KR100920137B1 - Apparatus for calibrating a uniformity of a television receiver and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for adjusting the uniformity of a television receiver. The uniformity adjusting device according to the present invention comprises a camera for capturing an image displayed through a screen of a television receiver, the image input from the camera is divided into a predetermined number of blocks, and each block according to a predetermined uniformity correction algorithm. A computer that obtains correction data for the brightness data of the output and outputs it to a television receiver, and a television receiver that is connected to the computer and corrects and outputs the brightness data for the input image signal using the correction data transmitted from the computer. It is characterized by including.

According to the present invention, the luminance uniformity can be adjusted not only in the effective screen area but also in the overscan area in the television receiver. Therefore, in the television receiver, uniformity correction can be performed even at the edge of the screen.

Projection TV, Uniformity, Overscan Area

Description

Apparatus and method for adjusting uniformity of television receiver {APPARATUS FOR CALIBRATING A UNIFORMITY OF A TELEVISION RECEIVER AND METHOD THEREOF}

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a screen configuration diagram showing an effective screen area in which uniformity correction is performed and an overscan area in which uniformity correction cannot be performed in a conventional television receiver.

Fig. 2 is a block diagram generally showing the uniformity adjusting device of the television receiver according to the present invention.

3 is a screen configuration diagram illustrating a method of obtaining correction data for each block of an overscan area according to the present invention;

4 is a flowchart illustrating a uniformity adjusting method according to the present invention in sequence.

<Explanation of symbols for the main parts of the drawings>

200: TV receiver

210: micom

220: uniformity correction unit

230: memory

240: synthesis section

250: overscan area correction unit

260: output unit                 

270 screen

280: camera

290: computer

The present invention relates to an apparatus for adjusting the uniformity in a television receiver and a method thereof, and more particularly to uniformity adjustment capable of adjusting the uniformity not only in the effective screen area but also in the overscan area of the television receiver. An apparatus and a method thereof are provided.

A method of adjusting luminance uniformity in a conventional television receiver will be briefly described.

First, a predetermined test pattern is displayed on a television screen, and the camera captures it. The camera blocks the captured image by a predetermined number, and then detects brightness data for each block. Next, brightness data of each block is compared with brightness data of a block in the center of the screen, and correction data of brightness data of each block is obtained by mutual comparison with brightness data of an adjacent block. The obtained correction data is used to compensate the signal of the brightness data for each block.

Fig. 1 shows a screen of a television receiver, in which a region 110 is an effective screen region of a television which can be captured by a camera, and a region 100 is a region where an image signal is actually displayed. Therefore, the conventional uniformity adjustment method as described above can be applied only to the image of the effective screen area of the television screen that the camera can capture in front of the screen. In other words, the camera can capture an image only for the effective screen area 110 among the images displayed on the screen of the television, and cannot capture an image for the remaining overscan area 120. As a result, there is a problem in that uniformity adjustment cannot be performed on the overscan area that the camera does not recognize. Therefore, when the television is moved horizontally and vertically, the boundary portion of the overscan area where the uniformity of the television cannot be adjusted enters the effective screen area, and there is a problem that a defect occurs at the edge of the screen.

Projection television receivers with large screens make the viewer uncomfortable due to the problems described above.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a uniformity adjusting device and a method for adjusting uniformity to not only an effective screen area but also an overscan area in a television receiver.

It is also another object of the present invention to provide a television receiver capable of adjusting the uniformity so that the screen brightness is uniform over the entire area of the screen, even if the center of the television receiver is changed so that the overscan area enters the effective screen area. do.

The uniformity adjusting method of the television receiver according to the present invention for achieving the above object relates to a uniformity correction method of a television receiver having an effective screen area that can be captured by a camera and an overscan area that cannot be captured by a camera. Detecting an image of an effective screen area by using the camera, dividing an image of the detected effective screen area into a predetermined number of blocks, and correcting brightness data of each block by using brightness data at the center of the screen Obtaining and storing data; dividing the overscan area into a predetermined number of blocks; correcting data of brightness data of each block of the overscan area; and correcting data of the nearest block in the valid screen area. Using the step of obtaining and using the correction data Characterized in that it comprises an effective display region and a step of correcting and outputting the brightness data for each block in an overscan area.

In this case, the step of obtaining correction data for the brightness data of each block of the overscan area may be obtained by using an average value of correction data of adjacent blocks when two or more nearest blocks in the effective screen area are two or more. .

According to another aspect of the present invention, there is provided a uniformity adjusting apparatus for adjusting the uniformity of a television receiver, including: a camera for capturing an image displayed through a screen of a television receiver; A computer for dividing the data into a number of blocks, obtaining correction data for brightness data of each block according to a predetermined uniformity correction algorithm, and outputting the correction data to a television receiver, and correction data transmitted from the computer. And a television receiver for correcting and outputting brightness data of an input video signal.

In this case, the television receiver includes a memory for storing correction data for each block input from the computer, a uniformity correction unit for correcting brightness data for each block of the input image using the correction data stored in the memory, An overscan area corrector for correcting brightness data of an image for the overscan area not captured by the camera using the correction data stored in the memory, from the uniformity corrector and the overscan area corrector for an input image It is preferable to have a synthesizer for synthesizing the corrected brightness data to be output, and an output unit for outputting data output from the synthesizer.

More preferably, the overscan area corrector divides an image of an overscan area not captured by the camera into a predetermined number of blocks, detects brightness data for each block, and detects each of the overscan areas. The correction data for the block closest to the block may be detected from the memory and the brightness data for the corresponding block in the overscan area may be corrected using the correction data.

According to the present invention, the luminance uniformity can be adjusted not only in the effective screen area but also in the overscan area in the television receiver. Therefore, in the television receiver, uniformity correction can be performed even at the edge of the screen.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. First, in adding reference numerals to the components of each drawing, it should be noted that the same components are denoted by the same reference numerals as much as possible, even if displayed on different drawings.

First, a configuration of an embodiment of the uniformity adjusting device in the television receiver according to the present invention will be described in detail with reference to FIG. 2.

As shown in FIG. 2, the uniformity adjusting device according to the present invention includes a projection television receiver 200, a screen 270 thereof, a camera 280, and a computer 290.

The camera 280 is connected to the computer 290 and is operated by the control of the computer. In addition, the camera 280 captures an image displayed on the screen 270 and transmits it to a computer.

The computer 290 is connected to the camera 280 and the television receiver 200. The computer 290 transmits a test pattern for uniformity correction to the television receiver 200 or receives an image captured by the camera, divides the input image into a predetermined number of blocks, and divides each of the divided images. The brightness data of the block is detected, and correction data for the brightness data of each block is obtained according to a predetermined algorithm and transmitted to the television receiver.

The television receiver 200 includes a microcomputer 210, a uniformity correction unit 220, a memory 230, a synthesis unit 240, an overscan area correction unit 250, and an output unit 260.

The microcomputer 210 controls and manages the overall operation of the television receiver. When the uniformity adjustment request is input, the microcomputer 210 also controls and manages the uniformity adjustment.

The memory 230 stores correction data for each block transmitted from the computer 290, that is, correction data for each block for correcting the uniformity of the screen. Therefore, the correction data stored in the memory 230 stores correction data for each block forming an effective screen area that can be captured by the camera, and for each block forming an overscan area that cannot be captured by the camera. Correction data cannot be stored.

The uniformity correction unit 220 corrects and outputs brightness data of an input image signal using correction data previously stored in the memory 230.

The overscan area corrector 250 obtains correction data for each block of the overscan area by using correction data for each block of the effective screen area previously stored in the memory 230, and inputs the correction data using the correction data. The brightness data of each block of the overscan area of the image is corrected and output.

The synthesizer 240 synthesizes and outputs brightness data of the effective screen area corrected by the uniformity corrector 220 and brightness data of the overscan area corrected by the overscan area corrector 250. .

The output unit 260 outputs the data output from the synthesizing unit 240 on the screen 270.

Hereinafter, the operation of the uniformity correction device according to the present invention described above with reference to FIGS. 3 and 4 will be described in detail.                     

3 is a screen configuration diagram illustrating an effective screen area and an overscan area according to the present invention, and FIG. 4 is a flowchart sequentially illustrating a uniformity correction method according to the present invention.

First, in order to correct the luminance uniformity of the television receiver 200, the camera 280 is disposed in front of the receiver, and an image of a predetermined test pattern is displayed through the computer 290 of the television receiver 200. Displayed on screen 270 (step 400).

The camera 280 disposed in front of the television receiver captures the image displayed on the screen (step 410), and the computer 290 divides the captured image input from the camera 280 into a predetermined number of blocks ( Step 420). In this case, as shown in FIG. 3, the image captured by the camera captures only the image of the effective screen area 310, and the image of the overscan area 320 may not be captured by the camera. Point A in FIG. 3 is a point at which the horizontal and vertical signals of the real image start, point C is a point at which the horizontal signal of the real image starts and ends the vertical signal, and point F is a horizontal and vertical signal of the real image. It is the ending point. Meanwhile, point B in FIG. 3 is a point at which the horizontal and vertical signals of the image for uniformity adjustment start, and point D is a point at which the horizontal signal of the image for uniformity adjustment starts and the vertical signal ends. Is the point where both the horizontal and vertical signals of the image for uniformity adjustment are terminated.

After dividing the image of the effective screen area captured by the camera into a predetermined number, for example, blocks of 13 x 12, the brightness of each block is measured. Next, the brightness data of each block is compared with the brightness data of the center of the screen to obtain correction data for the brightness data of each block (step 430).

The correction data for the brightness data of each block of the effective screen area obtained in step 430 is stored in the memory (step 440). The brightness data of each block of the image is corrected and displayed on the screen using the correction data for each block stored in the memory (step 450).

Next, the overscan area of the image signal for the input test pattern is divided into a predetermined number of blocks (step 460). Next, correction data of brightness data of each divided block of the overscan area is obtained using correction data stored in the memory for each block of the effective screen area adjacent to the overscan area (step 470). That is, the correction data for the brightness data of each block of the overscan area applies the correction data for the block of the effective screen area closest to the block. In this case, when there is more than one block of the effective screen area adjacent to each block of the overscan area, it is preferable to set the average value of the correction data for each block.

For example, as shown in Fig. 3, each block of the overscan area is designated by X0, X1, X2,... Each block of the effective screen area is referred to as Y1, Y2, Y3,... It is called. At this time, the correction data for the brightness data of the block X1 of the overscan area is set to an average value of each of the correction data of blocks Y1 and Y2 of the effective screen area, and the correction data of the block X2 is the respective correction data of the blocks Y1 and Y2. The correction value of the block X0 is set to the average value of the correction data of the blocks X1 and X2.                     

As described above, correction data for each block of the overscan area is set, and the brightness signal for the overscan area is compensated for using the set correction data (step 480).

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. For example, a method of obtaining correction data for each block of the overscan area may vary. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by those equivalent to the claims.

The television receiver according to the present invention corrects the uniformity not only to the effective screen area but also to the overscan area, so that even after the center of the television receiver is changed, a good uniformity can always be obtained at the edge portion of the screen.

On the other hand, the uniformity adjusting device and the method according to the present invention can be used in a projection television receiver using a large screen, thereby enabling to have a uniform screen brightness over the entire area of the large screen.

Claims (6)

A uniformity correction method of a television receiver having an effective screen area that can be captured by a camera and an overscan area that cannot be captured by a camera, Detecting an image of an effective screen area by using the camera; Dividing an image of the detected effective screen area into a predetermined number of blocks, and obtaining brightness data for each of the divided blocks; Comparing brightness data of each block with brightness data of a screen center to obtain correction data for each block of the effective screen area; Correcting and outputting brightness data of each block of the effective screen area by using correction data of each block; Dividing the overscan area into a predetermined number of blocks; Obtaining correction data for brightness data of each block of the overscan area by applying correction data of the closest block in the valid screen area previously stored; And Correcting and outputting brightness data of each block of the overscan area by using correction data of each block of the overscan area The uniformity adjustment method in the television receiver characterized by including the. The method of claim 1, wherein the obtaining of the correction data for the brightness data of each block of the overscan area comprises applying the average value of the correction data of the adjacent blocks when two or more nearest blocks in the effective screen area are used. A method for adjusting uniformity in a television receiver, characterized by obtaining correction data for each block of the overscan area. In the uniformity adjustment device which adjusts the uniformity of a television receiver, A camera for capturing an image displayed through a screen of a television receiver; A computer for dividing the image input from the camera into a predetermined number of blocks, obtaining correction data for brightness data of each block according to a predetermined uniformity correction algorithm, and outputting the correction data to a television receiver; And A television receiver connected to the computer and storing correction data transmitted from the computer, and correcting and outputting brightness data of an input image signal using the same; The TV receiver is, A memory for storing correction data for brightness data of each block input from the computer; A uniformity correction unit for correcting brightness data of each block of an input image by using the correction data stored in the memory; An overscan area corrector for correcting brightness data of an image of an overscan area in which the correction data is not stored in the memory by applying correction data of the closest blocks stored in the memory; A synthesizer configured to synthesize corrected brightness data output from the uniformity corrector and the overscan area corrector with respect to an input image; And And an output unit for outputting data output from the synthesizing unit. The method of claim 3, wherein the overscan area corrector divides an image of an overscan area not captured by the camera into a predetermined number of blocks, detects brightness data for each block, Correction data for the block closest to each block is detected from the memory, and the brightness data for the corresponding block of the overscan area is corrected by applying the detected correction data. . 4. The uniformity adjusting device of a television receiver according to claim 3, wherein said television receiver is a projection television receiver. In the television receiver which can adjust uniformity with respect to the whole input image, A memory for storing correction data for brightness data of each block of the effective screen; A uniformity correction unit for correcting brightness data of each block forming a valid screen among input images by using the correction data stored in the memory; An overscan area corrector for correcting brightness data of an image of each block of the overscan area in which the correction data is not stored in the memory using correction data of the closest blocks stored in the memory; A synthesizer for synthesizing the corrected brightness data output from the uniformity corrector and the overscan area corrector with respect to the input image; And An output unit for outputting data output from the synthesis unit The television receiver comprising a.

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