KR20040093269A - Method of processing video signal - Google Patents

Abstract

PURPOSE: A video processing method and an apparatus therefor are provided to minimize the time and effort of an adjuster and reduce a memory region by composing a color temperature table using only one RGB value with respect to other color temperatures except for a reference color temperature. CONSTITUTION: A signal processing unit(110) corrects the gamma of an inputted video signal according to RGB values indicating a gamma curve. A user interface(106) provides an interface with a user. A memory unit(104) stores a reference color temperature table having a gray stage classified RGB value and a plurality of color temperature tables having an RGB value of the maximum gray stage. If a reference color temperature is selected through the user interface, a CPU(102) reads the gray stage classified RGB value of the reference color temperature table and interpolates the read RGB value The CPU generates the RGB values indicating the gamma curve, and provides the generated RGB values to the signal processing unit. If a color temperature except for the reference color temperature is selected, the CPU calculates difference with the gray stage classified RGB value of the reference color temperature table and subtracts an RGB value of a color temperature table with respect to the selected color temperature in proportion to the difference to obtain a gray stage classified RGB value.

Description

Image processing method and device {METHOD OF PROCESSING VIDEO SIGNAL}

The present invention relates to an image display device, and more particularly to an image processing method and apparatus.

The color temperature adjustment process of a typical LCD projection television receiver will be briefly described.

The adjuster adjusts the RGB value to the desired color temperature at the maximum output of the RGB value, and calculates a gamma curve based on the adjusted RGB value. When the gamma curve is calculated, the adjuster adjusts the RGB value for each gray step by referring to the gamma curve. The result is an RGB value for every gray level, which constitutes a color temperature table.

When an image signal is input, the LCD projection television receiver reads RGB values of the color temperature table and interpolates RGB values between gray levels. When the interpolation is completed, the LCD projection television receiver processes and outputs an image signal using the entire RGB value.

Since the color temperature process is very complicated and time-consuming, the LCD projection television receiver is generally implemented to provide only one color temperature.

On the other hand, in order to provide a plurality of color temperatures, an LCD projection television receiver has to obtain RGB values for each gray level according to each color temperature, as well as a color temperature table including RGB values for each gray level according to each color temperature.

As described above, obtaining a color temperature table according to a plurality of color temperatures requires a lot of time and effort, and storing a color temperature table according to a plurality of color temperatures also takes a large number of memory areas unnecessarily.

Accordingly, an object of the present invention is to provide an image processing method and apparatus capable of minimizing time and effort of an adjuster for providing a plurality of color temperatures.

Another object of the present invention is to provide an image processing method and apparatus capable of minimizing a memory area required to provide various color temperatures.

1 is a block diagram of a video display device to which the present invention is applicable.

2 is a flowchart of a method of constructing a reference color temperature table according to a preferred embodiment of the present invention.

3 shows a gamma curve.

4 (a) to 4 (c) are diagrams showing a configuration example of a color temperature table according to a preferred embodiment of the present invention.

5 is a flowchart of a method for constructing a color temperature table according to an exemplary embodiment of the present invention.

6 is a flowchart of an image processing method according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: video display device 102: CPU

104: memory unit 106: user interface

108: signal input unit 110: signal processing unit

112: video output unit A, B, C: LCD panel

200: imaging equipment 300: adjustment equipment

According to the image processing method of the present invention for achieving the above object, when the reference color temperature is selected by the user, the RGB value representing the gamma curve is interpolated by interpolating the RGB value of the gray level in the reference color temperature table composed of the gray level RGB values. And generating a difference between the RGB values of the gray level of the reference color temperature table by selecting a color temperature other than the reference color temperature by the user, and calculating the RGB values of the color temperature table composed of the RGB values for the maximum gray level. Subtracting the proportional gray level to calculate an RGB value for each gray step, generating RGB values representing a gamma curve by interpolating the calculated gray level RGB value, and using the RGB value representing the gamma curve. And performing gamma correction on the input video signal.

The present invention configures the color temperature table only with the RGB values for the maximum values among the gray levels for the remaining color temperatures except for the reference color temperature, and when the color temperature is selected instead of the reference color temperature, the difference between the RGB values for each gray level in the reference color temperature table is determined. Based on the calculation, the RGB values of the entire gray levels for the corresponding color temperature are calculated.

As such, the present invention configures the color temperature table with only one RGB value for the remaining color temperature except for the reference color temperature, thereby minimizing the time and effort of the coordinator and saving the memory area.

A configuration of an image display apparatus to which the present invention is applicable will be described with reference to FIG. 1.

The CPU 102 of the image display device 100 controls the image display device 100 as a whole. In addition, the CPU 102 stores the plurality of color temperature tables in the memory unit 104 under the control of the adjustment device 300, and also refers to the plurality of color temperature tables stored in the memory unit 104 to the selected color temperature. The signal processor 110 is controlled to gamma adjust an image signal to be output. The memory unit 104 stores a processing program and various information of the CPU 102, and also stores a plurality of color temperature tables according to a preferred embodiment of the present invention. The user interface 106 is responsible for the interface between the user and the CPU 102.

The signal input unit 108 receives a video signal input from the outside and an RGB pattern that the CPU 102 reads from the memory unit 104 and provides to the signal processing unit 110. The signal processor 110 processes the video signal and the RGB pattern provided by the signal input unit 108 and provides the processed video signal to the video output unit 112. In particular, the signal processor 110 performs gamma correction on the video signal and the RGB pattern under the control of the CPU 102. The video output unit 112 drives the LCD panels A, B, and C to form an image according to a video signal provided by the signal processor 110. Light output from the LCD panels A, B, and C forms an image through a prism not shown, and the image is magnified and condensed on the not shown screen.

The image formed on the screen is captured by the imaging device 200, and the imaging information is provided to the adjustment device 300. The adjustment device 300 receives the image information and guides the coordinator, and communicates with the CPU 102 of the image display device 100 to provide the command of the coordinator to the CPU 102.

Now, an image processing method according to an exemplary embodiment of the present invention applicable to the image display apparatus 100 will be described with reference to FIGS. 2 to 5.

First, a process of configuring the reference color temperature table will be described with reference to the flowchart of FIG. 2.

The coordinator commands the CPU 102 of the image display apparatus 100 to output the maximum RGB value through the adjusting device 300, and the image display apparatus 100 outputs the maximum RGB value in accordance with the command (400). step). The RGB value output by the image display device 100 is captured by the imaging device 200 and provided to the adjustment device 300 (step 402). The adjusting device 300 informs the coordinator of the RGB value output from the image display device 100, and the adjuster provides the maximum RGB corresponding to the reference color temperature by the image display device 100 through the adjusting device 300. The RGB value is adjusted to output the value (step 404).

When the maximum RGB value corresponding to the reference color temperature corresponding to the image display device 100 is determined, the adjustment device 300 calculates a gamma curve corresponding to the determined maximum RGB value (step 406). In this case, the gamma curve is not a brightness B corresponding to an input as shown in FIG. 3 but a brightness A corresponding to a human visual characteristic. The maximum RGB value is determined as the RGB value of the maximum gray level among the gray levels.

When the gamma curve is calculated, the adjustment device 300 instructs the CPU 102 of the image display device 100 to output RGB values corresponding to any one of a plurality of gray levels at the request of the coordinator ( Step 408). When the image display device 100 outputs an RGB value corresponding to one gray level according to the command, the image pickup device 200 captures an RGB value output from the image display device 100 to adjust the adjustment device ( 300) (step 410). The adjusting device 300 guides the coordinator to the RGB value output from the image display device 100, and the adjuster gamma corresponding to the gray level of the image display device 100 through the adjusting device 300. The RGB value is adjusted to output an RGB value corresponding to the brightness of the curve (step 412). Here, the steps 408 to 412 are performed for all gray steps except the maximum gray step, and thus are repeated 15 times when using the 16 gray steps.

When the adjustment of the RGB values for all the gray levels is completed (step 414), the adjusting device 300 configures the color temperature values for each gray level as a reference color temperature table to form the CPU 102 of the image display device 100. The CPU 102 stores the reference color temperature table in the memory unit 104 (step 416). Referring to FIG. 4A, which shows an example of the reference color temperature table, the reference color temperature table includes RGB adjustment values for 16 gray levels.

Now, a method of constructing a color temperature table for a color temperature other than the reference color temperature will be described with reference to FIG. 5.

The coordinator instructs the CPU 102 of the image display apparatus 100 to output the maximum RGB value through the adjusting device 300, and according to the command, the image display apparatus 100 outputs the maximum RGB value (500). step). The RGB value output by the image display device 100 is captured by the imaging device 200 and provided to the adjustment device 300. The adjusting device 300 guides the coordinator to the RGB value output from the image display device 100, and the adjuster corresponds to the color temperature desired by the coordinator through the adjusting device 300. The RGB value is adjusted to output the maximum RGB value (step 402).

When the maximum RGB value corresponding to the color temperature is determined, the adjustment device 300 sets the determined maximum RGB value as the RGB value of the maximum gray level among the gray levels, and constructs a color temperature table consisting of only the RGB values of the maximum gray level. do. The adjustment device 300 provides the color temperature table to the CPU 102 of the image display device 100, and the CPU 102 stores the color temperature table in the memory unit 104 (step 504). That is, as shown in (b) and (c) of FIG. 3, the remaining color temperature table except the reference color temperature table is composed of only RGB values for 16 gray levels. Here, the coordinator generates a color temperature table as shown in FIG. 4 for each of the plurality of color temperatures, thereby constructing a color temperature table for the plurality of color temperatures and storing them in the memory unit 104 of the image display apparatus 100. Can be.

Now, a method of providing various color temperatures using the reference color temperature table and other color temperature tables configured as described above will be described with reference to FIG. 6.

The CPU 102 of the image display apparatus 100 checks whether the user selects the reference color temperature through the user interface 106 (step 600). When the user selects the reference color temperature through the user interface 106, the CPU 102 reads the RGB values for each gray step from the reference color temperature table stored in the memory 104 (step 602).

When reading of each gray level RGB value is completed, the CPU 102 generates RGB values corresponding to the entire gamma curve by interpolating the RGB values between gray levels (step 610). The CPU 102 provides the RGB values to the signal processor 110 for gamma adjustment (step 612). The signal processor 110 performs gamma correction on the input signal based on the RGB values and outputs the gamma correction.

Unlike the above, when the user selects a color temperature other than the reference color temperature (step 600), the CPU 102 determines the RGB value for the maximum gray level in the color temperature table corresponding to the selected color temperature stored in the memory unit 104. Read (step 604). In addition, the CPU 102 reads the RGB value for each gray step from the reference color temperature table stored in the memory unit 104 (step 606). Then, the CPU 102 calculates the RGB value of each gray step of the selected color temperature based on the difference of the RGB values of each gray step in the reference color temperature table (step 608).

Referring to FIG. 3, if the difference between the R value of the 16 gray levels and the R value of the 15 gray levels is 20 in the reference color temperature table, the CPU 102 determines that the gray color is 16 grays from the color temperature table for the selected color temperature. Take the R value of the step and subtract the 20 from that R value to produce an R value of 15 gray steps. In this way, the CPU 102 yields RGB values for all gray levels.

When the calculation of the RGB value for each gray level corresponding to the selected color temperature is completed, the CPU 102 generates an RGB value corresponding to the entire gamma curve by interpolating the RGB values between gray levels (step 610). The CPU 102 provides the RGB values to the signal processor 110 for gamma adjustment (step 612). The signal processor 110 performs gamma correction on the input signal based on the RGB values and outputs the gamma correction.

As described above, the present invention has the advantage of minimizing the time and effort of the coordinator and saving the memory area by configuring the color temperature table with only one RGB value for the remaining color temperatures except for the reference color temperature.

Claims (2)

In the image processing method, When the reference color temperature is selected by the user, interpolating the RGB step gray values of the reference color temperature table composed of the RGB step gray values to generate an RGB value representing a gamma curve; When a color temperature other than the reference color temperature is selected by the user, the difference between the RGB values of the gray level in the reference color temperature table is calculated, and the RGB values of the color temperature table configured as the RGB values for the maximum gray level are proportional to the difference. Subtracting the gray level to calculate the RGB values; Generating RGB values representing gamma curves by interpolating the calculated gray level RGB values; And performing gamma correction on the input video signal using the RGB value representing the gamma curve. In the image processing apparatus, A signal processor for gamma correcting and outputting the input video signal according to RGB values representing a gamma curve; A user interface that provides an interface with the user, A memory unit for storing a reference color temperature table composed of RGB values of gray levels and a plurality of color temperature tables composed of RGB values of maximum gray levels; When a reference color temperature is selected through the user interface, the RGB values representing the gamma curves are generated by reading and interpolating RGB values of gray levels of the reference color temperature table and providing them to the signal processor. When a color temperature other than the reference color temperature is selected, a difference between RGB values of gray levels of the reference color temperature table is calculated, and RGB values of gray colors are calculated by subtracting the RGB values of the color temperature table for the selected color temperature in proportion to the difference. An image processing apparatus comprising a control unit.