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CN112188694A - Lamplight color temperature correction method, system and device and storage medium - Google Patents

Lamplight color temperature correction method, system and device and storage medium Download PDF

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Publication number
CN112188694A
CN112188694A CN202011050415.1A CN202011050415A CN112188694A CN 112188694 A CN112188694 A CN 112188694A CN 202011050415 A CN202011050415 A CN 202011050415A CN 112188694 A CN112188694 A CN 112188694A
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China
Prior art keywords
color temperature
temperature value
preset
lamp
recommended
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CN202011050415.1A
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Chinese (zh)
Inventor
叶方卓
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Shanghai Jiale Electronic Co ltd
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Shanghai Jiale Electronic Co ltd
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Priority to CN202011050415.1A priority Critical patent/CN112188694A/en
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/105Controlling the light source in response to determined parameters
    • H05B47/11Controlling the light source in response to determined parameters by determining the brightness or colour temperature of ambient light
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

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  • Circuit Arrangement For Electric Light Sources In General (AREA)

Abstract

The application relates to a lamplight color temperature correction method, a system, a device and a storage medium. The method comprises the steps of obtaining an actual color temperature value of a lamp source in real time, and comparing the actual color temperature value with a preset color temperature value; acquiring a compared color temperature difference value, and adjusting the color temperature of the light source according to the color temperature difference value; when the actual color temperature value is larger than the preset color temperature value, the PWM output power of the warm light lamp is gradually increased, and the actual color temperature value is reduced; when the actual color temperature value is smaller than the preset color temperature value, the PWM output power of the cold light lamp is gradually increased, and the actual color temperature value is increased; and stopping adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value. The color temperature of the lamp source can be adjusted, so that the lamp can output correct color temperature light.

Description

Lamplight color temperature correction method, system and device and storage medium
Technical Field
The present application relates to the field of lighting, and in particular, to a method, a system, an apparatus, and a storage medium for correcting color temperature of lighting.
Background
Color temperature is a metering unit for expressing color components contained in light, and now with the increase of purchasing ability and the specialization of application scenes, people are gradually exposed to more color temperatures, and the addition of more color temperatures enables people to have more reasonable lighting environments.
Generally, a lamp light source consists of a plurality of lamp beads, and due to aging or inconsistency of the lamp beads in different batches, the color temperature of the lamp has a large difference, so that color deviation is brought to lamp use occasions such as illumination and photography.
Disclosure of Invention
In order to enable the lamp to output correct color temperature light, the application provides a lamp color temperature correction method, a system, a device and a storage medium.
In a first aspect, the application provides a lamplight color temperature correction method, which adopts the following technical scheme:
a lamplight color temperature correction method is characterized in that a lamp source consists of a plurality of warm lamp beads and cold lamp beads, and the method comprises the following steps:
acquiring an actual color temperature value of the lamp source in real time, and comparing the actual color temperature value with a preset color temperature value;
acquiring a compared color temperature difference value, and adjusting the color temperature of the light source according to the color temperature difference value;
when the actual color temperature value is larger than the preset color temperature value, the PWM output power of the warm light lamp is gradually increased, and the actual color temperature value is reduced;
when the actual color temperature value is smaller than the preset color temperature value, the PWM output power of the cold light lamp is gradually increased, and the actual color temperature value is increased;
and stopping adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value.
Through adopting above-mentioned technical scheme, because certain or some lamp pearl is ageing when the lamp source, when the colour temperature that leads to sending light is not conform to the requirements, acquire the colour temperature value that the lamp source sent light through the colour temperature illuminometer, the colour temperature value that will acquire is inputed to the system in the middle of, compare with preset colour temperature value, adjust the PWM output power of warm light lamp pearl or cold light lamp pearl through the difference, thereby make actual colour temperature value constantly change, until when unanimous with preset colour temperature value, stop the regulation to warm light lamp pearl or cold light lamp pearl, thereby realize that the colour temperature value of actual light source is unanimous with the colour temperature value that the user anticipates, thereby make lamps and lanterns output exact colour temperature light.
The present invention in a preferred example may be further configured to: acquiring an image of an object to be irradiated, and identifying the image type;
recommending light adaptation color temperature according to the image category;
and adjusting the PWM output power of the lamp bead according to the adaptive color temperature.
Through adopting above-mentioned technical scheme, acquire the image of treating the thing that shines, recommend corresponding light adaptation colour temperature according to the category of treating the thing that shines, need not the user and constantly adjusting preset colour temperature to reach satisfied effect, can provide the most suitable colour temperature value of the thing that shines for the user fast simultaneously, so that the user adjusts from top to bottom according to this colour temperature value, make the operation more convenient and fast.
The present invention in a preferred example may be further configured to: the identifying the image category includes:
preparing a preset number of sample images, and classifying the sample images;
training a recognition model by using the sample image;
and inputting the image of the object to be irradiated into the recognition model, and outputting a result according to classification.
By adopting the technical scheme, the identification model is continuously trained by preparing a preset number of sample images, so that the identification result of the identification model is continuously accurate, the type of the object to be irradiated is identified, and the category of the object to be irradiated is output according to the identification result, so that the relevant color temperature value is recommended according to the category.
The present invention in a preferred example may be further configured to: after recommending the light to adapt to the color temperature according to the image category, the method further comprises the following steps:
starting a display screen, and displaying a related recommended color temperature option according to the recommended light adaptive color temperature;
selecting the recommended color temperature option by default according to the recommended light adaptation color temperature;
and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
By adopting the technical scheme, after the display screen is started, the recommended color temperature option is presented on the display screen, so that an operator can conveniently select according to the option, the user experience is improved, after the recommended color temperature is made according to the category of the object to be irradiated, the color temperature option is made to be the default option, if the user confirms to use the color temperature option, the operation on the display screen is not needed, only the preset time is needed, the color temperature option is automatically implemented, the product intelligence is improved, and the user experience is improved.
The present invention in a preferred example may be further configured to: recording preset color temperature value data every time to a database;
sequencing at least according to the output times of the preset color temperature value each time;
and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
By adopting the technical scheme, the device has the function of recording the preset color temperature value, and meanwhile, the device is recommended according to the preset color temperature which is most frequently used by the user, so that the user can find the frequently-used color temperature light more quickly and accurately, the user experience is improved, the device is recommended by arranging the used times in the order from the largest to the smallest, and the user experience is further improved.
In a second aspect, the application provides a light color temperature correction system, which adopts the following technical scheme:
a lamp light color temperature correction system, comprising:
the comparison device is used for acquiring the actual color temperature value of the lamp source in real time and comparing the actual color temperature value with a preset color temperature value;
the adjusting device is used for acquiring the compared color temperature difference value and adjusting the color temperature of the lamp source according to the color temperature difference value;
the reducing device is used for gradually increasing the PWM output power of the warm light lamp and reducing the actual color temperature value when the actual color temperature value is larger than the preset color temperature value;
the increasing device is used for gradually increasing the PWM output power of the cold light lamp and increasing the actual color temperature value when the actual color temperature value is smaller than the preset color temperature value;
the calibration device stops adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value;
the acquisition device is used for acquiring an image of an object to be irradiated and identifying the type of the image; recommending light adaptation color temperature according to the image category; adjusting the PWM output power of the lamp bead according to the adaptive color temperature;
the recommending device starts the display screen and displays the related recommended color temperature option according to the recommended lamplight adaptive color temperature; selecting the recommended color temperature option by default according to the recommended light adaptation color temperature; and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
By adopting the technical scheme, when the color temperature of the emitted light is not in accordance with the requirement due to aging of one or some lamp beads of the lamp source, the color temperature value of the emitted light of the lamp source is obtained through the color temperature illuminometer, the obtained color temperature value is input into the system and is compared with the preset color temperature value, and the PWM output power of the warm light lamp bead or the cold light lamp bead is adjusted through the difference value, so that the actual color temperature value is continuously changed, and when the actual color temperature value is consistent with the preset color temperature value, the adjustment of the warm light lamp bead or the cold light lamp bead is stopped, so that the color temperature value of the actual light source is consistent with the color temperature value expected by a user, and the lamp outputs correct color temperature light;
the preset color temperature value can be set for a user, and the recommended color temperature of the category of the object to be irradiated can be generated according to the identification of the object to be irradiated, the recommended color temperature is used as a default option, and the user can select the recommended color temperature option according to the requirement, so that the user can adjust the recommended color temperature up and down, and the user experience is better.
The present invention in a preferred example may be further configured to: the system further comprises:
the sequencing device records the preset color temperature value data every time to the database; sequencing at least according to the output times of the preset color temperature value each time; and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
By adopting the technical scheme, the device has the function of recording the preset color temperature value, and meanwhile, the device is recommended according to the preset color temperature which is most frequently used by the user, so that the user can find the frequently-used color temperature light more quickly and accurately, the user experience is improved, the device is recommended by arranging the used times in the order from the largest to the smallest, and the user experience is further improved.
In a third aspect, the application provides a lamplight color temperature correction device, which adopts the following technical scheme:
a lamp light color temperature correction apparatus, comprising:
the comparison device is used for acquiring the actual color temperature value of the lamp source in real time and comparing the actual color temperature value with a preset color temperature value;
the adjusting device is used for acquiring the compared color temperature difference value and adjusting the color temperature of the lamp source according to the color temperature difference value;
the reducing device is used for gradually increasing the PWM output power of the warm light lamp and reducing the actual color temperature value when the actual color temperature value is larger than the preset color temperature value;
the increasing device is used for gradually increasing the PWM output power of the cold light lamp and increasing the actual color temperature value when the actual color temperature value is smaller than the preset color temperature value;
the calibration device stops adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value;
the acquisition device is used for acquiring an image of an object to be irradiated and identifying the type of the image; recommending light adaptation color temperature according to the image category; adjusting the PWM output power of the lamp bead according to the adaptive color temperature;
the recommending device starts the display screen and displays the related recommended color temperature option according to the recommended lamplight adaptive color temperature; selecting the recommended color temperature option by default according to the recommended light adaptation color temperature; and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
By adopting the technical scheme, when the color temperature of the emitted light is not in accordance with the requirement due to aging of one or some lamp beads of the lamp source, the color temperature value of the emitted light of the lamp source is obtained through the color temperature illuminometer, the obtained color temperature value is input into the system and is compared with the preset color temperature value, and the PWM output power of the warm light lamp bead or the cold light lamp bead is adjusted through the difference value, so that the actual color temperature value is continuously changed, and when the actual color temperature value is consistent with the preset color temperature value, the adjustment of the warm light lamp bead or the cold light lamp bead is stopped, so that the color temperature value of the actual light source is consistent with the color temperature value expected by a user, and the lamp outputs correct color temperature light;
the preset color temperature value can be set for a user, and the recommended color temperature of the category of the object to be irradiated can be generated according to the identification of the object to be irradiated, the recommended color temperature is used as a default option, and the user can select the recommended color temperature option according to the requirement, so that the user can adjust the recommended color temperature up and down, and the user experience is better.
The present invention in a preferred example may be further configured to: the device further comprises:
the sorting module records the preset color temperature value data to the database every time; sequencing at least according to the output times of the preset color temperature value each time; and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
By adopting the technical scheme, the device has the function of recording the preset color temperature value, and meanwhile, the device is recommended according to the preset color temperature which is most frequently used by the user, so that the user can find the frequently-used color temperature light more quickly and accurately, the user experience is improved, the device is recommended by arranging the used times in the order from the largest to the smallest, and the user experience is further improved.
In a fourth aspect, the present application provides a computer-readable storage medium storing a computer program that can be loaded by a processor and execute any one of the above methods for monitoring news content security.
In summary, the present application includes at least one of the following beneficial technical effects:
1. according to the scheme, the actual color temperature value is obtained and compared with the preset color temperature value, the corresponding lamp bead is adjusted through the color temperature difference value, and the PWM output power of the lamp bead is adjusted, so that the color temperature of the light source is adjusted, and the adjustment is stopped until the actual color temperature is the same as the preset color temperature, so that correct color temperature light is output;
2. in the scheme, the corresponding recommended color temperature is generated according to the image of the object to be irradiated, the recommended color temperature is a default option, and a user can select the recommended color temperature option according to the requirement so that the user can preset the color temperature condition according to the recommendation, and therefore the user is more convenient;
3. according to the scheme, the preset color temperature value set by the user every time is recorded, and at least relevant recommendation is made according to the use times of the preset color temperature value, so that the user can select the color temperature more quickly, and the user experience is improved.
Drawings
Fig. 1 is a schematic flow chart in the first embodiment of the present application.
Fig. 2 is a schematic diagram of a system in a second embodiment of the present application.
Fig. 3 is a block diagram of the third embodiment of the present application.
Detailed Description
The present application is described in further detail below with reference to figures 1-3.
The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.
The first embodiment is as follows:
referring to fig. 1, a lamp light source is composed of a plurality of warm light lamp beads and cold light lamp beads, and includes:
101. and acquiring an actual color temperature value of the lamp source in real time, and comparing the actual color temperature value with a preset color temperature value.
Specifically, acquire the actual colour temperature value of lamp source through the colour temperature illuminometer, compare actual colour temperature value and preset colour temperature value, preset colour temperature value for the light colour temperature value that the user actually wanted, promptly because some lamp pearls in the lamp source age and lead to the colour temperature to reach the requirement, wherein ageing lamp pearl can be for warm light lamp pearl also can be for cold light lamp pearl, promptly for probably not reaching preset warm light colour temperature or not reaching preset cold light colour temperature, preset colour temperature value by the user according to treating the setting of shining the thing, also can carry out corresponding setting by shining the scene, compare actual colour temperature value and preset colour temperature value.
102. And acquiring the compared color temperature difference value, and adjusting the color temperature of the light source according to the color temperature difference value.
Specifically, the actual color temperature value is compared with a preset color temperature value, so that a difference value is obtained, the difference value is input to the server, and the server adjusts the color temperature of the lamp source according to the difference value. Specifically, according to the difference between the actual color temperature value and the preset color temperature, determining how to adjust, for example, if a user needs to use a cold light lamp with a higher color temperature, and if the actual color temperature is lower than the preset color temperature, the color temperature of the light source needs to be increased; when a user needs to use a warm light with a low color temperature, the actual color temperature is higher than the preset color temperature, and the color temperature of the light source needs to be reduced.
103. And when the actual color temperature value is larger than the preset color temperature value, the PWM output power of the warm light lamp is gradually increased, and the actual color temperature value is reduced.
Specifically, when the actual color temperature value is greater than the preset color temperature value, the PWM output power of the warm light lamp is gradually increased. Wherein, through the duty cycle that changes warm light lamp pearl, it is specific, even through the PWM duty cycle that changes LED, its colour measurement is unchangeable and the corresponding linear type of photometric quantity changes, and the ratio of photometric quantity equals the ratio of duty cycle, and the duty cycle is the ratio of the time that the pulse occupies and total time in a section of continuous operation time. Wherein the photometric quantity may be luminous flux, illuminance, brightness or light intensity, and the colorimetric quantity may be chromaticity coordinates or correlated color temperature. Under the unchangeable condition of colour gamut volume, through changing the photometric quantity, make luminous flux, illuminance, luminance or the light intensity increase of part warm light lamp pearl to make warm light lamp pearl brighter, thereby make the colour temperature reduce, so that the colour temperature value is close to preset colour temperature value step by step.
It should be noted that, when the actual color temperature value is greater than the preset color temperature value, the PWM output power of the cold light lamp bead may also be reduced, so as to reduce the actual color temperature value, and the reduction manner is the same as that described above, and is not described herein again.
104. And when the actual color temperature value is smaller than the preset color temperature value, the PWM output power of the cold light lamp is gradually increased, and the actual color temperature value is increased.
Concrete, when actual colour temperature value is less than predetermineeing the colour temperature value, the PWM output of step-by-step increase cold light lamp, specific increase mode is the same with in step 103, no longer gives unnecessary details here, wherein through the duty cycle of adjusting cold light lamp pearl, even luminous flux, illuminance, luminance or the light intensity increase of part cold light lamp pearl to make cold light lamp pearl brighter, thereby make the colour temperature increase. It is worth saying that the color temperature can be increased by reducing the duty ratio of the warm light bulb.
105. And stopping adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value.
Specifically, because the duty ratio of warm light lamp pearl or cold light lamp pearl through changing, makes actual colour temperature change gradually, acquires the colour temperature value of light source in real time through the colour temperature illuminometer, when actual colour temperature value is unanimous with the colour temperature value of predetermineeing, stops the regulation to cold light lamp pearl or warm light lamp pearl promptly to make actual colour temperature unanimous with predetermineeing the colour temperature.
106. Acquiring an image of an object to be irradiated, and identifying the image type;
recommending light adaptation color temperature according to the image category;
and adjusting the PWM output power of the lamp bead according to the adaptive color temperature.
Specifically, the image of the object to be irradiated is acquired, specifically, the camera may be arranged outside the lamp source, or the object to be irradiated is photographed through other devices similar to the camera, and the image of the object to be irradiated is transmitted to the lamp server, and the transmission mode may be the transfer through a storage medium, or the sharing of data may be realized through wifi or bluetooth, so that the lamp source server receives the image.
Identifying the image category of an object to be irradiated, recommending light to adapt to color temperature according to the image category, for example, if the object to be irradiated is a leather sofa, a hotel hall and the like, recommending warm colored light with lower color temperature to embody warm and comfortable feelings; if the object to be irradiated is an office table, a classroom, a conference room and the like, cold color light with higher color temperature is recommended, and people are concentrated and are difficult to sleep because the cold color light is close to natural light and has bright feeling.
And adjusting the duty ratio of the warm color light bead or the cold color light bead according to the recommended color temperature, thereby realizing the adjustment of the color temperature.
Further, the identifying the image category includes:
preparing a preset number of sample images, and classifying the sample images;
training a recognition model by using the sample image;
and inputting the image of the object to be irradiated into the recognition model, and outputting a result according to classification.
Specifically, the server prepares a preset number of sample images, wherein the sample images are sofas, portraits, offices, hospitals and the like, are classified according to the sample images, the types are the corresponding sofas, portraits, offices, hospitals and the like, 1000 different sample images are prepared for each type of image for training, a recognition model is established, the recognition model is trained by utilizing the sample images, after the training is carried out for multiple times, the recognition result is continuously close to a real result, the image of the object to be irradiated is input into the recognition model, and the recognition result is output and is specifically the image type of the object to be irradiated.
107. After recommending the light to adapt to the color temperature according to the image category, the method further comprises the following steps:
starting a display screen, and displaying a related recommended color temperature option according to the recommended light adaptive color temperature;
selecting the recommended color temperature option by default according to the recommended light adaptation color temperature;
and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
Specifically, a display screen externally connected with the lamp source is started, a recommended color temperature option is displayed on an interface of the display screen, specifically, the recommended color temperature option is made according to the category of the object to be irradiated, and the recommended color temperature option further comprises other color temperature recommended options based on the recommended color temperature, namely, recommended color temperature options higher than the recommended color temperature value or lower than the recommended color temperature value, wherein the recommended color temperature value option is a default option, namely, light of the recommended color temperature is executed by default.
If the server does not receive the instruction of selecting other recommended color temperatures within the preset time, the preset time can be 5 seconds, the instruction mode can be clicking or touching, the light of the recommended color temperature is executed, and if the instruction of selecting other recommended color temperatures is received, the light of the corresponding color temperature is executed. The light irradiation is more intelligent.
108. Recording preset color temperature value data every time to a database;
sequencing at least according to the output times of the preset color temperature value each time;
and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
Specifically, the server records preset color temperature data used by the user each time into the database, and sorts the data according to the number of times of use, so that the preset color temperature data with the most times is the most preferable, and the preset color temperature data is recommended when the user selects to set the preset color temperature. Specifically, when the preset color temperature is set by the user, the historical preset color temperature is displayed in a form of a drop-down frame, and the historical color temperature data with the largest occurrence frequency is arranged at the front row, so that the user can quickly select the historical color temperature.
The implementation principle of the embodiment is as follows:
when the color temperature of the light emitted by the lamp source is not in accordance with the requirement due to the aging of one or some lamp beads, the color temperature value of the light emitted by the lamp source is obtained through a color temperature illuminometer, the obtained color temperature value is input into a system, the obtained color temperature value is compared with a preset color temperature value, the PWM output power of the warm light lamp bead or the cold light lamp bead is adjusted through a difference value, so that the actual color temperature value is continuously changed until the actual color temperature value is consistent with the preset color temperature value, the adjustment of the warm light lamp bead or the cold light lamp bead is stopped, the color temperature value of the actual light source is consistent with the color temperature value expected by a user, and the lamp outputs correct color temperature light;
the preset color temperature value can be set for a user, and the recommended color temperature of the category of the object to be irradiated can be generated according to the identification of the object to be irradiated, so that the preset color temperature value is prevented from being adjusted every time manually, the recommended color temperature is taken as a default option, and the user can select the recommended color temperature option according to the requirement, so that the user can adjust the preset color temperature value up and down according to the recommended color temperature, the user can adjust the preset color temperature value quickly, and the user experience is better.
Example two:
a lamp light color temperature correction system, referring to fig. 2, comprising:
the comparison device 201 obtains the actual color temperature value of the light source in real time, and compares the actual color temperature value with the preset color temperature value.
And the adjusting device 202 is used for obtaining the compared color temperature difference value and adjusting the color temperature of the lamp source according to the color temperature difference value.
And the reducing device 203 is used for gradually increasing the PWM output power of the warm light lamp and reducing the actual color temperature value when the actual color temperature value is greater than the preset color temperature value.
And the increasing device 204 is used for gradually increasing the PWM output power of the cold light lamp and increasing the actual color temperature value when the actual color temperature value is smaller than the preset color temperature value.
And the calibrating device 205 stops adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value.
An acquisition device 206 for acquiring an image of an object to be irradiated and identifying the type of the image; recommending light adaptation color temperature according to the image category; and adjusting the PWM output power of the lamp bead according to the adaptive color temperature.
Further, the identifying the image category includes:
preparing a preset number of sample images, and classifying the sample images;
training a recognition model by using the sample image;
and inputting the image of the object to be irradiated into the recognition model, and outputting a result according to classification.
The recommending device 207 starts a display screen and displays a related recommended color temperature option according to the recommended lamplight adaptive color temperature; selecting the recommended color temperature option by default according to the recommended light adaptation color temperature; and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
The sequencing device 208 records the preset color temperature value data in the database each time; sequencing at least according to the output times of the preset color temperature value each time; and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
Example three:
a lamp light color temperature correction apparatus, referring to fig. 3, comprising:
the comparison unit 301 obtains an actual color temperature value of the light source in real time, and compares the actual color temperature value with a preset color temperature value.
And the adjusting unit 302 is used for acquiring the compared color temperature difference value and adjusting the color temperature of the lamp source according to the color temperature difference value.
And a reducing unit 303, configured to gradually increase the PWM output power of the warm light lamp and reduce the actual color temperature value when the actual color temperature value is greater than the preset color temperature value.
And an increasing unit 304, which gradually increases the PWM output power of the cold light lamp and increases the actual color temperature value when the actual color temperature value is smaller than the preset color temperature value.
And the calibration unit 305 stops adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value.
An acquisition unit 306 which acquires an image of an object to be irradiated and identifies the type of the image; recommending light adaptation color temperature according to the image category; and adjusting the PWM output power of the lamp bead according to the adaptive color temperature.
Further, the identifying the image category includes:
preparing a preset number of sample images, and classifying the sample images;
training a recognition model by using the sample image;
and inputting the image of the object to be irradiated into the recognition model, and outputting a result according to classification.
The recommending unit 307 starts a display screen and displays a related recommended color temperature option according to the recommended lamplight adaptive color temperature; selecting the recommended color temperature option by default according to the recommended light adaptation color temperature; and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
The sorting unit 308 records the preset color temperature value data in the database each time; sequencing at least according to the output times of the preset color temperature value each time; and displaying the preset color temperature values on the display screen interface in a sequence of more than at least. .
It should be noted that: when the device and the system for correcting the color temperature of the lamp light provided by the above embodiments execute the method for correcting the color temperature of the lamp light, only the division of the above functional modules is taken as an example, and in practical application, the above function distribution can be completed by different functional modules according to needs, that is, the device and the internal structure of the device are divided into different functional modules, so as to complete all or part of the above described functions. In addition, the embodiments of the method, the system and the device for correcting the color temperature of the light provided by the embodiments belong to the same concept, and specific implementation processes thereof are described in the embodiments of the method and are not described herein again.
It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.
The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A lamplight color temperature correction method is characterized in that a lamp source consists of a plurality of warm lamp beads and cold lamp beads, and the method comprises the following steps:
acquiring an actual color temperature value of the lamp source in real time, and comparing the actual color temperature value with a preset color temperature value;
acquiring a compared color temperature difference value, and adjusting the color temperature of the light source according to the color temperature difference value;
when the actual color temperature value is larger than the preset color temperature value, the PWM output power of the warm light lamp is gradually increased, and the actual color temperature value is reduced;
when the actual color temperature value is smaller than the preset color temperature value, the PWM output power of the cold light lamp is gradually increased, and the actual color temperature value is increased;
and stopping adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value.
2. The method of claim 1, comprising:
acquiring an image of an object to be irradiated, and identifying the image type;
recommending light adaptation color temperature according to the image category;
and adjusting the PWM output power of the lamp bead according to the adaptive color temperature.
3. The method of claim 2, wherein the identifying the image class comprises:
preparing a preset number of sample images, and classifying the sample images;
training a recognition model by using the sample image;
and inputting the image of the object to be irradiated into the recognition model, and outputting a result according to classification.
4. The method of claim 2, wherein after recommending light adaptation color temperature based on the image category, the method further comprises:
starting a display screen, and displaying a related recommended color temperature option according to the recommended light adaptive color temperature;
selecting the recommended color temperature option by default according to the recommended light adaptation color temperature;
and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
5. The method of claim 4, comprising:
recording preset color temperature value data every time to a database;
sequencing at least according to the output times of the preset color temperature value each time;
and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
6. A lamp light color temperature correction system, comprising:
the comparison device is used for acquiring the actual color temperature value of the lamp source in real time and comparing the actual color temperature value with a preset color temperature value;
the adjusting device is used for acquiring the compared color temperature difference value and adjusting the color temperature of the lamp source according to the color temperature difference value;
the reducing device is used for gradually increasing the PWM output power of the warm light lamp and reducing the actual color temperature value when the actual color temperature value is larger than the preset color temperature value;
the increasing device is used for gradually increasing the PWM output power of the cold light lamp and increasing the actual color temperature value when the actual color temperature value is smaller than the preset color temperature value;
the calibration device stops adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value;
the acquisition device is used for acquiring an image of an object to be irradiated and identifying the type of the image; recommending light adaptation color temperature according to the image category; adjusting the PWM output power of the lamp bead according to the adaptive color temperature;
the recommending device starts the display screen and displays the related recommended color temperature option according to the recommended lamplight adaptive color temperature; selecting the recommended color temperature option by default according to the recommended light adaptation color temperature; and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
7. The system of claim 6, further comprising:
the sequencing device records the preset color temperature value data every time to the database; sequencing at least according to the output times of the preset color temperature value each time; and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
8. A lamp light color temperature correction device, comprising:
the comparison device is used for acquiring the actual color temperature value of the lamp source in real time and comparing the actual color temperature value with a preset color temperature value;
the adjusting device is used for acquiring the compared color temperature difference value and adjusting the color temperature of the lamp source according to the color temperature difference value;
the reducing device is used for gradually increasing the PWM output power of the warm light lamp and reducing the actual color temperature value when the actual color temperature value is larger than the preset color temperature value;
the increasing device is used for gradually increasing the PWM output power of the cold light lamp and increasing the actual color temperature value when the actual color temperature value is smaller than the preset color temperature value;
the calibration device stops adjusting the PWM output power of the warm light lamp or the cold light lamp until the actual color temperature value is consistent with the preset color temperature value;
the acquisition device is used for acquiring an image of an object to be irradiated and identifying the type of the image; recommending light adaptation color temperature according to the image category; adjusting the PWM output power of the lamp bead according to the adaptive color temperature;
the recommending device starts the display screen and displays the related recommended color temperature option according to the recommended lamplight adaptive color temperature; selecting the recommended color temperature option by default according to the recommended light adaptation color temperature; and if the instruction of selecting other recommended color temperature options is not received within the preset time, executing the default recommended color temperature option.
9. The apparatus of claim 6, further comprising:
the sorting module records the preset color temperature value data to the database every time; sequencing at least according to the output times of the preset color temperature value each time; and displaying the preset color temperature values on the display screen interface in a sequence of more than at least.
10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 5.
CN202011050415.1A 2020-09-29 2020-09-29 Lamplight color temperature correction method, system and device and storage medium Pending CN112188694A (en)

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