer time of statistics, will
Current idle score value V increased even more;If wake-up times c are less in the standby buffer time of statistics, by current idle score value V
Increase fewer.
In this method, described standby score value V is defaulted as 0;During user's use, standby score value V is according to averagely treating
Machine time span tsv, average wakeup time length twv, standby command occurrence number n and wake-up in standby buffer time in the period
Number of times c, according to mode described below calculating renewal is carried out.Determined according to the data of the standby tcs database of user in this method
The method of standby score value V is as follows:
Update standby score value V zeros after the standby tcs database of user;
New standby score value V is determined according to standby command occurrence number n in the period according to above-mentioned method;
New standby score value V is determined according to average stand-by time length tsv according to above-mentioned method;
New standby score value V is determined according to average wakeup time length twv according to above-mentioned method;
Determine new standby score value V according to wake-up times c in standby buffer time according to above-mentioned method.
In said method, in addition to the step of standby score value V is zeroed, remaining step execution sequence is not limited, you can with any
Order is performed.
In this method, described standby command and wake-up instruction is sent by user.
Further, the step 1 in methods described, also comprising judge whether open intelligent standby the step of:If opening intelligence
Can be standby, then judge whether to enter buffer status, holding state or working condition according to step 2 to step 5;Otherwise, redirect
To step 4, and judged whether to enter working condition according to step 5.
Further, in this method step 2, also including judging whether user sets the step of the numerical value of standby buffer time
Suddenly:If user sets the numerical value of standby buffer time, the numerical value for directly being set according to user in step 2 determines standby
Buffer time;Otherwise, it is still desirable to determine new standby score value V according to the data of the standby tcs database of user after renewal,
Determine corresponding standby buffer time further according to new standby score value V.
Further, in the step 5, after the standby tcs database of user has been updated, also include according to after renewal
The data of the standby tcs database of user determine new standby score value V, determine further according to new standby score value V corresponding standby slow
The step of rushing the time.Here, to the calculating of standby score value V or standby buffer time, both user's custom can twice updated
All calculate new standby score value V or standby buffer time after database respectively, it is also possible to only select in step 2 or step 5
One is selected, has once been updated carried out after user's tcs database wherein.
Using the system of this method, under buffer status, system kernel is remained on, but does not show interactive interface, also not
Response wake up instruction beyond other instruction, to ensure this state under can switch to work shape as early as possible by system wake-up
State.Conversely, in the standby state, system kernel maintains state least in power-consuming, and only response wakes up instruction, so as at utmost
Ground reducing energy consumption.
Beneficial effect
The present invention is by increasing the standby tcs database of user, and the time occurred according to standby command is updating the data
Storehouse, determines that the probability that may cancel standby command (determines standby point by the information counted in the standby tcs database of user
Value V), suitable standby buffer time is finally determined by such calculating.Treat due to set up counting user in this method
The database of machine custom, it is determined that during concrete standby buffer time, having fully taken into account the difference in different user use habit.
Therefore, method provided by the present invention can be directed to the use habit of user, it is determined that rational standby buffer time, and allow to use
Family cancels previous standby command within standby buffer time, keeps system in running order, and eliminates by standby to weight
The new stand-by period for waking up system.Thus Consumer's Experience is more preferably, during user's use, the operation to system also can more just
It is prompt.Meanwhile, automatic control system enters holding state after standby buffer time terminates, in the condition for not affecting Consumer's Experience
Under, can to greatest extent reduce system energy consumption.
Further, in use, different user carries out difference during standby operation in different time sections, the present invention
When the standby custom of user is considered (it is determined that during standby score value V), average stand-by time length tsv of integrated survey, averagely call out
Awake time span twv, standby command occurrence number n and tetra- kinds of data of wake-up times c in standby buffer time in the period.It is comprehensive this
Four kinds of data determine the standby custom of user.Such laws of use for being designed to more accurately react user is practised with operation
It is used, so that the operating accuracy of revocation standby command is higher, further reduce the trouble that maloperation is brought.
Meanwhile, the present invention sets different standby buffer time by the different customs for user, slow more than standby
After rushing the time, system is placed in into holding state, without remaining at the buffer status for being capable of quick response wake-up instruction
And power supply is consumed in a large number.It is such design laminating user custom, be user bring operation easily at the same time it can also corresponding
Reduction power consumption, reduce user use cost.
Other features and advantages of the present invention will illustrate in the following description, or by implementing the present invention
Solution.
Description of the drawings
Accompanying drawing is used for providing a further understanding of the present invention, and constitutes a part for specification, and with the present invention's
Embodiment together, for explaining the present invention, is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is of the present invention according to the standby method flow diagram for being accustomed to realizing intelligent standby of user;
Fig. 2 is that user is accustomed to data update flow chart;
Fig. 3 is to redirect relation between three kinds of states in system in this method.
Specific embodiment
The preferred embodiments of the present invention are illustrated below in conjunction with accompanying drawing, it will be appreciated that preferred reality described herein
Apply example and be merely to illustrate and explain the present invention, be not intended to limit the present invention.
Fig. 1 is the flow chart of the intelligent standby method based on the standby custom of user of the present invention.Mainly include following step
Suddenly:
Step 1, the standby command that receive user sends, according to the time that standby command occurs, obtains average stand-by time
Length tsv and standby command occurrence number n in the period, update the standby tcs database of user, then jump to step 2;
Step 2, control system enters buffer status, and is determined according to the data of the standby tcs database of user after renewal
Standby score value V, further according to standby score value V corresponding standby buffer time is determined, then jumps to step 3;
Step 3, if being not received by waking up instruction within standby buffer time, jumps to step 4;Otherwise jump to step
Rapid 5;
Step 4, control system enters holding state;
Step 5, when receive wake up instruction when, control system enters working condition, and according to wake up that instruction occurs when
Between, obtain average wakeup time length twv and wake-up times c in standby buffer time, update the standby tcs database of user.
Wherein, in order to allow users to independently choose whether to carry out standby control to system using the mode of intelligent standby
System, also includes the step of judging whether that opening intelligent standby enables switch in described step 1:Open if opening intelligent standby and enabling
Close, then judge it is to enter buffer status, holding state or working condition according to step 2 to step 5;Otherwise, step is jumped to
4, and judge whether system enters working condition according to step 5.
Here, the data of the standby tcs database of user include:Average stand-by time length tsv, average wakeup time are long
Degree twv, standby command occurrence number n and wake-up times c in standby buffer time in the period.Wherein, when described average standby
Between length tsv refer to average time from holding state to wake-up states next time, described average wakeup time length twv is
Refer to from wake-up states to the average time of holding state next time, wake-up times c are referred to and treated in described standby buffer time
The number of times for waking up instruction is received in the range of machine buffer time, standby command occurrence number n was referred to one day in the described period
24 hourly averages are divided into N=4 time period, and system receives the number of times of standby command within each time period.
Here, for the renewal of user's tcs database, it is preferred to use above-mentioned method, i.e., receive standby command and
Wake up each arrangement after instruction once to update.So more can guarantee that the accurate of user's custom data.Otherwise, if being arranged in a certain step
Middle unification to all of user custom data be updated, it is possible to cause update before, standby buffer time it is inaccurate.Cause
This is updated to the standby tcs database of user at twice preferably in step 2 and step 5:In 2 the step of methods described,
Time statistical average stand-by time length tsv occurred according to standby command and standby command occurrence number n in the period;Described
In the step of method 5, call out according to time statistical average wakeup time length twv for waking up instruction appearance and in standby buffer time
Awake number of times c, and update the corresponding data in the standby tcs database of user.
Further, in steps of 5, after the standby tcs database of user has been updated, can be with according to the use after renewal
The data of the standby tcs database in family determine new standby score value V, and further according to new standby score value V corresponding standby buffering is determined
The step of time.Certainly, to the calculating of standby score value V or standby buffer time, both user's custom number can twice updated
According to all calculating new standby score value V or standby buffer time after storehouse respectively, it is also possible to only select in step 2 or step 5
One, once having updated wherein after user's tcs database is carried out.
In view of user custom difference, in this method, if user sets the numerical value of standby buffer time, preferentially
The numerical control system set using user is switched between buffering and holding state.That is, in step 2 directly according to
The numerical value of family setting determines standby buffer time.Otherwise, if user does not set the numerical value of standby buffer time, still need
To determine new standby score value V according to the data of the standby tcs database of user after renewal, it is true further according to new standby score value V
Fixed corresponding standby buffer time.
During standby score value V is determined according to the data of the standby tcs database of user, specifically, when taking 4 with N
Between section, i.e., [0-6h), [6-12h), [12-18h), [18-24) this four time periods, as a example by.Standby command goes out occurrence in period
Number n are counted receive the number of times of standby command appearance in this four time periods respectively, and by standby command occurrence number highest
Time period, correspond to 4 points, the like, until the standby command occurrence number minimum time correspond to 1 point.
For purposes of illustration only, in the present embodiment, standby buffer time scope is set to 30s-1 hours, and marks the 30s to be
timebuffermin, 60min is timebuffermax。
Only included with standby buffer time so that standby buffer time is divided into as a example by 4 grades according to standby score value V differences herein
As a example by fourth gear (30s, 10min, 30min, 60min), the step of corresponding standby buffer time is specifically determined according to standby score value V
Suddenly it is:
First grade of standby buffer time is 30 seconds, when the value of standby score value V is in the range of [0,4], determines standby buffering
Time is 30 seconds;Second gear standby buffer time be 10 minutes, when standby score value V value (4,8] in the range of when, determine standby
Buffer time is 10 minutes;Third gear standby buffer time be 30 minutes, when standby score value V value (8,12] in the range of when,
Determine that standby buffer time is 30 minutes;Fourth speed standby buffer time be 60 minutes, when standby score value V value (12,16]
In the range of when, determine standby buffer time be 60 minutes;
Described standby score value V is defaulted as 0.The number of times of system standby instruction appearance, equipment are treated i.e. in special time period
Machine wakes up after the mean value of time used, equipment wake up to the mean value of next time standby time used to lower secondary device, standby
Wake-up times are 0 in buffer time, and standby buffer time is 30s.
During user's use, standby score value V according to average stand-by time length tsv, average wakeup time length twv,
Standby command occurrence number n and wake-up times c carry out calculating renewal in standby buffer time in period.
In the case of 4 grades of standby buffer time, illustrate and determine that the method for specific standby score value V is as follows:
The first step, according to standby command occurrence number n in the period increment of standby score value V is determined.First determine whether that acceptance is treated
The period of machine instruction:If the standby command occurrence number n maximum period receives standby command within the period, by standby score value
V is set to 4;If the n big period of standby command occurrence number receives standby command within the period, standby score value V is set to
3;If the n little period of standby command occurrence number receives standby command within the period, standby score value V is set to into 2;If
The standby command occurrence number n minimum period receives standby command in period, then standby score value V is set to into 1;
Second step, according to average stand-by time length tsv the increment of standby score value V is determined.When first determining whether average standby
Between length tsv:If average stand-by time length tsv of statistics is less than 30 seconds, current idle score value V is added 4, if statistics is flat
Current idle score value V is then added 3 by stand-by time length tsv more than or equal to 30 seconds and less than 60 minutes, if what is counted averagely treats
Machine time span tsv is 60 minutes, then add 2 by current idle score value V, if average stand-by time length tsv of statistics is more than 60
Minute, then current idle score value V is added 1;Judge to update current idle score value V according to more than;
3rd step, according to average wakeup time length twv the increment of standby score value V is determined.When first determining whether averagely to wake up
Between length twv:If average wakeup time length twv of statistics is less than 30 seconds, current idle score value V is added 4;If statistics is flat
Current idle score value V is then added 3 by wakeup time length twv more than or equal to 30 seconds and less than 60 minutes;If what is counted averagely calls out
Awake time span twv is 60 minutes, then add 2 by current idle score value V;If average wakeup time length twv of statistics is more than 60
Minute, then current idle score value V is added 1;Judge to update current idle score value V according to more than;
4th step, according to wake-up times c in standby buffer time the increment of standby score value V is determined.First determine whether standby slow
Rush wake-up times c in the time:If wake-up times c are more than 25 in the standby buffer time of statistics, current idle score value V is added 4;
If current idle score value V is added 3 by wake-up times c more than 15 and less than 25 in the standby buffer time of statistics;If statistics
Current idle score value V is then added 2 by wake-up times c more than 5 and less than 15 in standby buffer time;If the standby buffering of statistics
Wake-up times c are less than 5 in time, then add 1 by current idle score value V;Judge to update and please determine current idle according to more than
Score value V.
It should be noted that being only here by the data of the standby database of user for reading to the calculating of standby score value V
Conversion signal component value, the score value of all items is added up, and obtains total score.Therefore, the order of specific accumulation calculating is not
The order being confined to provided in above-mentioned steps, four steps and out-of-order for determining standby score value V are limited, can be with random order
Perform.
The standby custom of technical scheme meeting Intelligent statistical user in the present embodiment, is calculated reasonably based on the data of statistics
Standby buffer time, user is allowed to cancel standby command within standby buffer time.If the not standby custom of counting user, only by force
Set up and put a fixed standby buffer time, this mode, in fact, only with scheme provided by the present invention
Initial standby score value V according to acquiescence carries out the mode of standby process.Can not judge to surmount the technology spy that the present invention is protected
The scope levied.
In the present embodiment, to 4 statistics (average stand-by time length tsv, average wakeup time length twv, period
Interior standby command occurrence number n and the step of wake-up times c) is updated in standby buffer time it is as follows:
● average stand-by time length, it is labeled as the mean value that tsv is that device standby wakes up the time used to lower secondary device;
System receives standby command and receives wake-up instruction for one step completed system standby wakeup process to system, this complete procedure institute
The time of cost is the primary system standby wakeup time, and the mark primary system standby wakeup time is ts, and average stand-by time is long
Degree tsv then spends time taking mean value by n complete system standby wakeup process.There is following computing formula:
System is also contained in scope of statistics in the process that standby buffer stage receives wake-up instruction.
Tsv and standby buffer time timebuffer, there is following score value corresponding relation:
tsv<timebuffermin-----4
timebuffermin<=tsv<timebuffermax-----3
Tsv==timebuffermax-----2
tsv>timebuffermax-----1
● average wakeup time length, it is to the mean value of next time standby time used after equipment wakes up to be labeled as twv;System
It is one step completed system wake-up standby that system receives wake-up instruction and receives standby command to system, and this complete procedure is spent
The time taken is that primary system wakes up stand-by time, and mark primary system wakes up stand-by time for tw, average stand-by time length
Tsv then spends time taking mean value by n complete system standby wakeup process.There is following computing formula:
Twv and standby buffer time timebuffer, there is following score value corresponding relation:
twv<timebuffermin-----4
timebuffermin<=twv<timebuffermax-----3
Twv==timebuffermax-----2
twv>timebuffermax-----1
● the frequency n that system standby instruction occurs in special time period:It was divided into four time periods by one day, [0-6h),
[6-12h), [12-18h), [18-24).Count respectively and receive the number of times that standby command occurs in this four time periods, and will
The standby command occurrence number highest time period, correspond to 4 points, the like, until standby command occurrence number it is minimum when
Between correspond to 1 point.
● wake-up times c are the wake-up times within standby buffer time in standby buffer time, i.e., in standby buffer time
In the range of receive the number of times of wake-up system, mark this number of times to be c:
c>25-----4
15<c<=25-----3
5<c<=15-----2
c<=5-----1
One of ordinary skill in the art will appreciate that:The foregoing is only the preferred embodiments of the present invention, and without
In the present invention is limited, although being described in detail to the present invention with reference to the foregoing embodiments, for those skilled in the art
For, it still can modify to the technical scheme that foregoing embodiments are recorded, or which part technical characteristic is entered
Row equivalent.All any modification, equivalent substitution and improvements within the spirit and principles in the present invention, made etc., all should include
Within protection scope of the present invention.
Claims (16)
1. a kind of intelligent standby method based on the standby custom of user, it is characterised in that step includes:
Step 1, receives standby command, then jumps to step 2;
Step 2, according to the data of the standby tcs database of user standby buffer time is determined, control system enters buffer status,
Then step 3 is jumped to;
Step 3, if being not received by waking up instruction within standby buffer time, jumps to step 4;Otherwise jump to step 5;
Step 4, control system enters holding state;
Step 5, when wake-up instruction is received, control system enters working condition.
2. intelligent standby method as claimed in claim 1, it is characterised in that in described step 1, receiving standby command
Afterwards, the step of standby tcs database of user is updated according to the time for receiving standby command is also included.
3. intelligent standby method as claimed in claim 1, it is characterised in that in described step 5, receiving instruction is waken up
Afterwards, also include according to the step of receiving time for waking up instruction and update user's standby tcs database.
4. intelligent standby method as claimed in claim 1, it is characterised in that the data of the standby tcs database of described user
Including:Average stand-by time length tsv, average wakeup time length twv, standby command occurrence number n and standby slow in the period
Rush wake-up times c in the time;Wherein, described average stand-by time length tsv is referred to from receiving standby command to receiving next time
To the average time for waking up instruction, described average wakeup time length twv to be referred to and wake up instruction to receiving next time from receiving
The average time of standby command, wake-up times c are referred to be received within standby buffer time and called out in described standby buffer time
The number of times of awake instruction, standby command occurrence number n is referred to and for 24 hourly averages in a day to be divided into N number of time period in the described period,
System receives the number of times of standby command within each time period.
5. intelligent standby method as claimed in claim 4, it is characterised in that in described step 2, according to receiving standby finger
Time statistical average stand-by time length tsv of order and standby command occurrence number n in the period, and update the standby custom number of user
According to the corresponding data in storehouse;In described step 5, according to receiving the time statistical average wakeup time length for instructing is waken up
Twv and wake-up times c in standby buffer time, and update the corresponding data in the standby tcs database of user.
6. intelligent standby method as claimed in claim 5, it is characterised in that in described step 2, according to receiving standby finger
Time statistical average stand-by time length tsv of order and standby command occurrence number n in the period, and update the standby custom number of user
After according to the corresponding data in storehouse, also include determining standby score value V according to the data of the standby tcs database of user, further according to treating
The step of machine score value V determines corresponding standby buffer time.
7. intelligent standby method as described in claim 6, it is characterised in that it is described determined according to standby score value V it is corresponding
The concrete grammar of standby buffer time is:Standby score value V values more little standby buffer time is longer, and standby score value V values are bigger
Standby buffer time is shorter.
8. intelligent standby method as claimed in claim 6, it is characterised in that the number according to the standby tcs database of user
According to standby score value V is determined, including according to standby command occurrence number n in the period standby score value V is determined:
Judgement receives the period of standby command:If the standby command occurrence number n bigger period receives standby finger within the period
Order, then increased even more standby score value V;If the standby command occurrence number n less period receives standby finger within the period
Order, then increase fewer by standby score value V.
9. intelligent standby method as claimed in claim 6, it is characterised in that the number according to the standby tcs database of user
According to standby score value V is determined, including average stand-by time length tsv is spaced according to average stand-by time standby score value V is determined:
If average stand-by time length tsv of statistics is less, current idle score value V is increased into more;If what is counted averagely treats
Machine time span tsv is bigger, then current idle score value V is increased into fewer.
10. intelligent standby method as claimed in claim 6, it is characterised in that described according to the standby tcs database of user
Data determine standby score value V, and including according to average wakeup time length twv standby score value V is determined:
If average wakeup time length twv of statistics is less, current idle score value V is increased into more;If what is counted averagely calls out
Awake time span twv is bigger, then current idle score value V is increased into fewer.
11. intelligent standby methods as claimed in claim 6, it is characterised in that described according to the standby tcs database of user
Data determine standby score value V, and including according to wake-up times c in standby buffer time standby score value V is determined:
If wake-up times c are more in the standby buffer time of statistics, current idle score value V is increased into more;If what is counted treats
Wake-up times c are fewer in machine buffer time, then current idle score value V is increased into fewer.
The 12. intelligent standby methods as any one of claim 6-11, it is characterised in that described according to the standby habit of user
The data of used database determine standby score value V, including:
Update standby score value V zeros after the standby tcs database of user;
In accordance with the method for claim 8, new standby score value V is determined according to standby command occurrence number n in the period;
In accordance with the method for claim 9, new standby score value V is determined according to average stand-by time length tsv;
In accordance with the method for claim 10, new standby score value V is determined according to average wakeup time length twv;
In accordance with the method for claim 11, new standby score value V is determined according to wake-up times c in standby buffer time.
The 13. intelligent standby methods as any one of claim 1-12, it is characterised in that described in described step 1
Standby command sent by user.
The 14. intelligent standby methods as any one of claim 1-12, it is characterised in that described in described step 5
Wake-up instruction sent by user.
The 15. intelligent standby methods as any one of claim 1-12, it is characterised in that also wrap in described step 1
The step of containing unlatching intelligent standby is judged whether:If opening intelligent standby, judge to enter buffering shape according to step 2 to step 5
State, holding state or working condition;Otherwise, step 4 is jumped to, and is judged whether to enter working condition according to step 5.
The 16. intelligent standby methods as any one of claim 1-12, it is characterised in that in the step 2, also include
The step of whether user sets standby buffer time numerical value judged:If user sets standby buffer time numerical value,
The numerical value directly set according to user in step 2 determines standby buffer time;Otherwise, according to the number of the standby tcs database of user
According to determination standby buffer time.
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