CN104464685B - Adjust GTG transition and the method and device of color of display device - Google Patents
Adjust GTG transition and the method and device of color of display device Download PDFInfo
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Abstract
The invention discloses a kind of GTG transition adjusting display device and the method and device of color, when any one debugging GTG is adjusted, the acquisition target colorimetric brightness that first-selected debugging GTG is corresponding, object brightness coefficient sets, present intensity colourity and current brightness factor group, according to the current relative luminance group that current chroma brightness is corresponding, object brightness coefficient sets and current brightness factor group, calculate adjustment relative luminance group, and then lookup determines the goal setting value group corresponding with target relative luminance in presetting database, and then by goal setting value group, debugging GTG is adjusted, to reach to adjust GTG transition and the purpose of color of display device.The technical scheme that the present invention provides, without manually adjusting, improves production efficiency;It addition, use the mode searching presetting database to determine goal setting value group, reduce further GTG transition and the time of color adjusting display device, improve production efficiency.
Description
Technical field
The present invention relates to Display Technique field, more specifically, relate to a kind of GTG transition adjusting display device and
The method and device of color.
Background technology
Existing display device needs to be adjusted, its GTG transition and color so that display device reaches before dispatching from the factory
Optimal display effect.Existing method of adjustment has and adjusts manually, i.e. artificial rule of thumb and utilize some aids,
Being adjusted display device, this method of adjustment is the longest, it is generally required to several tens minutes, the production efficiency fall of the display device made
Low.
Summary of the invention
In view of this, the invention provides a kind of GTG transition adjusting display device and the method and device of color, with
GTG transition and color to display device are adjusted, and reduce the adjustment time, improve production efficiency.
For achieving the above object, the technical scheme that the present invention provides is as follows:
A kind of GTG transition adjusting display device and the method for color, described display device includes that zero level GTG is to
M level GTG, described zero level GTG to m level GTG includes n debugging GTG, the method adjusting described i-stage debugging GTG
Including:
S1: obtain presetting database, described presetting database includes that multiple different to arrange value the most relatively bright with multiple
Degree, each described arrange value each correspondence one described relative luminance;Obtain the target colorimetric brightness of described i-stage debugging GTG
(xTarget, yTarget, YTarget), the tristimulus values (X of black pictureBLACK, YBLACK, ZBLACK) and eliminate after black picture light leak affects red, green
Tristimulus values (X with blue pictureRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE), calculate target
Luminance factor group (r1, g1, b1);
S2: obtain current setpoint value group (R, G, B), searches and described current setpoint value group in described presetting database
The current relative luminance group (Tr, Tg, Tb) that (R, G, B) is corresponding;Measure described display device at described i-stage debugging GTG to work as
Before arrange value group (R, G, B) display time current chroma brightness (xCurrently, yCurrently, YCurrently), and calculate current brightness factor group (r2,
G2, b2);
S3: calculating adjustment relative luminance group (Tr ', Tg ', Tb '), wherein, Tr '=r1/r2*Tr, Tg '=r1/r2*Tg,
Tb '=r1/r2*Tb;And search respectively with described adjustment relative luminance Tr ', Tg ', Tb ' each in described presetting database
Close described relative luminance Tr ", Tg ", Tb ", with according to described immediate described relative luminance Tr ", Tg ", Tb " determine with
Described adjustment relative luminance Tr ', Tg ', Tb ' are each self-corresponding neighbouring arranges value R ', G ', B ';
S4: judge the described neighbouring value group (R ', G ', B ') that arranges the most through the measurement of described step S2, the most true
The most described fixed neighbouring value group (R ', G ', B ') that arranges is described goal setting value group (RTarget, GTarget, BTarget);If it is not, then by described currently
Arrange value group (R, G, B) to reset to and described neighbouring arrange value group (R ', G ', B '), and return described step S2;
Wherein, m is more than or equal to n, and m, n are positive integer, (xTarget, yTarget, YTarget) and (r1, g1, b1), (xCurrently, yCurrently,
YCurrently) meet with (r2, g2, b2):
With
(X, Y, Z) be described display device can show any one colored picture time tristimulus values, (r, g, b) corresponding
Being expressed as any one luminance factor group of Red Green Blue, (x y) refers in CIE1931-xyY standard colorimetric system
The value of xy, represents colourity, and Y represents brightness.
Accordingly, present invention also offers a kind of GTG transition adjusting display device and the device of color, described display
Device include zero level GTG to m level GTG, described zero level GTG to m level GTG include n debugging GTG, described dress
Put and include:
Chroma luminance acquisition module, for obtaining the target colorimetric brightness (x that described i-stage debugging GTG is correspondingTarget, yTarget,
YTarget) and current chroma brightness (xCurrently, yCurrently, YCurrently);
Memory module, is used for storing presetting database, and described data base includes multiple different arranging value and multiple difference
Relative luminance, each described arranges value each corresponding described relative luminance;
Module is set, by multiple described the current setpoint value group (R, G, B) that value forms is set for arranging, control described showing
Showing device shows with current setpoint value group (R, G, B);
Data analysis module, is used for calculating described target colorimetric brightness (xTarget, yTarget, YTarget) corresponding object brightness coefficient
Group (r1, g1, b1), described current chroma brightness (xCurrently, yCurrently, YCurrently) corresponding current brightness factor group (r2, g2, b2), search
Described current setpoint value group (R, G, B) is in present intensity group (Tr, Tg, Tb) corresponding to described presetting database, and calculates also
Find out and neighbouring value group (R ', G ', B ') is set;
Judge module, is used for judging that whether the described neighbouring value group (R ', G ', B ') that arranges is by described chroma luminance acquisition module
Measured;
Wherein, m is more than or equal to n, and m, n are positive integer.
Compared to prior art, the technical scheme that the present invention provides at least one of has the following advantages that:
A kind of GTG transition adjusting display device of present invention offer and the method and device of color, any one debugging ash
When rank are adjusted, acquisition target colorimetric brightness that first-selected debugging GTG is corresponding, object brightness coefficient sets, present intensity colourity and
Current brightness factor group, according to current relative luminance group, object brightness coefficient sets and present intensity that current chroma brightness is corresponding
Coefficient sets, calculates adjustment relative luminance group, and then lookup determines the mesh corresponding with target relative luminance in presetting database
Mark arranges value group, and then is adjusted debugging GTG by goal setting value group, to reach to adjust the GTG mistake of display device
Cross the purpose with color.The technical scheme that the present invention provides, without manually adjusting, improves production efficiency;Search it addition, use
The mode of presetting database determines goal setting value group, reduce further adjust the GTG transition of display device and color time
Between, improve production efficiency.
Accompanying drawing explanation
In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
In having technology to describe, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only this
Inventive embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to
The accompanying drawing provided obtains other accompanying drawing.
A kind of GTG transition adjusting display device that Fig. 1 provides for the embodiment of the present application and the flow process of the method for color
Figure;
A kind of method flow diagram setting up presetting database that Fig. 2 provides for the embodiment of the present application;
The flow process of a kind of method obtaining i-stage debugging GTG target colorimetric brightness that Fig. 3 a provides for the embodiment of the present application
Figure;
A kind of schematic diagram calculating Lmin ' and Lmax ' that Fig. 3 b provides for the embodiment of the present application;
A kind of schematic diagram calculating object brightness that Fig. 3 c provides for the embodiment of the present application;
A kind of method flow diagram calculating object brightness coefficient sets that Fig. 4 provides for the embodiment of the present application;
A kind of method flow diagram calculating current brightness factor group that Fig. 5 provides for the embodiment of the present application;
A kind of flow process searching the neighbouring method that value is set in presetting database that Fig. 6 provides for the embodiment of the present application
Figure;
A kind of GTG transition adjusting display device and the structure of the device of color that Fig. 7 provides for the embodiment of the present application are shown
It is intended to.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments wholely.Based on
Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under not making creative work premise
Embodiment, broadly falls into the scope of protection of the invention.
As described in background, existing have manually the GTG transition of display device and the method for adjustment of color
Adjusting, i.e. artificial rule of thumb and utilize some aids be adjusted display device, the method is the longest, typically needs
Wanting several tens minutes, the production efficiency of the display device made reduces.
Based on this, the embodiment of the present application provides a kind of GTG transition adjusting display device and the method for color, reference
Shown in Fig. 1, a kind of GTG transition adjusting display device provided for the embodiment of the present application and the flow chart of the method for color, its
In, display device include zero level GTG to m level GTG, zero level GTG to m level GTG include n debugging GTG, adjust
The method of whole i-stage debugging GTG includes:
S1: obtain presetting database, presetting database includes multiple different value and multiple difference relative luminance of arranging, often
Individual value each corresponding relative luminance is set;Obtain the target colorimetric brightness (x of i-stage debugging GTGTarget, yTarget, YTarget), black
Tristimulus values (the X of pictureBLACK, YBLACK, ZBLACK) and eliminate the tristimulus of red, green and blue picture after black picture light leak affects
Value (XRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE), calculate object brightness coefficient sets (r1,
G1, b1);
S2: obtain current setpoint value group (R, G, B), it is right with current setpoint value group (R, G, B) to search in presetting database
The current relative luminance group (Tr, Tg, Tb) answered;Measure display device at i-stage debugging GTG with current setpoint value group (R, G, B)
Current chroma brightness (x during displayCurrently, yCurrently, YCurrently), and calculate current brightness factor group (r2, g2, b2);
S3: calculating adjustment relative luminance group (Tr ', Tg ', Tb '), wherein, Tr '=r1/r2*Tr, Tg '=r1/r2*Tg,
Tb '=r1/r2*Tb;And search respectively in presetting database and adjust relative luminance Tr ', the respective immediate phase of Tg ', Tb '
To brightness Tr ", Tg ", Tb ", with according to immediate relative luminance Tr ", Tg ", Tb " determine with adjust relative luminance Tr ', Tg ',
Tb ' is each self-corresponding neighbouring arranges value R ', G ', B ';
S4: judge the neighbouring value group (R ', G ', B ') that arranges the most through the measurement of step S2, if, it is determined that neighbouring set
Putting value group (R ', G ', B ') is goal setting value group (RTarget, GTarget, BTarget);If it is not, then current setpoint value group (R, G, B) is reset
Value group (R ', G ', B ') is set for neighbouring, and returns step S2;
Wherein, m is more than or equal to n, and m, n are positive integer, and i is any one value, (x in nTarget, yTarget, YTarget) with (r1, g1,
b1)、(xCurrently, yCurrently, YCurrently) meet with (r2, g2, b2):
With
(X, Y, Z) be display device can show any one colored picture time tristimulus values, (r, g b) corresponding represent
For any one luminance factor group of Red Green Blue, (x y) refers to xy in CIE1931-xyY standard colorimetric system
Value, represents colourity, and Y represents brightness.
It should be noted that tristimulus values is three kinds of light X of supposition, Y, the Z quantity of stimulus to human eye, according to poplar-Hai Mu
Three primary colors the most hereby is theoretical, the synthesis result feeling to be to be stimulated by three kinds of primitive color lights of color.It addition, the brightness of regulation X and Z is 0,
XZ line is referred to as without brightness line (alychne), only represents colourity without each point on brightness line, does not has brightness, but Y i.e. represents colourity,
Also brightness is represented.So, with X, when Y, Z calculate colourity, because Y itself represents again brightness, just make brightness calculation more convenient.I.e. exist
Colourity (x, y) under, tristimulus values (X, Y, Z) is represented by (x/y*Y, Y, ((1-x-y)/y) * Y).
Concrete, n debugging GTG is the zero level GTG of display device to the part in m level GTG, is showing
In showing device course of normal operation, display device all corresponds to red sub-pixel, green in the display effect of any one debugging GTG
The combination display effect of sub-pixels and blue subpixels, i.e. by providing corresponding GTG to believe the sub-pixel of three kinds of colors
Number, so that three sub pixels combine after showing;Further, n debugging each self-corresponding red sub-pixel of GTG, green sub-pixels and
The grayscale signal of blue subpixels, by some default operation transform means, it is possible to be transformed to zero level GTG to m level GTG
Each self-corresponding red sub-pixel, green sub-pixels and the grayscale signal of blue subpixels, and then can be by adjusting debugging ash
The grayscale signal of red sub-pixel, green sub-pixels and blue subpixels that rank are corresponding is respective target gray scale signal, to adjust
The GTG transition of whole display device and color.That is,
Debugging GTG after adjustment in the embodiment of the present application, it corresponding one should arrange value, and this value of setting should be corresponding one grey
Rank signal, the value that arranges being determined by debugging GTG corresponding red sub-pixel, green sub-pixels and blue subpixels is respective
Goal setting value after, to obtain corresponding grayscale signal, and then adjust the GTG transition of display device and color, wherein,
By adjusting debugging GTG, and then adjust the mode of all GTGs of display device, it is possible to effective reduction adjusts display device
GTG transition and the time of color, improve the efficiency adjusted.Illustrate,
If display device includes that zero level GTG, to the 16th grade of GTG, wherein, for this display device, first presets
Redness that zero level GTG is corresponding, the grayscale signal of green and blue three sub pixels are to the 16th grade of redness that GTG is corresponding, green
Relation between the grayscale signal of blue three sub pixels of normal complexion.Zero level GTG, the 6th grade of GTG, the tenth one-level are then set
GTG and the 16th grade of GTG are debugging GTG, and debug redness corresponding to GTG, the GTG of green and blue three sub pixels
Signal adjusts to respective target gray scale signal, then according to debugging GTG and zero level GTG between the 16th grade of GTG
Relation, by debugging redness corresponding to GTG, that the grayscale signal of green and blue three sub pixels is transformed to all GTGs is corresponding
The grayscale signal of red, green and blue three sub pixels, to adjust GTG transition and the color of display device.
It addition, in the production process of display device, be batch production, therefore, the display device of same model is being entered
During the adjustment of row GTG transition and color, all can use according to any one display device in the display device of this model set up pre-
If data base is adjusted.
It should be noted that for grayscale signal, it can be gray scale voltage, it is also possible to for electric current, need according to reality
The type of device judges.If during display device liquid crystal real device, grayscale signal is gray scale voltage;If real device has
During machine luminous display unit, grayscale signal corresponds to apply the electric current to light emitting diode.
Optionally, with reference to shown in Fig. 2, a kind of method flow setting up presetting database provided for the embodiment of the present application
Figure, wherein, the embodiment of the present application can set up presetting database according to the following steps:
S21: obtain i-stage debugging multiple values that arrange corresponding to GTG, and measure display device and arrange under value each
Brightness;
S22: obtain multiple minimum brightness Lmin arranged in each self-corresponding brightness of value and high-high brightness Lmax;
S23: the relative luminance Lj of value j is setRelatively=(Lj-Lmin)/(Lmax-Lmin), wherein Lj is any one to arrange value
Corresponding brightness.
With reference to shown in following table, corresponding for preset data database data is debugged the sub-pixel of any one color corresponding to GTG
The relation data content of value-relative luminance is set:
Table 1
Wherein, value is set for hexadecimal data, its except with relative luminance in addition to, also corresponding with grayscale signal,
Illustrate, when searching presetting database, however, it is determined that the relative luminance of the sub-pixel of m level GTG is 1, then this sub-pixel
Goal setting value is 00h, and the grayscale signal provided for this sub-pixel is corresponding preset gray scale signal, i.e. at liquid crystal indicator
In be preset gray scale voltage, and apply to the electric current of light emitting diode for presetting in organic light-emitting display device.
It should be noted that for the data content of upper table, presetting database has three sets, i.e. for red, green
With the data that blue three sub pixels all corresponding put table, and, the quantity of the debugging GTG in any one sets of data and etc.
Level is identical, but the quantity arranging value debugging GTG corresponding can be identical, it is also possible to different, is not specifically limited this;And,
For the data content of any one color sub-pixels, its value of setting needs the multiple grayscale voltages corresponding according to each debugging GTG
Being configured, i.e. under the conditions of debugging GTG, each of which arranges the most corresponding grayscale voltage of value, and correspondence is in this gray scale
Brightness under voltage;It addition, the concrete data for the representation arranging value in table 1 and relative luminance are example,
In actual application, value is set and can use hexadecimal representation, it would however also be possible to employ other expression sides such as system or numeral
Formula, is not specifically limited equally to this.For the side of the relative luminance of storage in the presetting database that the embodiment of the present application provides
Formula, compared with the mode storing simple brightness data, the mode of storage relative luminance ensure that to same model
A collection of display device is more applicable when being adjusted.
In foregoing, obtain the tristimulus values (X of black pictureBLACK, YBLACK, ZBLACK), and eliminate black picture light leak
Tristimulus values (the X of red, green and blue picture after impactRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE)
Step be:
S31: measure described display device and show that the tristimulus values of black picture is for (XBLACK, YBLACK, ZBLACK), measure described
Tristimulus values when display device shows red, green and blue picture respectively is respectively (XRED', YRED', ZRED’)、(XGREEN',
YGREEN', ZGREEN') and (XBLUE', YBLUE', ZBLUE’);
S32: each expression amount of the tristimulus values of described display device red, green and blue picture is individually subtracted described display
Device shows each expression amount of the tristimulus values of black picture, red, green and blue picture after the black picture light leak that is eliminated impact
Tristimulus values (XRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE),
XRED=XRED’-XBLACK, YRED=YRED’-YBLACK, ZRED=ZRED’-ZBLACK;
XGREEN=XGREEN’-XBLACK, YGREEN=YGREEN’-YBLACK, ZGREEN=ZGREEN’-ZBLACK;
XBLUE=XBLUE’-XBLACK, YRED=YBLUE’-YBLACK, ZBLUE=ZBLUE’-ZBLACK。
With reference to shown in Fig. 3 a, a kind of i-stage that obtains provided for the embodiment of the present application debugs GTG target colorimetric brightness
The flow chart of method, with reference to shown in Fig. 3 b, a kind of schematic diagram calculating Lmin ' and Lmax ' provided for the embodiment of the present application, with
And, with reference to shown in Fig. 3 c, a kind of schematic diagram calculating object brightness provided for the embodiment of the present application, wherein, obtain i-stage and adjust
Examination GTG target colorimetric brightness (xTarget, yTarget, YTarget) including:
S41: obtain target colorimetric (xTarget, yTarget);
Wherein, target colorimetric (xTarget, yTarget) it being artificial setting, it can be by the sub-picture of the three of display device kinds of colors
The brightness of element carries out ratio and is adjusted, to obtain display device color of deflection when showing picture.Optionally, target colorimetric
(xTarget, yTarget) it is the colourity of white balance picture under each debugging GTG.
S42: tristimulus values when measuring white picture is (XWHITE, YWHITE, ZWHITE);
S43: by the tristimulus values (X of white pictureWHITE, YWHITE, ZWHITE) substitute into formula one try to achieve the maximum that three primary colors is corresponding
Luminance factor group is (r=rmax, g=gmax, b=bmax), by the tristimulus values (X of black pictureBLACK, YBLACK, ZBLACK) substitute into public affairs
Formula one tries to achieve minimum brightness coefficient sets corresponding to three primary colors for (r=0, g=0, b=0);
S44: by target colorimetric (xTarget, yTarget) and high-high brightness coefficient sets in any one value substitute into formula two and formula one,
The minima of the Y tried to achieve is m level gray-scale intensity Lmax ';And, by target colorimetric (xTarget, yTarget) and minimum brightness coefficient sets
In any one value and formula two substitute into formula one, the maximum of the Y tried to achieve is zero level gray-scale intensity Lmin ';
S45: according to YTarget=(i/m)γ* (Lmax '-Lmin ')+Lmin ', reaches target colorimetric calculating display device
(xTarget, yTarget) time i-stage debugging object brightness Y corresponding to GTGTarget, i.e. obtain target colorimetric brightness (xTarget, yTarget, YTarget), its
In, i is the grade of debugging GTG, and γ is the default gamma value of display device.
As shown in the above, it is necessary first to determine that the display device after adjustment needs the target reached when showing picture
Colourity (xTarget, yTarget), then according to calculated minimum gray brightness Lmin ', maximum gray brightness Lmax ' and default gamma
Value γ and grade i of debugging GTG, by colorimetry operation transform, the object brightness corresponding to calculate debugging GTG, i.e. ideal
Brightness under state.Illustrate,
If display device includes that 256 grade GTGs, i.e. zero level GTG are to the 255th grade of GTG, wherein, display device
Gamma value is 2.2, and the brightness of the 255th grade of GTG is Lmax ', and the brightness of zero level GTG is Lmin ', wherein, calculates the 128th grade
The object brightness of GTG is:
YTarget=(128/255)2.2*(Lmax’-Lmin’)+Lmin’。
As shown in the above, before searching presetting database, object brightness coefficient sets (r1, g1, b1) is needed to refer to
Closing current brightness factor group (r2, g2, b2), meter is adjusted relative luminance (Tr ', Tg ', Tb ').With reference to shown in Fig. 4, for this Shen
Please embodiment provide a kind of method flow diagram calculating object brightness coefficient sets, wherein, calculate target according to following steps
Luminance factor group (r1, g1, b1):
S61: calculate target tristimulus values (XTarget, YTarget, ZTarget), it may be assumed that
By target colorimetric brightness (xTarget, yTarget, YTarget), substitute into formula two and obtain
Obtain target colorimetric brightness (xTarget, yTarget, YTarget) corresponding target tristimulus values (XTarget, YTarget, ZTarget) it is ((xTarget/
yTarget)*YTarget, YTarget, (1-xTarget-yTarget)/yTarget*YTarget);
S62: by the tristimulus values (X of black pictureBLACK, YBLACK, ZBLACK), and eliminate after black picture light leak affects red, green
Tristimulus values (X with blue pictureRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE) and target three sting
Swash value (XTarget, YTarget, ZTarget) substitute into formula one, calculate object brightness coefficient sets (r1, g1, b1).
It addition, with reference to shown in Fig. 5, a kind of method flow calculating current brightness factor group provided for the embodiment of the present application
Figure, wherein, calculates current brightness factor group (r2, g2, b2) according to following steps:
S71: obtain current setpoint value (R, G, B), searches and current setpoint value (R, G, B) correspondence in presetting database
Current relative luminance group (Tr, Tg, Tb), is set to display device measure display device at i-stage debugging GTG currently to set
Put value group (R, G, B) display;
S72: calculate current tristimulus values (XCurrently, YCurrently, ZCurrently), it may be assumed that
Measure current chroma brightness (xCurrently, yCurrently, YCurrently), substitute into formula two and obtain
Obtain the current tristimulus values (X that current setpoint value group (R, G, B) is correspondingCurrently, YCurrently, ZCurrently) it is ((xCurrently/yCurrently)*
YCurrently, YCurrently, (1-xCurrently-yCurrently)/yCurrently*YCurrently);
S73: by the tristimulus values (X of black pictureBLACK, YBLACK, ZBLACK), and eliminate after black picture light leak affects red, green
Tristimulus values (X with blue pictureRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE) and when first three stings
Swash value (XCurrently, YCurrently, ZCurrently) substitute into formula one, calculate current brightness factor group (r2, g2, b2).
Presetting database is searched and adjusts relative luminance Tr ', Tg ', Tb ' respective immediate relative luminance Tr ",
Tg ", Tb " time, can by calculate multiple differences absolute value, the method then multiple absolute values compared, with obtain
Immediate relative luminance Tr ", Tg ", Tb ", and then determine to close on value be set.Concrete, with reference to shown in Fig. 6, real for the application
Execute a kind of flow chart searching the neighbouring method that value is set in presetting database that example provides, wherein, according to following steps meter
Calculate and adjust relative luminance group (Tr ', Tg ', Tb '), search with to adjust relative luminance Tr ', Tg ', Tb ' respective immediate relatively bright
Degree Tr ", Tg ", Tb " and with immediate relative luminance Tr ", Tg ", Tb " corresponding adjacent to arranging value R ', G ', B ':
S81: calculate and adjust relative luminance group (Tr ', Tg ', Tb '), wherein Tr '=r1/r2*Tr, Tg '=r1/r2*Tg,
Tb '=r1/r2*Tb;
S82: calculate the relative luminance Lj that value j is set in presetting database respectivelyRelativelyWith adjust relative luminance group (Tr ',
The absolute value of Tg ', Tb ') in Tr ', Tg ', Tb ' difference;
S83: will be with the relative luminance Lj of the absolute value minimum adjusting relative luminance Tr ' differenceRelativelyIt is recorded as adjusting relatively bright
Degree Tr ' immediate relative luminance Tr ", will be with the relative luminance Lj of the absolute value minimum adjusting relative luminance Tg ' differenceRelativelyNote
Record is for adjusting relative luminance Tg ' immediate relative luminance Tg ", will be minimum with the absolute value adjusting relative luminance Tb ' difference
Relative luminance LjRelativelyIt is recorded as adjusting relative luminance Tb ' immediate relative luminance Tb ";
S8l: search immediate relative luminance Tr " corresponding in presetting database neighbouring value R is set ', lookup connects most
Near relative luminance Tg " corresponding in presetting database neighbouring value G is set ', search immediate relative luminance Tb " default
Corresponding in data base neighbouring value B is set ', record adjacent to arranging value group (R ', G ', B ').
It should be noted that in the above embodiments of the present application, although use the mode of tristimulus values to carry out transform operation
To obtain corresponding data, but, the method that not representing the application provides is confined to use tristimulus values to carry out computing change
Changing, the method that the application provides can also use the operation transform of other colorimetrys to obtain the data needed, to this application not
Make concrete restriction.
By the data enumerated below, further describe the GTG of the adjustment display device that the embodiment of the present application provides
Transition and the method for color, wherein, display device include zero level GTG to the 255th grade of GTG, the embodiment of the present application is by the 255th
Level GTG illustrates as a debugging GTG, shown in reference table 2, for presetting database part data, describes for convenience, its
In, red, green the arrange value corresponding with blue subpixels is set to 0 to 127, and all colours sub-pixel is correspondingly arranged value institute
The relative luminance enumerated is the most identical:
Table 2
Then, determine that the process of the goal setting value group of the 255th grade of GTG is as follows:
First, the target colorimetric brightness (x of the 255th grade of GTG is determinedTarget, yTarget, YTarget):
Measure tristimulus values respectively (X when display device shows white and black picture respectivelyWHITE, YWHITE, ZWHITE)=
(420.9295,441.9211,555.9272) and (XBLACK, YBLACK, ZBLACK)=(0.451026,0.40401,0.977368),
And, the tristimulus values of red, green and blue picture is (X after eliminating the impact of black picture light leakRED, YRED, ZRED)=(153.0896,
84.08862,9.193421), (XGREEN, YGREEN, ZGREEN)=(172.8268,324.0919,47.52904) and (XBLUE,
YBLUE, ZBLUE)=(104.4037,34.19821,554.3942), obtain, with this, chroma luminance that display device can show
Relational expression:
By (X, Y, Z)=(XWHITE, YWHITE, ZWHITE)=(420.9295,441.9211,555.9272) substitute into formula one
Solve the high-high brightness coefficient sets (r that three primary colors is correspondingmax, gmax, bmax)=(0.996975,1.012004,0.902879), three
The minimum brightness coefficient sets that primary colors is corresponding is (0,0,0);
Wherein, tristimulus values (X, Y, Z) and colourity (x, relational expression y) is:
Wherein, goal-selling colourity (xTarget, yTarget)=(0.30,0.31);
In conjunction with formula one, formula two and target colorimetric: work as r=rmaxWhen=0.996975, g, b and Y are unknown number, solve Y
=416.0884;Work as g=gmaxWhen=1.012004, r, b, Y are unknown number, solve Y=449.0444;Work as b=bmax=
When 0.902879, r, g, Y are that unknown number solves Y=441.6944, wherein, work as r=rmaxWhen=0.996975, the Y value solved is
Little, it is the 255th grade of gray-scale intensity.In like manner, trying to achieve zero level gray-scale intensity is Y=0.821156.
It is calculated the target colorimetric brightness (x that debugging the 255th grade of GTG of GTG is corresponding by above-mentionedTarget, yTarget, YTarget)=
(0.30,0.31,416.0884).
Secondly, the goal setting value group (R of the 255th grade of GTG is determinedTarget, GTarget, BTarget):
S100: according to (xTarget, yTarget, YTarget)=(0.30,0.31,416.0884), formula one and formula two, try to achieve three former
Object brightness coefficient sets (r1, g1, b1)=(0.996975287,0.937659981,0.850430949) of color.
S200: enumerate current setpoint value (R, G, B)=(0,0, the 0) display controlling display device with the 255th grade of GTG, survey
Obtain the current chroma brightness (x of display deviceCurrently, yCurrently, YCurrently)=(0.296680391,0.311475754,441.9211426),
According to current chroma brightness, formula one and formula two, try to achieve trichromatic current brightness factor group (r2, g2, b2)=
(0.996975287,1.012004296,0.902878612).
S300: search corresponding with current setpoint value group (R, G, B)=(0,0,0) the most relatively bright in presetting database
Degree group (Tr, Tg, Tb)=(1,1,1), then by corresponding for described current relative luminance group (Tr, Tg, Tb) divided by described the brightest
Degree coefficient sets (r2, g2, b2), then is multiplied by described object brightness coefficient sets (r1, g1, b1), be adjusted relative luminance group (Tr ',
Tg ', Tb ')=(1,0.92653755,0.941910615), i.e. Tr '=r1/r2*Tr, Tg '=r1/r2*Tg, Tb '=r1/
r2*Tb。
S400: search and adjust in relative luminance group (Tr ', Tg ', Tb ') immediate relatively bright in presetting database
Degree group (Tr ", Tg ", Tb ")=(1,0.926804956,0.941883047), corresponding neighbouring arrange value group (R ', G ', B ')=
(0,21,18), records this neighbouring value group (0,21,18) that arranges, and judges that this neighbouring arrange value group and measure the most in step s 200
Cross, then current setpoint value group (0,0,0) reset to adjacent to arranging value group (0,21,18), and return in step S200, i.e.
Control display device with current setpoint value group (0,21,18) show, record chroma luminance for (0.3002,0.3101,
416.0988), current brightness factor group (0.999108341,0.937257259,0.849433572), this current setting are obtained
The relative luminance group of value group (0,21,18) correspondence is (1,0.926804956,0.941883047), and then is adjusted relatively bright
Degree group is (0.997865043,0.927203186,0.942988975);Presetting database is searched and adjusts relative luminance
Organizing immediate relative luminance group is (0.998622368,0.926804956,0.941883047), and the neighbouring of correspondence arranges value
Group is (1,21,18), records this renewal and arranges value group (1,21,18), and judges that this is adjacent to arranging value group the most in step s 200
Measured, then current setpoint value group (0,21,18) reset to adjacent to arranging value group (1,21,18), and return in step S200,
That is,
Control display device with current setpoint value group (1,21,18) show, record chroma luminance for (0.3001,0.3101,
416.0858), obtaining current brightness factor group is (0.99764892,0.937572685,0.849641639), this current setting
The relative luminance group of value group (1,21,18) correspondence is (0.998622368,0.926804956,0.941883047), and then obtains
Adjusting relative luminance group is (0.997948078,0.926891249,0.942758048);Presetting database is searched and adjusts
Whole relative luminance group immediate relative luminance group is (0.998622368,0.926804956,0.941883047), corresponding
The neighbouring value group that arranges, for (1,21,18), records this renewal and arranges value group (1,21,18), and judges that this neighbouring arrange value group and exist
Measured in step S200, then with this, neighbouring to arrange value group (1,21,18) be goal setting value group (RTarget, GTarget, BTarget)。
Additionally, the embodiment of the present application additionally provides a kind of GTG transition adjusting display device and the device of color, reference
Shown in Fig. 7, a kind of GTG transition adjusting display device provided for the embodiment of the present application and the structural representation of the device of color
Figure, wherein, display device include zero level GTG to m level GTG, zero level GTG to m level GTG includes that n debugging is grey
Rank, device includes:
Chroma luminance acquisition module 100, for obtaining the target colorimetric brightness (x that i-stage debugging GTG is correspondingTarget, yTarget,
YTarget) and current chroma brightness (xCurrently, yCurrently, YCurrently);
Memory module 200, is used for storing presetting database, and data base includes multiple different arranging value and multiple not homophase
To brightness, each value each corresponding relative luminance is set;
Module 300 is set, for arranging, the current setpoint value group (R, G, B) that value forms is set by multiple, control display dress
Put and show with current setpoint value group (R, G, B), in order to chroma luminance acquisition module obtains current chroma brightness (xCurrently, yCurrently,
YCurrently);
Data analysis module 400, is used for calculating target colorimetric brightness (xTarget, yTarget, YTarget) corresponding object brightness coefficient sets
(r1, g1, b1), current chroma brightness (xCurrently, yCurrently, YCurrently) corresponding current brightness factor group (r2, g2, b2), search and currently set
Put value group (R, G, B) current relative luminance group (Tr, Tg, Tb) corresponding to presetting database, and calculate and find out neighbouring
Value group (R ', G ', B ') is set;
Judge module 500, is used for judging neighbouring arranging whether value group (R ', G ', B ') is measured by chroma luminance acquisition module
Cross, if measuring, it is determined that this is neighbouring, and to arrange value group (R ', G ', B ') be goal setting value group (RTarget, GTarget, BTarget);If no
Measured, then value group (R ', G ', B ') was set for neighbouring by arranging module reset current setpoint value group (R, G, B);
Wherein, m is more than or equal to n, and m, n are positive integer.
Concrete, in presetting database, each the most corresponding relative luminance of value, lookup in presetting database are set
During data, data analysis module is in searching data procedures, and its search direction is two-way.I.e. data analysis module is by arranging
Value searches corresponding relative luminance, or, searched by relative luminance and corresponding value is set.
GTG transition and the method for color with the adjustment display device that above-described embodiment provides are corresponding, and the application is real
That executes that example provides arranges module and also can arrange initial setting group (R0, G0, B0), and controls display device with current setpoint value group
(R0, G0, B0) shows.That is, before calculating adjustment relative luminance group for the first time, need the current chroma measuring display device bright
Degree, the embodiment of the present application arranges the display device initial setting in the original state of i-stage debugging GTG by arranging module
Group is current setpoint value group, controls display device and shows, to measure its current chroma brightness.
It addition, data analysis module also can according to object brightness coefficient sets (r1, g1, b1), current brightness factor group (r2,
G2, b2) and the present intensity group (Tr, Tg, Tb) searched calculate and adjust relative luminance group (Tr ', Tg ', Tb ').
Data analysis module may further look in presetting database with to adjust relative luminance group (Tr ', Tg ', Tb ') immediate
Relative luminance (Tr ", Tg ", Tb ") and immediate relative luminance group (Tr ", Tg ", Tb ") corresponding neighbouring value group is set
(R ', G ', B ').
As shown in the above, Tr '=r1/r2*Tr, Tg '=r1/r2*Tg, Tb '=r1/r2*Tb, it is calculated adjustment
Relative luminance group (Tr ', Tg ', Tb ') after, in presetting database, search and adjust relative luminance Tr ', Tg ', Tb ' respectively each
Immediate relative luminance Tr ", Tg ", Tb ", with according to immediate relative luminance Tr ", Tg ", Tb " determine with adjust relatively bright
Degree Tr ', Tg ', Tb ' is each self-corresponding neighbouring arranges value R ', G ', B ', and then obtain adjacent to arranging value group (R ', G ', B ')
A kind of GTG transition adjusting display device of the embodiment of the present application offer and the method and device of color, any one
When debugging GTG is adjusted, first-selection debugs acquisition target colorimetric brightness corresponding to GTG, object brightness coefficient sets, present intensity
Colourity and current brightness factor group, according to current relative luminance group corresponding to current chroma brightness, object brightness coefficient sets with work as
Front luminance factor group, calculates adjustment relative luminance group, and then searches in presetting database and determine and target relative luminance pair
The goal setting value group answered, and then by goal setting value group, debugging GTG is adjusted, to reach to adjust display device
GTG transition and the purpose of color.The technical scheme that the embodiment of the present application provides, without manually adjusting, improves production efficiency;Separately
Outward, use the mode searching presetting database to determine goal setting value group, reduce further the GTG mistake adjusting display device
Cross the time with color, improve production efficiency.
Claims (13)
1. the GTG transition adjusting display device and the method for color, it is characterised in that described display device includes the 0th
Level GTG is to m level GTG, and described zero level GTG to m level GTG includes n debugging GTG, adjusts i-stage debugging GTG
Method include:
S1: obtain presetting database, described presetting database includes multiple different value and multiple difference relative luminance of arranging, often
Individual described value each corresponding described relative luminance is set;Obtain the target colorimetric brightness (x of described i-stage debugging GTGTarget,
yTarget, YTarget), the tristimulus values (X of black pictureBLACK, YBLACK, ZBLACK) and eliminate red, green and blue after the impact of black picture light leak
Tristimulus values (the X of pictureRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE), calculate object brightness
Coefficient sets (r1, g1, b1);
S2: obtain current setpoint value group (R, G, B), in described presetting database search with described current setpoint value group (R, G,
B) corresponding current relative luminance group (Tr, Tg, Tb);Measure described display device at described i-stage debugging GTG currently to set
Put current chroma brightness (x during value group (R, G, B) displayCurrently, yCurrently, YCurrently), and calculate current brightness factor group (r2, g2,
b2);
S3: calculating adjustment relative luminance group (Tr ', Tg ', Tb '), wherein, Tr '=r1/r2*Tr, Tg '=r1/r2*Tg, Tb '=
r1/r2*Tb;And search the most closest with described adjustment relative luminance Tr ', Tg ', Tb ' in described presetting database respectively
Described relative luminance Tr ", Tg ", Tb ", with according to described immediate described relative luminance Tr ", Tg ", Tb " determine with described
Adjust that relative luminance Tr ', Tg ', Tb ' are each self-corresponding neighbouring arranges value R ', G ', B ';
S4: judge the neighbouring value group (R ', G ', B ') that arranges the most through the measurement of described step S2, if, it is determined that described neighbour
Closely arranging value group (R ', G ', B ') is goal setting value group (RTarget, GTarget, BTarget);If it is not, then by described current setpoint value group (R,
G, B) reset to and described neighbouring value group (R ', G ', B ') is set, and return described step S2;
Wherein, m is more than or equal to n, and m, n are positive integer, (xTarget, yTarget, YTarget) and (r1, g1, b1), (xCurrently, yCurrently, YCurrently) with
(r2, g2, b2) meets:
With
(X, Y, Z) be described display device can show any one colored picture time tristimulus values, (r, g b) corresponding represent
For any one luminance factor group of Red Green Blue, (x y) refers to xy in CIE1931-xyY standard colorimetric system
Value, represents colourity, and Y represents brightness.
The GTG transition of adjustment display device the most according to claim 1 and the method for color, it is characterised in that by following
Step sets up described presetting database:
S21: obtain described i-stage debugging multiple values that arrange corresponding to GTG, and measure described display device and set described in each
Put the brightness under value;
S22: obtain the plurality of minimum brightness Lmin arranged in each self-corresponding brightness of value and high-high brightness Lmax;
S23: the described relative luminance Lj that value j is setRelatively=(Lj-Lmin)/(Lmax-Lmin), wherein Lj be any one described in set
Put the brightness that value is corresponding.
The GTG transition of adjustment display device the most according to claim 2 and the method for color, it is characterised in that obtain black
Tristimulus values (the X of pictureBLACK, YBLACK, ZBLACK), and eliminate the tristimulus of red, green and blue picture after black picture light leak affects
Value (XRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE) step be:
S31: measure described display device and show that the tristimulus values of black picture is for (XBLACK, YBLACK, ZBLACK), measure described display
Tristimulus values when device shows red, green and blue picture respectively is respectively (XRED', YRED', ZRED’)、(XGREEN', YGREEN',
ZGREEN') and (XBLUE', YBLUE', ZBLUE’);
S32: each expression amount of the tristimulus values of described display device red, green and blue picture is individually subtracted described display device
Show each expression amount of the tristimulus values of black picture, three thorns of red, green and blue picture after the black picture light leak that is eliminated impact
Swash value (XRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE),
XRED=XRED’-XBLACK, YRED=YRED’-YBLACK, ZRED=ZRED’-ZBLACK;
XGREEN=XGREEN’-XBLACK, YGREEN=YGREEN’-YBLACK, ZGREEN=ZGREEN’-ZBLACK;
XBLUE=XBLUE’-XBLACK, YRED=YBLUE’-YBLACK, ZBLUE=ZBLUE’-ZBLACK。
The GTG transition of adjustment display device the most according to claim 3 and the method for color, it is characterised in that obtain institute
State the target colorimetric brightness (x of i-stage debugging GTGTarget, yTarget, YTarget) including:
S41: obtain target colorimetric (xTarget, yTarget);
S42: tristimulus values when measuring white picture is (XWHITE, YWHITE, ZWHITE);
S43: by the tristimulus values (X of described white pictureWHITE, YWHITE, ZWHITE) substitute into described formula one and try to achieve described three primary colors pair
The high-high brightness coefficient sets answered is (r=rmax, g=gmax, b=bmax), by the tristimulus values (X of described black pictureBLACK, YBLACK,
ZBLACK) substitute into described formula one and try to achieve minimum brightness coefficient sets corresponding to described three primary colors for (r=0, g=0, b=0);
S44: by described target colorimetric (xTarget, yTarget) and described high-high brightness coefficient sets in any one value substitute into described formula two He
Described formula one, the minima of the Y tried to achieve is m level gray-scale intensity Lmax ';And, by described target colorimetric (xTarget, yTarget) and
In described minimum brightness coefficient sets, any one value and described formula two substitute into described formula one, and the maximum of the Y tried to achieve is the 0th
Level gray-scale intensity Lmin ';
S45: according to YTarget=(i/m)γ* (Lmax '-Lmin ')+Lmin ', reaches described aim colour calculating described display device
Degree (xTarget, yTarget) time described i-stage debugging object brightness Y corresponding to GTGTarget, wherein, i is the grade of described debugging GTG, γ
Default gamma value for described display device.
The GTG transition of adjustment display device the most according to claim 4 and the method for color, it is characterised in that described mesh
Mark colourity (xTarget, yTarget) it is the colourity of white balance picture under described i-stage debugging GTG.
The GTG transition of adjustment display device the most according to claim 4 and the method for color, it is characterised in that according to
Lower step calculates described object brightness coefficient sets (r1, g1, b1):
S61: by described target colorimetric brightness (xTarget, yTarget, YTarget), substitute into formula two and obtain
Obtain described target colorimetric brightness (xTarget, yTarget, YTarget) corresponding target tristimulus values (XTarget, YTarget, ZTarget) it is ((xTarget/
yTarget)*YTarget, YTarget, (1-xTarget-yTarget)/yTarget*YTarget);
S62: by the tristimulus values (X of described black pictureBLACK, YBLACK, ZBLACK), and eliminate described in after the impact of black picture light leak
Tristimulus values (the X of red, green and blue pictureRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE) and described
Target tristimulus values (XTarget, YTarget, ZTarget) substitute into formula one, calculate described object brightness coefficient sets (r1, g1, b1).
The GTG transition of adjustment display device the most according to claim 6 and the method for color, it is characterised in that according to
Following steps calculate current brightness factor group (r2, g2, b2):
S71: obtain described current setpoint value (R, G, B), in described presetting database search with described current setpoint value (R, G,
B) corresponding described current relative luminance group (Tr, Tg, Tb), is set to described display device measure described display device in institute
State i-stage debugging GTG to show with described current setpoint value group (R, G, B);
S72: measure described current chroma brightness (xCurrently, yCurrently, YCurrently), substitute into formula two and obtain
Obtain the current tristimulus values (X that described current setpoint value group (R, G, B) is correspondingCurrently, YCurrently, ZCurrently) it is ((xCurrently/yCurrently)*
YCurrently, YCurrently, (1-xCurrently-yCurrently)/yCurrently*YCurrently);
S73: by the tristimulus values (X of described black pictureBLACK, YBLACK, ZBLACK), and eliminate described in after the impact of black picture light leak
Tristimulus values (the X of red, green and blue pictureRED, YRED, ZRED)、(XGREEN, YGREEN, ZGREEN) and (XBLUE, YBLUE, ZBLUE) and described
Current tristimulus values (XCurrently, YCurrently, ZCurrently) substitute into formula one, calculate described current brightness factor group (r2, g2, b2).
The GTG transition of adjustment display device the most according to claim 7 and the method for color, it is characterised in that according to
Lower step calculate described adjustment relative luminance group (Tr ', Tg ', Tb '), search each with described adjustment relative luminance Tr ', Tg ', Tb '
From immediate described relative luminance Tr ", Tg ", Tb " and with described immediate relative luminance Tr ", Tg ", Tb " corresponding
Described neighbouring value R is set ', G ', B ':
S81: calculate and adjust relative luminance group (Tr ', Tg ', Tb '), wherein Tr '=r1/r2*Tr, Tg '=r1/r2*Tg, Tb '=
r1/r2*Tb;
S82: calculate the relative luminance Lj that value j is set described in described presetting database respectivelyRelativelyWith adjustment relative luminance group
Tr ' in (Tr ', Tg ', Tb '), Tg ', Tb ' absolute value of difference;
S83: will be with the relative luminance Lj of the absolute value minimum of described adjustment relative luminance Tr ' differenceRelativelyIt is recorded as described adjustment phase
Relative luminance Tr immediate to brightness Tr ' ", will be minimum with the absolute value of described adjustment relative luminance Tg ' difference relatively bright
Degree LjRelativelyIt is recorded as described adjustment relative luminance Tg ' immediate relative luminance Tg ", will be poor with described adjustment relative luminance Tb '
The relative luminance Lj that the absolute value of value is minimumRelativelyIt is recorded as described adjustment relative luminance Tb ' immediate relative luminance Tb ";
S8l: search described immediate relative luminance Tr " in described presetting database, correspondence is described adjacent to arranging value R ',
Search described immediate relative luminance Tg " in described presetting database, correspondence is described adjacent to arranging value G ', search described
Immediate relative luminance Tb " in described presetting database, correspondence is described adjacent to arranging value B ', record described neighbouring setting
Value group (R ', G ', B ').
9. the GTG transition adjusting display device and the device of color, it is characterised in that described display device includes the 0th
Level GTG is to m level GTG, and described zero level GTG to m level GTG includes n debugging GTG, and described device includes:
Chroma luminance acquisition module, for obtaining the target colorimetric brightness (x that i-stage debugging GTG is correspondingTarget, yTarget, YTarget) and
Current chroma brightness (xCurrently, yCurrently, YCurrently);
Memory module, is used for storing presetting database, and described data base includes that multiple different to arrange value relative with multiple differences
Brightness, each described arranges value each corresponding described relative luminance;
Module is set, by multiple described the current setpoint value group (R, G, B) that value forms is set for arranging, control described display and fill
Put and show with current setpoint value group (R, G, B);
Data analysis module, is used for calculating described target colorimetric brightness (xTarget, yTarget, YTarget) corresponding object brightness coefficient sets
(r1, g1, b1), described current chroma brightness (xCurrently, yCurrently, YCurrently) corresponding current brightness factor group (r2, g2, b2), search institute
State current setpoint value group (R, G, B) in present intensity group (Tr, Tg, Tb) corresponding to described presetting database, and calculate and look into
Find out and neighbouring value group (R ', G ', B ') is set;
Judge module, is used for judging described neighbouring arranging whether value group (R ', G ', B ') is measured by described chroma luminance acquisition module
Cross;
Wherein, m is more than or equal to n, and m, n are positive integer.
The GTG transition of adjustment display device the most according to claim 9 and the device of color, it is characterised in that described
Data analysis module searches corresponding described relative luminance by the described value that arranges, or, it is right to be searched by described relative luminance
That answers described arranges value.
The GTG transition of 11. adjustment display devices according to claim 9 and the device of color, it is characterised in that described
Module is set initial setting group (R0, G0, B0) also can be set, and control described display device with described current setpoint value group
(R, G, B) shows, and described current setpoint value group (R, G, B) is described initial setting group (R0, G0, B0).
The GTG transition of 12. adjustment display devices according to claim 9 and the device of color, it is characterised in that described
Data analysis module also can be according to described object brightness coefficient sets (r1, g1, b1), described current brightness factor group (r2, g2, b2)
And the described present intensity group (Tr, Tg, Tb) of described lookup calculates and adjusts relative luminance group (Tr ', Tg ', Tb ').
The GTG transition of 13. adjustment display devices according to claim 12 and the device of color, it is characterised in that described
Data analysis module may further look in described presetting database immediate with described adjustment relative luminance group (Tr ', Tg ', Tb ')
Described relative luminance (Tr ", Tg ", Tb ") and described immediate relative luminance group (Tr ", Tg ", Tb ") corresponding neighbouring set
Put value group (R ', G ', B ').
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