CN106097990B - A kind of display control method and electronic equipment - Google Patents
A kind of display control method and electronic equipment Download PDFInfo
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- CN106097990B CN106097990B CN201610320363.2A CN201610320363A CN106097990B CN 106097990 B CN106097990 B CN 106097990B CN 201610320363 A CN201610320363 A CN 201610320363A CN 106097990 B CN106097990 B CN 106097990B
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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
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
- G09G3/36—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
- G09G3/3607—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals for displaying colours or for displaying grey scales with a specific pixel layout, e.g. using sub-pixels
-
- 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
- G09G2320/0666—Adjustment of display parameters for control of colour parameters, e.g. colour temperature
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2340/00—Aspects of display data processing
- G09G2340/06—Colour space transformation
Abstract
The invention discloses a kind of display control method and electronic equipments.Wherein, method includes: to obtain the colour vision parameter of user;Judge whether the colour vision parameter obtained meets the first preset condition;First preset condition characterizes the user to the perceptibility of at least two colors less than the first preset threshold;When the colour vision parameter that judging result characterization obtains meets first preset condition, the corresponding first wave length parameter of the user is determined;The first wave length parameter is the undistinguishable color wavelength section of the user;Using determining first wave length parameter, by adjusting electronic equipment display parameters of video card, the mobile display corresponds to primary colors dominant wavelength, so that the user can tell the color shown on the display panel.
Description
Technical field
The present invention relates to electronic field more particularly to a kind of display control methods and electronic equipment.
Background technique
Colour blindness is a kind of dyschromatopsia, and usually congenital heredity causes.It is common performance be cannot be distinguished certain colors or
Person is identification color.
According to Physiologic Studies, retina is the vital organ why human eye can recognize color, and people
There are three types of different cone cells on the retina of class to identify color, and respectively L bores cell, M cone cell and S and bores cell, it
It is sensitive to long wave (red light), medium wave (green light) and shortwave (blue light) respectively.And colour blindness is the cone due to retina
Intracellular photopigment is abnormal or incomplete, results in shortage and distinguishes certain or certain varicolored ability.
When colour blindness crowd uses electronic equipment, due to that cannot be identified at least one color, so cannot clearly differentiate
Pattern shown on electronic equipment display display screen out, and then complete information cannot be obtained from the pattern of display.
Summary of the invention
To solve existing technical problem, the embodiment of the present invention provides a kind of display control method and electronic equipment.
In order to achieve the above objectives, the technical solution of the embodiment of the present invention is achieved in that
The embodiment of the invention provides a kind of display control methods, are applied to electronic equipment, and the electronic equipment includes aobvious
Show device;The described method includes:
Obtain the colour vision parameter of user;
Judge whether the colour vision parameter obtained meets the first preset condition;First preset condition characterizes the user
To the perceptibilities of at least two colors less than the first preset threshold;
When the colour vision parameter that judging result characterization obtains meets first preset condition, determine that the user is corresponding
First wave length parameter;The first wave length parameter is the undistinguishable color wavelength section of the user;
Using determining first wave length parameter, by adjusting the display parameters of video card, the mobile display is corresponding
Primary colors dominant wavelength, so that the user can tell the color shown on the display panel.
It is described using determining first wave length parameter in above scheme, it is mobile by adjusting the display parameters of video card
The display corresponds to primary colors dominant wavelength, comprising:
Using determining first wave length parameter, at least one parameter for needing to adjust in the second parameter is determined;Described second
Parameter is the RGB color value parameter of the video card;
Using the user to the susceptibility of local environment light, the adjusted value of at least one parameter is determined;
According to determining adjusted value, second parameter is adjusted.
In above scheme, it is described using the user to the susceptibility of local environment light, determine it is described at least one
The adjusted value of parameter, comprising:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
In above scheme, the method also includes:
The control signal for being directed to each pixel of the display is generated using second parameter of adjustment;
The control signal is responded, RGB sub-pixel grayscale in each pixel of the display is controlled and combines, make each pixel
The image that is projected using image data of point due to the adjustment of second parameter enable the user to it is described at least
The perceptibility of two kinds of colors is higher than first preset threshold.
In above scheme, the method also includes:
Receive the first operation;
First operation is responded, the first display content is generated;The first display content includes at least the video card
Second parameter;Second parameter is the RGB color value parameter of the video card;
The first display content is shown on the display panel;
The second operation of detection on the display screen;Second operation is at least one ginseng in second parameter
Several adjustment operations;
Second operation is responded, the second parameter of the video card is adjusted.
In above scheme, the colour vision parameter for obtaining user, comprising:
At least one pattern is shown on the display panel;Each pattern at least one described pattern is by more
Kind color is constituted;
The third operation of detection on the display screen;Third operation is to each pattern at least one pattern of display
Identification operation;
Third operation is responded, is determined to the identification duration of each pattern at least one pattern of display and correct
Property.
In above scheme, the method also includes:
Receive the 4th operation;
Respond the 4th operation, opening display dominant wavelength regulatory function.
The embodiment of the invention also provides a kind of electronic equipment, the electronic equipment has display, the electronic equipment
Include:
Acquiring unit, for obtaining the colour vision parameter of user;
Judging unit, judges whether the colour vision parameter obtained meets the first preset condition;The first preset condition characterization
The user is to the perceptibility of at least two colors less than the first preset threshold;
Determination unit determines when the colour vision parameter for obtaining when judging result characterization meets first preset condition
The corresponding first wave length parameter of the user;The first wave length parameter is the undistinguishable color wavelength of the user
Section;
Adjustment unit, for utilizing determining first wave length parameter, by the adjusting display parameters of video card, mobile institute
It states display and corresponds to primary colors dominant wavelength, so that the user can tell the face shown on the display panel
Color.
In above scheme, the adjustment unit includes:
First determining module, for determining in the second parameter and needing to adjust at least using determining first wave length parameter
One parameter;Second parameter is the RGB color value parameter of the video card;
Second determining module determines described at least one for the susceptibility using the user to local environment light
The adjusted value of a parameter;
Module is adjusted, for adjusting second parameter according to determining adjusted value.
In above scheme, second determining module is specifically used for:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
In above scheme, the adjustment unit further include:
Generation module generates the control letter for each pixel of the display for second parameter using adjustment
Number;
Execution module controls RGB sub-pixel grayscale group in each pixel of the display for responding the control signal
It closes, the image for enabling each pixel to project using image data is since the adjustment of second parameter is so that the user
Enough perceptibilities at least two color are higher than first preset threshold.
In above scheme, the electronic equipment further include:
First receiving unit, for receiving the first operation;
Generation unit generates the first display content for responding first operation;The first display content is at least wrapped
Include the second parameter of the video card;Second parameter is the RGB color value parameter of the video card;
Display unit, for showing the first display content on the display panel;
Detection unit, for detecting the second operation on the display screen;Second operation is to second ginseng
The adjustment operation of at least one parameter in number;
The adjusting unit is also used to respond second operation, adjusts the second parameter of the video card.
In above scheme, the acquiring unit includes:
Display module, for showing at least one pattern on the display panel;In at least one described pattern
Each pattern be made of multiple color;
Detection module, for detecting third operation on the display screen;Third operation is at least one to display
The identification operation of each pattern in pattern;
Third determining module is determined for responding the third operation to each pattern at least one pattern of display
Identification duration and correctness.
In above scheme, the electronic equipment further include:
Second receiving unit, for receiving the 4th operation;
Opening unit is operated, opening display dominant wavelength regulatory function with responding the described 4th.
Display control method and electronic equipment provided in an embodiment of the present invention obtain the colour vision parameter of user;Judgement obtains
Whether the colour vision parameter taken meets the first preset condition;First preset condition characterizes the user at least two colors
Perceptibility less than the first preset threshold;When the colour vision parameter that judging result characterization obtains meets first preset condition,
Determine the corresponding first wave length parameter of the user;The first wave length parameter is the undistinguishable color wave of the user
Long section;Using determining first wave length parameter, by adjusting electronic equipment display parameters of video card, the mobile display is corresponding
Primary colors dominant wavelength, so that the user can tell the color shown on the display panel, according to user
Colour blindness type and colour blindness degree adjustment display correspond to primary colors dominant wavelength, in this way, it is aobvious that user can be made clearly to tell
Show the various colors of screen display, to increase anomalous trichromatism and colour blindness crowd to the perceptibility of color, and then can be from the figure of display
Complete information is obtained in case.
Detailed description of the invention
In attached drawing (it is not necessarily drawn to scale), similar appended drawing reference can describe phase in different views
As component.Similar reference numerals with different letter suffix can indicate the different examples of similar component.Attached drawing with example and
Unrestricted mode generally shows each embodiment discussed herein.
Fig. 1 is the eye response curve synoptic diagram of normal person;
Fig. 2 is the eye response curve synoptic diagram of dyserythrochloropsia crowd;
Fig. 3 is for colour blindness crowd primary colors dominant wavelength moving direction schematic diagram shown in Fig. 2;
Fig. 4 is one display control method flow diagram of the embodiment of the present invention;
Fig. 5 is primary colors of embodiment of the present invention dominant wavelength colour gamut schematic diagram;
Fig. 6 is two display control method flow diagram of the embodiment of the present invention;
Fig. 7 is three display control method flow diagram of the embodiment of the present invention;
Fig. 8 is four electronic devices structure schematic diagram of the embodiment of the present invention;
Fig. 9 is five electronic devices structure schematic diagram of the embodiment of the present invention;
Figure 10 is six electronic devices structure schematic diagram of the embodiment of the present invention.
Specific embodiment
Further detailed description is done again to the present invention with reference to the accompanying drawings and embodiments.
Fig. 1 is the eye response curve synoptic diagram of normal person.Fig. 2 is that the eye response curve of dyserythrochloropsia crowd is illustrated
Figure.It can be seen that for dyserythrochloropsia crowd by the curve of comparison diagram 1 and Fig. 2, red and green cone cell pair
The response of wavelength tends to concentrate, so red and green is much like to the stimulation of vision, shows as protanopia anerythrochloropsia crowd to very much
It is red similar with the perception of green, it cannot be distinguished from red and green.For protanopia anerythrochloropsia crowd, in eye response curve
Red and green cone cell happiness treasured is almost overlapped the response of wavelength, so this visual characteristic just becomes apparent from.In this feelings
Under condition, when these anomalous trichromatisms and colour blindness crowd use electronic equipment, the color shown on display may not be able to be told completely.
When these anomalous trichromatisms and colour blindness crowd use electronic equipment, if visual characteristic (colour blindness type and the colour blindness of user can be directed to
Degree (such as: anomalous trichromatism or colour blindness etc.)) dominant wavelength of display RGB three-primary colours (primary colours) is suitably moved.As an example
For son, for protanopia anerythrochloropsia, the emission wavelength of green light unit is adjusted to the position from red light wavelength as far as possible as shown in Figure 3
It sets, and the emission wavelength of red light unit is adjusted to position from green wavelength as far as possible, it so to a certain extent can be with
Substantially improve dyserythrochloropsia or the color zones indexing and perception of colour blindness user.
On the other hand, since the display hardware of electronic equipment is designed according to normal person, hardware parameter is also not
It can be exchanged according to the needs of users, this is because: since current display all produces in the production line,
It cannot be the replacement of a simple hardware cell in tuning process, it is possible to produce a targetedly display again
Device, in this way, the cost exchanged can be very high;Moreover, realizing more troublesome.
So being directed to the colour blindness type and colour blindness degree of user, realize that adjustment display corresponds to the main wave of primary colors from hardware
Length is very difficult.
Based on this, in various embodiments of the present invention: obtaining the colour vision parameter of user;Judge the colour vision parameter obtained
Whether first preset condition is met;First preset condition characterizes the user and is less than to the perceptibility of at least two colors
First preset threshold;When the colour vision parameter that judging result characterization obtains meets first preset condition, the use is determined
The corresponding first wave length parameter of person;The first wave length parameter is the undistinguishable color wavelength section of the user;Using true
Fixed first wave length parameter, by adjusting electronic equipment display parameters of video card, the mobile display corresponds to primary colors dominant wavelength,
So that the user can tell the color shown on the display panel.
Embodiment one
The embodiment of the present invention provides a kind of display control method, is applied to electronic equipment, and the electronic equipment has display
Device.
Fig. 4 is one display control method flow diagram of the embodiment of the present invention.As shown in figure 4, this method includes following step
It is rapid:
Step 401: obtaining the colour vision parameter of user;
Specifically, at least one pattern is shown on the display panel;Each of at least one described pattern
Pattern is made of multiple color;
The third operation of detection on the display screen;Third operation is to each pattern at least one pattern of display
Identification operation;
Third operation is responded, is determined to the identification duration of each pattern at least one pattern of display and correct
Property.
Wherein, when practical application, the pattern of the display screen display can be common achromatopsia checking figure.
Certainly, when practical application, the specific implementation of this step is it may also is that user directly inputs the colour vision ginseng of oneself
Number, comprising: colour blindness type and extent.In other words, the colour vision parameter that the electronic equipment is inputted by user, getting makes
The colour vision parameter of user.
Wherein, the user can be known in advance by some common colour blindness test method such as achromatopsia checking figures etc.
The colour vision parameter of itself.
Step 402: judging whether the colour vision parameter obtained meets the first preset condition;
Here, it is default less than first to the perceptibility of at least two colors to characterize the user for first preset condition
Threshold value.
The purpose for executing this step is: judging whether the user is colour blindness or anomalous trichromatism crowd.
When the user to the perceptibility of at least two colors less than the first preset threshold when, illustrate that the user is
Colour blindness or anomalous trichromatism crowd.
Step 403: when the colour vision parameter that judging result characterization obtains meets first preset condition, making described in determination
The corresponding first wave length parameter of user;
Here, the first wave length parameter is the undistinguishable color wavelength section of the user.
When determining the user is colour blindness or anomalous trichromatism crowd, the user can be determined according to colour vision parameter not
The color that can be distinguished, and then can know the undistinguishable color wavelength section of the user.
Step 404: mobile described aobvious by adjusting the display parameters of video card using determining first wave length parameter
Show that device corresponds to primary colors dominant wavelength, so that the user can tell the color shown on the display panel.
Here, it when practical application, in order to realize the adjustment for corresponding to the display primary colors dominant wavelength, needs to adjust described
The RGB color look-up table value of video card adjusts the color mapping relationship of the video card.
Therefore, in one embodiment, the realization for adjusting the display parameters of video card, can specifically include:
Using determining first wave length parameter, at least one parameter for needing to adjust in the second parameter is determined;Described second
Parameter is the RGB color value parameter of the video card;
Using the user to the susceptibility of local environment light, the adjusted value of at least one parameter is determined;
According to determining adjusted value, second parameter is adjusted.
Wherein, according to the colour blindness type of the user (red-bindness, deuteranopia, tetartanopia, amblyopia for all colours, part anomalous trichromatism
Deng), need to adjust a parameter, two parameters or three parameters in RGB color value parameter.
(it is likely to be anomalous trichromatism, i.e., when underlit, chromatic discrimination power is bordering on color according to the colour blindness degree of the user
It is blind;But when substance color depth, distinctness and good illuminance, chromatic discrimination power is close to normally), at this point it is possible to according to the user couple
The susceptibility of the ambient light, to determine the adjusted value of at least one parameter.
Here, it is described using the user to the susceptibility of local environment light, determine at least one parameter
Adjusted value specifically includes:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
Specifically, when practical application, different adjusted values can be preset according to colour blindness in various degree, for institute
It states for user, according to its colour blindness degree, finds corresponding adjusted value in pre-set each adjusted value.
When practical application, the information that the RGB color look-up table of the video card includes includes: the RGB color value ginseng of source data
The RGB color value parameter and RGB color value parameter adjusted of number, normal display data.Wherein, the RGB color of source data
Value parameter refers to: the video card received image data RGB color value parameter, the RGB color of the normal display data
Value parameter refers to: RGB color value parameter when showing for general population (not being anomalous trichromatism or colour blindness crowd);The adjustment
RGB color value parameter afterwards refers to: being directed to user's colour blindness type and colour blindness degree RGB color value parameter adjusted.It is described
The form of expression of the RGB color look-up table of video card can be as shown in table 1.
Table 1
Wherein, after the video card receives source data, when the user is anomalous trichromatism or colour blindness crowd, after adjustment
The corresponding RGB color value of each color, source data is mapped on the display panel and is shown, at this point, the use
Person can tell the color shown on the display panel.When the user is normal population, then using just
The corresponding RGB color value of each color often shown, source data is mapped on the display panel and is shown.
It should be understood that the information content that the RGB color look-up table of the video card includes is very big, even there is 256* sometimes
The three dimensional lookup table of 256*256 data, the only example of content shown in table 1, not actual RGB color look-up table.
It should be understood that adjust anyway, it cannot all exceed the maximum display capabilities of the display.For example
For, as shown in fig. 5, it is assumed that the user is dyserythrochloropsia or colour blindness crowd, when adjustment, make the luminous wave of green light unit
It is long to adjust to the position from red light wavelength as far as possible, and the emission wavelength of red light unit is adjusted to as far as possible from green wavelength
Remote position (as shown in the arrow of triangle endpoint small in Fig. 5), still, the range of adjustment cannot be beyond the display most
Big display capabilities (range as shown in triangle big in Fig. 5).
After adjusting second parameter, need to generate using second parameter of adjustment for each pixel of the display
The control signal of point;
The control signal is responded, RGB sub-pixel grayscale in each pixel of the display is controlled and combines, make each pixel
The image that is projected using image data of point due to the adjustment of second parameter enable the user to it is described at least
The perceptibility of two kinds of colors is higher than first preset threshold.
By way of RGB sub-pixel grayscale combination in each pixel of control, reaches the mobile display and correspond to primary colors
The purpose of dominant wavelength.
By taking currently used liquid crystal display (LCD, Liquid Crystal Display) as an example, after LCD factory,
Various hardware parameters just have determined that.After adjusting second parameter, the control signal for being directed to each pixel of LCD is generated,
This control signal, which can control, to be applied to the voltage of each pixel and changes, and this changes refers to: being arranged when with LCD factory
Voltage compared to being changed, the voltage after change has further changed the optically-active state of liquid crystal, and the effect of liquid crystal material
It is equivalent to light valve small one by one, the change of liquid crystal optically-active state, so that light transmission and shading amount change, so that each picture
The combination of RGB sub-pixel grayscale changes in vegetarian refreshments, is thus realized by way of software to the display primary colors master
The purpose of wavelength adjustment.
It should be understood that the example above be by way of changing voltage realize RGB sub-pixel grayscale combination change
Become, when practical application, electric current etc. can also be changed such as by other means to realize the change of RGB sub-pixel grayscale combination.
After receiving image data, the RGB color value of the video card, the image that each pixel is projected are adjusted
Enough allow the user that can distinguish the color of its presentation, that is to say, that so that the rgb matrix of each pixel is changed, with
The color that the user can distinguish is presented on the display panel.For example for, it is assumed that in image data
A part include 16 pixels, then, according to the colour blindness type and colour blindness degree of user, pass through the tune of parameters of video card
It is whole, so that the rgb matrix of each pixel changes, obtain the rgb matrix before and after adjustment as shown in Table 2.
Table 2
Wherein, the rgb matrix that source data is included is the rgb matrix before adjustment.
It should be understood that rgb matrix shown in table 2 is an example, not actual rgb matrix.
Display control method provided in an embodiment of the present invention obtains the colour vision parameter of user;The colour vision ginseng that judgement obtains
Whether number meets the first preset condition;It is small to the perceptibility of at least two colors that first preset condition characterizes the user
In the first preset threshold;When the colour vision parameter that judging result characterization obtains meets first preset condition, make described in determination
The corresponding first wave length parameter of user;The first wave length parameter is the undistinguishable color wavelength section of the user;It utilizes
Determining first wave length parameter, by adjusting electronic equipment display parameters of video card, the mobile display corresponds to the main wave of primary colors
It is long, so that the user can tell the color shown on the display panel, according to the colour blindness kind of user
Class and colour blindness degree adjustment display correspond to primary colors dominant wavelength, show in this way, user can be made clearly to tell on display screen
The various colors shown to increase anomalous trichromatism and colour blindness crowd to the perceptibility of color, and then can be obtained from the pattern of display
Complete information.
In addition, scheme provided in an embodiment of the present invention does not need any hardware device to the display when realizing
It modifies, in this way, being easy to implement, and low in cost.
Embodiment two
The embodiment of the present invention provides a kind of display control method, is applied to electronic equipment, and the electronic equipment has display
Device.
Fig. 6 is two display control method flow diagram of the embodiment of the present invention.As shown in fig. 6, this method includes following step
It is rapid:
Step 601: obtaining the colour vision parameter of user;
Specifically, at least one pattern is shown on the display panel;Each of at least one described pattern
Pattern is made of multiple color;
The third operation of detection on the display screen;Third operation is to each pattern at least one pattern of display
Identification operation;
Third operation is responded, is determined to the identification duration of each pattern at least one pattern of display and correct
Property.
Wherein, when practical application, the pattern of the display screen display can be common achromatopsia checking figure.
Certainly, when practical application, the specific implementation of this step is it may also is that user directly inputs the colour vision ginseng of oneself
Number, comprising: colour blindness type and extent.In other words, the colour vision parameter that the electronic equipment is inputted by user, getting makes
The colour vision parameter of user.
Wherein, the user can be known in advance by some common colour blindness test method such as achromatopsia checking figures etc.
The colour vision parameter of itself.
Step 602: judging whether the colour vision parameter obtained meets the first preset condition;
Here, it is default less than first to the perceptibility of at least two colors to characterize the user for first preset condition
Threshold value.
The purpose for executing this step is: judging whether the user is colour blindness or anomalous trichromatism crowd.
When the user to the perceptibility of at least two colors less than the first preset threshold when, illustrate that the user is
Colour blindness or anomalous trichromatism crowd.
Step 603: when the colour vision parameter that judging result characterization obtains meets first preset condition, making described in determination
The corresponding first wave length parameter of user;
Here, the first wave length parameter is the undistinguishable color wavelength section of the user.
When determining the user is colour blindness or anomalous trichromatism crowd, the user can be determined according to colour vision parameter not
The color that can be distinguished, and then can know the undistinguishable color wavelength section of the user.
Step 604: mobile described aobvious by adjusting the display parameters of video card using determining first wave length parameter
Show that device corresponds to primary colors dominant wavelength, so that the user can tell the color shown on the display panel;
Here, it when practical application, in order to realize the adjustment for corresponding to the display primary colors dominant wavelength, needs to adjust described
The RGB color look-up table value of video card adjusts the color mapping relationship of the video card.
Therefore, in one embodiment, the realization for adjusting the display parameters of video card, can specifically include:
Using determining first wave length parameter, at least one parameter for needing to adjust in the second parameter is determined;Described second
Parameter is the RGB color value parameter of the video card;
Using the user to the susceptibility of local environment light, the adjusted value of at least one parameter is determined;
According to determining adjusted value, second parameter is adjusted.
Wherein, according to the colour blindness type of the user (red-bindness, deuteranopia, tetartanopia, amblyopia for all colours, part anomalous trichromatism
Deng), need to adjust a parameter, two parameters or three parameters in RGB color value parameter.
(it is likely to be anomalous trichromatism, i.e., when underlit, chromatic discrimination power is bordering on color according to the colour blindness degree of the user
It is blind;But when substance color depth, distinctness and good illuminance, chromatic discrimination power is close to normally), at this point it is possible to according to the user couple
The susceptibility of the ambient light, to determine the adjusted value of at least one parameter.
Here, it is described using the user to the susceptibility of local environment light, determine at least one parameter
Adjusted value specifically includes:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
Specifically, when practical application, different adjusted values can be preset according to colour blindness in various degree, for institute
It states for user, according to its colour blindness degree, finds corresponding adjusted value in pre-set each adjusted value.
When practical application, the information that the RGB color look-up table of the video card includes includes: the RGB color value ginseng of source data
The RGB color value parameter and RGB color value parameter adjusted of number, normal display data.Wherein, the RGB color of source data
Value parameter refers to: the video card received image data RGB color value parameter, the RGB color of the normal display data
Value parameter refers to: RGB color value parameter when showing for general population (not being anomalous trichromatism or colour blindness crowd);The adjustment
RGB color value parameter afterwards refers to: being directed to user's colour blindness type and colour blindness degree RGB color value parameter adjusted.It is described
The form of expression of the RGB color look-up table of video card can be as shown in table 1.
Wherein, after the video card receives source data, when the user is anomalous trichromatism or colour blindness crowd, after adjustment
The corresponding RGB color value of each color, source data is mapped on the display panel and is shown, at this point, the use
Person can tell the color shown on the display panel.When the user is normal population, then using just
The corresponding RGB color value of each color often shown, source data is mapped on the display panel and is shown.
It should be understood that the information content that the RGB color look-up table of the video card includes is very big, even there is 256* sometimes
The three dimensional lookup table of 256*256 data, the only example of content shown in table 1, not actual RGB color look-up table.
It should be understood that adjust anyway, it cannot all exceed the maximum display capabilities of the display.For example
For, as shown in fig. 5, it is assumed that the user is dyserythrochloropsia or colour blindness crowd, when adjustment, make the luminous wave of green light unit
It is long to adjust to the position from red light wavelength as far as possible, and the emission wavelength of red light unit is adjusted to as far as possible from green wavelength
Remote position (as shown in the arrow of triangle endpoint small in Fig. 5), still, the range of adjustment cannot be beyond the display most
Big display capabilities (range as shown in triangle big in Fig. 5).
After adjusting second parameter, need to generate using second parameter of adjustment for each pixel of the display
The control signal of point;
The control signal is responded, RGB sub-pixel grayscale in each pixel of the display is controlled and combines, make each pixel
The image that is projected using image data of point due to the adjustment of second parameter enable the user to it is described at least
The perceptibility of two kinds of colors is higher than first preset threshold.
By way of RGB sub-pixel grayscale combination in each pixel of control, reaches the mobile display and correspond to primary colors
The purpose of dominant wavelength.
By taking currently used LCD as an example, after LCD factory, various hardware parameters are just had determined that.Described in adjustment
After second parameter, the control signal for being directed to each pixel of LCD is generated, this control signal, which can control, is applied to each pixel
Voltage changes, and this change refers to: changed compared with the voltage that is arranged when LCD factory, the voltage after change into
One step changes the optically-active state of liquid crystal, and liquid crystal material functions as light valve small one by one, liquid crystal optically-active state
Change, so that light transmission and shading amount change, so that the combination of RGB sub-pixel grayscale changes in each pixel, this
Sample just realizes the purpose to display primary colors dominant wavelength adjustment by way of software.
It should be understood that the example above be by way of changing voltage realize RGB sub-pixel grayscale combination change
Become, when practical application, electric current etc. can also be changed such as by other means to realize the change of RGB sub-pixel grayscale combination.
After receiving image data, the RGB color value of the video card, the image that each pixel is projected are adjusted
Enough allow the user that can distinguish the color of its presentation, that is to say, that so that the rgb matrix of each pixel is changed, with
The color that the user can distinguish is presented on the display panel.For example for, it is assumed that in image data
A part include 16 pixels, then, according to the colour blindness type and colour blindness degree of user, pass through the tune of parameters of video card
It is whole, so that the rgb matrix of each pixel changes, obtain the rgb matrix before and after adjustment as shown in Table 2.
Wherein, the rgb matrix that source data is included is the rgb matrix before adjustment.
It should be understood that rgb matrix shown in table 2 is an example, not actual rgb matrix.
Step 605: receiving the first operation;
Here, practical although can achieve display primary colors dominant wavelength by way of the electronic equipment adjust automatically
In application, increasing user experience to meet user demand, the user can also be allowed to participate in adjustment display primary colors master
During wavelength, at this point it is possible to be needed according to the operation of the user to adjust the primary colors dominant wavelength of display.
During user adjustment anyway, it is still desirable to which explanation: adjusting, all cannot be beyond described
The maximum display capabilities of display.
Step 606: response first operation generates the first display content;
Here, the first display content includes at least the second parameter of the video card;Second parameter is described aobvious
The RGB color value parameter of card.
In other words, the content shown on a display screen can allow the user to realize to video card RGB color value ginseng
Several adjustment.
Step 607: the first display content is shown on the display panel;
Step 608: detecting the second operation on the display screen;
Here, second operation operates for the adjustment at least one parameter in second parameter.
Step 609: response second operation adjusts the second parameter of the video card.
Correspondingly, after adjusting second parameter, the electronic equipment can generate needle using second parameter of adjustment
To the control signal of each pixel of the display;
The control signal is responded, RGB sub-pixel grayscale in each pixel of the display is controlled and combines, make each pixel
The image that is projected using image data of point due to the adjustment of second parameter enable the user to it is described at least
The perceptibility of two kinds of colors is higher than first preset threshold.
By way of RGB sub-pixel grayscale combination in each pixel of control, reaches the mobile display and correspond to primary colors
The purpose of dominant wavelength.
Display control method provided in an embodiment of the present invention obtains the colour vision parameter of user;The colour vision ginseng that judgement obtains
Whether number meets the first preset condition;It is small to the perceptibility of at least two colors that first preset condition characterizes the user
In the first preset threshold;When the colour vision parameter that judging result characterization obtains meets first preset condition, make described in determination
The corresponding first wave length parameter of user;The first wave length parameter is the undistinguishable color wavelength section of the user;It utilizes
Determining first wave length parameter, by adjusting electronic equipment display parameters of video card, the mobile display corresponds to the main wave of primary colors
It is long, so that the user can tell the color shown on the display panel, according to the colour blindness kind of user
Class and colour blindness degree adjustment display correspond to primary colors dominant wavelength, show in this way, user can be made clearly to tell on display screen
The various colors shown to increase anomalous trichromatism and colour blindness crowd to the perceptibility of color, and then can be obtained from the pattern of display
Complete information.
In addition, scheme provided in an embodiment of the present invention does not need any hardware device to the display when realizing
It modifies, in this way, being easy to implement, and low in cost.
Embodiment three
The embodiment of the present invention provides a kind of display control method, is applied to electronic equipment, and the electronic equipment has display
Device.
Fig. 7 is three display control method flow diagram of the embodiment of the present invention.As shown in fig. 7, this method includes following step
It is rapid:
Step 701: receiving the 4th operation;
Here, the 4th operation is start-up operation of the user to display dominant wavelength regulatory function.
When practical application, the user can choose whether to need opening display dominant wavelength tune according to the needs of itself
Save function.
Step 702: response the 4th operation, opening display dominant wavelength regulatory function;
Step 703: obtaining the colour vision parameter of user;
Specifically, at least one pattern is shown on the display panel;Each of at least one described pattern
Pattern is made of multiple color;
The third operation of detection on the display screen;Third operation is to each pattern at least one pattern of display
Identification operation;
Third operation is responded, is determined to the identification duration of each pattern at least one pattern of display and correct
Property.
Wherein, when practical application, the pattern of the display screen display can be common achromatopsia checking figure.
Certainly, when practical application, the specific implementation of this step is it may also is that user directly inputs the colour vision ginseng of oneself
Number, comprising: colour blindness type and extent.In other words, the colour vision parameter that the electronic equipment is inputted by user, getting makes
The colour vision parameter of user.
Wherein, the user can be known in advance by some common colour blindness test method such as achromatopsia checking figures etc.
The colour vision parameter of itself.
Step 704: judging whether the colour vision parameter obtained meets the first preset condition;
Here, it is default less than first to the perceptibility of at least two colors to characterize the user for first preset condition
Threshold value.
The purpose for executing this step is: judging whether the user is colour blindness or anomalous trichromatism crowd.
When the user to the perceptibility of at least two colors less than the first preset threshold when, illustrate that the user is
Colour blindness or anomalous trichromatism crowd.
Step 705: when the colour vision parameter that judging result characterization obtains meets first preset condition, making described in determination
The corresponding first wave length parameter of user;
Here, the first wave length parameter is the undistinguishable color wavelength section of the user.
When determining the user is colour blindness or anomalous trichromatism crowd, the user can be determined according to colour vision parameter not
The color that can be distinguished, and then can know the undistinguishable color wavelength section of the user.
Step 706: mobile described aobvious by adjusting the display parameters of video card using determining first wave length parameter
Show that device corresponds to primary colors dominant wavelength, so that the user can tell the color shown on the display panel.
Here, it when practical application, in order to realize the adjustment for corresponding to the display primary colors dominant wavelength, needs to adjust described
The RGB color look-up table value of video card adjusts the color mapping relationship of the video card.
Therefore, in one embodiment, the realization for adjusting the display parameters of video card, can specifically include:
Using determining first wave length parameter, at least one parameter for needing to adjust in the second parameter is determined;Described second
Parameter is the RGB color value parameter of the video card;
Using the user to the susceptibility of local environment light, the adjusted value of at least one parameter is determined;
According to determining adjusted value, second parameter is adjusted.
Wherein, according to the colour blindness type of the user (red-bindness, deuteranopia, tetartanopia, amblyopia for all colours, part anomalous trichromatism
Deng), need to adjust a parameter, two parameters or three parameters in RGB color value parameter.
(it is likely to be anomalous trichromatism, i.e., when underlit, chromatic discrimination power is bordering on color according to the colour blindness degree of the user
It is blind;But when substance color depth, distinctness and good illuminance, chromatic discrimination power is close to normally), at this point it is possible to according to the user couple
The susceptibility of the ambient light, to determine the adjusted value of at least one parameter.
Here, it is described using the user to the susceptibility of local environment light, determine at least one parameter
Adjusted value specifically includes:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
Specifically, when practical application, different adjusted values can be preset according to colour blindness in various degree, for institute
It states for user, according to its colour blindness degree, finds corresponding adjusted value in pre-set each adjusted value.
When practical application, the information that the RGB color look-up table of the video card includes includes: the RGB color value ginseng of source data
The RGB color value parameter and RGB color value parameter adjusted of number, normal display data.Wherein, the RGB color of source data
Value parameter refers to: the video card received image data RGB color value parameter, the RGB color of the normal display data
Value parameter refers to: RGB color value parameter when showing for general population (not being anomalous trichromatism or colour blindness crowd);The adjustment
RGB color value parameter afterwards refers to: being directed to user's colour blindness type and colour blindness degree RGB color value parameter adjusted.It is described
The form of expression of the RGB color look-up table of video card can be as shown in table 1.
Wherein, after the video card receives source data, when the user is anomalous trichromatism or colour blindness crowd, after adjustment
The corresponding RGB color value of each color, source data is mapped on the display panel and is shown, at this point, the use
Person can tell the color shown on the display panel.When the user is normal population, then using just
The corresponding RGB color value of each color often shown, source data is mapped on the display panel and is shown.
It should be understood that the information content that the RGB color look-up table of the video card includes is very big, even there is 256* sometimes
The three dimensional lookup table of 256*256 data, the only example of content shown in table 1, not actual RGB color look-up table.
It should be understood that adjust anyway, it cannot all exceed the maximum display capabilities of the display.For example
For, as shown in fig. 5, it is assumed that the user is dyserythrochloropsia or colour blindness crowd, when adjustment, make the luminous wave of green light unit
It is long to adjust to the position from red light wavelength as far as possible, and the emission wavelength of red light unit is adjusted to as far as possible from green wavelength
Remote position (as shown in the arrow of triangle endpoint small in Fig. 5), still, the range of adjustment cannot be beyond the display most
Big display capabilities (range as shown in triangle big in Fig. 5).
After adjusting second parameter, need to generate using second parameter of adjustment for each pixel of the display
The control signal of point;
The control signal is responded, RGB sub-pixel grayscale in each pixel of the display is controlled and combines, make each pixel
The image that is projected using image data of point due to the adjustment of second parameter enable the user to it is described at least
The perceptibility of two kinds of colors is higher than first preset threshold.
By way of RGB sub-pixel grayscale combination in each pixel of control, reaches the mobile display and correspond to primary colors
The purpose of dominant wavelength.
By taking currently used LCD as an example, after LCD factory, various hardware parameters are just had determined that.Described in adjustment
After second parameter, the control signal for being directed to each pixel of LCD is generated, this control signal, which can control, is applied to each pixel
Voltage changes, and this change refers to: changed compared with the voltage that is arranged when LCD factory, the voltage after change into
One step changes the optically-active state of liquid crystal, and liquid crystal material functions as light valve small one by one, liquid crystal optically-active state
Change, so that light transmission and shading amount change, so that the combination of RGB sub-pixel grayscale changes in each pixel, this
Sample just realizes the purpose to display primary colors dominant wavelength adjustment by way of software.
It should be understood that the example above be by way of changing voltage realize RGB sub-pixel grayscale combination change
Become, when practical application, electric current etc. can also be changed such as by other means to realize the change of RGB sub-pixel grayscale combination.
After receiving image data, the RGB color value of the video card, the image that each pixel is projected are adjusted
Enough allow the user that can distinguish the color of its presentation, that is to say, that so that the rgb matrix of each pixel is changed, with
The color that the user can distinguish is presented on the display panel.For example for, it is assumed that in image data
A part include 16 pixels, then, according to the colour blindness type and colour blindness degree of user, pass through the tune of parameters of video card
It is whole, so that the rgb matrix of each pixel changes, obtain the rgb matrix before and after adjustment as shown in Table 2.
Wherein, the rgb matrix that source data is included is the rgb matrix before adjustment.
It should be understood that rgb matrix shown in table 2 is an example, not actual rgb matrix.
Display control method provided in an embodiment of the present invention obtains the colour vision parameter of user;The colour vision ginseng that judgement obtains
Whether number meets the first preset condition;It is small to the perceptibility of at least two colors that first preset condition characterizes the user
In the first preset threshold;When the colour vision parameter that judging result characterization obtains meets first preset condition, make described in determination
The corresponding first wave length parameter of user;The first wave length parameter is the undistinguishable color wavelength section of the user;It utilizes
Determining first wave length parameter, by adjusting electronic equipment display parameters of video card, the mobile display corresponds to the main wave of primary colors
It is long, so that the user can tell the color shown on the display panel, according to the colour blindness kind of user
Class and colour blindness degree adjustment display correspond to primary colors dominant wavelength, show in this way, user can be made clearly to tell on display screen
The various colors shown to increase anomalous trichromatism and colour blindness crowd to the perceptibility of color, and then can be obtained from the pattern of display
Complete information.
In addition, scheme provided in an embodiment of the present invention does not need any hardware device to the display when realizing
It modifies, in this way, being easy to implement, and low in cost.
Example IV
The method of embodiment one to realize the present invention, the present embodiment provides a kind of electronic equipment, which has aobvious
Show device, as shown in figure 8, the electronic equipment includes:
Acquiring unit 81, for obtaining the colour vision parameter of user;
Judging unit 82, judges whether the colour vision parameter obtained meets the first preset condition;The first preset condition table
The user is levied to the perceptibility of at least two colors less than the first preset threshold;
Determination unit 83, when the colour vision parameter for obtaining when judging result characterization meets first preset condition, really
Determine the corresponding first wave length parameter of the user;The first wave length parameter is the undistinguishable color wavelength of the user
Section;
Adjustment unit 84, for passing through the adjusting display parameters of video card, movement using determining first wave length parameter
The display corresponds to primary colors dominant wavelength, so that the user can tell the face shown on the display panel
Color.
Wherein, in one embodiment, the acquiring unit 81 may include:
Display module, for showing at least one pattern on the display panel;In at least one described pattern
Each pattern be made of multiple color;
Detection module, for detecting third operation on the display screen;Third operation is at least one to display
The identification operation of each pattern in pattern;
Third determining module is determined for responding the third operation to each pattern at least one pattern of display
Identification duration and correctness.
Wherein, when practical application, the pattern of the display screen display can be common achromatopsia checking figure.
Certainly, when practical application, user can directly input the colour vision parameter of oneself, comprising: colour blindness type and extent.
In other words, the colour vision parameter that the acquiring unit 81 is inputted by user gets the colour vision parameter of user.
The adjustment unit 84 may include: in one embodiment
First determining module, for determining in the second parameter and needing to adjust at least using determining first wave length parameter
One parameter;Second parameter is the RGB color value parameter of the video card;
Second determining module determines described at least one for the susceptibility using the user to local environment light
The adjusted value of a parameter;
Module is adjusted, for adjusting second parameter according to determining adjusted value.
Wherein, second determining module, is specifically used for:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
When practical application, the adjustment unit 84 can also include:
Generation module generates the control letter for each pixel of the display for second parameter using adjustment
Number;
Execution module controls RGB sub-pixel grayscale group in each pixel of the display for responding the control signal
It closes, the image for enabling each pixel to project using image data is since the adjustment of second parameter is so that the user
Enough perceptibilities at least two color are higher than first preset threshold.
The present embodiment each unit, the concrete processing procedure of module are as detailed above, and which is not described herein again.
Electronic equipment provided in an embodiment of the present invention, the acquiring unit 81 obtain the colour vision parameter of user;It is described to sentence
Disconnected unit 82 judges whether the colour vision parameter obtained meets the first preset condition;First preset condition characterizes the user
To the perceptibilities of at least two colors less than the first preset threshold;When the colour vision parameter that judging result characterization obtains meets described the
When one preset condition, the determination unit 83 determines the corresponding first wave length parameter of the user;The first wave length parameter
For the undistinguishable color wavelength section of the user;The adjustment unit 84 passes through tune using determining first wave length parameter
Electronic equipment display parameters of video card is saved, the mobile display corresponds to primary colors dominant wavelength, so that the user can differentiate
The color shown on the display panel out adjusts display pair according to the colour blindness type of user and colour blindness degree
Primary colors dominant wavelength is answered, in this way, user can be made clearly to tell the various colors for showing screen display, to increase anomalous trichromatism
With colour blindness crowd to the perceptibility of color, and then complete information can be obtained from the pattern of display.
In addition, scheme provided in an embodiment of the present invention does not need any hardware device to the display when realizing
It modifies, in this way, being easy to implement, and low in cost.
Embodiment five
The method of embodiment two to realize the present invention, the present embodiment provides a kind of electronic equipment, which has aobvious
Show device, as shown in figure 9, the electronic equipment includes:
Acquiring unit 81, for obtaining the colour vision parameter of user;
Judging unit 82, judges whether the colour vision parameter obtained meets the first preset condition;The first preset condition table
The user is levied to the perceptibility of at least two colors less than the first preset threshold;
Determination unit 83, when the colour vision parameter for obtaining when judging result characterization meets first preset condition, really
Determine the corresponding first wave length parameter of the user;The first wave length parameter is the undistinguishable color wavelength of the user
Section;
Adjustment unit 84, for passing through the adjusting display parameters of video card, movement using determining first wave length parameter
The display corresponds to primary colors dominant wavelength, so that the user can tell the face shown on the display panel
Color;
First receiving unit 85, for receiving the first operation;
Generation unit 86 generates the first display content for responding first operation;The first display content is at least
The second parameter including the video card;Second parameter is the RGB color value parameter of the video card;
Display unit 87, for showing the first display content on the display panel;
Detection unit 88, for detecting the second operation on the display screen;Second operation is to described second
The adjustment operation of at least one parameter in parameter;
The adjusting unit 84 is also used to respond second operation, adjusts the second parameter of the video card.
In one embodiment, the acquiring unit 81 may include:
Display module, for showing at least one pattern on the display panel;In at least one described pattern
Each pattern be made of multiple color;
Detection module, for detecting third operation on the display screen;Third operation is at least one to display
The identification operation of each pattern in pattern;
Third determining module is determined for responding the third operation to each pattern at least one pattern of display
Identification duration and correctness.
Wherein, when practical application, the pattern of the display screen display can be common achromatopsia checking figure.
Certainly, when practical application, user can directly input the colour vision parameter of oneself, comprising: colour blindness type and extent.
In other words, the colour vision parameter that the acquiring unit 81 is inputted by user gets the colour vision parameter of user.
The adjustment unit 84 may include: in one embodiment
First determining module, for determining in the second parameter and needing to adjust at least using determining first wave length parameter
One parameter;Second parameter is the RGB color value parameter of the video card;
Second determining module determines described at least one for the susceptibility using the user to local environment light
The adjusted value of a parameter;
Module is adjusted, for adjusting second parameter according to determining adjusted value.
Wherein, second determining module, is specifically used for:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
When practical application, the adjustment unit 84 can also include:
Generation module generates the control letter for each pixel of the display for second parameter using adjustment
Number;
Execution module controls RGB sub-pixel grayscale group in each pixel of the display for responding the control signal
It closes, the image for enabling each pixel to project using image data is since the adjustment of second parameter is so that the user
Enough perceptibilities at least two color are higher than first preset threshold.
The present embodiment each unit, the concrete processing procedure of module are as detailed above, and which is not described herein again.
Electronic equipment provided in an embodiment of the present invention, the acquiring unit 81 obtain the colour vision parameter of user;It is described to sentence
Disconnected unit 82 judges whether the colour vision parameter obtained meets the first preset condition;First preset condition characterizes the user
To the perceptibilities of at least two colors less than the first preset threshold;When the colour vision parameter that judging result characterization obtains meets described the
When one preset condition, the determination unit 83 determines the corresponding first wave length parameter of the user;The first wave length parameter
For the undistinguishable color wavelength section of the user;The adjustment unit 84 passes through tune using determining first wave length parameter
Electronic equipment display parameters of video card is saved, the mobile display corresponds to primary colors dominant wavelength, so that the user can differentiate
The color shown on the display panel out adjusts display pair according to the colour blindness type of user and colour blindness degree
Primary colors dominant wavelength is answered, in this way, user can be made clearly to tell the various colors for showing screen display, to increase anomalous trichromatism
With colour blindness crowd to the perceptibility of color, and then complete information can be obtained from the pattern of display.
In addition, scheme provided in an embodiment of the present invention does not need any hardware device to the display when realizing
It modifies, in this way, being easy to implement, and low in cost.
Embodiment six
The method that embodiment three provides to realize the present invention, the present embodiment provides a kind of electronic equipment, electronic equipment tools
There is display, as shown in Figure 10, which includes:
Second receiving unit 89, for receiving the 4th operation;
Opening unit 90 is operated, opening display dominant wavelength regulatory function with responding the described 4th;
Acquiring unit 81, for obtaining the colour vision parameter of user;
Judging unit 82, judges whether the colour vision parameter obtained meets the first preset condition;The first preset condition table
The user is levied to the perceptibility of at least two colors less than the first preset threshold;
Determination unit 83, when the colour vision parameter for obtaining when judging result characterization meets first preset condition, really
Determine the corresponding first wave length parameter of the user;The first wave length parameter is the undistinguishable color wavelength of the user
Section;
Adjustment unit 84, for passing through the adjusting display parameters of video card, movement using determining first wave length parameter
The display corresponds to primary colors dominant wavelength, so that the user can tell the face shown on the display panel
Color.
Wherein, in one embodiment, the acquiring unit 81 may include:
Display module, for showing at least one pattern on the display panel;In at least one described pattern
Each pattern be made of multiple color;
Detection module, for detecting third operation on the display screen;Third operation is at least one to display
The identification operation of each pattern in pattern;
Third determining module is determined for responding the third operation to each pattern at least one pattern of display
Identification duration and correctness.
Wherein, when practical application, the pattern of the display screen display can be common achromatopsia checking figure.
Certainly, when practical application, user can directly input the colour vision parameter of oneself, comprising: colour blindness type and extent.
In other words, the colour vision parameter that the acquiring unit 81 is inputted by user gets the colour vision parameter of user.
The adjustment unit 84 may include: in one embodiment
First determining module, for determining in the second parameter and needing to adjust at least using determining first wave length parameter
One parameter;Second parameter is the RGB color value parameter of the video card;
Second determining module determines described at least one for the susceptibility using the user to local environment light
The adjusted value of a parameter;
Module is adjusted, for adjusting second parameter according to determining adjusted value.
Wherein, second determining module, is specifically used for:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;It is described
First set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
When practical application, the adjustment unit 84 can also include:
Generation module generates the control letter for each pixel of the display for second parameter using adjustment
Number;
Execution module controls RGB sub-pixel grayscale group in each pixel of the display for responding the control signal
It closes, the image for enabling each pixel to project using image data is since the adjustment of second parameter is so that the user
Enough perceptibilities at least two color are higher than first preset threshold.
The present embodiment each unit, the concrete processing procedure of module are as detailed above, and which is not described herein again.
Electronic equipment provided in an embodiment of the present invention, the acquiring unit 81 obtain the colour vision parameter of user;It is described to sentence
Disconnected unit 82 judges whether the colour vision parameter obtained meets the first preset condition;First preset condition characterizes the user
To the perceptibilities of at least two colors less than the first preset threshold;When the colour vision parameter that judging result characterization obtains meets described the
When one preset condition, the determination unit 83 determines the corresponding first wave length parameter of the user;The first wave length parameter
For the undistinguishable color wavelength section of the user;The adjustment unit 84 passes through tune using determining first wave length parameter
Electronic equipment display parameters of video card is saved, the mobile display corresponds to primary colors dominant wavelength, so that the user can differentiate
The color shown on the display panel out adjusts display pair according to the colour blindness type of user and colour blindness degree
Primary colors dominant wavelength is answered, in this way, user can be made clearly to tell the various colors for showing screen display, to increase anomalous trichromatism
With colour blindness crowd to the perceptibility of color, and then complete information can be obtained from the pattern of display.
In addition, scheme provided in an embodiment of the present invention does not need any hardware device to the display when realizing
It modifies, in this way, being easy to implement, and low in cost.
When practical application, the acquiring unit 81, judging unit 82, determination unit 83, adjustment unit 84, display module,
Detection module, the first determining module, the second determining module, third determining module, adjustment module, generation module, execution module, the
One receiving unit 85, generation unit 86, display unit 87, detection unit 88, the second receiving unit 89 and opening unit 90 can
By central processing unit (CPU, Central Processing Unit), microprocessor (MCU, the Micro in electronic equipment
Control Unit), digital signal processor (DSP, Digital Signal Processor) or programmable logic array
(FPGA, Field-Programmable Gate Array) is realized.
It should be understood that " one embodiment " or " embodiment " that specification is mentioned in the whole text mean it is related with embodiment
A particular feature, structure, or characteristic is included at least one embodiment of the present invention.Therefore, occur everywhere in the whole instruction
" in one embodiment " or " in one embodiment " not necessarily refer to identical embodiment.In addition, these specific features, knot
Structure or characteristic can combine in any suitable manner in one or more embodiments.It should be understood that in various implementations of the invention
In example, magnitude of the sequence numbers of the above procedures are not meant that the order of the execution order, the execution sequence Ying Yiqi function of each process
It can determine that the implementation process of the embodiments of the invention shall not be constituted with any limitation with internal logic.The embodiments of the present invention
Serial number is for illustration only, does not represent the advantages or disadvantages of the embodiments.
It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row
His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and
And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do
There is also other identical elements in the process, method of element, article or device.
In several embodiments provided herein, it should be understood that disclosed device and method can pass through it
Its mode is realized.Apparatus embodiments described above are merely indicative, for example, the division of the unit, only
A kind of logical function partition, there may be another division manner in actual implementation, such as: multiple units or components can combine, or
It is desirably integrated into another system, or some features can be ignored or not executed.In addition, shown or discussed each composition portion
Mutual coupling or direct-coupling or communication connection is divided to can be through some interfaces, the INDIRECT COUPLING of equipment or unit
Or communication connection, it can be electrical, mechanical or other forms.
Above-mentioned unit as illustrated by the separation member, which can be or may not be, to be physically separated, aobvious as unit
The component shown can be or may not be physical unit;Both it can be located in one place, and may be distributed over multiple network lists
In member;Some or all of units can be selected to achieve the purpose of the solution of this embodiment according to the actual needs.
In addition, each functional unit in various embodiments of the present invention can be fully integrated in one processing unit, it can also
To be each unit individually as a unit, can also be integrated in one unit with two or more units;It is above-mentioned
Integrated unit both can take the form of hardware realization, can also realize in the form of hardware adds SFU software functional unit.
Those of ordinary skill in the art will appreciate that: realize that all or part of the steps of above method embodiment can pass through
The relevant hardware of program instruction is completed, and program above-mentioned can store in computer-readable storage medium, which exists
When execution, step including the steps of the foregoing method embodiments is executed;And storage medium above-mentioned includes: movable storage device, read-only deposits
The various media that can store program code such as reservoir (Read Only Memory, ROM), magnetic or disk.
If alternatively, the above-mentioned integrated unit of the present invention is realized in the form of software function module and as independent product
When selling or using, it also can store in a computer readable storage medium.Based on this understanding, the present invention is implemented
Substantially the part that contributes to existing technology can be embodied in the form of software products the technical solution of example in other words,
The computer software product is stored in a storage medium, including some instructions are used so that computer equipment (can be with
It is personal computer, server or network equipment etc.) execute all or part of each embodiment the method for the present invention.
And storage medium above-mentioned includes: various Jie that can store program code such as movable storage device, ROM, magnetic or disk
Matter.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (14)
1. a kind of display control method, which is characterized in that be applied to electronic equipment, the electronic equipment includes display;It is described
Method includes:
Obtain the colour vision parameter of user;
Judge whether the colour vision parameter obtained meets the first preset condition;First preset condition characterizes the user to extremely
The perceptibility of few two kinds of colors is less than the first preset threshold;
When the colour vision parameter that judging result characterization obtains meets first preset condition, the user corresponding the is determined
One wavelength parameter;The first wave length parameter is the undistinguishable color wavelength section of the user;
It is moved described in the display correspondence using determining first wave length parameter by adjusting the display parameters of video card
The primary colors dominant wavelength of first wave length parameter, so that the user can tell the face shown on the display panel
Color.
2. the method according to claim 1, wherein the first wave length parameter using determination, passes through adjusting
The display parameters of video card, the mobile display correspond to the primary colors dominant wavelength of the first wave length parameter, comprising:
Using determining first wave length parameter, at least one parameter for needing to adjust in the second parameter is determined;Second parameter
For the RGB color value parameter of the video card;
Using the user to the susceptibility of local environment light, the adjusted value of at least one parameter is determined;
According to determining adjusted value, second parameter is adjusted.
3. according to the method described in claim 2, it is characterized in that, it is described using the user to the quick of local environment light
Sensitivity determines the adjusted value of at least one parameter, comprising:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;Described first
Set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
4. according to the method described in claim 2, it is characterized in that, the method also includes:
The control signal for being directed to each pixel of the display is generated using second parameter of adjustment;
The control signal is responded, RGB sub-pixel grayscale in each pixel of the display is controlled and combines, makes each pixel benefit
The image projected with image data enables the user to described at least two due to the adjustment of second parameter
The perceptibility of color is higher than first preset threshold.
5. according to the method described in claim 2, it is characterized in that, the method also includes:
Receive the first operation;
First operation is responded, the first display content is generated;The first display content includes at least the second of the video card
Parameter;Second parameter is the RGB color value parameter of the video card;
The first display content is shown on the display panel;
The second operation of detection on the display screen;Second operation is at least one parameter in second parameter
Adjustment operation;
Second operation is responded, the second parameter of the video card is adjusted.
6. the method according to claim 1, wherein the colour vision parameter for obtaining user, comprising:
At least one pattern is shown on the display panel;Each pattern at least one described pattern is by a variety of face
Color is constituted;
The third operation of detection on the display screen;Third operation is the knowledge to each pattern at least one pattern of display
It does not operate;
The third operation is responded, determines the identification duration and correctness to each pattern at least one pattern of display.
7. method according to any one of claims 1 to 6, which is characterized in that the method also includes:
Receive the 4th operation;
Respond the 4th operation, opening display dominant wavelength regulatory function.
8. a kind of electronic equipment, which is characterized in that the electronic equipment has display, and the electronic equipment includes:
Acquiring unit, for obtaining the colour vision parameter of user;
Judging unit, judges whether the colour vision parameter obtained meets the first preset condition;Described in the first preset condition characterization
User is to the perceptibility of at least two colors less than the first preset threshold;
Determination unit, described in determining when the colour vision parameter of judging result characterization acquisition meets first preset condition
The corresponding first wave length parameter of user;The first wave length parameter is the undistinguishable color wavelength section of the user;
Adjustment unit, for using determining first wave length parameter, by adjusting the display parameters of video card, movement to be described aobvious
Show that device corresponds to the primary colors dominant wavelength of the first wave length parameter, is shown so that the user can tell in the display
The color of screen display.
9. electronic equipment according to claim 8, which is characterized in that the adjustment unit includes:
First determining module, for determining at least one for needing to adjust in the second parameter using determining first wave length parameter
Parameter;Second parameter is the RGB color value parameter of the video card;
Second determining module determines at least one described ginseng for the susceptibility using the user to local environment light
Several adjusted values;
Module is adjusted, for adjusting second parameter according to determining adjusted value.
10. electronic equipment according to claim 9, which is characterized in that second determining module is specifically used for:
Using the susceptibility to local environment light, corresponding RGB color value is searched in preset first set;Described first
Set includes N number of RGB color value;N is the integer more than or equal to 1;
Using the RGB color value found as the adjusted value of at least one parameter.
11. electronic equipment according to claim 9, which is characterized in that the adjustment unit further include:
Generation module generates the control signal for being directed to each pixel of the display for second parameter using adjustment;
Execution module controls RGB sub-pixel grayscale in each pixel of the display and combines for responding the control signal,
The image for enabling each pixel to project using image data is since the adjustment of second parameter is so that the user
First preset threshold is higher than to the perceptibility of at least two color.
12. electronic equipment according to claim 9, which is characterized in that the electronic equipment further include:
First receiving unit, for receiving the first operation;
Generation unit generates the first display content for responding first operation;The first display content includes at least institute
State the second parameter of video card;Second parameter is the RGB color value parameter of the video card;
Display unit, for showing the first display content on the display panel;
Detection unit, for detecting the second operation on the display screen;Second operation is in second parameter
The adjustment of at least one parameter operates;
Unit is adjusted, is also used to respond second operation, adjusts the second parameter of the video card.
13. electronic equipment according to claim 8, which is characterized in that the acquiring unit includes:
Display module, for showing at least one pattern on the display panel;It is every at least one described pattern
A pattern is made of multiple color;
Detection module, for detecting third operation on the display screen;Third operation is at least one pattern to display
In each pattern identification operation;
Third determining module determines the knowledge to each pattern at least one pattern of display for responding the third operation
Other duration and correctness.
14. according to the described in any item electronic equipments of claim 8 to 13, which is characterized in that the electronic equipment further include:
Second receiving unit, for receiving the 4th operation;
Opening unit, for responding the 4th operation, opening display dominant wavelength regulatory function.
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CN110718185A (en) * | 2019-09-24 | 2020-01-21 | 深圳创维-Rgb电子有限公司 | LED display screen device, display method and television equipment |
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