KR100515650B1 - Video Image Processing Method to Eliminate Wide Area Flicker of Plasma Display Panel - Google Patents

Abstract

The present invention relates to a video image processing method for removing a wide area flicker of a plasma display panel, comprising: storing N-1th frame data in a frame memory, and storing the stored N-1th frame data and the currently input Nth frame data. Separating the main object image data and the background image data from each other, and generating the object image data of the insertion frame by using the main object image data of the N-th frame data and the main object image data of the N-th frame data. And generating background image data of the insertion frame using the background image data of the N-th frame data and the background image data of the N-th frame data, and the insertion frame main object image data and the insertion frame background image. Synthesizing the data to generate an insertion frame.

Description

Video Image Processing Method to Eliminate Wide Area Flicker of Plasma Display Panel

The present invention relates to a video image processing method for improving a screen flicker phenomenon or gray scale expression generated when driving at 50H in a plasma display panel. More particularly, the present invention relates to a dynamic pseudo boundary curve generated when driving at 50 Hz in a plasma display panel. In order to improve dynamic false contour, wide flicker, and remodeling, two main frames are divided into three frames to remove wide flicker or dynamic pseudo boundary curve.

In general, an ADS (Address-Display-Separated) subfield driving method is used as a driving method of the plasma display panel. This driving method affects the perceived picture quality according to the order, specific gravity, and number of subfields. Three problems with image quality when using this drive are the effects of motion artifacts, wide range flicker, and the number of visible gray-levels.

There are two causes of visual disturbances. There is a dynamic pseudo boundary curve by a nonlinear method that is temporarily used for gradation representation, and motion blur caused by light emitted from a plasma display panel pixel for a longer time than the entire frame time. The relationship between the dynamic pseudo boundary curve and the gray level (number of subfields) or the flicker and motion blur has a complementary functional relationship with each other.

For example, when the frame frequency is increased to reduce flicker, motion blurring occurs. When the frame frequency is lowered to reduce motion blurring, flicker is severely generated.

Of course, this problem also appears in a display other than the plasma display panel, but the methods for solving such a problem have a lot of differences in the way to cope with each display characteristics.

1 is a diagram illustrating a method of reconstructing a subfield, which is an embodiment of the prior art.

The above embodiment shows a Philips 100Hz driving method that divides a 20ms frame into two 10ms frames and rearranges and drives the subfields.

Philips' conventional 100Hz plasma display panel driving method rearranges the subfields to solve the problems of dynamic pseudo boundary curve, wide area flicker, and remodeling when 50Hz ADS driving method is applied to the plasma display panel, and the frame frequency 50Hz is 100Hz. Modulation with

2 is a diagram illustrating a method of dividing two frames into three frames according to an embodiment of the prior art.

The above embodiment is a general method of applying two frames to three frames, and converts two frames to three frames by making an average frame of two frames into an insert frame.

However, this conversion results in a blurry image obtained by averaging two frames between the two frames, thereby degrading the picture quality. Also, if you send an insert frame to the previous frame simply once more (if you send the previous frame once every 5 frames: 50Hz → 60Hz up-conversion, if you send the previous frame once every 2 frames: 50Hz → 75Hz up-) Conversion) When the moving image is displayed, the moving object expresses an unnatural feeling.

The present invention has been made to solve the problems of the prior art described above, and its object is to construct an insertion frame using two frames for the removal of wide area flicker, and the display panel is driven at 75 Hz by the insertion frame. The present invention provides a method for removing wide area flicker by driving.

Another object of the present invention is to provide a method for generating a new insertion frame using an object detection algorithm that considers the degree of movement of an object between two frames in an image when configuring the insertion frame in two frames.

In order to achieve the above object, a video image processing method for removing a wide area flicker of a plasma display panel of the present invention includes a) storing N-1th frame data in a frame memory and b) storing the N-1th frame data. And separating the main object image data and the background image data from among the currently input N th frame data; and c) dividing the main object image data of the N-1 th frame data and the main object image data of the N th frame data. Generating object image data of the insertion frame using the following steps; d) generating background image data of the insertion frame using the background image data of the N-th frame data and the background image data of the N-th frame data; e) the insertion frame main object image Synthesizing the emitter and the insertion frame background image data includes generating the interpolated frames.

In the present invention, after the step e), it is preferable to further include displaying the N-th frame, displaying the insertion frame and displaying the N-th frame.

In the present invention, N is preferably selected from odd or even from 1 to 50.

In the present invention, the frequency for driving the frame is preferably 75 kHz.

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

3 illustrates a schematic process of creating an insertion frame after object detection according to an embodiment of the present invention, and illustrates a process of generating an insertion frame by image reconstruction.

Referring to FIG. 3, the N-th frame 301 and the N-th frame In the frame 302, only the main objects 304 and 305 are detected and extracted. The main object image of the insertion frame is reconstructed using the extracted main object image.

Thereafter, the background image of the insertion frame is generated as the background image excluding the main object in the N-th frame 301 and the N-th frame 302.

The insertion frame 303 is generated using the object image and the background image of the generated insertion frame. That is, to create an insertion frame for up-conversion of 50 Hz to 75 Hz, a new image is generated by recombination of the extracted data, rather than inserting a blur image by combining two simple data as in the past. do. Therefore, when the generated new frame is inserted, not only smooth movement can be expressed but also image quality can be improved.

4 is a diagram illustrating a process of dividing frame data into a main object and a background image according to an embodiment of the present invention, and FIG. 5 is a diagram for generating an object of an insertion frame according to an embodiment of the present invention. 4 and 5, firstly input frames 301 are divided into a main object image 301a and a background image 301b. The separated N-th object image 301a and the N-th object image 302a are reconstructed to generate an object image 303a of an insertion frame. A method of generating the object image 303a of the insertion frame will be described below. The background image 301b of the insertion frame is generated by averaging the background image data of the N-th frame and the background image data of the N-th frame.

6 is a block diagram of a video image processing method for removing a wide area flicker of a plasma display panel according to an embodiment of the present invention, and FIG. 7 is a video image processing method for removing a wide area flicker of a plasma display panel according to an embodiment of the present invention. It is a flowchart.

A process of generating an insertion frame will be described with reference to FIGS. 6 and 7 as follows.

The N-th frame data input in step 701 is stored in the frame memory 601.

In step 702, the N-1 th frame data and the N th frame data are input to detect main object image data of the N-1 th frame data and the N th frame data, and in step 703, the detected main object image Data and background image data extraction process is performed. As the detection method, it is preferable to use a gradient watershed algorithm or a region growing image processing algorithm which is a known image detection method. When the object image is detected and extracted in each frame by the above algorithm, the main object image data and the background image data are separated from the N-1 th frame data and the N th frame data.

In step 704, the main object image of the insertion frame is generated. The main object image data of the N-th frame and the main object image data of the N-th frame separated in step 703 are synthesized in the following manner.

By comparing the main object image data of the Nth frame and the main object image data of the N-1 frame, the common value of the main object image data values of the frame is used as it is, and the difference is the main object image data of both frames. Use the median of.

The reconstructed data generates an insertion frame main object image as shown in FIG. 5.

In step 705, a background image of the insertion frame is generated. The generation of the background image of the insertion frame is different from the method of generating the insertion frame main object image of step 704. That is, the background image data of the insertion frame generates a background image of the insertion frame using data of the average value of the input background image data of the N-th frame and the background image data of the N-th frame. Since the background image data of both frames does not have a large change, it is possible to add the values of both background image data and divide them in half, or to use a blurred image in which both data are combined.

In step 706, an insertion frame is generated. The insertion frame main object image data generated in step 704 and the background image data of the insertion frame generated in step 705 are synthesized to generate an insertion frame. That is, the insertion frame object image and the insertion frame background image are combined to complete one insertion frame image.

Steps 707 to 709 are for displaying frames, in which an insertion frame generated by the above process is inserted between the N-1 th frame and the N th frame.

The N may be selected from an odd group for 75 Hz up-conversion, which is an embodiment of the present invention. That is, the first frame and the second frame generate one insertion frame, and the third and fourth frames generate one insertion frame. This is done repeatedly until the creation of the insertion frame by the last frame 49 frames and 50 frames. The generated insertion frames are a total of 25. Therefore, the total frame can be 75 frames.

The N value is not limited to an odd group. It is also possible to generate each insertion frame by limiting to an even group.

The 75 Hz up-conversion is one example. According to the object of the invention, the desired up-conversion is possible. That is, it is possible to generate an insertion frame according to the desired total number of frames.

In general, when driving a plasma display panel in W-VGA, since 12 subfields are used for one frame, 24 subfields are used for two frames. In case of dividing this into three frames, use the SW8-SW8-SW8 / SW8-SW7-SW9 / SW9-SW6-SW9 or 8-8-8 / 8-7-9 / 9-6-9 combined SWSE. Can be used to drive.

For example, when driven with an 8-8-8 SF structure, an image may be represented with eight subfields in the middle after configuring an insertion frame in the manner proposed in the present invention.

As described above, according to the present invention, a wide area flicker generated when a 50 Hz video signal such as PAL or SECAM is input to a plasma display panel or a digital micromirror device panel can be removed.

In addition, the present invention is applicable to all similar types of light emitting devices such as digital micromirror devices in addition to plasma display panels.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

1 is a diagram illustrating a method of reconstructing a subfield, which is an embodiment of the prior art.

2 is a diagram illustrating a method of dividing two frames into three frames according to an embodiment of the prior art.

3 is a diagram illustrating a schematic process of creating an insertion frame after object detection according to an embodiment of the present invention.

4 is a diagram illustrating a process of dividing the main object into a background image according to an embodiment of the present invention.

5 is a diagram illustrating a process of generating an object of an insertion frame according to an embodiment of the present invention.

6 is a block diagram of a video image processing method for removing wide area flicker of a plasma display panel according to an embodiment of the present invention.

7 is a flowchart of a video image processing method for removing wide area flicker of a plasma display panel according to an embodiment of the present invention.

<Description of main parts of drawing>

301: N-1th frame 301a: Main object image of N-1th frame

301b: Background image of N-1th frame 302: Nth frame

302a: Main object image of Nth frame 303: Insertion frame

303a: Main object image of insertion frame

304: main object of frame N-1

305: main object of Nth frame 306: main object of insertion frame

601: frame memory 602: object division process

603: main object synthesis process 604: background image synthesis process

605: Image compositing process

Claims (4)

a) storing the N-1th frame data in the frame memory; b) separating main object image data and background image data from among the stored N-th frame data and currently input N-th frame data; c) generating object image data of an insertion frame using main object image data of the N-th frame data and main object image data of the N-th frame data; d) generating background image data of an insertion frame using the background image data of the N-th frame data and the background image data of the N-th frame data; and and e) synthesizing the insertion frame main object image data and the insertion frame background image data to generate an insertion frame. The method of claim 1, further comprising: displaying an N-1 th frame after step e); Displaying an insertion frame; And displaying the Nth frame. The video image processing method for removing the wide area flicker of the plasma display panel. The video image processing method according to claim 1 or 2, wherein N selects one from odd to even from 1 to 50. 4. 4. The video image processing method according to claim 3, wherein the frequency of driving the frame is 75 kHz.