CN105764188A - Illumination controller and illumination control system and method - Google Patents

Abstract

The invention provides an illumination controller and an illumination control system and method. The illumination controller comprises an external sensing unit for acquiring external information including voice information and/or environmental information; a network information acquisition unit for acquiring control information via a network; a processing unit for generating a control instruction in combination with a control protocol according to the external information or the control information; and a wireless communication unit for sending the control instruction to an illumination system. The illumination control system and method achieve online control by using the illumination controller capable of acquiring external information when alive, are not required to wake up the illumination controller or input operation instruction via touch, have friendly interaction, generate the control instruction by acquiring the voice information, achieve voice control, and achieve automatic control in different modes by acquiring the environmental information and generating the control instruction or acquiring the control information via the network and generating the control instruction so as to achieve diversification of the control modes.

Description

Lighting controller, Lighting Control Assembly and method

Technical field

The application relates to lighting control technique field, is specifically related to a kind of lighting controller, Lighting Control Assembly and method.

Background technology

At present, in the environment of Smart Home, Lighting control generally adopts following two control mode:

The first control mode by installing an application program (Application in mobile phone, hereinafter referred to as APP), after APP opened by mobile phone, by clicking corresponding user interface (UserInterface, hereinafter referred to as UI) produce operational order, and then illuminator is controlled；

The second control mode, by arranging a control panel, is completed the input of operational order, and then illuminator is controlled by input equipment such as the touch screens on touch-control control panel.

Above two control mode is the control mode of non-line model, namely firstly the need of waking control system up, then inputs control instruction again, such as, in the first control mode, need first in mobile phone, to open APP, and in the second control mode, it is necessary to first light touch screen etc..Meanwhile, the operation of above two control mode is complex, friendly not alternately, for instance control instruction requires over touch control operation input, and Voice command pattern needs to click UI and carries out voice collecting etc..Additionally, existing Lighting Control Assembly also tend to have control model comparatively single, cannot the defect such as automatic decision Correction and Control effect.

Summary of the invention

In view of drawbacks described above of the prior art or deficiency, it is desirable to provide a kind of On-line Control, mutual close friend, the diversified lighting controller of control model, Lighting Control Assembly and method.

First aspect, the present invention provides a kind of lighting controller, and described lighting controller includes:

Outside sensing unit, is used for gathering external information, and described external information includes voice messaging and/or environmental information；

Network information gathering unit, for controlling information by Network Capture；

Processing unit, generates control instruction for combining, according to described external information or described control information, the control protocol preset；

Wireless communication unit, for sending described control instruction to illuminator.

Second aspect, the present invention provides a kind of Lighting Control Assembly, and described system includes above-mentioned lighting controller and illuminator.

Described illuminator includes:

Some paths of LEDs lamps；

Communication unit, for receiving the control instruction that described wireless communication unit sends；

Micro-control unit, for resolving described control instruction and exporting the control signal of correspondence；

Switching power supply, for controlling described some paths of LEDs lamps according to described control signal.

The third aspect, the present invention also provides for a kind of illumination control method, and described method includes:

Gather external information；And/or, control information by Network Capture；

Combine, according to described external information or described control information, the control protocol preset and generate control instruction；

Described control instruction is sent to illuminator.

Wherein, described external information includes voice messaging and/or environmental information.

Namely lighting controller, Lighting Control Assembly and the method that the many embodiments of the present invention provide gather the lighting controller of external information and achieve On-line Control by arranging energising, wakes up without to lighting controller；Without being entered the operating instructions by touch-control, there is mutual friendly advantage；By gathering voice messaging and generating control instruction, achieve Voice command, by gathering environmental information and generating control instruction, or pass through the control information such as Network Capture time parameter, ambient parameter and generate control instruction, achieve automatically controlling of different mode, it is achieved thereby that the variation of control model；

Lighting controller, Lighting Control Assembly and method that some embodiments of the invention provide resolve all kinds of auxiliary parameters needed for complicated external information by Network Capture further, thus generating control instruction, simultaneously without storing huge information bank in lighting controller, it is achieved control the cost of hardware while intelligentized control method；

Lighting controller, Lighting Control Assembly and the method that some embodiments of the invention provide is further by arranging security sensor, obtain the monitoring information of precalculated position or human body sensing, and generate control instruction to control illuminator, furthermore achieved that the variation of intelligent control mode；

Lighting controller, Lighting Control Assembly and the method that some embodiments of the invention provide regulates, by the LED of redgreenblue, the decorative colors that light presents further, and is regulated the changes in temperature colour temperature of light by the LED of yellow two colors in vain；

Lighting controller, Lighting Control Assembly and method that some embodiments of the invention provide further by being integrated in desktop machine people by lighting controller, and be connected with illuminator communication coupling by communications such as bluetooths, achieve and take into account the friendly mutual of On-line Control pattern, and the portable two big advantages being provided simultaneously with favorable compatibility of lighting controller.

Accompanying drawing explanation

By reading the detailed description that non-limiting example is made made with reference to the following drawings, other features, purpose and advantage will become more apparent upon:

Fig. 1 is the structural representation of lighting controller in one embodiment of the invention.

Fig. 2 is the flow chart of illumination control method in one embodiment of the invention.

Fig. 3 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 2.

Fig. 4 is the structural representation of a kind of preferred implementation of lighting controller shown in Fig. 1.

Fig. 5 is the structural representation of a kind of preferred implementation of lighting controller shown in Fig. 4.

Fig. 6 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 3.

Fig. 7 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 3.

Fig. 8 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 3.

Fig. 9 is the structural representation of Lighting Control Assembly in one embodiment of the invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the application is described in further detail.It is understood that specific embodiment described herein is used only for explaining related invention, but not the restriction to this invention.It also should be noted that, for the ease of describing, accompanying drawing illustrate only and invent relevant part.

It should be noted that when not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined.Describe the application below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

Fig. 1 is the structural representation of lighting controller in one embodiment of the invention.

As it is shown in figure 1, in the present embodiment, lighting controller 10 provided by the invention includes outside sensing unit 11, network information gathering unit 13, processing unit 15 and wireless communication unit 17.

Wherein, outside sensing unit 11 is used for gathering external information.Described external information includes voice messaging and/or environmental information.Network information gathering unit 13 is for controlling information by Network Capture.Processing unit 15 generates control instruction for combining, according to described external information or described control information, the control protocol preset.Wireless communication unit 17 is for sending described control instruction to illuminator.

Outside sensing unit 11 can be various types of information collecting device, includes but not limited to the voice messaging collecting devices such as mike, microphone array, pick up and the environment information acquisition equipment such as optical sensor, infrared sensor.

Network information gathering unit 13 can be to cooperate with processing unit 15 and be carried out the various information acquisition engine of information gathering by network, it is also possible to be the hardware unit carrying out information gathering separately through network.

In certain embodiments, outside sensing unit 11 only includes voice messaging collecting device, only gathers the voice messaging of outside, and processing unit 15 combines the control protocol preset and generates phonetic control command according to voice messaging.Such as, voice messaging collecting device collects voice messaging " turning on light ", is mated the control protocol of correspondence by processing unit 15, generates the phonetic control command that corresponding " turning on light " operates.

In further embodiments, outside sensing unit 11 only includes environment information acquisition equipment, only gathers the environmental information of outside, and processing unit 15 combines the control protocol generation preset and automatically controls instruction according to environmental information.Such as, environment information acquisition equipment collects environmental information " windowing ", is mated the control protocol of correspondence by processing unit 15, and what generation corresponding " turning off the light " operated automatically controls instruction.

In more embodiment, outside sensing unit 11 includes voice messaging collecting device and environment information acquisition equipment simultaneously, voice messaging and the environmental information of outside can be gathered simultaneously, can according to the actual requirements by selecting switch or the input all kinds of modes such as control instruction be operated the switching of pattern, mode of operation specifically includes the Voice command pattern only gathering voice messaging, the automatic control mode that only gathers environmental information and the parallel control pattern simultaneously gathering voice messaging and environmental information.

Further, in many embodiments that said external sensing unit 11 includes voice messaging collecting device and environment information acquisition equipment simultaneously: in certain embodiments, after lighting controller 10 energising, acquiescence runs parallel control pattern, gathers voice messaging and environmental information simultaneously；In further embodiments, the mode of operation run when running last power-off after lighting controller 10 energising.

Fig. 2 is the flow chart of illumination control method in one embodiment of the invention.Method shown in Fig. 2 can perform in the lighting controller shown in Fig. 1.

As in figure 2 it is shown, the illumination control method that the present embodiment provides includes:

S20: gather external information；And/or, control information by Network Capture.Wherein, described external information includes voice messaging and/or environmental information.

Specifically, for the lighting controller 10 shown in Fig. 1:

Only including in the embodiment of voice messaging collecting device at outside sensing unit 11, lighting controller 10, under Voice command pattern, gathers voice messaging by outside sensing unit 11；Under automatic control mode, information is controlled by Network Capture by network information gathering unit 13, such as, including control strategy " regulating light color according to current weather information " in the control protocol preset, network information gathering unit 13 controls information " current weather information " by Network Capture under automatic control mode；Under parallel control pattern, outside sensing unit 11 and network information gathering unit 13 work simultaneously, are acquired voice messaging simultaneously and control information by Network Capture.

Only including in the embodiment of environment information acquisition equipment at outside sensing unit 11, lighting controller 10, under the first automatic control mode, gathers environmental information by outside sensing unit 11；Under the second automatic control mode, network information gathering unit 13 control information by Network Capture；Under parallel control pattern, outside sensing unit 11 and network information gathering unit 13 work simultaneously, are acquired environmental information simultaneously and control information by Network Capture.

Including in the embodiment of voice messaging collecting device and environment information acquisition equipment at outside sensing unit 11, lighting controller 10, under Voice command pattern, gathers voice messaging by the voice messaging collecting device in outside sensing unit 11 simultaneously；Under automatic control mode, gather environmental information by the environment information acquisition equipment in outside sensing unit 11, controlled information by network information gathering unit 13 by Network Capture simultaneously；Under parallel control pattern, outside sensing unit 11 and network information gathering unit 13 work simultaneously, are acquired voice messaging simultaneously, gather environmental information and control information by Network Capture.

S40: combine, according to described external information or described control information, the control protocol preset and generate control instruction.

Specifically, having preset control protocol in processing unit 15, described control protocol includes some control strategies and some interfaces.

Described control strategy is external information and the corresponding relation controlling operation, for instance intensity of illumination " is adjusted to 500lux " by control strategy, i.e. a kind of external information " current light intensity " and a kind of corresponding relation controlling operation " adjustment intensity of illumination "；Such as control strategy " sensing that namely human body turns on light " again, i.e. a kind of external information " sensing human body " and a kind of corresponding relation controlling operation " turning on light ".

Described interface is the corresponding relation controlling operation and operational order.In the present embodiment, described control protocol includes with lower interface:

1, lamp attribute interface

Described lamp attribute interface includes on off state and two attributes of color mode, for controlling on off state and the color mode of described illuminator.

Described lamp attribute interface returns two bytes " SwitchState " and " ColorMode " when carrying out read operation, and wherein " SwitchState " is on off state, and character K represents open mode, and character G represents closed mode；" ColorMode " is color mode, and character M represents warm colour pattern, and character C represents color mode.

Described lamp attribute interface carries out two bytes " Object " of write and " Action " during write operation, and wherein " Object " is object, and character S represents switch, and character M represents color mode；During operation switch object, " Action " is switch motion, and character O represents and turns on light, and character C represents and turns off the light；During operation color mode object, " Action " is colour changing action, and character W represents the warm colour pattern that is switched to, and character C represents and is switched to color mode.Wherein, when lamp is closed, operation color mode is invalid to liking.

For voice messaging " cool colour light ", directly obtain control operation " switching to cool colour light " after resolving to text instruction, according to above-mentioned lamp attribute interface, operational order " M+W " can be generated.For environmental information " sensing human body " and control strategy " sensing that namely human body turns on light ", resolve and obtain controlling operation " turning on light ", according to above-mentioned lamp attribute interface, operational order " S+O " can be generated.

2, lamp color interface

Described lamp color interface is for controlling the cold-warm color gentleness decorative colors of the light of described illuminator, and the read-write operation for every paths of LEDs lamp is a byte.

3, intervalometer arranges interface

Described intervalometer arranges interface for controlling the fixed cycle operator of described illuminator.

Described intervalometer arranges interface and cannot be carried out read operation, carries out 5 bytes " ID ", " EN ", " Minute ", " Hour " and " Action " of write during write operation." ID " is intervalometer sequence number, has 4 intervalometers altogether from No. 0 to No. 3." EN " is that intervalometer enables, and character E represents and enables, and character D represents disabling." Minute " is minute, and " Hour " is hour." Action " is timing action when arriving, and character O represents and turns on light, and character C represents and turns off the light.After intervalometer enables, timing every day all can respond, after arriving, the action configured.

For voice messaging " turn off the light thirty in the evening 11 ", after resolving to text instruction, according to above-mentioned lamp attribute interface, when being currently not provided with intervalometer, operational order " 0+E+30+23+C " can be generated.

4, pattern control interface

Described pattern control interface is for controlling the mode of operation of described illuminator.

Described pattern control interface returns 1 byte " ModeState " when carrying out read operation." ModeState " is mode state, and character L is lamp pattern, and character N is mini light night pattern, and character S is sleep pattern, and character Q is order gradual-change mode, and character R is random gradual-change mode, and character F is pattern of being fade-in fade-out.

Described pattern control interface carries out 2 bytes " Action " of write and " Value " during write operation." Action " operates for pattern, and character C is for emptying color collection relief area, and character L is for closing mini light night, and character N is for opening mini light night, and character S is for entering sleep pattern, character Q execution sequence gradual change, and character R performs random gradual change, and character F performs to be fade-in fade-out.When emptying color collection relief area and open mini light night, " Value " is invalid can be arbitrary value.When entering sleep pattern, " Value " is the waiting time, and character H represents half an hour, and character O represents one hour.Execution sequence gradual change and perform random gradual change and execution when being fade-in fade-out, " Value " is time of staying grade, from 00 to 08 totally 9 grades, represents that the time of staying is more and more longer.Wherein, when emptying color collection relief area, the execution of present mode can be automatically stopped.

In more embodiment, the control protocol being not limited to above-mentioned interface and control strategy can be set according to the actual requirements.

S60: described control instruction is sent to illuminator.

Specifically, for the lighting controller 10 shown in Fig. 1, wireless communication unit 17 and illuminator communication connection, described control instruction is sent to illuminator, illuminator performs described control instruction, be finally completed the intelligent control to illuminator.

In certain embodiments, wireless communication unit 17 is additionally operable to receive the acknowledgement information corresponding to described control instruction that illuminator sends, if not receiving the acknowledgement information of correspondence within the predetermined time, then resends described control instruction.

Lighting controller and illumination control method that above-described embodiment provides achieve On-line Control by arranging the lighting controller namely gathering external information that is energized, and wake up without to lighting controller；Without being entered the operating instructions by touch-control, there is mutual friendly advantage；By gathering voice messaging and generating control instruction, achieve Voice command, by gathering environmental information and generating control instruction, or pass through the control information such as Network Capture time parameter, ambient parameter and generate control instruction, achieve automatically controlling of different mode, it is achieved thereby that the variation of control model.

In a preferred embodiment, network information gathering unit 13 is additionally operable to by Network Capture auxiliary parameter.Processing unit 15 is additionally operable to combine, according to described external information and described auxiliary parameter, the control protocol preset and generates control instruction.

Fig. 3 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 2.

As it is shown on figure 3, also include by Network Capture auxiliary parameter after described collection external information.

Specifically, in the embodiment with the decoration color of RGB mode tuning light, for voice messaging " rose-colored light ", key word " light " and " rose-colored " is obtained after resolving, network information gathering unit 13 calls the template of predefined " color+rgb value ", by Network Capture auxiliary parameter: roseate rgb value (R:252, G:33, and feed back to processing unit 15 B:94),.Processing unit 15 selects interface corresponding in control protocol, generates control instruction according to the auxiliary parameter that the external information after resolving and network information gathering unit 13 are acquired.

In another embodiment, for according to voice messaging " news hookup switches mini light night pattern after terminating ", by network information gathering unit 13 by Network Capture auxiliary parameter " news hookup end time ", realize by the conversion of complex external information to operational order thus assisting.

Lighting controller, Lighting Control Assembly and method that above-described embodiment provides resolve all kinds of auxiliary parameters needed for complicated external information by Network Capture further, thus generating control instruction, simultaneously without storing huge information bank in lighting controller, it is achieved control the cost of hardware while intelligentized control method

Fig. 4 is the structural representation of a kind of preferred implementation of lighting controller shown in Fig. 1.

As shown in Figure 4, in a preferred embodiment, outside sensing unit 11 include following at least one: voice collecting subelement 111, environment induction subelement 113 and safety monitoring subelement 115.

Wherein, voice collecting subelement 111 is used for gathering voice messaging.Environment induction subelement 113 is for monitoring of environmental parameter.Safety monitoring subelement 115 includes some security sensors, for obtaining the monitoring information that described security sensor produces.Described environmental information includes at least one in described ambient parameter and described monitoring information.

In corresponding illumination control method, described collection external information include following at least one: gather voice messaging；Monitoring of environmental parameter；Obtain the monitoring information that security sensor produces.

In a preferred embodiment, environment induction subelement 113 include following at least one:

Optical sensor, for the intensity of illumination of surrounding being monitored；

Sound transducer, for detecting the intensity of sound of surrounding；

Temperature sensor, for the temperature of surrounding being monitored.

In more embodiment, according to different specific demands, environment induction subelement 113 can also include humidity sensor etc. and monitor the various kinds of sensors of other ambient parameter.

In corresponding illumination control method, described monitoring of environmental parameter include following at least one: the intensity of illumination of surrounding being monitored；The intensity of sound of surrounding being monitored；The temperature of surrounding being monitored.

In a preferred embodiment, safety monitoring subelement 115 include following at least one:

Door status sensor, is arranged on security protection parts, communicates to connect with described processing unit, for generating the first monitoring information indicating described security protection parts to be subjected to displacement；

Human body sensor, detects the second monitoring information of human body for generating instruction.

Specifically, door status sensor is typically mounted on door or window, and control strategy corresponding in the present embodiment includes " open the door and namely turn on light ", " window and namely turn off the light " etc..In more embodiment, door status sensor can be arranged on different security protection parts according to the actual requirements, and presets different control strategies.

In corresponding illumination control method, the monitoring information that described acquisition security sensor produces include following at least one: obtain the first monitoring information that the instruction security protection parts that door status sensor generates are subjected to displacement；The instruction that acquisition human body sensor generates detects the second monitoring information of human body.

Lighting controller and illumination control method that above-described embodiment provides pass through to arrange security sensor further, obtain the monitoring information of precalculated position or human body sensing, and generate control instruction to control illuminator, furthermore achieved that the variation of intelligent control mode.

Fig. 5 is the structural representation of a kind of preferred implementation of lighting controller shown in Fig. 4.

As it is shown in figure 5, in a preferred embodiment, lighting controller 10 also includes voice recognition unit 19.Voice recognition unit 19, for described voice messaging is resolved, generates corresponding text instruction.Accordingly, processing unit 15 combines the control protocol preset and generates described control instruction according to described text instruction.

Specifically, voice recognition unit 19 can be various types of speech recognition solutions, include but not limited to the various online voice SDK bag or the speech recognition engine that coordinate processing unit 15 to carry out speech recognition, or individually carry out the voice recognition chip etc. of speech recognition.

In corresponding illumination control method, generate control instruction according to voice messaging and include: described voice messaging is resolved, generate corresponding text instruction；Combine the control protocol preset according to described text instruction and generate control instruction.

In a preferred embodiment, wireless communication unit 17 is additionally operable to receive the status information of described illuminator feedback.Processing unit 15 is additionally operable to judge whether described control instruction runs succeeded according to described status information: if being not carried out successfully, then regenerate control instruction according to described status information, and sent by wireless communication unit 17.

Fig. 6 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 3.

As shown in Figure 6, in the illumination control method corresponding with above-mentioned lighting controller, also include after step S60:

S70: receive the status information of described illuminator feedback；

S81: judge whether described control instruction runs succeeded according to described status information:

S83: if being not carried out successfully, then regenerate control instruction according to described status information and send；Jump procedure S70.

Specifically, for instance when processing unit 15 generates the control instruction of correspondence " light modulation is Chinese red ", and by, after wireless communication unit 17 transmission, receiving the status information of illuminator feedback.Processing unit 15 is by learning that to the parsing of described status information current light is for pink, and therefore control instruction is not carried out successfully.Processing unit 15 regenerates and sends the control instruction of correspondence " light modulation is Chinese red ", and jump procedure S70 is circulated, until by analyzing the status information of feedback, processing unit 15 learns that current light is Chinese red, control instruction runs succeeded, loop ends.

In a preferred embodiment, processing unit 15 is additionally operable to judge whether described control instruction runs succeeded according to real-time environmental information: if being not carried out successfully, then regenerate control instruction according to described real-time environmental information, and sent by wireless communication unit 17.

Fig. 7 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 3.

As it is shown in fig. 7, in the illumination control method corresponding with above-mentioned lighting controller, also include after step S60:

S91: judge whether described control instruction runs succeeded according to real-time environmental information:

S93: if being not carried out successfully, then regenerate control instruction according to described real-time environmental information and send；Jump to step S91.

Specifically, such as processing unit 15 receives the environmental information of " intensity of illumination is 250lux " that optical sensor sends, according to default control strategy " being 500lux by intensity control ", processing unit 15 generates the control instruction of correspondence " strengthening 250lux light intensity ", and is sent by wireless communication unit 17.After interval of time, processing unit 15 receives the real-time environmental information " intensity of illumination is 400lux " that optical sensor sends, judge to learn that control instruction is not carried out successfully, the control instruction of correspondence " strengthening 100lux light intensity " is regenerated according to environmental information " intensity of illumination is 400lux ", sent by wireless communication unit 17, and jump to step S91 and be circulated, until the real-time environmental information received is " intensity of illumination is 500lux ", loop ends.

In a preferred embodiment, lighting controller 10 is additionally provided with communication unit or alarm unit, when control instruction performs after unsuccessfully, or, when control instruction perform unsuccessfully circulation several times after, processing unit 15 stops retransmitting control instruction, and pushes information by communication unit to mobile terminal, or carries out alarm by alarm unit.

In a preferred embodiment, lighting controller 10 is integrated in desktop machine people, and described desktop machine people is connected with described illuminator coupling by wireless communication unit 17.

Specifically, desktop machine people can carry with, and has good portability, when desktop machine people is positioned in the environment being provided with described illuminator, can carry out coupling by radio communication with described illuminator and be connected.

Fig. 8 is the flow chart of a kind of preferred implementation of illumination control method shown in Fig. 3.

As shown in Figure 8, in corresponding illumination control method, also include before step S20:

S10: be connected with illuminator coupling by radio communication.

In a preferred embodiment, the communication mode between wireless communication unit 17 and described illuminator is Bluetooth communication, adopts bluetooth 4.0 agreement.In more embodiment, different communication modes can be adopted according to the actual requirements.

The lighting controller of above-described embodiment offer and illumination control method further by being integrated in desktop machine people by lighting controller, and be connected with illuminator communication coupling by communications such as bluetooths, achieve and take into account the friendly mutual of On-line Control pattern, and the portable two big advantages being provided simultaneously with favorable compatibility of lighting controller.

Fig. 9 is the structural representation of Lighting Control Assembly in one embodiment of the invention.

As it is shown in figure 9, in the present embodiment, Lighting Control Assembly provided by the invention includes the lighting controller 10 described in any of the above-described embodiment and illuminator 20.

Illuminator 20 includes some paths of LEDs lamps 21, communication unit 23, micro-control unit 25 and switching power supply 27.

Wherein, communication unit 23 is for receiving the control instruction that described wireless communication unit sends.Micro-control unit 25 is for resolving described control instruction and exporting the control signal of correspondence.Switching power supply 27 is for controlling described some paths of LEDs lamps according to described control signal.

It should be understood that the way of LED 21 in Fig. 1 is merely schematic.According to realizing needs, it is possible to arrange the LED 21 of any way.

Specifically, micro-control unit 25 prestores the interface section of described control protocol.After communication unit 23 receives the control instruction that wireless communication unit 17 sends, micro-control unit 25 resolves described control instruction according to described control protocol, exports the control signal of correspondence to switching power supply 25.Switching power supply 27 exports electric current according to described control signal, controls each paths of LEDs lamp 21.

In the present embodiment, described control signal is pwm signal, and in more embodiments, described control signal can be set to the different control signal such as current signal, voltage signal according to the actual requirements.

In a preferred embodiment, micro-control unit 25 is additionally operable to pilot switch power subsystem 27 to obtain the status information of each paths of LEDs lamp 21.Communication unit 23 is additionally operable to described status information feedback to wireless communication unit 17.

In a preferred embodiment, described some paths of LEDs lamps 21 include the red LED lamp, green LED lamp, blue led lamp, white led lamps and the yellow LED lamp that are made up of respectively homochromy lamp bead.

Wherein, described red LED lamp, described green LED lamp and described blue led lamp are for regulating the decorative colors that light presents.

Described white led lamps and described yellow LED lamp are for regulating the changes in temperature colour temperature of light.

Specifically, in the present embodiment, the LED adopting RGB pattern and redgreenblue regulates decorative colors, adopts the LED adjustment of cold/warm colour temperature of HUANGBAI(sic) two color；In more embodiments, it is possible to adopt the LED of other color/colour temperature shaping modes and other color according to the actual requirements.

Lighting controller, Lighting Control Assembly and the method that above-described embodiment provides regulates, by the LED of redgreenblue, the decorative colors that light presents further, and is regulated the changes in temperature colour temperature of light by the LED of yellow two colors in vain.

Flow chart in accompanying drawing and block diagram, it is illustrated that according to the system of various embodiments of the invention, the architectural framework in the cards of method and computer program product, function and operation.In this, flow chart or each square frame in block diagram can represent a part for a module, program segment or code, and a part for described module, program segment or code comprises the executable instruction of one or more logic function for realizing regulation.It should also be noted that at some as in the realization replaced, the function marked in square frame can also to be different from the order generation marked in accompanying drawing.Such as, two square frames succeedingly represented can essentially perform substantially in parallel, and they can also perform sometimes in the opposite order, and this determines according to involved function.It will also be noted that, the combination of the square frame in each square frame in block diagram and/or flow chart and block diagram and/or flow chart, can be realized by the special hardware based system of the function of execution regulation or operation, or can be realized by the combination of specialized hardware Yu computer instruction.

It is described in unit involved in the embodiment of the present application or module can be realized by the mode of software, it is also possible to realized by the mode of hardware.Described unit or module can also be arranged within a processor, such as, voice recognition unit 19 can be to cooperate with processing unit 15 and carry out various online voice SDK bag or the speech recognition engine of speech recognition, it is also possible to be the voice recognition chip individually carrying out speech recognition.Wherein, the title of these unit or module is not intended that the restriction to this unit or module itself under certain conditions, for instance, switching power supply 27 is also described as " for controlling the switch element of the output electric current to LED ".

As on the other hand, present invention also provides a kind of computer-readable recording medium, this computer-readable recording medium can be the computer-readable recording medium comprised in device described in above-described embodiment；Can also be individualism, be unkitted the computer-readable recording medium in the equipment of allocating into.Computer-readable recording medium storage has one or more than one program, and described program is used for performing to be described in the formula input method of the application by one or more than one processor.

Above description is only the preferred embodiment of the application and the explanation to institute's application technology principle.Skilled artisan would appreciate that, invention scope involved in the application, it is not limited to the technical scheme of the particular combination of above-mentioned technical characteristic, when also should be encompassed in without departing from described inventive concept simultaneously, other technical scheme being carried out combination in any by above-mentioned technical characteristic or its equivalent feature and being formed.Such as features described above and (but not limited to) disclosed herein have the technical characteristic of similar functions and replace mutually and the technical scheme that formed.

Claims (25)

1. a lighting controller, it is characterised in that described lighting controller includes:

Outside sensing unit, is used for gathering external information, and described external information includes voice messaging and/or environmental information；

Network information gathering unit, for controlling information by Network Capture；

Processing unit, generates control instruction for combining, according to described external information or described control information, the control protocol preset；

Wireless communication unit, for sending described control instruction to illuminator.

2. lighting controller according to claim 1, it is characterised in that described network information gathering unit is additionally operable to by Network Capture auxiliary parameter；

Described processing unit is additionally operable to combine, according to described external information and described auxiliary parameter, the control protocol preset and generates control instruction.

3. lighting controller according to claim 1, it is characterised in that described outside sensing unit include following at least one:

Voice collecting subelement, is used for gathering voice messaging；

Environment induction subelement, for monitoring of environmental parameter；

Safety monitoring subelement, including some security sensors, for obtaining the monitoring information that described security sensor produces；

Described environmental information includes at least one in described ambient parameter and described monitoring information.

4. lighting controller according to claim 3, it is characterised in that described environment induction subelement include following at least one:

Optical sensor, for the intensity of illumination of surrounding being monitored；

Sound transducer, for the intensity of sound of surrounding being monitored；

Temperature sensor, for the temperature of surrounding being monitored.

5. lighting controller according to claim 3, it is characterised in that described safety monitoring subelement include following at least one:

Door status sensor, is arranged on security protection parts, communicates to connect with described processing unit, for generating the first monitoring information indicating described security protection parts to be subjected to displacement；

Human body sensor, detects the second monitoring information of human body for generating instruction.

6. lighting controller according to claim 3, it is characterised in that also include:

Voice recognition unit, for described voice messaging is resolved, generates corresponding text instruction；

Described processing unit combines the control protocol preset and generates described control instruction according to described text instruction.

7. lighting controller according to claim 1, it is characterised in that described wireless communication unit is additionally operable to receive the status information of described illuminator feedback；

Described processing unit is additionally operable to judge whether described control instruction runs succeeded according to described status information: if being not carried out successfully, then regenerates control instruction according to described status information, and is sent by described wireless communication unit.

8. lighting controller according to claim 1, it is characterized in that, described processing unit is additionally operable to judge whether described control instruction runs succeeded according to real-time environmental information: if being not carried out successfully, then regenerate control instruction according to described real-time environmental information, and sent by described wireless communication unit.

9. the lighting controller according to any one of claim 1-8, it is characterised in that described control protocol include following at least one:

Lamp attribute interface, for controlling on off state and the color mode of described illuminator；

Lamp color interface, for controlling the cold-warm color gentleness decorative colors of the light of described illuminator；

Intervalometer arranges interface, for controlling the fixed cycle operator of described illuminator；

Pattern control interface, for controlling the mode of operation of described illuminator.

10. the lighting controller according to any one of claim 1-8, it is characterised in that described lighting controller is integrated in desktop machine people, described desktop machine people is connected with described illuminator coupling by described wireless communication unit.

11. lighting controller according to claim 10, it is characterised in that the communication mode between described wireless communication unit and described illuminator is Bluetooth communication.

12. a Lighting Control Assembly, it is characterised in that include the lighting controller described in any one of claim 1-11 and illuminator；

Described illuminator includes:

Some paths of LEDs lamps；

Communication unit, for receiving the control instruction that described wireless communication unit sends；

Micro-control unit, for resolving described control instruction and exporting the control signal of correspondence；

Switching power supply, for controlling described some paths of LEDs lamps according to described control signal.

13. Lighting Control Assembly according to claim 12, it is characterised in that described micro-control unit is additionally operable to the status information monitoring described switching power supply to obtain each paths of LEDs lamp；

Described communication unit is additionally operable to described status information feedback to described wireless communication unit.

14. the Lighting Control Assembly according to claim 12 or 13, it is characterised in that described some paths of LEDs lamps include the red LED lamp, green LED lamp, blue led lamp, white led lamps and the yellow LED lamp that are made up of respectively homochromy lamp bead；

Wherein, described red LED lamp, described green LED lamp and described blue led lamp are for regulating the decorative colors that light presents；

Described white led lamps and described yellow LED lamp are for regulating the changes in temperature colour temperature of light.

15. an illumination control method, it is characterised in that described method includes:

Gather external information；And/or, control information by Network Capture；

Combine, according to described external information or described control information, the control protocol preset and generate control instruction；

Described control instruction is sent to illuminator；

Wherein, described external information includes voice messaging and/or environmental information.

16. illumination control method according to claim 15, it is characterised in that described collection external information also includes by Network Capture auxiliary parameter.

17. illumination control method according to claim 15, it is characterised in that described collection external information include following at least one:

Gather voice messaging；

Monitoring of environmental parameter；

Obtain the monitoring information that security sensor produces；

Described environmental information includes at least one in described ambient parameter and described monitoring information.

18. illumination control method according to claim 17, it is characterised in that described monitoring of environmental parameter include following at least one:

The intensity of illumination of surrounding being monitored；

The intensity of sound of surrounding being monitored；

The temperature of surrounding being monitored.

19. illumination control method according to claim 17, it is characterised in that described acquisition security sensor produce monitoring information include following at least one:

Obtain the first monitoring information indicating security protection parts to be subjected to displacement that door status sensor generates；

The instruction that acquisition human body sensor generates detects the second monitoring information of human body；

Wherein, described door status sensor is arranged on described security protection parts.

20. illumination control method according to claim 17, it is characterised in that generate control instruction according to voice messaging and include:

Described voice messaging is resolved, generates corresponding text instruction；

Combine the control protocol preset according to described text instruction and generate control instruction.

21. illumination control method according to claim 15, it is characterised in that described described control instruction transmission also includes after illuminator:

Receive the status information of described illuminator feedback；

Judge whether described control instruction runs succeeded according to described status information: if being not carried out successfully, then regenerate control instruction according to described status information and send；Jump to the status information of the described illuminator feedback of described reception.

22. illumination control method according to claim 15, it is characterised in that described described control instruction transmission also includes after illuminator:

Judge whether described control instruction runs succeeded according to real-time environmental information: if being not carried out successfully, then regenerate control instruction according to described real-time environmental information and send；Jump to the real-time environmental information of described basis and judge whether described control instruction runs succeeded.

23. according to the illumination control method described in any one of claim 15-22, it is characterised in that described control protocol include following at least one:

Lamp attribute interface, for controlling on off state and the color mode of described illuminator；

Lamp color interface, for controlling the cold-warm color gentleness decorative colors of the light of described illuminator；

Intervalometer arranges interface, for controlling the fixed cycle operator of described illuminator；

Pattern control interface, for controlling the mode of operation of described illuminator.

24. according to the illumination control method described in any one of claim 15-22, it is characterised in that also include before described collection external information:

It is connected with illuminator coupling by radio communication.

25. illumination control method according to claim 24, it is characterised in that the communication mode of described radio communication is Bluetooth communication.