CN105096798B - A kind of display control method and device, display device - Google Patents
A kind of display control method and device, display device Download PDFInfo
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- CN105096798B CN105096798B CN201510427713.0A CN201510427713A CN105096798B CN 105096798 B CN105096798 B CN 105096798B CN 201510427713 A CN201510427713 A CN 201510427713A CN 105096798 B CN105096798 B CN 105096798B
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Abstract
The invention discloses a kind of display control method and device, display device, wherein, methods described includes:For display device, the display device includes the photovoltaic element in laminated array arrangement being controlled by the controller;The display control method includes:Catch and parse video source data, obtain the intensity signal and colouring information of video source;According to the intensity signal of the video source and colouring information generation 3-D display command, the supplement intensity signal of each photovoltaic element is carried in the 3-D display command;Each photovoltaic element is controlled to be shown that the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold according to the instruction of the supplement intensity signal according to the 3-D display command.
Description
Technical field
The present invention relates to three-dimensional (3-Dimension, 3D) Display Technique, more particularly to a kind of display control method and dress
Put, display device.
Background technology
Current 3D display method is all pseudo- 3D methods, and 3D rendering is synthesized using human brain.It is empty that very large scene can be obtained
Between image, but easily cause dizziness, two-dimentional (3-Dimension, 2D) display is very true to nature, and developing direction is big nothing but
Screen, and the size of screen is limited in space.
Real 3D display technology is presented for 3D display array, display resolution is by photovoltaic element in 3D display array
Encapsulation volume display, resolution ratio is difficult to be lifted, so as to which display effect is bad.
The content of the invention
In order to solve technical problem present in above-mentioned background technology, the embodiment of the present invention provides a kind of display control method
And device, display device, it is possible to increase the resolution ratio of 3D display device, so as to improve display effect.
What the technical scheme of the embodiment of the present invention was realized in:
In a first aspect, the embodiment of the present invention provides a kind of display control method, for display device, the display device bag
Include the photovoltaic element in laminated array arrangement being controlled by the controller;The display control method includes:
Catch and parse video source data, obtain the intensity signal and colouring information of video source;
According to the intensity signal of the video source and colouring information generation 3-D display command, the Three-dimensional Display refers to
The supplement intensity signal of each photovoltaic element is carried in order;
Each photovoltaic element is controlled to be shown according to the instruction of the supplement intensity signal according to the 3-D display command,
The maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
Second aspect, the embodiment of the present invention provide a kind of display device, and the display device includes:
Controller, and, it is in the photovoltaic element of laminated array arrangement by the controller control;
The controller, for catching and parsing video source data, obtain the intensity signal and colouring information of video source;Root
According to the intensity signal of the video source and colouring information generation 3-D display command, carried in the 3-D display command each
The supplement intensity signal of photovoltaic element;Each photovoltaic element is controlled according to the supplement intensity signal according to the 3-D display command
Instruction shown that the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
The third aspect, the embodiment of the present invention provide a kind of display control unit, for display device, the display device bag
Include the photovoltaic element in laminated array arrangement being controlled by the controller;The display control unit includes parsing module, generation module
And display module, wherein:
The parsing module, for catching and parsing video source data, obtain the intensity signal and colouring information of video source;
The generation module, refer to for the intensity signal according to the video source and colouring information generation Three-dimensional Display
Make, the supplement intensity signal of each photovoltaic element is carried in the 3-D display command;
The display module, for controlling each photovoltaic element according to the supplement light intensity letter according to the 3-D display command
The instruction of breath is shown that the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
Display control method and device provided in an embodiment of the present invention, display device, the display control method include:Catch
And video source data is parsed, obtain the intensity signal and colouring information of video source;According to the intensity signal of the video source and institute
Colouring information generation 3-D display command is stated, the supplement intensity signal of each photovoltaic element is carried in the 3-D display command;According to
Each photovoltaic element is controlled to be shown according to the instruction of the supplement intensity signal according to the 3-D display command, each photoelectricity
The maximum brightness that unit is shown is without departing from the first luminance threshold;The resolution ratio of raising 3D display device is so, it is possible, it is aobvious so as to improve
Show effect.
Brief description of the drawings
Fig. 1 is the composition structural representation of 3D display screen of the embodiment of the present invention;
Fig. 2 is the implementation process schematic diagram of the display control method of the embodiment of the present invention one;
Fig. 3 is the implementation process schematic diagram of the display control method of the embodiment of the present invention two;
Fig. 4 is the implementation process schematic diagram of the display control method of the embodiment of the present invention three;
Fig. 5 is the composition structural representation of the display device of the embodiment of the present invention four;
Fig. 6 is the composition structural representation of the display device of the embodiment of the present invention seven;
Fig. 7 is the composition structural representation of the display control unit of the embodiment of the present invention eight.
Embodiment
The present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings.
Based on foregoing background technology, the embodiment of the present invention, which provides, first provides a kind of 3D display screen, and Fig. 1 is implemented for the present invention
The composition structural representation of example 3D display screen, as shown in figure 1, the 3D display screen 100 includes:Arranged by photovoltaic element in laminated array
Light battle array 101, backlight 102 and the front glass panel 103 of cloth, wherein:
When 3D display screen is in running order, the white light launched by light source after backlight 102 by entering light battle array
101, then enter the eyes of beholder after front glass panel 101 again.
Backlight 102 and front glass panel 103 in the embodiment of the present invention, during specific implementation, it can use existing
Backlight and front glass panel in the display screen of technology are realized, therefore are repeated no more.
In the embodiment of the present invention, when 3D display screen is in running order, light battle array 101 is also at working condition, i.e. light battle array
In photovoltaic element light, a variety of colors can be showed when photovoltaic element is lighted;When 3D display screen is in off working state
When, light battle array 101 is also at off working state, i.e. photovoltaic element in light battle array goes out, and is transparent when photovoltaic element goes out.
It should be noted that photovoltaic element can show a variety of colors when lighting be that controller is controlled in by display device
System, this point will be described in detail in the following embodiments;In addition, penetrate the light of light battle array 102 and pass the light of light battle array 102,
Allow to have loss to a certain extent in terms of light intensity, such as loss can be 10%.The scope of specific tolerance loss, can basis
Depending on the specific application scenarios of 3D display screen, repeat no more here.
In the embodiment of the present invention, during specific implementation, photovoltaic element can be using light emitting diode (LED) come real
Existing, therefore, light battle array is during specific implementation, an array actually being stacked by LED layer layer, the embodiment of the present invention
In, the reflecting unit of connection corresponding with the photovoltaic element is additionally provided with the array that the photovoltaic element is formed;It is described anti-
Light unit, the light for the photovoltaic element to be projected to observed direction are reflected.
As a preferred embodiment, the reflecting unit can be backlight.
Here, the effect of reflecting unit is that photovoltaic element is 360 ° of projections, and the light projected to view direction is that do not have
If reflected the optical fiber of view direction, the brightness that human eye perceives can be strengthened.
During specific implementation, light battle array can be with integrated, i.e., each LED in light battle array can be done very
It is small.If reducing light intensity, PN junction can be very small, therefore reaches the scale of integrated circuit.In the prior art, the chip of mobile phone
High-end processor includes more than one hundred million triodes, it is envisaged that the size of each triode is very small.Again if any processing
Device has 100,000,000 transistors (diode or triode), and the area of a transistor is 1 square micron.Can be with from foregoing description
Find out, if the LED in light battle array minimized, the small-sized magnitude to normal LED luminous points, this makes it possible to 3D display screen
Increase resolution gets on.
Embodiment one
Based on preceding description, the embodiment of the present invention provides a kind of display control method, and for display device, the display is set
The standby photovoltaic element in laminated array arrangement for including being controlled by the controller, the function that the display control method is realized can lead to
The processor caller code crossed in display device realizes that certain program code can be stored in computer-readable storage medium
In, it is seen then that the display device comprises at least processor and storage medium.
Fig. 2 is the implementation process schematic diagram of the display control method of the embodiment of the present invention one, as shown in Fig. 2 the display control
Method includes:
Step 201, catch and parse video source data, obtain the intensity signal and colouring information of video source;
Here, the processor in display device can be using graphics processor (GPU) come real during specific implementation
It is existing;
Here, video source can be the equipment of any offer 3D videos, or the part in equipment;In the process of work
In, after video source is connected normally with display device, video source can send video source data to display device, be wrapped in video source data
Include the intensity signal and colouring information of video source.
Step 202,3-D display command is generated according to the intensity signal of the video source and the colouring information, described three
The supplement intensity signal of each photovoltaic element is carried in dimension idsplay order;
Here, the compensation intensity signal refers to that photovoltaic element loses part intensity signal in light battle array, in order to reach
The intensity signal of video source, the part intensity signal lost can be compensated, therefore, the light intensity that photovoltaic element is sent
It is the light intensity after being compensated on the basis of the light intensity of original video source.
Step 203, instruction of each photovoltaic element according to the supplement intensity signal is controlled according to the 3-D display command
It has been shown that, the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
Here, in the 3-D display command in addition to supplementing intensity signal, the light intensity of each photovoltaic element is included
Information and and the light belt unit want display color information, during specific implementation, three-dimensional information instruct can send photoelectricity
The drive circuit of unit, drive circuit can accordingly control each photovoltaic element to show according to intensity signal and compensation intensity signal
Show light intensity, drive circuit can also control each photovoltaic element color to be shown according to corresponding to colouring information.
Here, the maximum brightness that each photovoltaic element is shown is because present inventor without departing from the first luminance threshold
Found during specific implementation:Encapsulation volume can be reduced by way of reducing photovoltaic element maximum brightness, so as to
High arrangement density is enough realized, finally lifts resolution ratio.
In the embodiment of the present invention, catch and parse video source data, obtain the intensity signal and colouring information of video source;Root
According to the intensity signal of the video source and colouring information generation 3-D display command, carried in the 3-D display command each
The supplement intensity signal of photovoltaic element;Each photovoltaic element is controlled according to the supplement intensity signal according to the 3-D display command
Instruction shown that the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold;It so, it is possible to improve 3D
The resolution ratio of display, so as to improve display effect.
Embodiment two
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display control method, described aobvious for display device
Show that equipment includes the photovoltaic element in laminated array arrangement being controlled by the controller, the function that the display control method is realized can
To be realized by the processor caller code in display device, certain program code can be stored in computer storage and be situated between
In matter, it is seen then that the display device comprises at least processor and storage medium.
Fig. 3 is the implementation process schematic diagram of the display control method of the embodiment of the present invention two, as shown in figure 3, the display control
Method includes:
Step 301, catch and parse video source data, obtain the intensity signal and colouring information of video source;
Here, the processor in display device can be using graphics processor (GPU) come real during specific implementation
It is existing;
Here, video source can be the equipment of any offer 3D videos, or the part in equipment;In the process of work
In, after video source is connected normally with display device, video source can send video source data to display device, be wrapped in video source data
Include the intensity signal and colouring information of each photovoltaic element video source to display.
Step 302, the display location of each photovoltaic element is obtained;
Here, because photovoltaic element stacking is piled into array, it is therefore possible to use three Cartesian coordinates are every to determine
The display location of one photovoltaic element, the display location of photovoltaic element can use [x, y, z] to represent, wherein x represents photoelectricity
Coordinate position of the unit in X-axis, y represent coordinate position of the photovoltaic element in Y-axis, and z represents seat of the photovoltaic element on Z axis
Cursor position, the value of x, y, z is integer, and the span of x, y, z changes with the change of origin, people in the art
Origin can be arranged on the center of array by member, then and the value of x, y, z can be positive integer or negative integer,
Certainly other positions can also be arranged to origin, then the value of x, y, z can determine according to prior art, therefore no longer go to live in the household of one's in-laws on getting married
State.
Step 303, supplement light intensity data corresponding to the display location is calculated, generation supplements intensity signal, and will compensation
Intensity signal is carried in 3-D display command;
Here, in step 303 calculate the display location for supplement light intensity data, generation supplement intensity signal, bag
Include:Obtain transmission losses data corresponding to display location;According to the transmission losses data, generation supplement intensity signal;
Wherein, transmission losses data are that parameter is lost, it is assumed that loss parameter is p%, then according to the transmission losses
Data, generation supplement intensity signal, including:According to the intensity signal of the photovoltaic element on the display location and loss parameter meter
The supplement intensity signal on the display location is calculated, for example, for example, for some photovoltaic element, the intensity in video source is believed
Cease for T2, it is assumed that loss parameter is p%, and p is numerical value of the value between 0 to 100, then is calculated on the display location
Loss is T2 × p%, then supplement intensity signal is T2 × p%.
Step 304, instruction of each photovoltaic element according to the supplement intensity signal is controlled according to the 3-D display command
It has been shown that, the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
Here, in the 3-D display command in addition to supplementing intensity signal, the light intensity of each photovoltaic element is included
Information and and the light belt unit want display color information, during specific implementation, three-dimensional information instruct can send photoelectricity
The drive circuit of unit, drive circuit can accordingly control each photovoltaic element to show according to intensity signal and compensation intensity signal
Show light intensity, drive circuit can also control each photovoltaic element color to be shown according to corresponding to colouring information.
Here, the maximum brightness that each photovoltaic element is shown is because present inventor without departing from the first luminance threshold
Found during specific implementation:Encapsulation volume can be reduced by way of reducing photovoltaic element maximum brightness, so as to
High arrangement density is enough realized, finally lifts resolution ratio.
Embodiment three
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display control method, described aobvious for display device
Show that equipment includes the photovoltaic element in laminated array arrangement being controlled by the controller, gone back in the array that the photovoltaic element is formed
It is provided with the reflecting unit of connection corresponding with the photovoltaic element;The reflecting unit, for by the photovoltaic element to observation
The light of direction projection is reflected.The function that the display control method is realized can be adjusted by the processor in display device
Realized with program code, certain program code can be stored in computer-readable storage medium, it is seen then that the display device at least wraps
Include processor and storage medium.
Fig. 4 is the implementation process schematic diagram of the display control method of the embodiment of the present invention three, as shown in figure 4, the display control
Method includes:
Step 401, catch and parse video source data, obtain the intensity signal and colouring information of video source;
Here, the processor in display device can be using graphics processor (GPU) come real during specific implementation
It is existing;
Here, video source can be the equipment of any offer 3D videos, or the part in equipment;In the process of work
In, after video source is connected normally with display device, video source can send video source data to display device, be wrapped in video source data
Include the intensity signal and colouring information of each photovoltaic element video source to display.
Step 402, the display location of each photovoltaic element is obtained;
Here, because photovoltaic element stacking is piled into array, it is therefore possible to use three Cartesian coordinates are every to determine
The display location of one photovoltaic element, the display location of photovoltaic element can use [x, y, z] to represent, wherein x represents photoelectricity
Coordinate position of the unit in X-axis, y represent coordinate position of the photovoltaic element in Y-axis, and z represents seat of the photovoltaic element on Z axis
Cursor position, the value of x, y, z is integer, and the span of x, y, z changes with the change of origin, people in the art
Origin can be arranged on the center of array by member, then and the value of x, y, z can be positive integer or negative integer,
Certainly other positions can also be arranged to origin, then the value of x, y, z can determine according to prior art, therefore no longer go to live in the household of one's in-laws on getting married
State.
Step 403, supplement light intensity data corresponding to the display location, generation supplement intensity signal are calculated;
Here, in step 403 calculate the display location for supplement light intensity data, generation supplement intensity signal, bag
Include:Obtain transmission losses data corresponding to display location;According to the transmission losses data, generation supplement intensity signal;
Wherein, transmission losses data are that parameter is lost, it is assumed that loss parameter is p%, then according to the transmission losses
Data, generation supplement intensity signal, including:According to the intensity signal of the photovoltaic element on the display location and loss parameter meter
The supplement intensity signal on the display location is calculated, for example, for example, for some photovoltaic element, the intensity in video source is believed
Cease for T2, it is assumed that loss parameter is p%, and p is numerical value of the value between 0 to 100, then is calculated on the display location
Loss is T2 × p%, then supplement intensity signal is T2 × p%.
Step 404, illuminated message and reflective information are calculated according to supplement intensity signal and the intensity signal of video source, by institute
State illuminated message and reflective information is carried on 3-D display command;
Here, illuminated message is the photovoltaic element intensity signal to be sent, and the reflective information is the reflecting unit
The intensity signal to be reflected;
Step 405, each photovoltaic element is controlled to be shown according to the instruction of illuminated message according to the 3-D display command.
Wherein, the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
Here, the maximum brightness that each photovoltaic element is shown is because present inventor without departing from the first luminance threshold
Found during specific implementation:Encapsulation volume can be reduced by way of reducing photovoltaic element maximum brightness, so as to
High arrangement density is enough realized, finally lifts resolution ratio.
Here, in the 3-D display command in addition to supplementing intensity signal, the light intensity of each photovoltaic element is included
Information and and the light belt unit want display color information, during specific implementation, three-dimensional information instruct can send photoelectricity
The drive circuit of unit, drive circuit can accordingly control each photovoltaic element to show according to intensity signal and compensation intensity signal
Show light intensity, drive circuit can also control each photovoltaic element color to be shown according to corresponding to colouring information.
Step 406, each reflecting unit is controlled to be shown according to the instruction of reflective information according to the 3-D display command.
Here, supplement intensity signal is that control photovoltaic element is additionally required the light intensity sent, i.e., photovoltaic element damages in light battle array
Consume part intensity signal.Assuming that the strength range that photovoltaic element can provide is [0, T1], wherein T1 is photovoltaic element energy
The limit of the brightness enough provided, i.e. the first luminance threshold, T1 described here can refer to apart from photovoltaic element first apart from when
The strength information that can be sensed, for example, it may be during apart from 1 meter of photovoltaic element, strength information that beholder can experience.
Due to improving the resolution ratio of 3D display equipment in the embodiment of the present invention, therefore when integrated 3D display device, photoelectricity list
The intensity that member can be provided is that limited, limited implication refers to, the intensity of video source is likely larger than T1, therefore, it is necessary to reflective
To strengthen the intensity for reaching beholder's eyes.
For example, for some photovoltaic element, when light battle array does not have intensity loss, the strength information in video source is
T2, when T2 is more than T1, the strength information (i.e. reflective information) of reflection is T2-T1 (i.e. T2 and T1 is only poor);When T2 be less than etc.
When T1, reflective information is 0, and in other words, the strength information in video source is carried by photovoltaic element and reflecting unit
For light intensity can need not be compensated.When light battle array is lossy, the intensity that photovoltaic element provides is that illuminated message has to a certain extent
Loss, therefore, it is necessary to calculate loss according to the intensity signal of video source, it is assumed that it is value 0 to 100 to be lost as p%, p
Between numerical value, then loss be T2 × p%, then supplement intensity signal be T2 × p%.It should be noted that supplement
Intensity signal can be carried and supplemented in intensity signal, and supplement intensity signal is provided by photovoltaic element, therefore, works as T2
When+T2 × p% is more than T1, the luminous intensity that photovoltaic element provides is T1, and the intensity that reflecting unit provides is T2+T2 × p%-
T1;When T2+T2 × p% is less than T1, the luminous intensity that photovoltaic element provides is T2+T2 × p%.
Example IV
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display device, and Fig. 5 is aobvious for example of the embodiment of the present invention four
Show the composition structural representation of equipment, as shown in figure 5, the display device 500 includes:
Controller 501, and, it is in the photovoltaic element 502 of laminated array arrangement by the controller control;
The controller 501, for catching and parsing video source data, obtain the intensity signal and color letter of video source
Breath;
According to the intensity signal of the video source and colouring information generation 3-D display command, the Three-dimensional Display refers to
The supplement intensity signal of each photovoltaic element is carried in order;
Each photovoltaic element is controlled to be shown according to the instruction of the supplement intensity signal according to the 3-D display command,
The maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
It need to be noted that be:Above display device implements the description of item, is similar, tool with above method description
There is same embodiment of the method identical beneficial effect, therefore do not repeat.For what is do not disclosed in display device embodiment of the present invention
Ins and outs, those skilled in the art refer to the description of the inventive method embodiment and understand, to save length, here not
Repeat again.
Embodiment five
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display device, as shown in figure 5, the display device bag
Include:
Controller 501, and, it is in the photovoltaic element 502 of laminated array arrangement by the controller control;
The controller 501, for catching and parsing video source data, obtain the intensity signal and color letter of video source
Breath;
Obtain the display location of each photovoltaic element;
Light intensity data, generation supplement intensity signal are supplemented according to corresponding to the intensity signal calculates the display location;
Supplement intensity signal is carried in the 3-D display command;
Each photovoltaic element is controlled to be shown according to the instruction of the supplement intensity signal according to the 3-D display command,
The maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
It need to be noted that be:Above display device implements the description of item, is similar, tool with above method description
There is same embodiment of the method identical beneficial effect, therefore do not repeat.For what is do not disclosed in display device embodiment of the present invention
Ins and outs, those skilled in the art refer to the description of the inventive method embodiment and understand, to save length, here not
Repeat again.
Embodiment six
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display device, as shown in figure 5, the display device bag
Include:
Controller 501, and, it is in the photovoltaic element 502 of laminated array arrangement by the controller control;
The controller 501, for catching and parsing video source data, obtain the intensity signal and color letter of video source
Breath;
Obtain the display location of each photovoltaic element;
For obtaining transmission losses data corresponding to display location;It is raw according to the transmission losses data and intensity signal
Into supplement intensity signal;
For supplement intensity signal to be carried in the 3-D display command;
Each photovoltaic element is controlled to be shown according to the instruction of the supplement intensity signal according to the 3-D display command,
The maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
It need to be noted that be:Above display device implements the description of item, is similar, tool with above method description
There is same embodiment of the method identical beneficial effect, therefore do not repeat.For what is do not disclosed in display device embodiment of the present invention
Ins and outs, those skilled in the art refer to the description of the inventive method embodiment and understand, to save length, here not
Repeat again.
Embodiment seven
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display device, and Fig. 6 is that the embodiment of the present invention seven is shown
The composition structural representation of equipment, as shown in fig. 6, the display device includes:
Controller 501, by the controller control be in laminated array arrangement photovoltaic element 502, and, the photoelectricity
The reflecting unit 503 of connection corresponding with the photovoltaic element is additionally provided with the array that unit is formed, wherein:
The reflecting unit 503, the light for the photovoltaic element to be projected to observed direction are reflected,;
The controller 501, for catching and parsing video source data, obtain the intensity signal and color letter of video source
Breath;
Obtain the display location of each photovoltaic element;
Obtain transmission losses data corresponding to display location;According to the transmission losses data and intensity signal, generation is mended
Fill intensity signal;
Supplement intensity signal is carried in the 3-D display command;
The controller 501, be additionally operable to according to supplement intensity signal and video source intensity signal calculate illuminated message and
Reflective information, wherein illuminated message are the photovoltaic element intensity signal to be sent, and the reflective information is the reflecting unit
The intensity signal to be reflected;The illuminated message and reflective information are carried on 3-D display command;
Each reflecting unit is controlled to be shown according to the instruction of reflective information according to the 3-D display command;According to described three
Dimension idsplay order controls each photovoltaic element to be shown that each photovoltaic element shows most highlighted according to the instruction of illuminated message
Degree is without departing from the first luminance threshold.
It need to be noted that be:Above display device implements the description of item, is similar, tool with above method description
There is same embodiment of the method identical beneficial effect, therefore do not repeat.For what is do not disclosed in display device embodiment of the present invention
Ins and outs, those skilled in the art refer to the description of the inventive method embodiment and understand, to save length, here not
Repeat again.
Embodiment eight
Based on foregoing embodiment, the embodiment of the present invention provides a kind of display control unit, in the display control unit
Parsing module, generation module and display module, it can be realized by the processor in display device;Certainly tool can also be passed through
The logic circuit of body is realized;During specific embodiment, processor can be central processing unit (CPU), microprocessor
(MPU), digital signal processor (DSP) or field programmable gate array (FPGA) etc..As preferred embodiment, the processing
Device can be graphics processor.
Fig. 7 is the composition structural representation of the display control unit of the embodiment of the present invention eight, as shown in fig. 7, the display control
Device 700 includes parsing module 701, generation module 702 and display module 703, wherein:
The parsing module 701, for catching and parsing video source data, obtain the intensity signal and color letter of video source
Breath;
The generation module 702, it is three-dimensional aobvious for the intensity signal according to the video source and colouring information generation
Show instruction, the supplement intensity signal of each photovoltaic element is carried in the 3-D display command;
The display module 703, for controlling each photovoltaic element according to the supplement light according to the 3-D display command
The instruction of strong information is shown that the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold.
It need to be noted that be:The description of apparatus above embodiment, the description with above method embodiment be it is similar,
With the similar beneficial effect of same embodiment of the method, therefore do not repeat.For the skill not disclosed in apparatus of the present invention embodiment
Art details, it refer to the description of the inventive method embodiment and understand, to save length, therefore repeat no more.
One of ordinary skill in the art will appreciate that:Realizing all or part of step of above method embodiment can pass through
Programmed instruction related hardware is completed, and foregoing program can be stored in a computer read/write memory medium, the program
Upon execution, the step of execution includes above method embodiment;And foregoing storage medium includes:It is movable storage device, read-only
Memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or
Person's CD etc. is various can be with the medium of store program codes.
Or if the above-mentioned integrated unit of the present invention is realized in the form of software function module and is used as independent product
Sale in use, can also be stored in a computer read/write memory medium.Based on such understanding, the present invention is implemented
The part that the technical scheme of example substantially contributes to prior art in other words can be embodied in the form of software product,
The computer software product is stored in a storage medium, including some instructions are causing a computer equipment (can be with
It is personal computer, server or network equipment etc.) perform all or part of each embodiment methods described of the present invention.
And foregoing storage medium includes:Movable storage device, ROM, RAM, magnetic disc or CD etc. are various can be with store program codes
Medium.
The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any
Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained
Cover 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 (8)
1. a kind of display control method, it is characterised in that for display device, the display device includes what is be controlled by the controller
The photovoltaic element arranged in laminated array;The display control method includes:
Catch and parse video source data, obtain the intensity signal and colouring information of video source;
According to the intensity signal of the video source and colouring information generation 3-D display command, in the 3-D display command
Carry the supplement intensity signal of each photovoltaic element;
Each photovoltaic element is controlled to be shown according to the instruction of the supplement intensity signal according to the 3-D display command, it is described
The maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold;
The reflecting unit of connection corresponding with the photovoltaic element is additionally provided with the array that the photovoltaic element is formed;It is described anti-
Light unit, the light for the photovoltaic element to be projected to observed direction are reflected, and methods described also includes:
Illuminated message and reflective information are calculated according to supplement intensity signal and the intensity signal of video source, wherein illuminated message is light
The electric unit intensity signal to be sent, the reflective information are the reflecting unit intensity signal to be reflected;
The illuminated message and reflective information are carried on 3-D display command;
It is then described to control each photovoltaic element to be shown according to the instruction of the supplement intensity signal according to the 3-D display command
Show, including:Each photovoltaic element is controlled to be shown according to the instruction of illuminated message according to the 3-D display command;
And each reflecting unit is controlled to be shown according to the instruction of reflective information according to the 3-D display command.
2. control method according to claim 1, it is characterised in that described to be given birth to according to the intensity signal and colouring information
Into 3-D display command, including:
Obtain the display location of each photovoltaic element;
Light intensity data, generation supplement intensity signal are supplemented according to corresponding to the intensity signal calculates the display location;
Supplement intensity signal is carried in the 3-D display command.
3. control method according to claim 2, it is characterised in that supplement light intensity corresponding to described calculating display location
Data, generation supplement intensity signal, including:
Obtain transmission losses data corresponding to display location;
According to the transmission losses data, generation supplement intensity signal.
4. a kind of display device, it is characterised in that the display device includes:
Controller, and, it is in the photovoltaic element of laminated array arrangement by the controller control;
The controller, for catching and parsing video source data, obtain the intensity signal and colouring information of video source;According to institute
The intensity signal and colouring information generation 3-D display command of video source are stated, each photoelectricity is carried in the 3-D display command
The supplement intensity signal of unit;Finger of each photovoltaic element according to the supplement intensity signal is controlled according to the 3-D display command
Show and shown, the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold;
The reflecting unit of connection corresponding with the photovoltaic element is additionally provided with the array that the photovoltaic element is formed;It is described anti-
Light unit, the light for the photovoltaic element to be projected to observed direction are reflected;
The controller, it is additionally operable to calculate illuminated message and reflective letter according to supplement intensity signal and the intensity signal of video source
Breath, wherein illuminated message are the photovoltaic element intensity signal to be sent, and the reflective information is anti-by the reflecting unit
The intensity signal penetrated;The illuminated message and reflective information are carried on 3-D display command;According to the 3-D display command
Each reflecting unit is controlled to be shown according to the instruction of reflective information;
It is then described to control each photovoltaic element to be shown according to the instruction of the supplement intensity signal according to the 3-D display command
Show, including:Each photovoltaic element is controlled to be shown according to the instruction of illuminated message according to the 3-D display command.
5. display device according to claim 4, it is characterised in that the controller is according to the intensity signal and color
Information generation 3-D display command is implemented as:
Obtain the display location of each photovoltaic element;
Light intensity data, generation supplement intensity signal are supplemented according to corresponding to the intensity signal calculates the display location;
Supplement intensity signal is carried in the 3-D display command.
6. display device according to claim 5, it is characterised in that the controller is calculated and mended corresponding to the display location
Light intensity data is filled, generation supplement intensity signal is implemented as:Obtain transmission losses data corresponding to display location;According to described
Transmission losses data, generation supplement intensity signal.
7. according to the display device described in claim 4 or 5 or 6, it is characterised in that in the array that the photovoltaic element is formed
It is additionally provided with the reflecting unit of connection corresponding with the photovoltaic element;The reflecting unit, for by the photovoltaic element to sight
The light for surveying direction projection is reflected.
8. a kind of display control unit, it is characterised in that for display device, the display device includes what is be controlled by the controller
The photovoltaic element arranged in laminated array;The display control unit includes parsing module, generation module and display module, wherein:
The parsing module, for catching and parsing video source data, obtain the intensity signal and colouring information of video source;
The generation module, 3-D display command is generated for the intensity signal according to the video source and the colouring information,
The supplement intensity signal of each photovoltaic element is carried in the 3-D display command;
The display module, for controlling each photovoltaic element according to the supplement intensity signal according to the 3-D display command
Instruction is shown that the maximum brightness that each photovoltaic element is shown is without departing from the first luminance threshold;
The reflecting unit of connection corresponding with the photovoltaic element is additionally provided with the array that the photovoltaic element is formed;It is described anti-
Light unit, the light for the photovoltaic element to be projected to observed direction are reflected;
The generation module, it is additionally operable to calculate illuminated message and reflective letter according to supplement intensity signal and the intensity signal of video source
Breath, wherein illuminated message are the photovoltaic element intensity signal to be sent, and the reflective information is anti-by the reflecting unit
The intensity signal penetrated;The illuminated message and reflective information are carried on 3-D display command;
The display module controls instruction of each photovoltaic element according to the supplement intensity signal according to the 3-D display command
It has been shown that, specifically included:Each photovoltaic element is controlled to be shown according to the instruction of illuminated message according to the 3-D display command
Show.
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