CN107635326A - A kind of home furnishings intelligent lamp light control method and its system - Google Patents

Abstract

The invention discloses a kind of home furnishings intelligent lamp light control method and its system, this method to include：The statistics number of days of user's setting is received, in the statistics number of days of setting, the data of state of a control change occur for statistics light；According to the following corresponding time signal light control state to be occurred of the data prediction of the statistics, the result of the prediction is to integrate to obtain according to the statistics of the corresponding time and with the statistics of corresponding temporally adjacent time；According to the signal light control state of the prediction, the mode of operation of light is controlled.By technical scheme proposed by the present invention, the automation and intellectuality of signal light control can be realized, and the individual demand of user can be met.

Description

A kind of home furnishings intelligent lamp light control method and its system

【Technical field】

The invention belongs to smart home field, more particularly to a kind of method and its system of home furnishings intelligent signal light control.

【Background technology】

Signal light control is the essential factor of domestic environment, and with the rise of smart home, light intelligent control should Transport and give birth to, in the prior art, light intelligent control mainly includes following two kinds of forms：1st, the channel radios such as WIFI, ZIGBEE are passed through Letter mode, carries out Remote configuration and control to light, and 2, relied on by setting control light in lamp dimmer in advance External condition, such as：Ambient light, background music or time, etc., make light different according to the change display of external condition Brightness, effect or color etc..Above two form all have one it is identical the characteristics of, be required for by design signal light control The control rule of professional's clear and definite light in advance, the then method according to this rule setting signal light control.But actually make In, this rule is obtained, for domestic consumer, is not easy to, in addition, the signal light control set by above-mentioned professional Rule, the custom setting of most of users is normally based on, for the user with individual requirement and is not applied to.

【The content of the invention】

The custom 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 present invention proposes a kind of custom that light is used by counting user, the control of intelligent predicting light The home furnishings intelligent lamp light control method and its system of state processed.

A kind of home furnishings intelligent lamp light control method proposed by the present invention, it is characterised in that comprise the steps：

Step 1：The statistics number of days of user's setting is received, in the statistics number of days of setting, state of a control occurs for statistics light The data of change；

Step 2：According to the following corresponding time signal light control state to be occurred of the data prediction of the statistics, the prediction Result be to integrate to obtain according to the statistics of the corresponding time and with the statistics of corresponding temporally adjacent time；

Step 3：According to the signal light control state of the prediction, the mode of operation of light is controlled.

More excellent, the data include the time of signal light control state change and the content of operation.

More excellent, the step 1 also comprises the steps：

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

(1.2) data that the signal light control state of one day each timeslice changes are recorded, wherein, in each timeslice In, light is changed into closing from opening, and its corresponding variable condition value is " 10 ", and light is changed into opening from closing, change corresponding to it It is " 01 " to change state value, if light is always maintained at opening, corresponding variable condition value is " 11 ", if light is always maintained at closing Close, 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 identifies, and d is the numbering of the number of days, and n is the numbering of the timeslice, and B is variable condition value, described The data that signal light control state changes comprise at least a data；

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

(1.4) record value obtained to step (1.3) record, carries out following processing：

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

L2 (n, B)=(timeslice numbering is n, and variable condition value is B number of data)/(number that timeslice numbering is n According to total number)；

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

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

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

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

More excellent, the step 2 also comprises the steps：

(2.1) timeslice for dividing to obtain according to step (1.1) is numbered, it is determined that one that the following corresponding time is included Or multiple described timeslice numberings, and one or more of timeslices are numbered into ascending sort by size；

(2.2) first timeslice and last timeslice being directed in one or more of timeslices, respectively Main transformer state value corresponding to timeslice numbering is searched as their main transformer state value；

(2.3) be directed in one or more of timeslices in addition to first timeslice and last timeslice Other times piece, the main transformer state value of timeslice prediction be by main transformer state value corresponding to its timeslice numbering with After its main conversion conditions value inclusive OR computing, then after main transformer state value logic and operation corresponding with its timeslice numbering As a result, i.e.,：KSP (p2)=(KS (p2) ⊙ KCS (p2)) ∩ KS (p2), wherein, p2 be the other times piece numbering, KSP Represent the main transformer state value of prediction, KS represents main transformer state value, and KCS represents main conversion conditions value, ⊙ represent logic with or Computing, ∩ represent logic and operation.

More excellent, the step 3 also comprises the steps：

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

If 00 or 10, then start in the timeslice, close light, and keep light to close shape in the timeslice State；

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

The invention also provides a kind of home furnishings intelligent lamp light control system, including user input apparatus, light control switch Device, data statistics device, light prediction meanss, memory, wherein,

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

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

The light prediction meanss are connected with the memory, for after the completion of statistics so that the control system is entered Enter " prediction " state, the signal light control state of the data prediction following corresponding time of the statistics stored according to memory, The result of the prediction is according to the statistics of the corresponding time and comprehensive with the statistics of corresponding temporally adjacent time Conjunction obtains；

The Light Control Unit, the signal light control for receiving user operate, and receive what light prediction meanss were sent The signal light control operation of prediction, to control the mode of operation of light, wherein, the priority for the signal light control operation that user sends is high In the signal light control operation that light prediction meanss are sent.

【Brief description of the drawings】

Accompanying drawing described herein be for providing a further understanding of the present invention, forming the part of the application, but Inappropriate limitation of the present invention is not formed, 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 structured flowchart of home furnishings intelligent lamp light control system proposed by the present invention.

【Embodiment】

The present invention is described in detail below in conjunction with accompanying drawing and specific embodiment, illustrative examples therein and is said It is bright to be only used for explaining the present invention, but it is not intended as inappropriate limitation of the present invention.

Referring to Fig. 1, for the flow chart of home furnishings intelligent lamp light control method proposed by the present invention, in step S01, user is received The statistics number of days of setting, in the number of days of the statistics, counting user controls the behavior of light, specially counts light change 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 It is at the time of adjusting lamplight brightness and its bright at the time of counting daily user at the time of open light, close light in 3 days of meter Angle value, and by these statistical values preserve in the memory of the control system, then, based on it is identical at the time of, count lamp respectively The unlatching of light, closing, the number of operations of brightness regulation, in order to make it easy to understand, reference can be made to following table in actual applications one Statistical result (statistics number of days：3 days).

In step S02, based on the data of step S01 statistics, the following signal light control shape to be occurred for corresponding to the moment is predicted State, after the completion of number of days is counted, based on obtained statistical form is counted in statistics number of days, predict the state of a control of light, during prediction, The main operation at current time is first determined, then according to the main operation at current time and the operation of the subsequent time at adjacent current time It is predicted, to ensure predicted operation and the continuity of its previous instant operation, for example, it is 2 to set a statistical threshold, according to The result that preceding table is counted, after having counted three days, such as the 4th day, due to 6：The number opened when 00 is more than the statistics threshold of setting Value, therefore 6:Main operation when 00 is opens light, and 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 current time corresponding to statistics 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, it is also contemplated that the operation of the later moment in time adjacent with the moment, this can be according to the system of the statistics of signal light control state Rule is counted to determine, such as：If it is considered that the operation of current time adjacent subsequent time, a kind of means considered can For：If both operations are identical, take the identical to operate, if both operations are different, take the former operation.Then predict As a result it is as shown in the table：

In step S03, the signal light control state predicted according to step S02, the state of a control for corresponding to time light is controlled, For example, the signal light control state table according to above-mentioned prediction, 6:When 00, Light Control Unit sends open command to lamp, lights Lamp, 7:When 30, Light Control Unit sends shutdown command to lamp, closes lamp, etc. passing through this household intelligence proposed by the present invention Can lamp light control method, without any professional setting of user, realize automation, the intelligentized control method of light.Due to lamp The prediction of light mode of operation is based entirely on the historical behavior that user operates light, and therefore, control method of the invention can be fitted more Individual demand of the family to signal light control is shared, 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 automation of light, the details of intelligentized control method.

Record signal light control state in real time changes the hardware resource, it is necessary to more, 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, signal light control state can be obtained by the way of sampling.The step S01 also includes also following step：

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

(1.2) data that the signal light control state of one day each timeslice changes are recorded, wherein, in each timeslice In, light is changed into closing from opening, and its corresponding variable condition value is " 10 ", and light is changed into opening from closing, change corresponding to it It is " 01 " to change state value, if light is always maintained at opening, corresponding variable condition value is " 11 ", if light is always maintained at closing Close, 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 identifies, and d is the numbering of the number of days, and n is the numbering of the timeslice, and B is variable condition value, described The data that signal light control state changes comprise at least a data；

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

(1.4) record value obtained to step (1.3) record, carries out following processing：

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

L2 (n, B)=(timeslice numbering is n, and variable condition value is the bar number of B data)/(timeslice numbering 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, The main transformer state value then numbered using the maximum as the timeslice, if there is multiple maximums, then therefrom random choosing The main transformer state value for taking a maximum to be numbered as the timeslice, is designated as KS (n), and wherein n numbers for the timeslice；

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

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

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

The step S02 also comprises the steps：

(2.1) timeslice for dividing to obtain according to step (1.1) is numbered, it is determined that one that the following corresponding time is included Or multiple described timeslice numberings, and one or more of timeslices are numbered into ascending sort by size；

(2.2) first timeslice and last timeslice being directed in one or more of timeslices, respectively Main transformer state value corresponding to timeslice numbering is searched as their main transformer state value；

(2.3) be directed in one or more of timeslices in addition to first timeslice and last timeslice Other times piece, the main transformer state value of timeslice prediction be by main transformer state value corresponding to its timeslice numbering with After its main conversion conditions value inclusive OR computing, then after main transformer state value logic and operation corresponding with its timeslice numbering As a result, i.e.,：KSP (p2)=(KS (p2) ⊙ KCS (p2)) ∩ KS (p2), wherein, p2 be the other times piece numbering, KSP Represent the main transformer state value of prediction, KS represents main transformer state value, and KCS represents main conversion conditions value, ⊙ represent logic with or Computing, ∩ represent logic and operation.

The step S03 also includes the main transformer state value according to the timeslice predicted, controls light, is specially：Such as Fruit is 00 or 10, then starts in the timeslice, closes light, and light closed mode is kept in the timeslice；If 11 or 01, then start in the timeslice, open light, and light opening is kept in the timeslice.

Above-mentioned improved technical scheme causes the method for home furnishings intelligent signal light control more to become more meticulous, and eliminates user Set threshold value link, also, by the way that time interval is arranged on into 5 minutes to 15 minutes between, can count on substantially user control 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 of signal light control is obtained, can effectively reduce the defects of resource consumption caused by monitoring is high in real time.

Based on above-mentioned control method, the invention also provides a kind of home furnishings intelligent lamp light control system, referring to Fig. 2, for this Invent the structured flowchart 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 connected with Light Control Unit, for inputting control operation of the user to light；

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

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

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

One of ordinary skill in the art will appreciate that all or part of step of above-described embodiment can use computer journey Sequence flow realizes that the computer program can be stored in a computer-readable recording medium, the computer program exists (such as system, unit, device) performs on corresponding hardware platform, upon execution, including the step of embodiment of the method it One or its combination.Alternatively, all or part of step of above-described embodiment can also be realized using integrated circuit, these steps Integrated circuit modules one by one can be fabricated to respectively, or the multiple modules or step in them are fabricated to single integrate 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 single computing device, can also be distributed on the network that multiple computing devices are formed.It is above-mentioned Device/functional module/functional unit in embodiment is realized in the form of software function module and is used as independent production marketing Or in use, it can be stored in a computer read/write memory medium.Computer read/write memory medium mentioned above Can be read-only storage, disk or CD etc..

Claims (7)

1. a kind of home furnishings intelligent lamp light control method, it is characterised in that comprise the steps：

Step 1：The statistics number of days of user's setting is received, in the statistics number of days of setting, state of a control change occurs for statistics light Data；

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

Step 3：According to the signal light control state of the prediction, the mode of operation of light is controlled.

2. home furnishings intelligent lamp light control method as claimed in claim 1, it is characterised in that the data include signal light control shape The time of state change and the content of operation.

3. home furnishings intelligent lamp light control method as claimed in claim 1 or 2, it is characterised in that the step 1 also includes following Step：

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

(1.2) data that the signal light control state of one day each timeslice changes are recorded, wherein, in each timeslice, Light is changed into closing from opening, and its corresponding variable condition value is " 10 ", and light is changed into opening from closing, change shape corresponding to it State value is " 01 ", if light is always maintained at opening, 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 change mark, d are the numbering of the number of days, and n is the numbering of the timeslice, and B is variable condition value, the light The data that state of a control changes comprise at least a data；

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

(1.4) record value obtained to step (1.3) record, carries out following processing：

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

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

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

(1.4.2) numbers lower variable condition value to each timeslice, the conversion ratio of the variable condition value of calculating future time piece, Calculation formula is as follows

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

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

4. home furnishings intelligent lamp light control method as claimed in claim 3, it is characterised in that the step 2 also includes following steps Suddenly：

(2.1) obtained timeslice is divided according to step (1.1) to number, it is determined that included one of following corresponding time or Multiple described timeslice numberings, and one or more of timeslices are numbered into ascending sort by size；

(2.2) first timeslice and last timeslice being directed in one or more of timeslices, are searched respectively Main transformer state value corresponding to timeslice numbering, and as their prediction main transformer state value；

(2.3) its in addition to first timeslice and last timeslice being directed in one or more of timeslices His timeslice, the main transformer state value of the timeslice prediction are to lead main transformer state value corresponding to its timeslice numbering with it After conversion conditions value inclusive OR computing, the then knot after main transformer state value logic and operation corresponding with its timeslice numbering Fruit, i.e.,：KSP (p2)=(KS (p2) ⊙ KCS (p2)) ∩ KS (p2), wherein, p2 be the other times piece numbering, KSP tables Show the main transformer state value of prediction, KS represents main transformer state value, and KCS represents main conversion conditions value, and ⊙ represents that logic is same or transports Calculate, ∩ represents logic and operation.

5. home furnishings intelligent lamp light control method as claimed in claim 4, it is characterised in that the step 3 also includes following steps Suddenly：

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

If 00 or 10, then start in the timeslice, close light, and light closed mode is kept in the timeslice；

If 11 or 01, then start in the timeslice, open light, and light opening is kept in the timeslice.

6. home furnishings intelligent lamp light control method as claimed in claim 4, the time interval may be configured as 5 minutes to 15 minutes Between numerical value, in each timeslice, the variable condition value of signal light control is obtained by way of sampling.

7. a kind of home furnishings intelligent lamp light control system, including user input apparatus, Light Control Unit, data statistics device, lamp Light prediction meanss, memory, wherein,

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

The data statistics device is connected with the control device, when the content for the operation that user is inputted by Light Control Unit To count number of days, then cause the control system to enter " statistics " state, and be based on the statistics number of days, statistics light change shape The data of state, and the data are preserved in memory；

The light prediction meanss are connected with the memory, for after the completion of statistics so that the control system is by " system Meter " state enters " prediction " state, the light of the data prediction following corresponding time of the statistics stored according to memory State of a control, the result of the prediction are statistics and the statistics of the adjacent time of corresponding time according to the corresponding time Aggregation of data obtains；

The Light Control Unit, the signal light control for receiving user operate, and receive the prediction that light prediction meanss are sent Signal light control operation, to control the mode of operation of light, wherein, the priority of signal light control that user sends operation is higher than lamp The signal light control operation that light prediction meanss are sent.