CN110597079A - Method and device for adjusting lamp in intelligent household operating system - Google Patents
Method and device for adjusting lamp in intelligent household operating system Download PDFInfo
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B15/00—Systems controlled by a computer
- G05B15/02—Systems controlled by a computer electric
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/20—Pc systems
- G05B2219/26—Pc applications
- G05B2219/2642—Domotique, domestic, home control, automation, smart house
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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Abstract
The invention provides a method and a device for adjusting a lamp in an intelligent home operating system, which comprise the following steps: when it is monitored that a target object executes a preset operation in a target area, acquiring light ray information of outdoor light rays in a set range of a geographical position where the target object is located; and adjusting the light-emitting parameters of the target lamp in the target area according to the light information. The invention solves the technical problem that the psychological health of people is influenced by the fact that sunlight cannot be obtained in a building due to the influence of the geographical position, and further achieves the effect of simulating the gradual change of the color and the illumination when the sunlight is naturally irradiated indoors.
Description
Technical Field
The invention relates to the field of communication, in particular to a method and a device for adjusting a lamp in an intelligent home operating system.
Background
With the continuous progress of science and technology, people have higher and higher requirements on intelligent life. However, the smart home operating system in the prior art is not satisfactory for some scenes in life.
For some buildings, the buildings cannot receive the sunlight due to the influence of the geographical positions of the buildings. For example, some buildings are shaded by others, or for rooms oriented away from the sun, no sunlight can be received indoors. And the mood can be influenced and psychological problems can be caused when people live in the environment without sunlight for a long time.
Aiming at the technical problem that in the related art, due to the influence of the geographical position, sunlight cannot be obtained in a building, and the psychological health of people is influenced, an effective solution does not exist.
Disclosure of Invention
The embodiment of the invention provides a method and a device for adjusting a lamp in an intelligent home operating system, which are used for at least solving the problem that the psychological health of people is influenced by the fact that sunlight cannot be acquired in a building due to the influence of geographical positions in the related art.
According to an embodiment of the invention, a method for adjusting a lamp in an intelligent home operating system is provided, which includes: when it is monitored that a target object executes a preset operation in a target area, acquiring light ray information of outdoor light rays in a set range of a geographical position where the target object is located; and adjusting the light-emitting parameters of the target lamp in the target area according to the light information.
Optionally, the light information includes: the light intensity and/or light color of outdoor light, wherein the light emitting parameters of the target lamp in the target area are adjusted according to the light information, comprising: adjusting the luminous intensity of a target lamp in the target area according to the light intensity of the outdoor light; and/or adjusting the light emitting color of the target lamp in the target area according to the light color of the outdoor light; wherein the lighting parameters include: the luminous intensity, the luminous color.
Optionally, adjusting a light emitting parameter of a target lamp in the target area according to the light information, further comprising: determining a reference point of the target area according to an incident area of the outdoor light in the target area; determining a target light-emitting parameter of the target lamp according to the target distance between the target lamp and the reference point and the light ray information, wherein the target light-emitting parameter comprises: a target luminous intensity and/or a target luminous color; and adjusting the light-emitting parameters of the target lamp according to the target light-emitting parameters.
Optionally, determining a target light-emitting parameter of the target lamp according to the target distance between the target lamp and the reference point and the light information, includes: when the target distance is smaller than a first threshold value, determining the light-emitting parameter of the target lamp as a first target light-emitting parameter; when the target distance is greater than or equal to the first threshold value, determining that the light-emitting parameter of the target lamp is a second target light-emitting parameter; wherein the second target lighting parameter is less than the first target lighting parameter, and the first target lighting parameter comprises: the first target luminous intensity and/or the optical three primary color value of the first target luminous color, and the second target luminous parameter comprises: the second target luminous intensity and/or the optical tristimulus values of the second target luminous color.
Optionally, determining a target light-emitting parameter of the target lamp according to the target distance between the target lamp and the reference point and the light information, includes: when the target distance is smaller than a third threshold value, determining that the light-emitting parameter of the target lamp is a third target light-emitting parameter; when the target distance is greater than or equal to the third threshold value, determining that the light-emitting parameter of the target lamp is a fourth target light-emitting parameter; wherein the third target lighting parameter is less than the fourth target lighting parameter, the third target lighting parameter comprising: a third target luminous intensity and/or a third target luminous color, the fourth target luminous parameter comprising: the fourth target luminous intensity and/or the optical tristimulus values of the fourth target luminous color.
Optionally, determining a reference point of the target area according to an incident area of the outdoor light in the target area includes: determining a center point of an incident area of the outdoor light in the target area as the reference point, if the number of the incident areas is one; determining a midpoint of a connecting line of a first central point and a second central point as the reference point under the condition that the number of incident areas of the outdoor light ray in the target area is two, wherein the first central point is a central point of a first incident area, the second central point is a central point of a second incident area, and the incident areas comprise the first incident area and the second incident area; and under the condition that the number of incident areas of the outdoor light in the target area is N, taking the center of a circumscribed circle formed by the center point of each incident area in the N incident areas as the reference point, wherein N is more than 2.
Optionally, before obtaining the light information of the outdoor light within the set range of the geographic location where the target object is located, the method includes: acquiring the illumination intensity in the target area; the acquiring of the light ray information of the outdoor light ray within the set range of the geographical position of the target object comprises: and under the condition that the illumination intensity in the target area is determined to be smaller than the preset illumination intensity, acquiring the light ray information of outdoor light rays in the set range of the geographic position where the target object is located.
According to another embodiment of the present invention, there is provided an adjusting device for a lamp in a smart home operating system, including: the device comprises a first acquisition module, a second acquisition module and a control module, wherein the first acquisition module is used for acquiring light ray information of outdoor light rays in a set range of the geographical position of a target object when the target object is monitored to execute a preset operation in a target area; and the adjusting module is used for adjusting the light-emitting parameters of the target lamp in the target area according to the light information.
According to a further embodiment of the present invention, a computer-readable storage medium is also provided, in which a computer program is stored, wherein the computer program is configured to carry out the steps of any of the above-described method embodiments when executed.
According to yet another embodiment of the present invention, there is also provided an electronic device, including a memory in which a computer program is stored and a processor configured to execute the computer program to perform the steps in any of the above method embodiments.
According to the invention, when the preset operation of the target object in the target area is monitored, the light ray information of the outdoor light ray in the set range of the geographical position of the target object is obtained; and adjusting the light-emitting parameters of the target lamp in the target area according to the light information. Therefore, the technical problem that the psychological health of people is influenced by the fact that sunlight cannot be obtained in a building due to the influence of the geographical position can be solved, and the effect of simulating the color and the illumination gradual change when the sunlight naturally shines indoors is achieved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:
fig. 1 is a block diagram of a hardware structure of a mobile terminal of a method for adjusting a lamp in an intelligent home operating system according to an embodiment of the present invention;
FIG. 2 is a flow chart of regulation of a light fixture in a smart home operating system according to an embodiment of the invention;
FIG. 3 is a schematic view of lamps placed in a target area according to an alternative embodiment of the present invention;
FIG. 4 is a schematic illustration of the location of a reference point with two windows in the target area according to an alternative embodiment of the invention;
FIG. 5 is a flowchart of a smart home operating system based light management method according to an alternative embodiment of the present invention;
fig. 6 is a block diagram of a lamp device in an intelligent home operating system according to an embodiment of the present invention.
Detailed Description
The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.
It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.
Example 1
The method provided by the first embodiment of the present application may be executed in a mobile terminal, a computer terminal, or a similar computing device. Taking an example of the method running on a mobile terminal, fig. 1 is a hardware structure block diagram of the mobile terminal of the method for adjusting a lamp in an intelligent home operating system according to the embodiment of the present invention. As shown in fig. 1, the mobile terminal 10 may include one or more (only one shown in fig. 1) processors 102 (the processor 102 may include, but is not limited to, a processing device such as a microprocessor MCU or a programmable logic device FPGA) and a memory 104 for storing data, and optionally may also include a transmission device 106 for communication functions and an input-output device 108. It will be understood by those skilled in the art that the structure shown in fig. 1 is only an illustration, and does not limit the structure of the mobile terminal. For example, the mobile terminal 10 may also include more or fewer components than shown in FIG. 1, or have a different configuration than shown in FIG. 1.
The memory 104 may be configured to store a computer program, for example, a software program and a module of application software, such as a computer program corresponding to the adjusting method of the light fixture in the smart home operating system in the embodiment of the present invention, and the processor 102 executes various functional applications and data processing by running the computer program stored in the memory 104, so as to implement the method described above. The memory 104 may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some instances, the memory 104 may further include memory located remotely from the processor 102, which may be connected to the mobile terminal 10 via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
The transmission device 106 is used for receiving or transmitting data via a network. Specific examples of the network described above may include a wireless network provided by a communication provider of the mobile terminal 10. In one example, the transmission device 106 includes a Network adapter (NIC), which can be connected to other Network devices through a base station so as to communicate with the internet. In one example, the transmission device 106 may be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner.
In this embodiment, a method for adjusting a lamp in an intelligent home operating system running on the mobile terminal is provided, fig. 2 is a flowchart for adjusting a lamp in an intelligent home operating system according to an embodiment of the present invention, and as shown in fig. 2, the flowchart includes the following steps:
step S202, when it is monitored that a target object executes a preset operation in a target area, acquiring light ray information of outdoor light rays in a set range of a geographical position where the target object is located;
the target area is an area which cannot receive sunlight irradiation, and may be a room, a bedroom, an office area, or the like, and the target object is an object moving in the target area, may be a resident in the room, or may be an animal. The executed predetermined operation can be entering a target area or getting up, and the server can acquire the current activity area of the user through the camera device of the smart home or the wearable smart device of the user. The illumination intensity and the illumination color of outdoor light can be acquired through the sensor, for example, outdoor real-time illumination can be acquired through the light sensor in real time, and outdoor color can be acquired through the color sensor in real time. Alternatively, the illumination sensor and the color sensor may be disposed outdoors near the user's window.
And step S204, adjusting the light-emitting parameters of the target lamp in the target area according to the light information.
Fig. 3 is a schematic diagram of lamps placed in a target area according to an optional embodiment of the present invention, where the target area is a bedroom 1, and 6 lamps are disposed in the bedroom 1 and are respectively denoted by reference numerals 1, 2, 3, 4, 5, and 6. In order to better simulate the effect of gradual illumination change, the positions of the lamps need to be set in a hierarchy, fig. 3 only illustrates the present application as a placement mode, and a specific actual placement mode needs to be set according to the shape and size of the target area and the effect to be simulated.
Through the steps, when it is monitored that the target object executes the preset operation in the target area, the light ray information of the outdoor light ray in the set range of the geographical position of the target object is obtained; and adjusting the light-emitting parameters of the target lamp in the target area according to the light information. Therefore, the technical problem that the psychological health of people is influenced by the fact that sunlight cannot be obtained in a building due to the influence of the geographical position can be solved, and the effect of simulating the color and the illumination gradual change when the sunlight naturally shines indoors is achieved.
Alternatively, the execution subject of the above steps may be a terminal or the like, but is not limited thereto.
In an alternative embodiment, the light information comprises: the light intensity and/or light color of outdoor light, wherein the light emitting parameters of the target lamp in the target area are adjusted according to the light information, comprising: adjusting the luminous intensity of a target lamp in the target area according to the light intensity of the outdoor light; and/or adjusting the light emitting color of the target lamp in the target area according to the light color of the outdoor light; wherein the lighting parameters include: the luminous intensity, the luminous color. In this embodiment, only the indoor illumination intensity may be adjusted, only the indoor illumination color may be adjusted, and both the indoor illumination intensity and the indoor illumination color may be adjusted.
In an optional embodiment, adjusting the lighting parameters of the target luminaire in the target area according to the light information further comprises: determining a reference point of the target area according to an incident area of the outdoor light in the target area; determining a target light-emitting parameter of the target lamp according to the target distance between the target lamp and the reference point and the light ray information, wherein the target light-emitting parameter comprises: a target luminous intensity and/or a target luminous color; and adjusting the light-emitting parameters of the target lamp according to the target light-emitting parameters. In this embodiment, in order to create the effect of sunlight irradiation in the target area, a reference point needs to be determined, and the brightness and color of each lamp are determined according to the distance from the reference point of each lamp in the target area. The server can determine the distance between each lamp in the target area and the reference point according to the pre-stored position data of the lamps in the target area, and determine the light-emitting parameters of each lamp according to the distance.
In an alternative embodiment, determining the target lighting parameter of the target luminaire according to the target distance between the target luminaire and the reference point and the light information includes: when the target distance is smaller than a first threshold value, determining the light-emitting parameter of the target lamp as a first target light-emitting parameter; when the target distance is greater than or equal to the first threshold value, determining that the light-emitting parameter of the target lamp is a second target light-emitting parameter; wherein the second target lighting parameter is less than the first target lighting parameter, and the first target lighting parameter comprises: the first target luminous intensity and/or the optical three primary color value of the first target luminous color, and the second target luminous parameter comprises: the second target luminous intensity and/or the optical tristimulus values of the second target luminous color. In this embodiment, the closer the lamp is to the reference point, the greater the values of the illumination intensity and the illumination color of the lamp are, and thus the effect of the sun shining from the window into the room can be simulated. Specifically, the brightness and the color of the lighting device can be set according to the corresponding relation between the distance and the lighting control strategy prestored in the server, and the effect of gradual change of the color and the illumination presented when sunlight naturally shines can be simulated. The preset condition may be that the step is performed based on a distance interval from the reference point, and the brightness is sequentially reduced from the step 1 to the step 4 according to the overall rule from near to far. Take table 1 as an example, where x is the distance (meters) of the luminaire from the reference point; u is the outdoor real-time illumination (lx).
TABLE 1
Grading | Distance interval | Brightness control |
Gear 1 | 0≤x<2 | U |
Gear 2 | 2≤x≤3 | 0.9U |
Stage 3 | 3<x<5 | 0.8U |
Gear 4 | x≥5 | 0.6U |
In this embodiment, the color control policy may also be a manner of dividing the gear, for example, from gear 1 (outdoor color) to gear 4, the change policy of the pixel values of the three primary colors of each channel is:
(1) r, gear 2 to gear 1(+2), gear 3 to gear 2(+4), gear 4 to gear 3(+ 6);
(2) g, gear 2 to gear 1(+60), gear 3 to gear 2(+30), gear 4 to gear 3(+ 20);
(3) b, gear 2 to gear 1(+60), gear 3 to gear 2(+20), and gear 4 to gear 3(+ 60).
Next, the manner of placing the lamps in the target area shown in fig. 3 illustrates the control of the indoor lamps by the color control strategy, and the color data obtained by the outdoor color sensor is: r240, G129, B17 are examples, and the three primary color values for each of the lamps in fig. 3 are shown in table 2 below.
TABLE 2
Grading | Lamp fitting | Colour(s) |
Gear 1 | ①② | R240,G129,B17 |
Gear 2 | ③ | R242,G189,B77 |
Stage 3 | ④⑤ | R246,G219,B97 |
Gear 4 | ⑥ | R252,G239,B157 |
By combining the brightness control strategy, the light effect similar to that of the outdoor can be presented indoors, and the brightness and the color gradually change by the reference point, so that the natural effect of illuminating light from the incident area is presented.
In an alternative embodiment, determining the target lighting parameter of the target luminaire according to the target distance between the target luminaire and the reference point and the light information includes: when the target distance is smaller than a third threshold value, determining that the light-emitting parameter of the target lamp is a third target light-emitting parameter; when the target distance is greater than or equal to the third threshold value, determining that the light-emitting parameter of the target lamp is a fourth target light-emitting parameter; wherein the third target lighting parameter is less than the fourth target lighting parameter, the third target lighting parameter comprising: a third target luminous intensity and/or a third target luminous color, the fourth target luminous parameter comprising: the fourth target luminous intensity and/or the optical tristimulus values of the fourth target luminous color. In this embodiment, the window in most scenes can be irradiated with sunlight, and for some scenes, it is desirable to save electric energy so that the indoor illumination intensity and illumination color are the same as those of the outdoor. For example, when growing vegetables indoors, it is often desirable that the plants be sufficiently illuminated as outdoors. For the situation, the outdoor sunlight irradiation effect can be simulated indoors through the lamp. In the present embodiment, there is a portion of sunlight incident on the incident region, that is, there is a portion of sunlight near the reference point. Therefore, the values of the lamp illumination intensity and the illumination color become smaller as the distance from the reference point becomes closer, and the values of the lamp illumination intensity and the illumination color become larger as the distance from the reference point becomes farther. Therefore, the indoor illumination intensity and the illumination color can be kept consistent with the outdoor solar illumination intensity and color.
In an alternative embodiment, determining the reference point of the target area according to the incident area of the outdoor light in the target area comprises: determining a center point of an incident area of the outdoor light in the target area as the reference point, if the number of the incident areas is one; determining a midpoint of a connecting line of a first central point and a second central point as the reference point under the condition that the number of incident areas of the outdoor light ray in the target area is two, wherein the first central point is a central point of a first incident area, the second central point is a central point of a second incident area, and the incident areas comprise the first incident area and the second incident area; and under the condition that the number of incident areas of the outdoor light in the target area is N, taking the center of a circumscribed circle formed by the center point of each incident area in the N incident areas as the reference point, wherein N is more than 2. In this embodiment, the reference point is determined based on the position and number of windows in the incident area, and the incident area may be a window or a door. For example, if the user is currently located in a bedroom with only one window, the reference point is located at the center of the window. For another example, if the user is currently located in a bedroom having two windows, the reference point is located at the midpoint of the connecting line of the center points of the two windows. For another example, when the current bedroom has a three-sided window, the reference point is located at the center of a circumscribed circle formed by the center points of the three-sided window. As for the determination method of the reference point, there is a case where the window shade of the window in the bedroom is not necessarily in the fully opened state, and when there are two windows in the bedroom, the user may open only one window shade, and therefore, the reference point is not a fixed point, and the reference point is related to the actual incident area, and needs to be determined according to the actual situation. Fig. 4 is a schematic diagram illustrating the position of a reference point in a case where two windows are located in a target area according to an alternative embodiment of the present invention, where the server determines that a current activity area of a user is a bedroom 1, and the two windows included in the bedroom 1 are a window a and a window B, respectively, and then, according to current state data of an intelligent curtain in the bedroom 1, the server may determine incident areas of the window a and the window B, where, for example, a blank area where a point a is located and a grid area adjacent to the blank area are the window a and the grid area is a state of the curtain in fig. 4, and the server may determine that the incident area in the window a is the blank area where the point a is located according to the state of the. Window B is similar to window a. The method comprises the steps of determining central points a and B of incident areas of a window A and a window B through position data of the window A and the window B in a home house type graph prestored by a server, then determining a midpoint c of a connecting line of the two points a and B, namely the midpoint c is a reference point of a current activity area of a user, and the coordinate of the point c is the position of the reference point.
In an optional embodiment, before obtaining the light information of the outdoor light within the set range of the geographical position where the target object is located, the method includes: acquiring the illumination intensity in the target area; the acquiring of the light ray information of the outdoor light ray within the set range of the geographical position of the target object comprises: and under the condition that the illumination intensity in the target area is determined to be smaller than the preset illumination intensity, acquiring the light ray information of outdoor light rays in the set range of the geographic position where the target object is located. In this embodiment, if the natural illumination effect in the room can be achieved without additional illumination, the effect is not obvious even if the illumination device is turned on. Therefore, a threshold value is preset, outdoor light information is acquired under the condition that the indoor illumination intensity is detected to be smaller than the threshold value, and the indoor lamp is adjusted based on the outdoor light information.
The application is illustrated below by means of a specific example.
The present application mainly provides a light management method based on a smart home operating system, as shown in fig. 5, which is a flowchart of a light management method based on a smart home operating system according to an alternative embodiment of the present invention, wherein the method mainly includes the following steps:
s1, collecting outdoor real-time illumination and color through an illumination sensor and a color sensor when the server monitors the target activity of the user in a preset time period;
specifically, the preset time period can be morning and evening, and the specific time point can be set by a user, for example, 5:00 to 7:00 in morning and 19:00 to 20:00 in evening; the time period can be set dynamically based on the sunrise time and the sunset time, for example, the sunrise time is 5:30, correspondingly, the time period can be 5:20 to 6:20, the sunset time is 19:30, correspondingly, the time period can be 19:10 to 20: 10. The sunrise and sunset times of each day may be obtained from the weather app. The target activity of the user can monitor that the user gets up for the server in the morning time period, and can monitor that the user gets home for the server in the evening time period.
In one example, the user sets a morning time period to be 5: 00-7: 00, and in the time period, when the server monitors that the user gets up (for example, the user gets up at 6: 00), the outdoor real-time illumination data and the color data are acquired, as shown in table 3:
TABLE 3
Illumination data | 280lx |
Color data | R240,G129,B17 |
S2, the server acquires indoor illumination intensity data, and when the indoor illumination intensity data is lower than a preset value, S3 is executed; otherwise, ending the execution;
specifically, the server collects indoor real-time illumination intensity through an illumination sensor arranged indoors, and when the indoor illumination intensity data is lower than a preset value (for example, the preset value may be 200lx), the next step S3 is continuously executed; if the value is higher than 200lx, the execution is ended.
From the illumination data, the outdoor illumination intensity of direct radiation at noon in summer is generally 6-10 ten thousand lx, the outdoor illumination intensity of direct radiation at cloudy days is generally 1-1 ten thousand lx, the indoor illumination intensity of direct radiation at sunshine in summer is generally about 550lx, and the illumination intensity of an office area is generally 300-400 lx. That is, when the indoor illumination is over 200lx, the effect of natural illumination in the room can reach the extent that no additional illumination is needed, i.e. over 200lx, and the effect is not obvious even if the illumination device is turned on. On the other hand, in the case of natural light, the outdoor illumination is much higher than the indoor illumination, and if the indoor natural illumination intensity is higher than 200lx, the outdoor illumination intensity is much higher than the value, and the natural light has the effect of natural white light, and basically no color change exists, and the indoor color does not need to be adjusted, so the execution can be finished.
S3, the server acquires the distance data of the lighting equipment in the current activity area of the user from the reference point;
and S4, setting the brightness and the color of the lighting equipment according to the corresponding relation between the distance prestored by the server and the lighting control strategy.
Therefore, the effect of color and illumination gradual change when the sunlight naturally shines can be simulated. The intelligent household lighting system and the method avoid the technical problem that the existing intelligent household lighting system cannot meet the personalized requirements of users due to the fact that user experience is not fully considered. The server acquires distance data of the lighting equipment in the current activity area of the user from the reference point; and setting the brightness and the color of the lighting equipment according to the corresponding relation between the distance and the lighting control strategy. The light effect similar to that of the outdoor can be presented indoors, and the natural effect of illuminating light from the incident area can be presented by the gradual brightness and color gradation change of the datum points. Through the scheme of the proposal, the user can still enjoy natural and real-time daylighting effect under the condition of limitation of the house type, and the physical and psychological health of the user is facilitated.
Through the above description of the embodiments, those skilled in the art can clearly understand that the method according to the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but the former is a better implementation mode in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a computer-readable storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (such as a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.
Example 2
The embodiment also provides a lamp device in the smart home operating system, where the device is used to implement the foregoing embodiments and preferred embodiments, and the description of the device that has been already made is omitted. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. Although the means described in the embodiments below are preferably implemented in software, an implementation in hardware, or a combination of software and hardware is also possible and contemplated.
Fig. 6 is a block diagram of a structure of a lamp device in an intelligent home operating system according to an embodiment of the present invention, and as shown in fig. 6, the device includes: the first acquisition module 62 is configured to acquire light information of outdoor light within a set range of a geographical position where a target object is located when it is monitored that the target object performs a predetermined operation in a target area; and the adjusting module 64 is configured to adjust the light emitting parameters of the target lamp in the target area according to the light information.
In an alternative embodiment, the light information comprises: the light intensity and/or light color of the outdoor light, and the adjusting module 64 is further configured to adjust the light emitting intensity of the target luminaire in the target area according to the light intensity of the outdoor light; adjusting the light emitting color of a target lamp in the target area according to the light color of the outdoor light; wherein the lighting parameters include: the luminous intensity, the luminous color.
In an alternative embodiment, the adjusting module 64 is further configured to determine a reference point of the target area according to an incident area of the outdoor light in the target area; determining a target light-emitting parameter of the target lamp according to the target distance between the target lamp and the reference point and the light ray information, wherein the target light-emitting parameter comprises: a target luminous intensity and/or a target luminous color; and adjusting the light-emitting parameters of the target lamp according to the target light-emitting parameters.
In an optional embodiment, the adjusting module 64 is further configured to determine the lighting parameter of the target luminaire to be a first target lighting parameter when the target distance is smaller than a first threshold; when the target distance is greater than or equal to the first threshold value, determining that the light-emitting parameter of the target lamp is a second target light-emitting parameter; wherein the second target lighting parameter is less than the first target lighting parameter, and the first target lighting parameter comprises: the first target luminous intensity and/or the optical three primary color value of the first target luminous color, and the second target luminous parameter comprises: the second target luminous intensity and/or the optical tristimulus values of the second target luminous color.
In an optional embodiment, the adjusting module 64 is further configured to determine the lighting parameter of the target luminaire to be a third target lighting parameter when the target distance is smaller than a third threshold; when the target distance is greater than or equal to the third threshold value, determining that the light-emitting parameter of the target lamp is a fourth target light-emitting parameter; wherein the third target lighting parameter is less than the fourth target lighting parameter, the third target lighting parameter comprising: a third target luminous intensity and/or a third target luminous color, the fourth target luminous parameter comprising: the fourth target luminous intensity and/or the optical tristimulus values of the fourth target luminous color.
In an alternative embodiment, the adjusting module 64 is further configured to, in a case that the number of incident areas of the outdoor light in the target area is one, determine a center point of the incident area as the reference point; determining a midpoint of a connecting line of a first central point and a second central point as the reference point under the condition that the number of incident areas of the outdoor light ray in the target area is two, wherein the first central point is a central point of a first incident area, the second central point is a central point of a second incident area, and the incident areas comprise the first incident area and the second incident area; and under the condition that the number of incident areas of the outdoor light in the target area is N, taking the center of a circumscribed circle formed by the center point of each incident area in the N incident areas as the reference point, wherein N is more than 2.
In an alternative embodiment, the apparatus comprises: the second acquisition module is used for acquiring the illumination intensity in the target area before acquiring the light ray information of the outdoor light ray in the set range of the geographic position of the target object; the first obtaining module is further configured to obtain light information of outdoor light within a set range of a geographic position where the target object is located, when it is determined that the illumination intensity in the target area is smaller than a preset illumination intensity.
It should be noted that, the above modules may be implemented by software or hardware, and for the latter, the following may be implemented, but not limited to: the modules are all positioned in the same processor; alternatively, the modules are respectively located in different processors in any combination.
Example 3
Embodiments of the present invention also provide a computer-readable storage medium, in which a computer program is stored, wherein the computer program is configured to perform the steps of any of the above-mentioned method embodiments when executed.
Alternatively, in the present embodiment, the above-mentioned computer-readable storage medium may be configured to store a computer program for executing the steps of:
s1, when it is monitored that a target object executes a preset operation in a target area, acquiring light ray information of outdoor light rays in a set range of the geographical position of the target object;
and S2, adjusting the light emitting parameters of the target lamp in the target area according to the light ray information.
Optionally, in this embodiment, the computer-readable storage medium may include, but is not limited to: various media capable of storing computer programs, such as a usb disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk.
Embodiments of the present invention also provide an electronic device comprising a memory having a computer program stored therein and a processor arranged to run the computer program to perform the steps of any of the above method embodiments.
Optionally, the electronic apparatus may further include a transmission device and an input/output device, wherein the transmission device is connected to the processor, and the input/output device is connected to the processor.
Optionally, in this embodiment, the processor may be configured to execute the following steps by a computer program:
s1, when it is monitored that a target object executes a preset operation in a target area, acquiring light ray information of outdoor light rays in a set range of the geographical position of the target object;
and S2, adjusting the light emitting parameters of the target lamp in the target area according to the light ray information.
Optionally, the specific examples in this embodiment may refer to the examples described in the above embodiments and optional implementation manners, and this embodiment is not described herein again.
It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A method for adjusting a lamp in an intelligent home operation system is characterized by comprising the following steps:
when it is monitored that a target object executes a preset operation in a target area, acquiring light ray information of outdoor light rays in a set range of a geographical position where the target object is located;
and adjusting the light-emitting parameters of the target lamp in the target area according to the light information.
2. The method of claim 1, wherein the light information comprises: the light intensity and/or light color of outdoor light, wherein the light emitting parameters of the target lamp in the target area are adjusted according to the light information, comprising:
adjusting the luminous intensity of a target lamp in the target area according to the light intensity of the outdoor light; and/or
Adjusting the light emitting color of a target lamp in the target area according to the light color of the outdoor light;
wherein the lighting parameters include: the luminous intensity and the luminous color.
3. The method of claim 1, wherein adjusting lighting parameters of target luminaires within the target area according to the light information, further comprises:
determining a reference point of the target area according to an incident area of the outdoor light in the target area;
determining a target light-emitting parameter of the target lamp according to the target distance between the target lamp and the reference point and the light ray information, wherein the target light-emitting parameter comprises: a target luminous intensity and/or a target luminous color;
and adjusting the light-emitting parameters of the target lamp according to the target light-emitting parameters.
4. The method of claim 3, wherein determining the target lighting parameter of the target luminaire according to the target distance between the target luminaire and the reference point and the light information comprises:
when the target distance is smaller than a first threshold value, determining the light-emitting parameter of the target lamp as a first target light-emitting parameter;
when the target distance is greater than or equal to the first threshold value, determining that the light-emitting parameter of the target lamp is a second target light-emitting parameter;
wherein the second target lighting parameter is less than the first target lighting parameter, and the first target lighting parameter comprises: the first target luminous intensity and/or the optical three primary color value of the first target luminous color, and the second target luminous parameter comprises: the second target luminous intensity and/or the optical tristimulus values of the second target luminous color.
5. The method of claim 3, wherein determining the target lighting parameter of the target luminaire according to the target distance between the target luminaire and the reference point and the light information comprises:
when the target distance is smaller than a third threshold value, determining that the light-emitting parameter of the target lamp is a third target light-emitting parameter;
when the target distance is greater than or equal to the third threshold value, determining that the light-emitting parameter of the target lamp is a fourth target light-emitting parameter;
wherein the third target lighting parameter is less than the fourth target lighting parameter, the third target lighting parameter comprising: a third target luminous intensity and/or a third target luminous color, the fourth target luminous parameter comprising: the fourth target luminous intensity and/or the optical tristimulus values of the fourth target luminous color.
6. The method of claim 3, wherein determining the reference point for the target area based on the incident area of the outdoor light within the target area comprises:
determining a center point of an incident area of the outdoor light in the target area as the reference point, if the number of the incident areas is one;
determining a midpoint of a connecting line of a first central point and a second central point as the reference point under the condition that the number of incident areas of the outdoor light ray in the target area is two, wherein the first central point is a central point of a first incident area, the second central point is a central point of a second incident area, and the incident areas comprise the first incident area and the second incident area;
and under the condition that the number of incident areas of the outdoor light in the target area is N, taking the center of a circumscribed circle formed by the center point of each incident area in the N incident areas as the reference point, wherein N is more than 2.
7. The method of claim 1,
before obtaining the light ray information of the outdoor light ray in the set range of the geographical position where the target object is located, the method comprises the following steps: acquiring the illumination intensity in the target area;
the acquiring of the light ray information of the outdoor light ray within the set range of the geographical position of the target object comprises: and under the condition that the illumination intensity in the target area is determined to be smaller than the preset illumination intensity, acquiring the light ray information of outdoor light rays in the set range of the geographic position where the target object is located.
8. The utility model provides an adjusting device of lamps and lanterns among intelligent house operating system which characterized in that includes:
the device comprises a first acquisition module, a second acquisition module and a control module, wherein the first acquisition module is used for acquiring light ray information of outdoor light rays in a set range of the geographical position of a target object when the target object is monitored to execute a preset operation in a target area;
and the adjusting module is used for adjusting the light-emitting parameters of the target lamp in the target area according to the light information.
9. A computer-readable storage medium, in which a computer program is stored, wherein the computer program is configured to carry out the method of any one of claims 1 to 7 when executed.
10. An electronic device comprising a memory and a processor, wherein the memory has stored therein a computer program, and wherein the processor is arranged to execute the computer program to perform the method of any of claims 1 to 7.
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