KR20070088148A - Back-light unit having a plurality of luminous element and control method thereof - Google Patents

Abstract

A backlight unit having a plurality of light emitting devices and a method for controlling the same are provided to improve a contrast ratio by adjusting the brightness of the backlight unit with use of an average brightness value of an image and a representative brightness value of each block. A light emitting device unit(110) includes a plurality of light emitting devices. A first calculating unit(120) calculates an average brightness value of an input image. A second calculating unit(130) divides the input image into a plurality of blocks and calculates a representative brightness value of each block. A brightness adjustment value calculating unit(140) determines a reference level value by using the average brightness value, determines a brightness adjustment factor of each block by using the representative brightness value of each block, and adds the reference level value to the brightness adjustment factor to calculate a brightness adjustment value of each block of the input image. A control unit(150) applies the brightness adjustment value of each block to control an output brightness of a light emitting device of the plurality of light emitting devices in a position corresponding to each block.

Description

Back-light unit having a plurality of luminous elements and control method

1 is a block diagram showing a configuration of a backlight unit according to an embodiment of the present invention;

2 is a graph illustrating a reference level value according to an average luminance value of an input image;

3 is a block diagram showing a configuration of a backlight unit according to another embodiment of the present invention;

4 is a flowchart illustrating a contrast ratio increasing method according to an embodiment of the present invention;

5 is a flowchart illustrating a filtering method for preventing flicker according to an embodiment of the present invention.

Description of the main parts of the drawing

110: light emitting element portion 120: first calculating portion

130: second calculator 140: luminance adjustment value calculator

150: control unit

The present invention relates to a backlight unit and a method of a plurality of light emitting devices, and more particularly, by controlling the brightness of a plurality of light emitting devices by using the average brightness value of the input image and the representative brightness value of each block, A backlight unit for increasing the contrast ratio and a method thereof are provided.

In general, since a liquid crystal display device is a display device for various information and does not have a self-light emitting device, a separate device for uniformly illuminating the entire screen of the display device by having a light emitting device on the rear thereof is required, which is a backlight unit (BLU). )to be.

The backlight unit includes a plurality of light emitting elements, that is, lamps. In this case, as the lamp to be used, a CCFL (Cold Cathode Flourscent Lamp) or LED (Light Emitting Diode) is commonly used. The backlight unit may control the contrast ratio by adjusting the brightness of the light emitting device according to the image characteristic input using the lamp as described above. However, in the case of CCFLs, it is difficult to control the contrast ratio because the luminance cannot be controlled in units of blocks of an image.

On the other hand, unlike the CCFL, when using the LED can be partially adjusted brightness, the brightness value of the LED can be adjusted for each block unit of the image. However, the luminance of the LED is controlled only by the representative luminance value of each block. Accordingly, when a dark image is input, most of the LEDs are turned off to decrease the brightness of the input image, thereby causing a problem of brightness reduction. Therefore, there is a problem in that the user must bear visual discomfort due to a decrease in contrast ratio when viewing an image.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to calculate the luminance adjustment value of the light emitting device by using the average brightness value of the input image and the representative brightness value of each block, thereby individually adjusting the brightness of the light emitting device. The present invention provides a backlight unit and a method of controlling the same to increase the contrast ratio of an image by adjusting it.

According to an embodiment of the present invention, a backlight unit includes a light emitting device unit including a plurality of light emitting devices, a first calculator configured to calculate an average luminance value of an input image, and the input image. A second calculating unit for dividing into a plurality of blocks, calculating a representative luminance value of each block, determining a reference level value using the average luminance value, and adjusting luminance for each block using the representative luminance value of each block; Determining a factor, and adding the reference level value and the luminance adjustment factor to calculate a luminance adjustment value for each block of the input image, and applying the luminance adjustment value for each block, It includes a control unit for controlling the output brightness of the light emitting device of the position corresponding to each block of the light emitting device.

The apparatus may further include a filtering unit configured to perform at least one of spatial filtering and temporal filtering on the representative luminance values of the blocks calculated by the second calculator to provide a filtering result value to the luminance adjustment value calculator. It is desirable to.

On the other hand, the luminance adjustment value calculating unit calculates the reference level value and the luminance adjustment factor (1) when BLK> Mean, BLK _level = Ref _level + (BLK _MAX -Ref _level ) × (BLK-Mean) / (BLK _MAX -Mean) and 2) BLK≤Mean one time, BLK _level = _level Ref - (Ref -BLK _{MIN level)} by applying a × (Mean-BLK) / Mean , and calculates a luminance control value for said each block, the In the equation, BLK is representative luminance value of each block, Mean is average luminance value of input image, Ref _level is reference level value according to average luminance value of input image, BLK _MAX is maximum luminance value, BLK _MIN is minimum luminance value, The BLK _level means a luminance adjustment value of the light emitting device corresponding to each block.

According to another aspect of the present invention, there is provided a method of controlling a light emitting device of a backlight unit, the method comprising: (a) calculating an average luminance value of an input image, (b) dividing the input image into a plurality of blocks, and representing each block. Calculating a luminance value, (c) determining a reference level value using the average luminance value, and determining a luminance adjustment factor for each block using the representative luminance value of each block, wherein the reference level value and the Calculating a brightness adjustment value for each block of the input image by adding a brightness adjustment factor; and (d) applying a brightness adjustment value for each block to emit light at a position corresponding to each block among the plurality of light emitting devices. Controlling the output brightness of the device.

The method may further include performing filtering on at least one of the spatial filtering and the temporal filtering on the representative luminance values of the blocks calculated through the step (b) to provide a filtering result value. .

In the step (c), the reference level value and the luminance adjustment factor are expressed by Equation 1) BLK> Mean, and BLK _level = Ref _level + (BLK _MAX -Ref _level ) × (BLK-Mean) / (BLK _MAX) -Mean) and 2) BLK≤Mean one time, BLK _level = _level Ref - (Ref -BLK _{MIN level)} by applying a × (Mean-BLK) / Mean , and calculates a luminance control value for said each block, the In the equation, BLK is representative luminance value of each block, Mean is average luminance value of input image, Ref _level is reference level value according to average luminance value of input image, BLK _MAX is maximum luminance value, BLK _MIN is minimum luminance value, The BLK _level means a luminance adjustment value of the light emitting device corresponding to each block.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a block diagram illustrating a configuration of a backlight unit according to an exemplary embodiment of the present invention. According to FIG. 1, the backlight unit includes a light emitting element unit 110, a first calculator 120, a second calculator 130, a brightness adjustment value calculator 140, and a controller 150.

The light emitting device unit 110 is disposed over the entire back light unit. In this case, the light emitting device unit 110 may include a plurality of light emitting devices. In addition, the distance between each light emitting device, the arrangement position, etc. may vary depending on the number of light emitting devices or the size of the backlight unit. Meanwhile, a light emitting diode (LED) may be used as the light emitting device.

The first calculator 120 calculates an average luminance value of the input image. In this case, the average luminance value of the input image may be a value obtained by dividing the total number of pixels by the sum of the luminance values of each pixel.

The second calculator 130 divides the input image into a plurality of blocks and calculates a representative luminance value of each block. In this case, the input image may be divided into a plurality of blocks and divided into a plurality of blocks, and the predetermined unit may be n × m (n and m are positive integers). If the input image is divided into 2 × 2, the image is divided into four blocks. The representative luminance value of each block may be any one of an average luminance value of a block, a function of an average luminance value, a minimum luminance value, a maximum luminance value, a function of a minimum and maximum luminance value, a variance, and a standard deviation.

The brightness adjustment value calculator 140 calculates a brightness adjustment value of the light emitting device unit 110 to increase the contrast ratio. In this case, the contrast ratio refers to the ratio of contrast between the dark and the bright parts of the image. On the other hand, the brightness adjustment value calculator 140 uses the average brightness value of the input image and the representative brightness value of each block calculated by the first calculator 120 and the second calculator 130, and the light emitting device unit ( A luminance adjustment value for each block for adjusting the luminance of 110 is calculated. First, the brightness adjustment value calculator 140 determines a reference level value according to the average brightness value of the input image. In this case, the reference level value according to the average luminance value of the input image may be set at the time of manufacturing the product, and the value may vary depending on the product.

2 is a graph illustrating reference level values according to average luminance values of an input image. According to Figure 2, the reference level value (Ref _level) may vary depending on the average luminance value (a) of the input image. 2 may be represented by the following equation.

The luminance adjustment value calculator 140 may determine the reference level value by using Equation 1 described above. Referring to the formula, the reference level value (Ref _level) can be determined using other formulas based on the average luminance value (a) of the input image. In detail, when the average luminance value a of the input image is smaller than LTH, the reference level value Ref _level is determined using the equation 1). In addition, when the average luminance value a of the input image is greater than or equal to LTH and less than HTH, the reference level value Ref _level may be determined using Equation 2). In addition, when the average luminance value a of the input image is greater than or equal to HTH, a reference level value Ref _level may be determined using Equation 3).

Accordingly, when the average luminance value a of the input image has a value equal to or greater than a high threshold (HTH), the reference level value Ref _level may be a reference maximum level value d. In addition, when the average luminance value a of the input image has the LTH value, the reference level value Ref _level may be the reference intermediate level value c. In addition, when the average luminance value a of the input image is 0, the reference level value Ref _level may be the reference minimum level value b.

Meanwhile, the reference maximum level value d, the intermediate level value c, and the minimum level value b may also vary according to the size of the reference level value Ref _level set when the product is manufactured.

Luminance control value calculation unit 140 using the representative luminance value of each block calculated by the reference level value (Ref _level) and the second calculator 130 calculates the respective block by a luminance adjustment value. Specifically, the luminance adjustment factor may be determined for each block by using the representative luminance value of each block, and the reference level value and the luminance adjustment factor may be added and calculated. This calculation process will be described in detail using the following equation.

In Equations 2 and 3, the luminance adjustment factors are + (BLK _MAX -Ref _level ) × (BLK-Mean) / (BLK _MAX -Mean) and-(Ref _level -BLK _MIN ) × (Mean-BLK) / Mean It can be the result of computing. On the other hand, when the representative luminance value BLK of the block is larger than the average luminance value Mean of the input image, Equation 2 is applied, and the representative luminance value BLK of the block is larger than the average luminance value Mean of the input image. In this case, the luminance adjustment value of the light emitting device corresponding to the corresponding block may be calculated by applying Equation 3 below.

In the equation, BLK _level is the luminance adjustment value of the block, Ref _level is the reference level value, BLK _MIN is the minimum luminance value, BLK _MAX is the maximum luminance value, BLK is the representative luminance value of the block, and Mean is the average luminance value of the input image. Means. Meanwhile, in the 8-bit image, the maximum luminance value BLK _MAX may be 255, and the minimum luminance value BLK _MIN may be zero.

For example, in an 8-bit image of 4 blocks separated by 2 × 2, the representative luminance value of the first block is 120, the representative luminance value of the second block is 100, the representative luminance value of the third block is 70, and the fourth When the representative luminance value of the block is 50, the average luminance value Mean of the input image is 85, and the luminance adjustment value of the light emitting device corresponding to each block when the reference level value is 110 may be calculated. In this case, the representative luminance value of each block is the average luminance value of each block. Since the representative luminance value of the first block is larger than the average luminance value of the input image, the luminance adjustment value of the light emitting device corresponding to the first block may be calculated using Equation 1. When the values corresponding to Equation 2 are substituted and calculated, the reference level value is 110 and the luminance adjustment factor is about 30, and 140, which is the sum of these two values, may be the luminance adjustment value of the first block. Through this calculation result, it can be seen that the luminance adjustment value of the light emitting device corresponding to the first block is 140.

On the other hand, since the representative luminance value of the third block is smaller than the average luminance value of the input image, the luminance adjustment value of the light emitting device corresponding to the third block may be calculated using Equation 3. When the values corresponding to Equation 3 are substituted and calculated, the reference level value is 110 and the luminance adjustment factor is -19.5, and 90.5, which is the sum of these two values, may be the luminance adjustment value of the third block. The luminance adjustment values of the light emitting elements corresponding to the second block and the fourth block can also be calculated in this manner. In addition, by calculating the luminance value of the light emitting device using the average luminance value, the reference level value of the input image, and the representative value of each block, the luminance value is adjusted to make the brighter area brighter and the darker area darker. You can increase it.

The controller 150 controls the overall operation of the backlight unit. In detail, the controller 150 controls the plurality of light emitting devices 110 to adjust brightness values of light emitting devices at positions corresponding to the blocks using the brightness adjustment values for each block calculated by the brightness adjustment value calculator 140. . The luminance adjustment value for each block calculated by the luminance adjustment value calculating unit 140, for example, the luminance value of the light emitting element corresponding to the first block is 140 and the luminance value of the light emitting element corresponding to the third block is 90.5. Can be adjusted to Accordingly, the backlight unit may provide a clear image by increasing the contrast ratio.

3 is a block diagram illustrating a configuration of a backlight unit according to another exemplary embodiment of the present invention. Referring to FIG. 2, the backlight unit includes a light emitting device unit 110, a first calculator 120, a second calculator 130, a brightness adjustment value calculator 140, a controller 150, and a filter 160. Include. Description overlapping with the description of the components of FIG. 1 will be omitted.

The light emitting device unit 110 includes a plurality of light emitting devices 111-1, 111-2, 111-3,..., 111-n and a light emitting device driver 112. The light emitting device driver 112 supplies a driving voltage to each of the plurality of light emitting devices 111-1, 111-2, 111-3,. 2, 111-3, ..., 111-n) can be controlled.

The first calculator 120 calculates an average luminance value of the input image.

The second calculator 130 divides the input image into a plurality of blocks and calculates a representative luminance value of each block.

The filtering unit 160 performs filtering to prevent flicker due to a difference in luminance of an image, that is, flicker, and includes a comparator 161, a spatial filter 162, and a temporal filter 163. do.

The comparator 161 compares the representative luminance value of each block of the current image calculated by the first calculator 120 with the representative luminance value of the neighboring block.

On the other hand, when the difference between the values compared through the comparison unit 161 exceeds a preset threshold, the spatial filter 162 performs a spatial filtering operation for spatial interpolation of the representative luminance value of each block. . For example, when the difference between the representative luminance value of each block and the representative luminance value of the neighboring block is large, the spatial filtering operation may be performed to interpolate the luminance of the image by the average luminance value of the input image. In this case, as the spatial filter 162, a low pass filter, a median filter, an average filter, or the like may be used.

In addition, when the difference between the values compared through the comparator 161 does not exceed a preset threshold or when the spatial filtering is completed through the spatial filter 162, the temporal filter 163 is different from the previous image. A temporal filtering operation is performed to temporally interpolate a representative luminance value of each block of the current image. First, the temporal filter 163 calculates a coefficient α representing the correlation between the previous image and the current image. The calculation of the correlation coefficient α may compare the histogram of each block of the previous image and the current image stored in the buffer memory (not shown), and may be the sum of the difference values. It can be seen that the larger the coefficient α, the smaller the correlation between each block of the previous image and the current image. In this case, the histogram refers to a bar graph displaying luminance values of pixels of an image.

The temporal filter 163 performs a temporal filtering operation that interpolates the representative luminance values of each block of the previous image and the current image through the following equation using the coefficient α.

In the equation, BLK _Filtered is a luminance value of a predetermined block obtained through temporal filtering, 256 is a maximum luminance value of an 8-bit image, BLK _P is a representative luminance value of a predetermined block of a previous image, and BLK _C is a predetermined block of the current image. Means a luminance value. In addition, α is a coefficient indicating an association between a previous image and a predetermined block of the current image.

For example, when the correlation coefficient α is 50, the representative luminance value BLK _P of the first block of the previous image is 100, and the representative luminance value BLK _C of the first block of the current image is 200, The luminance value BLK _Filter of the first block obtained through the filtering operation may be 119. In this manner, it is possible to obtain the luminance value of each temporally filtered block.

When the spatial and temporal filtering operations are completed through the filtering unit 160, the luminance adjustment value calculating unit 150 uses the average luminance value of the input image, the corresponding reference level value, and the representative luminance value of each block. The luminance adjustment value of each light emitting element is calculated. Accordingly, the controller 150 uses the luminance adjustment values of the light emitting elements for each block calculated by the luminance adjustment value calculating unit 140 to generate the plurality of light emitting elements 111-1, 111-2, 111-3,. 111-n) are individually adjusted. Specifically, the controller 150 controls the light emitting device driver 112 to determine the magnitude of the driving voltage supplied to each of the plurality of light emitting devices 111-1, 111-2, 111-3,..., 111-n. Alternatively, the brightness can be adjusted individually.

4 is a flowchart illustrating a contrast ratio increasing method according to an embodiment of the present invention. Referring to FIG. 4, first, the backlight unit calculates an average luminance value of an input image (S410). Thereafter, the input image is divided into a plurality of blocks, and a representative luminance value of each block is calculated (S420). In this case, the representative luminance value of each block may be any one of an average luminance value of a block, a function of an average luminance value, a maximum luminance value, a minimum luminance value, a function of a minimum luminance value and a maximum luminance value, a variance, and a standard deviation. have.

Thereafter, the backlight unit determines a reference level value according to the average luminance value of the input image (S430). In detail, the reference level value according to the average luminance value of the input image may detect a value set when the product is manufactured, and the set value may vary according to the product.

Next, the backlight unit calculates brightness adjustment values of the plurality of light emitting devices by using the average brightness value, the reference level value, and the representative brightness value of each block (S440). Specifically, the luminance adjustment factor may be determined for each block by using the representative luminance value of each block, and the luminance adjustment value for each block of the input image may be calculated by adding the reference level value and the luminance adjustment factor.

Thereafter, the backlight unit individually adjusts the luminance of the plurality of light emitting devices by using the calculated luminance adjustment value (S450). As a result, the plurality of light emitting devices emit light having different luminance, thereby providing a clear image by adjusting dark areas to be dark and bright areas to be bright.

5 is a flowchart illustrating a filtering method for preventing flicker according to an embodiment of the present invention. According to FIG. 5, the backlight unit compares the representative luminance value of each block of the image detected through the step S420 of FIG. 4 and the representative luminance value of the neighboring block (S510).

Thereafter, it is checked whether the difference between the detected luminance value of each block and the compared value of the representative luminance value of the neighboring block exceeds a preset threshold (S520). If the difference is exceeded, the representative luminance value of the corresponding block and the neighboring block are checked. A spatial operation for spatial interpolation of the representative luminance value of S is performed (S530).

Next, when the difference between the detected luminance value of each block and the compared value of the representative luminance values of the neighboring blocks does not exceed a preset threshold (S520), or when the spatial filtering operation is completed, each of the previously stored previous images is stored. A temporal filtering operation is performed to perform temporal interpolation on the representative luminance value of the block and the representative luminance value of each block of the current image (S540). Accordingly, it is possible to prevent the flicker phenomenon of the image caused by the large luminance difference through the spatial and temporal filtering operations. In addition, the spatial and temporal filtering may be performed only according to the difference in the representative luminance value of each block and the difference in the luminance values of the previous image and the current image. Also, in the average luminance value of the input image, if the average luminance value of the previous image and the average luminance value of the current image exceed a predetermined threshold, temporal filtering of the previous input image and the current input image may be performed. It may be.

As described above, according to the present invention, by adjusting the luminance of the backlight unit individually by using not only the representative luminance value of each block but also the average pixel value and the reference value of the image, the contrast ratio between the dark region and the bright region is adjusted. It is possible to increase the visual stability to the user when viewing the video.

While the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (6)

A light emitting device unit having a plurality of light emitting devices; A first calculator configured to calculate an average luminance value of the input image; A second calculator configured to divide the input image into a plurality of blocks and calculate a representative luminance value of each block; A reference level value is determined using the average luminance value, a luminance adjustment factor is determined for each block using the representative luminance value of each block, and the reference level value and the luminance adjustment factor are added to add the reference level value. A brightness adjustment value calculator for calculating a brightness adjustment value for each block; And, And a controller configured to control an output luminance of a light emitting device at a position corresponding to each block among the plurality of light emitting devices by applying the brightness adjustment value for each block. According to claim 1, A filtering unit configured to perform at least one of spatial filtering and temporal filtering on the representative luminance values of the blocks calculated by the second calculator to provide a filtering result value to the luminance adjustment value calculator. Backlight unit, characterized in that. The method according to claim 1 or 2, The brightness adjustment value calculation unit, And a luminance adjustment value for each block is calculated by substituting the reference level value and the luminance adjustment factor into the following equation:

In the above formula, BLK is the representative luminance value of each block, Mean is the average luminance value of the input image, Ref _level is the reference level value according to the average luminance value of the input image, BLK _MAX is the maximum luminance value, BLK _MIN is the minimum luminance value , BLK _level is the luminance adjustment value of the light emitting element corresponding to each block. In the light emitting device control method of a backlight unit having a plurality of light emitting devices, calculating a mean luminance value of the input image; dividing the input image into a plurality of blocks and calculating a representative luminance value of each block; (c) determining a reference level value using the average luminance value, determining a luminance adjustment factor for each block using the representative luminance value of each block, and adding the reference level value and the luminance adjustment factor to the Calculating a brightness adjustment value for each block of the input image; And, and (d) controlling the output luminance of the light emitting device at a position corresponding to each block among the plurality of light emitting devices by applying the brightness adjustment value for each block. The method of claim 4, wherein And performing at least one of spatial filtering and temporal filtering on the representative luminance values of the blocks calculated through the step (b), to provide a filtering result value. Control method. The method according to claim 4 or 5, In step (c), And substituting the reference level value and the luminance adjustment factor into the following equation to calculate a luminance adjustment value for each block.

In the above formula, BLK is the representative luminance value of each block, Mean is the average luminance value of the input image, Ref _level is the reference level value according to the average luminance value of the input image, BLK _MAX is the maximum luminance value, BLK _MIN is the minimum luminance value , BLK _level is the luminance adjustment value of the light emitting element corresponding to each block.

Images