CN109219203A - A kind of light units adjusting method - Google Patents

Abstract

The invention discloses a kind of light units adjusting methods, it is characterised in that includes the following steps: step 1: receiving statistics number of days set by user, in the statistics number of days of setting, the data of state of a control variation occur for statistics light；Step 2: predict the following corresponding time signal light control state to be occurred according to the data of the statistics, the prediction the result is that being obtained according to the statistical data of the corresponding time and with the statistical data of corresponding temporally adjacent time synthesis；Step 3: according to the signal light control state of the prediction, controlling the mode of operation of light；The technical solution proposed through the invention, can be realized the automation and intelligence of signal light control, and be able to satisfy the individual demand of user.

Description

A kind of light units adjusting method

[technical field]

The invention belongs to smart home fields, more particularly to a kind of method of home furnishings intelligent signal light control.

[background technique]

Signal light control is the essential factor of domestic environment, and with the rise of smart home, light intelligent control is answered It transports and gives birth to, in the prior art, light intelligent control mainly includes following two kinds of forms: 1, by WIFI, the channel radios such as ZIGBEE Letter mode carries out Remote configuration and control to light, and 2, by the way that setting control light is relied in lamp dimmer in advance External condition, such as: environment light, background music or time, etc., make light different according to the variation display of external condition Brightness, effect or color etc..Above two form all have the characteristics that one it is identical, require by design signal light control The control rule of professional's clear light in advance, the then method according to this rule setting signal light control.But actually make In, this rule is obtained, for ordinary user, is not easy to, in addition, the signal light control being arranged by above-mentioned professional Rule is normally based on the habit setting of most users, for the user with individual requirement and is not suitable for.

[summary of the invention]

Habit and individual character that light is used according to user are not had in order to solve in smart home, present in signal light control Change the technical problems such as setting, the invention proposes a kind of habit that light is used by counting user, the controls of intelligent predicting light The home furnishings intelligent lamp light control method and its system of state processed.

A kind of light units adjusting method proposed by the present invention, it is characterised in that include the following steps:

A kind of light units adjusting method, it is characterised in that include the following steps:

Step 1: receiving statistics number of days set by user, in the statistics number of days of setting, state of a control occurs for statistics light The data of variation；

Step 2: predicting the following corresponding time signal light control state to be occurred, the prediction according to the data of the statistics The result is that being obtained according to the statistical data of the corresponding time and with the statistical data of corresponding temporally adjacent time synthesis；

Step 3: according to the signal light control state of the prediction, controlling the mode of operation of light；

The step 1 further includes following step:

(1.1) to the number of days of statistics from 1 sequentially number consecutively, and one day time interval is set, by the daily time Multiple timeslices are divided into according to time interval, and the sequentially number consecutively from 1, number is denoted as (d, n), and wherein d is the day Several numbers, n are the number of the timeslice, and the maximum number of number of days is DMAX, and the maximum number of timeslice is NMAX, then has 1≤d≤DMAX, 1≤n≤NMAX；

(1.2) the changed data of signal light control state of one day each timeslice are recorded, wherein in each timeslice In, light becomes closing from opening, and corresponding variable condition value is " 10 ", and light becomes opening from closing, corresponding change Changing state value is " 01 ", if light is always maintained at unlatching, corresponding variable condition value is " 11 ", if light is always maintained at pass It closes, then corresponding variable condition value is " 00 "；Each variable condition records in the following manner: L1 (d, n)=B, wherein L1 is Signal light control state change mark, d are the number of the number of days, and n is the number of the timeslice, and B is variable condition value, described The changed data of signal light control state include at least a data；

(1.3) step (1.2) are repeated, the statistics number of days until meeting setting；

(1.4) step (1.3) are recorded with obtained record value, carries out following processing:

(1.4.1) calculates each variable condition value institute to each variable condition value under each number with same time piece The ratio value accounted for, calculation formula are as follows:

L2 (n, B)=(timeslice number is n, and variable condition value is the item number of the data of B)/(timeslice number is n's The total number of data)；

Then all proportions value numbered with same time piece is sorted by size, if there is unique maximum value, The main transformer state value then numbered using the maximum value as the timeslice, if there is multiple maximum values, then therefrom random choosing The main transformer state value for taking a maximum value to number as the timeslice, is denoted as KS (n), and wherein n is the same time piece Number；

(1.4.2) calculates turning for the variable condition value of future time piece to the variable condition value under each timeslice number Rate, calculation formula are as follows

L3 (m, B1, B2)=(timeslice number is m+1, and its variable condition value is the total number of the data of B2)/(time Piece number is m, and its variable condition value is the total number of the data of B1), wherein 1≤m≤NMAX-1, B1 are timeslice number m Variable condition value, B2 be timeslice number m future time piece m+1 variable condition value；

Then there will be same time piece number, and also identical conversion ratio sorts by size corresponding variable condition value, If there is unique maximum value, then using the variable condition value of the corresponding future time piece of the maximum value as the same time The main conversion conditions value of piece number then therefrom randomly selects next corresponding to a maximum value if there is multiple maximum values The main conversion conditions value that the variable condition value of timeslice is numbered as the same time piece, is denoted as KCS (m), wherein m is described The number of same time piece；

The step 3 further includes following step:

According to the main transformer state value for the timeslice predicted, light is controlled, specifically:

If it is 00 or 10, start in the timeslice, close light, and keeps light to close shape in the timeslice State；

If it is 11 or 01, start in the timeslice, open light, and keeps light opening state in the timeslice State.

[Detailed description of the invention]

Described herein the drawings are intended to provide a further understanding of the invention, constitutes part of this application, but It does not constitute improper limitations of the present invention, in the accompanying drawings:

Fig. 1 is the flow chart of home furnishings intelligent lamp light control method proposed by the present invention；

Fig. 2 is the structural block diagram of home furnishings intelligent lamp light control system proposed by the present invention.

[specific embodiment]

Come that the present invention will be described in detail below in conjunction with attached drawing and specific embodiment, illustrative examples therein and says It is bright to be only used to explain the present invention, but it is not intended as inappropriate limitation of the present invention.

It is the flow chart of home furnishings intelligent lamp light control method proposed by the present invention referring to Fig. 1, in step S01, receives user The statistics number of days of setting, in the number of days of the statistics, counting user controls the behavior of light, and specially statistics light changes shape The sequence of state, such as: when user's input set number of days as 3 days, then home furnishings intelligent lamp light control system enters statistic behavior, is uniting In 3 days of meter, daily user is counted at the time of open light, at the time of closing light, it is at the time of adjusting lamplight brightness and its bright Angle value, and these statistical values are saved in the memory of the control system, then, at the time of being based on identical, lamp is counted respectively The number of operations that the unlatching of light, closing, brightness are adjusted, in order to make it easy to understand, reference can be made to following table in practical applications one Statistical result (statistics number of days: 3 days).

Count the moment	Light opening times	Light closes number	Brightness lightens number	Brightness dims number
					6:00	3	0	0	0
7:30	0	3	0	0
					17:00	2	0	0	0
17:40	0	1	0	0
					19:30	0	0	2	1
22:30	0	3	0	0

The signal light control shape to be occurred at the following corresponding moment is predicted based on the data of step S01 statistics in step S02 State based on the statistical form that counts in statistics number of days, predicts the state of a control of light after the completion of counting number of days, when prediction, The main operation for first determining current time, then according to the operation of the main operation at current time and the subsequent time at adjacent current time It is predicted, to guarantee the continuity of predicted operation and the operation of the front moment, for example, one statistical threshold of setting is 2, according to It is that preceding table is counted as a result, after having counted three days, such as the 4th day, since the number opened when 6:00 is greater than the statistics threshold of setting Value, therefore main operation when 6:00 is to open light, in the same way, statistics obtains the state of a control of each moment light Main operation.

When predicting the operation of future time, the main operation at statistical data corresponding current time is not only considered, also synthesis is examined Consider with it is corresponding at the time of it is adjacent at the time of operation, operating for adjacent moment be both contemplated that the previous moment adjacent with the moment Operation, also it is contemplated that the operation of the later moment in time adjacent with the moment, this can be according to the system of the statistical data of signal light control state Meter rule determines, such as: if it is considered that the operation of current time adjacent subsequent time, a kind of means that comprehensively consider can Are as follows: if the two operation is identical, takes the identical operation, if the two operation is different, takes the former operation.Then predict As a result as shown in the table:

In step S03, the signal light control state predicted according to step S02 controls the state of a control of corresponding time light, For example, the signal light control state table according to above-mentioned prediction, in 6:00, Light Control Unit issues open command to lamp, lights Lamp, in 7:30, Light Control Unit issues shutdown command to lamp, lamp is closed, etc. this household intelligence proposed through the invention Energy lamp light control method realizes automation, the intelligentized control method of light without any professional setting of user.Due to lamp The prediction of light mode of operation is based entirely on the historical behavior of user's operation light, and therefore, control method of the invention can be fitted more Family is shared to the individual demand of signal light control, user can be at any time according to the individual demand of oneself, by counting its control again The behavior of light processed, to customize and change the details of the automation of light, intelligentized control method.

The variation of record signal light control state in real time, needs more hardware resource, while user misoperation, interference etc. are led The state of a control of cause without operation, can also waste the capacity of record, thus the present invention have also been proposed it is a kind of based on " timeslice " The improvement project of inventive concept, in each timeslice, the mode that sampling can be used obtains signal light control state.The step S01 further includes following step:

(1.1) to the number of days of statistics from 1 sequentially number consecutively, and one day time interval is set, by the daily time Multiple timeslices are divided into according to time interval, and the sequentially number consecutively from 1, number is denoted as (d, n), and wherein d is the day Several numbers, n are the number of the timeslice, and the maximum number of number of days is DMAX, and the maximum number of timeslice is NMAX, then has 1≤d≤DMAX, 1≤n≤NMAX；

(1.2) the changed data of signal light control state of one day each timeslice are recorded, wherein in each timeslice In, light becomes closing from opening, and corresponding variable condition value is " 10 ", and light becomes opening from closing, corresponding change Changing state value is " 01 ", if light is always maintained at unlatching, corresponding variable condition value is " 11 ", if light is always maintained at pass It closes, then corresponding variable condition value is " 00 "；Each variable condition records in the following manner: L1 (d, n)=B, wherein L1 is Signal light control state change mark, d are the number of the number of days, and n is the number of the timeslice, and B is variable condition value, described The changed data of signal light control state include at least a data；

(1.3) step (1.2) are repeated, the statistics number of days until meeting setting；

(1.4) step (1.3) are recorded with obtained record value, carries out following processing:

(1.4.1) calculates each variable condition value institute to each variable condition value under each number with same time piece The ratio value accounted for, calculation formula are as follows:

L2 (n, B)=(timeslice number is n, and variable condition value is the item number of the data of B)/(timeslice number is n's The total number of data)；

Then all proportions value numbered with same time piece is sorted by size, if there is unique maximum value, The main transformer state value then numbered using the maximum value as the timeslice, if there is multiple maximum values, then therefrom random choosing The main transformer state value for taking a maximum value to number as the timeslice, is denoted as KS (n), and wherein n is timeslice number；

(1.4.2) calculates the conversion of future time piece variable condition value to the variable condition value under each timeslice number Rate, calculation formula are as follows

L3 (m, B1, B2)=(timeslice number is m+1, and its variable condition value is the total number of the data of B2)/(time Piece number is m, and its variable condition value is the total number of the data of B1), wherein 1≤m≤NMAX-1, B1 are timeslice number m Variable condition value, B2 be timeslice number m future time piece m+1 variable condition value；

Then there will be same time piece number m, and also identical conversion ratio sorts by size corresponding variable condition value, If there is unique maximum value, then using the variable condition value of the corresponding future time piece of the maximum value as the same time The main conversion conditions value of piece number then therefrom randomly selects next corresponding to a maximum value if there is multiple maximum values The main conversion conditions value that the variable condition value of timeslice is numbered as the same time piece, is denoted as KCS (m), wherein m is described Timeslice number

The step S02 further includes following step:

(2.1) it is numbered according to the timeslice that step (1.1) divides, determining future corresponds to one for the time being included Or multiple timeslice numbers, and one or more of timeslices are numbered into ascending sort by size；

(2.2) for first timeslice and the last one timeslice in one or more of timeslices, respectively It searches timeslice and numbers corresponding main transformer state value as their main transformer state value；

(2.3) in one or more of timeslices in addition to first timeslice and the last one timeslice Other times piece, the main transformer state value of timeslice prediction be its timeslice is numbered corresponding main transformer state value with After its main conversion conditions value inclusive OR operation, after then numbering corresponding main transformer state value logic and operation with its timeslice As a result, it may be assumed that KSP (p2)=(KS (p2) ⊙ KCS (p2)) ∩ KS (p2), wherein p2 is the number of the other times piece, KSP Indicate the main transformer state value of prediction, KS indicates main transformer state value, and KCS indicates main conversion conditions value, ⊙ indicate logic with or Operation, ∩ indicate logic and operation.

The step S03 further includes the main transformer state value according to the timeslice predicted, controls light, specifically: such as Fruit is 00 or 10, then starts in the timeslice, closes light, and light closed state is kept in the timeslice；If it is 11 or 01, then start in the timeslice, open light, and keeps light open state in the timeslice.

Above-mentioned improved technical solution refines the method for home furnishings intelligent signal light control more, and eliminates user The link of threshold value is set, also, by being arranged time interval between 5 minutes to 15 minutes, user's control can be counted on substantially Whole behaviors of light processed improve the statistical accuracy of signal light control state.In each timeslice, by way of sampling The variable condition value for obtaining signal light control can be effectively reduced the high defect of resource consumption brought by monitoring in real time.

Based on above-mentioned control method, the invention also provides a kind of home furnishings intelligent lamp light control systems, referring to fig. 2, for this Invent the structural block diagram of the home furnishings intelligent lamp light control system proposed, including user input apparatus, Light Control Unit, data system Counter device, light prediction meanss, memory, these devices can be realized by FPGA technology.Wherein,

User input apparatus is connect with Light Control Unit, is operated for inputting user to the control of light；

The data statistics device is connect with the control device, when the operation that user is inputted by Light Control Unit Content is statistics number of days, then makes the control system enter " statistics " state, and be based on the statistics number of days, and statistics light becomes The data of change state, and the data are saved in memory；

The light prediction meanss are connect with the memory, for when statistics after the completion of so that the control system by " statistics " state enters " prediction " state, according to the signal light control for the statistical data prediction following corresponding time that memory is stored State, the prediction the result is that according to the statistical data of the corresponding time and with the statistical number of corresponding temporally adjacent time It is obtained according to synthesis；

The Light Control Unit, the signal light control for receiving user operate and receive the pre- of light prediction meanss transmission The signal light control of survey operates, to control the mode of operation of light, wherein the priority for the signal light control operation that user issues is higher than The signal light control operation that light prediction meanss issue, such as: when user issues operational order by Light Control Unit, such as " unlatching " light, synchronization, when the signal light control operation that light prediction meanss issue is " closing ", then the control of priority user Operation, i.e. signal light control operate the operation that " unlatching " light is sent to lamp.

The present invention provides a kind of light units adjusting methods, it is characterised in that includes the following steps:

Step 1: receiving statistics number of days set by user, in the statistics number of days of setting, state of a control occurs for statistics light The data of variation；

Step 2: predicting the following corresponding time signal light control state to be occurred, the prediction according to the data of the statistics The result is that being obtained according to the statistical data of the corresponding time and with the statistical data of corresponding temporally adjacent time synthesis；

Step 3: according to the signal light control state of the prediction, controlling the mode of operation of light；

The step 1 further includes following step:

(1.1) to the number of days of statistics from 1 sequentially number consecutively, and one day time interval is set, by the daily time Multiple timeslices are divided into according to time interval, and the sequentially number consecutively from 1, number is denoted as (d, n), and wherein d is the day Several numbers, n are the number of the timeslice, and the maximum number of number of days is DMAX, and the maximum number of timeslice is NMAX, then has 1≤d≤DMAX, 1≤n≤NMAX；

(1.2) the changed data of signal light control state of one day each timeslice are recorded, wherein in each timeslice In, light becomes closing from opening, and corresponding variable condition value is " 10 ", and light becomes opening from closing, corresponding change Changing state value is " 01 ", if light is always maintained at unlatching, corresponding variable condition value is " 11 ", if light is always maintained at pass It closes, then corresponding variable condition value is " 00 "；Each variable condition records in the following manner: L1 (d, n)=B, wherein L1 is Signal light control state change mark, d are the number of the number of days, and n is the number of the timeslice, and B is variable condition value, described The changed data of signal light control state include at least a data；

(1.3) step (1.2) are repeated, the statistics number of days until meeting setting；

(1.4) step (1.3) are recorded with obtained record value, carries out following processing:

(1.4.1) calculates each variable condition value institute to each variable condition value under each number with same time piece The ratio value accounted for, calculation formula are as follows:

L2 (n, B)=(timeslice number is n, and variable condition value is the item number of the data of B)/(timeslice number is n's The total number of data)；

Then all proportions value numbered with same time piece is sorted by size, if there is unique maximum value, The main transformer state value then numbered using the maximum value as the timeslice, if there is multiple maximum values, then therefrom random choosing The main transformer state value for taking a maximum value to number as the timeslice, is denoted as KS (n), and wherein n is the same time piece Number；

(1.4.2) calculates turning for the variable condition value of future time piece to the variable condition value under each timeslice number Rate, calculation formula are as follows

L3 (m, B1, B2)=(timeslice number is m+1, and its variable condition value is the total number of the data of B2)/(time Piece number is m, and its variable condition value is the total number of the data of B1), wherein 1≤m≤NMAX-1, B1 are timeslice number m Variable condition value, B2 be timeslice number m future time piece m+1 variable condition value；

Then there will be same time piece number, and also identical conversion ratio sorts by size corresponding variable condition value, If there is unique maximum value, then using the variable condition value of the corresponding future time piece of the maximum value as the same time The main conversion conditions value of piece number then therefrom randomly selects next corresponding to a maximum value if there is multiple maximum values The main conversion conditions value that the variable condition value of timeslice is numbered as the same time piece, is denoted as KCS (m), wherein m is described The number of same time piece；

The step 3 further includes following step:

According to the main transformer state value for the timeslice predicted, light is controlled, specifically:

If it is 00 or 10, start in the timeslice, close light, and keeps light to close shape in the timeslice State；

If it is 11 or 01, start in the timeslice, open light, and keeps light opening state in the timeslice State.

Those of ordinary skill in the art will appreciate that computer journey can be used in all or part of the steps of above-described embodiment Sequence process realizes that the computer program can be stored in a computer readable storage medium, the computer program exists (such as system, unit, device) executes on corresponding hardware platform, when being executed, include the steps that embodiment of the method it One or combinations thereof.Optionally, integrated circuit can be used also to realize in all or part of the steps of above-described embodiment, these steps It can be fabricated to integrated circuit modules one by one respectively, or maked multiple modules or steps in them to single integrated Circuit module is realized.Device/functional module/functional unit in above-described embodiment can be using general computing device come real Existing, they can be concentrated on a single computing device, and can also be distributed over a network of multiple computing devices.It is above-mentioned Device/functional module/functional unit in embodiment is realized in the form of software function module and is sold as independent product Or it in use, can store in a computer readable storage medium.Computer-readable storage medium mentioned above It can be read-only memory, disk or CD etc..

Claims (1)

1. a kind of light units adjusting method, it is characterised in that include the following steps:

Step 1: receiving statistics number of days set by user, in the statistics number of days of setting, state of a control variation occurs for statistics light Data；

Step 2: predicting the following corresponding time signal light control state to be occurred, the knot of the prediction according to the data of the statistics Fruit is obtained according to the statistical data of the corresponding time and with the statistical data of corresponding temporally adjacent time synthesis；

Step 3: according to the signal light control state of the prediction, controlling the mode of operation of light；

The step 1 further includes following step:

(1.1) to the number of days of statistics from 1 sequentially number consecutively, and one day time interval is set, by the daily time according to Time interval is divided into multiple timeslices, and the sequentially number consecutively from 1, and number is denoted as (d, n), and wherein d is the number of days Number, n are the number of the timeslice, and the maximum number of number of days is DMAX, and the maximum number of timeslice is NMAX, then has 1≤d ≤ DMAX, 1≤n≤NMAX；

(1.2) the changed data of signal light control state of one day each timeslice are recorded, wherein in each timeslice, Light becomes closing from opening, and corresponding variable condition value is " 10 ", and light becomes opening from closing, corresponding variation shape State value is " 01 ", if light is always maintained at unlatching, corresponding variable condition value is " 11 ", if light is always maintained at closing, Corresponding variable condition value is " 00 "；Each variable condition records in the following manner: L1 (d, n)=B, wherein L1 is light State of a control variation mark, d are the number of the number of days, and n is the number of the timeslice, and B is variable condition value, the light The changed data of state of a control include at least a data；

(1.3) step (1.2) are repeated, the statistics number of days until meeting setting；

(1.4) step (1.3) are recorded with obtained record value, carries out following processing:

(1.4.1) calculates shared by each variable condition value each variable condition value under each number with same time piece Ratio value, calculation formula are as follows:

L2 (n, B)=(timeslice number is n, and variable condition value is the item number of the data of B)/(data that timeslice number is n Total number)；

Then all proportions value numbered with same time piece is sorted by size, if there is unique maximum value, then with The maximum value then therefrom randomly selects one if there is multiple maximum values as the main transformer state value that the timeslice is numbered The main transformer state value that a maximum value is numbered as the timeslice, is denoted as KS (n), and wherein n is the volume of the same time piece Number；

(1.4.2) calculates the conversion ratio of the variable condition value of future time piece to the variable condition value under each timeslice number, Calculation formula is as follows

L3 (m, B1, B2)=(timeslice number is m+1, and its variable condition value is the total number of the data of B2)/(timeslice is compiled Number be m, and its variable condition value be B1 data total number), wherein 1≤m≤NMAX-1, B1 be timeslice number m change Change state value, B2 is the variable condition value of the future time piece m+1 of timeslice number m；

Then there will be same time piece number, and also identical conversion ratio sorts by size corresponding variable condition value, if The maximum value of existence anduniquess is then compiled using the variable condition value of the corresponding future time piece of the maximum value as the same time piece Number main conversion conditions value then therefrom randomly select future time corresponding to a maximum value if there is multiple maximum values The main conversion conditions value that the variable condition value of piece is numbered as the same time piece, is denoted as KCS (m), and wherein m is described identical The number of timeslice；

The step 3 further includes following step:

According to the main transformer state value for the timeslice predicted, light is controlled, specifically:

If it is 00 or 10, start in the timeslice, close light, and keeps light closed state in the timeslice；

If it is 11 or 01, start in the timeslice, open light, and keeps light open state in the timeslice.