WO2010024009A1 - 画像表示装置および画像表示方法 - Google Patents
画像表示装置および画像表示方法 Download PDFInfo
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- WO2010024009A1 WO2010024009A1 PCT/JP2009/059959 JP2009059959W WO2010024009A1 WO 2010024009 A1 WO2010024009 A1 WO 2010024009A1 JP 2009059959 W JP2009059959 W JP 2009059959W WO 2010024009 A1 WO2010024009 A1 WO 2010024009A1
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- luminance
- display
- color
- light transmittance
- light
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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
- G09G3/3406—Control of illumination source
- G09G3/342—Control of illumination source using several illumination sources separately controlled corresponding to different display panel areas, e.g. along one dimension such as lines
- G09G3/3426—Control of illumination source using several illumination sources separately controlled corresponding to different display panel areas, e.g. along one dimension such as lines the different display panel areas being distributed in two dimensions, e.g. matrix
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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
- G09G3/3406—Control of illumination source
- G09G3/3413—Details of control of colour illumination sources
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2320/00—Control of display operating conditions
- G09G2320/06—Adjustment of display parameters
- G09G2320/0626—Adjustment of display parameters for control of overall brightness
- G09G2320/0646—Modulation of illumination source brightness and image signal correlated to each other
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2320/00—Control of display operating conditions
- G09G2320/06—Adjustment of display parameters
- G09G2320/0666—Adjustment of display parameters for control of colour parameters, e.g. colour temperature
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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
- G09G2360/00—Aspects of the architecture of display systems
- G09G2360/16—Calculation or use of calculated indices related to luminance levels in display data
Definitions
- the present invention relates to an image display device and an image display method, and more particularly to an image display device having a function of controlling the luminance of a backlight (backlight dimming function) and an image display method in the device.
- an image display device having a backlight such as a liquid crystal display device
- a backlight such as a liquid crystal display device
- the power consumption of the backlight can be suppressed and the image quality of the display image can be improved.
- by dividing the screen into a plurality of areas and controlling the luminance of the backlight light source corresponding to the area based on the input image in the area it is possible to further reduce power consumption and improve image quality.
- area active driving such a method of driving the display panel while controlling the luminance of the backlight light source based on the input image in the area.
- RGB three-color LEDs Light Emitting Diodes
- white LEDs are used as a backlight light source.
- an appropriate luminance is obtained based on the maximum value and the average value of the luminance of the pixels in each area, and a backlight driving circuit is used as LED data.
- display data in the case of a liquid crystal display device, data for controlling the light transmittance of the liquid crystal
- the display data is a display panel drive circuit.
- the luminance of each pixel on the screen is the product of the luminance of light from the backlight and the light transmittance based on the display data.
- the display panel drive circuit is driven based on the display data generated as described above, and the backlight drive circuit is driven based on the LED data described above, thereby displaying an image based on the input image. Is done.
- Japanese Laid-Open Patent Publication No. 2002-99250 discloses an illumination luminance control unit that controls the luminance of illumination light for each of a plurality of areas based on an input image signal, and an image signal that converts the input image signal based on the luminance information.
- An invention of a conventional image display device is disclosed that includes a conversion unit to increase the dynamic range and reduce power consumption in image display.
- the luminance of the illumination light is reduced to reduce power consumption.
- the luminance of the illumination light is insufficient, so that it may not be possible to display with the necessary luminance. Therefore, when the illumination light is composed of, for example, three colors of RGB (red, green, and blue) and the brightness of these lights is individually controlled, the brightness of the illumination light with respect to the brightness of at most two of the three colors. In such a case, the color may not be displayed with the necessary brightness.
- the luminance of at least one color is displayed at a necessary luminance, the luminance ratio of each color to be originally displayed changes, and thereby the color reproducibility deteriorates (the hue changes). A point arises.
- an object of the present invention is to provide an image display apparatus that performs area active driving and capable of performing display with high color reproducibility on a display unit, and an image display method in the apparatus.
- a first aspect of the present invention is an image display device having a function of controlling the luminance of a backlight,
- a backlight including a plurality of light sources that emit light of a plurality of primary colors;
- a display panel including a plurality of sets of a plurality of display elements that display one pixel in a plurality of colors by transmitting light from the light source;
- a light emission luminance calculation unit that divides an input image including a plurality of pixels composed of a plurality of colors into a plurality of areas and obtains light emission luminance data indicating luminance at the time of light emission of a light source corresponding to each area based on the input image;
- a display luminance calculation unit for obtaining a display luminance which is the maximum luminance obtained in each display element based on the light emission luminance data for each area;
- a display data calculation unit for obtaining display data for controlling the light transmittance of the display element based on the input image and the display luminance obtained by the display luminance calculation unit;
- a panel drive circuit
- the display data calculation unit calculates a temporary light transmittance for each color by dividing the luminance for each color constituting the pixel of the input image by the display luminance corresponding to the color of the pixel, When the maximum value of the temporary light transmittance for each color exceeds 1, the light transmittance for each color is calculated by dividing the temporary light transmittance for each color by the maximum value. When the maximum value is 1 or less, the provisional light transmittance for each color is calculated as the light transmittance for each color.
- the display data calculation unit A first division circuit that outputs a temporary light transmittance for each color obtained by dividing the luminance for each color constituting the pixel of the input image by the display luminance corresponding to the color of the pixel;
- the maximum value of the temporary light transmittance for each color output from the first division circuit is selected, and when the maximum value exceeds 1, the maximum value is output as the selection value, and the maximum A maximum value selection circuit that outputs 1 as a selection value when the value is 1 or less;
- the backlight includes light sources that emit red, green, and blue, which are the three primary colors of light
- the display panel includes display elements that respectively control transmittances of red, green, and blue light emitted from the light source.
- the display panel includes a liquid crystal element as the display element.
- a sixth aspect of the present invention has a function of controlling the luminance of a backlight, and includes a backlight including a plurality of light sources that emit light of a plurality of primary colors, and a plurality of light sources by transmitting light from the light sources.
- An image control method in an image display device comprising a display panel including a plurality of display elements that display one pixel in color, A light emission luminance calculating step of dividing an input image including a plurality of pixels composed of a plurality of colors into a plurality of areas and obtaining light emission luminance data indicating luminance at the time of light emission of a light source corresponding to each area based on the input image; A display luminance calculation step for obtaining a display luminance which is a maximum luminance obtained in each display element based on the light emission luminance data for each area; Display data calculation step for obtaining display data for controlling the light transmittance of the display element based on the input image and the display luminance obtained by the display luminance calculation step; A panel driving step for controlling the light transmittance of the display element with respect to the display panel based on the display data; A backlight driving step for controlling the luminance of the light source with respect to the backlight based on the emission luminance data; In the display data calculation step, when any one of the luminances of
- a seventh aspect of the present invention is the sixth aspect of the present invention,
- the provisional light transmittance for each color is calculated by dividing the luminance for each color constituting the pixel of the input image by the display luminance corresponding to the color of the pixel, When the maximum value of the temporary light transmittance for each color exceeds 1, the light transmittance for each color is calculated by dividing the temporary light transmittance for each color by the maximum value. When the maximum value is 1 or less, the provisional light transmittance for each color is calculated as the light transmittance for each color.
- the display data calculation step includes: A first division step of outputting a provisional light transmittance for each color obtained by dividing the luminance for each color constituting the pixel of the input image by the display luminance corresponding to the color of the pixel; The maximum value of the temporary light transmittance for each color output in the first division step is selected, and when the maximum value exceeds 1, the maximum value is output as the selection value, and the maximum A maximum value selection step of outputting 1 as a selection value when the value is 1 or less; A second light output for each color obtained by dividing the temporary light transmittance for each color output in the first division step by the selection value output in the maximum value selection step; Division step.
- the light transmittance of the corresponding display element is 1 or less. Since display data is obtained based on a value obtained by dividing the luminance of each color by the same value, display with high color reproducibility can be performed even if the combined luminance of each color is reduced.
- the temporary light transmittance for each color is calculated, and when the maximum value exceeds 1, the temporary light transmittance for each color is divided by the maximum value.
- the light transmittance for each color is calculated, and when the maximum value is 1 or less, the temporary light transmittance for each color is calculated as it is as the light transmittance for each color, so that display with high color reproducibility is easily performed. be able to.
- display with high color reproducibility can be performed with a simple circuit configuration including the first and second division circuits and the maximum value selection circuit.
- the fourth aspect of the present invention by using the three primary colors of light as the light source and the display color, it is possible to perform display with high color reproducibility at low cost with a general-purpose configuration.
- an effect similar to the effect in the first aspect of the present invention can be achieved in the image display method in the image display device.
- an effect similar to the effect in the second aspect of the present invention can be achieved in the image display method in the image display device.
- an effect similar to the effect in the third aspect of the present invention can be achieved in the image display method in the image display device.
- FIG. 3 is a block diagram illustrating a detailed configuration of an area active drive processing unit in the liquid crystal display device according to the embodiment. In one embodiment, it is a flow chart which shows processing of an area active drive processing part. In the said one Embodiment, it is a figure which shows the detailed structure of an LED data calculation part. In the said one Embodiment, it is a figure which shows progress until liquid crystal data and LED data are obtained.
- FIG. 1 is a block diagram showing a configuration of a liquid crystal display device 10 according to an embodiment of the present invention.
- a liquid crystal display device 10 shown in FIG. 1 includes a liquid crystal panel 11, a panel drive circuit 12, a backlight 13, a backlight drive circuit 14, and an area active drive processing unit 15.
- the liquid crystal display device 10 divides the screen into a plurality of areas, and performs area active driving for driving the liquid crystal panel 11 while controlling the luminance of the backlight light source based on the input image in the area.
- m and n are integers of 2 or more
- p and q are integers of 1 or more
- at least one of p and q is an integer of 2 or more.
- An input image 31 including an R image, a G image, and a B image is input to the liquid crystal display device 10.
- Each of the R image, the G image, and the B image includes the luminance of (m ⁇ n) pixels.
- the area active drive processing unit 15 displays data for use in driving the liquid crystal panel 11 (hereinafter referred to as liquid crystal data 32) and backlight control data for use in driving the backlight 13 (hereinafter referred to as LED data). 33) (details will be described later).
- the liquid crystal panel 11 includes (m ⁇ n ⁇ 3) display elements 21.
- the display elements 21 are arranged two-dimensionally as a whole, 3 m in the row direction (horizontal direction in FIG. 1) and n in the column direction (vertical direction in FIG. 1).
- the display element 21 includes an R display element that transmits red light, a G display element that transmits green light, and a B display element that transmits blue light.
- the R display element, the G display element, and the B display element are arranged side by side in the row direction, and three pixels form one pixel.
- the panel drive circuit 12 is a drive circuit for the liquid crystal panel 11.
- the panel drive circuit 12 outputs a signal (voltage signal) for controlling the light transmittance of the display element 21 to the liquid crystal panel 11 based on the liquid crystal data 32 output from the area active drive processing unit 15.
- the voltage output from the panel drive circuit 12 is written to a pixel electrode (not shown) in the display element 21, and the light transmittance of the display element 21 changes according to the voltage written to the pixel electrode.
- the backlight 13 is provided on the back side of the liquid crystal panel 11 and irradiates the back light of the liquid crystal panel 11 with backlight light.
- FIG. 2 is a diagram showing details of the backlight 13.
- the backlight 13 includes (p ⁇ q) LED units 22.
- the LED units 22 are two-dimensionally arranged as a whole, p in the row direction and q in the column direction.
- the LED unit 22 includes one red LED 23, one green LED 24, and one blue LED 25. Light emitted from the three LEDs 23 to 25 included in one LED unit 22 hits a part of the back surface of the liquid crystal panel 11.
- the backlight drive circuit 14 is a drive circuit for the backlight 13.
- the backlight drive circuit 14 outputs a signal (voltage signal or current signal) for controlling the luminance of the LEDs 23 to 25 to the backlight 13 based on the LED data 33 output from the area active drive processing unit 15.
- the brightness of the LEDs 23 to 25 is controlled independently of the brightness of the LEDs inside and outside the unit.
- the screen of the liquid crystal display device 10 is divided into (p ⁇ q) areas, and one LED unit 22 is associated with one area.
- the area active drive processing unit 15 obtains the luminance of the red LED 23 corresponding to each area based on the R image in each area for each of (p ⁇ q) areas. Similarly, the luminance of the green LED 24 is determined based on the G image in the area, and the luminance of the blue LED 25 is determined based on the B image in the area.
- the area active drive processing unit 15 calculates the brightness of all the LEDs 23 to 25 included in the backlight 13 and outputs LED data 33 representing the calculated LED brightness to the backlight drive circuit 14.
- the area active drive processing unit 15 obtains the luminance of the backlight light in all the display elements 21 included in the liquid crystal panel 11 based on the LED data 33. Further, the area active drive processing unit 15 obtains the light transmittance of all the display elements 21 included in the liquid crystal panel 11 based on the input image 31 and the luminance of the backlight light, and the liquid crystal data representing the obtained light transmittance. 32 is output to the panel drive circuit 12. A detailed description of how the area active drive processing unit 15 determines the luminance of the backlight light will be described later.
- the luminance of the R display element is the product of the luminance of the red light emitted from the backlight 13 and the light transmittance of the R display element.
- the light emitted from one red LED 23 hits a plurality of areas around the corresponding one area.
- the luminance of the R display element is the product of the total luminance of the light emitted from the plurality of red LEDs 23 and the light transmittance of the R display element.
- the luminance of the G display element is the product of the total luminance of light emitted from the plurality of green LEDs 24 and the light transmittance of the G display element
- the luminance of the B display element is emitted from the plurality of blue LEDs 25. This is the product of the total light luminance and the light transmittance of the B display element.
- suitable liquid crystal data 32 and LED data 33 are obtained based on the input image 31, the light transmittance of the display element 21 is controlled based on the liquid crystal data 32, and the LED data
- the input image 31 can be displayed on the liquid crystal panel 11 by controlling the luminances of the LEDs 23 to 25 based on FIG.
- the power consumption of the backlight 13 can be reduced by reducing the luminance of the LEDs 23 to 25 corresponding to the area.
- the luminance of the display element 21 corresponding to the area is switched between a smaller number of levels, so that the resolution of the image can be increased and the image quality of the display image can be improved.
- FIG. 3 is a block diagram showing a detailed configuration of the area active drive processing unit 15 in the present embodiment.
- the area active drive processing unit 15 includes an LED output value calculation unit 151, a display luminance calculation unit 152, and an LCD data calculation unit 154 as components for executing predetermined processing, and stores predetermined data.
- a frame memory 153 and a luminance diffusion filter 155 are provided.
- a light emission luminance calculation unit is realized by the LED output value calculation unit 151
- a display data calculation unit is realized by the LCD data calculation unit 154.
- these components are configured by dedicated hardware, but each function of these components may be realized by a program installed in hardware such as a predetermined microcomputer or signal processor.
- the LED output value calculation unit 151 divides the input image into a plurality of areas, and obtains LED data (light emission luminance data) 33 indicating the luminance at the time of light emission of the LED corresponding to each area.
- LED data light emission luminance data
- the value of the luminance when the LED emits light is referred to as “LED output value”.
- the luminance diffusion filter 155 typically stores PSF (Point Spread Filter Data) data 43, which is data representing numerically how light is diffused in order to calculate the display luminance of each area.
- the display luminance calculation unit 152 obtains the luminance image 41 by performing convolution integration between the LED data 33 and the PSF data 43 stored in the luminance diffusion filter 155.
- the luminance image 41 is linearly interpolated so as to have the same image size as the liquid crystal data 32.
- the frame memory 153 temporarily stores the input image 31 and holds the input image 31 until the calculation by the LED output value calculation unit 151 and the display luminance calculation unit 152 ends (until the calculation time elapses), and simultaneously with the corresponding luminance image 41.
- the input image 42 delayed so as to be given is given to the LCD data calculation unit 154.
- the LCD data calculation unit 154 displays the liquid crystal data 32 representing the light transmittance of all the display elements 21 included in the liquid crystal panel 11 based on the input image 42 delayed by the calculation time and the corresponding luminance image 41. Ask for. The detailed configuration of the LCD data calculation unit 154 will be described later.
- FIG. 4 is a flowchart showing the processing of the area active drive processing unit 15.
- An image of a certain color component (hereinafter referred to as color component C) included in the input image 31 is input to the area active drive processing unit 15 (step S11).
- the input image of the color component C includes the luminance of (m ⁇ n) pixels.
- the color components are three colors of RGB, and actually, this processing is performed simultaneously for each color.
- the area active drive processing unit 15 performs sub-sampling processing (averaging processing) on the input image of the color component C, and sets the luminance of (sp ⁇ sq) (s is an integer of 2 or more) pixels.
- a reduced image is obtained (step S12).
- the input image of the color component C is reduced by (sp / m) times in the horizontal direction and (sq / n) times in the vertical direction.
- the area active drive processing unit 15 divides the reduced image into (p ⁇ q) areas (step S13). Each area includes the luminance of (s ⁇ s) pixels.
- the area active drive processing unit 15 obtains the maximum luminance value Ma of the pixels in the area and the average luminance value Me of the pixels in the area for each of the (p ⁇ q) areas (Steps) S14).
- the area active drive processing unit 15 obtains an LED output value (a luminance value when the LED emits light) for each of (p ⁇ q) areas (step S15).
- a method of determining the LED output value for example, a method of determining based on the maximum luminance value Ma of the pixels in the area, a method of determining based on the average luminance Me of the pixels in the area, or the area There is a method of determining based on a value obtained by performing a weighted average of the maximum value Ma and the average value Me of the luminances of the pixels.
- step S11 to step S15 is performed by the LED output value calculation unit 151 in the area active drive processing unit 15.
- step S15 the area active drive processing unit 15 applies (tp ⁇ tq) pieces of luminance diffusion filters (point diffusion filters) 155 to the (p ⁇ q) LED output values obtained in step S15.
- First backlight luminance data including display luminance (t is an integer of 2 or more) is obtained (step S16).
- step S16 (p ⁇ q) LED output values are enlarged t times in the horizontal direction and the vertical direction, respectively, and (tp ⁇ tq) display luminances are obtained. Note that the processing in step S16 is performed by the display luminance calculation unit 152 in the area active drive processing unit 15.
- the area active drive processing unit 15 obtains second backlight luminance data including (m ⁇ n) luminances by performing linear interpolation processing on the first backlight luminance data (Step S1). S17).
- the first backlight luminance data is enlarged (m / tp) times in the horizontal direction and (n / tq) times in the horizontal direction.
- the second backlight luminance data is incident on the display element 21 of (m ⁇ n) color components C when the (p ⁇ q) color component C LEDs emit light with the luminance obtained in step S15. Represents the luminance of the backlight of the color component C to be reproduced.
- the second backlight luminance data is output from the display luminance calculation unit 152 as the luminance image 41.
- the luminance image 41 is generated for each color (sequentially in time division or simultaneously in parallel), and is given to the LCD data calculation unit 154 at the same time.
- the area active drive processing unit 15 determines the luminance of (m ⁇ n) pixels included in the input image of the color component C, respectively (m ⁇ n) included in the second backlight luminance data. Is divided by the luminance of the tentative light transmittance Tt of the display element 21 of the (m ⁇ n) color components C (step S18). Thus, provisional liquid crystal data composed of (m ⁇ n) pixels is generated.
- the provisional light transmittance Tt may exceed 1. Since the light transmittance of the liquid crystal does not exceed 1, in the conventional area active drive, if a value exceeding 1 is calculated, that is, the pixel luminance included in the input image of the color component C is the second backlight. When it is larger than the luminance data, the value is rounded to 1 so that the light transmittance T does not exceed 1. However, in this embodiment, even if the temporary light transmittance Tt exceeds 1, the process of rounding the value to 1 is not performed.
- the area active drive processing unit 15 divides the temporary light transmittance Tt of the display elements 21 of the (m ⁇ n) color components C obtained in step S18 by the selection value S to obtain (m ⁇ n).
- the light transmittance T of the display elements 21 of the color components C is obtained (step S19).
- the selection value S is the provisional light transmittance Tt corresponding to all the color components (color components of three colors of RGB) constituting one pixel among (m ⁇ n) pixels. Is set to the maximum value of these three provisional light transmittances Tt, and when none of these exceeds 1, the selection value S is set to 1. If the temporary light transmittance Tt is divided by such a selection value S, color reproducibility can be maintained even when any of the temporary light transmittances Tt exceeds 1.
- the luminance value (combined value) of the three colors as a whole is close to the luminance value to be reproduced.
- the ratio of the luminance of the three colors changes, the color reproducibility of the pixel decreases (the hue changes).
- the composite value is smaller than the luminance value to be reproduced.
- the ratio of the luminance of the three colors does not change, the color reproducibility in the pixel does not deteriorate (the hue does not change). Therefore, the image can be displayed in a more natural color.
- steps S18 and S19 are performed by the LCD data calculation unit 154 in the area active drive processing unit 15.
- a detailed configuration of the LCD data calculation unit 154 will be described with reference to FIG.
- FIG. 5 is a block diagram showing a detailed configuration of the LCD data calculation unit.
- LCD data calculation unit 154 includes first division circuits 541 to 543, second division circuits 545 to 547, and maximum value selection circuit 544.
- the first dividing circuit 541 includes R luminance data 41r that is R (red) luminance data in the luminance image 41 and input R luminance that is R (red) luminance data in the delayed input image 42. Data 42r is received.
- the positions (pixel positions) of these luminance data in the image are the same, and the frame memory 153 performs control that is delayed by the calculation time so that the data at the same position is simultaneously given to the LCD data calculation unit 154. .
- the first division circuit 541 divides the input R luminance data 42r by the R luminance data 41r, and gives the obtained result to the second division circuit 545 and the maximum value selection circuit 544 as temporary R liquid crystal data 32rt. This operation has been described in detail in step S18.
- the maximum value selection circuit 544 compares the provisional R liquid crystal data 32 rt, the provisional G liquid crystal data 32 gt, and the provisional B liquid crystal data 32 bt received from the first division circuits 541 to 543, and has the maximum value. Select. When the selected value exceeds 1, the value is output as the selected value S. When the selected value is 1 or less, 1 is output as the selected value S. The output selection value S is given to the second division circuits 545 to 547.
- the second division circuit 545 divides the provisional R liquid crystal data 32rt received from the first division circuit 541 by the selection value S received from the maximum value selection circuit 544, and obtains the obtained result as R liquid crystal data 32r. Output. Note that the second division circuits 546 and 547 perform the same processing on G (green) and B (blue) data, and thus detailed description thereof is omitted.
- the R liquid crystal data 32r, the G liquid crystal data 32g, and the B liquid crystal data 32b calculated over all the pixels in this way are given to the panel drive circuit 12 as the liquid crystal data 32 as in step S20 described later.
- the liquid crystal data 32 is actually converted to a value suitable for the panel drive circuit 12.
- each function in the LCD data calculation unit 154 may be realized by a program.
- the maximum value selection circuit 544 (corresponding to the program portion) uses the value as the selection value S and the second division circuit 545 (corresponding to the program portion) causes the R liquid crystal.
- the data 32r is obtained, and if it is 1 or less, the provisional R liquid crystal data 32rt is preferably set as the R liquid crystal data 32r. Then, the number of processes of the second division circuit 545 (corresponding to the program portion) can be reduced.
- the area active drive processing unit 15 for each color component the liquid crystal data 32 representing the (m ⁇ n) light transmittance obtained in step S19 and the (p ⁇ q) LEDs obtained in step S15.
- LED data 33 representing the output value is output (step S20). At this time, the liquid crystal data 32 and the LED data 33 are converted into values in a suitable range according to the specifications of the panel drive circuit 12 and the backlight drive circuit 14.
- the area active drive processing unit 15 performs the process shown in FIG. 4 on the R image, the G image, and the B image, thereby generating an input image 31 including the luminance of (m ⁇ n ⁇ 3) pixels. Based on this, liquid crystal data 32 representing (m ⁇ n ⁇ 3) transmittances and LED data 33 representing (p ⁇ q ⁇ 3) LED output values are obtained.
- a sub-sampling process is performed on the input image of the color component C including the luminance of (1920 ⁇ 1080) pixels, thereby reducing the image including the luminance of (320 ⁇ 160) pixels. Is obtained.
- the reduced image is divided into (32 ⁇ 16) areas (area size is (10 ⁇ 10) pixels).
- the maximum value data including (32 ⁇ 16) maximum values and the average value data including (32 ⁇ 16) average values are obtained.
- the LED of the color component C representing (32 ⁇ 16) LED luminances (LED output values) Data is obtained.
- first backlight luminance data including (160 ⁇ 80) display luminances is obtained.
- correction filter 156 is applied to the first backlight luminance data, the display luminance included in the first backlight luminance data is corrected.
- second backlight luminance data including (1920 ⁇ 1080) display luminances is obtained.
- provisional light transmittances are calculated by dividing the luminance of the pixels included in the input image by the display luminance included in the second backlight luminance data. If the provisional light transmittance in each of the RGB colors including the color component C does not exceed 1, the selected value is 1, and if any of the colors exceeds 1, the maximum value is selected as the selected value S. Calculate as Then, by dividing (1920 ⁇ 1080) provisional light transmittance in the color component C by the selection value S, liquid crystal data of (1920 ⁇ 1080) color component C is obtained.
- the luminance of the display pixel corresponding to the final light transmittance is lower than the luminance to be originally displayed, but the ratio of each RGB color should be originally displayed as shown in the following equation (1). It corresponds to the ratio of each RGB color. Therefore, this display device can display natural colors with good color reproducibility.
- the area active drive processing unit 15 performs sub-sampling processing on the input image to remove noise and performs area active drive based on the reduced image. However, the area active drive processing unit 15 performs area active drive based on the original input image. Active driving may be performed.
- any one of the provisional light transmittances Tt corresponding to all the color components (color components of RGB3 colors) constituting a certain pixel is 1.
- the provisional light transmittance Tt is divided by the maximum value of these three provisional light transmittances Tt, and when none of these exceed one, the provisional light transmittance Tt is divided by the selected value S set to 1. To do. According to this configuration, even when any of the temporary light transmittances Tt exceeds 1, display with high color reproducibility can be performed on the display unit.
- the backlight 13 is configured by the red LED 23, the green LED 24, and the blue LED 25, but the backlight may be configured by a cold cathode fluorescent lamp (CCFL) or the like.
- the liquid crystal panel 11 is composed of a large number of display elements 21 including liquid crystal, but a shutter element made of a well-known substance having electro-optical characteristics capable of controlling the light transmittance from the backlight 13 instead of the liquid crystal. May be used.
- the LED unit 22 includes one red LED 23, one green LED 24, and one blue LED 25.
- the number of three color LEDs included in the LED unit 22 may be other than this.
- the LED unit 22 may include one red LED 23 and one blue LED 25 and two green LEDs 24.
- the backlight drive circuit 14 may control the two green LEDs 24 so that the total luminance of the two green LEDs 24 becomes the LED luminance determined in step S15.
- the structure containing white LED other than three colors may be sufficient.
- a phenomenon that occurs when any of the temporary light transmittances Tt exceeds 1 is a phenomenon in which the luminance values (combined values) of the three colors as a whole are smaller than the luminance values to be reproduced. This can be solved by increasing the brightness of the white LED.
- the structure which combined suitably LED which emits several primary colors other than the said 3 colors or 4 colors may be sufficient.
- any of the temporary light transmittances Tt for each color exceeds 1, it is divided by the maximum value, but it is not always necessary to divide by the maximum value of the temporary light transmittances Tt. It may be a predetermined value larger than this maximum value. Then, the light transmittance T does not exceed 1, and the ratio of the luminance of the three colors does not change. Therefore, even if the combined luminance of each color in the pixel decreases, the color reproducibility does not decrease. Therefore, the image can be displayed in a more natural color. Even when the predetermined value is smaller than the maximum value, an effect of suppressing a decrease in color reproducibility can be obtained.
- the present invention is applied to an image display device including a backlight device including a light source that emits a plurality of primary colors, and includes a liquid crystal display device having a function of controlling the luminance of the backlight (backlight dimming function). It is suitable for the image display device.
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Abstract
Description
複数の原色となる光を発する複数の光源を含むバックライトと、
前記光源からの光を透過することにより複数の色で1つの画素を表示する複数の表示素子を複数組含む表示パネルと、
複数の色で構成される画素を複数含む入力画像を複数のエリアに分割し、前記入力画像に基づき各エリアに対応した光源の発光時の輝度を示す発光輝度データを求める発光輝度算出部と、
各エリアについての前記発光輝度データに基づき、各表示素子において得られる最大輝度である表示輝度を求める表示輝度算出部と、
前記入力画像と前記表示輝度算出部により求められる表示輝度とに基づき、前記表示素子の光透過率を制御するための表示用データを求める表示用データ算出部と、
前記表示用データに基づき、前記表示パネルに対して前記表示素子の光透過率を制御する信号を出力するパネル駆動回路と、
前記発光輝度データに基づき、前記バックライトに対して前記光源の輝度を制御する信号を出力するバックライト駆動回路と
を備え、
前記表示用データ算出部は、前記入力画像の画素を構成する前記色毎の輝度のうちいずれかが対応する前記表示輝度よりも大きいときには、対応する表示素子の光透過率が1以下になるよう前記入力画像の画素を構成する前記色毎の輝度をそれぞれ同一値で除算した値に基づき、前記表示用データを求めることを特徴とする。
前記表示用データ算出部は、前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより前記色毎の仮の光透過率を算出し、前記色毎の仮の光透過率のうちの最大値が1を超える場合には、前記色毎の仮の光透過率を前記最大値で除算することにより前記色毎の光透過率を算出し、前記最大値が1以下の場合には前記色毎の仮の光透過率を前記色毎の光透過率として算出することを特徴とする。
前記表示用データ算出部は、
前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより得られる前記色毎の仮の光透過率を出力する第1の割り算回路と、
前記第1の割り算回路から出力される前記色毎の仮の光透過率のうちの最大値を選択し、当該最大値が1を超える場合には当該最大値を選択値として出力し、当該最大値が1以下の場合には1を選択値として出力する最大値選択回路と、
前記第1の割り算回路から出力される前記色毎の仮の光透過率を前記最大値選択回路から出力される選択値で除算することにより得られる前記色毎の光透過率を出力する第2の割り算回路と
を含むことを特徴とする。
前記バックライトは、光の三原色である赤色、緑色、および青色をそれぞれ発する光源を含み、
前記表示パネルは、前記光源から発せられる赤色、緑色、および青色の光の透過率をそれぞれ制御する表示素子を含むことを特徴とする。
前記表示パネルは、前記表示素子として液晶素子を含むことを特徴とする。
複数の色で構成される画素を複数含む入力画像を複数のエリアに分割し、前記入力画像に基づき各エリアに対応した光源の発光時の輝度を示す発光輝度データを求める発光輝度算出ステップと、
各エリアについての前記発光輝度データに基づき、各表示素子において得られる最大輝度である表示輝度を求める表示輝度算出ステップと、
前記入力画像と前記表示輝度算出ステップにより求められる表示輝度とに基づき、前記表示素子の光透過率を制御するための表示用データを求める表示用データ算出ステップと、
前記表示用データに基づき、前記表示パネルに対して前記表示素子の光透過率を制御するパネル駆動ステップと、
前記発光輝度データに基づき、前記バックライトに対して前記光源の輝度を制御するバックライト駆動ステップと
を備え、
前記表示用データ算出ステップは、前記入力画像の画素を構成する前記色毎の輝度のうちいずれかが対応する前記表示輝度よりも大きいときには、対応する表示素子の光透過率が1以下になるよう前記入力画像の画素を構成する前記色毎の輝度をそれぞれ同一値で除算した値に基づき、前記表示用データを求めることを特徴とする。
前記表示用データ算出ステップでは、前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより前記色毎の仮の光透過率を算出し、前記色毎の仮の光透過率のうちの最大値が1を超える場合には、前記色毎の仮の光透過率を前記最大値で除算することにより前記色毎の光透過率を算出し、前記最大値が1以下の場合には前記色毎の仮の光透過率を前記色毎の光透過率として算出することを特徴とする。
前記表示用データ算出ステップは、
前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより得られる前記色毎の仮の光透過率を出力する第1の割り算ステップと、
前記第1の割り算ステップにおいて出力される前記色毎の仮の光透過率のうちの最大値を選択し、当該最大値が1を超える場合には当該最大値を選択値として出力し、当該最大値が1以下の場合には1を選択値として出力する最大値選択ステップと、
前記第1の割り算ステップにおいて出力される前記色毎の仮の光透過率を前記最大値選択ステップにおいて出力される選択値で除算することにより得られる前記色毎の光透過率を出力する第2の割り算ステップと
を含むことを特徴とする。
<1. 全体的な構成および動作概要>
図1は、本発明の一実施形態に係る液晶表示装置10の構成を示すブロック図である。図1に示す液晶表示装置10は、液晶パネル11、パネル駆動回路12、バックライト13、バックライト駆動回路14、および、エリアアクティブ駆動処理部15を備えている。液晶表示装置10は、画面を複数のエリアに分割し、エリア内の入力画像に基づきバックライト光源の輝度を制御しながら、液晶パネル11を駆動するエリアアクティブ駆動を行う。以下、mとnは2以上の整数、pとqは1以上の整数、pとqのうち少なくとも一方は2以上の整数であるとする。
図3は、本実施形態におけるエリアアクティブ駆動処理部15の詳細な構成を示すブロック図である。エリアアクティブ駆動処理部15は、所定の処理を実行するための構成要素として、LED出力値算出部151と、表示輝度算出部152と、LCDデータ算出部154とを備え、所定のデータを格納するための構成要素として、フレームメモリ153と、輝度拡散フィルタ155とを備えている。なお、本実施形態においては、LED出力値算出部151によって発光輝度算出部が実現され、LCDデータ算出部154によって表示用データ算出部が実現されている。また、これらの構成要素は専用のハードウェアからなるが、これらの構成要素の各機能は所定のマイクロコンピュータやシグナルプロセッサ等のハードウェアに実装されるプログラムにより実現されてもよい。
図4は、エリアアクティブ駆動処理部15の処理を示すフローチャートである。エリアアクティブ駆動処理部15には、入力画像31に含まれるある色成分(以下、色成分Cという)の画像が入力される(ステップS11)。色成分Cの入力画像には(m×n)個の画素の輝度が含まれる。なお、本実施形態では、色成分はRGBの3色であり、実際には各色同時に本処理が行われる。
Xr:Xg:Xb=Ar・Br:Ag・Bg:Ag・Bg …(1)
本実施形態によれば、ステップS19において前述したように、或る1つの画素を構成する全ての色成分(RGB3色の色成分)に対応するそれぞれの仮の光透過率Ttのいずれかが1を超える場合には、これら3つの仮の光透過率Ttのうちの最大値に、またこれらのいずれも1を超えない場合には1に設定した選択値Sで仮の光透過率Ttを除算する。この構成によれば、仮の光透過率Ttのいずれかが1を超える場合にも表示部において色再現性の高い表示を行うことができる。
上記各実施形態では、バックライト13は赤色LED23、緑色LED24および青色LED25で構成されているが、バックライトを冷陰極管(CCFL:Cold Cathode Fluorescent Lamp )などで構成してもよい。また、液晶パネル11は液晶を含む多数の表示素子21で構成されているが、液晶に代えてバックライト13からの光の透過率を制御可能な電気光学特性を有する周知の物質からなるシャッター素子を使用してもよい。
11 …液晶パネル
12 …パネル駆動回路
13 …バックライト
14 …バックライト駆動回路
15 …エリアアクティブ駆動処理部
21 …表示素子
22 …LEDユニット
31 …入力画像
32 …液晶データ
33 …LEDデータ
41 …輝度画像
42 …遅延された入力画像
43 …PSFデータ
151…LED出力値算出部
152…表示輝度算出部
153…フレームメモリ
154…LCDデータ算出部
155…輝度拡散フィルタ
541~543…第1の割り算回路
545~547…第2の割り算回路
544…最大値選択回路
Claims (8)
- バックライトの輝度を制御する機能を有する画像表示装置であって、
複数の原色となる光を発する複数の光源を含むバックライトと、
前記光源からの光を透過することにより複数の色で1つの画素を表示する複数の表示素子を複数組含む表示パネルと、
複数の色で構成される画素を複数含む入力画像を複数のエリアに分割し、前記入力画像に基づき各エリアに対応した光源の発光時の輝度を示す発光輝度データを求める発光輝度算出部と、
各エリアについての前記発光輝度データに基づき、各表示素子において得られる最大輝度である表示輝度を求める表示輝度算出部と、
前記入力画像と前記表示輝度算出部により求められる表示輝度とに基づき、前記表示素子の光透過率を制御するための表示用データを求める表示用データ算出部と、
前記表示用データに基づき、前記表示パネルに対して前記表示素子の光透過率を制御する信号を出力するパネル駆動回路と、
前記発光輝度データに基づき、前記バックライトに対して前記光源の輝度を制御する信号を出力するバックライト駆動回路と
を備え、
前記表示用データ算出部は、前記入力画像の画素を構成する前記色毎の輝度のうちいずれかが対応する前記表示輝度よりも大きいときには、対応する表示素子の光透過率が1以下になるよう前記入力画像の画素を構成する前記色毎の輝度をそれぞれ同一値で除算した値に基づき、前記表示用データを求めることを特徴とする、画像表示装置。 - 前記表示用データ算出部は、前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより前記色毎の仮の光透過率を算出し、前記色毎の仮の光透過率のうちの最大値が1を超える場合には、前記色毎の仮の光透過率を前記最大値で除算することにより前記色毎の光透過率を算出し、前記最大値が1以下の場合には前記色毎の仮の光透過率を前記色毎の光透過率として算出することを特徴とする、請求項1に記載の画像表示装置。
- 前記表示用データ算出部は、
前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより得られる前記色毎の仮の光透過率を出力する第1の割り算回路と、
前記第1の割り算回路から出力される前記色毎の仮の光透過率のうちの最大値を選択し、当該最大値が1を超える場合には当該最大値を選択値として出力し、当該最大値が1以下の場合には1を選択値として出力する最大値選択回路と、
前記第1の割り算回路から出力される前記色毎の仮の光透過率を前記最大値選択回路から出力される選択値で除算することにより得られる前記色毎の光透過率を出力する第2の割り算回路と
を含むことを特徴とする、請求項2に記載の画像表示装置。 - 前記バックライトは、光の三原色である赤色、緑色、および青色をそれぞれ発する光源を含み、
前記表示パネルは、前記光源から発せられる赤色、緑色、および青色の光の透過率をそれぞれ制御する表示素子を含むことを特徴とする、請求項1に記載の画像表示装置。 - 前記表示パネルは、前記表示素子として液晶素子を含むことを特徴とする、請求項4に記載の画像表示装置。
- バックライトの輝度を制御する機能を有し、複数の原色となる光を発する複数の光源を含むバックライトと、前記光源からの光を透過することにより複数の色で1つの画素を表示する複数の表示素子を複数組含む表示パネルとを備える画像表示装置における画像制御方法であって、
複数の色で構成される画素を複数含む入力画像を複数のエリアに分割し、前記入力画像に基づき各エリアに対応した光源の発光時の輝度を示す発光輝度データを求める発光輝度算出ステップと、
各エリアについての前記発光輝度データに基づき、各表示素子において得られる最大輝度である表示輝度を求める表示輝度算出ステップと、
前記入力画像と前記表示輝度算出ステップにより求められる表示輝度とに基づき、前記表示素子の光透過率を制御するための表示用データを求める表示用データ算出ステップと、
前記表示用データに基づき、前記表示パネルに対して前記表示素子の光透過率を制御するパネル駆動ステップと、
前記発光輝度データに基づき、前記バックライトに対して前記光源の輝度を制御するバックライト駆動ステップと
を備え、
前記表示用データ算出ステップは、前記入力画像の画素を構成する前記色毎の輝度のうちいずれかが対応する前記表示輝度よりも大きいときには、対応する表示素子の光透過率が1以下になるよう前記入力画像の画素を構成する前記色毎の輝度をそれぞれ同一値で除算した値に基づき、前記表示用データを求めることを特徴とする、画像表示方法。 - 前記表示用データ算出ステップでは、前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより前記色毎の仮の光透過率を算出し、前記色毎の仮の光透過率のうちの最大値が1を超える場合には、前記色毎の仮の光透過率を前記最大値で除算することにより前記色毎の光透過率を算出し、前記最大値が1以下の場合には前記色毎の仮の光透過率を前記色毎の光透過率として算出することを特徴とする、請求項6に記載の画像表示方法。
- 前記表示用データ算出ステップは、
前記入力画像の画素を構成する前記色毎の輝度を当該画素の色に対応する前記表示輝度で除算することにより得られる前記色毎の仮の光透過率を出力する第1の割り算ステップと、
前記第1の割り算ステップにおいて出力される前記色毎の仮の光透過率のうちの最大値を選択し、当該最大値が1を超える場合には当該最大値を選択値として出力し、当該最大値が1以下の場合には1を選択値として出力する最大値選択ステップと、
前記第1の割り算ステップにおいて出力される前記色毎の仮の光透過率を前記最大値選択ステップにおいて出力される選択値で除算することにより得られる前記色毎の光透過率を出力する第2の割り算ステップと
を含むことを特徴とする、請求項7に記載の画像表示方法。
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JP (1) | JPWO2010024009A1 (ja) |
CN (1) | CN102124512B (ja) |
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JP2010164851A (ja) * | 2009-01-16 | 2010-07-29 | Toshiba Corp | 画像表示装置 |
WO2011162040A1 (ja) * | 2010-06-23 | 2011-12-29 | シャープ株式会社 | 画像表示装置および画像表示方法 |
US8717278B2 (en) | 2010-08-31 | 2014-05-06 | Dolby Laboratories Licensing Corporation | Method and apparatus for adjusting drive values for dual modulation displays |
CN114170944A (zh) * | 2021-12-10 | 2022-03-11 | 昆山国显光电有限公司 | 显示设备及显示亮度调整方法 |
US11501727B2 (en) | 2019-12-24 | 2022-11-15 | Seiko Epson Corporation | Circuit device, display device, electronic apparatus, mobile body, and control method |
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AU2006304933B2 (en) | 2005-10-21 | 2011-07-21 | The Nielsen Company (Us), Llc | Methods and apparatus for metering portable media players |
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JPWO2011013404A1 (ja) * | 2009-07-29 | 2013-01-07 | シャープ株式会社 | 画像表示装置および画像表示方法 |
WO2013056117A1 (en) * | 2011-10-13 | 2013-04-18 | Dolby Laboratories Licensing Corporation | Methods and apparatus for backlighting dual modulation display devices |
TW201326972A (zh) * | 2011-12-30 | 2013-07-01 | Ind Tech Res Inst | 顯示裝置 |
AU2013274573B2 (en) | 2012-06-15 | 2015-06-04 | Dolby Laboratories Licensing Corporation | Systems and methods for controlling dual modulation displays |
US9325381B2 (en) | 2013-03-15 | 2016-04-26 | The Nielsen Company (Us), Llc | Methods, apparatus and articles of manufacture to monitor mobile devices |
CN105609061B (zh) * | 2014-11-20 | 2019-03-01 | 深圳光峰科技股份有限公司 | 一种lcos液晶器件的调制方法、装置及系统 |
JP2018180333A (ja) * | 2017-04-14 | 2018-11-15 | 株式会社ジャパンディスプレイ | 表示装置及び表示モジュール |
JP2019120870A (ja) * | 2018-01-10 | 2019-07-22 | シャープ株式会社 | 画像表示装置および画像表示方法 |
CN110967862A (zh) * | 2018-09-30 | 2020-04-07 | 北京小米移动软件有限公司 | 显示装置及其控制方法、控制装置和计算机可读存储介质 |
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- 2009-06-01 EP EP09809664.7A patent/EP2320412B1/en not_active Not-in-force
- 2009-06-01 BR BRPI0917382A patent/BRPI0917382A2/pt not_active IP Right Cessation
- 2009-06-01 CN CN2009801323765A patent/CN102124512B/zh not_active Expired - Fee Related
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JP2010164851A (ja) * | 2009-01-16 | 2010-07-29 | Toshiba Corp | 画像表示装置 |
WO2011162040A1 (ja) * | 2010-06-23 | 2011-12-29 | シャープ株式会社 | 画像表示装置および画像表示方法 |
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US11501727B2 (en) | 2019-12-24 | 2022-11-15 | Seiko Epson Corporation | Circuit device, display device, electronic apparatus, mobile body, and control method |
CN114170944A (zh) * | 2021-12-10 | 2022-03-11 | 昆山国显光电有限公司 | 显示设备及显示亮度调整方法 |
CN114170944B (zh) * | 2021-12-10 | 2024-02-27 | 昆山国显光电有限公司 | 显示设备及显示亮度调整方法 |
Also Published As
Publication number | Publication date |
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CN102124512A (zh) | 2011-07-13 |
EP2320412A1 (en) | 2011-05-11 |
US8619010B2 (en) | 2013-12-31 |
EP2320412A4 (en) | 2011-09-21 |
JPWO2010024009A1 (ja) | 2012-01-26 |
RU2448374C1 (ru) | 2012-04-20 |
CN102124512B (zh) | 2013-11-06 |
BRPI0917382A2 (pt) | 2015-11-17 |
US20110115827A1 (en) | 2011-05-19 |
EP2320412B1 (en) | 2018-12-26 |
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