JP2008193645A - Lightness correcting device, method thereof, and display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device having a lightness correcting method of providing an excellent image by suitably maintaining color balance even when lightness is changed. <P>SOLUTION: A lightness gain calculating unit 450 sets a gain amount for a lightness level based upon a predetermined gain amount of setting input corresponding to respective values of the lightness level calculated by a lightness level calculating means 410 and a correcting means 460 corrects the lightness level. An adding means 500 adds together the corrected lightness level and a color component extracted by subtracting the lightness level from an input image signal by a subtracting means 480 and outputs the addition result as a corrected image signal having its lightness corrected. The lightness can be corrected without the trouble that the color balance is changed, and excellent picture display can be provided. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a brightness correction device that corrects brightness in image data of an input image signal that has been input, a method thereof, and a display device.

Conventionally, a configuration for correcting brightness is known as a configuration for processing image information (see, for example, Patent Document 1 or Patent Document 2).
The device described in Patent Document 1 classifies an input video signal by a plurality of signal levels, and detects an average value or an integral value of the video signal in each level range of the divided signal levels. Then, the gamma correction characteristic is controlled according to the average value or integral value of the video signal in each level range, and the input video signal is subjected to gamma correction and output to perform gamma correction with good gradation reproducibility. Has been taken.
However, since the gamma correction is performed on the RGB signal that is the input video signal, the RGB color balance may change in the one described in Patent Document 1. That is, as shown in FIG. 1, when the RGB signal is gamma-adjusted by, for example, the 1.6th power and the 2.2th power, respectively, the 1.6th power gamma adjustment shown in FIG. The ratio of the R value, the G value, and the B value is different from the 2.2 power gamma adjustment shown in (2), and the color balance is changed depending on the degree of gamma correction to be performed.

The one described in Patent Document 2 separates a composite video signal supplied from an input terminal into a luminance signal and a two-color difference signal by a separation circuit. Then, the luminance signal is changed by the dynamic gamma circuit so that the characteristic curve of the gamma correction between input and output is reinforced, for example, from the substantially straight line to the intermediate signal level. The gamma-corrected luminance signal and the two-color difference signal are converted into three primary color signals by a conversion circuit, supplied to display means such as a plasma display via the A / D conversion circuit, and the average of the displayed video signal When the luminance is low, a configuration is adopted in which the intermediate luminance is increased while keeping the maximum output constant to make it easy to see the entire image.
However, since the Y value is directly subjected to gamma correction as the brightness signal in the one described in Patent Document 2, for example, the color component is further brightened by the brightening correction, so that it is whitened. If the pixel is already bright, it cannot be corrected properly beyond the correction range, or the color component is corrected darker by correcting it to darken, resulting in a darker color and already dark pixels However, there are inconveniences such as being unable to correct properly beyond the correction range.

JP-A-2-206282 Japanese Patent Application Laid-Open No. 11-327496

As described above, in the configuration in which gamma correction is performed based on the RGB signal as described in Patent Document 1, the problem that the color balance changes is an example.
In addition, when the Y value of the brightness signal as described in Patent Document 2 is subjected to gamma correction as it is, there is a possibility that a good color display may not be obtained beyond the correction range for each color component, and the correction range is A limited problem is an example.

  In view of such problems, the present invention provides a brightness correction apparatus, a method thereof, and a display apparatus capable of providing a good image while maintaining a proper color balance even if the brightness is changed. One purpose is to do.

According to the first aspect of the present invention, the Y value, u value and v value in the Yuv color space, CIE (Commission Internationale de l'Eclairage) 1976 L ^* a ^{* Based on one} of the L ^* value, a ^* value and b ^* value in the b ^* color space, or the RGB value, the brightness level relating to the brightness of the image data is calculated and output as a brightness level signal. Brightness level calculating means, subtracting means for subtracting the brightness level of the brightness level signal output from the brightness level calculating means from the input image signal and outputting it as a color component signal relating to a color component, and the brightness The gain amount for the brightness level is clarified by a predetermined gain amount corresponding to each value of the brightness level of the brightness level signal output from the brightness level calculation means. Brightness gain calculation means for output as a gain signal, and after correcting by correcting the brightness level of the brightness level signal based on the gain amount of the brightness gain signal output from the brightness gain calculation means A correction means for outputting as a brightness level signal, and adding the color component of the color component signal output from the subtraction means to the corrected brightness level of the corrected brightness signal output from the correction means. A brightness correction apparatus comprising: addition means for outputting as a corrected image signal.

  According to a fifth aspect of the present invention, brightness level calculation means for calculating a brightness level from an input image signal relating to input image data and outputting the brightness level signal, and output from the brightness level calculation means. Subtracting means for subtracting the brightness level of the brightness level signal from the input image signal and outputting it as a color component signal relating to a color component; and the brightness level of the brightness level signal output from the brightness level calculating means First brightness gain calculating means for outputting a gain amount for the brightness level as a first brightness gain signal with a predetermined gain amount corresponding to each of the values, and calculating a color density from the input image signal that has been input Color density calculation means for outputting as a color density signal, and the brightness level of the brightness level signal output from the brightness level calculation means, And based on the color density of the color density signal output from the color density calculation means, a higher degree of color saturation is calculated as the brightness level corresponding to the color density decreases. Color saturation calculating means for outputting as a signal, and when the color saturation of the color saturation signal output from the color saturation calculating means is higher than a predetermined value, and the gain amount of the first brightness gain signal is A second brightness that is output as a second brightness gain signal by adding a correction that is greater than or equal to the gain quantity of the first brightness gain signal when the gain quantity is less than 1 times the brightness level. And a corrected brightness level signal by correcting the brightness level of the brightness level signal on the basis of the gain amount of the second brightness gain signal output from the brightness gain calculating means and the second brightness gain calculating means. As out And a correction unit that adds the color component of the color component signal output from the subtraction unit to the corrected brightness level of the corrected brightness signal output from the correction unit, and outputs the corrected image signal. And a brightness correction device characterized by comprising:

  The invention according to claim 8 is a brightness level calculating means for calculating a brightness level from an input image signal relating to input image data and outputting it as a brightness level signal, and outputting from the brightness level calculating means. Subtracting means for subtracting the brightness level of the brightness level signal from the input image signal and outputting it as a color component signal relating to a color component; and the brightness level of the brightness level signal output from the brightness level calculating means A first brightness gain calculating means for outputting a gain amount for the brightness level as a first brightness gain signal by a predetermined gain amount corresponding to each of the values, and calculating a hue from the input image signal that has been input. A hue calculation means for outputting as a hue signal, a brightness level of a brightness level signal output from the brightness level calculation means, and Based on the hue of the hue signal output from the hue calculation means, a color saturation calculation means for calculating a high degree of color saturation and outputting it as a color saturation signal as the brightness level for the hue decreases. And when the color saturation level of the color saturation level signal output from the color saturation level calculation means is higher than a predetermined value, and the gain amount of the first brightness gain signal is not more than 1 times the brightness level. And a second brightness gain calculating means for adding a correction of 1 or more to the gain amount of the first brightness gain signal and outputting it as a second brightness gain signal. Correction means for correcting the brightness level of the brightness level signal based on the gain amount of the second brightness gain signal output from the brightness gain calculating means and outputting the corrected brightness level signal; Adding means for adding the color component of the color component signal output from the subtracting means to the corrected brightness level of the corrected brightness signal output from the correcting means and outputting the corrected image signal as a corrected image signal; It is the brightness correction apparatus characterized by having.

According to the eleventh aspect of the present invention, the Y value, u value and v value in the Yuv color space, CIE (Commission Internationale de l'Eclairage) 1976 L ^* a a brightness level calculating step of calculating a brightness level related to the brightness of the image data based on any of the L ^* value, a ^* value and b ^* value in the ^* b ^* color space, or the RGB value; Corresponds to each value of the brightness level calculated in the subtraction step for extracting the color component by subtracting the brightness level calculated in the brightness level calculation step from the input image signal, and the brightness level calculation step A brightness gain calculating step for calculating a gain amount for the brightness level by the predetermined gain amount, and for the brightness level calculated in the brightness gain calculating step. A correction step for correcting the brightness level based on the in amount, and the color component extracted in the subtraction step is added to the brightness level corrected in the correction step, and output as a corrected image signal A brightness correction method characterized by performing an adding step.

  The invention according to claim 12 is a brightness level calculation step of calculating a brightness level from an input image signal relating to input image data, and the brightness level calculated in the brightness level calculation step is used as the input image. A gain amount for the brightness level is calculated by a subtraction step for subtracting the color component by subtracting from the signal and a predetermined gain amount corresponding to each value of the brightness level calculated in the brightness level calculation step. Calculated in a first brightness gain calculating step, a color density calculating step of calculating a color density from the inputted input image signal, and the brightness level and the color density calculating step calculated in the brightness level calculating step A color saturation calculation step of calculating a high degree of color saturation as the brightness level corresponding to the color density decreases based on the color density In the case where the color saturation calculated in the color saturation calculation step is higher than a predetermined value, the gain amount calculated in the first brightness gain calculation step is equal to or less than one time the brightness level. In the case of the gain amount, based on the gain amount calculated in the second brightness gain calculation step of adding a correction that is 1 or more times to the gain amount with respect to the brightness level, and the gain amount calculated in the second brightness gain calculation step A correction step of correcting the brightness level, and an addition step of adding the color component extracted in the subtraction step to the brightness level corrected in the correction step and outputting it as a corrected image signal; Is a brightness correction method characterized in that

  According to a thirteenth aspect of the present invention, a brightness level calculating step of calculating a brightness level from an input image signal relating to input image data, and the brightness level calculated in the brightness level calculating step is used as the input image. A gain amount for the brightness level is calculated by a subtraction step for subtracting the color component by subtracting from the signal and a predetermined gain amount corresponding to each value of the brightness level calculated in the brightness level calculation step. A first brightness gain calculating step, a hue calculating step for calculating a hue from the input image signal input, and the brightness level calculated in the brightness level calculating step and the hue calculated in the hue calculating step. Based on the hue, a color saturation calculation step for calculating a high degree of color saturation as the brightness level with respect to the hue decreases, and the color saturation When the color saturation calculated from the output step is higher than a predetermined value, and when the gain amount calculated in the first brightness gain calculation step is a gain amount that is equal to or less than one times the brightness level. A second brightness gain calculation step of adding a correction of 1 or more to the gain amount for the brightness level, and the brightness level is calculated based on the gain amount calculated in the second brightness gain calculation step. A correction step of correcting, and an addition step of adding the color component extracted in the subtraction step to the brightness level corrected in the correction step and outputting the result as a corrected image signal. Is a brightness correction method.

  According to a fourteenth aspect of the present invention, there is provided the brightness correction apparatus according to any one of the first to tenth aspects and display means for displaying a corrected image signal output from the brightness correction apparatus on a screen. A display device characterized by comprising.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
In the present embodiment, a display system including a display device having the brightness correction device of the present invention will be described as an example. However, the present invention is not limited to this. For example, recording and playback that includes a brightness correction device and plays back image data The present invention can also be applied as an integrated display device having a configuration for recording and reproducing. The display device is not limited to a television such as a cathode ray tube or CRT (Cathode-Ray Tube), but a display equipped with various display panels such as a liquid crystal panel, an organic EL (electroluminescence) panel, and a PDP (Plasma Display Panel). Any configuration capable of displaying image data on a screen, such as a projector other than a television, can be applied.
FIG. 2 is a block diagram showing a schematic configuration of the display system in the present embodiment. FIG. 3 is a block diagram showing a circuit configuration of brightness correction means in the calculation means of the display device.

[Configuration of display system]
In FIG. 2, reference numeral 100 denotes a display system. The display system 100 is a system capable of reproducing content acquired from the outside by screen display or audio output and recording the content.
Content includes TV broadcast programs and satellite broadcast programs acquired from broadcast waves, video and still image content such as video and still images output from external devices connected to transmit and receive various data, the Internet and intranets, etc. Examples include contents such as music and video acquired via a network (not shown), contents such as images and sounds related to various programs such as game software, and the like.
The display system 100 includes a recording / reproducing device 200 that is an external device, and a display device 300.

The recording / reproducing apparatus 200 is connected to the display apparatus 300 so that various data can be transmitted and received.
The recording / reproducing apparatus 200 acquires and records content, outputs the recorded content to the display device 300, and causes the display device 300 to reproduce the content. In other words, the recording / reproducing apparatus 200 is configured to be able to receive broadcast waves and the like and acquire content via a network or the like, and includes recording means (not shown) that records the content in a readable manner. As this recording means, for example, a hard disk (Hard Disk Drive; HDD), an optical disk such as a CD (Compact Disc) and a DVD (Digital Versatile Disc), a magneto-optical disk, a memory card, etc. can be attached and detached, and a fixed memory, etc. Examples of the configuration include a drive and a driver that store various information in a readable manner on various recording media, and a configuration in which a plurality of them are combined.

(Overall configuration of display device)
The display device 300 plays back content acquired from a broadcast wave, a network, a recording / playback device, or the like.
The display device 300 includes a tuner unit 310, an interface unit 320, an operation unit 330, a sound generation unit 340, a display unit 350, a memory 360, and a calculation unit 370.

The tuner unit 310 is connected to the calculation means 370 and is connected to the antenna 311. The tuner unit 310 receives various broadcast waves such as terrestrial analog broadcast, terrestrial digital broadcast, and satellite digital broadcast by the antenna 311.
The tuner unit 310 acquires a frequency signal of a predetermined band corresponding to a predetermined channel based on a signal output from the operation unit 330, appropriately processes it, and outputs it to the calculation unit.

The interface unit 320 is connected to the calculation unit 370 and is connected to the recording / reproducing apparatus 200 so that various data can be transmitted and received. The interface unit 320 can also be connected to a network.
The interface unit 320 acquires various data acquired from the recording / reproducing apparatus 200, the network, and the like, processes them appropriately, and outputs them to the computing means 370. Further, the interface unit 320 appropriately processes the data acquired from the computing unit 370 and outputs the data to the recording / reproducing apparatus 200 and the network.

The operation means 330 has, for example, various operation buttons and operation knobs (not shown) arranged so that the user can perform an input operation facing the front of the display device 300.
The operation unit 330 is connected to the calculation unit 370, outputs a signal corresponding to an input operation such as an operation button or an operation knob to the calculation unit 370, and causes the calculation unit 370 to set the input operation content. The contents of this input operation include various setting items of the operation contents of the display device 300, such as channel setting of a broadcast program, setting of volume and sound quality, setting of image quality of screen display, and setting of switching of the content source to be played back. It can be illustrated.
The operation means 330 includes, for example, a remote control light receiving unit that receives various signals transmitted from a remote controller (not shown) via infrared rays and outputs the various signals as operation signals to the calculation means 370. Is not limited to an input operation such as an operation button or an operation knob, and any configuration capable of setting and inputting various setting items such as an input operation using a touch panel provided in the display unit 350 and an input operation using voice can be applied.

The sound generation means 340 includes, for example, a speaker and an amplifier (not shown).
The sound generation unit 340 is controlled by the calculation unit 370 and outputs various signals such as voice data from the calculation unit 370 through a speaker.
Note that examples of the audio data to be output as sound include operation sound, confirmation sound, warning sound, and the like corresponding to the input operation in the operation means 330 in addition to the content sound data.

  The display unit 350 is controlled by the calculation unit 370 and displays the image data from the calculation unit 370 on the screen. Examples of the image data include a video screen of content, a text screen, captions, a menu screen for setting items of the display device 300, and the like. As this display means 350, various displays such as a liquid crystal display panel, an organic EL panel, a PDP, a CRT, an FED (Field Emission Display), and an electrophoretic display panel can be applied.

The memory 360 appropriately stores various data processed by the computing unit 370 such as setting items input by the operating unit 330, music data, image data, and the like. The memory 360 also stores various programs developed on an OS (Operating System) that controls the operation of the entire display device 300. As the memory 360, it is desirable to use, for example, a memory (such as a complementary metal-oxide semiconductor (CMOS) memory) having a configuration that retains memory even when the power is suddenly turned off due to a power failure or the like.
Note that the memory 360 may have a configuration including a drive and a driver that are readable and stored in a recording medium such as an HD, a DVD, an optical disc, and a memory card, or a configuration in which a plurality of these are combined.
The memory 360 is associated with the source of the image data to be displayed on the screen by the display unit 350, the details will be described later. Setting information is stored. For example, the display unit 350 optimally displays the image data for each source, such as the type of broadcast wave acquired by the tuner unit 310, the type of content acquired from the outside such as the recording / playback apparatus 200 or network acquired by the interface unit 320, and the like. The value of the optimal setting factor for setting is set.

The computing means 370 includes, for example, a CPU (Central Processing Unit), and various input / output ports (not shown), for example, a receiving port to which the tuner unit 310 is connected, a data receiving port to which the interface unit 320 is connected, and an operating unit 330 are connected. An input port, a sound control port to which the sound generation means 340 is connected, a display control port to which the display means 350 is connected, a memory port to which the memory 360 is connected, and the like.
The calculation unit 370 includes a data processing unit 371, a request recognition unit 372, an image quality adjustment unit 373, and the like as various programs.

The data processing unit 371 acquires content output from the tuner unit 310 and the interface unit 320. Then, the data processing unit 371 performs appropriate processing such as decoding the acquired content, and extracts audio data and image data as an input image signal. The extracted audio data is output to the sound generation means 340, and the image data is output to the display means 350. In this output, the image data and the sound data are output in synchronization with each other so that the state in which the sound is output by the sound generation unit 340 and the state in which the display unit 350 displays the screen are synchronized.
The data processing unit 371 acquires image data related to a predetermined form such as a menu screen related to setting items from the memory 360 based on an operation signal output in response to an input operation from the operation unit 330. The data is processed into an appropriately displayed state and output to the display means 350.

The request recognition unit 372 recognizes image quality adjustment request information for changing the value of the setting factor related to the image quality of the display unit 350. As the recognition of the image quality value request request information, for example, it is recognized based on an operation signal corresponding to a predetermined input operation in the operation means 330 by the user.
Specifically, the request recognition unit 372 acquires, as image quality adjustment request information, an operation signal based on an input operation that directly changes the value of a setting factor such as an operation button, or an input operation that switches a source, and the like. Recognize the request to change the value of. The recognized image quality adjustment request information is output to the image quality adjustment means 373.

The image quality adjustment unit 373 performs display control of the display unit 350 and image data image quality adjustment, and adjusts the image quality when the display unit 350 displays the image data on the screen. This adjustment of image quality is obtained by executing processing for appropriately setting values of a plurality of setting factors relating to image quality such as brightness, contrast, darkness of black, hue, and color density. The setting factor is not limited to the configuration for setting brightness, contrast, black density, hue, color density, etc., but only the brightness, or one or more of brightness and other settings. It may be a factor.
The image quality adjusting means 373, which will be described in detail later, is an image for providing good viewing by preventing the hue and the like from changing when the brightness is adjusted in accordance with the setting input. Brightness correction means 373A constituting a brightness correction circuit for adjusting the image quality of data, that is, correcting the data, is provided.

(Detailed configuration of brightness correction means)
The brightness correction unit 373A includes an input end 401 and an output end 402, as shown in FIG. The image data extracted by the data processing unit 371 is input to the input terminal 401. The output terminal 402 is connected to a display unit 350 and outputs corrected image data as a corrected image signal after image quality adjustment to the display unit 350 for display on the screen.
The input terminal 401 is connected to a brightness level calculation unit 410, a hue calculation unit 420, and a color density calculation unit 430.

The brightness level calculation means 410 is an input image signal related to the image data input to the input terminal 401, for example, Y value, u value and v value in Yuv color space, CIE (Commission Internationale de l'Eclairage). Based on the L ^* value, a ^* value and b ^* value in the 1976 L ^* a ^* b ^* color space, or the RGB value, the brightness level relating to the brightness of the image data is calculated, that is, the white component is detected.
As the calculation of the brightness level, for example, in the case of Y value, u value and v value in the Yuv color space, if the Y value, that is, the value of the brightness level is “A”, (Y, u, v) = (A, 0, 0). For example, in the case of RGB values, each value, that is, (R, G, B) = (A, A, A).
Then, the brightness level calculation unit 410 generates and outputs a brightness level signal related to the value of the brightness level.

The hue calculation unit 420 calculates the hue from the input image signal related to the image data input to the input terminal 401. As an example of the calculation of the hue, a value of an angle that is a position in the circumferential direction when the hue is distributed in the circumferential direction can be exemplified.
Then, the hue calculation unit 420 generates and outputs a hue signal related to the hue.

The color density calculation unit 430 calculates the color density from the input image signal relating to the image data input to the input terminal 401. As the calculation of the color density, for example, the ratio of the color component with respect to a predetermined spatial coordinate position in the three-dimensional space of the input image signal inputted is calculated as the color density and the color density signal is output. That is, the distance from the achromatic color point in the same brightness plane as the brightness level calculated by the brightness level calculation means 410 in the three-dimensional space of the input image signal as the ratio of the color component to the spatial coordinate position. Alternatively, a distance from a predetermined value set in the three-dimensional space is calculated as the color density.
Specifically, in the case of RGB values, when the R value, the G value, and the B value are the same, an achromatic white color is obtained. Therefore, a difference with respect to any value or each RGB value with respect to a predetermined threshold value is determined. A difference etc. can be illustrated.
Then, the color density calculation unit 430 generates and outputs a color density signal related to the color density.

In addition, a color saturation calculation unit 440 is connected to the brightness level calculation unit 410, the hue calculation unit 420, and the color density calculation unit 430.
The color saturation calculation unit 440 outputs the brightness level of the brightness level signal output from the brightness level calculation unit 410 and the hue and color density calculation unit 430 of the hue signal output from the hue calculation unit 420. The color saturation is calculated based on at least one of the color densities of the color density signal. As the calculation of the color saturation, for example, a higher degree of color saturation is calculated as the brightness level corresponding to the color density is lowered, or a higher degree of color saturation is obtained as the brightness level with respect to the hue is lowered. The degree of color saturation is calculated according to the degree to which the brightness level corresponding to the color density is lowered with different weights set for each hue.
That is, since the display color looks light in bright display and the display color looks dark in dark display, the color saturation that is weighting for each brightness is calculated. Examples of this calculation include a configuration in which calculation is performed using various function formulas, and color saturation is read and set based on a conversion table stored in advance. Specifically, in blue and red, it is easier to visually recognize that red has changed even if the ratio of color density changes is the same. For this reason, for example, when the density of blue is 80%, even if the blue is displayed relatively strongly, there is no sense of incongruity, so the color saturation is set to a low value of “2/10” and the red color When the density of 80% is 80%, since a relatively uncomfortable feeling occurs when the red color is displayed relatively strongly, the color saturation is set to a high value “10/10”.
Then, the color saturation calculation unit 440 generates and outputs a color saturation signal related to the color saturation.

The brightness level calculation unit 410 is connected to a brightness gain calculation unit 450 serving as a brightness gain calculation unit. The brightness level calculation unit 410 sets a gain amount for appropriately changing the brightness of the image data in accordance with a predetermined brightness setting by the user.
The brightness gain calculation unit 450 includes a brightness input / output setting LUT (Look Up Table) 451 as a first brightness gain calculation unit, a second brightness gain calculation unit 452 as a brightness gain calculation unit, It has.

The brightness input / output setting LUT 451 sets a gain amount for the brightness level by a predetermined gain amount corresponding to each value of the brightness level of the brightness level signal output from the brightness level calculation unit 410. The brightness input / output setting LUT 451 recognizes a control signal corresponding to a setting input for changing the brightness output from the request recognition unit 372, and is based on a brightness setting conversion table stored in advance in the memory 360. To set the gain corresponding to the change request.
Then, the brightness input / output setting LUT 451 outputs a first brightness gain signal, which is a gain signal related to the set brightness gain amount, to the second brightness gain calculation means 452.

The second brightness gain calculating means 452 is connected to the brightness input / output setting LUT 451 and the color saturation calculating means 440. The second brightness gain calculating means 452 is output from the brightness input / output setting LUT 451 when the color saturation of the color saturation signal output from the color saturation calculating means 440 is higher than a predetermined value. When the gain amount of the first brightness gain signal is a gain amount that is one time or less of the brightness level, the second brightness is obtained by adding a correction that is one time or more to the gain amount of the first brightness gain signal. Output as a gain signal.
Specifically, when the color saturation is high enough, that is, when it is recognized that the color is dark and the setting is made to darken the gain amount less than 1 times from the brightness input / output setting LUT 451, the color If the color is darker when the color is darker, the color balance becomes uneven and the color becomes too dark. For details, the color balance / gain calculation unit 470, which will be described later, makes the color too light, that is, too dark. Therefore, when the color is dark and dark to some extent, the gain value of the first brightness gain signal is a value that is larger than 1 time that is not darkened or slightly lightened slightly. Correction to be added to.
Then, the second brightness gain calculating means 452 outputs a second brightness gain signal related to the corrected second brightness gain.

Further, a correction unit 460 is connected to the brightness level calculation unit 410 and the brightness gain calculation unit 450. The correction unit 460 corrects the brightness level of the brightness level signal based on the gain amount of the brightness gain signal output from the brightness gain calculation unit 450. That is, the correction unit 460 is based on the corrected brightness gain amount of the second brightness gain signal output from the second brightness gain calculation unit 452 of the brightness gain calculation unit 450, based on the brightness gain amount after the correction. The brightness level of the brightness level signal output from is corrected.
Then, the correction unit 460 generates and outputs a corrected brightness level signal related to the corrected brightness level.

Further, a color balance / gain calculation unit 470 is connected to the input terminal 401. The color balance / gain calculation unit 470 calculates the color balance gain amount according to the brightness gain amount output from the brightness gain calculation unit 450.
The color balance / gain calculation unit 470 includes a color balance / gain characteristic setting unit 471 and a color balance / gain amount calculation unit 472.

The color balance / gain characteristic setting unit 471 sets the color balance and each gain amount from the input image signal related to the image data input to the input terminal 401. The color balance and each gain amount are set for each predetermined spatial coordinate position in the three-dimensional space of the input image signal based on a control signal corresponding to a setting input for changing the brightness output from the request recognition unit 372. The gain amount is set so that the color balance ratio before setting is the same as the color balance ratio after setting. Examples of this setting include using a function formula or using a conversion table.
Then, the color balance / gain characteristic setting unit 471 generates a color balance / gain amount signal regarding each gain amount of the set color balance, and outputs it to the color balance / gain amount calculation unit 472.

The color balance / gain amount calculation unit 472 is connected to the second brightness gain calculation unit 452 and the color balance / gain amount calculation unit 472 of the brightness gain calculation unit 450. The color balance / gain amount calculating unit 472 outputs the second brightness gain amount of the second brightness gain signal output from the second brightness gain calculating unit 452 and the color balance / gain amount calculating unit 472. The color balance / gain amount corresponding to the gain amount of the brightness gain signal is calculated based on the gain amount of the color balance of the color balance / gain amount signal, that is, the gain amount of the color balance is calculated as the second brightness. Correct according to the amount of gain.
Specifically, in order to prevent the color from becoming bright and whitish by making it brighter when it is relatively bright, the color is darkened (relatively dark) as a small gain amount that is not equal to the gain amount of brightness. Let On the other hand, in order to prevent the color from becoming darker and darker by making it darker when it is relatively dark, the color is made light (relatively bright) as a small gain amount that is not equal to the gain amount of brightness. .
Then, the color balance / gain amount calculation means 472 generates and outputs a corrected color balance / gain amount signal regarding each gain amount of the corrected color balance.
When the color balance / gain amount calculation unit 472 recognizes that the second brightness gain amount is within a predetermined threshold range corresponding to, for example, relatively bright or relatively dark, Outputs a signal to that effect without correcting each gain amount of color balance, or outputs the value of the second brightness gain amount of the second brightness gain signal as it is by performing an operation that is not substantially corrected May be.

Further, the subtracting means 480 is connected to the input terminal 401.
The subtraction unit 480 is connected to the brightness level calculation unit 410 and subtracts the brightness level of the brightness level signal output from the brightness level calculation unit 410 from the input image signal input to the input terminal 401. Extract color components.
Specifically, for example, when input image signals of Y value, u value, and v value in the Yuv color space are input, the brightness level Y _w value in the Y value, the brightness level u _w value in the u value, v The brightness level v _w value in the value is subtracted. That is, the color components are (Y, u, v) = (Y−Y _w , u−u _w , v−v _w ). For example, when an input image signal of RGB value is input, the brightness level R _w value at the R value, the brightness level G _w value at the G value, and the brightness level B _w value at the B value are subtracted, respectively. That is, the color components are (R, G, B) = (R−R _w , G−G _w , B−B _w ).
Then, the subtracting means 480 generates and outputs a color component signal related to the calculated color component.

In addition, a color density adjusting unit 490 is connected to the subtracting unit 480.
The color density adjusting unit 490 is also connected to the color balance / gain amount calculating unit 472 of the color balance / gain calculating unit 470 and calculates the color balance / gain amount of the color component signal output from the subtracting unit 480. Based on the color balance / gain amount calculated by the means 472, correction for adjusting the color density is performed.
Then, the color density adjusting unit 490 generates and outputs a corrected color component signal related to the corrected color component.
If a signal indicating that correction is not performed is recognized from the color balance / gain amount calculation unit 472, the color component of the color component signal may be output without correction.

Furthermore, an adding unit 500 is connected to the color density adjusting unit 490.
This addition means 500 is also connected to the correction means 460, and is output from the subtraction means 480 to the corrected brightness level of the corrected brightness signal output from the correction means 460, and the color density adjustment means 490 outputs the color density. Is added to the color component of the corrected color component signal, which is a color component signal adjusted appropriately.
Then, the adding means 500 generates and outputs a corrected image signal related to the image signal returned by adding the color component of the corrected color component signal to the corrected brightness level.

Further, an RGB space color gamut limiter 510 is connected to the brightness correction unit 373A.
The RGB space color gamut limiter 510 is connected to the addition unit 500 of the brightness correction unit 373A so that the adjusted image signal after adjustment is included in the RGB reproduction region of the display unit 350 in the corrected image signal. Perform limiter processing.
The RGB space color gamut limiter 510 is connected to the output terminal 402, outputs the corrected image signal subjected to the limiter processing as appropriate to the output terminal 402, and causes the display unit 350 to display the screen.

[Configuration of display system]
Next, as an operation of the display system 100, a process for adjusting the brightness of image quality will be described.

First, when the power of the display device 300 of the display system 100 is turned on and power is supplied, the calculation means 370 reads the setting items stored in the memory 360 and displays the screen on the display means 350 immediately before the power is turned off. Recognize the source of the image data. Then, the computing unit 370 enters an acquisition standby state for the image data of the previous source immediately before the power is turned off.
Specifically, when a broadcast program has been acquired and played back before, the broadcast program of the same channel is received and processed by the tuner unit 310, and the acquisition standby state of the content output from the tuner unit 310 is obtained. It becomes. Further, when content from the recording / reproducing apparatus 200 or the network has been reproduced before, the apparatus enters a standby state for outputting the content from the recording / reproducing apparatus 200 or the network. As the output standby state of the content from the recording / reproducing apparatus, the calculation unit 370 waits for acquisition of standby screen image data stored in advance in the memory 360 or preset standby screen image data from the recording / reproducing apparatus, for example. It becomes a state.
Then, when the data processing unit 371 acquires the content of the previous source, the calculation unit 370 appropriately processes the acquired content and extracts audio data and image data. The extracted audio data is output to the sound generation means 340 and output by the sound generation means 340, or the image data is output to the display means 350 and displayed on the screen of the display means 350, so that the content is appropriately reproduced.

In addition, after the power is turned on, the calculation unit 370 is configured to input a setting request for a source switching request in which the request recognition unit 372 enters a standby state for a request for adjusting the image quality of the content to be reproduced according to a predetermined input operation on the operation unit 330. It is in a standby state. When the image quality adjustment unit 373 acquires the image quality adjustment request information output from the request recognition unit 372, the image quality adjustment unit 373 performs image quality adjustment processing corresponding to the adjustment processing content of the image quality adjustment request information, for example, brightness adjustment processing. This is performed by the length correcting means 373A.
Specifically, the brightness correction unit 373A performs the brightness level calculation step by the brightness level calculation unit 410. That is, the brightness level calculation unit 410 calculates a brightness level related to brightness from an input image signal related to image data input to the input terminal 401, that is, detects a white component, and generates a brightness level signal.
Further, the brightness correction unit 373A performs a subtraction process by the subtraction unit 480. That is, the subtracting unit 480 extracts a color component from the input image signal and generates a color component signal.
In addition, the brightness correction unit 373A performs a hue calculation step by the hue calculation unit 420. That is, the hue calculation unit 420 calculates a hue from the input image signal and generates a hue signal.
Further, the brightness correction unit 373A performs the color density calculation process by the color density calculation unit 430. That is, the color density calculation unit 430 calculates the color density from the input image signal.

Then, the brightness correction unit 373A performs the color saturation calculation step by the color saturation calculation unit 440. That is, the color saturation calculation unit 440 generates the brightness level of the brightness level signal generated and output by the brightness level calculation unit 410, and the hue and color of the hue signal generated and output by the hue calculation unit 420. Based on at least one of the color densities of the color density signal output from the density calculation unit 430, the color saturation is calculated and a color saturation signal is generated.
Further, the brightness correction unit 373A performs the first brightness gain calculation step and the second brightness gain calculation step by the brightness gain calculation unit 450. In other words, the brightness input / output setting LUT 451 of the brightness gain calculation unit 450 uses the brightness setting conversion table stored in advance in the memory 360 based on the brightness setting conversion table, and the brightness corresponding to the adjustment processing content of the image quality adjustment request information. A first brightness gain calculating step for setting a gain amount for changing the value is performed. Thereafter, the second brightness gain calculating means 452 outputs the brightness input / output setting LUT 451 when the color saturation of the color saturation signal output from the color saturation calculating means 440 is higher than a predetermined value. When the gain amount of the first brightness gain signal is a gain amount that is less than or equal to 1 times the brightness level, a correction that is greater than or equal to 1 time is added to the gain amount of the first brightness gain signal. A second brightness gain calculation step for generating a brightness gain signal is performed.

Thereafter, the brightness correction unit 373A causes the color balance / gain calculation unit 470 to generate, for example, a relatively bright and relatively dark gain amount of the second brightness gain signal generated in the second brightness gain calculating step. When it is recognized that it is within a predetermined threshold range corresponding to each of the above, a correction step by the correction means 460 is performed. That is, the correcting unit 460 corrects the brightness gain after correcting the second brightness gain signal 452 output from the second brightness gain calculating unit 452 of the brightness gain calculating unit 450 obtained in the second brightness gain calculating step. The brightness level of the brightness level signal output from the brightness level calculation means 410 obtained in the brightness level calculation step is corrected by the amount, and a corrected brightness level signal is generated.
Further, the brightness correction unit 373A performs the addition process by the addition unit 500. That is, the adding means 500 outputs the color density in the color density adjusting means 490 that is output from the subtracting means 480 obtained in the subtracting process to the brightness level after correction of the corrected brightness level signal obtained in the correcting process. Are added to generate a corrected image signal.

On the other hand, the brightness correction unit 373A sets a predetermined threshold value indicating that the gain amount of the second brightness gain signal generated in the second brightness gain calculation step by the color balance / gain calculation unit 470 is relatively bright, for example. When it is recognized that the number is exceeded, a color balance / gain calculation step is performed.
In other words, the color balance / gain calculation unit 470 uses the color balance / gain characteristic setting unit 471 based on the control signal corresponding to the setting input for changing the brightness, for example, from the input image signal to the input image signal. The color balance and each gain amount are set so that the ratio of the color balance before setting for each predetermined spatial coordinate position in the three-dimensional space is the same as the ratio of the color balance after setting. Further, the color balance / gain calculation unit 470 causes the color balance / gain amount calculation unit 472 to output the second brightness gain signal output from the second brightness gain calculation unit 452 according to the second brightness gain amount. The color balance / gain amount signal output from the color balance / gain amount calculating means 472 corrects each gain amount of the color balance and generates a corrected color balance / gain amount signal.
Thereafter, the brightness correction unit 373A performs the color density adjustment process by the color density adjustment unit 490. That is, the color density adjustment unit 490 generates the color component of the color component signal output from the subtraction unit 480 obtained in the subtraction step by the color balance / gain amount calculation unit 472 obtained in the color balance / gain calculation step. Based on the output color balance / gain amount, correction is performed to adjust the color density, and a corrected color component signal is generated.
Thereafter, as described above, the brightness correction unit 373A uses the addition unit 500 to subtract the means 480 obtained in the subtraction process to the brightness level after correction of the corrected brightness level signal obtained in the correction process. Is added, and the color component of the color component signal whose color density has been adjusted by the color density adjusting means 490 is added, and an adding step for generating a corrected image signal is performed.

  Then, the image quality adjustment unit 373 uses the RGB space color gamut limiter 510 so that the brightness-corrected image signal obtained in the addition step by the brightness correction unit 373A fits in the RGB reproduction area of the display unit 350. Limiter processing, output to the output terminal 402, and display on the display means 350.

[Function and effect of display system]
As described above, in the above embodiment, the Y level, u value, and v value in the Yuv color space, CIE 1976 L ^* a ^{* are} obtained from the input image signal related to the image data input from the input terminal 401 by the brightness level calculation unit 410 ^. The brightness level is calculated based on one of the L ^* value, the a ^* value and the b ^* value in the b ^* color space, or the RGB value. Then, the brightness gain calculation unit 450 sets a gain amount for the brightness level based on a predetermined input gain amount corresponding to each value of the brightness level calculated by the brightness level calculation unit 410. Based on the set gain amount, the brightness level calculated by the brightness level calculation unit 410 is corrected by the correction unit 460. After that, the brightness level corrected by the adding unit 500 and the color component extracted by subtracting the brightness level calculated by the brightness level calculating unit 410 from the input image signal by the subtracting unit 480 are added. The corrected image signal is output as a corrected image signal.
Therefore, only the brightness level, which is a white component, is extracted from the input image signal, and after correcting the brightness with only the extracted white component, the color component is added and returned, so that there is no inconvenience that the color balance changes. Therefore, the brightness can be corrected appropriately and a good screen display can be provided.

In the above-described embodiment, the color density is calculated based on the brightness level calculated by the brightness level calculating unit 410 by the color saturation calculating unit 440 and the color density calculated from the input image signal by the color density calculating unit 430. As the brightness level corresponding to 1 decreases, a higher degree of color saturation is calculated. When the color saturation is higher than a predetermined value, that is, when the color saturation is higher, that is, when the gain amount of the brightness level calculated by the brightness gain calculation unit 450 is one time or less, that is, when it is darkened, the brightness gain calculation unit 450 The brightness level gain amount is corrected by 1 or more, and the brightness level is corrected by the correcting means 460 with the corrected brightness level gain amount.
For this reason, the process of correcting the brightness level gain amount to 1 times or more and prohibiting further darkening is performed. Therefore, by making the display darker to some extent, the color balance becomes uneven and the color becomes uneven. Therefore, it is possible to prevent inconvenience that the color component is too dark and the color component is not displayed well and the display becomes blackish, the color component is appropriately expressed even on a good dark screen, and a good screen display can be provided.

Further, as the color density, the ratio of the color component with respect to a predetermined spatial coordinate position in the three-dimensional space of the input image signal input, for example, the brightness level calculation means 410 in the three-dimensional space of the input image signal input. The distance from the achromatic color point in the same brightness plane as the brightness level or the distance from the predetermined value set in the three-dimensional space is calculated as the color density.
For this reason, the color density can be easily calculated from the input image signal, and appropriate brightness correction can be obtained quickly.

Furthermore, in the above embodiment, the color saturation in the predetermined hue is calculated based on the color density calculated by the color density calculating unit 430 and the hue calculated from the input image signal by the hue calculating unit 420 by the color saturation calculating unit 440. As the level of the color becomes higher, a higher degree of color saturation is calculated.
For this reason, for example, in blue and red, it is easy to visually recognize that red changes even though the color density changes at the same rate. Therefore, the weight level is also weighted and the gain level gain is corrected to 1 or more times. Therefore, it is possible to provide a good screen display in which the color balance is appropriately maintained and the brightness is corrected.

Further, in the above-described embodiment, the brightness obtained by the brightness gain calculation unit 450 calculated by the color balance / gain amount calculation unit 472 using the brightness gain calculation unit 450 for each gain amount of the color balance set by the color balance / gain characteristic setting unit 471 from the input image signal. It is corrected according to the gain level. That is, the gain of the brightness when darkening the color when it is relatively dark and making it darker (relatively dark) as the gain amount is not the same as the gain when brightening when it is relatively bright The color is made light (relatively bright) as a small gain amount, not equal to the amount.
For this reason, it is possible to prevent inconveniences such as making the color brighter and whitish by making it brighter when it is relatively bright, and making the color darker and darker by making it darker when it is relatively dark. Even better correction can provide a better screen display.

Further, as the gain amount calculation by the color balance / gain calculation unit 470, the color balance gain amount is corrected when the brightness gain amount exceeds a predetermined range.
For this reason, when the brightness gain amount is within a predetermined threshold range, the calculation for correcting the color balance gain amount is not performed, so that the brightness correction process can be simplified and appropriate brightness correction can be performed more quickly. Is obtained.

Further, the corrected image signal subjected to the brightness correction is subjected to limiter processing by the RGB space color gamut limiter 510 so as to be within the RGB reproduction region of the display unit 350.
For this reason, it is possible to prevent the display unit 350 from being loaded, reduce power consumption, extend the life of the display unit 350, and provide a good screen display.

Then, an image quality adjustment process, that is, a brightness correction control is constructed as a program in the calculation means 370 so that the image quality adjustment process can be controlled.
For this reason, by using a recording medium in which the program is incorporated or the program is recorded, the above processing can be easily obtained, and the use can be easily expanded.

[Modification of Embodiment]
In addition, this invention is not limited to each embodiment mentioned above, The deformation | transformation shown below is included in the range which can achieve the objective of this invention.

That is, the control of the image quality adjustment processing in the display device 300 in the display system 100 has been described. However, as described above, the control of the image quality adjustment processing is performed in the entire display system 100, or the display device in the recording / playback device 200 It is possible to adopt any form such as control for adjusting the image quality of 300 or a dedicated apparatus configuration for controlling the image quality adjustment processing. For example, as described above, the configuration is not limited to the system configuration such as the display system 100, and the display device 300 may have an integrated configuration including a recording unit.
For example, when the recording / reproducing apparatus 200 switches from a state in which content based on broadcast waves is output to the display device 300 to a state in which the content of the recording unit is output, the image quality adjusting unit 373 of the display device 300 adjusts in stages. Output control signals in advance, select brightness from exhibition settings, brightness settings for movies, etc., adjust brightness, control knobs and buttons For example, the brightness may be adjusted in a stepless manner.

In addition, as described above, the content to be acquired is not limited to a television broadcast program, but includes various types of image data such as a radio broadcast program, a satellite broadcast program, content such as distributed music and video, game software, and a menu screen. You can target what you have.
That is, when a game machine is connected to the interface unit 320, the image quality adjustment processing is automatically performed by recognizing the type of image data based on the operation of the game machine software or recognizing the source. Or a screen display that prompts the user to input a setting for adjusting the brightness.

In this embodiment, the color saturation is calculated based on the hue and the color density, and the gain amount of the brightness level is corrected. However, the color saturation is calculated using only one of the hue and the color density. May be calculated to correct the gain level gain level. Furthermore, it is not necessary to provide a configuration that does not correct the gain level gain amount, that is, a configuration that calculates hue and color density, and a configuration that calculates color saturation.
Furthermore, the hue and color density are not limited to the methods described above, and various methods can be used.

Further, although the color balance gain amount is corrected based on the brightness level gain amount, the color component may be simply combined with the corrected brightness level without providing the color balance / gain calculation unit 470.
Furthermore, the calculation of the gain amount in the color balance / gain calculation unit 470 has been described by correcting the color balance gain amount when the brightness gain amount exceeds a predetermined range. Instead, a calculation for correcting the gain amount of the color balance may be performed.

  Then, the RGB space color gamut limiter 510 explained that the corrected image signal subjected to brightness correction is limited so that it falls within the RGB reproduction region. However, without providing this configuration, the corrected image signal is sent to the display means 350. It may be directly output via the output terminal 402 and displayed on the screen.

  Moreover, although each function mentioned above was constructed | assembled as a program, as above-mentioned, for example, you may comprise by elements, such as hardware, such as a circuit board, or one IC, and it can utilize as any form. In addition, by adopting a configuration in which a program or a separate recording medium is read, handling is easy, and it is possible to prepare an arithmetic means such as a computer to function as an information processing apparatus (CPU), a recording / reproducing apparatus 200, and the like. Enlargement is easy.

  In addition, the specific structure and procedure for carrying out the present invention can be appropriately changed to other structures and the like within a range in which the object of the present invention can be achieved.

[Effect of the embodiment]
As described above, in the above embodiment, the Y level, u value, and v value in the Yuv color space, CIE 1976 L ^* a ^{* are} obtained from the input image signal related to the image data input from the input terminal 401 by the brightness level calculation unit 410 ^. The brightness level is calculated based on one of the L ^* value, the a ^* value and the b ^* value in the b ^* color space, or the RGB value. Then, the brightness gain calculation unit 450 sets a gain amount for the brightness level based on a predetermined input gain amount corresponding to each value of the brightness level calculated by the brightness level calculation unit 410. Based on the set gain amount, the brightness level calculated by the brightness level calculation unit 410 is corrected by the correction unit 460. After that, the brightness level corrected by the adding unit 500 and the color component extracted by subtracting the brightness level calculated by the brightness level calculating unit 410 from the input image signal by the subtracting unit 480 are added. The corrected image signal is output as a corrected image signal.
Therefore, only the brightness level, which is a white component, is extracted from the input image signal, and after correcting the brightness with only the extracted white component, the color component is added and returned, so that there is no inconvenience that the color balance changes. Therefore, the brightness can be corrected appropriately and a good screen display can be provided.
Further, the color saturation is calculated based on the brightness level calculated from the input image signal by the brightness level calculation unit 410 by the color saturation calculation unit 440 and the color density calculated from the input image signal by the color density calculation unit 430. As the corresponding brightness level decreases, a higher degree of color saturation is calculated. The brightness input / output setting LUT of the brightness gain calculation unit 450 then uses the brightness level calculation means 410 based on a predetermined gain amount set and input corresponding to each value of the brightness level calculated from the input image signal. The gain amount for the brightness level is set by the second brightness gain calculation means 452 when the color saturation is higher than a predetermined value, and is less than or equal to the set brightness level. In the case of, correction is performed so that the gain amount with respect to the set brightness level becomes one or more times. Based on the corrected gain amount, the brightness level is corrected by the correction means 460, and then the brightness level calculation means 410 is calculated from the corrected brightness level by the addition means 500 and the input image signal by the subtraction means 480. The color component extracted by subtracting the brightness level is added and output as a corrected image signal with brightness corrected.
For this reason, only the brightness level, which is a white component, is extracted from the input image signal, and correction is performed while prohibiting correction that makes the brightness too dark with only the extracted white component, and then the color component is added and returned. Without any inconvenience of changing the balance, the brightness can be corrected appropriately and a good screen display can be provided.
Further, the brightness corresponding to the hue is calculated based on the brightness level calculated from the input image signal by the brightness level calculating unit 410 by the color saturation calculating unit 440 and the hue calculated from the input image signal by the hue calculating unit 420. As the color level becomes lower, a higher degree of color saturation is calculated. The brightness input / output setting LUT of the brightness gain calculation unit 450 then uses the brightness level calculation means 410 based on a predetermined gain amount set and input corresponding to each value of the brightness level calculated from the input image signal. The gain amount for the brightness level is set by the second brightness gain calculation means 452 when the color saturation is higher than a predetermined value, and is less than or equal to the set brightness level. In the case of, correction is performed so that the gain amount with respect to the set brightness level becomes one or more times. Based on the corrected gain amount, the brightness level is corrected by the correction means 460, and then the brightness level calculation means 410 is calculated from the corrected brightness level by the addition means 500 and the input image signal by the subtraction means 480. The color component extracted by subtracting the brightness level is added and output as a corrected image signal with brightness corrected.
For this reason, only the brightness level, which is a white component, is extracted from the input image signal, and correction is performed while prohibiting correction that makes the brightness too dark with only the extracted white component, and then the color component is added and returned. Without any inconvenience of changing the balance, the brightness can be corrected appropriately and a good screen display can be provided.

It is explanatory drawing which shows the processing condition of the conventional brightness correction for demonstrating this invention, (A) is a bar graph which shows the RGB value of the 1.6th power gamma adjustment, (B) is the 2.2th power gamma adjustment. (C) is a graph showing the input / output conversion status of the input image signal in gamma adjustment. It is a block diagram which shows schematic structure of the display system which concerns on one Embodiment of this invention. It is a block diagram which shows schematic structure of the brightness correction circuit of the display means which comprises the display system in the said one Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 300 ... Display apparatus 373A ... Brightness correction means as a brightness correction device 410 ... Brightness level calculation means 420 ... Hue calculation means 430 ... Color density calculation means 440 ... Color saturation calculation means 450 ... Brightness Brightness gain calculation unit 451 as brightness gain calculation means ...... Brightness input / output setting LUT as first brightness gain calculation means
452... Second brightness gain calculation means 460. Correction means 470... Color balance / gain calculation section 471... Color balance / gain characteristic setting means 472... Color balance / gain amount calculation means 480 ... Subtraction means 490 ... Color density adjustment means 500 ... Addition means

Claims (14)

From the input image signal related to the input image data, Y values in Yuv color spaces, u value and v values, CIE (Commission Internationale de l'Eclairage : International Commission on Illumination) 1976L ^* a ^* b ^* L in the color space ^* value Brightness level calculation means for calculating a brightness level related to the brightness of the image data based on one of the a ^* value and the b ^* value, or the RGB value, and outputting the brightness level signal as a brightness level signal;
Subtracting means for subtracting the brightness level of the brightness level signal output from the brightness level calculating means from the input image signal and outputting it as a color component signal relating to a color component;
Brightness gain calculation that outputs a gain amount for the brightness level as a brightness gain signal by a predetermined gain amount corresponding to each value of the brightness level of the brightness level signal output from the brightness level calculation means Means,
Correction means for correcting the brightness level of the brightness level signal based on the gain amount of the brightness gain signal output from the brightness gain calculating means and outputting the corrected brightness level signal;
Adding means for adding the color component of the color component signal output from the subtracting means to the corrected brightness level of the corrected brightness signal output from the correcting means and outputting the corrected image signal as a corrected image signal;
A brightness correction apparatus comprising: The brightness correction device according to claim 1,
Color density calculating means for calculating a color density from the input image signal and outputting it as a color density signal;
Based on the brightness level of the brightness level signal output from the brightness level calculation means and the color density of the color density signal output from the color density calculation means, the brightness level corresponding to the color density Color saturation calculating means for calculating a high degree of color saturation and outputting it as a color saturation signal as the value becomes lower,
The correction means has a gain amount of the brightness gain signal calculated by the brightness gain calculation means when the color saturation of the color saturation signal output from the color saturation calculation means is higher than a predetermined value. When the gain amount is less than or equal to 1 times the brightness level, a correction that is greater than or equal to 1 is added to the gain amount of the brightness gain signal, and the brightness level signal is based on the corrected gain amount. A brightness correction device that corrects the brightness level of the image and outputs it as a corrected brightness level signal. The brightness correction apparatus according to claim 2,
A hue calculation unit that calculates a hue from the input image signal that is input and outputs the hue as a hue signal;
The color saturation calculation unit is configured to determine the color in a predetermined hue based on the color density of the color density signal output from the color density calculation unit and the hue of the hue signal output from the hue calculation unit. A brightness correction device that calculates a high degree of color saturation and outputs it as a color saturation signal as the density level increases. The brightness correction device according to any one of claims 1 to 3,
A hue calculation means for calculating a hue from the input image signal and outputting it as a hue signal;
Based on the brightness level of the brightness level signal output from the brightness level calculation means and the hue of the hue signal output from the hue calculation means, as the brightness level for the hue decreases, Color saturation calculation means for calculating a high degree of color saturation and outputting as a color saturation signal,
The correction means has a brightness gain signal gain amount calculated by the brightness gain calculation means when the color saturation of the color saturation signal output from the color saturation calculation means is higher than a predetermined value. When the gain amount is 1 or less of the brightness level, a correction of 1 or more is added to the gain amount of the brightness gain signal, and the brightness level signal of the brightness level signal is added based on the corrected gain amount. A brightness correction device that corrects the brightness level and outputs the corrected brightness level signal. Brightness level calculating means for calculating a brightness level from an input image signal relating to input image data and outputting it as a brightness level signal;
Subtracting means for subtracting the brightness level of the brightness level signal output from the brightness level calculating means from the input image signal and outputting it as a color component signal relating to a color component;
A first gain gain signal is output as a first brightness gain signal by a predetermined gain amount corresponding to each value of the brightness level of the brightness level signal output from the brightness level calculation means. Brightness gain calculating means;
Color density calculating means for calculating a color density from the input image signal and outputting it as a color density signal;
The brightness corresponding to the color density based on the brightness level of the brightness level signal output from the brightness level calculation means and the color density of the color density signal output from the color density calculation means. Color saturation calculating means for calculating a high degree of color saturation and outputting it as a color saturation signal as the level decreases;
Gain when the color saturation of the color saturation signal output from the color saturation calculation means is higher than a predetermined value, and the gain amount of the first brightness gain signal is less than or equal to the brightness level A second brightness gain calculating means for adding a correction that is 1 or more to the gain amount of the first brightness gain signal and outputting it as a second brightness gain signal.
Correcting means for correcting the brightness level of the brightness level signal based on the gain amount of the second brightness gain signal output from the second brightness gain calculating means and outputting the corrected brightness level signal as a corrected brightness level signal; ,
Adding means for adding the color component of the color component signal output from the subtracting means to the corrected brightness level of the corrected brightness signal output from the correcting means and outputting the corrected image signal as a corrected image signal;
A brightness correction apparatus comprising: A brightness correction apparatus according to any one of claims 2, 3 and 5,
The color density calculating means calculates the ratio of the color component with respect to a predetermined spatial coordinate position in a three-dimensional space of the input image signal as the color density and outputs the color density signal. Brightness correction device. The brightness correction apparatus according to claim 6,
The color density calculating means is a brightness plane that is the same as the brightness level calculated by the brightness level calculating means in the three-dimensional space of the input image signal as a ratio of the color component to the spatial coordinate position. A brightness correction apparatus that calculates a distance from an achromatic color point or a distance from a predetermined value set in the three-dimensional space as the color density. Brightness level calculating means for calculating a brightness level from an input image signal relating to input image data and outputting it as a brightness level signal;
Subtracting means for subtracting the brightness level of the brightness level signal output from the brightness level calculating means from the input image signal and outputting it as a color component signal relating to a color component;
A first gain gain signal is output as a first brightness gain signal by a predetermined gain amount corresponding to each value of the brightness level of the brightness level signal output from the brightness level calculation means. Brightness gain calculating means;
A hue calculation means for calculating a hue from the input image signal and outputting it as a hue signal;
Based on the brightness level of the brightness level signal output from the brightness level calculation means and the hue of the hue signal output from the hue calculation means, as the brightness level for the hue decreases, Color saturation calculation means for calculating a high degree of color saturation and outputting as a color saturation signal;
Gain when the color saturation of the color saturation signal output from the color saturation calculation means is higher than a predetermined value, and the gain amount of the first brightness gain signal is less than or equal to the brightness level A second brightness gain calculating means for adding a correction that is 1 or more to the gain amount of the first brightness gain signal and outputting it as a second brightness gain signal.
Correcting means for correcting the brightness level of the brightness level signal based on the gain amount of the second brightness gain signal output from the second brightness gain calculating means and outputting the corrected brightness level signal as a corrected brightness level signal; ,
Adding means for adding the color component of the color component signal output from the subtracting means to the corrected brightness level of the corrected brightness signal output from the correcting means and outputting the corrected image signal as a corrected image signal;
A brightness correction apparatus comprising: The brightness correction apparatus according to any one of claims 1 to 8,
Color balance / gain characteristic setting means for setting a color balance gain amount for each spatial coordinate position or hue in the three-dimensional space of the input image signal and outputting it as a color balance / gain setting signal, and this color Color balance / gain amount that is output as a color balance / gain amount signal by calculating the color balance / gain amount according to the gain amount of the brightness gain signal from the gain amount of each color balance set by the balance / gain characteristic setting means A color balance / gain calculation unit including a calculation unit;
The corrected color component signal is corrected by adjusting the color density based on the color balance / gain amount calculated by the color balance / gain amount calculating unit. Color density adjusting means for outputting as
The addition means adds the corrected color component signal output from the color density adjustment means to the corrected brightness level and outputs the result as the corrected image signal. apparatus. The brightness correction device according to claim 9,
The color balance / gain calculation unit calculates the color balance / gain amount when the gain amount of the second brightness gain signal output from the second brightness gain calculation unit is a predetermined value or more, The corrected color component output by adjusting the color density by the color density adjusting unit is added to the corrected brightness level by the adding unit and output as the corrected image signal. Brightness correction device. From the input image signal related to the input image data, Y values in the Yuv color space, u value and v values, CIE (Commission Internationale de l'Eclairage : International Commission on Illumination) 1976L ^* a ^* b ^* L in the color space ^* value A brightness level calculating step for calculating a brightness level related to the brightness of the image data based on any one of the a ^* value and the b ^* value or the RGB value;
A subtraction step of subtracting the brightness level calculated in the brightness level calculation step from the input image signal to extract a color component;
A brightness gain calculating step of calculating a gain amount for the brightness level by a predetermined gain amount corresponding to each value of the brightness level calculated in the brightness level calculating step;
A correction step of correcting the brightness level based on the gain amount for the brightness level calculated in the brightness gain calculation step;
An addition step of adding the color component extracted in the subtraction step to the brightness level corrected in the correction step and outputting the corrected image signal as a corrected image signal. A brightness level calculating step of calculating a brightness level from an input image signal relating to input image data;
A subtraction step of subtracting the brightness level calculated in the brightness level calculation step from the input image signal to extract a color component;
A first brightness gain calculating step of calculating a gain amount for the brightness level by a predetermined gain amount corresponding to each value of the brightness level calculated in the brightness level calculating step;
A color density calculation step of calculating a color density from the input image signal input;
Based on the brightness level calculated in the brightness level calculation step and the color density calculated in the color density calculation step, the degree of increase increases as the brightness level corresponding to the color density decreases. A color saturation calculation step for calculating color saturation;
A gain when the color saturation calculated in the color saturation calculation step is higher than a predetermined value, and the gain amount calculated in the first brightness gain calculation step is less than or equal to one times the brightness level. A second brightness gain calculating step of adding a correction of 1 or more to the gain amount with respect to the brightness level,
A correction step of correcting the brightness level based on the gain amount calculated in the second brightness gain calculation step;
An addition step of adding the color component extracted in the subtraction step to the brightness level corrected in the correction step and outputting the corrected image signal as a corrected image signal. . A brightness level calculating step of calculating a brightness level from an input image signal relating to input image data;
A subtraction step of subtracting the brightness level calculated in the brightness level calculation step from the input image signal to extract a color component;
A first brightness gain calculating step of calculating a gain amount for the brightness level by a predetermined gain amount corresponding to each value of the brightness level calculated in the brightness level calculating step;
A hue calculation step of calculating a hue from the input image signal input;
Based on the brightness level calculated in the brightness level calculation step and the hue calculated in the hue calculation step, a higher degree of color saturation is calculated as the brightness level for the hue decreases. A color saturation calculation step;
A gain amount when the color saturation calculated from the color saturation calculation step is higher than a predetermined value and the gain amount calculated in the first brightness gain calculation step is less than or equal to the brightness level. A second brightness gain calculating step of adding a correction of 1 or more to the gain amount with respect to the brightness level,
A correction step of correcting the brightness level based on the gain amount calculated in the second brightness gain calculation step;
An addition step of adding the color component extracted in the subtraction step to the brightness level corrected in the correction step and outputting the corrected image signal as a corrected image signal. . The brightness correction device according to any one of claims 1 to 10,
Display means for displaying the corrected image signal output from the brightness correction device on a screen;
A display device comprising:

Images