CN108847199A - Brightness determines method and device - Google Patents
Brightness determines method and device Download PDFInfo
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- CN108847199A CN108847199A CN201810651171.9A CN201810651171A CN108847199A CN 108847199 A CN108847199 A CN 108847199A CN 201810651171 A CN201810651171 A CN 201810651171A CN 108847199 A CN108847199 A CN 108847199A
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G5/00—Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
- G09G5/10—Intensity circuits
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/3058—Monitoring arrangements for monitoring environmental properties or parameters of the computing system or of the computing system component, e.g. monitoring of power, currents, temperature, humidity, position, vibrations
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2320/00—Control of display operating conditions
- G09G2320/06—Adjustment of display parameters
- G09G2320/0626—Adjustment of display parameters for control of overall brightness
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Abstract
The disclosure is directed to a kind of brightness to determine method and device, belong to electronic technology field.The method includes:The first brightness that the luminance sensor of display backlight side detects is arranged in acquisition;Determine the luminance area in display screen, the orthographic projection region of the light receiving surface of luminance sensor on a display screen is located in luminance area;Determine the corresponding luminance errors value of luminance area, the brightness for the light that luminance errors value and luminance area issue is positively correlated;The difference of first brightness and luminance errors value is determined as the ambient brightness that display screen shows side.The screen that the disclosure solves display device accounts for smaller, and the poor problem of the display effect of display device increases the screen accounting of display device, improves the display effect of display device.The disclosure is for determining ambient brightness.
Description
Technical field
This disclosure relates to electronic technology field, in particular to a kind of brightness determines method and device.
Background technique
With the development of electronic technology, the requirement for the display effect of display device is higher and higher.In general, display device
Screen accounting it is bigger, the display effect of display device is better.
Display device usually detects the ambient brightness of display screen side by luminance sensor, and then according to the ambient brightness pair
The light emission luminance of display screen is adjusted.In the related technology, for the ambient brightness of accurate detection display screen side, needing will be bright
Side where spending sensor setting display screen, and display screen can not be set at the setting of luminance sensor.
Therefore, the luminance sensor in display device can occupy the partial region of display screen side, so that the screen of display device
Account for smaller, the display effect of display device is poor.
Summary of the invention
Present disclose provides a kind of brightness to determine method and device, and the screen that can solve display device accounts for smaller, display
The poor problem of the display effect of device.The technical solution is as follows:
According to the one side of the disclosure, it provides a kind of brightness and determines method, the method includes:
The first brightness that the luminance sensor of display backlight side detects is arranged in acquisition;
Determine the luminance area in the display screen, the light receiving surface of the luminance sensor is on the display screen just
View field is located in the luminance area;
Determine the corresponding luminance errors value of the luminance area, the light that the luminance errors value and the luminance area issue
Brightness be positively correlated;
The difference of first brightness and the luminance errors value is determined as the ambient brightness that the display screen shows side.
Optionally, the display screen is arranged in display device body, the luminance sensor be located at the display screen and
Between the display device body, the light receiving surface is towards the display screen.
Optionally, the luminance area is divided into n sub-regions, the corresponding luminance errors of the determination luminance area
Value, including:
Determine the corresponding luminance errors component of each subregion in the n sub-regions;
By the sum of corresponding luminance errors component of the n sub-regions, it is determined as the corresponding brightness of the luminance area and misses
Difference.
Optionally, the corresponding luminance errors component of each subregion in the determination n sub-regions, including:
Determine i-th of subregion corresponding original intensity error x, 1≤i≤n in the n sub-regions, it is described initial bright
The brightness for spending the light of error and i-th of subregion sending is positively correlated;
Determine the corresponding error coefficient y of i-th of subregion, the light that the error coefficient and other subregions issue
Brightness is positively correlated, other described subregions are the subregion in the n sub-regions in addition to i-th of subregion;
Determine that the corresponding luminance errors component of i-th of subregion is xy.
Optionally, the corresponding original intensity error x of i-th of subregion in the determination n sub-regions, including:
Obtain the corresponding Benchmark brightness error of preset i-th of subregion;
Obtain the average brightness value of pixel in i-th of subregion;
Preset first corresponding relationship is obtained, first corresponding relationship is the pixel intensity in i-th of subregion
The corresponding relationship of value and error factor;
Determine the corresponding error factor of average brightness value described in first corresponding relationship;
By the product of Benchmark brightness error error factor corresponding with the average brightness value, it is determined as described i-th
The corresponding original intensity error x of sub-regions.
Optionally, the n sub-regions include:Center subregion and multiple annular subregions,
The center subregion is located in the orthographic projection region of the light receiving surface on the display screen, each ring
Shape subregion surrounds the center subregion.
Optionally, the shape of the center subregion is identical as the shape of the light receiving surface.
According to another aspect of the present disclosure, a kind of brightness determining device is provided, the brightness determining device includes:
Module is obtained, acquisition is configured as and the first brightness that the luminance sensor of display backlight side detects is set;
The light of first determining module, the luminance area being configured to determine that in the display screen, the luminance sensor connects
The orthographic projection region of receipts face on the display screen is located in the luminance area;
Second determining module is configured to determine that the corresponding luminance errors value of the luminance area, the luminance errors value
The brightness of the light issued with the luminance area is positively correlated;
Third determining module is configured as the difference of first brightness and the luminance errors value being determined as described aobvious
Display screen shows the ambient brightness of side.
Optionally, the display screen is arranged in display device body, the luminance sensor be located at the display screen and
Between the display device body, the light receiving surface is towards the display screen.
Optionally, the luminance area is divided into n sub-regions, second determining module, including:
First determines submodule, is configured to determine that the corresponding luminance errors point of each subregion in the n sub-regions
Amount;
Second determines submodule, is configured as the sum of corresponding luminance errors component of the n sub-regions being determined as institute
State the corresponding luminance errors value of luminance area.
Optionally, described first submodule is determined, including:
First determination unit is configured to determine that the corresponding original intensity error of i-th of subregion in the n sub-regions
The brightness for the light that x, 1≤i≤n, the original intensity error and i-th of subregion issue is positively correlated;
Second determination unit is configured to determine that the corresponding error coefficient y of i-th of subregion, the error coefficient
The brightness of the light issued with other subregions is positively correlated, other described subregions are in the n sub-regions except i-th of son
Subregion except region;
Third determination unit is configured to determine that the corresponding luminance errors component of i-th of subregion is xy.
Optionally, first determination unit is additionally configured to:
Obtain the corresponding Benchmark brightness error of preset i-th of subregion;
Obtain the average brightness value of pixel in i-th of subregion;
Preset first corresponding relationship is obtained, first corresponding relationship is the pixel intensity in i-th of subregion
The corresponding relationship of value and error factor;
Determine the corresponding error factor of average brightness value described in first corresponding relationship;
By the product of Benchmark brightness error error factor corresponding with the average brightness value, it is determined as described i-th
The corresponding original intensity error x of sub-regions.
Optionally, the n sub-regions include:Center subregion and multiple annular subregions,
The center subregion is located in the orthographic projection region of the light receiving surface on the display screen, each ring
Shape subregion surrounds the center subregion.
Optionally, the shape of the center subregion is identical as the shape of the light receiving surface.
According to the another further aspect of the disclosure, a kind of display device, the display device are provided
Including:
Processing component;
For storing the memory of the executable instruction of the processing component;
Wherein, the processing component is configured as:
The first brightness that the luminance sensor of display backlight side detects is arranged in acquisition;
Determine the luminance area in the display screen, the light receiving surface of the luminance sensor is on the display screen just
View field is located in the luminance area;
Determine the corresponding luminance errors value of the luminance area, the light that the luminance errors value and the luminance area issue
Brightness be positively correlated;
The difference of first brightness and the luminance errors value is determined as the ambient brightness that the display screen shows side.
According to the another aspect of the disclosure, a kind of readable storage medium storing program for executing is provided, is stored in the readable storage medium storing program for executing
Instruction,
When the readable storage medium storing program for executing is run on processing component, so that processing component executes above-mentioned brightness determination side
Method.
Technical solution provided by the present disclosure at least can include the following benefits:
Present disclose provides a kind of brightness to determine method and device, determines in method in brightness, luminance sensor can be set
The backlight side in display screen is set, and brightness determining device can determine the corresponding luminance errors value of the luminance area in display screen.
If the brightness of the received light of luminance sensor is the first brightness, brightness determining device can be directly by first brightness and brightness
The difference of error amount is determined as the ambient brightness that display screen shows side.So, brightness determining device still can accurately really
Determine ambient brightness, and since the backlight side of display screen, and the setting area of vacant display screen is arranged in luminance sensor, therefore
The screen accounting of display device is larger.
It should be understood that the above general description and the following detailed description are merely exemplary, this can not be limited
It is open.
Detailed description of the invention
In order to illustrate more clearly of embodiment of the disclosure, attached drawing needed in embodiment description will be made below
Simply introduce, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present disclosure, common for this field
For technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the flow chart that a kind of brightness shown according to an exemplary embodiment determines method;
Fig. 2 is a kind of schematic diagram of display device shown according to an exemplary embodiment;
Fig. 3 is the flow chart that another brightness shown according to an exemplary embodiment determines method;
Fig. 4 is the schematic diagram of another display device shown according to an exemplary embodiment;
Fig. 5 is the schematic diagram of another display device shown according to an exemplary embodiment;
Fig. 6 is a kind of flow chart of determining luminance errors component shown according to an exemplary embodiment;
Fig. 7 is the relation curve signal of a kind of pixel brightness value and error factor shown according to an exemplary embodiment
Figure;
Fig. 8 is a kind of structural schematic diagram of brightness determining device shown according to an exemplary embodiment;
Fig. 9 is a kind of structural schematic diagram of second determining module shown according to an exemplary embodiment;
Figure 10 is the shown according to an exemplary embodiment a kind of first structural schematic diagram for determining submodule;
Figure 11 is a kind of block diagram of display device shown according to an exemplary embodiment.
The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the disclosure
Example, and together with specification for explaining the principles of this disclosure.
Specific embodiment
In order to keep the purposes, technical schemes and advantages of the disclosure clearer, below in conjunction with attached drawing to the disclosure make into
It is described in detail to one step, it is clear that described embodiment is only disclosure a part of the embodiment, rather than whole implementation
Example.It is obtained by those of ordinary skill in the art without making creative efforts based on the embodiment in the disclosure
All other embodiment belongs to the range of disclosure protection.
In order to improve the display effect of display device, the screen accounting of display device can be made larger.Usual display device
Display screen where side need to be provided with luminance sensor, for detecting the ambient brightness of display screen side, with the hair to display screen
Brightness is adjusted.Since luminance sensor can occupy the partial region of display screen side in display device, so that display device
Screen account for it is smaller, and then influence display device display effect.In order to increase the screen accounting of display device, in the related technology will
Luminance sensor is arranged in the gap between display screen and display device frame, but such set-up mode senses brightness
Device can not accurately determine ambient brightness.
Nowadays Organic Light Emitting Diode (the English being widely used in a display device:OrganicLight-Emitting
Diode;Referred to as:OLED) screen has high light transmittance, therefore the embodiment of the present disclosure proposes luminance sensor can be arranged aobvious
Display screen backlight side detects ambient brightness.But if luminance sensor is arranged in display backlight side, the light of luminance sensor
Receiving plane can also receive the light of display screen sending while receiving environment light, so that accurately determining that ambient brightness is more tired
It is difficult.The embodiment of the present disclosure provides a kind of backlight side that luminance sensor can be not only arranged in display screen, but also can be accurately
Determine that the brightness of display screen side ambient brightness determines method.
Fig. 1 is the flow chart that a kind of brightness shown according to an exemplary embodiment determines method.This method can be used for
Brightness determining device, as shown in Figure 1, the brightness determines that method may include:
In a step 101, it obtains and the first brightness that the luminance sensor of display backlight side detects is set;
In a step 102, the luminance area in display screen is determined, the light receiving surface of luminance sensor is on a display screen just
View field is located in luminance area;
In step 103, the corresponding luminance errors value of luminance area, the light that luminance errors value and luminance area issue are determined
Brightness be positively correlated;
At step 104, the difference of the first brightness and luminance errors value is determined as the ambient brightness that display screen shows side.
In conclusion the brightness that the embodiment of the present disclosure provides determines in method that luminance sensor can be set in display screen
Backlight side, and brightness determining device can determine the corresponding luminance errors value of the luminance area in display screen.If brightness senses
The brightness of the received light of device is the first brightness, then brightness determining device can be directly by the difference of first brightness and luminance errors value
Value is determined as the ambient brightness that display screen shows side.So, brightness determining device still can accurately determine that environment is bright
Degree, and since the backlight side of display screen, and the setting area of vacant display screen, therefore display device is arranged in luminance sensor
Screen accounting it is larger.
Optionally, referring to FIG. 2, in the embodiment of the present disclosure, the display screen 201 in display device 20, which can be set, to be shown
In device noumenon 202, luminance sensor 203 can be between display screen 201 and display device body 202.It needs to illustrate
It is that luminance sensor 203 has the light receiving surface A for receiving light, and light receiving surface A can be towards display screen 201, this is bright
Degree sensor 203 is used to detect the brightness for the light that light receiving surface A is received.It should be noted that Fig. 2 illustrates only brightness biography
The partial structurtes of sensor 203, and the display device 20 in the embodiment of the present disclosure can be the terminals such as mobile phone, computer.
Fig. 3 is the flow chart that another brightness shown according to an exemplary embodiment determines method.This method can be used
In brightness determining device, as shown in figure 3, the brightness determines that method may include:
In step 301, the first brightness that luminance sensor detects is obtained.
Exemplary, the set-up mode of the luminance sensor can refer to Fig. 2, bright when the display screen of display device shines
Spend the brightness (that is to say the first brightness) of the received light of light receiving surface of the available luminance sensor of determining device, light-receiving
The received light in face includes:The ambient light of the display screen side of light and display device that display screen issues.
In step 302, the luminance area in display screen is determined.
The light that the luminance area in display screen issues can be received by the light receiving surface of luminance sensor, that is to say this
The light that luminance area issues will affect the first brightness of luminance sensor detection, the shape of the luminance area and the light receiving surface
Shape, area and light receiving surface are related at a distance from display screen.Exemplary, the light receiving surface of luminance sensor is on a display screen
Orthographic projection region can be located in the luminance area, the light that other regions on display screen in addition to the luminance area issue
Light receiving surface will not be usually injected, even if the light that other regions issue injects the light receiving surface, which senses brightness
The influence that device detects the first brightness is also smaller.
It is exemplary, according to each position in luminance area at a distance from light receiving surface, luminance area can be divided into n son
Region, n >=1, the light that light receiving surface can be more receive issues away from its closer subregion, and it is less receive away from
The light that its farther away subregion issues.Such as incorporated by reference to Fig. 4 and Fig. 5, n=4, which may include:Center sub-district
Domain A1 and multiple annular subregions (such as annular subregion A2, annular subregion A3 and annular subregion A4).Center subregion A1
Positioned at light receiving surface in the orthographic projection region on display screen 201, each annular subregion surrounds center subregion, the center
The shape of subregion A1 can be identical as the shape of light receiving surface.Center subregion A1 in the n sub-regions is apart from light-receiving
Face is nearest, and influence of the light that center subregion A1 is issued to the first brightness that luminance sensor detects is maximum, connects apart from light
Influence of the light that the remoter subregion in receipts face issues to the first brightness that luminance sensor detects is smaller.
It should be noted that Fig. 4 and orthographic projection region of the Fig. 5 only with light receiving surface on display screen 201 include middle center
It, optionally, should for region A1 and annular subregion A2, the shape of center subregion A1 and the shape of light receiving surface are rectangle
Orthographic projection region can also only include center subregion A1 and part-toroidal subregion A2, and the shape of the light receiving surface may be
Round or diamond shape etc., the embodiment of the present disclosure does not limit this.
In step 303, the corresponding luminance errors component of each subregion in n sub-regions is determined.
The embodiment of the present disclosure is for determining the corresponding error component of i-th of subregion in the n sub-regions to step
303 explain, 1≤i≤n, as shown in fig. 6, determining that the corresponding error component of i-th of subregion may include:
Step 3031 obtains the corresponding Benchmark brightness error of preset i-th of subregion.
It is exemplary, it can store the corresponding Benchmark brightness error of each subregion, Benchmark brightness error in display device
Experiment can be first passed through in advance to obtain.The corresponding Benchmark brightness error of i-th of subregion can be:Only have i-th on a display screen
When subregion issues the light of Benchmark brightness, the difference of the actual environment brightness of the brightness and display screen side of luminance sensor detection.It is bright
Determining device is spent it needs to be determined that when the corresponding luminance errors component of i-th of subregion, can be directly acquired in display device and be deposited
The corresponding Benchmark brightness error of i-th of subregion of storage, or that i-th of subregion can also be obtained by internet is corresponding
Benchmark brightness error.
Step 3032, the average brightness value for obtaining pixel in i-th of subregion.
Exemplary, brightness determining device can determine the image data that i-th of subregion is shown, and obtain this i-th
The number of pixels of subregion;Then brightness determining device can convert the image data to tone (English:Hue;Abbreviation H),
Saturation degree (English:Saturation;Referred to as:S) and brightness is (English:Value;Referred to as:V) color space (that is to say hsv color
Space), then according to the image data of conversion to hsv color space, obtain the brightness V value of each pixel;Brightness is true later
Multiple added luminances that device can will acquire are determined and divided by number of pixels, to obtain pixel in i-th of subregion
Average brightness value.
Step 3033 obtains preset first corresponding relationship.
Exemplary, the pixel brightness value that each subregion can be previously stored in display device is corresponding with error factor
Relationship, the first corresponding relationship can be the pixel brightness value of i-th of subregion and the corresponding relationship of error factor.It needs to illustrate
It is that error factor can be used to indicate that influence degree of the light of subregion sending to luminance errors component, the bigger table of error factor
Show that influence of the light of subregion sending to luminance errors component is bigger.Brightness determining device is it needs to be determined that i-th of sub-district
When the corresponding luminance errors component in domain, preset first corresponding relationship stored in display device can be first obtained.
For example, Fig. 7 shows the relation curve of a kind of pixel brightness value and error factor, as shown in fig. 7, being in abscissa
Pixel brightness value a, ordinate are in the coordinate system of error factor b, and curve p indicates the pixel brightness value and mistake of a sub-regions
The corresponding relationship of the poor factor.As shown in Figure 7, the brightness positive for the light that the error factor of a sub-regions and the subregion issue
It closes, the brightness for the light that a sub-regions issue is higher, and the error factor of the subregion is also bigger, and the light which issues is to bright
The influence for spending error component is bigger.
Step 3034 determines the corresponding error factor of average brightness value in the first corresponding relationship.
Brightness determining device can according in step 3032 determine i-th of subregion in pixel average brightness value,
The corresponding error factor of the average brightness value is searched in the first corresponding relationship.
Step 3035, by the product of Benchmark brightness error error factor corresponding with average brightness value, be determined as i-th of son
The corresponding original intensity error x in region.
It should be noted that since the original intensity error x is benchmark luminance errors error corresponding with average brightness value
The product of the factor, and the brightness of the error factor of subregion and the light of subregion sending is positively correlated, therefore the original intensity misses
The brightness for the light that poor x and i-th of subregion issue is positively correlated.Original intensity error x is:Only have i-th of sub-district in display screen
Domain shine, and issue light average brightness be step 3032 in determine average brightness value when, what luminance sensor detected
The difference of brightness and the actual environment brightness of display screen side.
It should be noted that the embodiment of the present disclosure is to pass through acquisition and Benchmark brightness error mistake corresponding with average brightness value
The poor factor, and the product of Benchmark brightness error and error factor is determined as original intensity error x;Optionally, it shows
The corresponding relationship of pixel brightness value Yu original intensity error can also be previously stored in device, and directly according to the corresponding relationship
Determine that the corresponding original intensity error of average brightness value, the embodiment of the present disclosure do not limit this.
Step 3036 determines the corresponding error coefficient y of i-th of subregion.
It should be noted that if the n sub-regions in display screen shine, then the light that other subregions issue will affect
The corresponding luminance errors component of i-th of subregion, other subregions be the n sub-regions in addition to i-th of subregion
Subregion.And the sum of brightness of light of other subregions sending is higher, the corresponding luminance errors component of i-th of subregion is got over
Greatly.Error coefficient can serve to indicate that other subregions to the influence degree of the corresponding luminance errors component of i-th of subregion, it is bright
Degree determining device can be determined by experiment the second corresponding relationship in advance, which can indicate that other subregions are sent out
The error coefficient of corresponding i-th of the subregion of the sum of brightness of light out, and error coefficient and the light of other subregions sending
The sum of brightness is positively correlated.
Brightness determining device when the average brightness value of pixel, can also determine other sub-districts in determining i-th of subregion
The sum of the brightness of light that domain issues, can directly search the corresponding error of the sum of the brightness in second corresponding relationship later
Coefficient, to obtain the corresponding error coefficient y of i-th of subregion.
Step 3037 determines the corresponding luminance errors component xy of i-th of subregion.
The corresponding luminance errors component of each subregion is:The product of its corresponding original intensity error and error coefficient,
Therefore brightness determining device can determine that the corresponding luminance errors component of i-th of subregion is xy.
It is exemplary, when determining the corresponding luminance errors component of i-th of subregion in step 303, it is assumed that brightness determines dress
Setting the Benchmark brightness error determined in step 3031 is 4 luxs, and the average brightness value obtained in step 3032 is less than base
The corresponding Benchmark brightness of quasi- luminance errors, the corresponding error factor of average brightness value determined in step 3034 is 0.9, then bright
Degree determining device can determine the corresponding lux original intensity error x=4 × 0.9=3.6 of i-th of subregion.Assume again that step
The error coefficient y=1.2 that brightness determining device determines in rapid 3036, then can determine the corresponding luminance errors of i-th of subregion
Component is the lux xy=3.6 × 1.2=4.32.It should be noted that the embodiment of the present disclosure is only with Benchmark brightness error for 4
Lux, error factor 0.9, for error coefficient y=1.2, optionally, which may be 3 luxs
Or 5 luxs, error factor may be 0.8 or 1.1, and error coefficient may be 1 or 1.3 etc., and the embodiment of the present disclosure is to this
Without limitation.
In step 304, by the sum of corresponding luminance errors component of n sub-regions, it is corresponding bright to be determined as luminance area
Spend error amount.
Brightness determining device is in determining n sub-regions after the luminance errors component of each subregion, so that it may determine the n
The luminance errors component of sub-regions is added, and the sum of error component is determined as the corresponding luminance errors value of luminance area.By
It is positively correlated in the brightness for the light that the corresponding subregion of each luminance errors component issues, then luminance errors value and brightness region
The brightness for the light that domain issues is positively correlated.
In step 305, the difference of the first brightness and luminance errors value is determined as the ambient brightness that display screen shows side.
Since the first brightness that luminance sensor detects is:The light and show that the received display screen of light receiving surface issues
The common brightness of the ambient light of display screen side, as long as therefore being determined that the light that display screen issues influences the brightness of the first brightness
It measures (that is to say luminance errors value), so that it may directly subtract the luminance errors value with the first brightness, obtain display screen and show side
Ambient brightness.
In the embodiment of the present disclosure, the first brightness that the available luminance sensor of brightness determining device detects, and determine
Luminance area in display screen, and the luminance area can be divided into n sub-regions;Then the brightness determining device can also obtain
Take the corresponding Benchmark brightness error of each subregion, error factor and error coefficient, and by the Benchmark brightness error, error because
The product of son and error coefficient, is determined as the corresponding luminance errors component of the subregion;Brightness determining device later
By the sum of corresponding n luminance errors component of n luminance area, it is determined as the corresponding luminance errors value of luminance area;It is last bright
Spending determining device can be by the difference of the first brightness and the luminance errors value, and the ambient brightness of side where being determined as display screen is realized
The ambient brightness of side where luminance sensor by the way that display backlight side is arranged in accurately determines display screen.
In conclusion the brightness that the embodiment of the present disclosure provides determines in method that luminance sensor can be set in display screen
Backlight side, and brightness determining device can determine the corresponding luminance errors value of the luminance area in display screen.If brightness senses
The brightness of the received light of device is the first brightness, then brightness determining device can be directly by the difference of first brightness and luminance errors value
Value is determined as the ambient brightness that display screen shows side.So, brightness determining device still can accurately determine that environment is bright
Degree, and since the backlight side of display screen, and the setting area of vacant display screen, therefore display device is arranged in luminance sensor
Screen accounting it is larger.
Fig. 8 is a kind of structural schematic diagram of brightness determining device shown according to an exemplary embodiment.As shown in figure 8,
The brightness determining device 80 may include:
Module 801 is obtained, is configured as obtaining that be arranged in the luminance sensor of display backlight side detects first bright
Degree;
First determining module 802, the light receiving surface of the luminance area being configured to determine that in display screen, luminance sensor exist
Orthographic projection region on display screen is located in luminance area;
Second determining module 803 is configured to determine that the corresponding luminance errors value of luminance area, luminance errors value and brightness
The brightness for the light that region issues is positively correlated;
Third determining module 804, is configured as the difference of the first brightness and luminance errors value being determined as display screen showing
The ambient brightness of side.
In conclusion luminance sensor can be set in display screen in the brightness determining device that the embodiment of the present disclosure provides
Backlight side, and the second determining module can determine the corresponding luminance errors value of the luminance area in display screen.If obtaining module
The brightness for getting luminance sensor detection is the first brightness, then third determining module can be directly by first brightness and brightness
The difference of error amount is determined as the ambient brightness that display screen shows side.So, brightness determining device still can accurately really
Determine ambient brightness, and since the backlight side of display screen, and the setting area of vacant display screen is arranged in luminance sensor, therefore
The screen accounting of display device is larger.
Optionally, display screen is arranged in display device body, and luminance sensor is located at display screen and display device body
Between, light receiving surface is towards display screen.
Optionally, luminance area is divided into n sub-regions, referring to FIG. 9, second determines that mould 803 may include:
First determines submodule 8031, is configured to determine that the corresponding luminance errors point of each subregion in n sub-regions
Amount;
Second determines submodule 8032, is configured as the sum of corresponding luminance errors component of n sub-regions being determined as bright
Spend the corresponding luminance errors value in region.
Optionally, referring to FIG. 10, first determines that submodule 8031 may include:
First determination unit 80311 is configured to determine that in n sub-regions that the corresponding original intensity of i-th of subregion misses
The brightness for the light that poor x, 1≤i≤n, original intensity error and i-th of subregion issue is positively correlated;
Second determination unit 80312, is configured to determine that the corresponding error coefficient y of i-th of subregion, error coefficient and its
The brightness for the light that his subregion issues is positively correlated, other subregions are the sub-district in n sub-regions in addition to i-th of subregion
Domain;
Third determination unit 80313 is configured to determine that the corresponding luminance errors component of i-th of subregion is xy.
Optionally, the first determination unit 80311 is additionally configured to:
Obtain the corresponding Benchmark brightness error of preset i-th of subregion;
Obtain the average brightness value of pixel in i-th of subregion;
Preset first corresponding relationship is obtained, the first corresponding relationship is pixel brightness value and error in i-th of subregion
The corresponding relationship of the factor;
Determine the corresponding error factor of average brightness value in the first corresponding relationship;
By the product of Benchmark brightness error error factor corresponding with average brightness value, it is corresponding to be determined as i-th of subregion
Original intensity error x.
Optionally, n sub-regions include:Center subregion and multiple annular subregions,
Center subregion is located in the orthographic projection region of light receiving surface on a display screen, and each annular subregion surrounds
Center region.
Optionally, the shape of center subregion and the shape of light receiving surface are identical.
In conclusion luminance sensor can be set in display screen in the brightness determining device that the embodiment of the present disclosure provides
Backlight side, and the second determining module can determine the corresponding luminance errors value of the luminance area in display screen.If obtaining module
The brightness for getting luminance sensor detection is the first brightness, then third determining module can be directly by first brightness and brightness
The difference of error amount is determined as the ambient brightness that display screen shows side.So, brightness determining device still can accurately really
Determine ambient brightness, and since the backlight side of display screen, and the setting area of vacant display screen is arranged in luminance sensor, therefore
The screen accounting of display device is larger.
Figure 11 is a kind of block diagram for display device 110 shown according to an exemplary embodiment.For example, the display fills
Setting 110 can be display device 20 shown in Fig. 2, and device 110 can be mobile phone, computer, digital broadcast terminal, message
Transceiver, game console, tablet device, Medical Devices, body-building equipment, personal digital assistant etc..
Referring to Fig.1 1, device 110 may include following one or more components:Processing component 1102, memory 1104, electricity
Source component 1106, multimedia component 1108, audio component 1110, the interface 1112 of input/output (I/O), sensor module
1114 and communication component 1116.
The integrated operation of the usual control device 110 of processing component 1102, such as with display, telephone call, data communication, phase
Machine operation and record operate associated operation.Processing component 1102 may include that one or more processors 1120 refer to execute
It enables, to perform all or part of the steps of the methods described above.In addition, processing component 1102 may include one or more modules,
Convenient for the interaction between processing component 1102 and other assemblies.For example, processing component 1102 may include multi-media module, with side
Just the interaction between multimedia component 1108 and processing component 1102.
Memory 1104 is configured as storing various types of data to support the operation in device 110.These data
Example includes the instruction of any application or method for operating on device 110, contact data, telephone book data,
Message, picture, video etc..Memory 1104 can by any kind of volatibility or non-volatile memory device or they
Combination is realized, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), it is erasable can
Program read-only memory (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory
Reservoir, disk or CD.
Power supply module 1106 provides electric power for the various assemblies of device 110.Power supply module 1106 may include power management
System, one or more power supplys and other with for device 110 generate, manage, and distribute the associated component of electric power.
Multimedia component 1108 includes the screen of one output interface of offer between described device 110 and user.?
In some embodiments, screen may include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel,
Screen may be implemented as touch screen, to receive input signal from the user.Touch panel includes that one or more touch passes
Sensor is to sense the gesture on touch, slide, and touch panel.The touch sensor can not only sense touch or sliding is dynamic
The boundary of work, but also detect duration and pressure associated with the touch or slide operation.In some embodiments, more
Media component 1108 includes a front camera and/or rear camera.When device 110 is in operation mode, as shot mould
When formula or video mode, front camera and/or rear camera can receive external multi-medium data.Each preposition camera shooting
Head and rear camera can be a fixed optical lens system or have focusing and optical zoom capabilities.
Audio component 1110 is configured as output and/or input audio signal.For example, audio component 1110 includes a wheat
Gram wind (MIC), when device 110 is in operation mode, when such as call mode, recording mode, and voice recognition mode, microphone quilt
It is configured to receive external audio signal.The received audio signal can be further stored in memory 1104 or via communication
Component 1116 is sent.In some embodiments, audio component 1110 further includes a loudspeaker, is used for output audio signal.
I/O interface 1112 provides interface, above-mentioned peripheral interface module between processing component 1102 and peripheral interface module
It can be keyboard, click wheel, button etc..These buttons may include, but are not limited to:Home button, volume button, start button and
Locking press button.
Sensor module 1114 includes one or more sensors, and the state for providing various aspects for device 110 is commented
Estimate.For example, sensor module 1114 can detecte the state that opens/closes of device 110, the relative positioning of component, such as institute
The display and keypad that component is device 110 are stated, sensor module 1114 can be with detection device 110 or 110 1, device
The position change of component, the existence or non-existence that user contacts with device 110,110 orientation of device or acceleration/deceleration and device
110 temperature change.Sensor module 1114 may include proximity sensor, be configured in not any physical contact
When detect the presence of nearby objects.Sensor module 1114 can also include luminance sensor, as CMOS or ccd image are sensed
Device, for being used in imaging applications.In some embodiments, which can also include acceleration sensing
Device, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.
Communication component 1116 is configured to facilitate the communication of wired or wireless way between device 110 and other equipment.Dress
The wireless network based on communication standard, such as WiFi can be accessed by setting 110,2G or 3G or their combination.In an exemplary reality
It applies in example, communication component 1116 receives broadcast singal or the related letter of broadcast from external broadcasting management system via broadcast channel
Breath.In one exemplary embodiment, the communication component 1116 further includes near-field communication (NFC) module, to promote short distance logical
Letter.For example, radio frequency identification (RFID) technology, Infrared Data Association (IrDA) technology, ultra wide band (UWB) can be based in NFC module
Technology, bluetooth (BT) technology and other technologies are realized.
In the exemplary embodiment, device 110 can be believed by one or more application specific integrated circuit (ASIC), number
Number processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array
(FPGA), controller, microcontroller, microprocessor or other electronic components are realized, for executing the above method.
In the exemplary embodiment, a kind of non-transitorycomputer readable storage medium including instruction, example are additionally provided
It such as include the memory 1104 of instruction, above-metioned instruction can be executed by the processor 1120 of device 110 to complete the above method.Example
Such as, the non-transitorycomputer readable storage medium can be ROM, random access memory (RAM), CD-ROM, tape, soft
Disk and optical data storage devices etc..
Above-mentioned Fig. 1 and embodiment shown in Fig. 3, can wholly or partly by software, hardware, firmware or its
Meaning combination is to realize.When implemented in software, it can entirely or partly realize in the form of a program product, described program produces
Product include one or more instructions.When being loaded on processing component and executing described instruction, entirely or partly generate according to this
Process or function described in open embodiment.
It should be noted that the embodiment of the method that the embodiment of the present disclosure provides can mutually join with corresponding Installation practice
It examines, the embodiment of the present disclosure does not limit this.The sequencing for the embodiment of the method step that the embodiment of the present disclosure provides can be into
Row appropriate adjustment, step also according to circumstances can accordingly be increased and decreased, and anyone skilled in the art is in this public affairs
It opens in the technical scope of exposure, the method that can readily occur in variation should be covered by the protection scope of the present invention, therefore not
It repeats again.
Those skilled in the art will readily occur to its of the disclosure after considering specification and practicing scheme disclosed herein
Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or
Person's adaptive change follows the general principles of this disclosure and including the undocumented common knowledge in the art of the application
Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are wanted by right
It asks and points out.
It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.
Claims (16)
1. a kind of brightness determines method, which is characterized in that the method includes:
The first brightness that the luminance sensor of display backlight side detects is arranged in acquisition;
Determine the luminance area in the display screen, the orthographic projection of the light receiving surface of the luminance sensor on the display screen
Region is located in the luminance area;
Determine the corresponding luminance errors value of the luminance area, the light that the luminance errors value and the luminance area issue it is bright
Degree is positively correlated;
The difference of first brightness and the luminance errors value is determined as the ambient brightness that the display screen shows side.
2. the method according to claim 1, wherein the display screen be arranged in display device body, it is described
Luminance sensor is between the display screen and the display device body, and the light receiving surface is towards the display screen.
3. method according to claim 1 or 2, which is characterized in that the luminance area is divided into n sub-regions, described
Determine the corresponding luminance errors value of the luminance area, including:
Determine the corresponding luminance errors component of each subregion in the n sub-regions;
By the sum of corresponding luminance errors component of the n sub-regions, it is determined as the corresponding luminance errors value of the luminance area.
4. according to the method described in claim 3, it is characterized in that, each subregion pair in the determination n sub-regions
The luminance errors component answered, including:
Determine that i-th of subregion corresponding original intensity error x, 1≤i≤n in the n sub-regions, the original intensity are missed
The brightness of the poor light issued with i-th of subregion is positively correlated;
Determine the corresponding error coefficient y of i-th of subregion, the brightness for the light that the error coefficient and other subregions issue
It is positively correlated, other described subregions are the subregion in the n sub-regions in addition to i-th of subregion;
Determine that the corresponding luminance errors component of i-th of subregion is xy.
5. according to the method described in claim 4, it is characterized in that, i-th of subregion pair in the determination n sub-regions
The original intensity error x answered, including:
Obtain the corresponding Benchmark brightness error of preset i-th of subregion;
Obtain the average brightness value of pixel in i-th of subregion;
Obtain preset first corresponding relationship, first corresponding relationship be pixel brightness value in i-th of subregion with
The corresponding relationship of error factor;
Determine the corresponding error factor of average brightness value described in first corresponding relationship;
By the product of Benchmark brightness error error factor corresponding with the average brightness value, it is determined as i-th of son
The corresponding original intensity error x in region.
6. according to any method of claim 3 to 5, which is characterized in that the n sub-regions include:Center subregion
With multiple annular subregions,
The center subregion is located in the orthographic projection region of the light receiving surface on the display screen, each annular
Region surrounds the center subregion.
7. according to the method described in claim 6, it is characterized in that,
The shape of the center subregion is identical as the shape of the light receiving surface.
8. a kind of brightness determining device, which is characterized in that the brightness determining device includes:
Module is obtained, acquisition is configured as and the first brightness that the luminance sensor of display backlight side detects is set;
First determining module, the luminance area being configured to determine that in the display screen, the light receiving surface of the luminance sensor
Orthographic projection region on the display screen is located in the luminance area;
Second determining module is configured to determine that the corresponding luminance errors value of the luminance area, the luminance errors value and institute
The brightness for stating the light of luminance area sending is positively correlated;
Third determining module is configured as the difference of first brightness and the luminance errors value being determined as the display screen
Show the ambient brightness of side.
9. brightness determining device according to claim 8, which is characterized in that the display screen is arranged in display device body
On, between the display screen and the display device body, the light receiving surface is shown the luminance sensor towards described
Display screen.
10. brightness determining device according to claim 8 or claim 9, which is characterized in that the luminance area is divided into n son
Region, second determining module, including:
First determines submodule, is configured to determine that the corresponding luminance errors component of each subregion in the n sub-regions;
Second determines submodule, is configured as the sum of corresponding luminance errors component of the n sub-regions being determined as described bright
Spend the corresponding luminance errors value in region.
11. brightness determining device according to claim 10, which is characterized in that described first determines submodule, including:
First determination unit, is configured to determine that the corresponding original intensity error x of i-th of subregion in the n sub-regions, 1
The brightness for the light that≤i≤n, the original intensity error and i-th of subregion issue is positively correlated;
Second determination unit, is configured to determine that the corresponding error coefficient y of i-th of subregion, the error coefficient and its
The brightness for the light that his subregion issues is positively correlated, other described subregions are that i-th of subregion is removed in the n sub-regions
Except subregion;
Third determination unit is configured to determine that the corresponding luminance errors component of i-th of subregion is xy.
12. brightness determining device according to claim 11, which is characterized in that first determination unit is also configured
For:
Obtain the corresponding Benchmark brightness error of preset i-th of subregion;
Obtain the average brightness value of pixel in i-th of subregion;
Obtain preset first corresponding relationship, first corresponding relationship be pixel brightness value in i-th of subregion with
The corresponding relationship of error factor;
Determine the corresponding error factor of average brightness value described in first corresponding relationship;
By the product of Benchmark brightness error error factor corresponding with the average brightness value, it is determined as i-th of son
The corresponding original intensity error x in region.
13. 0 to 12 any brightness determining device according to claim 1, which is characterized in that the n sub-regions include:
Center subregion and multiple annular subregions,
The center subregion is located in the orthographic projection region of the light receiving surface on the display screen, each annular
Region surrounds the center subregion.
14. brightness determining device according to claim 13, which is characterized in that
The shape of the center subregion is identical as the shape of the light receiving surface.
15. a kind of display device, which is characterized in that the display device includes:
Processing component;
For storing the memory of the executable instruction of the processing component;
Wherein, the processing component is configured as:
The first brightness that the luminance sensor of display backlight side detects is arranged in acquisition;
Determine the luminance area in the display screen, the orthographic projection of the light receiving surface of the luminance sensor on the display screen
Region is located in the luminance area;
Determine the corresponding luminance errors value of the luminance area, the light that the luminance errors value and the luminance area issue it is bright
Degree is positively correlated;
The difference of first brightness and the luminance errors value is determined as the ambient brightness that the display screen shows side.
16. a kind of readable storage medium storing program for executing, which is characterized in that instruction is stored in the readable storage medium storing program for executing,
When the readable storage medium storing program for executing is run on processing component, so that processing component is executed such as any institute of claim 1 to 7
The brightness stated determines method.
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